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Overview
Comment:Merge the latest trunk enhancements.
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | wal2
Files: files | file ages | folders
SHA3-256: 8950f1195a5e5a67202192857fda50c359a446d20264eab328209239ae0a2d95
User & Date: drh 2019-04-15 15:17:40
Wiki:wal2
Context
2019-05-14
22:02
Merge the latest trunk enhancements into the wal2 branch. check-in: 23ec34e4 user: drh tags: wal2
2019-04-15
15:28
Merge all recent enhancements. check-in: 1cd536ec user: drh tags: begin-concurrent-pnu-wal2
15:17
Merge the latest trunk enhancements. check-in: 8950f119 user: drh tags: wal2
13:59
Fix a test script problem in fts5corrupt3.test. check-in: 734192d8 user: dan tags: trunk
2019-03-26
12:22
Merge enhancements from trunk. check-in: a0e2e902 user: drh tags: wal2
Changes
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Changes to Makefile.in.

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  $(TOP)/src/test_schema.c \
  $(TOP)/src/test_server.c \
  $(TOP)/src/test_superlock.c \
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclsh.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \

  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_window.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c  \
  $(TOP)/ext/session/test_session.c \
................................................................................
opcodes.h:	parse.h $(TOP)/src/vdbe.c $(TOP)/tool/mkopcodeh.tcl
	cat parse.h $(TOP)/src/vdbe.c | $(TCLSH_CMD) $(TOP)/tool/mkopcodeh.tcl >opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)/src/parse.y lemon$(BEXE) $(TOP)/tool/addopcodes.tcl
	cp $(TOP)/src/parse.y .
	rm -f parse.h
	./lemon$(BEXE) $(OPT_FEATURE_FLAGS) $(OPTS) parse.y
	mv parse.h parse.h.temp
	$(TCLSH_CMD) $(TOP)/tool/addopcodes.tcl parse.h.temp >parse.h

sqlite3.h:	$(TOP)/src/sqlite.h.in $(TOP)/manifest mksourceid$(BEXE) $(TOP)/VERSION
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3h.tcl $(TOP) >sqlite3.h

keywordhash.h:	$(TOP)/tool/mkkeywordhash.c
	$(BCC) -o mkkeywordhash$(BEXE) $(OPT_FEATURE_FLAGS) $(OPTS) $(TOP)/tool/mkkeywordhash.c
	./mkkeywordhash$(BEXE) >keywordhash.h
................................................................................
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#
VALIDIDS=' sqlite3(changeset|changegroup|session)?_'
checksymbols: sqlite3.lo
	nm -g --defined-only sqlite3.lo | egrep -v $(VALIDIDS); test $$? -ne 0

	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c







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  $(TOP)/src/test_schema.c \
  $(TOP)/src/test_server.c \
  $(TOP)/src/test_superlock.c \
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclsh.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vdbecov.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_window.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c  \
  $(TOP)/ext/session/test_session.c \
................................................................................
opcodes.h:	parse.h $(TOP)/src/vdbe.c $(TOP)/tool/mkopcodeh.tcl
	cat parse.h $(TOP)/src/vdbe.c | $(TCLSH_CMD) $(TOP)/tool/mkopcodeh.tcl >opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)/src/parse.y lemon$(BEXE)
	cp $(TOP)/src/parse.y .

	./lemon$(BEXE) $(OPT_FEATURE_FLAGS) $(OPTS) parse.y



sqlite3.h:	$(TOP)/src/sqlite.h.in $(TOP)/manifest mksourceid$(BEXE) $(TOP)/VERSION
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3h.tcl $(TOP) >sqlite3.h

keywordhash.h:	$(TOP)/tool/mkkeywordhash.c
	$(BCC) -o mkkeywordhash$(BEXE) $(OPT_FEATURE_FLAGS) $(OPTS) $(TOP)/tool/mkkeywordhash.c
	./mkkeywordhash$(BEXE) >keywordhash.h
................................................................................
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#
VALIDIDS=' sqlite3(changeset|changegroup|session)?_'
checksymbols: sqlite3.o
	nm -g --defined-only sqlite3.o
	nm -g --defined-only sqlite3.o | egrep -v $(VALIDIDS); test $$? -ne 0
	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c

Changes to Makefile.msc.

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!IFNDEF SQLITETCLH
SQLITETCLH = sqlite_tcl.h
!ENDIF

!IFNDEF SQLITETCLDECLSH
SQLITETCLDECLSH = sqlite_tclDecls.h
!ENDIF








# These are the additional targets that the targets that integrate with the
# Tcl library should depend on when compiling, etc.
#
!IFNDEF SQLITE_TCL_DEP
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
SQLITE_TCL_DEP = $(SQLITETCLDECLSH) $(SQLITETCLH)
................................................................................

UCRTLIBPATH = $(UCRTLIBPATH:\\=\)

# C compiler and options for use in building executables that
# will run on the platform that is doing the build.
#
!IF $(USE_FULLWARN)!=0
BCC = $(NCC) -nologo -W4 $(CCOPTS) $(BCCOPTS)
!ELSE
BCC = $(NCC) -nologo -W3 $(CCOPTS) $(BCCOPTS)
!ENDIF

# Check if assembly code listings should be generated for the source
# code files to be compiled.
#
!IF $(USE_LISTINGS)!=0
BCC = $(BCC) -FAcs
................................................................................
# <<mark>>
# The locations of the Tcl header and library files.  Also, the library that
# non-stubs enabled programs using Tcl must link against.  These variables
# (TCLINCDIR, TCLLIBDIR, and LIBTCL) may be overridden via the environment
# prior to running nmake in order to match the actual installed location and
# version on this machine.
#








!IFNDEF TCLDIR
TCLDIR = $(TOP)\compat\tcl
!ENDIF

!IFNDEF TCLINCDIR
TCLINCDIR = $(TCLDIR)\include
!ENDIF

!IFNDEF TCLLIBDIR
TCLLIBDIR = $(TCLDIR)\lib
!ENDIF

!IFNDEF LIBTCL
LIBTCL = tcl86.lib
!ENDIF

!IFNDEF LIBTCLSTUB
LIBTCLSTUB = tclstub86.lib
!ENDIF

!IFNDEF LIBTCLPATH
LIBTCLPATH = $(TCLDIR)\bin
!ENDIF

# The locations of the zlib header and library files.  These variables
................................................................................
RCC = $(RCC) -I$(ICUINCDIR)
!ENDIF
# <</mark>>

# Command line prefixes for compiling code, compiling resources,
# linking, etc.
#
LTCOMPILE = $(TCC) -Fo$@
LTRCOMPILE = $(RCC) -r
LTLIB = lib.exe
LTLINK = $(TCC) -Fe$@

# If requested, link to the RPCRT4 library.
#
!IF $(USE_RPCRT4_LIB)!=0
................................................................................
# If a platform was set, force the linker to target that.
# Note that the vcvars*.bat family of batch files typically
# set this for you.  Otherwise, the linker will attempt
# to deduce the binary type based on the object files.
!IFDEF PLATFORM
LTLINKOPTS = /NOLOGO /MACHINE:$(PLATFORM)
LTLIBOPTS = /NOLOGO /MACHINE:$(PLATFORM)





!ELSE
LTLINKOPTS = /NOLOGO
LTLIBOPTS = /NOLOGO
!ENDIF

# When compiling for use in the WinRT environment, the following
# linker option must be used to mark the executable as runnable
................................................................................
  $(TOP)\src\test_schema.c \
  $(TOP)\src\test_server.c \
  $(TOP)\src\test_superlock.c \
  $(TOP)\src\test_syscall.c \
  $(TOP)\src\test_tclsh.c \
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \

  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_window.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c \
................................................................................
# Standard options to testfixture.
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra targets for the "all" target that require Tcl.
#
!IF $(NO_TCL)==0
ALL_TCL_TARGETS = libtclsqlite3.lib
!ELSE
ALL_TCL_TARGETS =
!ENDIF
# <</mark>>

# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
................................................................................
shell:	$(SQLITE3EXE)

# <<mark>>
libsqlite3.lib:	$(LIBOBJ)
	$(LTLIB) $(LTLIBOPTS) /OUT:$@ $(LIBOBJ) $(TLIBS)

libtclsqlite3.lib:	tclsqlite.lo libsqlite3.lib
	$(LTLIB) $(LTLIBOPTS) $(LTLIBPATHS) /OUT:$@ tclsqlite.lo libsqlite3.lib $(LIBTCLSTUB) $(TLIBS)















# <</mark>>

$(SQLITE3DLL):	$(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# <<block2>>
sqlite3.def:	libsqlite3.lib
................................................................................
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c opcodes.c
# <</mark>>

# Rule to build the Win32 resources object file.
#
!IF $(USE_RC)!=0
# <<block1>>
$(LIBRESOBJS):	$(TOP)\src\sqlite3.rc $(SQLITE3H)
	echo #ifndef SQLITE_RESOURCE_VERSION > sqlite3rc.h
	for /F %%V in ('type "$(TOP)\VERSION"') do ( \
		echo #define SQLITE_RESOURCE_VERSION %%V \
			| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact . ^, >> sqlite3rc.h \
	)
	echo #endif >> sqlite3rc.h
	$(LTRCOMPILE) -fo $(LIBRESOBJS) $(TOP)\src\sqlite3.rc
................................................................................
opcodes.h:	parse.h $(TOP)\src\vdbe.c $(TOP)\tool\mkopcodeh.tcl
	type parse.h $(TOP)\src\vdbe.c | $(TCLSH_CMD) $(TOP)\tool\mkopcodeh.tcl > opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)\src\parse.y lemon.exe $(TOP)\tool\addopcodes.tcl
	del /Q parse.y parse.h parse.h.temp 2>NUL
	copy $(TOP)\src\parse.y .
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) parse.y
	move parse.h parse.h.temp
	$(TCLSH_CMD) $(TOP)\tool\addopcodes.tcl parse.h.temp > parse.h

$(SQLITE3H):	$(TOP)\src\sqlite.h.in $(TOP)\manifest mksourceid.exe $(TOP)\VERSION
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3h.tcl $(TOP:\=/) > $(SQLITE3H) $(MKSQLITE3H_ARGS)

sqlite3ext.h:	.target_source
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
	type tsrc\sqlite3ext.h | $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*\)" "(SQLITE_CALLBACK *)" \
................................................................................
# <</mark>>

clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) Replace.exe 2>NUL
# <<mark>>

	del /Q opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mksourceid.* mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL
	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe $(SQLITETCLH) $(SQLITETCLDECLSH) 2>NUL
	del /Q lsm.dll lsmtest.exe 2>NUL

	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe dbdump.exe 2>NUL
	del /Q changeset.exe 2>NUL
	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c sqlite3.h 2>NUL







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!IFNDEF SQLITETCLH
SQLITETCLH = sqlite_tcl.h
!ENDIF

!IFNDEF SQLITETCLDECLSH
SQLITETCLDECLSH = sqlite_tclDecls.h
!ENDIF

# This is the name to use for the dynamic link library (DLL) containing the
# Tcl bindings for SQLite.
#
!IFNDEF SQLITE3TCLDLL
SQLITE3TCLDLL = tclsqlite3.dll
!ENDIF

# These are the additional targets that the targets that integrate with the
# Tcl library should depend on when compiling, etc.
#
!IFNDEF SQLITE_TCL_DEP
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
SQLITE_TCL_DEP = $(SQLITETCLDECLSH) $(SQLITETCLH)
................................................................................

UCRTLIBPATH = $(UCRTLIBPATH:\\=\)

# C compiler and options for use in building executables that
# will run on the platform that is doing the build.
#
!IF $(USE_FULLWARN)!=0
BCC = $(NCC) -nologo -W4 -Fd$*.pdb $(CCOPTS) $(BCCOPTS)
!ELSE
BCC = $(NCC) -nologo -W3 -Fd$*.pdb $(CCOPTS) $(BCCOPTS)
!ENDIF

# Check if assembly code listings should be generated for the source
# code files to be compiled.
#
!IF $(USE_LISTINGS)!=0
BCC = $(BCC) -FAcs
................................................................................
# <<mark>>
# The locations of the Tcl header and library files.  Also, the library that
# non-stubs enabled programs using Tcl must link against.  These variables
# (TCLINCDIR, TCLLIBDIR, and LIBTCL) may be overridden via the environment
# prior to running nmake in order to match the actual installed location and
# version on this machine.
#
!IFNDEF TCLVERSION
TCLVERSION = 86
!ENDIF

!IFNDEF TCLSUFFIX
TCLSUFFIX =
!ENDIF

!IFNDEF TCLDIR
TCLDIR = $(TOP)\compat\tcl
!ENDIF

!IFNDEF TCLINCDIR
TCLINCDIR = $(TCLDIR)\include
!ENDIF

!IFNDEF TCLLIBDIR
TCLLIBDIR = $(TCLDIR)\lib
!ENDIF

!IFNDEF LIBTCL
LIBTCL = tcl$(TCLVERSION)$(TCLSUFFIX).lib
!ENDIF

!IFNDEF LIBTCLSTUB
LIBTCLSTUB = tclstub$(TCLVERSION)$(TCLSUFFIX).lib
!ENDIF

!IFNDEF LIBTCLPATH
LIBTCLPATH = $(TCLDIR)\bin
!ENDIF

# The locations of the zlib header and library files.  These variables
................................................................................
RCC = $(RCC) -I$(ICUINCDIR)
!ENDIF
# <</mark>>

# Command line prefixes for compiling code, compiling resources,
# linking, etc.
#
LTCOMPILE = $(TCC) -Fo$@ -Fd$*.pdb
LTRCOMPILE = $(RCC) -r
LTLIB = lib.exe
LTLINK = $(TCC) -Fe$@

# If requested, link to the RPCRT4 library.
#
!IF $(USE_RPCRT4_LIB)!=0
................................................................................
# If a platform was set, force the linker to target that.
# Note that the vcvars*.bat family of batch files typically
# set this for you.  Otherwise, the linker will attempt
# to deduce the binary type based on the object files.
!IFDEF PLATFORM
LTLINKOPTS = /NOLOGO /MACHINE:$(PLATFORM)
LTLIBOPTS = /NOLOGO /MACHINE:$(PLATFORM)
!ELSEIF "$(VISUALSTUDIOVERSION)"=="12.0" || \
        "$(VISUALSTUDIOVERSION)"=="14.0" || \
        "$(VISUALSTUDIOVERSION)"=="15.0"
LTLINKOPTS = /NOLOGO /MACHINE:x86
LTLIBOPTS = /NOLOGO /MACHINE:x86
!ELSE
LTLINKOPTS = /NOLOGO
LTLIBOPTS = /NOLOGO
!ENDIF

# When compiling for use in the WinRT environment, the following
# linker option must be used to mark the executable as runnable
................................................................................
  $(TOP)\src\test_schema.c \
  $(TOP)\src\test_server.c \
  $(TOP)\src\test_superlock.c \
  $(TOP)\src\test_syscall.c \
  $(TOP)\src\test_tclsh.c \
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \
  $(TOP)\src\test_vdbecov.c \
  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_window.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c \
................................................................................
# Standard options to testfixture.
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra targets for the "all" target that require Tcl.
#
!IF $(NO_TCL)==0
ALL_TCL_TARGETS = $(SQLITE3TCLDLL)
!ELSE
ALL_TCL_TARGETS =
!ENDIF
# <</mark>>

# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
................................................................................
shell:	$(SQLITE3EXE)

# <<mark>>
libsqlite3.lib:	$(LIBOBJ)
	$(LTLIB) $(LTLIBOPTS) /OUT:$@ $(LIBOBJ) $(TLIBS)

libtclsqlite3.lib:	tclsqlite.lo libsqlite3.lib
	$(LTLIB) $(LTLIBOPTS) $(TCLLIBPATHS) $(LTLIBPATHS) /OUT:$@ tclsqlite.lo libsqlite3.lib $(LIBTCLSTUB) $(TLIBS)

tclsqlite3.def:	tclsqlite.lo
	echo EXPORTS > tclsqlite3.def
	dumpbin /all tclsqlite.lo \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl include "^\s+/EXPORT:_?((?:Sqlite3|Tclsqlite3)_[^@]*)(?:@\d+)?$$" \1 \
		| sort >> tclsqlite3.def

pkgIndex.tcl:	$(TOP)\VERSION
	for /F %%V in ('type "$(TOP)\VERSION"') do ( \
		echo package ifneeded sqlite3 @version@ [list load [file join $$dir $(SQLITE3TCLDLL)] sqlite3] \
			| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact @version@ %%V > pkgIndex.tcl \
	)

$(SQLITE3TCLDLL):	libtclsqlite3.lib $(LIBRESOBJS) tclsqlite3.def pkgIndex.tcl
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL /DEF:tclsqlite3.def /OUT:$@ libtclsqlite3.lib $(LIBRESOBJS) $(LTLIBS) $(TLIBS)
# <</mark>>

$(SQLITE3DLL):	$(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# <<block2>>
sqlite3.def:	libsqlite3.lib
................................................................................
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c opcodes.c
# <</mark>>

# Rule to build the Win32 resources object file.
#
!IF $(USE_RC)!=0
# <<block1>>
$(LIBRESOBJS):	$(TOP)\src\sqlite3.rc $(SQLITE3H) $(TOP)\VERSION
	echo #ifndef SQLITE_RESOURCE_VERSION > sqlite3rc.h
	for /F %%V in ('type "$(TOP)\VERSION"') do ( \
		echo #define SQLITE_RESOURCE_VERSION %%V \
			| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact . ^, >> sqlite3rc.h \
	)
	echo #endif >> sqlite3rc.h
	$(LTRCOMPILE) -fo $(LIBRESOBJS) $(TOP)\src\sqlite3.rc
................................................................................
opcodes.h:	parse.h $(TOP)\src\vdbe.c $(TOP)\tool\mkopcodeh.tcl
	type parse.h $(TOP)\src\vdbe.c | $(TCLSH_CMD) $(TOP)\tool\mkopcodeh.tcl > opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)\src\parse.y lemon.exe
	del /Q parse.y parse.h parse.h.temp 2>NUL
	copy $(TOP)\src\parse.y .
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) parse.y



$(SQLITE3H):	$(TOP)\src\sqlite.h.in $(TOP)\manifest mksourceid.exe $(TOP)\VERSION
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3h.tcl $(TOP:\=/) > $(SQLITE3H) $(MKSQLITE3H_ARGS)

sqlite3ext.h:	.target_source
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
	type tsrc\sqlite3ext.h | $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*\)" "(SQLITE_CALLBACK *)" \
................................................................................
# <</mark>>

clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) Replace.exe 2>NUL
# <<mark>>
	del /Q $(SQLITE3TCLDLL) pkgIndex.tcl 2>NUL
	del /Q opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mksourceid.* mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL
	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe $(SQLITETCLH) $(SQLITETCLDECLSH) 2>NUL
	del /Q lsm.dll lsmtest.exe 2>NUL
	del /Q atrc.exe changesetfuzz.exe dbtotxt.exe index_usage.exe 2>NUL
	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe dbdump.exe 2>NUL
	del /Q changeset.exe 2>NUL
	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c sqlite3.h 2>NUL

Changes to README.md.

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  *  Latest release as
     [Tarball](https://www.sqlite.org/src/tarball/sqlite.tar.gz?r=release),
     [ZIP-archive](https://www.sqlite.org/src/zip/sqlite.zip?r=release), or
     [SQLite-archive](https://www.sqlite.org/src/sqlar/sqlite.sqlar?r=release).

  *  For other check-ins, substitute an appropriate branch name or
     tag or hash prefix for "release" in the URLs of the previous
     bullet.  Or browse the [timeline](https://www.sqlite.org/src/timeline)
     to locate the check-in desired, click on its information page link,
     then click on the "Tarball" or "ZIP Archive" links on the information
     page.

If you do want to use Fossil to check out the source tree, 
first install Fossil version 2.0 or later.
................................................................................
used to generate that documentation are in a separate source repository.

The SQL language parser is **parse.c** which is generate from a grammar in
the src/parse.y file.  The conversion of "parse.y" into "parse.c" is done
by the [lemon](./doc/lemon.html) LALR(1) parser generator.  The source code
for lemon is at tool/lemon.c.  Lemon uses the tool/lempar.c file as a
template for generating its parser.

Lemon also generates the **parse.h** header file, at the same time it
generates parse.c. But the parse.h header file is
modified further (to add additional symbols) using the ./addopcodes.tcl
Tcl script.

The **opcodes.h** header file contains macros that define the numbers
corresponding to opcodes in the "VDBE" virtual machine.  The opcodes.h
file is generated by the scanning the src/vdbe.c source file.  The
Tcl script at ./mkopcodeh.tcl does this scan and generates opcodes.h.
A second Tcl script, ./mkopcodec.tcl, then scans opcodes.h to generate
the **opcodes.c** source file, which contains a reverse mapping from
................................................................................
<a name="vauth"></a>
## Verifying Code Authenticity

If you obtained an SQLite source tree from a secondary source, such as a
GitHub mirror, and you want to verify that it has not been altered, there
are a couple of ways to do that.

If you have an official release version of SQLite, and you are using the
`sqlite3.c` amalgamation, then SHA3-256 hashes for the amalgamation are
available in the [change log](https://www.sqlite.org/changes.html) on
the official website.  After building the `sqlite3.c` file, you can check
that is authentic by comparing the hash.  This does not ensure that the
test scripts are unaltered, but it does validate the deliverable part of

the code and only involves computing and comparing a single hash.

For versions other than an official release, or if you are building the
`sqlite3.c` amalgamation using non-standard build options, the verification
process is a little more involved.  The `manifest` file at the root directory
of the source tree ([example](https://sqlite.org/src/artifact/bd49a8271d650fa8))
contains either a SHA3-256 hash (for newer files) or a SHA1 hash (for 
older files) for every source file in the repository.  You can write a script
to extracts hashes from `manifest` and verifies the hashes against the 
corresponding files in the source tree.  The SHA3-256 hash of the `manifest`
file itself is the official name of the version of the source tree that you
have.  The `manifest.uuid` file should contain the SHA3-256 hash of the
`manifest` file.  If all of the above hash comparisons are correct, then
you can be confident that your source tree is authentic and unadulterated.





## Contacts

The main SQLite webpage is [http://www.sqlite.org/](http://www.sqlite.org/)
with geographically distributed backups at
[http://www2.sqlite.org/](http://www2.sqlite.org) and
[http://www3.sqlite.org/](http://www3.sqlite.org).







|







 







<

|
<
<







 







|



|

>
|




|









>
>
>
>


|



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328
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  *  Latest release as
     [Tarball](https://www.sqlite.org/src/tarball/sqlite.tar.gz?r=release),
     [ZIP-archive](https://www.sqlite.org/src/zip/sqlite.zip?r=release), or
     [SQLite-archive](https://www.sqlite.org/src/sqlar/sqlite.sqlar?r=release).

  *  For other check-ins, substitute an appropriate branch name or
     tag or hash prefix in place of "release" in the URLs of the previous
     bullet.  Or browse the [timeline](https://www.sqlite.org/src/timeline)
     to locate the check-in desired, click on its information page link,
     then click on the "Tarball" or "ZIP Archive" links on the information
     page.

If you do want to use Fossil to check out the source tree, 
first install Fossil version 2.0 or later.
................................................................................
used to generate that documentation are in a separate source repository.

The SQL language parser is **parse.c** which is generate from a grammar in
the src/parse.y file.  The conversion of "parse.y" into "parse.c" is done
by the [lemon](./doc/lemon.html) LALR(1) parser generator.  The source code
for lemon is at tool/lemon.c.  Lemon uses the tool/lempar.c file as a
template for generating its parser.

Lemon also generates the **parse.h** header file, at the same time it
generates parse.c.



The **opcodes.h** header file contains macros that define the numbers
corresponding to opcodes in the "VDBE" virtual machine.  The opcodes.h
file is generated by the scanning the src/vdbe.c source file.  The
Tcl script at ./mkopcodeh.tcl does this scan and generates opcodes.h.
A second Tcl script, ./mkopcodec.tcl, then scans opcodes.h to generate
the **opcodes.c** source file, which contains a reverse mapping from
................................................................................
<a name="vauth"></a>
## Verifying Code Authenticity

If you obtained an SQLite source tree from a secondary source, such as a
GitHub mirror, and you want to verify that it has not been altered, there
are a couple of ways to do that.

If you have a release version of SQLite, and you are using the
`sqlite3.c` amalgamation, then SHA3-256 hashes for the amalgamation are
available in the [change log](https://www.sqlite.org/changes.html) on
the official website.  After building the `sqlite3.c` file, you can check
that it is authentic by comparing the hash.  This does not ensure that the
test scripts are unaltered, but it does validate the deliverable part of
the code and the verification process only involves computing and
comparing a single hash.

For versions other than an official release, or if you are building the
`sqlite3.c` amalgamation using non-standard build options, the verification
process is a little more involved.  The `manifest` file at the root directory
of the source tree
contains either a SHA3-256 hash (for newer files) or a SHA1 hash (for 
older files) for every source file in the repository.  You can write a script
to extracts hashes from `manifest` and verifies the hashes against the 
corresponding files in the source tree.  The SHA3-256 hash of the `manifest`
file itself is the official name of the version of the source tree that you
have.  The `manifest.uuid` file should contain the SHA3-256 hash of the
`manifest` file.  If all of the above hash comparisons are correct, then
you can be confident that your source tree is authentic and unadulterated.

The format of the `manifest` file should be mostly self-explanatory, but
if you want details, they are available
[here](https://fossil-scm.org/fossil/doc/trunk/www/fileformat.wiki#manifest).

## Contacts

The main SQLite website is [http://www.sqlite.org/](http://www.sqlite.org/)
with geographically distributed backups at
[http://www2.sqlite.org/](http://www2.sqlite.org) and
[http://www3.sqlite.org/](http://www3.sqlite.org).

Changes to autoconf/Makefile.msc.

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UCRTLIBPATH = $(UCRTLIBPATH:\\=\)

# C compiler and options for use in building executables that
# will run on the platform that is doing the build.
#
!IF $(USE_FULLWARN)!=0
BCC = $(NCC) -nologo -W4 $(CCOPTS) $(BCCOPTS)
!ELSE
BCC = $(NCC) -nologo -W3 $(CCOPTS) $(BCCOPTS)
!ENDIF

# Check if assembly code listings should be generated for the source
# code files to be compiled.
#
!IF $(USE_LISTINGS)!=0
BCC = $(BCC) -FAcs
................................................................................
BCC = $(BCC) -Zi
!ENDIF


# Command line prefixes for compiling code, compiling resources,
# linking, etc.
#
LTCOMPILE = $(TCC) -Fo$@
LTRCOMPILE = $(RCC) -r
LTLIB = lib.exe
LTLINK = $(TCC) -Fe$@

# If requested, link to the RPCRT4 library.
#
!IF $(USE_RPCRT4_LIB)!=0
................................................................................
# If a platform was set, force the linker to target that.
# Note that the vcvars*.bat family of batch files typically
# set this for you.  Otherwise, the linker will attempt
# to deduce the binary type based on the object files.
!IFDEF PLATFORM
LTLINKOPTS = /NOLOGO /MACHINE:$(PLATFORM)
LTLIBOPTS = /NOLOGO /MACHINE:$(PLATFORM)





!ELSE
LTLINKOPTS = /NOLOGO
LTLIBOPTS = /NOLOGO
!ENDIF

# When compiling for use in the WinRT environment, the following
# linker option must be used to mark the executable as runnable







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UCRTLIBPATH = $(UCRTLIBPATH:\\=\)

# C compiler and options for use in building executables that
# will run on the platform that is doing the build.
#
!IF $(USE_FULLWARN)!=0
BCC = $(NCC) -nologo -W4 -Fd$*.pdb $(CCOPTS) $(BCCOPTS)
!ELSE
BCC = $(NCC) -nologo -W3 -Fd$*.pdb $(CCOPTS) $(BCCOPTS)
!ENDIF

# Check if assembly code listings should be generated for the source
# code files to be compiled.
#
!IF $(USE_LISTINGS)!=0
BCC = $(BCC) -FAcs
................................................................................
BCC = $(BCC) -Zi
!ENDIF


# Command line prefixes for compiling code, compiling resources,
# linking, etc.
#
LTCOMPILE = $(TCC) -Fo$@ -Fd$*.pdb
LTRCOMPILE = $(RCC) -r
LTLIB = lib.exe
LTLINK = $(TCC) -Fe$@

# If requested, link to the RPCRT4 library.
#
!IF $(USE_RPCRT4_LIB)!=0
................................................................................
# If a platform was set, force the linker to target that.
# Note that the vcvars*.bat family of batch files typically
# set this for you.  Otherwise, the linker will attempt
# to deduce the binary type based on the object files.
!IFDEF PLATFORM
LTLINKOPTS = /NOLOGO /MACHINE:$(PLATFORM)
LTLIBOPTS = /NOLOGO /MACHINE:$(PLATFORM)
!ELSEIF "$(VISUALSTUDIOVERSION)"=="12.0" || \
        "$(VISUALSTUDIOVERSION)"=="14.0" || \
        "$(VISUALSTUDIOVERSION)"=="15.0"
LTLINKOPTS = /NOLOGO /MACHINE:x86
LTLIBOPTS = /NOLOGO /MACHINE:x86
!ELSE
LTLINKOPTS = /NOLOGO
LTLIBOPTS = /NOLOGO
!ENDIF

# When compiling for use in the WinRT environment, the following
# linker option must be used to mark the executable as runnable

Changes to ext/fts3/fts3_snippet.c.

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/*************************************************************************
** Start of MatchinfoBuffer code.
*/

/*
** Allocate a two-slot MatchinfoBuffer object.
*/
static MatchinfoBuffer *fts3MIBufferNew(int nElem, const char *zMatchinfo){
  MatchinfoBuffer *pRet;
  int nByte = sizeof(u32) * (2*nElem + 1) + sizeof(MatchinfoBuffer);
  int nStr = (int)strlen(zMatchinfo);


  pRet = sqlite3_malloc(nByte + nStr+1);
  if( pRet ){
    memset(pRet, 0, nByte);
    pRet->aMatchinfo[0] = (u8*)(&pRet->aMatchinfo[1]) - (u8*)pRet;
    pRet->aMatchinfo[1+nElem] = pRet->aMatchinfo[0] + sizeof(u32)*(nElem+1);

    pRet->nElem = nElem;
    pRet->zMatchinfo = ((char*)pRet) + nByte;
    memcpy(pRet->zMatchinfo, zMatchinfo, nStr+1);
    pRet->aRef[0] = 1;
  }

  return pRet;
}
................................................................................
  ){
    return SQLITE_OK;
  }
  sqlite3Fts3ErrMsg(pzErr, "unrecognized matchinfo request: %c", cArg);
  return SQLITE_ERROR;
}

static int fts3MatchinfoSize(MatchInfo *pInfo, char cArg){
  int nVal;                       /* Number of integers output by cArg */

  switch( cArg ){
    case FTS3_MATCHINFO_NDOC:
    case FTS3_MATCHINFO_NPHRASE: 
    case FTS3_MATCHINFO_NCOL: 
      nVal = 1;
      break;
................................................................................
        if( rc==SQLITE_OK ){
          rc = fts3MatchinfoLcs(pCsr, pInfo);
        }
        break;

      case FTS3_MATCHINFO_LHITS_BM:
      case FTS3_MATCHINFO_LHITS: {
        int nZero = fts3MatchinfoSize(pInfo, zArg[i]) * sizeof(u32);
        memset(pInfo->aMatchinfo, 0, nZero);
        rc = fts3ExprLHitGather(pCsr->pExpr, pInfo);
        break;
      }

      default: {
        Fts3Expr *pExpr;
................................................................................

  /* If Fts3Cursor.pMIBuffer is NULL, then this is the first time the
  ** matchinfo function has been called for this query. In this case 
  ** allocate the array used to accumulate the matchinfo data and
  ** initialize those elements that are constant for every row.
  */
  if( pCsr->pMIBuffer==0 ){
    int nMatchinfo = 0;           /* Number of u32 elements in match-info */
    int i;                        /* Used to iterate through zArg */

    /* Determine the number of phrases in the query */
    pCsr->nPhrase = fts3ExprPhraseCount(pCsr->pExpr);
    sInfo.nPhrase = pCsr->nPhrase;

    /* Determine the number of integers in the buffer returned by this call. */







|

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/*************************************************************************
** Start of MatchinfoBuffer code.
*/

/*
** Allocate a two-slot MatchinfoBuffer object.
*/
static MatchinfoBuffer *fts3MIBufferNew(size_t nElem, const char *zMatchinfo){
  MatchinfoBuffer *pRet;
  sqlite3_int64 nByte = sizeof(u32) * (2*(sqlite3_int64)nElem + 1)
                           + sizeof(MatchinfoBuffer);
  sqlite3_int64 nStr = strlen(zMatchinfo);

  pRet = sqlite3_malloc64(nByte + nStr+1);
  if( pRet ){
    memset(pRet, 0, nByte);
    pRet->aMatchinfo[0] = (u8*)(&pRet->aMatchinfo[1]) - (u8*)pRet;
    pRet->aMatchinfo[1+nElem] = pRet->aMatchinfo[0]
                                      + sizeof(u32)*((int)nElem+1);
    pRet->nElem = (int)nElem;
    pRet->zMatchinfo = ((char*)pRet) + nByte;
    memcpy(pRet->zMatchinfo, zMatchinfo, nStr+1);
    pRet->aRef[0] = 1;
  }

  return pRet;
}
................................................................................
  ){
    return SQLITE_OK;
  }
  sqlite3Fts3ErrMsg(pzErr, "unrecognized matchinfo request: %c", cArg);
  return SQLITE_ERROR;
}

static size_t fts3MatchinfoSize(MatchInfo *pInfo, char cArg){
  size_t nVal;                      /* Number of integers output by cArg */

  switch( cArg ){
    case FTS3_MATCHINFO_NDOC:
    case FTS3_MATCHINFO_NPHRASE: 
    case FTS3_MATCHINFO_NCOL: 
      nVal = 1;
      break;
................................................................................
        if( rc==SQLITE_OK ){
          rc = fts3MatchinfoLcs(pCsr, pInfo);
        }
        break;

      case FTS3_MATCHINFO_LHITS_BM:
      case FTS3_MATCHINFO_LHITS: {
        size_t nZero = fts3MatchinfoSize(pInfo, zArg[i]) * sizeof(u32);
        memset(pInfo->aMatchinfo, 0, nZero);
        rc = fts3ExprLHitGather(pCsr->pExpr, pInfo);
        break;
      }

      default: {
        Fts3Expr *pExpr;
................................................................................

  /* If Fts3Cursor.pMIBuffer is NULL, then this is the first time the
  ** matchinfo function has been called for this query. In this case 
  ** allocate the array used to accumulate the matchinfo data and
  ** initialize those elements that are constant for every row.
  */
  if( pCsr->pMIBuffer==0 ){
    size_t nMatchinfo = 0;        /* Number of u32 elements in match-info */
    int i;                        /* Used to iterate through zArg */

    /* Determine the number of phrases in the query */
    pCsr->nPhrase = fts3ExprPhraseCount(pCsr->pExpr);
    sInfo.nPhrase = pCsr->nPhrase;

    /* Determine the number of integers in the buffer returned by this call. */

Changes to ext/fts3/fts3_test.c.

444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
...
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
  while( p<pEnd && testIsTokenChar(*p)==0 ) p++;

  if( p==pEnd ){
    rc = SQLITE_DONE;
  }else{
    /* Advance to the end of the token */
    const char *pToken = p;
    int nToken;
    while( p<pEnd && testIsTokenChar(*p) ) p++;
    nToken = (int)(p-pToken);

    /* Copy the token into the buffer */
    if( nToken>pCsr->nBuffer ){
      sqlite3_free(pCsr->aBuffer);
      pCsr->aBuffer = sqlite3_malloc(nToken);
    }
    if( pCsr->aBuffer==0 ){
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
................................................................................
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = (char)testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);
      *piEndOffset = (int)(p - pCsr->aInput);
      *piPosition = pCsr->iToken;
    }
  }

  return rc;







|

|




|







 







|







444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
...
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
  while( p<pEnd && testIsTokenChar(*p)==0 ) p++;

  if( p==pEnd ){
    rc = SQLITE_DONE;
  }else{
    /* Advance to the end of the token */
    const char *pToken = p;
    sqlite3_int64 nToken;
    while( p<pEnd && testIsTokenChar(*p) ) p++;
    nToken = (sqlite3_int64)(p-pToken);

    /* Copy the token into the buffer */
    if( nToken>pCsr->nBuffer ){
      sqlite3_free(pCsr->aBuffer);
      pCsr->aBuffer = sqlite3_malloc64(nToken);
    }
    if( pCsr->aBuffer==0 ){
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
................................................................................
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = (char)testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = (int)nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);
      *piEndOffset = (int)(p - pCsr->aInput);
      *piPosition = pCsr->iToken;
    }
  }

  return rc;

Changes to ext/fts3/fts3_tokenize_vtab.c.

342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
  UNUSED_PARAMETER(idxStr);
  UNUSED_PARAMETER(nVal);

  fts3tokResetCursor(pCsr);
  if( idxNum==1 ){
    const char *zByte = (const char *)sqlite3_value_text(apVal[0]);
    int nByte = sqlite3_value_bytes(apVal[0]);
    pCsr->zInput = sqlite3_malloc(nByte+1);
    if( pCsr->zInput==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memcpy(pCsr->zInput, zByte, nByte);
      pCsr->zInput[nByte] = 0;
      rc = pTab->pMod->xOpen(pTab->pTok, pCsr->zInput, nByte, &pCsr->pCsr);
      if( rc==SQLITE_OK ){







|







342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
  UNUSED_PARAMETER(idxStr);
  UNUSED_PARAMETER(nVal);

  fts3tokResetCursor(pCsr);
  if( idxNum==1 ){
    const char *zByte = (const char *)sqlite3_value_text(apVal[0]);
    int nByte = sqlite3_value_bytes(apVal[0]);
    pCsr->zInput = sqlite3_malloc64(nByte+1);
    if( pCsr->zInput==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memcpy(pCsr->zInput, zByte, nByte);
      pCsr->zInput[nByte] = 0;
      rc = pTab->pMod->xOpen(pTab->pTok, pCsr->zInput, nByte, &pCsr->pCsr);
      if( rc==SQLITE_OK ){

Changes to ext/fts3/fts3_tokenizer.c.

75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
...
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
...
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207

  pHash = (Fts3Hash *)sqlite3_user_data(context);

  zName = sqlite3_value_text(argv[0]);
  nName = sqlite3_value_bytes(argv[0])+1;

  if( argc==2 ){
    if( fts3TokenizerEnabled(context) ){
      void *pOld;
      int n = sqlite3_value_bytes(argv[1]);
      if( zName==0 || n!=sizeof(pPtr) ){
        sqlite3_result_error(context, "argument type mismatch", -1);
        return;
      }
      pPtr = *(void **)sqlite3_value_blob(argv[1]);
................................................................................
    if( !pPtr ){
      char *zErr = sqlite3_mprintf("unknown tokenizer: %s", zName);
      sqlite3_result_error(context, zErr, -1);
      sqlite3_free(zErr);
      return;
    }
  }
  if( fts3TokenizerEnabled(context) ){
    sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
  }
}

int sqlite3Fts3IsIdChar(char c){
  static const char isFtsIdChar[] = {
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 0x */
................................................................................
    sqlite3Fts3ErrMsg(pzErr, "unknown tokenizer: %s", z);
    rc = SQLITE_ERROR;
  }else{
    char const **aArg = 0;
    int iArg = 0;
    z = &z[n+1];
    while( z<zEnd && (NULL!=(z = (char *)sqlite3Fts3NextToken(z, &n))) ){
      int nNew = sizeof(char *)*(iArg+1);
      char const **aNew = (const char **)sqlite3_realloc((void *)aArg, nNew);
      if( !aNew ){
        sqlite3_free(zCopy);
        sqlite3_free((void *)aArg);
        return SQLITE_NOMEM;
      }
      aArg = aNew;
      aArg[iArg++] = z;







|







 







|







 







|
|







75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
...
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
...
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207

  pHash = (Fts3Hash *)sqlite3_user_data(context);

  zName = sqlite3_value_text(argv[0]);
  nName = sqlite3_value_bytes(argv[0])+1;

  if( argc==2 ){
    if( fts3TokenizerEnabled(context) || sqlite3_value_frombind(argv[1]) ){
      void *pOld;
      int n = sqlite3_value_bytes(argv[1]);
      if( zName==0 || n!=sizeof(pPtr) ){
        sqlite3_result_error(context, "argument type mismatch", -1);
        return;
      }
      pPtr = *(void **)sqlite3_value_blob(argv[1]);
................................................................................
    if( !pPtr ){
      char *zErr = sqlite3_mprintf("unknown tokenizer: %s", zName);
      sqlite3_result_error(context, zErr, -1);
      sqlite3_free(zErr);
      return;
    }
  }
  if( fts3TokenizerEnabled(context) || sqlite3_value_frombind(argv[0]) ){
    sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
  }
}

int sqlite3Fts3IsIdChar(char c){
  static const char isFtsIdChar[] = {
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 0x */
................................................................................
    sqlite3Fts3ErrMsg(pzErr, "unknown tokenizer: %s", z);
    rc = SQLITE_ERROR;
  }else{
    char const **aArg = 0;
    int iArg = 0;
    z = &z[n+1];
    while( z<zEnd && (NULL!=(z = (char *)sqlite3Fts3NextToken(z, &n))) ){
      sqlite3_int64 nNew = sizeof(char *)*(iArg+1);
      char const **aNew = (const char **)sqlite3_realloc64((void *)aArg, nNew);
      if( !aNew ){
        sqlite3_free(zCopy);
        sqlite3_free((void *)aArg);
        return SQLITE_NOMEM;
      }
      aArg = aNew;
      aArg[iArg++] = z;

Changes to ext/fts3/fts3_write.c.

1748
1749
1750
1751
1752
1753
1754

1755
1756
1757
1758
1759
1760
1761
1762
1763
....
3363
3364
3365
3366
3367
3368
3369
3370
3371
3372
3373
3374
3375
3376
3377
....
3413
3414
3415
3416
3417
3418
3419
3420
3421
3422
3423
3424
3425
3426
3427
....
3534
3535
3536
3537
3538
3539
3540
3541
3542
3543
3544
3545
3546
3547
3548
3549
....
3601
3602
3603
3604
3605
3606
3607
3608
3609
3610
3611
3612
3613
3614
3615
3616
3617
3618
3619
3620
....
5586
5587
5588
5589
5590
5591
5592
5593
5594
5595
5596
5597
5598
5599
5600
    if( pE ){
      aElem = &pE;
      nElem = 1;
    }
  }

  if( nElem>0 ){

    int nByte = sizeof(Fts3SegReader) + (nElem+1)*sizeof(Fts3HashElem *);
    pReader = (Fts3SegReader *)sqlite3_malloc(nByte);
    if( !pReader ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pReader, 0, nByte);
      pReader->iIdx = 0x7FFFFFFF;
      pReader->ppNextElem = (Fts3HashElem **)&pReader[1];
      memcpy(pReader->ppNextElem, aElem, nElem*sizeof(Fts3HashElem *));
................................................................................
){
  char *pBlob;             /* The BLOB encoding of the document size */
  int nBlob;               /* Number of bytes in the BLOB */
  sqlite3_stmt *pStmt;     /* Statement used to insert the encoding */
  int rc;                  /* Result code from subfunctions */

  if( *pRC ) return;
  pBlob = sqlite3_malloc( 10*p->nColumn );
  if( pBlob==0 ){
    *pRC = SQLITE_NOMEM;
    return;
  }
  fts3EncodeIntArray(p->nColumn, aSz, pBlob, &nBlob);
  rc = fts3SqlStmt(p, SQL_REPLACE_DOCSIZE, &pStmt, 0);
  if( rc ){
................................................................................
  sqlite3_stmt *pStmt;     /* Statement for reading and writing */
  int i;                   /* Loop counter */
  int rc;                  /* Result code from subfunctions */

  const int nStat = p->nColumn+2;

  if( *pRC ) return;
  a = sqlite3_malloc( (sizeof(u32)+10)*nStat );
  if( a==0 ){
    *pRC = SQLITE_NOMEM;
    return;
  }
  pBlob = (char*)&a[nStat];
  rc = fts3SqlStmt(p, SQL_SELECT_STAT, &pStmt, 0);
  if( rc ){
................................................................................
      rc = SQLITE_NOMEM;
    }else{
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0);
      sqlite3_free(zSql);
    }

    if( rc==SQLITE_OK ){
      int nByte = sizeof(u32) * (p->nColumn+1)*3;
      aSz = (u32 *)sqlite3_malloc(nByte);
      if( aSz==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(aSz, 0, nByte);
        aSzIns = &aSz[p->nColumn+1];
        aSzDel = &aSzIns[p->nColumn+1];
      }
................................................................................
  Fts3Table *p,                   /* FTS3 table handle */
  sqlite3_int64 iAbsLevel,        /* Absolute level to open */
  int nSeg,                       /* Number of segments to merge */
  Fts3MultiSegReader *pCsr        /* Cursor object to populate */
){
  int rc;                         /* Return Code */
  sqlite3_stmt *pStmt = 0;        /* Statement used to read %_segdir entry */  
  int nByte;                      /* Bytes allocated at pCsr->apSegment[] */

  /* Allocate space for the Fts3MultiSegReader.aCsr[] array */
  memset(pCsr, 0, sizeof(*pCsr));
  nByte = sizeof(Fts3SegReader *) * nSeg;
  pCsr->apSegment = (Fts3SegReader **)sqlite3_malloc(nByte);

  if( pCsr->apSegment==0 ){
    rc = SQLITE_NOMEM;
  }else{
    memset(pCsr->apSegment, 0, nByte);
    rc = fts3SqlStmt(p, SQL_SELECT_LEVEL, &pStmt, 0);
  }
................................................................................

  if( nArg>1 && sqlite3_value_int(apVal[2 + p->nColumn + 2])<0 ){
    rc = SQLITE_CONSTRAINT;
    goto update_out;
  }

  /* Allocate space to hold the change in document sizes */
  aSzDel = sqlite3_malloc( sizeof(aSzDel[0])*(p->nColumn+1)*2 );
  if( aSzDel==0 ){
    rc = SQLITE_NOMEM;
    goto update_out;
  }
  aSzIns = &aSzDel[p->nColumn+1];
  memset(aSzDel, 0, sizeof(aSzDel[0])*(p->nColumn+1)*2);








>
|
|







 







|







 







|







 







|
|







 







|




|







 







|







1748
1749
1750
1751
1752
1753
1754
1755
1756
1757
1758
1759
1760
1761
1762
1763
1764
....
3364
3365
3366
3367
3368
3369
3370
3371
3372
3373
3374
3375
3376
3377
3378
....
3414
3415
3416
3417
3418
3419
3420
3421
3422
3423
3424
3425
3426
3427
3428
....
3535
3536
3537
3538
3539
3540
3541
3542
3543
3544
3545
3546
3547
3548
3549
3550
....
3602
3603
3604
3605
3606
3607
3608
3609
3610
3611
3612
3613
3614
3615
3616
3617
3618
3619
3620
3621
....
5587
5588
5589
5590
5591
5592
5593
5594
5595
5596
5597
5598
5599
5600
5601
    if( pE ){
      aElem = &pE;
      nElem = 1;
    }
  }

  if( nElem>0 ){
    sqlite3_int64 nByte;
    nByte = sizeof(Fts3SegReader) + (nElem+1)*sizeof(Fts3HashElem *);
    pReader = (Fts3SegReader *)sqlite3_malloc64(nByte);
    if( !pReader ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pReader, 0, nByte);
      pReader->iIdx = 0x7FFFFFFF;
      pReader->ppNextElem = (Fts3HashElem **)&pReader[1];
      memcpy(pReader->ppNextElem, aElem, nElem*sizeof(Fts3HashElem *));
................................................................................
){
  char *pBlob;             /* The BLOB encoding of the document size */
  int nBlob;               /* Number of bytes in the BLOB */
  sqlite3_stmt *pStmt;     /* Statement used to insert the encoding */
  int rc;                  /* Result code from subfunctions */

  if( *pRC ) return;
  pBlob = sqlite3_malloc64( 10*(sqlite3_int64)p->nColumn );
  if( pBlob==0 ){
    *pRC = SQLITE_NOMEM;
    return;
  }
  fts3EncodeIntArray(p->nColumn, aSz, pBlob, &nBlob);
  rc = fts3SqlStmt(p, SQL_REPLACE_DOCSIZE, &pStmt, 0);
  if( rc ){
................................................................................
  sqlite3_stmt *pStmt;     /* Statement for reading and writing */
  int i;                   /* Loop counter */
  int rc;                  /* Result code from subfunctions */

  const int nStat = p->nColumn+2;

  if( *pRC ) return;
  a = sqlite3_malloc64( (sizeof(u32)+10)*(sqlite3_int64)nStat );
  if( a==0 ){
    *pRC = SQLITE_NOMEM;
    return;
  }
  pBlob = (char*)&a[nStat];
  rc = fts3SqlStmt(p, SQL_SELECT_STAT, &pStmt, 0);
  if( rc ){
................................................................................
      rc = SQLITE_NOMEM;
    }else{
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0);
      sqlite3_free(zSql);
    }

    if( rc==SQLITE_OK ){
      sqlite3_int64 nByte = sizeof(u32) * ((sqlite3_int64)p->nColumn+1)*3;
      aSz = (u32 *)sqlite3_malloc64(nByte);
      if( aSz==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(aSz, 0, nByte);
        aSzIns = &aSz[p->nColumn+1];
        aSzDel = &aSzIns[p->nColumn+1];
      }
................................................................................
  Fts3Table *p,                   /* FTS3 table handle */
  sqlite3_int64 iAbsLevel,        /* Absolute level to open */
  int nSeg,                       /* Number of segments to merge */
  Fts3MultiSegReader *pCsr        /* Cursor object to populate */
){
  int rc;                         /* Return Code */
  sqlite3_stmt *pStmt = 0;        /* Statement used to read %_segdir entry */  
  sqlite3_int64 nByte;            /* Bytes allocated at pCsr->apSegment[] */

  /* Allocate space for the Fts3MultiSegReader.aCsr[] array */
  memset(pCsr, 0, sizeof(*pCsr));
  nByte = sizeof(Fts3SegReader *) * nSeg;
  pCsr->apSegment = (Fts3SegReader **)sqlite3_malloc64(nByte);

  if( pCsr->apSegment==0 ){
    rc = SQLITE_NOMEM;
  }else{
    memset(pCsr->apSegment, 0, nByte);
    rc = fts3SqlStmt(p, SQL_SELECT_LEVEL, &pStmt, 0);
  }
................................................................................

  if( nArg>1 && sqlite3_value_int(apVal[2 + p->nColumn + 2])<0 ){
    rc = SQLITE_CONSTRAINT;
    goto update_out;
  }

  /* Allocate space to hold the change in document sizes */
  aSzDel = sqlite3_malloc64(sizeof(aSzDel[0])*((sqlite3_int64)p->nColumn+1)*2);
  if( aSzDel==0 ){
    rc = SQLITE_NOMEM;
    goto update_out;
  }
  aSzIns = &aSzDel[p->nColumn+1];
  memset(aSzDel, 0, sizeof(aSzDel[0])*(p->nColumn+1)*2);

Changes to ext/fts5/fts5_index.c.

2639
2640
2641
2642
2643
2644
2645
2646
2647
2648
2649
2650
2651
2652
2653
2654
....
3687
3688
3689
3690
3691
3692
3693
3694
3695
3696
3697
3698
3699
3700
3701
  if( p1->pLeaf==0 ){           /* If p1 is at EOF */
    iRes = i2;
  }else if( p2->pLeaf==0 ){     /* If p2 is at EOF */
    iRes = i1;
  }else{
    int res = fts5BufferCompare(&p1->term, &p2->term);
    if( res==0 ){
      assert( i2>i1 );
      assert( i2!=0 );
      pRes->bTermEq = 1;
      if( p1->iRowid==p2->iRowid ){
        p1->bDel = p2->bDel;
        return i2;
      }
      res = ((p1->iRowid > p2->iRowid)==pIter->bRev) ? -1 : +1;
    }
................................................................................
  if( p->rc==SQLITE_OK && nLvl>=pWriter->nDlidx ){
    Fts5DlidxWriter *aDlidx = (Fts5DlidxWriter*)sqlite3_realloc64(
        pWriter->aDlidx, sizeof(Fts5DlidxWriter) * nLvl
    );
    if( aDlidx==0 ){
      p->rc = SQLITE_NOMEM;
    }else{
      int nByte = sizeof(Fts5DlidxWriter) * (nLvl - pWriter->nDlidx);
      memset(&aDlidx[pWriter->nDlidx], 0, nByte);
      pWriter->aDlidx = aDlidx;
      pWriter->nDlidx = nLvl;
    }
  }
  return p->rc;
}







|
|







 







|







2639
2640
2641
2642
2643
2644
2645
2646
2647
2648
2649
2650
2651
2652
2653
2654
....
3687
3688
3689
3690
3691
3692
3693
3694
3695
3696
3697
3698
3699
3700
3701
  if( p1->pLeaf==0 ){           /* If p1 is at EOF */
    iRes = i2;
  }else if( p2->pLeaf==0 ){     /* If p2 is at EOF */
    iRes = i1;
  }else{
    int res = fts5BufferCompare(&p1->term, &p2->term);
    if( res==0 ){
      assert_nc( i2>i1 );
      assert_nc( i2!=0 );
      pRes->bTermEq = 1;
      if( p1->iRowid==p2->iRowid ){
        p1->bDel = p2->bDel;
        return i2;
      }
      res = ((p1->iRowid > p2->iRowid)==pIter->bRev) ? -1 : +1;
    }
................................................................................
  if( p->rc==SQLITE_OK && nLvl>=pWriter->nDlidx ){
    Fts5DlidxWriter *aDlidx = (Fts5DlidxWriter*)sqlite3_realloc64(
        pWriter->aDlidx, sizeof(Fts5DlidxWriter) * nLvl
    );
    if( aDlidx==0 ){
      p->rc = SQLITE_NOMEM;
    }else{
      size_t nByte = sizeof(Fts5DlidxWriter) * (nLvl - pWriter->nDlidx);
      memset(&aDlidx[pWriter->nDlidx], 0, nByte);
      pWriter->aDlidx = aDlidx;
      pWriter->nDlidx = nLvl;
    }
  }
  return p->rc;
}

Changes to ext/fts5/fts5_main.c.

2464
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2482
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....
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2512
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  fts5_extension_function xFunc,  /* Aux. function implementation */
  void(*xDestroy)(void*)          /* Destructor for pUserData */
){
  Fts5Global *pGlobal = (Fts5Global*)pApi;
  int rc = sqlite3_overload_function(pGlobal->db, zName, -1);
  if( rc==SQLITE_OK ){
    Fts5Auxiliary *pAux;
    int nName;                      /* Size of zName in bytes, including \0 */
    int nByte;                      /* Bytes of space to allocate */

    nName = (int)strlen(zName) + 1;
    nByte = sizeof(Fts5Auxiliary) + nName;
    pAux = (Fts5Auxiliary*)sqlite3_malloc(nByte);
    if( pAux ){
      memset(pAux, 0, nByte);
      pAux->zFunc = (char*)&pAux[1];
      memcpy(pAux->zFunc, zName, nName);
      pAux->pGlobal = pGlobal;
      pAux->pUserData = pUserData;
      pAux->xFunc = xFunc;
      pAux->xDestroy = xDestroy;
      pAux->pNext = pGlobal->pAux;
................................................................................
  const char *zName,              /* Name of new function */
  void *pUserData,                /* User data for aux. function */
  fts5_tokenizer *pTokenizer,     /* Tokenizer implementation */
  void(*xDestroy)(void*)          /* Destructor for pUserData */
){
  Fts5Global *pGlobal = (Fts5Global*)pApi;
  Fts5TokenizerModule *pNew;
  int nName;                      /* Size of zName and its \0 terminator */
  int nByte;                      /* Bytes of space to allocate */
  int rc = SQLITE_OK;

  nName = (int)strlen(zName) + 1;
  nByte = sizeof(Fts5TokenizerModule) + nName;
  pNew = (Fts5TokenizerModule*)sqlite3_malloc(nByte);
  if( pNew ){
    memset(pNew, 0, nByte);
    pNew->zName = (char*)&pNew[1];
    memcpy(pNew->zName, zName, nName);
    pNew->pUserData = pUserData;
    pNew->x = *pTokenizer;
    pNew->xDestroy = xDestroy;
    pNew->pNext = pGlobal->pTok;
    pGlobal->pTok = pNew;







|
|

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|







 







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  fts5_extension_function xFunc,  /* Aux. function implementation */
  void(*xDestroy)(void*)          /* Destructor for pUserData */
){
  Fts5Global *pGlobal = (Fts5Global*)pApi;
  int rc = sqlite3_overload_function(pGlobal->db, zName, -1);
  if( rc==SQLITE_OK ){
    Fts5Auxiliary *pAux;
    sqlite3_int64 nName;            /* Size of zName in bytes, including \0 */
    sqlite3_int64 nByte;            /* Bytes of space to allocate */

    nName = strlen(zName) + 1;
    nByte = sizeof(Fts5Auxiliary) + nName;
    pAux = (Fts5Auxiliary*)sqlite3_malloc64(nByte);
    if( pAux ){
      memset(pAux, 0, (size_t)nByte);
      pAux->zFunc = (char*)&pAux[1];
      memcpy(pAux->zFunc, zName, nName);
      pAux->pGlobal = pGlobal;
      pAux->pUserData = pUserData;
      pAux->xFunc = xFunc;
      pAux->xDestroy = xDestroy;
      pAux->pNext = pGlobal->pAux;
................................................................................
  const char *zName,              /* Name of new function */
  void *pUserData,                /* User data for aux. function */
  fts5_tokenizer *pTokenizer,     /* Tokenizer implementation */
  void(*xDestroy)(void*)          /* Destructor for pUserData */
){
  Fts5Global *pGlobal = (Fts5Global*)pApi;
  Fts5TokenizerModule *pNew;
  sqlite3_int64 nName;            /* Size of zName and its \0 terminator */
  sqlite3_int64 nByte;            /* Bytes of space to allocate */
  int rc = SQLITE_OK;

  nName = strlen(zName) + 1;
  nByte = sizeof(Fts5TokenizerModule) + nName;
  pNew = (Fts5TokenizerModule*)sqlite3_malloc64(nByte);
  if( pNew ){
    memset(pNew, 0, (size_t)nByte);
    pNew->zName = (char*)&pNew[1];
    memcpy(pNew->zName, zName, nName);
    pNew->pUserData = pUserData;
    pNew->x = *pTokenizer;
    pNew->xDestroy = xDestroy;
    pNew->pNext = pGlobal->pTok;
    pGlobal->pTok = pNew;

Changes to ext/fts5/fts5_tokenize.c.

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379
    if( p ){
      const char *zCat = "L* N* Co";
      int i;
      memset(p, 0, sizeof(Unicode61Tokenizer));

      p->eRemoveDiacritic = FTS5_REMOVE_DIACRITICS_SIMPLE;
      p->nFold = 64;
      p->aFold = sqlite3_malloc(p->nFold * sizeof(char));
      if( p->aFold==0 ){
        rc = SQLITE_NOMEM;
      }

      /* Search for a "categories" argument */
      for(i=0; rc==SQLITE_OK && i<nArg; i+=2){
        if( 0==sqlite3_stricmp(azArg[i], "categories") ){







|







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    if( p ){
      const char *zCat = "L* N* Co";
      int i;
      memset(p, 0, sizeof(Unicode61Tokenizer));

      p->eRemoveDiacritic = FTS5_REMOVE_DIACRITICS_SIMPLE;
      p->nFold = 64;
      p->aFold = sqlite3_malloc64(p->nFold * sizeof(char));
      if( p->aFold==0 ){
        rc = SQLITE_NOMEM;
      }

      /* Search for a "categories" argument */
      for(i=0; rc==SQLITE_OK && i<nArg; i+=2){
        if( 0==sqlite3_stricmp(azArg[i], "categories") ){

Changes to ext/fts5/test/fts5corrupt3.test.

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8001
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8004
|   4080: 67 73 7a 18 0b 03 1b 01 76 65 72 73 69 6f 6e 04   gsz.....version.
| page 6 offset 20480
|      0: 0d 00 00 00 03 0f f2 00 0f fc 0f f7 0f f2 00 00   ................
|   4080: 00 00 03 03 02 01 03 03 02 02 01 02 02 01 02 09   ................
| end crash-2acc487d09f033.db
}]} {}

do_catchsql_test 56.1 {

  INSERT INTO t1(b) VALUES(randomblob(250));
  INSERT INTO t1(b) VALUES(randomblob(250));










} {1 {database disk image is malformed}}
























































































































sqlite3_fts5_may_be_corrupt 0
finish_test








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|   4080: 67 73 7a 18 0b 03 1b 01 76 65 72 73 69 6f 6e 04   gsz.....version.
| page 6 offset 20480
|      0: 0d 00 00 00 03 0f f2 00 0f fc 0f f7 0f f2 00 00   ................
|   4080: 00 00 03 03 02 01 03 03 02 02 01 02 02 01 02 09   ................
| end crash-2acc487d09f033.db
}]} {}

do_test 56.1 {
  set res [catchsql {
    INSERT INTO t1(b) VALUES(randomblob(250));
    INSERT INTO t1(b) VALUES(randomblob(250));
  }]

  # For some permutations - those that use the page-cache - this test
  # may return SQLITE_CONSTRAINT instead of SQLITE_CORRUPT. This is because
  # the corrupt db in the test over-reads the page buffer slightly, with
  # different results depending on whether or not the page-cache is in use.
  if {$res=="1 {constraint failed}"} {
    set res "1 {database disk image is malformed}"
  }
  set res
} {1 {database disk image is malformed}}

#-------------------------------------------------------------------------
reset_db
do_test 57.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 28672 pagesize 4096 filename x.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 01 00 00 00 07   .....@  ........
|     32: 00 00 00 00 00 00 00 00 00 00 00 01 00 00 00 00   ................
|     80: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01   ................
|     96: 00 2e 34 20 0d 00 00 00 07 0d d2 00 0f c4 0f 6d   ..4 ...........m
|    112: 0f 02 0e ab 0e 4e 0d f6 0d d2 00 00 00 00 00 00   .....N..........
|   3536: 00 00 22 07 06 17 11 11 01 31 74 61 62 6c 65 74   .........1tablet
|   3552: 32 74 32 07 43 52 45 41 54 45 20 54 41 42 4c 45   2t2.CREATE TABLE
|   3568: 20 74 32 28 78 29 56 06 06 17 1f 1f 01 7d 74 61    t2(x)V.......ta
|   3584: 61 6b 65 74 31 5f 63 6f 6e 66 69 67 74 31 5f 63   aket1_configt1_c
|   3600: 6f 7e 66 69 67 06 43 52 45 41 54 45 20 54 41 42   o~fig.CREATE TAB
|   3616: 4c 45 20 27 74 31 5f 63 6f 6e 66 69 67 27 28 6b   LE 't1_config'(k
|   3632: 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 76 29    PRIMARY KEY, v)
|   3648: 20 57 49 54 48 4f 55 54 20 52 4f 57 49 44 5b 05    WITHOUT ROWID[.
|   3664: 07 17 21 21 01 81 01 74 61 62 6c 65 74 31 5f 64   ..!!...tablet1_d
|   3680: 6f 63 73 69 7a 65 74 31 5f 64 6f 63 73 69 7a 65   ocsizet1_docsize
|   3696: 05 43 52 45 41 54 45 20 54 41 42 4c 45 20 27 74   .CREATE TABLE 't
|   3712: 31 5f 64 6f 63 73 69 7a 65 27 28 69 64 20 49 4e   1_docsize'(id IN
|   3728: 54 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45   TEGER PRIMARY KE
|   3744: 59 2c 20 73 7a 20 42 4c 4f 42 29 55 04 06 17 21   Y, sz BLOB)U...!
|   3760: 21 01 77 74 61 62 6c 65 74 31 5f 63 6f 6e 74 1d   !.wtablet1_cont.
|   3776: 6e 74 74 31 5f 63 6f 6e 74 65 6e 74 04 43 52 45   ntt1_content.CRE
|   3792: 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 63 6f   ATE TABLE 't1_co
|   3808: 6e 74 65 6e 74 27 28 69 64 20 49 4e 54 45 47 45   ntent'(id INTEGE
|   3824: 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 63   R PRIMARY KEY, c
|   3840: 30 29 69 03 07 17 19 19 01 81 2d 74 61 62 6c 65   0)i.......-table
|   3856: 74 31 5f 69 64 78 74 31 5f 59 64 78 03 43 52 45   t1_idxt1_Ydx.CRE
|   3872: 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 69 64   ATE TABLE 't1_id
|   3888: 78 27 28 73 65 67 69 64 2c 20 74 65 72 6d 2c 20   x'(segid, term, 
|   3904: 70 67 6e 6f 2c 20 50 52 49 4d 41 52 59 20 4b 45   pgno, PRIMARY KE
|   3920: 59 28 73 65 67 69 64 2c 20 74 65 72 6d 29 29 20   Y(segid, term)) 
|   3936: 57 49 54 48 4f 55 54 20 52 4f 57 49 44 55 02 07   WITHOUT ROWIDU..
|   3952: 17 1b 1b 01 81 01 74 61 62 6c 65 74 31 5f 64 61   ......tablet1_da
|   3968: 74 61 74 31 5f 64 61 64 61 02 43 52 45 41 54 45   tat1_dada.CREATE
|   3984: 20 54 41 42 4c 45 20 27 74 31 5f 64 61 74 61 27    TABLE 't1_data'
|   4000: 28 69 64 20 49 4e 54 45 47 45 52 20 50 52 49 4d   (id INTEGER PRIM
|   4016: 41 52 59 20 4b 45 59 2c 20 62 6c 6f 63 6b 20 42   ARY KEY, block B
|   4032: 4c 4f 42 29 3a 01 06 17 11 11 08 63 74 61 62 6c   LOB):......ctabl
|   4048: 65 74 31 74 31 43 52 45 41 54 45 20 56 49 52 54   et1t1CREATE VIRT
|   4064: 55 41 4c 20 54 41 42 4c 45 20 74 31 20 55 53 49   UAL TABLE t1 USI
|   4080: 4e 47 20 66 74 73 35 28 63 6f 6e 74 65 6e 74 29   NG fts5(content)
| page 2 offset 4096
|      0: 0d 0e b4 00 06 0e 35 00 0f e8 0e 35 0f bd 0f 4e   ......5....5...N
|     16: 0e cb 0e 4f 00 00 00 00 00 00 00 00 00 00 00 00   ...O............
|   3632: 00 00 00 00 00 18 0a 03 00 36 00 00 00 00 01 04   .........6......
|   3648: 04 00 04 01 01 01 02 01 01 03 01 01 04 01 01 5e   ...............^
|   3664: 90 80 80 80 80 01 04 00 81 40 00 00 00 51 06 30   .........@...Q.0
|   3680: 61 62 61 63 6b 01 01 04 04 6e 64 6f 6e 01 01 02   aback....ndon...
|   3696: 04 63 69 76 65 01 01 02 04 6c 70 68 61 01 01 02   .cive....lpha...
|   3712: 03 74 6f 6d 01 01 01 06 62 61 63 6b 75 70 01 01   .tom....backup..
|   3728: 02 05 6f 6f 6d 65 72 01 01 01 06 63 68 61 6e 6e   ..oomer....chann
|   3744: 65 01 01 01 04 74 65 73 74 01 01 04 09 08 08 08   e....test.......
|   3760: 07 0a 09 0a 0f 3a 00 17 30 00 00 00 00 01 03 03   .....:..0.......
|   3776: 00 03 01 01 01 02 01 01 03 01 01 68 8c 80 80 80   ...........h....
|   3792: 80 01 04 00 81 54 00 00 00 5b 06 30 61 62 61 63   .....T...[.0abac
|   3808: 6b 02 02 07 04 04 6e 64 6f 6e 02 02 05 02 04 63   k.....ndon.....c
|   3824: 69 76 65 02 02 0b 02 04 6c 70 68 61 02 04 02 0a   ive.....lpha....
|   3840: 02 03 74 6f 6d 02 02 09 01 06 62 61 63 6b 75 70   ..tom.....backup
|   3856: 02 02 04 02 05 6f 6f 6d 65 72 02 02 08 01 06 63   .....oomer.....c
|   3872: 68 61 6e 6e 65 02 02 03 01 04 74 65 73 74 02 02   hanne.....test..
|   3888: 06 04 0a 09 09 0a 08 0b 0a 0b 0f ef 00 14 2a 00   ..............*.
|   3904: 00 00 00 01 02 02 00 02 01 01 01 02 01 01 68 88   ..............h.
|   3920: 80 80 80 80 01 04 00 81 54 00 00 00 5b 06 30 61   ........T...[.0a
|   3936: 62 61 63 6b 01 02 07 04 04 6e 64 6f 6e 01 02 05   back.....ndon...
|   3952: 02 04 63 69 76 65 01 02 0b 02 04 6c 70 68 61 01   ..cive.....lpha.
|   3968: 04 02 0a 02 03 74 6f 6d 01 02 09 01 06 62 61 63   .....tom.....bac
|   3984: 6b 75 70 01 02 04 02 05 6f 6f 6d 65 72 01 02 08   kup.....oomer...
|   4000: 01 06 63 68 61 6e 6e 65 01 02 03 01 04 74 65 73   ..channe.....tes
|   4016: 74 01 02 06 04 0a 09 09 0a 08 0b 0a 0b 24 84 80   t............$..
|   4032: 80 80 80 01 03 00 4e 00 00 00 1e 06 30 61 62 61   ......N.....0aba
|   4048: 63 6b 01 02 02 05 42 66 74 02 02 02 04 04 6e 64   ck....Bft.....nd
|   4064: 6f 6e 03 02 02 04 0a 07 05 01 03 00 10 04 0d 00   on..............
|   4080: 00 00 11 24 00 00 00 00 01 01 01 00 01 01 01 01   ...$............
| page 3 offset 8192
|      0: 0a 00 00 00 04 0f e5 00 00 00 0f f3 0f ec 0f e5   ................
|   4064: 00 00 00 00 00 06 04 01 0c 01 04 02 06 04 01 0c   ................
|   4080: 01 03 02 06 04 01 0c 01 02 02 05 04 09 0d 01 02   ................
| page 4 offset 12288
|      0: 0d 0e bc 00 04 0e 78 00 00 00 00 00 00 00 0e 78   ......x........x
|     16: 0e 78 00 00 00 00 00 00 00 00 00 00 00 00 00 00   .x..............
|   3696: 00 00 00 00 00 00 00 00 42 02 04 00 81 09 61 6c   ........B.....al
|   3712: 70 68 61 20 63 68 61 6e 6e 65 20 62 61 63 6b 75   pha channe backu
|   3728: 70 20 61 62 61 6e 64 6f 6e 20 74 65 73 74 20 61   p abandon test a
|   3744: 62 61 63 6b 20 62 6f 6f 6d 65 72 20 61 74 6f 6d   back boomer atom
|   3760: 20 61 6c 70 68 61 20 61 63 69 76 65 00 00 00 44    alpha acive...D
|   3776: 81 09 61 6c 70 68 61 20 63 68 61 6e 6e 65 20 62   ..alpha channe b
|   3792: 61 63 6b 75 70 20 61 62 61 6e 64 6f 6e 20 74 65   ackup abandon te
|   3808: 73 74 20 61 62 61 63 6b 20 62 6f 6f 6d 65 72 20   st aback boomer 
|   3824: 61 74 6f 6d 20 61 6c 70 68 61 20 61 63 69 76 65   atom alpha acive
|   4064: 0a 03 03 00 1b 61 4e 61 6e 64 6f 6e 08 02 03 00   .....aNandon....
|   4080: 17 61 62 61 66 74 08 01 03 00 17 61 62 71 63 6b   .abaft.....abqck
| page 5 offset 16384
|      0: 0d 0f e8 00 04 0f e2 00 00 00 00 00 00 00 0f e2   ................
|     16: 0f e2 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   4064: 00 00 04 02 03 00 0e 0a 00 00 00 06 0e 0a 04 03   ................
|   4080: 03 00 0e 01 04 02 03 00 0e 01 04 01 03 10 0e 01   ................
| page 6 offset 20480
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| page 7 offset 24576
|      0: 0d 00 00 00 03 0f d6 00 0f f4 00 00 00 00 00 00   ................
|   4048: 00 00 00 00 00 00 09 03 02 1b 72 65 62 75 69 6c   ..........rebuil
|   4064: 64 11 02 02 2b 69 6e 74 65 67 72 69 74 79 2d 63   d...+integrity-c
|   4080: 68 65 63 6b 0a 01 02 1d 6f 70 74 69 6d 69 7a 65   heck....optimize
| end x.db
}]} {}

do_catchsql_test 57.1 {
  INSERT INTO t1(t1) VALUES('optimize')
} {1 {database disk image is malformed}}


sqlite3_fts5_may_be_corrupt 0
finish_test

Added ext/misc/blobio.c.

















































































































































































































































































































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/*
** 2019-03-30
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
******************************************************************************
**
** An SQL function that uses the incremental BLOB I/O mechanism of SQLite
** to read or write part of a blob.  This is intended for debugging use
** in the CLI.
**
**      readblob(SCHEMA,TABLE,COLUMN,ROWID,OFFSET,N)
**
** Returns N bytes of the blob starting at OFFSET.
**
**      writeblob(SCHEMA,TABLE,COLUMN,ROWID,OFFSET,NEWDATA)
**
** NEWDATA must be a blob.  The content of NEWDATA overwrites the
** existing BLOB data at SCHEMA.TABLE.COLUMN for row ROWID beginning
** at OFFSET bytes into the blob.
*/
#include "sqlite3ext.h"
SQLITE_EXTENSION_INIT1
#include <assert.h>
#include <string.h>

static void readblobFunc(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  sqlite3_blob *pBlob = 0;
  const char *zSchema;
  const char *zTable;
  const char *zColumn;
  sqlite3_int64 iRowid;
  int iOfst;
  unsigned char *aData;
  int nData;
  sqlite3 *db;
  int rc;

  zSchema = (const char*)sqlite3_value_text(argv[0]);
  zTable = (const char*)sqlite3_value_text(argv[1]);
  if( zTable==0 ){
    sqlite3_result_error(context, "bad table name", -1);
    return;
  }
  zColumn = (const char*)sqlite3_value_text(argv[2]);
  if( zTable==0 ){
    sqlite3_result_error(context, "bad column name", -1);
    return;
  }
  iRowid = sqlite3_value_int64(argv[3]);
  iOfst = sqlite3_value_int(argv[4]);
  nData = sqlite3_value_int(argv[5]);
  if( nData<=0 ) return;
  aData = sqlite3_malloc64( nData+1 );
  if( aData==0 ){
    sqlite3_result_error_nomem(context);
    return;
  }
  db = sqlite3_context_db_handle(context);
  rc = sqlite3_blob_open(db, zSchema, zTable, zColumn, iRowid, 0, &pBlob);
  if( rc ){
    sqlite3_free(aData);
    sqlite3_result_error(context, "cannot open BLOB pointer", -1);
    return;
  }
  rc = sqlite3_blob_read(pBlob, aData, nData, iOfst);
  sqlite3_blob_close(pBlob);
  if( rc ){
    sqlite3_free(aData);
    sqlite3_result_error(context, "BLOB write failed", -1);
  }else{
    sqlite3_result_blob(context, aData, nData, sqlite3_free);
  }
}    

static void writeblobFunc(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  sqlite3_blob *pBlob = 0;
  const char *zSchema;
  const char *zTable;
  const char *zColumn;
  sqlite3_int64 iRowid;
  int iOfst;
  unsigned char *aData;
  int nData;
  sqlite3 *db;
  int rc;

  zSchema = (const char*)sqlite3_value_text(argv[0]);
  zTable = (const char*)sqlite3_value_text(argv[1]);
  if( zTable==0 ){
    sqlite3_result_error(context, "bad table name", -1);
    return;
  }
  zColumn = (const char*)sqlite3_value_text(argv[2]);
  if( zTable==0 ){
    sqlite3_result_error(context, "bad column name", -1);
    return;
  }
  iRowid = sqlite3_value_int64(argv[3]);
  iOfst = sqlite3_value_int(argv[4]);
  if( sqlite3_value_type(argv[5])!=SQLITE_BLOB ){
    sqlite3_result_error(context, "6th argument must be a BLOB", -1);
    return;
  }
  nData = sqlite3_value_bytes(argv[5]);
  aData = (unsigned char *)sqlite3_value_blob(argv[5]);
  db = sqlite3_context_db_handle(context);
  rc = sqlite3_blob_open(db, zSchema, zTable, zColumn, iRowid, 1, &pBlob);
  if( rc ){
    sqlite3_result_error(context, "cannot open BLOB pointer", -1);
    return;
  }
  rc = sqlite3_blob_write(pBlob, aData, nData, iOfst);
  sqlite3_blob_close(pBlob);
  if( rc ){
    sqlite3_result_error(context, "BLOB write failed", -1);
  }
}    


#ifdef _WIN32
__declspec(dllexport)
#endif
int sqlite3_blobio_init(
  sqlite3 *db, 
  char **pzErrMsg, 
  const sqlite3_api_routines *pApi
){
  int rc = SQLITE_OK;
  SQLITE_EXTENSION_INIT2(pApi);
  (void)pzErrMsg;  /* Unused parameter */
  rc = sqlite3_create_function(db, "readblob", 6, SQLITE_UTF8, 0,
                               readblobFunc, 0, 0);
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(db, "writeblob", 6, SQLITE_UTF8, 0,
                               writeblobFunc, 0, 0);
  }
  return rc;
}

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  }
  pBuf = sqlite3_malloc64( nIn ? nIn : 1 );
  if( pBuf==0 ){
    sqlite3_result_error_nomem(ctx);
    fclose(in);
    return;
  }
  if( nIn==fread(pBuf, 1, (size_t)nIn, in) ){
    sqlite3_result_blob64(ctx, pBuf, nIn, sqlite3_free);
  }else{
    sqlite3_result_error_code(ctx, SQLITE_IOERR);
    sqlite3_free(pBuf);
  }
  fclose(in);
}







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  }
  pBuf = sqlite3_malloc64( nIn ? nIn : 1 );
  if( pBuf==0 ){
    sqlite3_result_error_nomem(ctx);
    fclose(in);
    return;
  }
  if( nIn==(sqlite3_int64)fread(pBuf, 1, (size_t)nIn, in) ){
    sqlite3_result_blob64(ctx, pBuf, nIn, sqlite3_free);
  }else{
    sqlite3_result_error_code(ctx, SQLITE_IOERR);
    sqlite3_free(pBuf);
  }
  fclose(in);
}

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# 2019 April 11
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#

source [file join [file dirname [info script]] rbu_common.tcl]
set ::testprefix rbupartial

db close
sqlite3_shutdown
sqlite3_config_uri 1

foreach {tn without_rowid a b c d} {
  1 ""              a b c d
  2 "WITHOUT ROWID" aaa bbb ccc ddd
  3 "WITHOUT ROWID" "\"hello\"" {"one'two"}  {[c]} ddd
  4 "WITHOUT ROWID" {`a b`} {"one'two"}  {[c c c]} ddd
  5 "" a b c {"d""d"}
  6 "" {'one''two'} b {"c""c"} {"d""d"}
} {
  eval [string map [list \
    %WITHOUT_ROWID% $without_rowid %A% $a %B% $b %C% $c %D% $d
  ] {
  reset_db
  do_execsql_test $tn.1.0 {
    CREATE TABLE t1(%A% PRIMARY KEY, %B%, %C%, %D%) %WITHOUT_ROWID% ;
    CREATE INDEX i1b  ON t1(%B%);
    CREATE INDEX i1b2 ON t1(%B%) WHERE %C%<5;
    CREATE INDEX i1b3 ON t1(%B%) WHERE %C%>=5;

    CREATE INDEX i1c  ON t1(%C%);
    CREATE INDEX i1c2 ON t1(%C%) WHERE %C% IS NULL;
    CREATE INDEX i1c3 ON t1(%C%) WHERE %C% IS NOT NULL;

    CREATE INDEX i1c4 ON t1(%C%) WHERE %D% < 'd';
  }

  do_execsql_test $tn.1.1 {
    INSERT INTO t1 VALUES(0, NULL, NULL, 'a');
    INSERT INTO t1 VALUES(1, 2, 3, 'b');
    INSERT INTO t1 VALUES(4, 5, 6, 'c');
    INSERT INTO t1 VALUES(7, 8, 9, 'd');
  }

  forcedelete rbu.db
  do_test $tn.1.2 {
    sqlite3 rbu rbu.db
    rbu eval {
      CREATE TABLE data_t1(%A%, %B%, %C%, %D%, rbu_control);

      INSERT INTO data_t1 VALUES(10, 11, 12, 'e', 0);
      INSERT INTO data_t1 VALUES(13, 14, NULL, 'f', 0);

      INSERT INTO data_t1 VALUES(0, NULL, NULL, NULL, 1);
      INSERT INTO data_t1 VALUES(4, NULL, NULL, NULL, 1);

      INSERT INTO data_t1 VALUES(7, NULL, 4, NULL, '..x.');
      INSERT INTO data_t1 VALUES(1, 10, NULL, NULL, '.xx.');
    }
    rbu close
  } {}

  do_test $tn.1.3 {
    run_rbu test.db rbu.db
    execsql { PRAGMA integrity_check }
  } {ok}

  do_execsql_test $tn.1.4 {
    SELECT * FROM t1 ORDER BY %A%;
  } {
    1 10 {} b   7 8 4 d   10 11 12 e   13 14 {} f
  }

  set step 0
  do_rbu_vacuum_test $tn.1.5 0
  }]
}

finish_test

Changes to ext/rbu/sqlite3rbu.c.

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**
** abIndexed:
**   If the table has no indexes on it, abIndexed is set to NULL. Otherwise,
**   it points to an array of flags nTblCol elements in size. The flag is
**   set for each column that is either a part of the PK or a part of an
**   index. Or clear otherwise.
**   





*/
struct RbuObjIter {
  sqlite3_stmt *pTblIter;         /* Iterate through tables */
  sqlite3_stmt *pIdxIter;         /* Index iterator */
  int nTblCol;                    /* Size of azTblCol[] array */
  char **azTblCol;                /* Array of unquoted target column names */
  char **azTblType;               /* Array of target column types */
................................................................................
**
** If an error (i.e. an OOM condition) occurs, return NULL and leave an 
** error code in the rbu handle passed as the first argument. Or, if an 
** error has already occurred when this function is called, return NULL 
** immediately without attempting the allocation or modifying the stored
** error code.
*/
static void *rbuMalloc(sqlite3rbu *p, int nByte){
  void *pRet = 0;
  if( p->rc==SQLITE_OK ){
    assert( nByte>0 );
    pRet = sqlite3_malloc64(nByte);
    if( pRet==0 ){
      p->rc = SQLITE_NOMEM;
    }else{
................................................................................

/*
** Allocate and zero the pIter->azTblCol[] and abTblPk[] arrays so that
** there is room for at least nCol elements. If an OOM occurs, store an
** error code in the RBU handle passed as the first argument.
*/
static void rbuAllocateIterArrays(sqlite3rbu *p, RbuObjIter *pIter, int nCol){
  int nByte = (2*sizeof(char*) + sizeof(int) + 3*sizeof(u8)) * nCol;
  char **azNew;

  azNew = (char**)rbuMalloc(p, nByte);
  if( azNew ){
    pIter->azTblCol = azNew;
    pIter->azTblType = &azNew[nCol];
    pIter->aiSrcOrder = (int*)&pIter->azTblType[nCol];
................................................................................
        sqlite3_mprintf("PRAGMA main.index_list = %Q", pIter->zTbl)
    );
  }

  pIter->nIndex = 0;
  while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pList) ){
    const char *zIdx = (const char*)sqlite3_column_text(pList, 1);

    sqlite3_stmt *pXInfo = 0;
    if( zIdx==0 ) break;



    p->rc = prepareFreeAndCollectError(p->dbMain, &pXInfo, &p->zErrmsg,
        sqlite3_mprintf("PRAGMA main.index_xinfo = %Q", zIdx)
    );
    while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pXInfo) ){
      int iCid = sqlite3_column_int(pXInfo, 1);
      if( iCid>=0 ) pIter->abIndexed[iCid] = 1;
    }
................................................................................
** string, an error code is left in the rbu handle passed as the first
** argument and NULL is returned. Or, if an error has already occurred
** when this function is called, NULL is returned immediately, without
** attempting the allocation or modifying the stored error code.
*/
static char *rbuObjIterGetBindlist(sqlite3rbu *p, int nBind){
  char *zRet = 0;
  int nByte = nBind*2 + 1;

  zRet = (char*)rbuMalloc(p, nByte);
  if( zRet ){
    int i;
    for(i=0; i<nBind; i++){
      zRet[i*2] = '?';
      zRet[i*2+1] = (i+1==nBind) ? '\0' : ',';
................................................................................
    rc = sqlite3_reset(p->objiter.pTmpInsert);
  }

  if( rc!=SQLITE_OK ){
    sqlite3_result_error_code(pCtx, rc);
  }
}

























































/*
** Ensure that the SQLite statement handles required to update the 
** target database object currently indicated by the iterator passed 
** as the second argument are available.
*/
static int rbuObjIterPrepareAll(
................................................................................

    if( zIdx ){
      const char *zTbl = pIter->zTbl;
      char *zImposterCols = 0;    /* Columns for imposter table */
      char *zImposterPK = 0;      /* Primary key declaration for imposter */
      char *zWhere = 0;           /* WHERE clause on PK columns */
      char *zBind = 0;

      int nBind = 0;

      assert( pIter->eType!=RBU_PK_VTAB );
      zCollist = rbuObjIterGetIndexCols(
          p, pIter, &zImposterCols, &zImposterPK, &zWhere, &nBind
      );
      zBind = rbuObjIterGetBindlist(p, nBind);


      /* Create the imposter table used to write to this index. */
      sqlite3_test_control(SQLITE_TESTCTRL_IMPOSTER, p->dbMain, "main", 0, 1);
      sqlite3_test_control(SQLITE_TESTCTRL_IMPOSTER, p->dbMain, "main", 1,tnum);
      rbuMPrintfExec(p, p->dbMain,
          "CREATE TABLE \"rbu_imp_%w\"( %s, PRIMARY KEY( %s ) ) WITHOUT ROWID",
          zTbl, zImposterCols, zImposterPK
................................................................................
      }

      /* Create the SELECT statement to read keys in sorted order */
      if( p->rc==SQLITE_OK ){
        char *zSql;
        if( rbuIsVacuum(p) ){
          zSql = sqlite3_mprintf(
              "SELECT %s, 0 AS rbu_control FROM '%q' ORDER BY %s%s",
              zCollist, 
              pIter->zDataTbl,
              zCollist, zLimit
          );
        }else

        if( pIter->eType==RBU_PK_EXTERNAL || pIter->eType==RBU_PK_NONE ){
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl,
              zCollist, zLimit
          );
        }else{
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' "
              "UNION ALL "
              "SELECT %s, rbu_control FROM '%q' "
              "WHERE typeof(rbu_control)='integer' AND rbu_control!=1 "
              "ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl, 
              zCollist, pIter->zDataTbl, 


              zCollist, zLimit
          );
        }
        p->rc = prepareFreeAndCollectError(p->dbRbu, &pIter->pSelect, pz, zSql);
      }

      sqlite3_free(zImposterCols);
      sqlite3_free(zImposterPK);
      sqlite3_free(zWhere);
      sqlite3_free(zBind);

    }else{
      int bRbuRowid = (pIter->eType==RBU_PK_VTAB)
                    ||(pIter->eType==RBU_PK_NONE)
                    ||(pIter->eType==RBU_PK_EXTERNAL && rbuIsVacuum(p));
      const char *zTbl = pIter->zTbl;       /* Table this step applies to */
      const char *zWrite;                   /* Imposter table name */

................................................................................

  /* If not in RBU_STAGE_OAL, allow this call to pass through. Or, if this
  ** rbu is in the RBU_STAGE_OAL state, use heap memory for *-shm space 
  ** instead of a file on disk.  */
  assert( p->openFlags & (SQLITE_OPEN_MAIN_DB|SQLITE_OPEN_TEMP_DB) );
  if( eStage==RBU_STAGE_OAL || eStage==RBU_STAGE_MOVE ){
    if( iRegion<=p->nShm ){
      int nByte = (iRegion+1) * sizeof(char*);
      char **apNew = (char**)sqlite3_realloc64(p->apShm, nByte);
      if( apNew==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(&apNew[p->nShm], 0, sizeof(char*) * (1 + iRegion - p->nShm));
        p->apShm = apNew;
        p->nShm = iRegion+1;







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2123
2124
2125
2126
2127
2128
2129
2130
2131
2132
2133
2134
2135
2136
2137
....
4557
4558
4559
4560
4561
4562
4563
4564
4565
4566
4567
4568
4569
4570
4571
**
** abIndexed:
**   If the table has no indexes on it, abIndexed is set to NULL. Otherwise,
**   it points to an array of flags nTblCol elements in size. The flag is
**   set for each column that is either a part of the PK or a part of an
**   index. Or clear otherwise.
**
**   If there are one or more partial indexes on the table, all fields of
**   this array set set to 1. This is because in that case, the module has
**   no way to tell which fields will be required to add and remove entries
**   from the partial indexes.
**   
*/
struct RbuObjIter {
  sqlite3_stmt *pTblIter;         /* Iterate through tables */
  sqlite3_stmt *pIdxIter;         /* Index iterator */
  int nTblCol;                    /* Size of azTblCol[] array */
  char **azTblCol;                /* Array of unquoted target column names */
  char **azTblType;               /* Array of target column types */
................................................................................
**
** If an error (i.e. an OOM condition) occurs, return NULL and leave an 
** error code in the rbu handle passed as the first argument. Or, if an 
** error has already occurred when this function is called, return NULL 
** immediately without attempting the allocation or modifying the stored
** error code.
*/
static void *rbuMalloc(sqlite3rbu *p, sqlite3_int64 nByte){
  void *pRet = 0;
  if( p->rc==SQLITE_OK ){
    assert( nByte>0 );
    pRet = sqlite3_malloc64(nByte);
    if( pRet==0 ){
      p->rc = SQLITE_NOMEM;
    }else{
................................................................................

/*
** Allocate and zero the pIter->azTblCol[] and abTblPk[] arrays so that
** there is room for at least nCol elements. If an OOM occurs, store an
** error code in the RBU handle passed as the first argument.
*/
static void rbuAllocateIterArrays(sqlite3rbu *p, RbuObjIter *pIter, int nCol){
  sqlite3_int64 nByte = (2*sizeof(char*) + sizeof(int) + 3*sizeof(u8)) * nCol;
  char **azNew;

  azNew = (char**)rbuMalloc(p, nByte);
  if( azNew ){
    pIter->azTblCol = azNew;
    pIter->azTblType = &azNew[nCol];
    pIter->aiSrcOrder = (int*)&pIter->azTblType[nCol];
................................................................................
        sqlite3_mprintf("PRAGMA main.index_list = %Q", pIter->zTbl)
    );
  }

  pIter->nIndex = 0;
  while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pList) ){
    const char *zIdx = (const char*)sqlite3_column_text(pList, 1);
    int bPartial = sqlite3_column_int(pList, 4);
    sqlite3_stmt *pXInfo = 0;
    if( zIdx==0 ) break;
    if( bPartial ){
      memset(pIter->abIndexed, 0x01, sizeof(u8)*pIter->nTblCol);
    }
    p->rc = prepareFreeAndCollectError(p->dbMain, &pXInfo, &p->zErrmsg,
        sqlite3_mprintf("PRAGMA main.index_xinfo = %Q", zIdx)
    );
    while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pXInfo) ){
      int iCid = sqlite3_column_int(pXInfo, 1);
      if( iCid>=0 ) pIter->abIndexed[iCid] = 1;
    }
................................................................................
** string, an error code is left in the rbu handle passed as the first
** argument and NULL is returned. Or, if an error has already occurred
** when this function is called, NULL is returned immediately, without
** attempting the allocation or modifying the stored error code.
*/
static char *rbuObjIterGetBindlist(sqlite3rbu *p, int nBind){
  char *zRet = 0;
  sqlite3_int64 nByte = 2*(sqlite3_int64)nBind + 1;

  zRet = (char*)rbuMalloc(p, nByte);
  if( zRet ){
    int i;
    for(i=0; i<nBind; i++){
      zRet[i*2] = '?';
      zRet[i*2+1] = (i+1==nBind) ? '\0' : ',';
................................................................................
    rc = sqlite3_reset(p->objiter.pTmpInsert);
  }

  if( rc!=SQLITE_OK ){
    sqlite3_result_error_code(pCtx, rc);
  }
}

static char *rbuObjIterGetIndexWhere(sqlite3rbu *p, RbuObjIter *pIter){
  sqlite3_stmt *pStmt = 0;
  int rc = p->rc;
  char *zRet = 0;

  if( rc==SQLITE_OK ){
    rc = prepareAndCollectError(p->dbMain, &pStmt, &p->zErrmsg,
        "SELECT trim(sql) FROM sqlite_master WHERE type='index' AND name=?"
    );
  }
  if( rc==SQLITE_OK ){
    int rc2;
    rc = sqlite3_bind_text(pStmt, 1, pIter->zIdx, -1, SQLITE_STATIC);
    if( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
      const char *zSql = (const char*)sqlite3_column_text(pStmt, 0);
      if( zSql ){
        int nParen = 0;           /* Number of open parenthesis */
        int i;
        for(i=0; zSql[i]; i++){
          char c = zSql[i];
          if( c=='(' ){
            nParen++;
          }
          else if( c==')' ){
            nParen--;
            if( nParen==0 ){
              i++;
              break;
            }
          }else if( c=='"' || c=='\'' || c=='`' ){
            for(i++; 1; i++){
              if( zSql[i]==c ){
                if( zSql[i+1]!=c ) break;
                i++;
              }
            }
          }else if( c=='[' ){
            for(i++; 1; i++){
              if( zSql[i]==']' ) break;
            }
          }
        }
        if( zSql[i] ){
          zRet = rbuStrndup(&zSql[i], &rc);
        }
      }
    }

    rc2 = sqlite3_finalize(pStmt);
    if( rc==SQLITE_OK ) rc = rc2;
  }

  p->rc = rc;
  return zRet;
}

/*
** Ensure that the SQLite statement handles required to update the 
** target database object currently indicated by the iterator passed 
** as the second argument are available.
*/
static int rbuObjIterPrepareAll(
................................................................................

    if( zIdx ){
      const char *zTbl = pIter->zTbl;
      char *zImposterCols = 0;    /* Columns for imposter table */
      char *zImposterPK = 0;      /* Primary key declaration for imposter */
      char *zWhere = 0;           /* WHERE clause on PK columns */
      char *zBind = 0;
      char *zPart = 0;
      int nBind = 0;

      assert( pIter->eType!=RBU_PK_VTAB );
      zCollist = rbuObjIterGetIndexCols(
          p, pIter, &zImposterCols, &zImposterPK, &zWhere, &nBind
      );
      zBind = rbuObjIterGetBindlist(p, nBind);
      zPart = rbuObjIterGetIndexWhere(p, pIter);

      /* Create the imposter table used to write to this index. */
      sqlite3_test_control(SQLITE_TESTCTRL_IMPOSTER, p->dbMain, "main", 0, 1);
      sqlite3_test_control(SQLITE_TESTCTRL_IMPOSTER, p->dbMain, "main", 1,tnum);
      rbuMPrintfExec(p, p->dbMain,
          "CREATE TABLE \"rbu_imp_%w\"( %s, PRIMARY KEY( %s ) ) WITHOUT ROWID",
          zTbl, zImposterCols, zImposterPK
................................................................................
      }

      /* Create the SELECT statement to read keys in sorted order */
      if( p->rc==SQLITE_OK ){
        char *zSql;
        if( rbuIsVacuum(p) ){
          zSql = sqlite3_mprintf(
              "SELECT %s, 0 AS rbu_control FROM '%q' %s ORDER BY %s%s",
              zCollist, 
              pIter->zDataTbl,
              zPart, zCollist, zLimit
          );
        }else

        if( pIter->eType==RBU_PK_EXTERNAL || pIter->eType==RBU_PK_NONE ){
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl,
              zPart, zCollist, zLimit
          );
        }else{
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s "
              "UNION ALL "
              "SELECT %s, rbu_control FROM '%q' "
              "%s %s typeof(rbu_control)='integer' AND rbu_control!=1 "
              "ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl, zPart,
              zCollist, pIter->zDataTbl, 
              zPart,
              (zPart ? "AND" : "WHERE"),
              zCollist, zLimit
          );
        }
        p->rc = prepareFreeAndCollectError(p->dbRbu, &pIter->pSelect, pz, zSql);
      }

      sqlite3_free(zImposterCols);
      sqlite3_free(zImposterPK);
      sqlite3_free(zWhere);
      sqlite3_free(zBind);
      sqlite3_free(zPart);
    }else{
      int bRbuRowid = (pIter->eType==RBU_PK_VTAB)
                    ||(pIter->eType==RBU_PK_NONE)
                    ||(pIter->eType==RBU_PK_EXTERNAL && rbuIsVacuum(p));
      const char *zTbl = pIter->zTbl;       /* Table this step applies to */
      const char *zWrite;                   /* Imposter table name */

................................................................................

  /* If not in RBU_STAGE_OAL, allow this call to pass through. Or, if this
  ** rbu is in the RBU_STAGE_OAL state, use heap memory for *-shm space 
  ** instead of a file on disk.  */
  assert( p->openFlags & (SQLITE_OPEN_MAIN_DB|SQLITE_OPEN_TEMP_DB) );
  if( eStage==RBU_STAGE_OAL || eStage==RBU_STAGE_MOVE ){
    if( iRegion<=p->nShm ){
      sqlite3_int64 nByte = (iRegion+1) * sizeof(char*);
      char **apNew = (char**)sqlite3_realloc64(p->apShm, nByte);
      if( apNew==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(&apNew[p->nShm], 0, sizeof(char*) * (1 + iRegion - p->nShm));
        p->apShm = apNew;
        p->nShm = iRegion+1;

Changes to ext/rtree/geopoly.c.

265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
...
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
....
1047
1048
1049
1050
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
....
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
     && s.a[0]==s.a[s.nVertex*2-2]
     && s.a[1]==s.a[s.nVertex*2-1]
     && (s.z++, geopolySkipSpace(&s)==0)
    ){
      GeoPoly *pOut;
      int x = 1;
      s.nVertex--;  /* Remove the redundant vertex at the end */
      pOut = sqlite3_malloc64( GEOPOLY_SZ(s.nVertex) );
      x = 1;
      if( pOut==0 ) goto parse_json_err;
      pOut->nVertex = s.nVertex;
      memcpy(pOut->a, s.a, s.nVertex*2*sizeof(GeoCoord));
      pOut->hdr[0] = *(unsigned char*)&x;
      pOut->hdr[1] = (s.nVertex>>16)&0xff;
      pOut->hdr[2] = (s.nVertex>>8)&0xff;
................................................................................
      r = GeoY(p,ii);
      if( r<mnY ) mnY = (float)r;
      else if( r>mxY ) mxY = (float)r;
    }
    if( pRc ) *pRc = SQLITE_OK;
    if( aCoord==0 ){
      geopolyBboxFill:
      pOut = sqlite3_realloc(p, GEOPOLY_SZ(4));
      if( pOut==0 ){
        sqlite3_free(p);
        if( context ) sqlite3_result_error_nomem(context);
        if( pRc ) *pRc = SQLITE_NOMEM;
        return 0;
      }
      pOut->nVertex = 4;
................................................................................
  return p;
}

/*
** Determine the overlap between two polygons
*/
static int geopolyOverlap(GeoPoly *p1, GeoPoly *p2){
  int nVertex = p1->nVertex + p2->nVertex + 2;
  GeoOverlap *p;
  int nByte;
  GeoEvent *pThisEvent;
  double rX;
  int rc = 0;
  int needSort = 0;
  GeoSegment *pActive = 0;
  GeoSegment *pSeg;
  unsigned char aOverlap[4];

  nByte = sizeof(GeoEvent)*nVertex*2 
           + sizeof(GeoSegment)*nVertex 
           + sizeof(GeoOverlap);
  p = sqlite3_malloc( nByte );
  if( p==0 ) return -1;
  p->aEvent = (GeoEvent*)&p[1];
  p->aSegment = (GeoSegment*)&p->aEvent[nVertex*2];
  p->nEvent = p->nSegment = 0;
  geopolyAddSegments(p, p1, 1);
  geopolyAddSegments(p, p2, 2);
  pThisEvent = geopolySortEventsByX(p->aEvent, p->nEvent);
................................................................................
  int argc, const char *const*argv,   /* Parameters to CREATE TABLE statement */
  sqlite3_vtab **ppVtab,              /* OUT: New virtual table */
  char **pzErr,                       /* OUT: Error message, if any */
  int isCreate                        /* True for xCreate, false for xConnect */
){
  int rc = SQLITE_OK;
  Rtree *pRtree;
  int nDb;              /* Length of string argv[1] */
  int nName;            /* Length of string argv[2] */
  sqlite3_str *pSql;
  char *zSql;
  int ii;

  sqlite3_vtab_config(db, SQLITE_VTAB_CONSTRAINT_SUPPORT, 1);

  /* Allocate the sqlite3_vtab structure */
  nDb = (int)strlen(argv[1]);
  nName = (int)strlen(argv[2]);
  pRtree = (Rtree *)sqlite3_malloc(sizeof(Rtree)+nDb+nName+2);
  if( !pRtree ){
    return SQLITE_NOMEM;
  }
  memset(pRtree, 0, sizeof(Rtree)+nDb+nName+2);
  pRtree->nBusy = 1;
  pRtree->base.pModule = &rtreeModule;
  pRtree->zDb = (char *)&pRtree[1];







|







 







|







 







|

|











|







 







|
|







|
|
|







265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
...
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
....
1047
1048
1049
1050
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
....
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
     && s.a[0]==s.a[s.nVertex*2-2]
     && s.a[1]==s.a[s.nVertex*2-1]
     && (s.z++, geopolySkipSpace(&s)==0)
    ){
      GeoPoly *pOut;
      int x = 1;
      s.nVertex--;  /* Remove the redundant vertex at the end */
      pOut = sqlite3_malloc64( GEOPOLY_SZ((sqlite3_int64)s.nVertex) );
      x = 1;
      if( pOut==0 ) goto parse_json_err;
      pOut->nVertex = s.nVertex;
      memcpy(pOut->a, s.a, s.nVertex*2*sizeof(GeoCoord));
      pOut->hdr[0] = *(unsigned char*)&x;
      pOut->hdr[1] = (s.nVertex>>16)&0xff;
      pOut->hdr[2] = (s.nVertex>>8)&0xff;
................................................................................
      r = GeoY(p,ii);
      if( r<mnY ) mnY = (float)r;
      else if( r>mxY ) mxY = (float)r;
    }
    if( pRc ) *pRc = SQLITE_OK;
    if( aCoord==0 ){
      geopolyBboxFill:
      pOut = sqlite3_realloc64(p, GEOPOLY_SZ(4));
      if( pOut==0 ){
        sqlite3_free(p);
        if( context ) sqlite3_result_error_nomem(context);
        if( pRc ) *pRc = SQLITE_NOMEM;
        return 0;
      }
      pOut->nVertex = 4;
................................................................................
  return p;
}

/*
** Determine the overlap between two polygons
*/
static int geopolyOverlap(GeoPoly *p1, GeoPoly *p2){
  sqlite3_int64 nVertex = p1->nVertex + p2->nVertex + 2;
  GeoOverlap *p;
  sqlite3_int64 nByte;
  GeoEvent *pThisEvent;
  double rX;
  int rc = 0;
  int needSort = 0;
  GeoSegment *pActive = 0;
  GeoSegment *pSeg;
  unsigned char aOverlap[4];

  nByte = sizeof(GeoEvent)*nVertex*2 
           + sizeof(GeoSegment)*nVertex 
           + sizeof(GeoOverlap);
  p = sqlite3_malloc64( nByte );
  if( p==0 ) return -1;
  p->aEvent = (GeoEvent*)&p[1];
  p->aSegment = (GeoSegment*)&p->aEvent[nVertex*2];
  p->nEvent = p->nSegment = 0;
  geopolyAddSegments(p, p1, 1);
  geopolyAddSegments(p, p2, 2);
  pThisEvent = geopolySortEventsByX(p->aEvent, p->nEvent);
................................................................................
  int argc, const char *const*argv,   /* Parameters to CREATE TABLE statement */
  sqlite3_vtab **ppVtab,              /* OUT: New virtual table */
  char **pzErr,                       /* OUT: Error message, if any */
  int isCreate                        /* True for xCreate, false for xConnect */
){
  int rc = SQLITE_OK;
  Rtree *pRtree;
  sqlite3_int64 nDb;              /* Length of string argv[1] */
  sqlite3_int64 nName;            /* Length of string argv[2] */
  sqlite3_str *pSql;
  char *zSql;
  int ii;

  sqlite3_vtab_config(db, SQLITE_VTAB_CONSTRAINT_SUPPORT, 1);

  /* Allocate the sqlite3_vtab structure */
  nDb = strlen(argv[1]);
  nName = strlen(argv[2]);
  pRtree = (Rtree *)sqlite3_malloc64(sizeof(Rtree)+nDb+nName+2);
  if( !pRtree ){
    return SQLITE_NOMEM;
  }
  memset(pRtree, 0, sizeof(Rtree)+nDb+nName+2);
  pRtree->nBusy = 1;
  pRtree->base.pModule = &rtreeModule;
  pRtree->zDb = (char *)&pRtree[1];

Changes to ext/session/changesetfuzz.c.

150
151
152
153
154
155
156
157
158
159
160
161
162

163
164
165
166
167
168
169
170
171
172
173
174
...
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
...
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
...
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
...
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
...
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
....
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
....
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
1077
  }
  fseek(f, 0, SEEK_END);
  sz = ftell(f);
  rewind(f);
  pBuf = sqlite3_malloc64( sz ? sz : 1 );
  if( pBuf==0 ){
    fprintf(stderr, "cannot allocate %d to hold content of \"%s\"\n",
            sz, zFilename);
    exit(1);
  }
  if( sz>0 ){
    if( fread(pBuf, sz, 1, f)!=1 ){
      fprintf(stderr, "cannot read all %d bytes of \"%s\"\n", sz, zFilename);

      exit(1);
    }
    fclose(f);
  }
  *pSz = sz;
  *ppBuf = pBuf;
}

/* 
** Write the contents of buffer pBuf, size nBuf bytes, into file zFilename
** on disk. zFilename, if it already exists, is clobbered.
*/
................................................................................

/*
** Allocate and return nByte bytes of zeroed memory.
*/
static void *fuzzMalloc(sqlite3_int64 nByte){
  void *pRet = sqlite3_malloc64(nByte);
  if( pRet ){
    memset(pRet, 0, nByte);
  }
  return pRet;
}

/*
** Free the buffer indicated by the first argument. This function is used
** to free buffers allocated by fuzzMalloc().
................................................................................
** Write value nVal into the buffer indicated by argument p as an SQLite
** varint. nVal is guaranteed to be between 0 and (2^21-1), inclusive.
** Return the number of bytes written to buffer p.
*/
static int fuzzPutVarint(u8 *p, int nVal){
  assert( nVal>0 && nVal<2097152 );
  if( nVal<128 ){
    p[0] = nVal;
    return 1;
  }
  if( nVal<16384 ){
    p[0] = ((nVal >> 7) & 0x7F) | 0x80;
    p[1] = (nVal & 0x7F);
    return 2;
  }
................................................................................
      rc = fuzzCorrupt();
    }else{
      p++;
      p += fuzzGetVarint(p, &pGrp->nCol);
      pGrp->aPK = p;
      p += pGrp->nCol;
      pGrp->zTab = (const char*)p;
      p = &p[strlen(p)+1];

      if( p>=pEnd ){
        rc = fuzzCorrupt();
      }
    }
    *ppHdr = p;
  }
................................................................................
          p += 8;
          break;
        }

        case 0x03:                    /* text */
        case 0x04: {                  /* blob */
          int nTxt;
          int sz;
          int i;
          p += fuzzGetVarint(p, &nTxt);
          printf("%s%s", zPre, eType==0x03 ? "'" : "X'");
          for(i=0; i<nTxt; i++){
            if( eType==0x03 ){
              printf("%c", p[i]);
            }else{
              char aHex[16] = {'0', '1', '2', '3', '4', '5', '6', '7',
................................................................................
          fuzzPutU64(&pChange->aSub[1], iVal1);
          break;
        }

        case 0x03:                    /* text */
        case 0x04: {                  /* blob */
          int nByte = fuzzRandomInt(48);
          pChange->aSub[1] = nByte;
          fuzzRandomBlob(nByte, &pChange->aSub[2]);
          if( pChange->aSub[0]==0x03 ){
            int i;
            for(i=0; i<nByte; i++){
              pChange->aSub[2+i] &= 0x7F;
            }
          }
................................................................................
      }

      if( p==pFuzz->pSub1 ){
        pCopy = pFuzz->pSub2;
      }else if( p==pFuzz->pSub2 ){
        pCopy = pFuzz->pSub1;
      }else if( i==iUndef ){
        pCopy = "\0";
      }

      if( pCopy[0]==0x00 && eNew!=eType && eType==SQLITE_UPDATE && iRec==0 ){
        while( pCopy[0]==0x00 ){
          pCopy = pParse->apVal[fuzzRandomInt(pParse->nVal)];
        }
      }else if( p[0]==0x00 && pCopy[0]!=0x00 ){
................................................................................
    }
    if( eNew!=eType && eNew==SQLITE_UPDATE && !bPS ){
      int i;
      u8 *pCsr = (*ppOut) + 2;
      for(i=0; i<pGrp->nCol; i++){
        int sz;
        u8 *pCopy = pCsr;
        if( pGrp->aPK[i] ) pCopy = "\0";
        fuzzChangeSize(pCopy, &sz);
        memcpy(pOut, pCopy, sz);
        pOut += sz;
        fuzzChangeSize(pCsr, &sz);
        pCsr += sz;
      }
    }







|



|
|
>




|







 







|







 







|







 







|







 







<
<







 







|







 







|







 







|







150
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162
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164
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172
173
174
175
...
340
341
342
343
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347
348
349
350
351
352
353
354
...
381
382
383
384
385
386
387
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389
390
391
392
393
394
395
...
456
457
458
459
460
461
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463
464
465
466
467
468
469
470
...
692
693
694
695
696
697
698


699
700
701
702
703
704
705
...
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
...
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
....
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
  }
  fseek(f, 0, SEEK_END);
  sz = ftell(f);
  rewind(f);
  pBuf = sqlite3_malloc64( sz ? sz : 1 );
  if( pBuf==0 ){
    fprintf(stderr, "cannot allocate %d to hold content of \"%s\"\n",
            (int)sz, zFilename);
    exit(1);
  }
  if( sz>0 ){
    if( fread(pBuf, (size_t)sz, 1, f)!=1 ){
      fprintf(stderr, "cannot read all %d bytes of \"%s\"\n",
              (int)sz, zFilename);
      exit(1);
    }
    fclose(f);
  }
  *pSz = (int)sz;
  *ppBuf = pBuf;
}

/* 
** Write the contents of buffer pBuf, size nBuf bytes, into file zFilename
** on disk. zFilename, if it already exists, is clobbered.
*/
................................................................................

/*
** Allocate and return nByte bytes of zeroed memory.
*/
static void *fuzzMalloc(sqlite3_int64 nByte){
  void *pRet = sqlite3_malloc64(nByte);
  if( pRet ){
    memset(pRet, 0, (size_t)nByte);
  }
  return pRet;
}

/*
** Free the buffer indicated by the first argument. This function is used
** to free buffers allocated by fuzzMalloc().
................................................................................
** Write value nVal into the buffer indicated by argument p as an SQLite
** varint. nVal is guaranteed to be between 0 and (2^21-1), inclusive.
** Return the number of bytes written to buffer p.
*/
static int fuzzPutVarint(u8 *p, int nVal){
  assert( nVal>0 && nVal<2097152 );
  if( nVal<128 ){
    p[0] = (u8)nVal;
    return 1;
  }
  if( nVal<16384 ){
    p[0] = ((nVal >> 7) & 0x7F) | 0x80;
    p[1] = (nVal & 0x7F);
    return 2;
  }
................................................................................
      rc = fuzzCorrupt();
    }else{
      p++;
      p += fuzzGetVarint(p, &pGrp->nCol);
      pGrp->aPK = p;
      p += pGrp->nCol;
      pGrp->zTab = (const char*)p;
      p = &p[strlen((const char*)p)+1];

      if( p>=pEnd ){
        rc = fuzzCorrupt();
      }
    }
    *ppHdr = p;
  }
................................................................................
          p += 8;
          break;
        }

        case 0x03:                    /* text */
        case 0x04: {                  /* blob */
          int nTxt;


          p += fuzzGetVarint(p, &nTxt);
          printf("%s%s", zPre, eType==0x03 ? "'" : "X'");
          for(i=0; i<nTxt; i++){
            if( eType==0x03 ){
              printf("%c", p[i]);
            }else{
              char aHex[16] = {'0', '1', '2', '3', '4', '5', '6', '7',
................................................................................
          fuzzPutU64(&pChange->aSub[1], iVal1);
          break;
        }

        case 0x03:                    /* text */
        case 0x04: {                  /* blob */
          int nByte = fuzzRandomInt(48);
          pChange->aSub[1] = (u8)nByte;
          fuzzRandomBlob(nByte, &pChange->aSub[2]);
          if( pChange->aSub[0]==0x03 ){
            int i;
            for(i=0; i<nByte; i++){
              pChange->aSub[2+i] &= 0x7F;
            }
          }
................................................................................
      }

      if( p==pFuzz->pSub1 ){
        pCopy = pFuzz->pSub2;
      }else if( p==pFuzz->pSub2 ){
        pCopy = pFuzz->pSub1;
      }else if( i==iUndef ){
        pCopy = (u8*)"\0";
      }

      if( pCopy[0]==0x00 && eNew!=eType && eType==SQLITE_UPDATE && iRec==0 ){
        while( pCopy[0]==0x00 ){
          pCopy = pParse->apVal[fuzzRandomInt(pParse->nVal)];
        }
      }else if( p[0]==0x00 && pCopy[0]!=0x00 ){
................................................................................
    }
    if( eNew!=eType && eNew==SQLITE_UPDATE && !bPS ){
      int i;
      u8 *pCsr = (*ppOut) + 2;
      for(i=0; i<pGrp->nCol; i++){
        int sz;
        u8 *pCopy = pCsr;
        if( pGrp->aPK[i] ) pCopy = (u8*)"\0";
        fuzzChangeSize(pCopy, &sz);
        memcpy(pOut, pCopy, sz);
        pOut += sz;
        fuzzChangeSize(pCsr, &sz);
        pCsr += sz;
      }
    }

Changes to ext/session/sqlite3session.c.

898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
....
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
....
2943
2944
2945
2946
2947
2948
2949
2950
2951
2952
2953
2954
2955
2956
2957
....
3858
3859
3860
3861
3862
3863
3864
3865
3866
3867
3868
3869
3870
3871
3872
....
4247
4248
4249
4250
4251
4252
4253
4254
4255
4256
4257
4258
4259
4260
4261
** Growing the hash table in this case is a performance optimization only,
** it is not required for correct operation.
*/
static int sessionGrowHash(int bPatchset, SessionTable *pTab){
  if( pTab->nChange==0 || pTab->nEntry>=(pTab->nChange/2) ){
    int i;
    SessionChange **apNew;
    int nNew = (pTab->nChange ? pTab->nChange : 128) * 2;

    apNew = (SessionChange **)sqlite3_malloc64(sizeof(SessionChange *) * nNew);
    if( apNew==0 ){
      if( pTab->nChange==0 ){
        return SQLITE_ERROR;
      }
      return SQLITE_OK;
................................................................................
/*
** Ensure that there is room in the buffer to append nByte bytes of data.
** If not, use sqlite3_realloc() to grow the buffer so that there is.
**
** If successful, return zero. Otherwise, if an OOM condition is encountered,
** set *pRc to SQLITE_NOMEM and return non-zero.
*/
static int sessionBufferGrow(SessionBuffer *p, int nByte, int *pRc){
  if( *pRc==SQLITE_OK && p->nAlloc-p->nBuf<nByte ){
    u8 *aNew;
    i64 nNew = p->nAlloc ? p->nAlloc : 128;
    do {
      nNew = nNew*2;
    }while( (nNew-p->nBuf)<nByte );

................................................................................
      sessionBufferGrow(&p->tblhdr, nByte, &rc);
    }else{
      rc = SQLITE_CORRUPT_BKPT;
    }
  }

  if( rc==SQLITE_OK ){
    int iPK = sizeof(sqlite3_value*)*p->nCol*2;
    memset(p->tblhdr.aBuf, 0, iPK);
    memcpy(&p->tblhdr.aBuf[iPK], &p->in.aData[p->in.iNext], nCopy);
    p->in.iNext += nCopy;
  }

  p->apValue = (sqlite3_value**)p->tblhdr.aBuf;
  p->abPK = (u8*)&p->apValue[p->nCol*2];
................................................................................
    if( rc!=SQLITE_ROW ) rc = sqlite3_reset(pSelect);
  }

  return rc;
}

/*
** This function is called from within sqlite3changset_apply_v2() when
** a conflict is encountered and resolved using conflict resolution
** mode eType (either SQLITE_CHANGESET_OMIT or SQLITE_CHANGESET_REPLACE)..
** It adds a conflict resolution record to the buffer in 
** SessionApplyCtx.rebase, which will eventually be returned to the caller
** of apply_v2() as the "rebase" buffer.
**
** Return SQLITE_OK if successful, or an SQLite error code otherwise.
................................................................................
  while( pApply->constraints.nBuf ){
    sqlite3_changeset_iter *pIter2 = 0;
    SessionBuffer cons = pApply->constraints;
    memset(&pApply->constraints, 0, sizeof(SessionBuffer));

    rc = sessionChangesetStart(&pIter2, 0, 0, cons.nBuf, cons.aBuf, 0);
    if( rc==SQLITE_OK ){
      int nByte = 2*pApply->nCol*sizeof(sqlite3_value*);
      int rc2;
      pIter2->bPatchset = bPatchset;
      pIter2->zTab = (char*)zTab;
      pIter2->nCol = pApply->nCol;
      pIter2->abPK = pApply->abPK;
      sessionBufferGrow(&pIter2->tblhdr, nByte, &rc);
      pIter2->apValue = (sqlite3_value**)pIter2->tblhdr.aBuf;







|







 







|







 







|







 







|







 







|







898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
....
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
....
2943
2944
2945
2946
2947
2948
2949
2950
2951
2952
2953
2954
2955
2956
2957
....
3858
3859
3860
3861
3862
3863
3864
3865
3866
3867
3868
3869
3870
3871
3872
....
4247
4248
4249
4250
4251
4252
4253
4254
4255
4256
4257
4258
4259
4260
4261
** Growing the hash table in this case is a performance optimization only,
** it is not required for correct operation.
*/
static int sessionGrowHash(int bPatchset, SessionTable *pTab){
  if( pTab->nChange==0 || pTab->nEntry>=(pTab->nChange/2) ){
    int i;
    SessionChange **apNew;
    sqlite3_int64 nNew = 2*(sqlite3_int64)(pTab->nChange ? pTab->nChange : 128);

    apNew = (SessionChange **)sqlite3_malloc64(sizeof(SessionChange *) * nNew);
    if( apNew==0 ){
      if( pTab->nChange==0 ){
        return SQLITE_ERROR;
      }
      return SQLITE_OK;
................................................................................
/*
** Ensure that there is room in the buffer to append nByte bytes of data.
** If not, use sqlite3_realloc() to grow the buffer so that there is.
**
** If successful, return zero. Otherwise, if an OOM condition is encountered,
** set *pRc to SQLITE_NOMEM and return non-zero.
*/
static int sessionBufferGrow(SessionBuffer *p, size_t nByte, int *pRc){
  if( *pRc==SQLITE_OK && p->nAlloc-p->nBuf<nByte ){
    u8 *aNew;
    i64 nNew = p->nAlloc ? p->nAlloc : 128;
    do {
      nNew = nNew*2;
    }while( (nNew-p->nBuf)<nByte );

................................................................................
      sessionBufferGrow(&p->tblhdr, nByte, &rc);
    }else{
      rc = SQLITE_CORRUPT_BKPT;
    }
  }

  if( rc==SQLITE_OK ){
    size_t iPK = sizeof(sqlite3_value*)*p->nCol*2;
    memset(p->tblhdr.aBuf, 0, iPK);
    memcpy(&p->tblhdr.aBuf[iPK], &p->in.aData[p->in.iNext], nCopy);
    p->in.iNext += nCopy;
  }

  p->apValue = (sqlite3_value**)p->tblhdr.aBuf;
  p->abPK = (u8*)&p->apValue[p->nCol*2];
................................................................................
    if( rc!=SQLITE_ROW ) rc = sqlite3_reset(pSelect);
  }

  return rc;
}

/*
** This function is called from within sqlite3changeset_apply_v2() when
** a conflict is encountered and resolved using conflict resolution
** mode eType (either SQLITE_CHANGESET_OMIT or SQLITE_CHANGESET_REPLACE)..
** It adds a conflict resolution record to the buffer in 
** SessionApplyCtx.rebase, which will eventually be returned to the caller
** of apply_v2() as the "rebase" buffer.
**
** Return SQLITE_OK if successful, or an SQLite error code otherwise.
................................................................................
  while( pApply->constraints.nBuf ){
    sqlite3_changeset_iter *pIter2 = 0;
    SessionBuffer cons = pApply->constraints;
    memset(&pApply->constraints, 0, sizeof(SessionBuffer));

    rc = sessionChangesetStart(&pIter2, 0, 0, cons.nBuf, cons.aBuf, 0);
    if( rc==SQLITE_OK ){
      size_t nByte = 2*pApply->nCol*sizeof(sqlite3_value*);
      int rc2;
      pIter2->bPatchset = bPatchset;
      pIter2->zTab = (char*)zTab;
      pIter2->nCol = pApply->nCol;
      pIter2->abPK = pApply->abPK;
      sessionBufferGrow(&pIter2->tblhdr, nByte, &rc);
      pIter2->apValue = (sqlite3_value**)pIter2->tblhdr.aBuf;

Changes to ext/session/sqlite3session.h.

1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
** CAPI3REF: Rebase a changeset
** EXPERIMENTAL
**
** Argument pIn must point to a buffer containing a changeset nIn bytes
** in size. This function allocates and populates a buffer with a copy
** of the changeset rebased rebased according to the configuration of the
** rebaser object passed as the first argument. If successful, (*ppOut)
** is set to point to the new buffer containing the rebased changset and 
** (*pnOut) to its size in bytes and SQLITE_OK returned. It is the
** responsibility of the caller to eventually free the new buffer using
** sqlite3_free(). Otherwise, if an error occurs, (*ppOut) and (*pnOut)
** are set to zero and an SQLite error code returned.
*/
int sqlite3rebaser_rebase(
  sqlite3_rebaser*,







|







1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
** CAPI3REF: Rebase a changeset
** EXPERIMENTAL
**
** Argument pIn must point to a buffer containing a changeset nIn bytes
** in size. This function allocates and populates a buffer with a copy
** of the changeset rebased rebased according to the configuration of the
** rebaser object passed as the first argument. If successful, (*ppOut)
** is set to point to the new buffer containing the rebased changeset and 
** (*pnOut) to its size in bytes and SQLITE_OK returned. It is the
** responsibility of the caller to eventually free the new buffer using
** sqlite3_free(). Otherwise, if an error occurs, (*ppOut) and (*pnOut)
** are set to zero and an SQLite error code returned.
*/
int sqlite3rebaser_rebase(
  sqlite3_rebaser*,

Changes to main.mk.

344
345
346
347
348
349
350

351
352
353
354
355
356
357
...
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
...
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
  $(TOP)/src/test_server.c \
  $(TOP)/src/test_sqllog.c \
  $(TOP)/src/test_superlock.c \
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclsh.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \

  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_window.c \
  $(TOP)/src/test_wsd.c

# Extensions to be statically loaded.
#
................................................................................
  $(TOP)/ext/misc/regexp.c \
  $(TOP)/ext/misc/remember.c \
  $(TOP)/ext/misc/series.c \
  $(TOP)/ext/misc/spellfix.c \
  $(TOP)/ext/misc/totype.c \
  $(TOP)/ext/misc/unionvtab.c \
  $(TOP)/ext/misc/wholenumber.c \
  $(TOP)/ext/misc/vfslog.c \
  $(TOP)/ext/misc/zipfile.c \
  $(TOP)/ext/fts5/fts5_tcl.c \
  $(TOP)/ext/fts5/fts5_test_mi.c \
  $(TOP)/ext/fts5/fts5_test_tok.c


#TESTSRC += $(TOP)/ext/fts2/fts2_tokenizer.c
................................................................................
	cat parse.h $(TOP)/src/vdbe.c | \
		tclsh $(TOP)/tool/mkopcodeh.tcl >opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)/src/parse.y lemon $(TOP)/tool/addopcodes.tcl
	cp $(TOP)/src/parse.y .
	rm -f parse.h
	./lemon -s $(OPTS) parse.y
	mv parse.h parse.h.temp
	tclsh $(TOP)/tool/addopcodes.tcl parse.h.temp >parse.h

sqlite3.h:	$(TOP)/src/sqlite.h.in $(TOP)/manifest mksourceid $(TOP)/VERSION $(TOP)/ext/rtree/sqlite3rtree.h
	tclsh $(TOP)/tool/mksqlite3h.tcl $(TOP) >sqlite3.h

keywordhash.h:	$(TOP)/tool/mkkeywordhash.c
	$(BCC) -o mkkeywordhash $(OPTS) $(TOP)/tool/mkkeywordhash.c
	./mkkeywordhash >keywordhash.h







>







 







<







 







|

<

<
<







344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
...
375
376
377
378
379
380
381

382
383
384
385
386
387
388
...
712
713
714
715
716
717
718
719
720

721


722
723
724
725
726
727
728
  $(TOP)/src/test_server.c \
  $(TOP)/src/test_sqllog.c \
  $(TOP)/src/test_superlock.c \
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclsh.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vdbecov.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_window.c \
  $(TOP)/src/test_wsd.c

# Extensions to be statically loaded.
#
................................................................................
  $(TOP)/ext/misc/regexp.c \
  $(TOP)/ext/misc/remember.c \
  $(TOP)/ext/misc/series.c \
  $(TOP)/ext/misc/spellfix.c \
  $(TOP)/ext/misc/totype.c \
  $(TOP)/ext/misc/unionvtab.c \
  $(TOP)/ext/misc/wholenumber.c \

  $(TOP)/ext/misc/zipfile.c \
  $(TOP)/ext/fts5/fts5_tcl.c \
  $(TOP)/ext/fts5/fts5_test_mi.c \
  $(TOP)/ext/fts5/fts5_test_tok.c


#TESTSRC += $(TOP)/ext/fts2/fts2_tokenizer.c
................................................................................
	cat parse.h $(TOP)/src/vdbe.c | \
		tclsh $(TOP)/tool/mkopcodeh.tcl >opcodes.h

# Rules to build parse.c and parse.h - the outputs of lemon.
#
parse.h:	parse.c

parse.c:	$(TOP)/src/parse.y lemon
	cp $(TOP)/src/parse.y .

	./lemon -s $(OPTS) parse.y



sqlite3.h:	$(TOP)/src/sqlite.h.in $(TOP)/manifest mksourceid $(TOP)/VERSION $(TOP)/ext/rtree/sqlite3rtree.h
	tclsh $(TOP)/tool/mksqlite3h.tcl $(TOP) >sqlite3.h

keywordhash.h:	$(TOP)/tool/mkkeywordhash.c
	$(BCC) -o mkkeywordhash $(OPTS) $(TOP)/tool/mkkeywordhash.c
	./mkkeywordhash >keywordhash.h

Changes to src/btree.c.

829
830
831
832
833
834
835
836
837
838
839
840
841
842



843

844
845
846
847
848
849
850
....
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439

1440
1441
1442
1443
1444
1445
1446
....
5269
5270
5271
5272
5273
5274
5275
5276
5277
5278
5279
5280
5281
5282
5283
5284
5285
5286
5287
5288
5289
5290
5291
5292
5293
5294
5295
5296
5297
5298
5299
....
6183
6184
6185
6186
6187
6188
6189
6190
6191
6192
6193
6194
6195
6196
6197
....
8830
8831
8832
8833
8834
8835
8836
8837




8838
8839
8840
8841
8842
8843
8844
8845
8846
** when saveCursorPosition() was called. Note that this call deletes the 
** saved position info stored by saveCursorPosition(), so there can be
** at most one effective restoreCursorPosition() call after each 
** saveCursorPosition().
*/
static int btreeRestoreCursorPosition(BtCursor *pCur){
  int rc;
  int skipNext;
  assert( cursorOwnsBtShared(pCur) );
  assert( pCur->eState>=CURSOR_REQUIRESEEK );
  if( pCur->eState==CURSOR_FAULT ){
    return pCur->skipNext;
  }
  pCur->eState = CURSOR_INVALID;



  rc = btreeMoveto(pCur, pCur->pKey, pCur->nKey, 0, &skipNext);

  if( rc==SQLITE_OK ){
    sqlite3_free(pCur->pKey);
    pCur->pKey = 0;
    assert( pCur->eState==CURSOR_VALID || pCur->eState==CURSOR_INVALID );
    if( skipNext ) pCur->skipNext = skipNext;
    if( pCur->skipNext && pCur->eState==CURSOR_VALID ){
      pCur->eState = CURSOR_SKIPNEXT;
................................................................................
  /* This block handles pages with two or fewer free blocks and nMaxFrag
  ** or fewer fragmented bytes. In this case it is faster to move the
  ** two (or one) blocks of cells using memmove() and add the required
  ** offsets to each pointer in the cell-pointer array than it is to 
  ** reconstruct the entire page.  */
  if( (int)data[hdr+7]<=nMaxFrag ){
    int iFree = get2byte(&data[hdr+1]);

    /* If the initial freeblock offset were out of bounds, that would have
    ** been detected by btreeComputeFreeSpace() when it was computing the
    ** number of free bytes on the page. */
    assert( iFree<=usableSize-4 );

    if( iFree ){
      int iFree2 = get2byte(&data[iFree]);
      if( iFree2>usableSize-4 ) return SQLITE_CORRUPT_PAGE(pPage);
      if( 0==iFree2 || (data[iFree2]==0 && data[iFree2+1]==0) ){
        u8 *pEnd = &data[cellOffset + nCell*2];
        u8 *pAddr;
        int sz2 = 0;
................................................................................
    assert( pCur->pgnoRoot==0 || pCur->pPage->nCell==0 );
    *pRes = 1;
    rc = SQLITE_OK;
  }
  return rc;
}

/*
** This function is a no-op if cursor pCur does not point to a valid row.
** Otherwise, if pCur is valid, configure it so that the next call to
** sqlite3BtreeNext() is a no-op.
*/
#ifndef SQLITE_OMIT_WINDOWFUNC
void sqlite3BtreeSkipNext(BtCursor *pCur){
  /* We believe that the cursor must always be in the valid state when
  ** this routine is called, but the proof is difficult, so we add an
  ** ALWaYS() test just in case we are wrong. */
  if( ALWAYS(pCur->eState==CURSOR_VALID) ){
    pCur->eState = CURSOR_SKIPNEXT;
    pCur->skipNext = 1;
  }
}
#endif /* SQLITE_OMIT_WINDOWFUNC */

/* Move the cursor to the last entry in the table.  Return SQLITE_OK
** on success.  Set *pRes to 0 if the cursor actually points to something
** or set *pRes to 1 if the table is empty.
*/
int sqlite3BtreeLast(BtCursor *pCur, int *pRes){
  int rc;
 
................................................................................
*/
static int freePage2(BtShared *pBt, MemPage *pMemPage, Pgno iPage){
  MemPage *pTrunk = 0;                /* Free-list trunk page */
  Pgno iTrunk = 0;                    /* Page number of free-list trunk page */ 
  MemPage *pPage1 = pBt->pPage1;      /* Local reference to page 1 */
  MemPage *pPage;                     /* Page being freed. May be NULL. */
  int rc;                             /* Return Code */
  int nFree;                          /* Initial number of pages on free-list */

  assert( sqlite3_mutex_held(pBt->mutex) );
  assert( CORRUPT_DB || iPage>1 );
  assert( !pMemPage || pMemPage->pgno==iPage );

  if( iPage<2 || iPage>pBt->nPage ){
    return SQLITE_CORRUPT_BKPT;
................................................................................

  assert( cursorOwnsBtShared(pCur) );
  assert( pBt->inTransaction==TRANS_WRITE );
  assert( (pBt->btsFlags & BTS_READ_ONLY)==0 );
  assert( pCur->curFlags & BTCF_WriteFlag );
  assert( hasSharedCacheTableLock(p, pCur->pgnoRoot, pCur->pKeyInfo!=0, 2) );
  assert( !hasReadConflicts(p, pCur->pgnoRoot) );
  assert( pCur->ix<pCur->pPage->nCell );




  assert( pCur->eState==CURSOR_VALID );
  assert( (flags & ~(BTREE_SAVEPOSITION | BTREE_AUXDELETE))==0 );

  iCellDepth = pCur->iPage;
  iCellIdx = pCur->ix;
  pPage = pCur->pPage;
  pCell = findCell(pPage, iCellIdx);
  if( pPage->nFree<0 && btreeComputeFreeSpace(pPage) ) return SQLITE_CORRUPT;








|






>
>
>
|
>







 







<
<
<
<
<
>







 







<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<







 







|







 







|
>
>
>
>

<







829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
....
1432
1433
1434
1435
1436
1437
1438





1439
1440
1441
1442
1443
1444
1445
1446
....
5269
5270
5271
5272
5273
5274
5275

















5276
5277
5278
5279
5280
5281
5282
....
6166
6167
6168
6169
6170
6171
6172
6173
6174
6175
6176
6177
6178
6179
6180
....
8813
8814
8815
8816
8817
8818
8819
8820
8821
8822
8823
8824
8825

8826
8827
8828
8829
8830
8831
8832
** when saveCursorPosition() was called. Note that this call deletes the 
** saved position info stored by saveCursorPosition(), so there can be
** at most one effective restoreCursorPosition() call after each 
** saveCursorPosition().
*/
static int btreeRestoreCursorPosition(BtCursor *pCur){
  int rc;
  int skipNext = 0;
  assert( cursorOwnsBtShared(pCur) );
  assert( pCur->eState>=CURSOR_REQUIRESEEK );
  if( pCur->eState==CURSOR_FAULT ){
    return pCur->skipNext;
  }
  pCur->eState = CURSOR_INVALID;
  if( sqlite3FaultSim(410) ){
    rc = SQLITE_IOERR;
  }else{
    rc = btreeMoveto(pCur, pCur->pKey, pCur->nKey, 0, &skipNext);
  }
  if( rc==SQLITE_OK ){
    sqlite3_free(pCur->pKey);
    pCur->pKey = 0;
    assert( pCur->eState==CURSOR_VALID || pCur->eState==CURSOR_INVALID );
    if( skipNext ) pCur->skipNext = skipNext;
    if( pCur->skipNext && pCur->eState==CURSOR_VALID ){
      pCur->eState = CURSOR_SKIPNEXT;
................................................................................
  /* This block handles pages with two or fewer free blocks and nMaxFrag
  ** or fewer fragmented bytes. In this case it is faster to move the
  ** two (or one) blocks of cells using memmove() and add the required
  ** offsets to each pointer in the cell-pointer array than it is to 
  ** reconstruct the entire page.  */
  if( (int)data[hdr+7]<=nMaxFrag ){
    int iFree = get2byte(&data[hdr+1]);





    if( iFree>usableSize-4 ) return SQLITE_CORRUPT_PAGE(pPage);
    if( iFree ){
      int iFree2 = get2byte(&data[iFree]);
      if( iFree2>usableSize-4 ) return SQLITE_CORRUPT_PAGE(pPage);
      if( 0==iFree2 || (data[iFree2]==0 && data[iFree2+1]==0) ){
        u8 *pEnd = &data[cellOffset + nCell*2];
        u8 *pAddr;
        int sz2 = 0;
................................................................................
    assert( pCur->pgnoRoot==0 || pCur->pPage->nCell==0 );
    *pRes = 1;
    rc = SQLITE_OK;
  }
  return rc;
}


















/* Move the cursor to the last entry in the table.  Return SQLITE_OK
** on success.  Set *pRes to 0 if the cursor actually points to something
** or set *pRes to 1 if the table is empty.
*/
int sqlite3BtreeLast(BtCursor *pCur, int *pRes){
  int rc;
 
................................................................................
*/
static int freePage2(BtShared *pBt, MemPage *pMemPage, Pgno iPage){
  MemPage *pTrunk = 0;                /* Free-list trunk page */
  Pgno iTrunk = 0;                    /* Page number of free-list trunk page */ 
  MemPage *pPage1 = pBt->pPage1;      /* Local reference to page 1 */
  MemPage *pPage;                     /* Page being freed. May be NULL. */
  int rc;                             /* Return Code */
  u32 nFree;                          /* Initial number of pages on free-list */

  assert( sqlite3_mutex_held(pBt->mutex) );
  assert( CORRUPT_DB || iPage>1 );
  assert( !pMemPage || pMemPage->pgno==iPage );

  if( iPage<2 || iPage>pBt->nPage ){
    return SQLITE_CORRUPT_BKPT;
................................................................................

  assert( cursorOwnsBtShared(pCur) );
  assert( pBt->inTransaction==TRANS_WRITE );
  assert( (pBt->btsFlags & BTS_READ_ONLY)==0 );
  assert( pCur->curFlags & BTCF_WriteFlag );
  assert( hasSharedCacheTableLock(p, pCur->pgnoRoot, pCur->pKeyInfo!=0, 2) );
  assert( !hasReadConflicts(p, pCur->pgnoRoot) );
  assert( (flags & ~(BTREE_SAVEPOSITION | BTREE_AUXDELETE))==0 );
  if( pCur->eState==CURSOR_REQUIRESEEK ){
    rc = btreeRestoreCursorPosition(pCur);
    if( rc ) return rc;
  }
  assert( pCur->eState==CURSOR_VALID );


  iCellDepth = pCur->iPage;
  iCellIdx = pCur->ix;
  pPage = pCur->pPage;
  pCell = findCell(pPage, iCellIdx);
  if( pPage->nFree<0 && btreeComputeFreeSpace(pPage) ) return SQLITE_CORRUPT;

Changes to src/btree.h.

297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
  int nData;              /* Size of pData.  0 if none. */
  int nZero;              /* Extra zero data appended after pData,nData */
};

int sqlite3BtreeInsert(BtCursor*, const BtreePayload *pPayload,
                       int flags, int seekResult);
int sqlite3BtreeFirst(BtCursor*, int *pRes);
#ifndef SQLITE_OMIT_WINDOWFUNC
void sqlite3BtreeSkipNext(BtCursor*);
#endif
int sqlite3BtreeLast(BtCursor*, int *pRes);
int sqlite3BtreeNext(BtCursor*, int flags);
int sqlite3BtreeEof(BtCursor*);
int sqlite3BtreePrevious(BtCursor*, int flags);
i64 sqlite3BtreeIntegerKey(BtCursor*);
#ifdef SQLITE_ENABLE_OFFSET_SQL_FUNC
i64 sqlite3BtreeOffset(BtCursor*);







<
<
<







297
298
299
300
301
302
303



304
305
306
307
308
309
310
  int nData;              /* Size of pData.  0 if none. */
  int nZero;              /* Extra zero data appended after pData,nData */
};

int sqlite3BtreeInsert(BtCursor*, const BtreePayload *pPayload,
                       int flags, int seekResult);
int sqlite3BtreeFirst(BtCursor*, int *pRes);



int sqlite3BtreeLast(BtCursor*, int *pRes);
int sqlite3BtreeNext(BtCursor*, int flags);
int sqlite3BtreeEof(BtCursor*);
int sqlite3BtreePrevious(BtCursor*, int flags);
i64 sqlite3BtreeIntegerKey(BtCursor*);
#ifdef SQLITE_ENABLE_OFFSET_SQL_FUNC
i64 sqlite3BtreeOffset(BtCursor*);

Changes to src/build.c.

260
261
262
263
264
265
266

267
268
269
270
271
272
273
....
3260
3261
3262
3263
3264
3265
3266

3267
3268
3269
3270
3271
3272
3273
....
3278
3279
3280
3281
3282
3283
3284

3285
3286
3287
3288
3289
3290
3291
....
3761
3762
3763
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782
3783
3784
3785
3786
3787
....
3884
3885
3886
3887
3888
3889
3890
3891
3892
3893
3894
3895
3896
3897
3898
....
4391
4392
4393
4394
4395
4396
4397
4398

4399
4400
4401
4402
4403
4404
4405
....
4640
4641
4642
4643
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
  zSql = sqlite3VMPrintf(db, zFormat, ap);
  va_end(ap);
  if( zSql==0 ){
    /* This can result either from an OOM or because the formatted string
    ** exceeds SQLITE_LIMIT_LENGTH.  In the latter case, we need to set
    ** an error */
    if( !db->mallocFailed ) pParse->rc = SQLITE_TOOBIG;

    return;
  }
  pParse->nested++;
  memcpy(saveBuf, PARSE_TAIL(pParse), PARSE_TAIL_SZ);
  memset(PARSE_TAIL(pParse), 0, PARSE_TAIL_SZ);
  sqlite3RunParser(pParse, zSql, &zErrMsg);
  sqlite3DbFree(db, zErrMsg);
................................................................................
    pList = sqlite3ExprListAppend(pParse, 0,
              sqlite3ExprAlloc(db, TK_ID, &prevCol, 0));
    if( pList==0 ) goto exit_create_index;
    assert( pList->nExpr==1 );
    sqlite3ExprListSetSortOrder(pList, sortOrder);
  }else{
    sqlite3ExprListCheckLength(pParse, pList, "index");

  }

  /* Figure out how many bytes of space are required to store explicitly
  ** specified collation sequence names.
  */
  for(i=0; i<pList->nExpr; i++){
    Expr *pExpr = pList->a[i].pExpr;
................................................................................
  }

  /* 
  ** Allocate the index structure. 
  */
  nName = sqlite3Strlen30(zName);
  nExtraCol = pPk ? pPk->nKeyCol : 1;

  pIndex = sqlite3AllocateIndexObject(db, pList->nExpr + nExtraCol,
                                      nName + nExtra + 1, &zExtra);
  if( db->mallocFailed ){
    goto exit_create_index;
  }
  assert( EIGHT_BYTE_ALIGNMENT(pIndex->aiRowLogEst) );
  assert( EIGHT_BYTE_ALIGNMENT(pIndex->azColl) );
................................................................................
  sqlite3 *db,      /* Connection to notify of malloc failures */
  void *pArray,     /* Array of objects.  Might be reallocated */
  int szEntry,      /* Size of each object in the array */
  int *pnEntry,     /* Number of objects currently in use */
  int *pIdx         /* Write the index of a new slot here */
){
  char *z;
  int n = *pnEntry;
  if( (n & (n-1))==0 ){
    int sz = (n==0) ? 1 : 2*n;
    void *pNew = sqlite3DbRealloc(db, pArray, sz*szEntry);
    if( pNew==0 ){
      *pIdx = -1;
      return pArray;
    }
    pArray = pNew;
  }
  z = (char*)pArray;
  memset(&z[n * szEntry], 0, szEntry);
  *pIdx = n;
  ++*pnEntry;
  return pArray;
}

/*
** Append a new element to the given IdList.  Create a new IdList if
** need be.
................................................................................
  assert( nExtra>=1 );
  assert( pSrc!=0 );
  assert( iStart<=pSrc->nSrc );

  /* Allocate additional space if needed */
  if( (u32)pSrc->nSrc+nExtra>pSrc->nAlloc ){
    SrcList *pNew;
    int nAlloc = pSrc->nSrc*2+nExtra;
    sqlite3 *db = pParse->db;

    if( pSrc->nSrc+nExtra>=SQLITE_MAX_SRCLIST ){
      sqlite3ErrorMsg(pParse, "too many FROM clause terms, max: %d",
                      SQLITE_MAX_SRCLIST);
      return 0;
    }
................................................................................
  Index *pIdx       /* The index that triggers the constraint */
){
  char *zErr;
  int j;
  StrAccum errMsg;
  Table *pTab = pIdx->pTable;

  sqlite3StrAccumInit(&errMsg, pParse->db, 0, 0, 200);

  if( pIdx->aColExpr ){
    sqlite3_str_appendf(&errMsg, "index '%q'", pIdx->zName);
  }else{
    for(j=0; j<pIdx->nKeyCol; j++){
      char *zCol;
      assert( pIdx->aiColumn[j]>=0 );
      zCol = pTab->aCol[pIdx->aiColumn[j]].zName;
................................................................................
      if( sqlite3StrICmp(zName, pWith->a[i].zName)==0 ){
        sqlite3ErrorMsg(pParse, "duplicate WITH table name: %s", zName);
      }
    }
  }

  if( pWith ){
    int nByte = sizeof(*pWith) + (sizeof(pWith->a[1]) * pWith->nCte);
    pNew = sqlite3DbRealloc(db, pWith, nByte);
  }else{
    pNew = sqlite3DbMallocZero(db, sizeof(*pWith));
  }
  assert( (pNew!=0 && zName!=0) || db->mallocFailed );

  if( db->mallocFailed ){







>







 







>







 







>







 







|

|









<







 







|







 







|
>







 







|







260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
....
3261
3262
3263
3264
3265
3266
3267
3268
3269
3270
3271
3272
3273
3274
3275
....
3280
3281
3282
3283
3284
3285
3286
3287
3288
3289
3290
3291
3292
3293
3294
....
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782

3783
3784
3785
3786
3787
3788
3789
....
3886
3887
3888
3889
3890
3891
3892
3893
3894
3895
3896
3897
3898
3899
3900
....
4393
4394
4395
4396
4397
4398
4399
4400
4401
4402
4403
4404
4405
4406
4407
4408
....
4643
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
4655
4656
4657
  zSql = sqlite3VMPrintf(db, zFormat, ap);
  va_end(ap);
  if( zSql==0 ){
    /* This can result either from an OOM or because the formatted string
    ** exceeds SQLITE_LIMIT_LENGTH.  In the latter case, we need to set
    ** an error */
    if( !db->mallocFailed ) pParse->rc = SQLITE_TOOBIG;
    pParse->nErr++;
    return;
  }
  pParse->nested++;
  memcpy(saveBuf, PARSE_TAIL(pParse), PARSE_TAIL_SZ);
  memset(PARSE_TAIL(pParse), 0, PARSE_TAIL_SZ);
  sqlite3RunParser(pParse, zSql, &zErrMsg);
  sqlite3DbFree(db, zErrMsg);
................................................................................
    pList = sqlite3ExprListAppend(pParse, 0,
              sqlite3ExprAlloc(db, TK_ID, &prevCol, 0));
    if( pList==0 ) goto exit_create_index;
    assert( pList->nExpr==1 );
    sqlite3ExprListSetSortOrder(pList, sortOrder);
  }else{
    sqlite3ExprListCheckLength(pParse, pList, "index");
    if( pParse->nErr ) goto exit_create_index;
  }

  /* Figure out how many bytes of space are required to store explicitly
  ** specified collation sequence names.
  */
  for(i=0; i<pList->nExpr; i++){
    Expr *pExpr = pList->a[i].pExpr;
................................................................................
  }

  /* 
  ** Allocate the index structure. 
  */
  nName = sqlite3Strlen30(zName);
  nExtraCol = pPk ? pPk->nKeyCol : 1;
  assert( pList->nExpr + nExtraCol <= 32767 /* Fits in i16 */ );
  pIndex = sqlite3AllocateIndexObject(db, pList->nExpr + nExtraCol,
                                      nName + nExtra + 1, &zExtra);
  if( db->mallocFailed ){
    goto exit_create_index;
  }
  assert( EIGHT_BYTE_ALIGNMENT(pIndex->aiRowLogEst) );
  assert( EIGHT_BYTE_ALIGNMENT(pIndex->azColl) );
................................................................................
  sqlite3 *db,      /* Connection to notify of malloc failures */
  void *pArray,     /* Array of objects.  Might be reallocated */
  int szEntry,      /* Size of each object in the array */
  int *pnEntry,     /* Number of objects currently in use */
  int *pIdx         /* Write the index of a new slot here */
){
  char *z;
  sqlite3_int64 n = *pIdx = *pnEntry;
  if( (n & (n-1))==0 ){
    sqlite3_int64 sz = (n==0) ? 1 : 2*n;
    void *pNew = sqlite3DbRealloc(db, pArray, sz*szEntry);
    if( pNew==0 ){
      *pIdx = -1;
      return pArray;
    }
    pArray = pNew;
  }
  z = (char*)pArray;
  memset(&z[n * szEntry], 0, szEntry);

  ++*pnEntry;
  return pArray;
}

/*
** Append a new element to the given IdList.  Create a new IdList if
** need be.
................................................................................
  assert( nExtra>=1 );
  assert( pSrc!=0 );
  assert( iStart<=pSrc->nSrc );

  /* Allocate additional space if needed */
  if( (u32)pSrc->nSrc+nExtra>pSrc->nAlloc ){
    SrcList *pNew;
    sqlite3_int64 nAlloc = 2*(sqlite3_int64)pSrc->nSrc+nExtra;
    sqlite3 *db = pParse->db;

    if( pSrc->nSrc+nExtra>=SQLITE_MAX_SRCLIST ){
      sqlite3ErrorMsg(pParse, "too many FROM clause terms, max: %d",
                      SQLITE_MAX_SRCLIST);
      return 0;
    }
................................................................................
  Index *pIdx       /* The index that triggers the constraint */
){
  char *zErr;
  int j;
  StrAccum errMsg;
  Table *pTab = pIdx->pTable;

  sqlite3StrAccumInit(&errMsg, pParse->db, 0, 0, 
                      pParse->db->aLimit[SQLITE_LIMIT_LENGTH]);
  if( pIdx->aColExpr ){
    sqlite3_str_appendf(&errMsg, "index '%q'", pIdx->zName);
  }else{
    for(j=0; j<pIdx->nKeyCol; j++){
      char *zCol;
      assert( pIdx->aiColumn[j]>=0 );
      zCol = pTab->aCol[pIdx->aiColumn[j]].zName;
................................................................................
      if( sqlite3StrICmp(zName, pWith->a[i].zName)==0 ){
        sqlite3ErrorMsg(pParse, "duplicate WITH table name: %s", zName);
      }
    }
  }

  if( pWith ){
    sqlite3_int64 nByte = sizeof(*pWith) + (sizeof(pWith->a[1]) * pWith->nCte);
    pNew = sqlite3DbRealloc(db, pWith, nByte);
  }else{
    pNew = sqlite3DbMallocZero(db, sizeof(*pWith));
  }
  assert( (pNew!=0 && zName!=0) || db->mallocFailed );

  if( db->mallocFailed ){

Changes to src/expr.c.

853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
....
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
1331
1332
....
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
....
5028
5029
5030
5031
5032
5033
5034











5035
5036
5037
5038
5039
5040
5041
  if( op==TK_AND && pParse->nErr==0 && !IN_RENAME_OBJECT ){
    /* Take advantage of short-circuit false optimization for AND */
    p = sqlite3ExprAnd(pParse->db, pLeft, pRight);
  }else{
    p = sqlite3DbMallocRawNN(pParse->db, sizeof(Expr));
    if( p ){
      memset(p, 0, sizeof(Expr));
      p->op = op & TKFLG_MASK;
      p->iAgg = -1;
    }
    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);
  }
  if( p ) {
    sqlite3ExprCheckHeight(pParse, p->nHeight);
  }
................................................................................
** argument. If an OOM condition is encountered, NULL is returned
** and the db->mallocFailed flag set.
*/
#ifndef SQLITE_OMIT_CTE
static With *withDup(sqlite3 *db, With *p){
  With *pRet = 0;
  if( p ){
    int nByte = sizeof(*p) + sizeof(p->a[0]) * (p->nCte-1);
    pRet = sqlite3DbMallocZero(db, nByte);
    if( pRet ){
      int i;
      pRet->nCte = p->nCte;
      for(i=0; i<p->nCte; i++){
        pRet->a[i].pSelect = sqlite3SelectDup(db, p->a[i].pSelect, 0);
        pRet->a[i].pCols = sqlite3ExprListDup(db, p->a[i].pCols, 0);
................................................................................
    if( pList==0 ){
      goto no_mem;
    }
    pList->nExpr = 0;
  }else if( (pList->nExpr & (pList->nExpr-1))==0 ){
    ExprList *pNew;
    pNew = sqlite3DbRealloc(db, pList, 
             sizeof(*pList)+(2*pList->nExpr - 1)*sizeof(pList->a[0]));
    if( pNew==0 ){
      goto no_mem;
    }
    pList = pNew;
  }
  pItem = &pList->a[pList->nExpr++];
  assert( offsetof(struct ExprList_item,zName)==sizeof(pItem->pExpr) );
................................................................................
** an ordinary JOIN.  The p argument is the WHERE clause.  If the WHERE
** clause requires that some column of the right table of the LEFT JOIN
** be non-NULL, then the LEFT JOIN can be safely converted into an
** ordinary join.
*/
int sqlite3ExprImpliesNonNullRow(Expr *p, int iTab){
  Walker w;











  w.xExprCallback = impliesNotNullRow;
  w.xSelectCallback = 0;
  w.xSelectCallback2 = 0;
  w.eCode = 0;
  w.u.iCur = iTab;
  sqlite3WalkExpr(&w, p);
  return w.eCode;







|







 







|







 







|







 







>
>
>
>
>
>
>
>
>
>
>







853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
....
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
1331
1332
....
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
....
5028
5029
5030
5031
5032
5033
5034
5035
5036
5037
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047
5048
5049
5050
5051
5052
  if( op==TK_AND && pParse->nErr==0 && !IN_RENAME_OBJECT ){
    /* Take advantage of short-circuit false optimization for AND */
    p = sqlite3ExprAnd(pParse->db, pLeft, pRight);
  }else{
    p = sqlite3DbMallocRawNN(pParse->db, sizeof(Expr));
    if( p ){
      memset(p, 0, sizeof(Expr));
      p->op = op & 0xff;
      p->iAgg = -1;
    }
    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);
  }
  if( p ) {
    sqlite3ExprCheckHeight(pParse, p->nHeight);
  }
................................................................................
** argument. If an OOM condition is encountered, NULL is returned
** and the db->mallocFailed flag set.
*/
#ifndef SQLITE_OMIT_CTE
static With *withDup(sqlite3 *db, With *p){
  With *pRet = 0;
  if( p ){
    sqlite3_int64 nByte = sizeof(*p) + sizeof(p->a[0]) * (p->nCte-1);
    pRet = sqlite3DbMallocZero(db, nByte);
    if( pRet ){
      int i;
      pRet->nCte = p->nCte;
      for(i=0; i<p->nCte; i++){
        pRet->a[i].pSelect = sqlite3SelectDup(db, p->a[i].pSelect, 0);
        pRet->a[i].pCols = sqlite3ExprListDup(db, p->a[i].pCols, 0);
................................................................................
    if( pList==0 ){
      goto no_mem;
    }
    pList->nExpr = 0;
  }else if( (pList->nExpr & (pList->nExpr-1))==0 ){
    ExprList *pNew;
    pNew = sqlite3DbRealloc(db, pList, 
         sizeof(*pList)+(2*(sqlite3_int64)pList->nExpr-1)*sizeof(pList->a[0]));
    if( pNew==0 ){
      goto no_mem;
    }
    pList = pNew;
  }
  pItem = &pList->a[pList->nExpr++];
  assert( offsetof(struct ExprList_item,zName)==sizeof(pItem->pExpr) );
................................................................................
** an ordinary JOIN.  The p argument is the WHERE clause.  If the WHERE
** clause requires that some column of the right table of the LEFT JOIN
** be non-NULL, then the LEFT JOIN can be safely converted into an
** ordinary join.
*/
int sqlite3ExprImpliesNonNullRow(Expr *p, int iTab){
  Walker w;
  p = sqlite3ExprSkipCollate(p);
  while( p ){
    if( p->op==TK_NOTNULL ){
      p = p->pLeft;
    }else if( p->op==TK_AND ){
      if( sqlite3ExprImpliesNonNullRow(p->pLeft, iTab) ) return 1;
      p = p->pRight;
    }else{
      break;
    }
  }
  w.xExprCallback = impliesNotNullRow;
  w.xSelectCallback = 0;
  w.xSelectCallback2 = 0;
  w.eCode = 0;
  w.u.iCur = iTab;
  sqlite3WalkExpr(&w, p);
  return w.eCode;

Changes to src/hash.c.

146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
...
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
*/
static HashElem *findElementWithHash(
  const Hash *pH,     /* The pH to be searched */
  const char *pKey,   /* The key we are searching for */
  unsigned int *pHash /* Write the hash value here */
){
  HashElem *elem;                /* Used to loop thru the element list */
  int count;                     /* Number of elements left to test */
  unsigned int h;                /* The computed hash */
  static HashElem nullElement = { 0, 0, 0, 0 };

  if( pH->ht ){   /*OPTIMIZATION-IF-TRUE*/
    struct _ht *pEntry;
    h = strHash(pKey) % pH->htsize;
    pEntry = &pH->ht[h];
................................................................................
    elem->next->prev = elem->prev;
  }
  if( pH->ht ){
    pEntry = &pH->ht[h];
    if( pEntry->chain==elem ){
      pEntry->chain = elem->next;
    }
    pEntry->count--;
    assert( pEntry->count>=0 );
  }
  sqlite3_free( elem );
  pH->count--;
  if( pH->count==0 ){
    assert( pH->first==0 );
    assert( pH->count==0 );
    sqlite3HashClear(pH);







|







 







|
|







146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
...
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
*/
static HashElem *findElementWithHash(
  const Hash *pH,     /* The pH to be searched */
  const char *pKey,   /* The key we are searching for */
  unsigned int *pHash /* Write the hash value here */
){
  HashElem *elem;                /* Used to loop thru the element list */
  unsigned int count;            /* Number of elements left to test */
  unsigned int h;                /* The computed hash */
  static HashElem nullElement = { 0, 0, 0, 0 };

  if( pH->ht ){   /*OPTIMIZATION-IF-TRUE*/
    struct _ht *pEntry;
    h = strHash(pKey) % pH->htsize;
    pEntry = &pH->ht[h];
................................................................................
    elem->next->prev = elem->prev;
  }
  if( pH->ht ){
    pEntry = &pH->ht[h];
    if( pEntry->chain==elem ){
      pEntry->chain = elem->next;
    }
    assert( pEntry->count>0 );
    pEntry->count--;
  }
  sqlite3_free( elem );
  pH->count--;
  if( pH->count==0 ){
    assert( pH->first==0 );
    assert( pH->count==0 );
    sqlite3HashClear(pH);

Changes to src/hash.h.

41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
** the hash table.
*/
struct Hash {
  unsigned int htsize;      /* Number of buckets in the hash table */
  unsigned int count;       /* Number of entries in this table */
  HashElem *first;          /* The first element of the array */
  struct _ht {              /* the hash table */
    int count;                 /* Number of entries with this hash */
    HashElem *chain;           /* Pointer to first entry with this hash */
  } *ht;
};

/* Each element in the hash table is an instance of the following 
** structure.  All elements are stored on a single doubly-linked list.
**







|







41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
** the hash table.
*/
struct Hash {
  unsigned int htsize;      /* Number of buckets in the hash table */
  unsigned int count;       /* Number of entries in this table */
  HashElem *first;          /* The first element of the array */
  struct _ht {              /* the hash table */
    unsigned int count;        /* Number of entries with this hash */
    HashElem *chain;           /* Pointer to first entry with this hash */
  } *ht;
};

/* Each element in the hash table is an instance of the following 
** structure.  All elements are stored on a single doubly-linked list.
**

Changes to src/insert.c.

2271
2272
2273
2274
2275
2276
2277







2278
2279
2280
2281
2282
2283
2284
....
2348
2349
2350
2351
2352
2353
2354
2355
2356
2357
2358
2359
2360
2361
2362
    }
    for(pSrcIdx=pSrc->pIndex; pSrcIdx; pSrcIdx=pSrcIdx->pNext){
      if( xferCompatibleIndex(pDestIdx, pSrcIdx) ) break;
    }
    if( pSrcIdx==0 ){
      return 0;    /* pDestIdx has no corresponding index in pSrc */
    }







  }
#ifndef SQLITE_OMIT_CHECK
  if( pDest->pCheck && sqlite3ExprListCompare(pSrc->pCheck,pDest->pCheck,-1) ){
    return 0;   /* Tables have different CHECK constraints.  Ticket #2252 */
  }
#endif
#ifndef SQLITE_OMIT_FOREIGN_KEY
................................................................................
      addr1 = sqlite3VdbeAddOp2(v, OP_Rowid, iSrc, regRowid);
      sqlite3VdbeVerifyAbortable(v, onError);
      addr2 = sqlite3VdbeAddOp3(v, OP_NotExists, iDest, 0, regRowid);
      VdbeCoverage(v);
      sqlite3RowidConstraint(pParse, onError, pDest);
      sqlite3VdbeJumpHere(v, addr2);
      autoIncStep(pParse, regAutoinc, regRowid);
    }else if( pDest->pIndex==0 && !(db->mDbFlags & DBFLAG_Vacuum) ){
      addr1 = sqlite3VdbeAddOp2(v, OP_NewRowid, iDest, regRowid);
    }else{
      addr1 = sqlite3VdbeAddOp2(v, OP_Rowid, iSrc, regRowid);
      assert( (pDest->tabFlags & TF_Autoincrement)==0 );
    }
    sqlite3VdbeAddOp3(v, OP_RowData, iSrc, regData, 1);
    if( db->mDbFlags & DBFLAG_Vacuum ){







>
>
>
>
>
>
>







 







|







2271
2272
2273
2274
2275
2276
2277
2278
2279
2280
2281
2282
2283
2284
2285
2286
2287
2288
2289
2290
2291
....
2355
2356
2357
2358
2359
2360
2361
2362
2363
2364
2365
2366
2367
2368
2369
    }
    for(pSrcIdx=pSrc->pIndex; pSrcIdx; pSrcIdx=pSrcIdx->pNext){
      if( xferCompatibleIndex(pDestIdx, pSrcIdx) ) break;
    }
    if( pSrcIdx==0 ){
      return 0;    /* pDestIdx has no corresponding index in pSrc */
    }
    if( pSrcIdx->tnum==pDestIdx->tnum && pSrc->pSchema==pDest->pSchema
         && sqlite3FaultSim(411)==SQLITE_OK ){
      /* The sqlite3FaultSim() call allows this corruption test to be
      ** bypassed during testing, in order to exercise other corruption tests
      ** further downstream. */
      return 0;   /* Corrupt schema - two indexes on the same btree */
    }
  }
#ifndef SQLITE_OMIT_CHECK
  if( pDest->pCheck && sqlite3ExprListCompare(pSrc->pCheck,pDest->pCheck,-1) ){
    return 0;   /* Tables have different CHECK constraints.  Ticket #2252 */
  }
#endif
#ifndef SQLITE_OMIT_FOREIGN_KEY
................................................................................
      addr1 = sqlite3VdbeAddOp2(v, OP_Rowid, iSrc, regRowid);
      sqlite3VdbeVerifyAbortable(v, onError);
      addr2 = sqlite3VdbeAddOp3(v, OP_NotExists, iDest, 0, regRowid);
      VdbeCoverage(v);
      sqlite3RowidConstraint(pParse, onError, pDest);
      sqlite3VdbeJumpHere(v, addr2);
      autoIncStep(pParse, regAutoinc, regRowid);
    }else if( pDest->pIndex==0 && !(db->mDbFlags & DBFLAG_VacuumInto) ){
      addr1 = sqlite3VdbeAddOp2(v, OP_NewRowid, iDest, regRowid);
    }else{
      addr1 = sqlite3VdbeAddOp2(v, OP_Rowid, iSrc, regRowid);
      assert( (pDest->tabFlags & TF_Autoincrement)==0 );
    }
    sqlite3VdbeAddOp3(v, OP_RowData, iSrc, regData, 1);
    if( db->mDbFlags & DBFLAG_Vacuum ){

Changes to src/loadext.c.

451
452
453
454
455
456
457
458
459
460
461



462
463
464
465
466
467
468
  sqlite3_str_errcode,
  sqlite3_str_length,
  sqlite3_str_value,
  /* Version 3.25.0 and later */
  sqlite3_create_window_function,
  /* Version 3.26.0 and later */
#ifdef SQLITE_ENABLE_NORMALIZE
  sqlite3_normalized_sql
#else
  0
#endif



};

/*
** Attempt to load an SQLite extension library contained in the file
** zFile.  The entry point is zProc.  zProc may be 0 in which case a
** default entry point name (sqlite3_extension_init) is used.  Use
** of the default name is recommended.







|

|

>
>
>







451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
  sqlite3_str_errcode,
  sqlite3_str_length,
  sqlite3_str_value,
  /* Version 3.25.0 and later */
  sqlite3_create_window_function,
  /* Version 3.26.0 and later */
#ifdef SQLITE_ENABLE_NORMALIZE
  sqlite3_normalized_sql,
#else
  0,
#endif
  /* Version 3.28.0 and later */
  sqlite3_stmt_isexplain,
  sqlite3_value_frombind
};

/*
** Attempt to load an SQLite extension library contained in the file
** zFile.  The entry point is zProc.  zProc may be 0 in which case a
** default entry point name (sqlite3_extension_init) is used.  Use
** of the default name is recommended.

Changes to src/main.c.

701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
  if( sz<=(int)sizeof(LookasideSlot*) ) sz = 0;
  if( cnt<0 ) cnt = 0;
  if( sz==0 || cnt==0 ){
    sz = 0;
    pStart = 0;
  }else if( pBuf==0 ){
    sqlite3BeginBenignMalloc();
    pStart = sqlite3Malloc( sz*cnt );  /* IMP: R-61949-35727 */
    sqlite3EndBenignMalloc();
    if( pStart ) cnt = sqlite3MallocSize(pStart)/sz;
  }else{
    pStart = pBuf;
  }
  db->lookaside.pStart = pStart;
  db->lookaside.pInit = 0;







|







701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
  if( sz<=(int)sizeof(LookasideSlot*) ) sz = 0;
  if( cnt<0 ) cnt = 0;
  if( sz==0 || cnt==0 ){
    sz = 0;
    pStart = 0;
  }else if( pBuf==0 ){
    sqlite3BeginBenignMalloc();
    pStart = sqlite3Malloc( sz*(sqlite3_int64)cnt );  /* IMP: R-61949-35727 */
    sqlite3EndBenignMalloc();
    if( pStart ) cnt = sqlite3MallocSize(pStart)/sz;
  }else{
    pStart = pBuf;
  }
  db->lookaside.pStart = pStart;
  db->lookaside.pInit = 0;

Changes to src/parse.y.

189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
...
214
215
216
217
218
219
220

221
222
223
224
225
226
227
....
1629
1630
1631
1632
1633
1634
1635

1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
....
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
1675


1676


1677
1678
1679

1680







1681
1682
1683
1684
1685
1686
1687

1688
1689
1690
1691
1692
1693
1694
1695
1696
1697
1698
1699
1700
1701
1702












1703
1704
1705
1706
1707
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
....
1721
1722
1723
1724
1725
1726
1727








































columnlist ::= columnname carglist.
columnname(A) ::= nm(A) typetoken(Y). {sqlite3AddColumn(pParse,&A,&Y);}

// Declare some tokens early in order to influence their values, to 
// improve performance and reduce the executable size.  The goal here is
// to get the "jump" operations in ISNULL through ESCAPE to have numeric
// values that are early enough so that all jump operations are clustered
// at the beginning, but also so that the comparison tokens NE through GE
// are as large as possible so that they are near to FUNCTION, which is a
// token synthesized by addopcodes.tcl.
//
%token ABORT ACTION AFTER ANALYZE ASC ATTACH BEFORE BEGIN BY CASCADE CAST.
%token CONFLICT DATABASE DEFERRED DESC DETACH EACH END EXCLUSIVE EXPLAIN FAIL.
%token OR AND NOT IS MATCH LIKE_KW BETWEEN IN ISNULL NOTNULL NE EQ.
%token GT LE LT GE ESCAPE.

// The following directive causes tokens ABORT, AFTER, ASC, etc. to
................................................................................
  QUERY KEY OF OFFSET PRAGMA RAISE RECURSIVE RELEASE REPLACE RESTRICT ROW ROWS
  ROLLBACK SAVEPOINT TEMP TRIGGER VACUUM VIEW VIRTUAL WITH WITHOUT
%ifdef SQLITE_OMIT_COMPOUND_SELECT
  EXCEPT INTERSECT UNION
%endif SQLITE_OMIT_COMPOUND_SELECT
%ifndef SQLITE_OMIT_WINDOWFUNC
  CURRENT FOLLOWING PARTITION PRECEDING RANGE UNBOUNDED

%endif SQLITE_OMIT_WINDOWFUNC
  REINDEX RENAME CTIME_KW IF
  .
%wildcard ANY.

// Define operator precedence early so that this is the first occurrence
// of the operator tokens in the grammer.  Keeping the operators together
................................................................................
//
%ifndef SQLITE_OMIT_WINDOWFUNC
%type windowdefn_list {Window*}
%destructor windowdefn_list {sqlite3WindowListDelete(pParse->db, $$);}
windowdefn_list(A) ::= windowdefn(Z). { A = Z; }
windowdefn_list(A) ::= windowdefn_list(Y) COMMA windowdefn(Z). {
  assert( Z!=0 );

  Z->pNextWin = Y;
  A = Z;
}

%type windowdefn {Window*}
%destructor windowdefn {sqlite3WindowDelete(pParse->db, $$);}
windowdefn(A) ::= nm(X) AS window(Y). {
  if( ALWAYS(Y) ){
    Y->zName = sqlite3DbStrNDup(pParse->db, X.z, X.n);
  }
  A = Y;
}

%type window {Window*}
................................................................................
%type frame_bound {struct FrameBound}
%destructor frame_bound {sqlite3ExprDelete(pParse->db, $$.pExpr);}
%type frame_bound_s {struct FrameBound}
%destructor frame_bound_s {sqlite3ExprDelete(pParse->db, $$.pExpr);}
%type frame_bound_e {struct FrameBound}
%destructor frame_bound_e {sqlite3ExprDelete(pParse->db, $$.pExpr);}

window(A) ::= LP part_opt(X) orderby_opt(Y) frame_opt(Z) RP. {
  A = Z;
  if( ALWAYS(A) ){
    A->pPartition = X;
    A->pOrderBy = Y;
  }


}



part_opt(A) ::= PARTITION BY nexprlist(X). { A = X; }
part_opt(A) ::= .                          { A = 0; }









frame_opt(A) ::= .                             { 
  A = sqlite3WindowAlloc(pParse, TK_RANGE, TK_UNBOUNDED, 0, TK_CURRENT, 0);
}
frame_opt(A) ::= range_or_rows(X) frame_bound_s(Y). { 
  A = sqlite3WindowAlloc(pParse, X, Y.eType, Y.pExpr, TK_CURRENT, 0);
}
frame_opt(A) ::= range_or_rows(X) BETWEEN frame_bound_s(Y) AND frame_bound_e(Z). { 

  A = sqlite3WindowAlloc(pParse, X, Y.eType, Y.pExpr, Z.eType, Z.pExpr);
}

range_or_rows(A) ::= RANGE.   { A = TK_RANGE; }
range_or_rows(A) ::= ROWS.    { A = TK_ROWS;  }


frame_bound_s(A) ::= frame_bound(X). { A = X; }
frame_bound_s(A) ::= UNBOUNDED PRECEDING. {A.eType = TK_UNBOUNDED; A.pExpr = 0;}
frame_bound_e(A) ::= frame_bound(X). { A = X; }
frame_bound_e(A) ::= UNBOUNDED FOLLOWING. {A.eType = TK_UNBOUNDED; A.pExpr = 0;}

frame_bound(A) ::= expr(X) PRECEDING.   { A.eType = TK_PRECEDING; A.pExpr = X; }
frame_bound(A) ::= CURRENT ROW.         { A.eType = TK_CURRENT  ; A.pExpr = 0; }
frame_bound(A) ::= expr(X) FOLLOWING.   { A.eType = TK_FOLLOWING; A.pExpr = X; }













%type window_clause {Window*}
%destructor window_clause {sqlite3WindowListDelete(pParse->db, $$);}
window_clause(A) ::= WINDOW windowdefn_list(B). { A = B; }

%type over_clause {Window*}
%destructor over_clause {sqlite3WindowDelete(pParse->db, $$);}
over_clause(A) ::= filter_opt(W) OVER window(Z). {
  A = Z;
  assert( A!=0 );
  A->pFilter = W;
}
over_clause(A) ::= filter_opt(W) OVER nm(Z). {
  A = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window));
  if( A ){
................................................................................
    sqlite3ExprDelete(pParse->db, W);
  }
}

filter_opt(A) ::= .                            { A = 0; }
filter_opt(A) ::= FILTER LP WHERE expr(X) RP.  { A = X; }
%endif /* SQLITE_OMIT_WINDOWFUNC */















































|
<
<







 







>







 







>






|







 







|
|
<
<
<
|
>
>

>
>
|
<
|
>
|
>
>
>
>
>
>
>

|

|
|

|
>
|


|
<

<
|
|
|
|

|
<
<
>
>
>
>
>
>
>
>
>
>
>
>







|







 







>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
189
190
191
192
193
194
195
196


197
198
199
200
201
202
203
...
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
....
1628
1629
1630
1631
1632
1633
1634
1635
1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
....
1663
1664
1665
1666
1667
1668
1669
1670
1671



1672
1673
1674
1675
1676
1677
1678

1679
1680
1681
1682
1683
1684
1685
1686
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columnlist ::= columnname carglist.
columnname(A) ::= nm(A) typetoken(Y). {sqlite3AddColumn(pParse,&A,&Y);}

// Declare some tokens early in order to influence their values, to 
// improve performance and reduce the executable size.  The goal here is
// to get the "jump" operations in ISNULL through ESCAPE to have numeric
// values that are early enough so that all jump operations are clustered
// at the beginning.


//
%token ABORT ACTION AFTER ANALYZE ASC ATTACH BEFORE BEGIN BY CASCADE CAST.
%token CONFLICT DATABASE DEFERRED DESC DETACH EACH END EXCLUSIVE EXPLAIN FAIL.
%token OR AND NOT IS MATCH LIKE_KW BETWEEN IN ISNULL NOTNULL NE EQ.
%token GT LE LT GE ESCAPE.

// The following directive causes tokens ABORT, AFTER, ASC, etc. to
................................................................................
  QUERY KEY OF OFFSET PRAGMA RAISE RECURSIVE RELEASE REPLACE RESTRICT ROW ROWS
  ROLLBACK SAVEPOINT TEMP TRIGGER VACUUM VIEW VIRTUAL WITH WITHOUT
%ifdef SQLITE_OMIT_COMPOUND_SELECT
  EXCEPT INTERSECT UNION
%endif SQLITE_OMIT_COMPOUND_SELECT
%ifndef SQLITE_OMIT_WINDOWFUNC
  CURRENT FOLLOWING PARTITION PRECEDING RANGE UNBOUNDED
  EXCLUDE GROUPS OTHERS TIES
%endif SQLITE_OMIT_WINDOWFUNC
  REINDEX RENAME CTIME_KW IF
  .
%wildcard ANY.

// Define operator precedence early so that this is the first occurrence
// of the operator tokens in the grammer.  Keeping the operators together
................................................................................
//
%ifndef SQLITE_OMIT_WINDOWFUNC
%type windowdefn_list {Window*}
%destructor windowdefn_list {sqlite3WindowListDelete(pParse->db, $$);}
windowdefn_list(A) ::= windowdefn(Z). { A = Z; }
windowdefn_list(A) ::= windowdefn_list(Y) COMMA windowdefn(Z). {
  assert( Z!=0 );
  sqlite3WindowChain(pParse, Z, Y);
  Z->pNextWin = Y;
  A = Z;
}

%type windowdefn {Window*}
%destructor windowdefn {sqlite3WindowDelete(pParse->db, $$);}
windowdefn(A) ::= nm(X) AS LP window(Y) RP. {
  if( ALWAYS(Y) ){
    Y->zName = sqlite3DbStrNDup(pParse->db, X.z, X.n);
  }
  A = Y;
}

%type window {Window*}
................................................................................
%type frame_bound {struct FrameBound}
%destructor frame_bound {sqlite3ExprDelete(pParse->db, $$.pExpr);}
%type frame_bound_s {struct FrameBound}
%destructor frame_bound_s {sqlite3ExprDelete(pParse->db, $$.pExpr);}
%type frame_bound_e {struct FrameBound}
%destructor frame_bound_e {sqlite3ExprDelete(pParse->db, $$.pExpr);}

window(A) ::= PARTITION BY nexprlist(X) orderby_opt(Y) frame_opt(Z). {
  A = sqlite3WindowAssemble(pParse, Z, X, Y, 0);



}
window(A) ::= nm(W) PARTITION BY nexprlist(X) orderby_opt(Y) frame_opt(Z). {
  A = sqlite3WindowAssemble(pParse, Z, X, Y, &W);
}
window(A) ::= ORDER BY sortlist(Y) frame_opt(Z). {
  A = sqlite3WindowAssemble(pParse, Z, 0, Y, 0);
}

window(A) ::= nm(W) ORDER BY sortlist(Y) frame_opt(Z). {
  A = sqlite3WindowAssemble(pParse, Z, 0, Y, &W);
}
window(A) ::= frame_opt(Z). {
  A = Z;
}
window(A) ::= nm(W) frame_opt(Z). {
  A = sqlite3WindowAssemble(pParse, Z, 0, 0, &W);
}

frame_opt(A) ::= .                             { 
  A = sqlite3WindowAlloc(pParse, 0, TK_UNBOUNDED, 0, TK_CURRENT, 0, 0);
}
frame_opt(A) ::= range_or_rows(X) frame_bound_s(Y) frame_exclude_opt(Z). { 
  A = sqlite3WindowAlloc(pParse, X, Y.eType, Y.pExpr, TK_CURRENT, 0, Z);
}
frame_opt(A) ::= range_or_rows(X) BETWEEN frame_bound_s(Y) AND
                          frame_bound_e(Z) frame_exclude_opt(W). { 
  A = sqlite3WindowAlloc(pParse, X, Y.eType, Y.pExpr, Z.eType, Z.pExpr, W);
}

range_or_rows(A) ::= RANGE|ROWS|GROUPS(X).   {A = @X; /*A-overwrites-X*/}



frame_bound_s(A) ::= frame_bound(X).         {A = X;}
frame_bound_s(A) ::= UNBOUNDED(X) PRECEDING. {A.eType = @X; A.pExpr = 0;}
frame_bound_e(A) ::= frame_bound(X).         {A = X;}
frame_bound_e(A) ::= UNBOUNDED(X) FOLLOWING. {A.eType = @X; A.pExpr = 0;}

frame_bound(A) ::= expr(X) PRECEDING|FOLLOWING(Y).


                                             {A.eType = @Y; A.pExpr = X;}
frame_bound(A) ::= CURRENT(X) ROW.           {A.eType = @X; A.pExpr = 0;}

%type frame_exclude_opt {u8}
frame_exclude_opt(A) ::= . {A = 0;}
frame_exclude_opt(A) ::= EXCLUDE frame_exclude(X). {A = X;}

%type frame_exclude {u8}
frame_exclude(A) ::= NO(X) OTHERS.   {A = @X; /*A-overwrites-X*/}
frame_exclude(A) ::= CURRENT(X) ROW. {A = @X; /*A-overwrites-X*/}
frame_exclude(A) ::= GROUP|TIES(X).  {A = @X; /*A-overwrites-X*/}


%type window_clause {Window*}
%destructor window_clause {sqlite3WindowListDelete(pParse->db, $$);}
window_clause(A) ::= WINDOW windowdefn_list(B). { A = B; }

%type over_clause {Window*}
%destructor over_clause {sqlite3WindowDelete(pParse->db, $$);}
over_clause(A) ::= filter_opt(W) OVER LP window(Z) RP. {
  A = Z;
  assert( A!=0 );
  A->pFilter = W;
}
over_clause(A) ::= filter_opt(W) OVER nm(Z). {
  A = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window));
  if( A ){
................................................................................
    sqlite3ExprDelete(pParse->db, W);
  }
}

filter_opt(A) ::= .                            { A = 0; }
filter_opt(A) ::= FILTER LP WHERE expr(X) RP.  { A = X; }
%endif /* SQLITE_OMIT_WINDOWFUNC */

/*
** The code generator needs some extra TK_ token values for tokens that
** are synthesized and do not actually appear in the grammar:
*/
%token
  TRUEFALSE       /* True or false keyword */
  ISNOT           /* Combination of IS and NOT */
  FUNCTION        /* A function invocation */
  COLUMN          /* Reference to a table column */
  AGG_FUNCTION    /* An aggregate function */
  AGG_COLUMN      /* An aggregated column */
  UMINUS          /* Unary minus */
  UPLUS           /* Unary plus */
  TRUTH           /* IS TRUE or IS FALSE or IS NOT TRUE or IS NOT FALSE */
  REGISTER        /* Reference to a VDBE register */
  VECTOR          /* Vector */
  SELECT_COLUMN   /* Choose a single column from a multi-column SELECT */
  IF_NULL_ROW     /* the if-null-row operator */
  ASTERISK        /* The "*" in count(*) and similar */
  SPAN            /* The span operator */
.
/* There must be no more than 255 tokens defined above.  If this grammar
** is extended with new rules and tokens, they must either be so few in
** number that TK_SPAN is no more than 255, or else the new tokens must
** appear after this line.
*/
%include {
#if TK_SPAN>255
# error too many tokens in the grammar
#endif
}

/*
** The TK_SPACE and TK_ILLEGAL tokens must be the last two tokens.  The
** parser depends on this.  Those tokens are not used in any grammar rule.
** They are only used by the tokenizer.  Declare them last so that they
** are guaranteed to be the last two tokens
*/
%token SPACE ILLEGAL.

Changes to src/pcache1.c.

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/*
** Malloc function used by SQLite to obtain space from the buffer configured
** using sqlite3_config(SQLITE_CONFIG_PAGECACHE) option. If no such buffer
** exists, this function falls back to sqlite3Malloc().
*/
void *sqlite3PageMalloc(int sz){
  /* During rebalance operations on a corrupt database file, it is sometimes
  ** (rarely) possible to overread the temporary page buffer by a few bytes.
  ** Enlarge the allocation slightly so that this does not cause problems. */
  return pcache1Alloc(sz);
}

/*
** Free an allocated buffer obtained from sqlite3PageMalloc().
*/
void sqlite3PageFree(void *p){







|
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/*
** Malloc function used by SQLite to obtain space from the buffer configured
** using sqlite3_config(SQLITE_CONFIG_PAGECACHE) option. If no such buffer
** exists, this function falls back to sqlite3Malloc().
*/
void *sqlite3PageMalloc(int sz){
  assert( sz<=65536+8 ); /* These allocations are never very large */


  return pcache1Alloc(sz);
}

/*
** Free an allocated buffer obtained from sqlite3PageMalloc().
*/
void sqlite3PageFree(void *p){

Changes to src/printf.c.

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/*
** Set the StrAccum object to an error mode.
*/
static void setStrAccumError(StrAccum *p, u8 eError){
  assert( eError==SQLITE_NOMEM || eError==SQLITE_TOOBIG );
  p->accError = eError;
  if( p->mxAlloc ) sqlite3_str_reset(p);

}

/*
** Extra argument values from a PrintfArguments object
*/
static sqlite3_int64 getIntArg(PrintfArguments *p){
  if( p->nArg<=p->nUsed ) return 0;







>







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/*
** Set the StrAccum object to an error mode.
*/
static void setStrAccumError(StrAccum *p, u8 eError){
  assert( eError==SQLITE_NOMEM || eError==SQLITE_TOOBIG );
  p->accError = eError;
  if( p->mxAlloc ) sqlite3_str_reset(p);
  if( eError==SQLITE_TOOBIG ) sqlite3ErrorToParser(p->db, eError);
}

/*
** Extra argument values from a PrintfArguments object
*/
static sqlite3_int64 getIntArg(PrintfArguments *p){
  if( p->nArg<=p->nUsed ) return 0;

Changes to src/resolve.c.

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          assert( pExpr->pLeft==0 && pExpr->pRight==0 );
          assert( pExpr->x.pList==0 );
          assert( pExpr->x.pSelect==0 );
          pOrig = pEList->a[j].pExpr;
          if( (pNC->ncFlags&NC_AllowAgg)==0 && ExprHasProperty(pOrig, EP_Agg) ){
            sqlite3ErrorMsg(pParse, "misuse of aliased aggregate %s", zAs);
            return WRC_Abort;




          }
          if( sqlite3ExprVectorSize(pOrig)!=1 ){
            sqlite3ErrorMsg(pParse, "row value misused");
            return WRC_Abort;
          }
          resolveAlias(pParse, pEList, j, pExpr, "", nSubquery);
          cnt = 1;
................................................................................
      int no_such_func = 0;       /* True if no such function exists */
      int wrong_num_args = 0;     /* True if wrong number of arguments */
      int is_agg = 0;             /* True if is an aggregate function */
      int nId;                    /* Number of characters in function name */
      const char *zId;            /* The function name. */
      FuncDef *pDef;              /* Information about the function */
      u8 enc = ENC(pParse->db);   /* The database encoding */


      assert( !ExprHasProperty(pExpr, EP_xIsSelect) );
      zId = pExpr->u.zToken;
      nId = sqlite3Strlen30(zId);
      pDef = sqlite3FindFunction(pParse->db, zId, n, enc, 0);
      if( pDef==0 ){
        pDef = sqlite3FindFunction(pParse->db, zId, -2, enc, 0);
................................................................................
          pNC->nErr++;
        }else if( wrong_num_args ){
          sqlite3ErrorMsg(pParse,"wrong number of arguments to function %.*s()",
               nId, zId);
          pNC->nErr++;
        }
        if( is_agg ){



#ifndef SQLITE_OMIT_WINDOWFUNC
          pNC->ncFlags &= ~(pExpr->y.pWin ? NC_AllowWin : NC_AllowAgg);

#else
          pNC->ncFlags &= ~NC_AllowAgg;
#endif
        }
      }
      sqlite3WalkExprList(pWalker, pList);
      if( is_agg ){
................................................................................
          sqlite3WalkExpr(pWalker, pExpr->y.pWin->pFilter);
          if( 0==pSel->pWin 
           || 0==sqlite3WindowCompare(pParse, pSel->pWin, pExpr->y.pWin) 
          ){
            pExpr->y.pWin->pNextWin = pSel->pWin;
            pSel->pWin = pExpr->y.pWin;
          }
          pNC->ncFlags |= NC_AllowWin;
        }else
#endif /* SQLITE_OMIT_WINDOWFUNC */
        {
          NameContext *pNC2 = pNC;
          pExpr->op = TK_AGG_FUNCTION;
          pExpr->op2 = 0;
          while( pNC2 && !sqlite3FunctionUsesThisSrc(pExpr, pNC2->pSrcList) ){
................................................................................
          assert( pDef!=0 );
          if( pNC2 ){
            assert( SQLITE_FUNC_MINMAX==NC_MinMaxAgg );
            testcase( (pDef->funcFlags & SQLITE_FUNC_MINMAX)!=0 );
            pNC2->ncFlags |= NC_HasAgg | (pDef->funcFlags & SQLITE_FUNC_MINMAX);

          }
          pNC->ncFlags |= NC_AllowAgg;
        }

      }
      /* FIX ME:  Compute pExpr->affinity based on the expected return
      ** type of the function 
      */
      return WRC_Prune;
    }
#ifndef SQLITE_OMIT_SUBQUERY
................................................................................
      p->pOrderBy = 0;
    }
  
    /* Recursively resolve names in all subqueries
    */
    for(i=0; i<p->pSrc->nSrc; i++){
      struct SrcList_item *pItem = &p->pSrc->a[i];
      if( pItem->pSelect ){
        NameContext *pNC;         /* Used to iterate name contexts */
        int nRef = 0;             /* Refcount for pOuterNC and outer contexts */
        const char *zSavedContext = pParse->zAuthContext;

        /* Count the total number of references to pOuterNC and all of its
        ** parent contexts. After resolving references to expressions in
        ** pItem->pSelect, check if this value has changed. If so, then
................................................................................
  NameContext *pNC,       /* Namespace to resolve expressions in. */
  Expr *pExpr             /* The expression to be analyzed. */
){
  u16 savedHasAgg;
  Walker w;

  if( pExpr==0 ) return SQLITE_OK;
  savedHasAgg = pNC->ncFlags & (NC_HasAgg|NC_MinMaxAgg);
  pNC->ncFlags &= ~(NC_HasAgg|NC_MinMaxAgg);
  w.pParse = pNC->pParse;
  w.xExprCallback = resolveExprStep;
  w.xSelectCallback = resolveSelectStep;
  w.xSelectCallback2 = 0;
  w.u.pNC = pNC;
#if SQLITE_MAX_EXPR_DEPTH>0
  w.pParse->nHeight += pExpr->nHeight;
................................................................................
    return SQLITE_ERROR;
  }
#endif
  sqlite3WalkExpr(&w, pExpr);
#if SQLITE_MAX_EXPR_DEPTH>0
  w.pParse->nHeight -= pExpr->nHeight;
#endif


  if( pNC->ncFlags & NC_HasAgg ){

    ExprSetProperty(pExpr, EP_Agg);
  }
  pNC->ncFlags |= savedHasAgg;
  return pNC->nErr>0 || w.pParse->nErr>0;
}

/*
** Resolve all names for all expression in an expression list.  This is
** just like sqlite3ResolveExprNames() except that it works for an expression







>
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          assert( pExpr->pLeft==0 && pExpr->pRight==0 );
          assert( pExpr->x.pList==0 );
          assert( pExpr->x.pSelect==0 );
          pOrig = pEList->a[j].pExpr;
          if( (pNC->ncFlags&NC_AllowAgg)==0 && ExprHasProperty(pOrig, EP_Agg) ){
            sqlite3ErrorMsg(pParse, "misuse of aliased aggregate %s", zAs);
            return WRC_Abort;
          }
          if( (pNC->ncFlags&NC_AllowWin)==0 && ExprHasProperty(pOrig, EP_Win) ){
            sqlite3ErrorMsg(pParse, "misuse of aliased window function %s",zAs);
            return WRC_Abort;
          }
          if( sqlite3ExprVectorSize(pOrig)!=1 ){
            sqlite3ErrorMsg(pParse, "row value misused");
            return WRC_Abort;
          }
          resolveAlias(pParse, pEList, j, pExpr, "", nSubquery);
          cnt = 1;
................................................................................
      int no_such_func = 0;       /* True if no such function exists */
      int wrong_num_args = 0;     /* True if wrong number of arguments */
      int is_agg = 0;             /* True if is an aggregate function */
      int nId;                    /* Number of characters in function name */
      const char *zId;            /* The function name. */
      FuncDef *pDef;              /* Information about the function */
      u8 enc = ENC(pParse->db);   /* The database encoding */
      int savedAllowFlags = (pNC->ncFlags & (NC_AllowAgg | NC_AllowWin));

      assert( !ExprHasProperty(pExpr, EP_xIsSelect) );
      zId = pExpr->u.zToken;
      nId = sqlite3Strlen30(zId);
      pDef = sqlite3FindFunction(pParse->db, zId, n, enc, 0);
      if( pDef==0 ){
        pDef = sqlite3FindFunction(pParse->db, zId, -2, enc, 0);
................................................................................
          pNC->nErr++;
        }else if( wrong_num_args ){
          sqlite3ErrorMsg(pParse,"wrong number of arguments to function %.*s()",
               nId, zId);
          pNC->nErr++;
        }
        if( is_agg ){
          /* Window functions may not be arguments of aggregate functions.
          ** Or arguments of other window functions. But aggregate functions
          ** may be arguments for window functions.  */
#ifndef SQLITE_OMIT_WINDOWFUNC

          pNC->ncFlags &= ~(NC_AllowWin | (!pExpr->y.pWin ? NC_AllowAgg : 0));
#else
          pNC->ncFlags &= ~NC_AllowAgg;
#endif
        }
      }
      sqlite3WalkExprList(pWalker, pList);
      if( is_agg ){
................................................................................
          sqlite3WalkExpr(pWalker, pExpr->y.pWin->pFilter);
          if( 0==pSel->pWin 
           || 0==sqlite3WindowCompare(pParse, pSel->pWin, pExpr->y.pWin) 
          ){
            pExpr->y.pWin->pNextWin = pSel->pWin;
            pSel->pWin = pExpr->y.pWin;
          }
          pNC->ncFlags |= NC_HasWin;
        }else
#endif /* SQLITE_OMIT_WINDOWFUNC */
        {
          NameContext *pNC2 = pNC;
          pExpr->op = TK_AGG_FUNCTION;
          pExpr->op2 = 0;
          while( pNC2 && !sqlite3FunctionUsesThisSrc(pExpr, pNC2->pSrcList) ){
................................................................................
          assert( pDef!=0 );
          if( pNC2 ){
            assert( SQLITE_FUNC_MINMAX==NC_MinMaxAgg );
            testcase( (pDef->funcFlags & SQLITE_FUNC_MINMAX)!=0 );
            pNC2->ncFlags |= NC_HasAgg | (pDef->funcFlags & SQLITE_FUNC_MINMAX);

          }

        }
        pNC->ncFlags |= savedAllowFlags;
      }
      /* FIX ME:  Compute pExpr->affinity based on the expected return
      ** type of the function 
      */
      return WRC_Prune;
    }
#ifndef SQLITE_OMIT_SUBQUERY
................................................................................
      p->pOrderBy = 0;
    }
  
    /* Recursively resolve names in all subqueries
    */
    for(i=0; i<p->pSrc->nSrc; i++){
      struct SrcList_item *pItem = &p->pSrc->a[i];
      if( pItem->pSelect && (pItem->pSelect->selFlags & SF_Resolved)==0 ){
        NameContext *pNC;         /* Used to iterate name contexts */
        int nRef = 0;             /* Refcount for pOuterNC and outer contexts */
        const char *zSavedContext = pParse->zAuthContext;

        /* Count the total number of references to pOuterNC and all of its
        ** parent contexts. After resolving references to expressions in
        ** pItem->pSelect, check if this value has changed. If so, then
................................................................................
  NameContext *pNC,       /* Namespace to resolve expressions in. */
  Expr *pExpr             /* The expression to be analyzed. */
){
  u16 savedHasAgg;
  Walker w;

  if( pExpr==0 ) return SQLITE_OK;
  savedHasAgg = pNC->ncFlags & (NC_HasAgg|NC_MinMaxAgg|NC_HasWin);
  pNC->ncFlags &= ~(NC_HasAgg|NC_MinMaxAgg|NC_HasWin);
  w.pParse = pNC->pParse;
  w.xExprCallback = resolveExprStep;
  w.xSelectCallback = resolveSelectStep;
  w.xSelectCallback2 = 0;
  w.u.pNC = pNC;
#if SQLITE_MAX_EXPR_DEPTH>0
  w.pParse->nHeight += pExpr->nHeight;
................................................................................
    return SQLITE_ERROR;
  }
#endif
  sqlite3WalkExpr(&w, pExpr);
#if SQLITE_MAX_EXPR_DEPTH>0
  w.pParse->nHeight -= pExpr->nHeight;
#endif
  assert( EP_Agg==NC_HasAgg );
  assert( EP_Win==NC_HasWin );
  testcase( pNC->ncFlags & NC_HasAgg );
  testcase( pNC->ncFlags & NC_HasWin );
  ExprSetProperty(pExpr, pNC->ncFlags & (NC_HasAgg|NC_HasWin) );

  pNC->ncFlags |= savedHasAgg;
  return pNC->nErr>0 || w.pParse->nErr>0;
}

/*
** Resolve all names for all expression in an expression list.  This is
** just like sqlite3ResolveExprNames() except that it works for an expression

Changes to src/sqlite.h.in.

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**
** See also: SQL functions [sqlite_compileoption_used()] and
** [sqlite_compileoption_get()] and the [compile_options pragma].
*/
#ifndef SQLITE_OMIT_COMPILEOPTION_DIAGS
int sqlite3_compileoption_used(const char *zOptName);
const char *sqlite3_compileoption_get(int N);



#endif

/*
** CAPI3REF: Test To See If The Library Is Threadsafe
**
** ^The sqlite3_threadsafe() function returns zero if and only if
** SQLite was compiled with mutexing code omitted due to the
................................................................................
** <tr><td><b>sqlite3_value_type</b><td>&rarr;<td>Default
** datatype of the value
** <tr><td><b>sqlite3_value_numeric_type&nbsp;&nbsp;</b>
** <td>&rarr;&nbsp;&nbsp;<td>Best numeric datatype of the value
** <tr><td><b>sqlite3_value_nochange&nbsp;&nbsp;</b>
** <td>&rarr;&nbsp;&nbsp;<td>True if the column is unchanged in an UPDATE
** against a virtual table.


** </table></blockquote>
**
** <b>Details:</b>
**
** These routines extract type, size, and content information from
** [protected sqlite3_value] objects.  Protected sqlite3_value objects
** are used to pass parameter information into implementation of
................................................................................
** the value for that column returned without setting a result (probably
** because it queried [sqlite3_vtab_nochange()] and found that the column
** was unchanging).  ^Within an [xUpdate] method, any value for which
** sqlite3_value_nochange(X) is true will in all other respects appear
** to be a NULL value.  If sqlite3_value_nochange(X) is invoked anywhere other
** than within an [xUpdate] method call for an UPDATE statement, then
** the return value is arbitrary and meaningless.





**
** Please pay particular attention to the fact that the pointer returned
** from [sqlite3_value_blob()], [sqlite3_value_text()], or
** [sqlite3_value_text16()] can be invalidated by a subsequent call to
** [sqlite3_value_bytes()], [sqlite3_value_bytes16()], [sqlite3_value_text()],
** or [sqlite3_value_text16()].
**
................................................................................
const void *sqlite3_value_text16le(sqlite3_value*);
const void *sqlite3_value_text16be(sqlite3_value*);
int sqlite3_value_bytes(sqlite3_value*);
int sqlite3_value_bytes16(sqlite3_value*);
int sqlite3_value_type(sqlite3_value*);
int sqlite3_value_numeric_type(sqlite3_value*);
int sqlite3_value_nochange(sqlite3_value*);


/*
** CAPI3REF: Finding The Subtype Of SQL Values
** METHOD: sqlite3_value
**
** The sqlite3_value_subtype(V) function returns the subtype for
** an [application-defined SQL function] argument V.  The subtype







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**
** See also: SQL functions [sqlite_compileoption_used()] and
** [sqlite_compileoption_get()] and the [compile_options pragma].
*/
#ifndef SQLITE_OMIT_COMPILEOPTION_DIAGS
int sqlite3_compileoption_used(const char *zOptName);
const char *sqlite3_compileoption_get(int N);
#else
# define sqlite3_compileoption_used(X) 0
# define sqlite3_compileoption_get(X)  ((void*)0)
#endif

/*
** CAPI3REF: Test To See If The Library Is Threadsafe
**
** ^The sqlite3_threadsafe() function returns zero if and only if
** SQLite was compiled with mutexing code omitted due to the
................................................................................
** <tr><td><b>sqlite3_value_type</b><td>&rarr;<td>Default
** datatype of the value
** <tr><td><b>sqlite3_value_numeric_type&nbsp;&nbsp;</b>
** <td>&rarr;&nbsp;&nbsp;<td>Best numeric datatype of the value
** <tr><td><b>sqlite3_value_nochange&nbsp;&nbsp;</b>
** <td>&rarr;&nbsp;&nbsp;<td>True if the column is unchanged in an UPDATE
** against a virtual table.
** <tr><td><b>sqlite3_value_frombind&nbsp;&nbsp;</b>
** <td>&rarr;&nbsp;&nbsp;<td>True if value originated from a [bound parameter]
** </table></blockquote>
**
** <b>Details:</b>
**
** These routines extract type, size, and content information from
** [protected sqlite3_value] objects.  Protected sqlite3_value objects
** are used to pass parameter information into implementation of
................................................................................
** the value for that column returned without setting a result (probably
** because it queried [sqlite3_vtab_nochange()] and found that the column
** was unchanging).  ^Within an [xUpdate] method, any value for which
** sqlite3_value_nochange(X) is true will in all other respects appear
** to be a NULL value.  If sqlite3_value_nochange(X) is invoked anywhere other
** than within an [xUpdate] method call for an UPDATE statement, then
** the return value is arbitrary and meaningless.
**
** ^The sqlite3_value_frombind(X) interface returns non-zero if the
** value X originated from one of the [sqlite3_bind_int|sqlite3_bind()]
** interfaces.  ^If X comes from an SQL literal value, or a table column,
** and expression, then sqlite3_value_frombind(X) returns zero.
**
** Please pay particular attention to the fact that the pointer returned
** from [sqlite3_value_blob()], [sqlite3_value_text()], or
** [sqlite3_value_text16()] can be invalidated by a subsequent call to
** [sqlite3_value_bytes()], [sqlite3_value_bytes16()], [sqlite3_value_text()],
** or [sqlite3_value_text16()].
**
................................................................................
const void *sqlite3_value_text16le(sqlite3_value*);
const void *sqlite3_value_text16be(sqlite3_value*);
int sqlite3_value_bytes(sqlite3_value*);
int sqlite3_value_bytes16(sqlite3_value*);
int sqlite3_value_type(sqlite3_value*);
int sqlite3_value_numeric_type(sqlite3_value*);
int sqlite3_value_nochange(sqlite3_value*);
int sqlite3_value_frombind(sqlite3_value*);

/*
** CAPI3REF: Finding The Subtype Of SQL Values
** METHOD: sqlite3_value
**
** The sqlite3_value_subtype(V) function returns the subtype for
** an [application-defined SQL function] argument V.  The subtype

Changes to src/sqlite3ext.h.

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                            void (*xStep)(sqlite3_context*,int,sqlite3_value**),
                            void (*xFinal)(sqlite3_context*),
                            void (*xValue)(sqlite3_context*),
                            void (*xInv)(sqlite3_context*,int,sqlite3_value**),
                            void(*xDestroy)(void*));
  /* Version 3.26.0 and later */
  const char *(*normalized_sql)(sqlite3_stmt*);



};

/*
** This is the function signature used for all extension entry points.  It
** is also defined in the file "loadext.c".
*/
typedef int (*sqlite3_loadext_entry)(
................................................................................
#define sqlite3_str_errcode            sqlite3_api->str_errcode
#define sqlite3_str_length             sqlite3_api->str_length
#define sqlite3_str_value              sqlite3_api->str_value
/* Version 3.25.0 and later */
#define sqlite3_create_window_function sqlite3_api->create_window_function
/* Version 3.26.0 and later */
#define sqlite3_normalized_sql         sqlite3_api->normalized_sql



#endif /* !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) */

#if !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION)
  /* This case when the file really is being compiled as a loadable 
  ** extension */
# define SQLITE_EXTENSION_INIT1     const sqlite3_api_routines *sqlite3_api=0;
# define SQLITE_EXTENSION_INIT2(v)  sqlite3_api=v;







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                            void (*xStep)(sqlite3_context*,int,sqlite3_value**),
                            void (*xFinal)(sqlite3_context*),
                            void (*xValue)(sqlite3_context*),
                            void (*xInv)(sqlite3_context*,int,sqlite3_value**),
                            void(*xDestroy)(void*));
  /* Version 3.26.0 and later */
  const char *(*normalized_sql)(sqlite3_stmt*);
  /* Version 3.28.0 and later */
  int (*stmt_isexplain)(sqlite3_stmt*);
  int (*value_frombind)(sqlite3_value*);
};

/*
** This is the function signature used for all extension entry points.  It
** is also defined in the file "loadext.c".
*/
typedef int (*sqlite3_loadext_entry)(
................................................................................
#define sqlite3_str_errcode            sqlite3_api->str_errcode
#define sqlite3_str_length             sqlite3_api->str_length
#define sqlite3_str_value              sqlite3_api->str_value
/* Version 3.25.0 and later */
#define sqlite3_create_window_function sqlite3_api->create_window_function
/* Version 3.26.0 and later */
#define sqlite3_normalized_sql         sqlite3_api->normalized_sql
/* Version 3.28.0 and later */
#define sqlite3_stmt_isexplain         sqlite3_api->isexplain
#define sqlite3_value_frombind         sqlite3_api->frombind
#endif /* !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION) */

#if !defined(SQLITE_CORE) && !defined(SQLITE_OMIT_LOAD_EXTENSION)
  /* This case when the file really is being compiled as a loadable 
  ** extension */
# define SQLITE_EXTENSION_INIT1     const sqlite3_api_routines *sqlite3_api=0;
# define SQLITE_EXTENSION_INIT2(v)  sqlite3_api=v;

Changes to src/sqliteInt.h.

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/*
** Allowed values for sqlite3.mDbFlags
*/
#define DBFLAG_SchemaChange   0x0001  /* Uncommitted Hash table changes */
#define DBFLAG_PreferBuiltin  0x0002  /* Preference to built-in funcs */
#define DBFLAG_Vacuum         0x0004  /* Currently in a VACUUM */

#define DBFLAG_SchemaKnownOk  0x0008  /* Schema is known to be valid */

/*
** Bits of the sqlite3.dbOptFlags field that are used by the
** sqlite3_test_control(SQLITE_TESTCTRL_OPTIMIZATIONS,...) interface to
** selectively disable various optimizations.
*/
#define SQLITE_QueryFlattener 0x0001   /* Query flattening */
                          /*  0x0002   available for reuse */
#define SQLITE_GroupByOrder   0x0004   /* GROUPBY cover of ORDERBY */
#define SQLITE_FactorOutConst 0x0008   /* Constant factoring */
#define SQLITE_DistinctOpt    0x0010   /* DISTINCT using indexes */
#define SQLITE_CoverIdxScan   0x0020   /* Covering index scans */
#define SQLITE_OrderByIdxJoin 0x0040   /* ORDER BY of joins via index */
#define SQLITE_Transitive     0x0080   /* Transitive constraints */
#define SQLITE_OmitNoopJoin   0x0100   /* Omit unused tables in joins */
................................................................................
#define SQLITE_FUNC_CONSTANT 0x0800 /* Constant inputs give a constant output */
#define SQLITE_FUNC_MINMAX   0x1000 /* True for min() and max() aggregates */
#define SQLITE_FUNC_SLOCHNG  0x2000 /* "Slow Change". Value constant during a
                                    ** single query - might change over time */
#define SQLITE_FUNC_AFFINITY 0x4000 /* Built-in affinity() function */
#define SQLITE_FUNC_OFFSET   0x8000 /* Built-in sqlite_offset() function */
#define SQLITE_FUNC_WINDOW   0x00010000 /* Built-in window-only function */
#define SQLITE_FUNC_WINDOW_SIZE 0x20000 /* Requires partition size as arg. */
#define SQLITE_FUNC_INTERNAL 0x00040000 /* For use by NestedParse() only */

/*
** The following three macros, FUNCTION(), LIKEFUNC() and AGGREGATE() are
** used to create the initializers for the FuncDef structures.
**
**   FUNCTION(zName, nArg, iArg, bNC, xFunc)
................................................................................
      int regReturn;         /* Register used to hold return address */
    } sub;
  } y;
};

/*
** The following are the meanings of bits in the Expr.flags field.




*/
#define EP_FromJoin  0x000001 /* Originates in ON/USING clause of outer join */
#define EP_Agg       0x000002 /* Contains one or more aggregate functions */

#define EP_HasFunc   0x000004 /* Contains one or more functions of any kind */
#define EP_FixedCol  0x000008 /* TK_Column with a known fixed value */
#define EP_Distinct  0x000010 /* Aggregate function with DISTINCT keyword */

#define EP_VarSelect 0x000020 /* pSelect is correlated, not constant */
#define EP_DblQuoted 0x000040 /* token.z was originally in "..." */
#define EP_InfixFunc 0x000080 /* True for an infix function: LIKE, GLOB, etc */
#define EP_Collate   0x000100 /* Tree contains a TK_COLLATE operator */
#define EP_Generic   0x000200 /* Ignore COLLATE or affinity on this tree */
#define EP_IntValue  0x000400 /* Integer value contained in u.iValue */
#define EP_xIsSelect 0x000800 /* x.pSelect is valid (otherwise x.pList is) */
#define EP_Skip      0x001000 /* COLLATE, AS, or UNLIKELY */
#define EP_Reduced   0x002000 /* Expr struct EXPR_REDUCEDSIZE bytes only */
#define EP_TokenOnly 0x004000 /* Expr struct EXPR_TOKENONLYSIZE bytes only */
#define EP_Static    0x008000 /* Held in memory not obtained from malloc() */
#define EP_MemToken  0x010000 /* Need to sqlite3DbFree() Expr.zToken */
#define EP_NoReduce  0x020000 /* Cannot EXPRDUP_REDUCE this Expr */
#define EP_Unlikely  0x040000 /* unlikely() or likelihood() function */
#define EP_ConstFunc 0x080000 /* A SQLITE_FUNC_CONSTANT or _SLOCHNG function */
#define EP_CanBeNull 0x100000 /* Can be null despite NOT NULL constraint */
#define EP_Subquery  0x200000 /* Tree contains a TK_SELECT operator */
#define EP_Alias     0x400000 /* Is an alias for a result set column */
#define EP_Leaf      0x800000 /* Expr.pLeft, .pRight, .u.pSelect all NULL */
#define EP_WinFunc  0x1000000 /* TK_FUNCTION with Expr.y.pWin set */
#define EP_Subrtn   0x2000000 /* Uses Expr.y.sub. TK_IN, _SELECT, or _EXISTS */
#define EP_Quoted   0x4000000 /* TK_ID was originally quoted */


/*
** The EP_Propagate mask is a set of properties that automatically propagate
** upwards into parent nodes.
*/
#define EP_Propagate (EP_Collate|EP_Subquery|EP_HasFunc)

................................................................................
  Select *pWinSelect;  /* SELECT statement for any window functions */
};

/*
** Allowed values for the NameContext, ncFlags field.
**
** Value constraints (all checked via assert()):
**    NC_HasAgg    == SF_HasAgg
**    NC_MinMaxAgg == SF_MinMaxAgg == SQLITE_FUNC_MINMAX

**
*/
#define NC_AllowAgg  0x0001  /* Aggregate functions are allowed here */
#define NC_PartIdx   0x0002  /* True if resolving a partial index WHERE */
#define NC_IsCheck   0x0004  /* True if resolving names in a CHECK constraint */
#define NC_InAggFunc 0x0008  /* True if analyzing arguments to an agg func */
#define NC_HasAgg    0x0010  /* One or more aggregate functions seen */
................................................................................
#define NC_VarSelect 0x0040  /* A correlated subquery has been seen */
#define NC_UEList    0x0080  /* True if uNC.pEList is used */
#define NC_UAggInfo  0x0100  /* True if uNC.pAggInfo is used */
#define NC_UUpsert   0x0200  /* True if uNC.pUpsert is used */
#define NC_MinMaxAgg 0x1000  /* min/max aggregates seen.  See note above */
#define NC_Complex   0x2000  /* True if a function or subquery seen */
#define NC_AllowWin  0x4000  /* Window functions are allowed here */


/*
** An instance of the following object describes a single ON CONFLICT
** clause in an upsert.
**
** The pUpsertTarget field is only set if the ON CONFLICT clause includes
** conflict-target clause.  (In "ON CONFLICT(a,b)" the "(a,b)" is the
................................................................................
struct TreeView {
  int iLevel;             /* Which level of the tree we are on */
  u8  bLine[100];         /* Draw vertical in column i if bLine[i] is true */
};
#endif /* SQLITE_DEBUG */

/*
** This object is used in varioius ways, all related to window functions
**
**   (1) A single instance of this structure is attached to the
**       the Expr.pWin field for each window function in an expression tree.
**       This object holds the information contained in the OVER clause,
**       plus additional fields used during code generation.
**
**   (2) All window functions in a single SELECT form a linked-list
................................................................................
**       attached to Select.pWin.  The Window.pFunc and Window.pExpr
**       fields point back to the expression that is the window function.
**
**   (3) The terms of the WINDOW clause of a SELECT are instances of this
**       object on a linked list attached to Select.pWinDefn.
**
** The uses (1) and (2) are really the same Window object that just happens
** to be accessible in two different ways.  Use (3) is are separate objects.
*/
struct Window {
  char *zName;            /* Name of window (may be NULL) */

  ExprList *pPartition;   /* PARTITION BY clause */
  ExprList *pOrderBy;     /* ORDER BY clause */
  u8 eType;               /* TK_RANGE or TK_ROWS */

  u8 eStart;              /* UNBOUNDED, CURRENT, PRECEDING or FOLLOWING */
  u8 eEnd;                /* UNBOUNDED, CURRENT, PRECEDING or FOLLOWING */


  Expr *pStart;           /* Expression for "<expr> PRECEDING" */
  Expr *pEnd;             /* Expression for "<expr> FOLLOWING" */
  Window *pNextWin;       /* Next window function belonging to this SELECT */
  Expr *pFilter;          /* The FILTER expression */
  FuncDef *pFunc;         /* The function */
  int iEphCsr;            /* Partition buffer or Peer buffer */
  int regAccum;
  int regResult;
  int csrApp;             /* Function cursor (used by min/max) */
  int regApp;             /* Function register (also used by min/max) */
  int regPart;            /* First in a set of registers holding PARTITION BY
                          ** and ORDER BY values for the window */
  Expr *pOwner;           /* Expression object this window is attached to */
  int nBufferCol;         /* Number of columns in buffer table */
  int iArgCol;            /* Offset of first argument for this function */



};

#ifndef SQLITE_OMIT_WINDOWFUNC
void sqlite3WindowDelete(sqlite3*, Window*);
void sqlite3WindowListDelete(sqlite3 *db, Window *p);
Window *sqlite3WindowAlloc(Parse*, int, int, Expr*, int , Expr*);
void sqlite3WindowAttach(Parse*, Expr*, Window*);
int sqlite3WindowCompare(Parse*, Window*, Window*);
void sqlite3WindowCodeInit(Parse*, Window*);
void sqlite3WindowCodeStep(Parse*, Select*, WhereInfo*, int, int);
int sqlite3WindowRewrite(Parse*, Select*);
int sqlite3ExpandSubquery(Parse*, struct SrcList_item*);
void sqlite3WindowUpdate(Parse*, Window*, Window*, FuncDef*);
Window *sqlite3WindowDup(sqlite3 *db, Expr *pOwner, Window *p);
Window *sqlite3WindowListDup(sqlite3 *db, Window *p);
void sqlite3WindowFunctions(void);


#else
# define sqlite3WindowDelete(a,b)
# define sqlite3WindowFunctions()
# define sqlite3WindowAttach(a,b,c)
#endif

/*
................................................................................
  void sqlite3TreeViewWinFunc(TreeView*, const Window*, u8);
#endif
#endif


void sqlite3SetString(char **, sqlite3*, const char*);
void sqlite3ErrorMsg(Parse*, const char*, ...);

void sqlite3Dequote(char*);
void sqlite3DequoteExpr(Expr*);
void sqlite3TokenInit(Token*,char*);
int sqlite3KeywordCode(const unsigned char*, int);
int sqlite3RunParser(Parse*, const char*, char **);
void sqlite3FinishCoding(Parse*);
int sqlite3GetTempReg(Parse*);







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/*
** Allowed values for sqlite3.mDbFlags
*/
#define DBFLAG_SchemaChange   0x0001  /* Uncommitted Hash table changes */
#define DBFLAG_PreferBuiltin  0x0002  /* Preference to built-in funcs */
#define DBFLAG_Vacuum         0x0004  /* Currently in a VACUUM */
#define DBFLAG_VacuumInto     0x0008  /* Currently running VACUUM INTO */
#define DBFLAG_SchemaKnownOk  0x0010  /* Schema is known to be valid */

/*
** Bits of the sqlite3.dbOptFlags field that are used by the
** sqlite3_test_control(SQLITE_TESTCTRL_OPTIMIZATIONS,...) interface to
** selectively disable various optimizations.
*/
#define SQLITE_QueryFlattener 0x0001   /* Query flattening */
#define SQLITE_WindowFunc     0x0002   /* Use xInverse for window functions */
#define SQLITE_GroupByOrder   0x0004   /* GROUPBY cover of ORDERBY */
#define SQLITE_FactorOutConst 0x0008   /* Constant factoring */
#define SQLITE_DistinctOpt    0x0010   /* DISTINCT using indexes */
#define SQLITE_CoverIdxScan   0x0020   /* Covering index scans */
#define SQLITE_OrderByIdxJoin 0x0040   /* ORDER BY of joins via index */
#define SQLITE_Transitive     0x0080   /* Transitive constraints */
#define SQLITE_OmitNoopJoin   0x0100   /* Omit unused tables in joins */
................................................................................
#define SQLITE_FUNC_CONSTANT 0x0800 /* Constant inputs give a constant output */
#define SQLITE_FUNC_MINMAX   0x1000 /* True for min() and max() aggregates */
#define SQLITE_FUNC_SLOCHNG  0x2000 /* "Slow Change". Value constant during a
                                    ** single query - might change over time */
#define SQLITE_FUNC_AFFINITY 0x4000 /* Built-in affinity() function */
#define SQLITE_FUNC_OFFSET   0x8000 /* Built-in sqlite_offset() function */
#define SQLITE_FUNC_WINDOW   0x00010000 /* Built-in window-only function */

#define SQLITE_FUNC_INTERNAL 0x00040000 /* For use by NestedParse() only */

/*
** The following three macros, FUNCTION(), LIKEFUNC() and AGGREGATE() are
** used to create the initializers for the FuncDef structures.
**
**   FUNCTION(zName, nArg, iArg, bNC, xFunc)
................................................................................
      int regReturn;         /* Register used to hold return address */
    } sub;
  } y;
};

/*
** The following are the meanings of bits in the Expr.flags field.
** Value restrictions:
**
**          EP_Agg == NC_HasAgg == SF_HasAgg
**          EP_Win == NC_HasWin
*/
#define EP_FromJoin  0x000001 /* Originates in ON/USING clause of outer join */

#define EP_Distinct  0x000002 /* Aggregate function with DISTINCT keyword */
#define EP_HasFunc   0x000004 /* Contains one or more functions of any kind */
#define EP_FixedCol  0x000008 /* TK_Column with a known fixed value */

#define EP_Agg       0x000010 /* Contains one or more aggregate functions */
#define EP_VarSelect 0x000020 /* pSelect is correlated, not constant */
#define EP_DblQuoted 0x000040 /* token.z was originally in "..." */
#define EP_InfixFunc 0x000080 /* True for an infix function: LIKE, GLOB, etc */
#define EP_Collate   0x000100 /* Tree contains a TK_COLLATE operator */
#define EP_Generic   0x000200 /* Ignore COLLATE or affinity on this tree */
#define EP_IntValue  0x000400 /* Integer value contained in u.iValue */
#define EP_xIsSelect 0x000800 /* x.pSelect is valid (otherwise x.pList is) */
#define EP_Skip      0x001000 /* COLLATE, AS, or UNLIKELY */
#define EP_Reduced   0x002000 /* Expr struct EXPR_REDUCEDSIZE bytes only */
#define EP_TokenOnly 0x004000 /* Expr struct EXPR_TOKENONLYSIZE bytes only */
#define EP_Win       0x008000 /* Contains window functions */
#define EP_MemToken  0x010000 /* Need to sqlite3DbFree() Expr.zToken */
#define EP_NoReduce  0x020000 /* Cannot EXPRDUP_REDUCE this Expr */
#define EP_Unlikely  0x040000 /* unlikely() or likelihood() function */
#define EP_ConstFunc 0x080000 /* A SQLITE_FUNC_CONSTANT or _SLOCHNG function */
#define EP_CanBeNull 0x100000 /* Can be null despite NOT NULL constraint */
#define EP_Subquery  0x200000 /* Tree contains a TK_SELECT operator */
#define EP_Alias     0x400000 /* Is an alias for a result set column */
#define EP_Leaf      0x800000 /* Expr.pLeft, .pRight, .u.pSelect all NULL */
#define EP_WinFunc  0x1000000 /* TK_FUNCTION with Expr.y.pWin set */
#define EP_Subrtn   0x2000000 /* Uses Expr.y.sub. TK_IN, _SELECT, or _EXISTS */
#define EP_Quoted   0x4000000 /* TK_ID was originally quoted */
#define EP_Static   0x8000000 /* Held in memory not obtained from malloc() */

/*
** The EP_Propagate mask is a set of properties that automatically propagate
** upwards into parent nodes.
*/
#define EP_Propagate (EP_Collate|EP_Subquery|EP_HasFunc)

................................................................................
  Select *pWinSelect;  /* SELECT statement for any window functions */
};

/*
** Allowed values for the NameContext, ncFlags field.
**
** Value constraints (all checked via assert()):
**    NC_HasAgg    == SF_HasAgg    == EP_Agg
**    NC_MinMaxAgg == SF_MinMaxAgg == SQLITE_FUNC_MINMAX
**    NC_HasWin    == EP_Win
**
*/
#define NC_AllowAgg  0x0001  /* Aggregate functions are allowed here */
#define NC_PartIdx   0x0002  /* True if resolving a partial index WHERE */
#define NC_IsCheck   0x0004  /* True if resolving names in a CHECK constraint */
#define NC_InAggFunc 0x0008  /* True if analyzing arguments to an agg func */
#define NC_HasAgg    0x0010  /* One or more aggregate functions seen */
................................................................................
#define NC_VarSelect 0x0040  /* A correlated subquery has been seen */
#define NC_UEList    0x0080  /* True if uNC.pEList is used */
#define NC_UAggInfo  0x0100  /* True if uNC.pAggInfo is used */
#define NC_UUpsert   0x0200  /* True if uNC.pUpsert is used */
#define NC_MinMaxAgg 0x1000  /* min/max aggregates seen.  See note above */
#define NC_Complex   0x2000  /* True if a function or subquery seen */
#define NC_AllowWin  0x4000  /* Window functions are allowed here */
#define NC_HasWin    0x8000  /* One or more window functions seen */

/*
** An instance of the following object describes a single ON CONFLICT
** clause in an upsert.
**
** The pUpsertTarget field is only set if the ON CONFLICT clause includes
** conflict-target clause.  (In "ON CONFLICT(a,b)" the "(a,b)" is the
................................................................................
struct TreeView {
  int iLevel;             /* Which level of the tree we are on */
  u8  bLine[100];         /* Draw vertical in column i if bLine[i] is true */
};
#endif /* SQLITE_DEBUG */

/*
** This object is used in various ways, all related to window functions
**
**   (1) A single instance of this structure is attached to the
**       the Expr.pWin field for each window function in an expression tree.
**       This object holds the information contained in the OVER clause,
**       plus additional fields used during code generation.
**
**   (2) All window functions in a single SELECT form a linked-list
................................................................................
**       attached to Select.pWin.  The Window.pFunc and Window.pExpr
**       fields point back to the expression that is the window function.
**
**   (3) The terms of the WINDOW clause of a SELECT are instances of this
**       object on a linked list attached to Select.pWinDefn.
**
** The uses (1) and (2) are really the same Window object that just happens
** to be accessible in two different ways.  Use case (3) are separate objects.
*/
struct Window {
  char *zName;            /* Name of window (may be NULL) */
  char *zBase;            /* Name of base window for chaining (may be NULL) */
  ExprList *pPartition;   /* PARTITION BY clause */
  ExprList *pOrderBy;     /* ORDER BY clause */

  u8 eFrmType;            /* TK_RANGE, TK_GROUPS, TK_ROWS, or 0 */
  u8 eStart;              /* UNBOUNDED, CURRENT, PRECEDING or FOLLOWING */
  u8 eEnd;                /* UNBOUNDED, CURRENT, PRECEDING or FOLLOWING */
  u8 bImplicitFrame;      /* True if frame was implicitly specified */
  u8 eExclude;            /* TK_NO, TK_CURRENT, TK_TIES, TK_GROUP, or 0 */
  Expr *pStart;           /* Expression for "<expr> PRECEDING" */
  Expr *pEnd;             /* Expression for "<expr> FOLLOWING" */
  Window *pNextWin;       /* Next window function belonging to this SELECT */
  Expr *pFilter;          /* The FILTER expression */
  FuncDef *pFunc;         /* The function */
  int iEphCsr;            /* Partition buffer or Peer buffer */
  int regAccum;
  int regResult;
  int csrApp;             /* Function cursor (used by min/max) */
  int regApp;             /* Function register (also used by min/max) */
  int regPart;            /* Array of registers for PARTITION BY values */

  Expr *pOwner;           /* Expression object this window is attached to */
  int nBufferCol;         /* Number of columns in buffer table */
  int iArgCol;            /* Offset of first argument for this function */
  int regOne;             /* Register containing constant value 1 */
  int regStartRowid;
  int regEndRowid;
};

#ifndef SQLITE_OMIT_WINDOWFUNC
void sqlite3WindowDelete(sqlite3*, Window*);
void sqlite3WindowListDelete(sqlite3 *db, Window *p);
Window *sqlite3WindowAlloc(Parse*, int, int, Expr*, int , Expr*, u8);
void sqlite3WindowAttach(Parse*, Expr*, Window*);
int sqlite3WindowCompare(Parse*, Window*, Window*);
void sqlite3WindowCodeInit(Parse*, Window*);
void sqlite3WindowCodeStep(Parse*, Select*, WhereInfo*, int, int);
int sqlite3WindowRewrite(Parse*, Select*);
int sqlite3ExpandSubquery(Parse*, struct SrcList_item*);
void sqlite3WindowUpdate(Parse*, Window*, Window*, FuncDef*);
Window *sqlite3WindowDup(sqlite3 *db, Expr *pOwner, Window *p);
Window *sqlite3WindowListDup(sqlite3 *db, Window *p);
void sqlite3WindowFunctions(void);
void sqlite3WindowChain(Parse*, Window*, Window*);
Window *sqlite3WindowAssemble(Parse*, Window*, ExprList*, ExprList*, Token*);
#else
# define sqlite3WindowDelete(a,b)
# define sqlite3WindowFunctions()
# define sqlite3WindowAttach(a,b,c)
#endif

/*
................................................................................
  void sqlite3TreeViewWinFunc(TreeView*, const Window*, u8);
#endif
#endif


void sqlite3SetString(char **, sqlite3*, const char*);
void sqlite3ErrorMsg(Parse*, const char*, ...);
int sqlite3ErrorToParser(sqlite3*,int);
void sqlite3Dequote(char*);
void sqlite3DequoteExpr(Expr*);
void sqlite3TokenInit(Token*,char*);
int sqlite3KeywordCode(const unsigned char*, int);
int sqlite3RunParser(Parse*, const char*, char **);
void sqlite3FinishCoding(Parse*);
int sqlite3GetTempReg(Parse*);

Changes to src/test4.c.

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#define N_THREAD 26
static Thread threadset[N_THREAD];


/*
** The main loop for a thread.  Threads use busy waiting. 
*/
static void *thread_main(void *pArg){
  Thread *p = (Thread*)pArg;
  if( p->db ){
    sqlite3_close(p->db);
  }
  sqlite3_open(p->zFilename, &p->db);
  if( SQLITE_OK!=sqlite3_errcode(p->db) ){
    p->zErr = strdup(sqlite3_errmsg(p->db));
................................................................................
    return TCL_ERROR;
  }
  threadset[i].busy = 1;
  sqlite3_free(threadset[i].zFilename);
  threadset[i].zFilename = sqlite3_mprintf("%s", argv[2]);
  threadset[i].opnum = 1;
  threadset[i].completed = 0;
  rc = pthread_create(&x, 0, thread_main, &threadset[i]);
  if( rc ){
    Tcl_AppendResult(interp, "failed to create the thread", 0);
    sqlite3_free(threadset[i].zFilename);
    threadset[i].busy = 0;
    return TCL_ERROR;
  }
  pthread_detach(x);
  return TCL_OK;
}

/*
** Wait for a thread to reach its idle state.
*/
static void thread_wait(Thread *p){
  while( p->opnum>p->completed ) sched_yield();
}

/*
** Usage:  thread_wait ID
**
** Wait on thread ID to reach its idle state.
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  return TCL_OK;
}

/*
** Stop a thread.
*/
static void stop_thread(Thread *p){
  thread_wait(p);
  p->xOp = 0;
  p->opnum++;
  thread_wait(p);
  sqlite3_free(p->zArg);
  p->zArg = 0;
  sqlite3_free(p->zFilename);
  p->zFilename = 0;
  p->busy = 0;
}

................................................................................
  if( argc!=2 ){
    Tcl_AppendResult(interp, "wrong # args: should be \"", argv[0],
       " ID", 0);
    return TCL_ERROR;
  }
  if( argv[1][0]=='*' && argv[1][1]==0 ){
    for(i=0; i<N_THREAD; i++){
      if( threadset[i].busy ) stop_thread(&threadset[i]);
    }
  }else{
    i = parse_thread_id(interp, argv[1]);
    if( i<0 ) return TCL_ERROR;
    if( !threadset[i].busy ){
      Tcl_AppendResult(interp, "no such thread", 0);
      return TCL_ERROR;
    }
    stop_thread(&threadset[i]);
  }
  return TCL_OK;
}

/*
** Usage: thread_argc  ID
**
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  sqlite3_snprintf(sizeof(zBuf), zBuf, "%d", threadset[i].argc);
  Tcl_AppendResult(interp, zBuf, 0);
  return TCL_OK;
}

/*
** Usage: thread_argv  ID   N
................................................................................
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  if( Tcl_GetInt(interp, argv[2], &n) ) return TCL_ERROR;
  thread_wait(&threadset[i]);
  if( n<0 || n>=threadset[i].argc ){
    Tcl_AppendResult(interp, "column number out of range", 0);
    return TCL_ERROR;
  }
  Tcl_AppendResult(interp, threadset[i].argv[n], 0);
  return TCL_OK;
}
................................................................................
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  if( Tcl_GetInt(interp, argv[2], &n) ) return TCL_ERROR;
  thread_wait(&threadset[i]);
  if( n<0 || n>=threadset[i].argc ){
    Tcl_AppendResult(interp, "column number out of range", 0);
    return TCL_ERROR;
  }
  Tcl_AppendResult(interp, threadset[i].colv[n], 0);
  return TCL_OK;
}
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  zName = sqlite3ErrName(threadset[i].rc);
  Tcl_AppendResult(interp, zName, 0);
  return TCL_OK;
}

/*
** Usage: thread_error  ID
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  Tcl_AppendResult(interp, threadset[i].zErr, 0);
  return TCL_OK;
}

/*
** This procedure runs in the thread to compile an SQL statement.
*/
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  threadset[i].xOp = do_compile;
  sqlite3_free(threadset[i].zArg);
  threadset[i].zArg = sqlite3_mprintf("%s", argv[2]);
  threadset[i].opnum++;
  return TCL_OK;
}

................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  threadset[i].xOp = do_step;
  threadset[i].opnum++;
  return TCL_OK;
}

/*
** This procedure runs in the thread to finalize a virtual machine.
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  threadset[i].xOp = do_finalize;
  sqlite3_free(threadset[i].zArg);
  threadset[i].zArg = 0;
  threadset[i].opnum++;
  return TCL_OK;
}

................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  j = parse_thread_id(interp, argv[2]);
  if( j<0 ) return TCL_ERROR;
  if( !threadset[j].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[j]);
  temp = threadset[i].db;
  threadset[i].db = threadset[j].db;
  threadset[j].db = temp;
  return TCL_OK;
}

/*
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  sqlite3TestMakePointerStr(interp, zBuf, threadset[i].db);
  threadset[i].db = 0;
  Tcl_AppendResult(interp, zBuf, (char*)0);
  return TCL_OK;
}

/*
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  assert( !threadset[i].db );
  threadset[i].db = (sqlite3*)sqlite3TestTextToPtr(argv[2]);
  return TCL_OK;
}

/*
** Usage: thread_stmt_get ID
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  thread_wait(&threadset[i]);
  sqlite3TestMakePointerStr(interp, zBuf, threadset[i].pStmt);
  threadset[i].pStmt = 0;
  Tcl_AppendResult(interp, zBuf, (char*)0);
  return TCL_OK;
}

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#define N_THREAD 26
static Thread threadset[N_THREAD];


/*
** The main loop for a thread.  Threads use busy waiting. 
*/
static void *test_thread_main(void *pArg){
  Thread *p = (Thread*)pArg;
  if( p->db ){
    sqlite3_close(p->db);
  }
  sqlite3_open(p->zFilename, &p->db);
  if( SQLITE_OK!=sqlite3_errcode(p->db) ){
    p->zErr = strdup(sqlite3_errmsg(p->db));
................................................................................
    return TCL_ERROR;
  }
  threadset[i].busy = 1;
  sqlite3_free(threadset[i].zFilename);
  threadset[i].zFilename = sqlite3_mprintf("%s", argv[2]);
  threadset[i].opnum = 1;
  threadset[i].completed = 0;
  rc = pthread_create(&x, 0, test_thread_main, &threadset[i]);
  if( rc ){
    Tcl_AppendResult(interp, "failed to create the thread", 0);
    sqlite3_free(threadset[i].zFilename);
    threadset[i].busy = 0;
    return TCL_ERROR;
  }
  pthread_detach(x);
  return TCL_OK;
}

/*
** Wait for a thread to reach its idle state.
*/
static void test_thread_wait(Thread *p){
  while( p->opnum>p->completed ) sched_yield();
}

/*
** Usage:  thread_wait ID
**
** Wait on thread ID to reach its idle state.
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  return TCL_OK;
}

/*
** Stop a thread.
*/
static void test_stop_thread(Thread *p){
  test_thread_wait(p);
  p->xOp = 0;
  p->opnum++;
  test_thread_wait(p);
  sqlite3_free(p->zArg);
  p->zArg = 0;
  sqlite3_free(p->zFilename);
  p->zFilename = 0;
  p->busy = 0;
}

................................................................................
  if( argc!=2 ){
    Tcl_AppendResult(interp, "wrong # args: should be \"", argv[0],
       " ID", 0);
    return TCL_ERROR;
  }
  if( argv[1][0]=='*' && argv[1][1]==0 ){
    for(i=0; i<N_THREAD; i++){
      if( threadset[i].busy ) test_stop_thread(&threadset[i]);
    }
  }else{
    i = parse_thread_id(interp, argv[1]);
    if( i<0 ) return TCL_ERROR;
    if( !threadset[i].busy ){
      Tcl_AppendResult(interp, "no such thread", 0);
      return TCL_ERROR;
    }
    test_stop_thread(&threadset[i]);
  }
  return TCL_OK;
}

/*
** Usage: thread_argc  ID
**
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  sqlite3_snprintf(sizeof(zBuf), zBuf, "%d", threadset[i].argc);
  Tcl_AppendResult(interp, zBuf, 0);
  return TCL_OK;
}

/*
** Usage: thread_argv  ID   N
................................................................................
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  if( Tcl_GetInt(interp, argv[2], &n) ) return TCL_ERROR;
  test_thread_wait(&threadset[i]);
  if( n<0 || n>=threadset[i].argc ){
    Tcl_AppendResult(interp, "column number out of range", 0);
    return TCL_ERROR;
  }
  Tcl_AppendResult(interp, threadset[i].argv[n], 0);
  return TCL_OK;
}
................................................................................
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  if( Tcl_GetInt(interp, argv[2], &n) ) return TCL_ERROR;
  test_thread_wait(&threadset[i]);
  if( n<0 || n>=threadset[i].argc ){
    Tcl_AppendResult(interp, "column number out of range", 0);
    return TCL_ERROR;
  }
  Tcl_AppendResult(interp, threadset[i].colv[n], 0);
  return TCL_OK;
}
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  zName = sqlite3ErrName(threadset[i].rc);
  Tcl_AppendResult(interp, zName, 0);
  return TCL_OK;
}

/*
** Usage: thread_error  ID
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  Tcl_AppendResult(interp, threadset[i].zErr, 0);
  return TCL_OK;
}

/*
** This procedure runs in the thread to compile an SQL statement.
*/
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  threadset[i].xOp = do_compile;
  sqlite3_free(threadset[i].zArg);
  threadset[i].zArg = sqlite3_mprintf("%s", argv[2]);
  threadset[i].opnum++;
  return TCL_OK;
}

................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  threadset[i].xOp = do_step;
  threadset[i].opnum++;
  return TCL_OK;
}

/*
** This procedure runs in the thread to finalize a virtual machine.
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  threadset[i].xOp = do_finalize;
  sqlite3_free(threadset[i].zArg);
  threadset[i].zArg = 0;
  threadset[i].opnum++;
  return TCL_OK;
}

................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  j = parse_thread_id(interp, argv[2]);
  if( j<0 ) return TCL_ERROR;
  if( !threadset[j].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[j]);
  temp = threadset[i].db;
  threadset[i].db = threadset[j].db;
  threadset[j].db = temp;
  return TCL_OK;
}

/*
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  sqlite3TestMakePointerStr(interp, zBuf, threadset[i].db);
  threadset[i].db = 0;
  Tcl_AppendResult(interp, zBuf, (char*)0);
  return TCL_OK;
}

/*
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  assert( !threadset[i].db );
  threadset[i].db = (sqlite3*)sqlite3TestTextToPtr(argv[2]);
  return TCL_OK;
}

/*
** Usage: thread_stmt_get ID
................................................................................
  }
  i = parse_thread_id(interp, argv[1]);
  if( i<0 ) return TCL_ERROR;
  if( !threadset[i].busy ){
    Tcl_AppendResult(interp, "no such thread", 0);
    return TCL_ERROR;
  }
  test_thread_wait(&threadset[i]);
  sqlite3TestMakePointerStr(interp, zBuf, threadset[i].pStmt);
  threadset[i].pStmt = 0;
  Tcl_AppendResult(interp, zBuf, (char*)0);
  return TCL_OK;
}

/*

Changes to src/test_fs.c.

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    int n;
    fd = open(zFile, O_RDONLY);
    if( fd<0 ) return SQLITE_IOERR;
    fstat(fd, &sbuf);

    if( sbuf.st_size>=pCur->nAlloc ){
      int nNew = sbuf.st_size*2;
      char *zNew;
      if( nNew<1024 ) nNew = 1024;

      zNew = sqlite3Realloc(pCur->zBuf, nNew);
      if( zNew==0 ){
        close(fd);
        return SQLITE_NOMEM;







|







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    int n;
    fd = open(zFile, O_RDONLY);
    if( fd<0 ) return SQLITE_IOERR;
    fstat(fd, &sbuf);

    if( sbuf.st_size>=pCur->nAlloc ){
      sqlite3_int64 nNew = sbuf.st_size*2;
      char *zNew;
      if( nNew<1024 ) nNew = 1024;

      zNew = sqlite3Realloc(pCur->zBuf, nNew);
      if( zNew==0 ){
        close(fd);
        return SQLITE_NOMEM;

Changes to src/test_func.c.

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static void test_getsubtype(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  sqlite3_result_int(context, (int)sqlite3_value_subtype(argv[0]));
}



















/*         test_setsubtype(V, T)
**
** Return the value V with its subtype changed to T
*/
static void test_setsubtype(
  sqlite3_context *context,
................................................................................
    { "test_counter",          1, SQLITE_UTF8, counterFunc},
    { "real2hex",              1, SQLITE_UTF8, real2hex},
    { "test_decode",           1, SQLITE_UTF8, test_decode},
    { "test_extract",          2, SQLITE_UTF8, test_extract},
    { "test_zeroblob",  1, SQLITE_UTF8|SQLITE_DETERMINISTIC, test_zeroblob},
    { "test_getsubtype",       1, SQLITE_UTF8, test_getsubtype},
    { "test_setsubtype",       2, SQLITE_UTF8, test_setsubtype},

  };
  int i;

  for(i=0; i<sizeof(aFuncs)/sizeof(aFuncs[0]); i++){
    sqlite3_create_function(db, aFuncs[i].zName, aFuncs[i].nArg,
        aFuncs[i].eTextRep, 0, aFuncs[i].xFunc, 0, 0);
  }







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static void test_getsubtype(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  sqlite3_result_int(context, (int)sqlite3_value_subtype(argv[0]));
}

/*         test_frombind(A,B,C,...)
**
** Return an integer bitmask that has a bit set for every argument
** (up to the first 63 arguments) that originates from a bind a parameter.
*/
static void test_frombind(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  sqlite3_uint64 m = 0;
  int i;
  for(i=0; i<argc && i<63; i++){
    if( sqlite3_value_frombind(argv[i]) ) m |= ((sqlite3_uint64)1)<<i;
  }
  sqlite3_result_int64(context, (sqlite3_int64)m);
}

/*         test_setsubtype(V, T)
**
** Return the value V with its subtype changed to T
*/
static void test_setsubtype(
  sqlite3_context *context,
................................................................................
    { "test_counter",          1, SQLITE_UTF8, counterFunc},
    { "real2hex",              1, SQLITE_UTF8, real2hex},
    { "test_decode",           1, SQLITE_UTF8, test_decode},
    { "test_extract",          2, SQLITE_UTF8, test_extract},
    { "test_zeroblob",  1, SQLITE_UTF8|SQLITE_DETERMINISTIC, test_zeroblob},
    { "test_getsubtype",       1, SQLITE_UTF8, test_getsubtype},
    { "test_setsubtype",       2, SQLITE_UTF8, test_setsubtype},
    { "test_frombind",        -1, SQLITE_UTF8, test_frombind},
  };
  int i;

  for(i=0; i<sizeof(aFuncs)/sizeof(aFuncs[0]); i++){
    sqlite3_create_function(db, aFuncs[i].zName, aFuncs[i].nArg,
        aFuncs[i].eTextRep, 0, aFuncs[i].xFunc, 0, 0);
  }

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  extern int Sqlitetestfts3_Init(Tcl_Interp *interp);
#endif
#ifdef SQLITE_ENABLE_ZIPVFS
  extern int Zipvfs_Init(Tcl_Interp*);
#endif
  extern int TestExpert_Init(Tcl_Interp*);
  extern int Sqlitetest_window_Init(Tcl_Interp *);


  Tcl_CmdInfo cmdInfo;

  /* Since the primary use case for this binary is testing of SQLite,
  ** be sure to generate core files if we crash */
#if defined(unix)
  { struct rlimit x;
................................................................................


#if defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4)
  Sqlitetestfts3_Init(interp);
#endif
  TestExpert_Init(interp);
  Sqlitetest_window_Init(interp);


  Tcl_CreateObjCommand(
      interp, "load_testfixture_extensions", load_testfixture_extensions,0,0
  );
  return 0;
}








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  extern int Sqlitetestfts3_Init(Tcl_Interp *interp);
#endif
#ifdef SQLITE_ENABLE_ZIPVFS
  extern int Zipvfs_Init(Tcl_Interp*);
#endif
  extern int TestExpert_Init(Tcl_Interp*);
  extern int Sqlitetest_window_Init(Tcl_Interp *);
  extern int Sqlitetestvdbecov_Init(Tcl_Interp *);

  Tcl_CmdInfo cmdInfo;

  /* Since the primary use case for this binary is testing of SQLite,
  ** be sure to generate core files if we crash */
#if defined(unix)
  { struct rlimit x;
................................................................................


#if defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4)
  Sqlitetestfts3_Init(interp);
#endif
  TestExpert_Init(interp);
  Sqlitetest_window_Init(interp);
  Sqlitetestvdbecov_Init(interp);

  Tcl_CreateObjCommand(
      interp, "load_testfixture_extensions", load_testfixture_extensions,0,0
  );
  return 0;
}

Added src/test_vdbecov.c.

















































































































































































































































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/*
** 2019 April 02
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
******************************************************************************
**
*/
#if SQLITE_TEST          /* This file is used for testing only */

#include "sqlite3.h"
#include "sqliteInt.h"
#if defined(INCLUDE_SQLITE_TCL_H)
#  include "sqlite_tcl.h"
#else
#  include "tcl.h"
#endif

#ifdef SQLITE_VDBE_COVERAGE

static u8 aBranchArray[200000];

static void test_vdbe_branch(
  void *pCtx, 
  unsigned int iSrc, 
  unsigned char iBranch, 
  unsigned char iType
){
  if( iSrc<sizeof(aBranchArray) ){
    aBranchArray[iSrc] |= iBranch;
  }
}

static void appendToList(
  Tcl_Obj *pList, 
  int iLine, 
  int iPath, 
  const char *zNever
){
  Tcl_Obj *pNew = Tcl_NewObj();
  Tcl_IncrRefCount(pNew);
  Tcl_ListObjAppendElement(0, pNew, Tcl_NewIntObj(iLine));
  Tcl_ListObjAppendElement(0, pNew, Tcl_NewIntObj(iPath));
  Tcl_ListObjAppendElement(0, pNew, Tcl_NewStringObj(zNever, -1));
  Tcl_ListObjAppendElement(0, pList, pNew);
  Tcl_DecrRefCount(pNew);
}


static int SQLITE_TCLAPI test_vdbe_coverage(
  ClientData cd,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  const char *aSub[] = { "start", "report", "stop", 0 };
  int iSub = -1;
  if( objc!=2 ){
    Tcl_WrongNumArgs(interp, 1, objv, "sub-command");
    return TCL_ERROR;
  }

  if( Tcl_GetIndexFromObj(interp, objv[1], aSub, "sub-command", 0, &iSub) ){
    return TCL_ERROR;
  }

  Tcl_ResetResult(interp);
  assert( iSub==0 || iSub==1 || iSub==2 );
  switch( iSub ){
    case 0:       /* start */
      memset(aBranchArray, 0, sizeof(aBranchArray));
      sqlite3_test_control(SQLITE_TESTCTRL_VDBE_COVERAGE, test_vdbe_branch, 0);
      break;
    case 1: {     /* report */
      int i;
      Tcl_Obj *pRes = Tcl_NewObj();
      Tcl_IncrRefCount(pRes);
      for(i=0; i<sizeof(aBranchArray); i++){
        u8 b = aBranchArray[i];
        int bFlag = ((b >> 4)==4);
        if( b ){
          if( (b & 0x01)==0 ){
            appendToList(pRes, i, 0, bFlag ? "less than" : "falls through");
          }
          if( (b & 0x02)==0 ){
            appendToList(pRes, i, 1, bFlag ? "equal" : "taken");
          }
          if( (b & 0x04)==0 ){
            appendToList(pRes, i, 2, bFlag ? "greater-than" : "NULL");
          }
        }
      }
      Tcl_SetObjResult(interp, pRes);
      Tcl_DecrRefCount(pRes);
      break;
    };
      
    default:      /* stop */         
      sqlite3_test_control(SQLITE_TESTCTRL_VDBE_COVERAGE, 0, 0);
      break;
  }

  return TCL_OK;
}

#endif  /* SQLITE_VDBE_COVERAGE */

int Sqlitetestvdbecov_Init(Tcl_Interp *interp){
#ifdef SQLITE_VDBE_COVERAGE
  Tcl_CreateObjCommand(interp, "vdbe_coverage", test_vdbe_coverage, 0, 0);
#endif
  return TCL_OK;
}

#endif

Changes to src/test_vfs.c.

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    { SQLITE_OK,       "SQLITE_OK"     },
    { SQLITE_ERROR,    "SQLITE_ERROR"  },
    { SQLITE_IOERR,    "SQLITE_IOERR"  },
    { SQLITE_LOCKED,   "SQLITE_LOCKED" },
    { SQLITE_BUSY,     "SQLITE_BUSY"   },
    { SQLITE_READONLY, "SQLITE_READONLY"   },
    { SQLITE_READONLY_CANTINIT, "SQLITE_READONLY_CANTINIT"   },

  };

  const char *z;
  int i;

  z = Tcl_GetStringResult(p->interp);
  for(i=0; i<ArraySize(aCode); i++){
................................................................................

  if( p->pScript && p->mask&TESTVFS_WRITE_MASK ){
    tvfsExecTcl(p, "xWrite", 
        Tcl_NewStringObj(pFd->zFilename, -1), pFd->pShmId, 
        Tcl_NewWideIntObj(iOfst), Tcl_NewIntObj(iAmt)
    );
    tvfsResultCode(p, &rc);

  }

  if( rc==SQLITE_OK && tvfsInjectFullerr(p) ){
    rc = SQLITE_FULL;
  }
  if( rc==SQLITE_OK && p->mask&TESTVFS_WRITE_MASK && tvfsInjectIoerr(p) ){
    rc = SQLITE_IOERR;







>







 







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    { SQLITE_OK,       "SQLITE_OK"     },
    { SQLITE_ERROR,    "SQLITE_ERROR"  },
    { SQLITE_IOERR,    "SQLITE_IOERR"  },
    { SQLITE_LOCKED,   "SQLITE_LOCKED" },
    { SQLITE_BUSY,     "SQLITE_BUSY"   },
    { SQLITE_READONLY, "SQLITE_READONLY"   },
    { SQLITE_READONLY_CANTINIT, "SQLITE_READONLY_CANTINIT"   },
    { -1,              "SQLITE_OMIT"   },
  };

  const char *z;
  int i;

  z = Tcl_GetStringResult(p->interp);
  for(i=0; i<ArraySize(aCode); i++){
................................................................................

  if( p->pScript && p->mask&TESTVFS_WRITE_MASK ){
    tvfsExecTcl(p, "xWrite", 
        Tcl_NewStringObj(pFd->zFilename, -1), pFd->pShmId, 
        Tcl_NewWideIntObj(iOfst), Tcl_NewIntObj(iAmt)
    );
    tvfsResultCode(p, &rc);
    if( rc<0 ) return SQLITE_OK;
  }

  if( rc==SQLITE_OK && tvfsInjectFullerr(p) ){
    rc = SQLITE_FULL;
  }
  if( rc==SQLITE_OK && p->mask&TESTVFS_WRITE_MASK && tvfsInjectIoerr(p) ){
    rc = SQLITE_IOERR;

Changes to src/treeview.c.

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#endif /* SQLITE_OMIT_WINDOWFUNC */

#ifndef SQLITE_OMIT_WINDOWFUNC
/*
** Generate a human-readable explanation for a Window object
*/
void sqlite3TreeViewWindow(TreeView *pView, const Window *pWin, u8 more){






  pView = sqlite3TreeViewPush(pView, more);
  if( pWin->zName ){
    sqlite3TreeViewLine(pView, "OVER %s", pWin->zName);
  }else{
    sqlite3TreeViewLine(pView, "OVER");
  }









  if( pWin->pPartition ){
    sqlite3TreeViewExprList(pView, pWin->pPartition, 1, "PARTITION-BY");
  }
  if( pWin->pOrderBy ){
    sqlite3TreeViewExprList(pView, pWin->pOrderBy, 1, "ORDER-BY");
  }
  if( pWin->eType ){






    sqlite3TreeViewItem(pView, pWin->eType==TK_RANGE ? "RANGE" : "ROWS", 0);
    sqlite3TreeViewBound(pView, pWin->eStart, pWin->pStart, 1);
    sqlite3TreeViewBound(pView, pWin->eEnd, pWin->pEnd, 0);
    sqlite3TreeViewPop(pView);
  }

















  sqlite3TreeViewPop(pView);
}
#endif /* SQLITE_OMIT_WINDOWFUNC */

#ifndef SQLITE_OMIT_WINDOWFUNC
/*
** Generate a human-readable explanation for a Window Function object







>
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>


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#endif /* SQLITE_OMIT_WINDOWFUNC */

#ifndef SQLITE_OMIT_WINDOWFUNC
/*
** Generate a human-readable explanation for a Window object
*/
void sqlite3TreeViewWindow(TreeView *pView, const Window *pWin, u8 more){
  int nElement = 0;
  if( pWin->pFilter ){
    sqlite3TreeViewItem(pView, "FILTER", 1);
    sqlite3TreeViewExpr(pView, pWin->pFilter, 0);
    sqlite3TreeViewPop(pView);
  }
  pView = sqlite3TreeViewPush(pView, more);
  if( pWin->zName ){
    sqlite3TreeViewLine(pView, "OVER %s (%p)", pWin->zName, pWin);
  }else{
    sqlite3TreeViewLine(pView, "OVER (%p)", pWin);
  }
  if( pWin->zBase )    nElement++;
  if( pWin->pOrderBy ) nElement++;
  if( pWin->eFrmType ) nElement++;
  if( pWin->eExclude ) nElement++;
  if( pWin->zBase ){
    sqlite3TreeViewPush(pView, (--nElement)>0);
    sqlite3TreeViewLine(pView, "window: %s", pWin->zBase);
    sqlite3TreeViewPop(pView);
  }
  if( pWin->pPartition ){
    sqlite3TreeViewExprList(pView, pWin->pPartition, nElement>0,"PARTITION-BY");
  }
  if( pWin->pOrderBy ){
    sqlite3TreeViewExprList(pView, pWin->pOrderBy, (--nElement)>0, "ORDER-BY");
  }
  if( pWin->eFrmType ){
    char zBuf[30];
    const char *zFrmType = "ROWS";
    if( pWin->eFrmType==TK_RANGE ) zFrmType = "RANGE";
    if( pWin->eFrmType==TK_GROUPS ) zFrmType = "GROUPS";
    sqlite3_snprintf(sizeof(zBuf),zBuf,"%s%s",zFrmType,
        pWin->bImplicitFrame ? " (implied)" : "");
    sqlite3TreeViewItem(pView, zBuf, (--nElement)>0);
    sqlite3TreeViewBound(pView, pWin->eStart, pWin->pStart, 1);
    sqlite3TreeViewBound(pView, pWin->eEnd, pWin->pEnd, 0);
    sqlite3TreeViewPop(pView);
  }
  if( pWin->eExclude ){
    char zBuf[30];
    const char *zExclude;
    switch( pWin->eExclude ){
      case TK_NO:      zExclude = "NO OTHERS";   break;
      case TK_CURRENT: zExclude = "CURRENT ROW"; break;
      case TK_GROUP:   zExclude = "GROUP";       break;
      case TK_TIES:    zExclude = "TIES";        break;
      default:
        sqlite3_snprintf(sizeof(zBuf),zBuf,"invalid(%d)", pWin->eExclude);
        zExclude = zBuf;
        break;
    }
    sqlite3TreeViewPush(pView, 0);
    sqlite3TreeViewLine(pView, "EXCLUDE %s", zExclude);
    sqlite3TreeViewPop(pView);
  }
  sqlite3TreeViewPop(pView);
}
#endif /* SQLITE_OMIT_WINDOWFUNC */

#ifndef SQLITE_OMIT_WINDOWFUNC
/*
** Generate a human-readable explanation for a Window Function object

Changes to src/utf.c.

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#ifndef SQLITE_OMIT_UTF16
/*
** This routine transforms the internal text encoding used by pMem to
** desiredEnc. It is an error if the string is already of the desired
** encoding, or if *pMem does not contain a string value.
*/
SQLITE_NOINLINE int sqlite3VdbeMemTranslate(Mem *pMem, u8 desiredEnc){
  int len;                    /* Maximum length of output string in bytes */
  unsigned char *zOut;                  /* Output buffer */
  unsigned char *zIn;                   /* Input iterator */
  unsigned char *zTerm;                 /* End of input */
  unsigned char *z;                     /* Output iterator */
  unsigned int c;

  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
................................................................................
  if( desiredEnc==SQLITE_UTF8 ){
    /* When converting from UTF-16, the maximum growth results from
    ** translating a 2-byte character to a 4-byte UTF-8 character.
    ** A single byte is required for the output string
    ** nul-terminator.
    */
    pMem->n &= ~1;
    len = pMem->n * 2 + 1;
  }else{
    /* When converting from UTF-8 to UTF-16 the maximum growth is caused
    ** when a 1-byte UTF-8 character is translated into a 2-byte UTF-16
    ** character. Two bytes are required in the output buffer for the
    ** nul-terminator.
    */
    len = pMem->n * 2 + 2;
  }

  /* Set zIn to point at the start of the input buffer and zTerm to point 1
  ** byte past the end.
  **
  ** Variable zOut is set to point at the output buffer, space obtained
  ** from sqlite3_malloc().







|







 







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|







196
197
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...
249
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268
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#ifndef SQLITE_OMIT_UTF16
/*
** This routine transforms the internal text encoding used by pMem to
** desiredEnc. It is an error if the string is already of the desired
** encoding, or if *pMem does not contain a string value.
*/
SQLITE_NOINLINE int sqlite3VdbeMemTranslate(Mem *pMem, u8 desiredEnc){
  sqlite3_int64 len;          /* Maximum length of output string in bytes */
  unsigned char *zOut;        /* Output buffer */
  unsigned char *zIn;         /* Input iterator */
  unsigned char *zTerm;       /* End of input */
  unsigned char *z;           /* Output iterator */
  unsigned int c;

  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
................................................................................
  if( desiredEnc==SQLITE_UTF8 ){
    /* When converting from UTF-16, the maximum growth results from
    ** translating a 2-byte character to a 4-byte UTF-8 character.
    ** A single byte is required for the output string
    ** nul-terminator.
    */
    pMem->n &= ~1;
    len = 2 * (sqlite3_int64)pMem->n + 1;
  }else{
    /* When converting from UTF-8 to UTF-16 the maximum growth is caused
    ** when a 1-byte UTF-8 character is translated into a 2-byte UTF-16
    ** character. Two bytes are required in the output buffer for the
    ** nul-terminator.
    */
    len = 2 * (sqlite3_int64)pMem->n + 2;
  }

  /* Set zIn to point at the start of the input buffer and zTerm to point 1
  ** byte past the end.
  **
  ** Variable zOut is set to point at the output buffer, space obtained
  ** from sqlite3_malloc().

Changes to src/util.c.

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29
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31
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35
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43








44
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227
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....
1572
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1580
1581
1582
1583
1584
1585
1586
void sqlite3Coverage(int x){
  static unsigned dummy = 0;
  dummy += (unsigned)x;
}
#endif

/*
** Give a callback to the test harness that can be used to simulate faults
** in places where it is difficult or expensive to do so purely by means
** of inputs.
**
** The intent of the integer argument is to let the fault simulator know
** which of multiple sqlite3FaultSim() calls has been hit.
**
** Return whatever integer value the test callback returns, or return
** SQLITE_OK if no test callback is installed.








*/
#ifndef SQLITE_UNTESTABLE
int sqlite3FaultSim(int iTest){
  int (*xCallback)(int) = sqlite3GlobalConfig.xTestCallback;
  return xCallback ? xCallback(iTest) : SQLITE_OK;
}
#endif
................................................................................
  }else{
    pParse->nErr++;
    sqlite3DbFree(db, pParse->zErrMsg);
    pParse->zErrMsg = zMsg;
    pParse->rc = SQLITE_ERROR;
  }
}














/*
** Convert an SQL-style quoted string into a normal string by removing
** the quote characters.  The conversion is done in-place.  If the
** input does not begin with a quote character, then this routine
** is a no-op.
**
................................................................................
  char *z;               /* Pointer to where zName will be stored */
  int i;                 /* Index in pIn[] where zName is stored */

  nInt = nName/4 + 3;
  assert( pIn==0 || pIn[0]>=3 );  /* Verify ok to add new elements */
  if( pIn==0 || pIn[1]+nInt > pIn[0] ){
    /* Enlarge the allocation */
    int nAlloc = (pIn ? pIn[0]*2 : 10) + nInt;
    VList *pOut = sqlite3DbRealloc(db, pIn, nAlloc*sizeof(int));
    if( pOut==0 ) return pIn;
    if( pIn==0 ) pOut[1] = 2;
    pIn = pOut;
    pIn[0] = nAlloc;
  }
  i = pIn[1];







|
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|
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|
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>
>
>
>







 







>
>
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>
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>
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>







 







|







28
29
30
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33
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36
37
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39
40
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49
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51
52
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55
56
57
58
...
228
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244
245
246
247
248
249
250
251
252
253
254
....
1593
1594
1595
1596
1597
1598
1599
1600
1601
1602
1603
1604
1605
1606
1607
void sqlite3Coverage(int x){
  static unsigned dummy = 0;
  dummy += (unsigned)x;
}
#endif

/*
** Calls to sqlite3FaultSim() are used to simulate a failure during testing,
** or to bypass normal error detection during testing in order to let 
** execute proceed futher downstream.
**
** In deployment, sqlite3FaultSim() *always* return SQLITE_OK (0).  The
** sqlite3FaultSim() function only returns non-zero during testing.
**
** During testing, if the test harness has set a fault-sim callback using
** a call to sqlite3_test_control(SQLITE_TESTCTRL_FAULT_INSTALL), then
** each call to sqlite3FaultSim() is relayed to that application-supplied
** callback and the integer return value form the application-supplied
** callback is returned by sqlite3FaultSim().
**
** The integer argument to sqlite3FaultSim() is a code to identify which
** sqlite3FaultSim() instance is being invoked. Each call to sqlite3FaultSim()
** should have a unique code.  To prevent legacy testing applications from
** breaking, the codes should not be changed or reused.
*/
#ifndef SQLITE_UNTESTABLE
int sqlite3FaultSim(int iTest){
  int (*xCallback)(int) = sqlite3GlobalConfig.xTestCallback;
  return xCallback ? xCallback(iTest) : SQLITE_OK;
}
#endif
................................................................................
  }else{
    pParse->nErr++;
    sqlite3DbFree(db, pParse->zErrMsg);
    pParse->zErrMsg = zMsg;
    pParse->rc = SQLITE_ERROR;
  }
}

/*
** If database connection db is currently parsing SQL, then transfer
** error code errCode to that parser if the parser has not already
** encountered some other kind of error.
*/
int sqlite3ErrorToParser(sqlite3 *db, int errCode){
  Parse *pParse;
  if( db==0 || (pParse = db->pParse)==0 ) return errCode;
  pParse->rc = errCode;
  pParse->nErr++;
  return errCode;
}

/*
** Convert an SQL-style quoted string into a normal string by removing
** the quote characters.  The conversion is done in-place.  If the
** input does not begin with a quote character, then this routine
** is a no-op.
**
................................................................................
  char *z;               /* Pointer to where zName will be stored */
  int i;                 /* Index in pIn[] where zName is stored */

  nInt = nName/4 + 3;
  assert( pIn==0 || pIn[0]>=3 );  /* Verify ok to add new elements */
  if( pIn==0 || pIn[1]+nInt > pIn[0] ){
    /* Enlarge the allocation */
    sqlite3_int64 nAlloc = (pIn ? 2*(sqlite3_int64)pIn[0] : 10) + nInt;
    VList *pOut = sqlite3DbRealloc(db, pIn, nAlloc*sizeof(int));
    if( pOut==0 ) return pIn;
    if( pIn==0 ) pOut[1] = 2;
    pIn = pOut;
    pIn[0] = nAlloc;
  }
  i = pIn[1];

Changes to src/vacuum.c.

135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
...
159
160
161
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163
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166
167
168
169
170
171
172
173
174
175
176
177
...
226
227
228
229
230
231
232

233
234
235
236
237
238
239
  sqlite3ExprDelete(pParse->db, pInto);
  return;
}

/*
** This routine implements the OP_Vacuum opcode of the VDBE.
*/
int sqlite3RunVacuum(
  char **pzErrMsg,        /* Write error message here */
  sqlite3 *db,            /* Database connection */
  int iDb,                /* Which attached DB to vacuum */
  sqlite3_value *pOut     /* Write results here, if not NULL. VACUUM INTO */
){
  int rc = SQLITE_OK;     /* Return code from service routines */
  Btree *pMain;           /* The database being vacuumed */
................................................................................
  int nRes;               /* Bytes of reserved space at the end of each page */
  int nDb;                /* Number of attached databases */
  const char *zDbMain;    /* Schema name of database to vacuum */
  const char *zOut;       /* Name of output file */

  if( !db->autoCommit ){
    sqlite3SetString(pzErrMsg, db, "cannot VACUUM from within a transaction");
    return SQLITE_ERROR;
  }
  if( db->nVdbeActive>1 ){
    sqlite3SetString(pzErrMsg, db,"cannot VACUUM - SQL statements in progress");
    return SQLITE_ERROR;
  }
  saved_openFlags = db->openFlags;
  if( pOut ){
    if( sqlite3_value_type(pOut)!=SQLITE_TEXT ){
      sqlite3SetString(pzErrMsg, db, "non-text filename");
      return SQLITE_ERROR;
    }
................................................................................
    sqlite3_file *id = sqlite3PagerFile(sqlite3BtreePager(pTemp));
    i64 sz = 0;
    if( id->pMethods!=0 && (sqlite3OsFileSize(id, &sz)!=SQLITE_OK || sz>0) ){
      rc = SQLITE_ERROR;
      sqlite3SetString(pzErrMsg, db, "output file already exists");
      goto end_of_vacuum;
    }

  }
  nRes = sqlite3BtreeGetOptimalReserve(pMain);

  /* A VACUUM cannot change the pagesize of an encrypted database. */
#ifdef SQLITE_HAS_CODEC
  if( db->nextPagesize ){
    extern void sqlite3CodecGetKey(sqlite3*, int, void**, int*);







|







 







|



|







 







>







135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
...
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
...
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
  sqlite3ExprDelete(pParse->db, pInto);
  return;
}

/*
** This routine implements the OP_Vacuum opcode of the VDBE.
*/
SQLITE_NOINLINE int sqlite3RunVacuum(
  char **pzErrMsg,        /* Write error message here */
  sqlite3 *db,            /* Database connection */
  int iDb,                /* Which attached DB to vacuum */
  sqlite3_value *pOut     /* Write results here, if not NULL. VACUUM INTO */
){
  int rc = SQLITE_OK;     /* Return code from service routines */
  Btree *pMain;           /* The database being vacuumed */
................................................................................
  int nRes;               /* Bytes of reserved space at the end of each page */
  int nDb;                /* Number of attached databases */
  const char *zDbMain;    /* Schema name of database to vacuum */
  const char *zOut;       /* Name of output file */

  if( !db->autoCommit ){
    sqlite3SetString(pzErrMsg, db, "cannot VACUUM from within a transaction");
    return SQLITE_ERROR; /* IMP: R-12218-18073 */
  }
  if( db->nVdbeActive>1 ){
    sqlite3SetString(pzErrMsg, db,"cannot VACUUM - SQL statements in progress");
    return SQLITE_ERROR; /* IMP: R-15610-35227 */
  }
  saved_openFlags = db->openFlags;
  if( pOut ){
    if( sqlite3_value_type(pOut)!=SQLITE_TEXT ){
      sqlite3SetString(pzErrMsg, db, "non-text filename");
      return SQLITE_ERROR;
    }
................................................................................
    sqlite3_file *id = sqlite3PagerFile(sqlite3BtreePager(pTemp));
    i64 sz = 0;
    if( id->pMethods!=0 && (sqlite3OsFileSize(id, &sz)!=SQLITE_OK || sz>0) ){
      rc = SQLITE_ERROR;
      sqlite3SetString(pzErrMsg, db, "output file already exists");
      goto end_of_vacuum;
    }
    db->mDbFlags |= DBFLAG_VacuumInto;
  }
  nRes = sqlite3BtreeGetOptimalReserve(pMain);

  /* A VACUUM cannot change the pagesize of an encrypted database. */
#ifdef SQLITE_HAS_CODEC
  if( db->nextPagesize ){
    extern void sqlite3CodecGetKey(sqlite3*, int, void**, int*);

Changes to src/vdbe.c.

118
119
120
121
122
123
124
125
126
127
128
129
130








131
132
133
134
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150
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166












167
168
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171
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173
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1232
1233
1234
1235
1236
1237
1238

1239


1240
1241
1242
1243
1244
1245
1246
....
1730
1731
1732
1733
1734
1735
1736
1737
1738

1739
1740
1741
1742
1743
1744
1745
1746

1747
1748
1749
1750
1751
1752
1753
....
1914
1915
1916
1917
1918
1919
1920
1921
1922
1923
1924
1925
1926
1927
1928
1929
1930
1931
1932
1933
1934
1935
1936
1937
....
2041
2042
2043
2044
2045
2046
2047
2048
2049
2050
2051
2052
2053
2054
2055
....
3602
3603
3604
3605
3606
3607
3608

3609
3610
3611
3612
3613
3614
3615
....
5110
5111
5112
5113
5114
5115
5116
5117
5118
5119
5120
5121
5122
5123
5124
5125
5126
5127
5128
5129
5130
5131
5132
5133
5134
5135
5136
5137
5138

5139
5140
5141
5142
5143
5144
5145
....
5146
5147
5148
5149
5150
5151
5152
5153
5154
5155
5156
5157
5158
5159
5160
5161
5162
....
6530
6531
6532
6533
6534
6535
6536

6537
6538
6539
6540
6541
6542
6543
#endif

/*
** Invoke the VDBE coverage callback, if that callback is defined.  This
** feature is used for test suite validation only and does not appear an
** production builds.
**
** M is an integer between 2 and 4.  2 indicates a ordinary two-way
** branch (I=0 means fall through and I=1 means taken).  3 indicates
** a 3-way branch where the third way is when one of the operands is
** NULL.  4 indicates the OP_Jump instruction which has three destinations
** depending on whether the first operand is less than, equal to, or greater
** than the second. 








**
** iSrcLine is the source code line (from the __LINE__ macro) that
** generated the VDBE instruction combined with flag bits.  The source
** code line number is in the lower 24 bits of iSrcLine and the upper
** 8 bytes are flags.  The lower three bits of the flags indicate
** values for I that should never occur.  For example, if the branch is
** always taken, the flags should be 0x05 since the fall-through and
** alternate branch are never taken.  If a branch is never taken then
** flags should be 0x06 since only the fall-through approach is allowed.
**
** Bit 0x04 of the flags indicates an OP_Jump opcode that is only
** interested in equal or not-equal.  In other words, I==0 and I==2
** should be treated the same.
**
** Since only a line number is retained, not the filename, this macro
** only works for amalgamation builds.  But that is ok, since these macros
** should be no-ops except for special builds used to measure test coverage.
*/
#if !defined(SQLITE_VDBE_COVERAGE)
# define VdbeBranchTaken(I,M)
................................................................................
    /* The upper 8 bits of iSrcLine are flags.  The lower three bits of
    ** the flags indicate directions that the branch can never go.  If
    ** a branch really does go in one of those directions, assert right
    ** away. */
    mNever = iSrcLine >> 24;
    assert( (I & mNever)==0 );
    if( sqlite3GlobalConfig.xVdbeBranch==0 ) return;  /*NO_TEST*/












    I |= mNever;
    if( M==2 ) I |= 0x04;
    if( M==4 ){
      I |= 0x08;
      if( (mNever&0x08)!=0 && (I&0x05)!=0) I |= 0x05; /*NO_TEST*/
    }
    sqlite3GlobalConfig.xVdbeBranch(sqlite3GlobalConfig.pVdbeBranchArg,
................................................................................
  assert( pOp->p1>0 && pOp->p1<=p->nVar );
  assert( pOp->p4.z==0 || pOp->p4.z==sqlite3VListNumToName(p->pVList,pOp->p1) );
  pVar = &p->aVar[pOp->p1 - 1];
  if( sqlite3VdbeMemTooBig(pVar) ){
    goto too_big;
  }
  pOut = &aMem[pOp->p2];

  sqlite3VdbeMemShallowCopy(pOut, pVar, MEM_Static);


  UPDATE_MAX_BLOBSIZE(pOut);
  break;
}

/* Opcode: Move P1 P2 P3 * *
** Synopsis: r[P2@P3]=r[P1@P3]
**
................................................................................
** without data loss, then jump immediately to P2, or if P2==0
** raise an SQLITE_MISMATCH exception.
*/
case OP_MustBeInt: {            /* jump, in1 */
  pIn1 = &aMem[pOp->p1];
  if( (pIn1->flags & MEM_Int)==0 ){
    applyAffinity(pIn1, SQLITE_AFF_NUMERIC, encoding);
    VdbeBranchTaken((pIn1->flags&MEM_Int)==0, 2);
    if( (pIn1->flags & MEM_Int)==0 ){

      if( pOp->p2==0 ){
        rc = SQLITE_MISMATCH;
        goto abort_due_to_error;
      }else{
        goto jump_to_p2;
      }
    }
  }

  MemSetTypeFlag(pIn1, MEM_Int);
  break;
}

#ifndef SQLITE_OMIT_FLOATING_POINT
/* Opcode: RealAffinity P1 * * * *
**
................................................................................
  if( (flags1 | flags3)&MEM_Null ){
    /* One or both operands are NULL */
    if( pOp->p5 & SQLITE_NULLEQ ){
      /* If SQLITE_NULLEQ is set (which will only happen if the operator is
      ** OP_Eq or OP_Ne) then take the jump or not depending on whether
      ** or not both operands are null.
      */
      assert( pOp->opcode==OP_Eq || pOp->opcode==OP_Ne );
      assert( (flags1 & MEM_Cleared)==0 );
      assert( (pOp->p5 & SQLITE_JUMPIFNULL)==0 || CORRUPT_DB );
      testcase( (pOp->p5 & SQLITE_JUMPIFNULL)!=0 );
      if( (flags1&flags3&MEM_Null)!=0
       && (flags3&MEM_Cleared)==0
      ){
        res = 0;  /* Operands are equal */
      }else{
        res = 1;  /* Operands are not equal */
      }
    }else{
      /* SQLITE_NULLEQ is clear and at least one operand is NULL,
      ** then the result is always NULL.
      ** The jump is taken if the SQLITE_JUMPIFNULL bit is set.
      */
      if( pOp->p5 & SQLITE_STOREP2 ){
................................................................................
      if( (pOp->opcode==OP_Eq)==res2 ) break;
    }
    memAboutToChange(p, pOut);
    MemSetTypeFlag(pOut, MEM_Int);
    pOut->u.i = res2;
    REGISTER_TRACE(pOp->p2, pOut);
  }else{
    VdbeBranchTaken(res!=0, (pOp->p5 & SQLITE_NULLEQ)?2:3);
    if( res2 ){
      goto jump_to_p2;
    }
  }
  break;
}

................................................................................
  pCx = allocateCursor(p, pOp->p1, pOrig->nField, -1, CURTYPE_BTREE);
  if( pCx==0 ) goto no_mem;
  pCx->nullRow = 1;
  pCx->isEphemeral = 1;
  pCx->pKeyInfo = pOrig->pKeyInfo;
  pCx->isTable = pOrig->isTable;
  pCx->pgnoRoot = pOrig->pgnoRoot;

  rc = sqlite3BtreeCursor(pOrig->pBtx, pCx->pgnoRoot, BTREE_WRCSR,
                          pCx->pKeyInfo, pCx->uc.pCursor);
  /* The sqlite3BtreeCursor() routine can only fail for the first cursor
  ** opened for a database.  Since there is already an open cursor when this
  ** opcode is run, the sqlite3BtreeCursor() cannot fail */
  assert( rc==SQLITE_OK );
  break;
................................................................................
#ifdef SQLITE_TEST
  sqlite3_sort_count++;
  sqlite3_search_count--;
#endif
  p->aCounter[SQLITE_STMTSTATUS_SORT]++;
  /* Fall through into OP_Rewind */
}
/* Opcode: Rewind P1 P2 * * P5
**
** The next use of the Rowid or Column or Next instruction for P1 
** will refer to the first entry in the database table or index.
** If the table or index is empty, jump immediately to P2.
** If the table or index is not empty, fall through to the following 
** instruction.
**
** If P5 is non-zero and the table is not empty, then the "skip-next"
** flag is set on the cursor so that the next OP_Next instruction 
** executed on it is a no-op.
**
** This opcode leaves the cursor configured to move in forward order,
** from the beginning toward the end.  In other words, the cursor is
** configured to use Next, not Prev.
*/
case OP_Rewind: {        /* jump */
  VdbeCursor *pC;
  BtCursor *pCrsr;
  int res;

  assert( pOp->p1>=0 && pOp->p1<p->nCursor );

  pC = p->apCsr[pOp->p1];
  assert( pC!=0 );
  assert( isSorter(pC)==(pOp->opcode==OP_SorterSort) );
  res = 1;
#ifdef SQLITE_DEBUG
  pC->seekOp = OP_Rewind;
#endif
................................................................................
  if( isSorter(pC) ){
    rc = sqlite3VdbeSorterRewind(pC, &res);
  }else{
    assert( pC->eCurType==CURTYPE_BTREE );
    pCrsr = pC->uc.pCursor;
    assert( pCrsr );
    rc = sqlite3BtreeFirst(pCrsr, &res);
#ifndef SQLITE_OMIT_WINDOWFUNC
    if( pOp->p5 ) sqlite3BtreeSkipNext(pCrsr);
#endif
    pC->deferredMoveto = 0;
    pC->cacheStatus = CACHE_STALE;
  }
  if( rc ) goto abort_due_to_error;
  pC->nullRow = (u8)res;
  assert( pOp->p2>0 && pOp->p2<p->nOp );
  VdbeBranchTaken(res!=0,2);
................................................................................
  Mem *pMem;
  assert( pOp->p1>0 && pOp->p1<=(p->nMem+1 - p->nCursor) );
  assert( pOp->p3==0 || pOp->opcode==OP_AggValue );
  pMem = &aMem[pOp->p1];
  assert( (pMem->flags & ~(MEM_Null|MEM_Agg))==0 );
#ifndef SQLITE_OMIT_WINDOWFUNC
  if( pOp->p3 ){

    rc = sqlite3VdbeMemAggValue(pMem, &aMem[pOp->p3], pOp->p4.pFunc);
    pMem = &aMem[pOp->p3];
  }else
#endif
  {
    rc = sqlite3VdbeMemFinalize(pMem, pOp->p4.pFunc);
  }







|
|
|
|
|
|
>
>
>
>
>
>
>
>










|

|







 







>
>
>
>
>
>
>
>
>
>
>
>







 







>
|
>
>







 







<

>








>







 







<








|







 







|







 







>







 







|







<
<
<
<










>







 







<
<
<







 







>







118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
...
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
....
1252
1253
1254
1255
1256
1257
1258
1259
1260
1261
1262
1263
1264
1265
1266
1267
1268
1269
....
1753
1754
1755
1756
1757
1758
1759

1760
1761
1762
1763
1764
1765
1766
1767
1768
1769
1770
1771
1772
1773
1774
1775
1776
1777
....
1938
1939
1940
1941
1942
1943
1944

1945
1946
1947
1948
1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
....
2064
2065
2066
2067
2068
2069
2070
2071
2072
2073
2074
2075
2076
2077
2078
....
3625
3626
3627
3628
3629
3630
3631
3632
3633
3634
3635
3636
3637
3638
3639
....
5134
5135
5136
5137
5138
5139
5140
5141
5142
5143
5144
5145
5146
5147
5148




5149
5150
5151
5152
5153
5154
5155
5156
5157
5158
5159
5160
5161
5162
5163
5164
5165
5166
....
5167
5168
5169
5170
5171
5172
5173



5174
5175
5176
5177
5178
5179
5180
....
6548
6549
6550
6551
6552
6553
6554
6555
6556
6557
6558
6559
6560
6561
6562
#endif

/*
** Invoke the VDBE coverage callback, if that callback is defined.  This
** feature is used for test suite validation only and does not appear an
** production builds.
**
** M is the type of branch.  I is the direction taken for this instance of
** the branch.
**
**   M: 2 - two-way branch (I=0: fall-thru   1: jump                )
**      3 - two-way + NULL (I=0: fall-thru   1: jump      2: NULL   )
**      4 - OP_Jump        (I=0: jump p1     1: jump p2   2: jump p3)
**
** In other words, if M is 2, then I is either 0 (for fall-through) or
** 1 (for when the branch is taken).  If M is 3, the I is 0 for an
** ordinary fall-through, I is 1 if the branch was taken, and I is 2 
** if the result of comparison is NULL.  For M=3, I=2 the jump may or
** may not be taken, depending on the SQLITE_JUMPIFNULL flags in p5.
** When M is 4, that means that an OP_Jump is being run.  I is 0, 1, or 2
** depending on if the operands are less than, equal, or greater than.
**
** iSrcLine is the source code line (from the __LINE__ macro) that
** generated the VDBE instruction combined with flag bits.  The source
** code line number is in the lower 24 bits of iSrcLine and the upper
** 8 bytes are flags.  The lower three bits of the flags indicate
** values for I that should never occur.  For example, if the branch is
** always taken, the flags should be 0x05 since the fall-through and
** alternate branch are never taken.  If a branch is never taken then
** flags should be 0x06 since only the fall-through approach is allowed.
**
** Bit 0x08 of the flags indicates an OP_Jump opcode that is only
** interested in equal or not-equal.  In other words, I==0 and I==2
** should be treated as equivalent
**
** Since only a line number is retained, not the filename, this macro
** only works for amalgamation builds.  But that is ok, since these macros
** should be no-ops except for special builds used to measure test coverage.
*/
#if !defined(SQLITE_VDBE_COVERAGE)
# define VdbeBranchTaken(I,M)
................................................................................
    /* The upper 8 bits of iSrcLine are flags.  The lower three bits of
    ** the flags indicate directions that the branch can never go.  If
    ** a branch really does go in one of those directions, assert right
    ** away. */
    mNever = iSrcLine >> 24;
    assert( (I & mNever)==0 );
    if( sqlite3GlobalConfig.xVdbeBranch==0 ) return;  /*NO_TEST*/
    /* Invoke the branch coverage callback with three arguments:
    **    iSrcLine - the line number of the VdbeCoverage() macro, with
    **               flags removed.
    **    I        - Mask of bits 0x07 indicating which cases are are
    **               fulfilled by this instance of the jump.  0x01 means
    **               fall-thru, 0x02 means taken, 0x04 means NULL.  Any
    **               impossible cases (ex: if the comparison is never NULL)
    **               are filled in automatically so that the coverage
    **               measurement logic does not flag those impossible cases
    **               as missed coverage.
    **    M        - Type of jump.  Same as M argument above
    */
    I |= mNever;
    if( M==2 ) I |= 0x04;
    if( M==4 ){
      I |= 0x08;
      if( (mNever&0x08)!=0 && (I&0x05)!=0) I |= 0x05; /*NO_TEST*/
    }
    sqlite3GlobalConfig.xVdbeBranch(sqlite3GlobalConfig.pVdbeBranchArg,
................................................................................
  assert( pOp->p1>0 && pOp->p1<=p->nVar );
  assert( pOp->p4.z==0 || pOp->p4.z==sqlite3VListNumToName(p->pVList,pOp->p1) );
  pVar = &p->aVar[pOp->p1 - 1];
  if( sqlite3VdbeMemTooBig(pVar) ){
    goto too_big;
  }
  pOut = &aMem[pOp->p2];
  if( VdbeMemDynamic(pOut) ) sqlite3VdbeMemSetNull(pOut);
  memcpy(pOut, pVar, MEMCELLSIZE);
  pOut->flags &= ~(MEM_Dyn|MEM_Ephem);
  pOut->flags |= MEM_Static|MEM_FromBind;
  UPDATE_MAX_BLOBSIZE(pOut);
  break;
}

/* Opcode: Move P1 P2 P3 * *
** Synopsis: r[P2@P3]=r[P1@P3]
**
................................................................................
** without data loss, then jump immediately to P2, or if P2==0
** raise an SQLITE_MISMATCH exception.
*/
case OP_MustBeInt: {            /* jump, in1 */
  pIn1 = &aMem[pOp->p1];
  if( (pIn1->flags & MEM_Int)==0 ){
    applyAffinity(pIn1, SQLITE_AFF_NUMERIC, encoding);

    if( (pIn1->flags & MEM_Int)==0 ){
      VdbeBranchTaken(1, 2);
      if( pOp->p2==0 ){
        rc = SQLITE_MISMATCH;
        goto abort_due_to_error;
      }else{
        goto jump_to_p2;
      }
    }
  }
  VdbeBranchTaken(0, 2);
  MemSetTypeFlag(pIn1, MEM_Int);
  break;
}

#ifndef SQLITE_OMIT_FLOATING_POINT
/* Opcode: RealAffinity P1 * * * *
**
................................................................................
  if( (flags1 | flags3)&MEM_Null ){
    /* One or both operands are NULL */
    if( pOp->p5 & SQLITE_NULLEQ ){
      /* If SQLITE_NULLEQ is set (which will only happen if the operator is
      ** OP_Eq or OP_Ne) then take the jump or not depending on whether
      ** or not both operands are null.
      */

      assert( (flags1 & MEM_Cleared)==0 );
      assert( (pOp->p5 & SQLITE_JUMPIFNULL)==0 || CORRUPT_DB );
      testcase( (pOp->p5 & SQLITE_JUMPIFNULL)!=0 );
      if( (flags1&flags3&MEM_Null)!=0
       && (flags3&MEM_Cleared)==0
      ){
        res = 0;  /* Operands are equal */
      }else{
        res = ((flags3 & MEM_Null) ? -1 : +1);  /* Operands are not equal */
      }
    }else{
      /* SQLITE_NULLEQ is clear and at least one operand is NULL,
      ** then the result is always NULL.
      ** The jump is taken if the SQLITE_JUMPIFNULL bit is set.
      */
      if( pOp->p5 & SQLITE_STOREP2 ){
................................................................................
      if( (pOp->opcode==OP_Eq)==res2 ) break;
    }
    memAboutToChange(p, pOut);
    MemSetTypeFlag(pOut, MEM_Int);
    pOut->u.i = res2;
    REGISTER_TRACE(pOp->p2, pOut);
  }else{
    VdbeBranchTaken(res2!=0, (pOp->p5 & SQLITE_NULLEQ)?2:3);
    if( res2 ){
      goto jump_to_p2;
    }
  }
  break;
}

................................................................................
  pCx = allocateCursor(p, pOp->p1, pOrig->nField, -1, CURTYPE_BTREE);
  if( pCx==0 ) goto no_mem;
  pCx->nullRow = 1;
  pCx->isEphemeral = 1;
  pCx->pKeyInfo = pOrig->pKeyInfo;
  pCx->isTable = pOrig->isTable;
  pCx->pgnoRoot = pOrig->pgnoRoot;
  pCx->isOrdered = pOrig->isOrdered;
  rc = sqlite3BtreeCursor(pOrig->pBtx, pCx->pgnoRoot, BTREE_WRCSR,
                          pCx->pKeyInfo, pCx->uc.pCursor);
  /* The sqlite3BtreeCursor() routine can only fail for the first cursor
  ** opened for a database.  Since there is already an open cursor when this
  ** opcode is run, the sqlite3BtreeCursor() cannot fail */
  assert( rc==SQLITE_OK );
  break;
................................................................................
#ifdef SQLITE_TEST
  sqlite3_sort_count++;
  sqlite3_search_count--;
#endif
  p->aCounter[SQLITE_STMTSTATUS_SORT]++;
  /* Fall through into OP_Rewind */
}
/* Opcode: Rewind P1 P2 * * *
**
** The next use of the Rowid or Column or Next instruction for P1 
** will refer to the first entry in the database table or index.
** If the table or index is empty, jump immediately to P2.
** If the table or index is not empty, fall through to the following 
** instruction.
**




** This opcode leaves the cursor configured to move in forward order,
** from the beginning toward the end.  In other words, the cursor is
** configured to use Next, not Prev.
*/
case OP_Rewind: {        /* jump */
  VdbeCursor *pC;
  BtCursor *pCrsr;
  int res;

  assert( pOp->p1>=0 && pOp->p1<p->nCursor );
  assert( pOp->p5==0 );
  pC = p->apCsr[pOp->p1];
  assert( pC!=0 );
  assert( isSorter(pC)==(pOp->opcode==OP_SorterSort) );
  res = 1;
#ifdef SQLITE_DEBUG
  pC->seekOp = OP_Rewind;
#endif
................................................................................
  if( isSorter(pC) ){
    rc = sqlite3VdbeSorterRewind(pC, &res);
  }else{
    assert( pC->eCurType==CURTYPE_BTREE );
    pCrsr = pC->uc.pCursor;
    assert( pCrsr );
    rc = sqlite3BtreeFirst(pCrsr, &res);



    pC->deferredMoveto = 0;
    pC->cacheStatus = CACHE_STALE;
  }
  if( rc ) goto abort_due_to_error;
  pC->nullRow = (u8)res;
  assert( pOp->p2>0 && pOp->p2<p->nOp );
  VdbeBranchTaken(res!=0,2);
................................................................................
  Mem *pMem;
  assert( pOp->p1>0 && pOp->p1<=(p->nMem+1 - p->nCursor) );
  assert( pOp->p3==0 || pOp->opcode==OP_AggValue );
  pMem = &aMem[pOp->p1];
  assert( (pMem->flags & ~(MEM_Null|MEM_Agg))==0 );
#ifndef SQLITE_OMIT_WINDOWFUNC
  if( pOp->p3 ){
    memAboutToChange(p, &aMem[pOp->p3]);
    rc = sqlite3VdbeMemAggValue(pMem, &aMem[pOp->p3], pOp->p4.pFunc);
    pMem = &aMem[pOp->p3];
  }else
#endif
  {
    rc = sqlite3VdbeMemFinalize(pMem, pOp->p4.pFunc);
  }

Changes to src/vdbeInt.h.

242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
...
278
279
280
281
282
283
284






285
286
287
288
289
290
291
*/
#define MEM_Null      0x0001   /* Value is NULL (or a pointer) */
#define MEM_Str       0x0002   /* Value is a string */
#define MEM_Int       0x0004   /* Value is an integer */
#define MEM_Real      0x0008   /* Value is a real number */
#define MEM_Blob      0x0010   /* Value is a BLOB */
#define MEM_AffMask   0x001f   /* Mask of affinity bits */
/* Available          0x0020   */
/* Available          0x0040   */
#define MEM_Undefined 0x0080   /* Value is undefined */
#define MEM_Cleared   0x0100   /* NULL set by OP_Null, not from data */
#define MEM_TypeMask  0xc1ff   /* Mask of type bits */


/* Whenever Mem contains a valid string or blob representation, one of
** the following flags must be set to determine the memory management
** policy for Mem.z.  The MEM_Term flag tells us whether or not the
** string is \000 or \u0000 terminated
*/
................................................................................

/*
** Clear any existing type flags from a Mem and replace them with f
*/
#define MemSetTypeFlag(p, f) \
   ((p)->flags = ((p)->flags&~(MEM_TypeMask|MEM_Zero))|f)







/*
** Return true if a memory cell is not marked as invalid.  This macro
** is for use inside assert() statements only.
*/
#ifdef SQLITE_DEBUG
#define memIsValid(M)  ((M)->flags & MEM_Undefined)==0
#endif







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*/
#define MEM_Null      0x0001   /* Value is NULL (or a pointer) */
#define MEM_Str       0x0002   /* Value is a string */
#define MEM_Int       0x0004   /* Value is an integer */
#define MEM_Real      0x0008   /* Value is a real number */
#define MEM_Blob      0x0010   /* Value is a BLOB */
#define MEM_AffMask   0x001f   /* Mask of affinity bits */
#define MEM_FromBind  0x0020   /* Value originates from sqlite3_bind() */
/* Available          0x0040   */
#define MEM_Undefined 0x0080   /* Value is undefined */
#define MEM_Cleared   0x0100   /* NULL set by OP_Null, not from data */
#define MEM_TypeMask  0xc1df   /* Mask of type bits */


/* Whenever Mem contains a valid string or blob representation, one of
** the following flags must be set to determine the memory management
** policy for Mem.z.  The MEM_Term flag tells us whether or not the
** string is \000 or \u0000 terminated
*/
................................................................................

/*
** Clear any existing type flags from a Mem and replace them with f
*/
#define MemSetTypeFlag(p, f) \
   ((p)->flags = ((p)->flags&~(MEM_TypeMask|MEM_Zero))|f)

/*
** True if Mem X is a NULL-nochng type.
*/
#define MemNullNochng(X) \
  ((X)->flags==(MEM_Null|MEM_Zero) && (X)->n==0 && (X)->u.nZero==0)

/*
** Return true if a memory cell is not marked as invalid.  This macro
** is for use inside assert() statements only.
*/
#ifdef SQLITE_DEBUG
#define memIsValid(M)  ((M)->flags & MEM_Undefined)==0
#endif

Changes to src/vdbeapi.c.

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276





277
278
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283
  return aType[pVal->flags&MEM_AffMask];
}

/* Return true if a parameter to xUpdate represents an unchanged column */
int sqlite3_value_nochange(sqlite3_value *pVal){
  return (pVal->flags&(MEM_Null|MEM_Zero))==(MEM_Null|MEM_Zero);
}






/* Make a copy of an sqlite3_value object
*/
sqlite3_value *sqlite3_value_dup(const sqlite3_value *pOrig){
  sqlite3_value *pNew;
  if( pOrig==0 ) return 0;
  pNew = sqlite3_malloc( sizeof(*pNew) );







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270
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  return aType[pVal->flags&MEM_AffMask];
}

/* Return true if a parameter to xUpdate represents an unchanged column */
int sqlite3_value_nochange(sqlite3_value *pVal){
  return (pVal->flags&(MEM_Null|MEM_Zero))==(MEM_Null|MEM_Zero);
}

/* Return true if a parameter value originated from an sqlite3_bind() */
int sqlite3_value_frombind(sqlite3_value *pVal){
  return (pVal->flags&MEM_FromBind)!=0;
}

/* Make a copy of an sqlite3_value object
*/
sqlite3_value *sqlite3_value_dup(const sqlite3_value *pOrig){
  sqlite3_value *pNew;
  if( pOrig==0 ) return 0;
  pNew = sqlite3_malloc( sizeof(*pNew) );

Changes to src/vdbeaux.c.

151
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157
158

159

160
161
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165
166
167
...
941
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943
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946
947
948
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953
954
955
....
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2094
2095
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2098
  ** more frequent reallocs and hence provide more opportunities for 
  ** simulated OOM faults.  SQLITE_TEST_REALLOC_STRESS is generally used
  ** during testing only.  With SQLITE_TEST_REALLOC_STRESS grow the op array
  ** by the minimum* amount required until the size reaches 512.  Normal
  ** operation (without SQLITE_TEST_REALLOC_STRESS) is to double the current
  ** size of the op array or add 1KB of space, whichever is smaller. */
#ifdef SQLITE_TEST_REALLOC_STRESS
  int nNew = (v->nOpAlloc>=512 ? v->nOpAlloc*2 : v->nOpAlloc+nOp);

#else

  int nNew = (v->nOpAlloc ? v->nOpAlloc*2 : (int)(1024/sizeof(Op)));
  UNUSED_PARAMETER(nOp);
#endif

  /* Ensure that the size of a VDBE does not grow too large */
  if( nNew > p->db->aLimit[SQLITE_LIMIT_VDBE_OP] ){
    sqlite3OomFault(p->db);
    return SQLITE_NOMEM;
................................................................................
  Vdbe *p,                        /* VM to add scanstatus() to */
  int addrExplain,                /* Address of OP_Explain (or 0) */
  int addrLoop,                   /* Address of loop counter */ 
  int addrVisit,                  /* Address of rows visited counter */
  LogEst nEst,                    /* Estimated number of output rows */
  const char *zName               /* Name of table or index being scanned */
){
  int nByte = (p->nScan+1) * sizeof(ScanStatus);
  ScanStatus *aNew;
  aNew = (ScanStatus*)sqlite3DbRealloc(p->db, p->aScan, nByte);
  if( aNew ){
    ScanStatus *pNew = &aNew[p->nScan++];
    pNew->addrExplain = addrExplain;
    pNew->addrLoop = addrLoop;
    pNew->addrVisit = addrVisit;
................................................................................

/* An instance of this object describes bulk memory available for use
** by subcomponents of a prepared statement.  Space is allocated out
** of a ReusableSpace object by the allocSpace() routine below.
*/
struct ReusableSpace {
  u8 *pSpace;          /* Available memory */
  int nFree;           /* Bytes of available memory */
  int nNeeded;         /* Total bytes that could not be allocated */
};

/* Try to allocate nByte bytes of 8-byte aligned bulk memory for pBuf
** from the ReusableSpace object.  Return a pointer to the allocated
** memory on success.  If insufficient memory is available in the
** ReusableSpace object, increase the ReusableSpace.nNeeded
** value by the amount needed and return NULL.
................................................................................
** This allocator is employed to repurpose unused slots at the end of the
** opcode array of prepared state for other memory needs of the prepared
** statement.
*/
static void *allocSpace(
  struct ReusableSpace *p,  /* Bulk memory available for allocation */
  void *pBuf,               /* Pointer to a prior allocation */
  int nByte                 /* Bytes of memory needed */
){
  assert( EIGHT_BYTE_ALIGNMENT(p->pSpace) );
  if( pBuf==0 ){
    nByte = ROUND8(nByte);
    if( nByte <= p->nFree ){
      p->nFree -= nByte;
      pBuf = &p->pSpace[p->nFree];







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151
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169
...
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944
945
946
947
948
949
950
951
952
953
954
955
956
957
....
2065
2066
2067
2068
2069
2070
2071
2072
2073
2074
2075
2076
2077
2078
2079
2080
....
2086
2087
2088
2089
2090
2091
2092
2093
2094
2095
2096
2097
2098
2099
2100
  ** more frequent reallocs and hence provide more opportunities for 
  ** simulated OOM faults.  SQLITE_TEST_REALLOC_STRESS is generally used
  ** during testing only.  With SQLITE_TEST_REALLOC_STRESS grow the op array
  ** by the minimum* amount required until the size reaches 512.  Normal
  ** operation (without SQLITE_TEST_REALLOC_STRESS) is to double the current
  ** size of the op array or add 1KB of space, whichever is smaller. */
#ifdef SQLITE_TEST_REALLOC_STRESS
  sqlite3_int64 nNew = (v->nOpAlloc>=512 ? 2*(sqlite3_int64)v->nOpAlloc
                        : (sqlite3_int64)v->nOpAlloc+nOp);
#else
  sqlite3_int64 nNew = (v->nOpAlloc ? 2*(sqlite3_int64)v->nOpAlloc
                        : (sqlite3_int64)(1024/sizeof(Op)));
  UNUSED_PARAMETER(nOp);
#endif

  /* Ensure that the size of a VDBE does not grow too large */
  if( nNew > p->db->aLimit[SQLITE_LIMIT_VDBE_OP] ){
    sqlite3OomFault(p->db);
    return SQLITE_NOMEM;
................................................................................
  Vdbe *p,                        /* VM to add scanstatus() to */
  int addrExplain,                /* Address of OP_Explain (or 0) */
  int addrLoop,                   /* Address of loop counter */ 
  int addrVisit,                  /* Address of rows visited counter */
  LogEst nEst,                    /* Estimated number of output rows */
  const char *zName               /* Name of table or index being scanned */
){
  sqlite3_int64 nByte = (p->nScan+1) * sizeof(ScanStatus);
  ScanStatus *aNew;
  aNew = (ScanStatus*)sqlite3DbRealloc(p->db, p->aScan, nByte);
  if( aNew ){
    ScanStatus *pNew = &aNew[p->nScan++];
    pNew->addrExplain = addrExplain;
    pNew->addrLoop = addrLoop;
    pNew->addrVisit = addrVisit;
................................................................................

/* An instance of this object describes bulk memory available for use
** by subcomponents of a prepared statement.  Space is allocated out
** of a ReusableSpace object by the allocSpace() routine below.
*/
struct ReusableSpace {
  u8 *pSpace;            /* Available memory */
  sqlite3_int64 nFree;   /* Bytes of available memory */
  sqlite3_int64 nNeeded; /* Total bytes that could not be allocated */
};

/* Try to allocate nByte bytes of 8-byte aligned bulk memory for pBuf
** from the ReusableSpace object.  Return a pointer to the allocated
** memory on success.  If insufficient memory is available in the
** ReusableSpace object, increase the ReusableSpace.nNeeded
** value by the amount needed and return NULL.
................................................................................
** This allocator is employed to repurpose unused slots at the end of the
** opcode array of prepared state for other memory needs of the prepared
** statement.
*/
static void *allocSpace(
  struct ReusableSpace *p,  /* Bulk memory available for allocation */
  void *pBuf,               /* Pointer to a prior allocation */
  sqlite3_int64 nByte       /* Bytes of memory needed */
){
  assert( EIGHT_BYTE_ALIGNMENT(p->pSpace) );
  if( pBuf==0 ){
    nByte = ROUND8(nByte);
    if( nByte <= p->nFree ){
      p->nFree -= nByte;
      pBuf = &p->pSpace[p->nFree];

Changes to src/vdbemem.c.

53
54
55
56
57
58
59
60
61
62
63
64
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302
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308
309
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1057
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1062
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1064
1065
1066
1067
1068
1069
1070
1071
      /* This is a pointer type.  There may be a flag to indicate what to
      ** do with the pointer. */
      assert( ((p->flags&MEM_Dyn)!=0 ? 1 : 0) +
              ((p->flags&MEM_Ephem)!=0 ? 1 : 0) +
              ((p->flags&MEM_Static)!=0 ? 1 : 0) <= 1 );

      /* No other bits set */
      assert( (p->flags & ~(MEM_Null|MEM_Term|MEM_Subtype
                           |MEM_Dyn|MEM_Ephem|MEM_Static))==0 );
    }else{
      /* A pure NULL might have other flags, such as MEM_Static, MEM_Dyn,
      ** MEM_Ephem, MEM_Cleared, or MEM_Subtype */
    }
  }else{
    /* The MEM_Cleared bit is only allowed on NULLs */
................................................................................
** If the given Mem* has a zero-filled tail, turn it into an ordinary
** blob stored in dynamically allocated space.
*/
#ifndef SQLITE_OMIT_INCRBLOB
int sqlite3VdbeMemExpandBlob(Mem *pMem){
  int nByte;
  assert( pMem->flags & MEM_Zero );
  assert( pMem->flags&MEM_Blob );

  assert( !sqlite3VdbeMemIsRowSet(pMem) );
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );

  /* Set nByte to the number of bytes required to store the expanded blob. */
  nByte = pMem->n + pMem->u.nZero;
  if( nByte<=0 ){

    nByte = 1;
  }
  if( sqlite3VdbeMemGrow(pMem, nByte, 1) ){
    return SQLITE_NOMEM_BKPT;
  }

  memset(&pMem->z[pMem->n], 0, pMem->u.nZero);
................................................................................
  */
  if( xDel==SQLITE_TRANSIENT ){
    u32 nAlloc = nByte;
    if( flags&MEM_Term ){
      nAlloc += (enc==SQLITE_UTF8?1:2);
    }
    if( nByte>iLimit ){
      return SQLITE_TOOBIG;
    }
    testcase( nAlloc==0 );
    testcase( nAlloc==31 );
    testcase( nAlloc==32 );
    if( sqlite3VdbeMemClearAndResize(pMem, (int)MAX(nAlloc,32)) ){
      return SQLITE_NOMEM_BKPT;
    }







|







 







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55
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61
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308
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311
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1060
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1065
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1071
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1073
      /* This is a pointer type.  There may be a flag to indicate what to
      ** do with the pointer. */
      assert( ((p->flags&MEM_Dyn)!=0 ? 1 : 0) +
              ((p->flags&MEM_Ephem)!=0 ? 1 : 0) +
              ((p->flags&MEM_Static)!=0 ? 1 : 0) <= 1 );

      /* No other bits set */
      assert( (p->flags & ~(MEM_Null|MEM_Term|MEM_Subtype|MEM_FromBind
                           |MEM_Dyn|MEM_Ephem|MEM_Static))==0 );
    }else{
      /* A pure NULL might have other flags, such as MEM_Static, MEM_Dyn,
      ** MEM_Ephem, MEM_Cleared, or MEM_Subtype */
    }
  }else{
    /* The MEM_Cleared bit is only allowed on NULLs */
................................................................................
** If the given Mem* has a zero-filled tail, turn it into an ordinary
** blob stored in dynamically allocated space.
*/
#ifndef SQLITE_OMIT_INCRBLOB
int sqlite3VdbeMemExpandBlob(Mem *pMem){
  int nByte;
  assert( pMem->flags & MEM_Zero );
  assert( (pMem->flags&MEM_Blob)!=0 || MemNullNochng(pMem) );
  testcase( sqlite3_value_nochange(pMem) );
  assert( !sqlite3VdbeMemIsRowSet(pMem) );
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );

  /* Set nByte to the number of bytes required to store the expanded blob. */
  nByte = pMem->n + pMem->u.nZero;
  if( nByte<=0 ){
    if( (pMem->flags & MEM_Blob)==0 ) return SQLITE_OK;
    nByte = 1;
  }
  if( sqlite3VdbeMemGrow(pMem, nByte, 1) ){
    return SQLITE_NOMEM_BKPT;
  }

  memset(&pMem->z[pMem->n], 0, pMem->u.nZero);
................................................................................
  */
  if( xDel==SQLITE_TRANSIENT ){
    u32 nAlloc = nByte;
    if( flags&MEM_Term ){
      nAlloc += (enc==SQLITE_UTF8?1:2);
    }
    if( nByte>iLimit ){
      return sqlite3ErrorToParser(pMem->db, SQLITE_TOOBIG);
    }
    testcase( nAlloc==0 );
    testcase( nAlloc==31 );
    testcase( nAlloc==32 );
    if( sqlite3VdbeMemClearAndResize(pMem, (int)MAX(nAlloc,32)) ){
      return SQLITE_NOMEM_BKPT;
    }

Changes to src/vdbesort.c.

533
534
535
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....
1825
1826
1827
1828
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1831
1832
1833
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1835
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1839
    ** In this case, allocate space at p->aAlloc[] to copy the requested
    ** range into. Then return a copy of pointer p->aAlloc to the caller.  */
    int nRem;                     /* Bytes remaining to copy */

    /* Extend the p->aAlloc[] allocation if required. */
    if( p->nAlloc<nByte ){
      u8 *aNew;
      int nNew = MAX(128, p->nAlloc*2);
      while( nByte>nNew ) nNew = nNew*2;
      aNew = sqlite3Realloc(p->aAlloc, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;
      p->nAlloc = nNew;
      p->aAlloc = aNew;
    }

................................................................................

  if( pSorter->list.aMemory ){
    int nMin = pSorter->iMemory + nReq;

    if( nMin>pSorter->nMemory ){
      u8 *aNew;
      int iListOff = (u8*)pSorter->list.pList - pSorter->list.aMemory;
      int nNew = pSorter->nMemory * 2;
      while( nNew < nMin ) nNew = nNew*2;
      if( nNew > pSorter->mxPmaSize ) nNew = pSorter->mxPmaSize;
      if( nNew < nMin ) nNew = nMin;

      aNew = sqlite3Realloc(pSorter->list.aMemory, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;
      pSorter->list.pList = (SorterRecord*)&aNew[iListOff];







|







 







|







533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
....
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
    ** In this case, allocate space at p->aAlloc[] to copy the requested
    ** range into. Then return a copy of pointer p->aAlloc to the caller.  */
    int nRem;                     /* Bytes remaining to copy */

    /* Extend the p->aAlloc[] allocation if required. */
    if( p->nAlloc<nByte ){
      u8 *aNew;
      sqlite3_int64 nNew = MAX(128, 2*(sqlite3_int64)p->nAlloc);
      while( nByte>nNew ) nNew = nNew*2;
      aNew = sqlite3Realloc(p->aAlloc, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;
      p->nAlloc = nNew;
      p->aAlloc = aNew;
    }

................................................................................

  if( pSorter->list.aMemory ){
    int nMin = pSorter->iMemory + nReq;

    if( nMin>pSorter->nMemory ){
      u8 *aNew;
      int iListOff = (u8*)pSorter->list.pList - pSorter->list.aMemory;
      sqlite3_int64 nNew = 2 * (sqlite3_int64)pSorter->nMemory;
      while( nNew < nMin ) nNew = nNew*2;
      if( nNew > pSorter->mxPmaSize ) nNew = pSorter->mxPmaSize;
      if( nNew < nMin ) nNew = nMin;

      aNew = sqlite3Realloc(pSorter->list.aMemory, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;
      pSorter->list.pList = (SorterRecord*)&aNew[iListOff];

Changes to src/vtab.c.

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382
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384
...
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660
661
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663
664
665
666

667
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669
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671
672
673
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1162
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1164
1165
1166
1167
1168
1169
1170
1171

/*
** Add a new module argument to pTable->azModuleArg[].
** The string is not copied - the pointer is stored.  The
** string will be freed automatically when the table is
** deleted.
*/
static void addModuleArgument(sqlite3 *db, Table *pTable, char *zArg){
  int nBytes = sizeof(char *)*(2+pTable->nModuleArg);
  char **azModuleArg;




  azModuleArg = sqlite3DbRealloc(db, pTable->azModuleArg, nBytes);
  if( azModuleArg==0 ){
    sqlite3DbFree(db, zArg);
  }else{
    int i = pTable->nModuleArg++;
    azModuleArg[i] = zArg;
    azModuleArg[i+1] = 0;
................................................................................
  pTable = pParse->pNewTable;
  if( pTable==0 ) return;
  assert( 0==pTable->pIndex );

  db = pParse->db;

  assert( pTable->nModuleArg==0 );
  addModuleArgument(db, pTable, sqlite3NameFromToken(db, pModuleName));
  addModuleArgument(db, pTable, 0);
  addModuleArgument(db, pTable, sqlite3DbStrDup(db, pTable->zName));
  assert( (pParse->sNameToken.z==pName2->z && pName2->z!=0)
       || (pParse->sNameToken.z==pName1->z && pName2->z==0)
  );
  pParse->sNameToken.n = (int)(
      &pModuleName->z[pModuleName->n] - pParse->sNameToken.z
  );

................................................................................
** virtual table currently under construction in pParse->pTable.
*/
static void addArgumentToVtab(Parse *pParse){
  if( pParse->sArg.z && pParse->pNewTable ){
    const char *z = (const char*)pParse->sArg.z;
    int n = pParse->sArg.n;
    sqlite3 *db = pParse->db;
    addModuleArgument(db, pParse->pNewTable, sqlite3DbStrNDup(db, z, n));
  }
}

/*
** The parser calls this routine after the CREATE VIRTUAL TABLE statement
** has been completely parsed.
*/
................................................................................
*/
static int growVTrans(sqlite3 *db){
  const int ARRAY_INCR = 5;

  /* Grow the sqlite3.aVTrans array if required */
  if( (db->nVTrans%ARRAY_INCR)==0 ){
    VTable **aVTrans;
    int nBytes = sizeof(sqlite3_vtab *) * (db->nVTrans + ARRAY_INCR);

    aVTrans = sqlite3DbRealloc(db, (void *)db->aVTrans, nBytes);
    if( !aVTrans ){
      return SQLITE_NOMEM_BKPT;
    }
    memset(&aVTrans[db->nVTrans], 0, sizeof(sqlite3_vtab *)*ARRAY_INCR);
    db->aVTrans = aVTrans;
  }
................................................................................
    return 0;
  }
  pMod->pEpoTab = pTab;
  pTab->nTabRef = 1;
  pTab->pSchema = db->aDb[0].pSchema;
  assert( pTab->nModuleArg==0 );
  pTab->iPKey = -1;
  addModuleArgument(db, pTab, sqlite3DbStrDup(db, pTab->zName));
  addModuleArgument(db, pTab, 0);
  addModuleArgument(db, pTab, sqlite3DbStrDup(db, pTab->zName));
  rc = vtabCallConstructor(db, pTab, pMod, pModule->xConnect, &zErr);
  if( rc ){
    sqlite3ErrorMsg(pParse, "%s", zErr);
    sqlite3DbFree(db, zErr);
    sqlite3VtabEponymousTableClear(db, pMod);
    return 0;
  }







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345
346
347
348
349
350
351
352
353
354
355
...
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
...
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
....
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176

/*
** Add a new module argument to pTable->azModuleArg[].
** The string is not copied - the pointer is stored.  The
** string will be freed automatically when the table is
** deleted.
*/
static void addModuleArgument(Parse *pParse, Table *pTable, char *zArg){
  sqlite3_int64 nBytes = sizeof(char *)*(2+pTable->nModuleArg);
  char **azModuleArg;
  sqlite3 *db = pParse->db;
  if( pTable->nModuleArg+3>=db->aLimit[SQLITE_LIMIT_COLUMN] ){
    sqlite3ErrorMsg(pParse, "too many columns on %s", pTable->zName);
  }
  azModuleArg = sqlite3DbRealloc(db, pTable->azModuleArg, nBytes);
  if( azModuleArg==0 ){
    sqlite3DbFree(db, zArg);
  }else{
    int i = pTable->nModuleArg++;
    azModuleArg[i] = zArg;
    azModuleArg[i+1] = 0;
................................................................................
  pTable = pParse->pNewTable;
  if( pTable==0 ) return;
  assert( 0==pTable->pIndex );

  db = pParse->db;

  assert( pTable->nModuleArg==0 );
  addModuleArgument(pParse, pTable, sqlite3NameFromToken(db, pModuleName));
  addModuleArgument(pParse, pTable, 0);
  addModuleArgument(pParse, pTable, sqlite3DbStrDup(db, pTable->zName));
  assert( (pParse->sNameToken.z==pName2->z && pName2->z!=0)
       || (pParse->sNameToken.z==pName1->z && pName2->z==0)
  );
  pParse->sNameToken.n = (int)(
      &pModuleName->z[pModuleName->n] - pParse->sNameToken.z
  );

................................................................................
** virtual table currently under construction in pParse->pTable.
*/
static void addArgumentToVtab(Parse *pParse){
  if( pParse->sArg.z && pParse->pNewTable ){
    const char *z = (const char*)pParse->sArg.z;
    int n = pParse->sArg.n;
    sqlite3 *db = pParse->db;
    addModuleArgument(pParse, pParse->pNewTable, sqlite3DbStrNDup(db, z, n));
  }
}

/*
** The parser calls this routine after the CREATE VIRTUAL TABLE statement
** has been completely parsed.
*/
................................................................................
*/
static int growVTrans(sqlite3 *db){
  const int ARRAY_INCR = 5;

  /* Grow the sqlite3.aVTrans array if required */
  if( (db->nVTrans%ARRAY_INCR)==0 ){
    VTable **aVTrans;
    sqlite3_int64 nBytes = sizeof(sqlite3_vtab*)*
                                 ((sqlite3_int64)db->nVTrans + ARRAY_INCR);
    aVTrans = sqlite3DbRealloc(db, (void *)db->aVTrans, nBytes);
    if( !aVTrans ){
      return SQLITE_NOMEM_BKPT;
    }
    memset(&aVTrans[db->nVTrans], 0, sizeof(sqlite3_vtab *)*ARRAY_INCR);
    db->aVTrans = aVTrans;
  }
................................................................................
    return 0;
  }
  pMod->pEpoTab = pTab;
  pTab->nTabRef = 1;
  pTab->pSchema = db->aDb[0].pSchema;
  assert( pTab->nModuleArg==0 );
  pTab->iPKey = -1;
  addModuleArgument(pParse, pTab, sqlite3DbStrDup(db, pTab->zName));
  addModuleArgument(pParse, pTab, 0);
  addModuleArgument(pParse, pTab, sqlite3DbStrDup(db, pTab->zName));
  rc = vtabCallConstructor(db, pTab, pMod, pModule->xConnect, &zErr);
  if( rc ){
    sqlite3ErrorMsg(pParse, "%s", zErr);
    sqlite3DbFree(db, zErr);
    sqlite3VtabEponymousTableClear(db, pMod);
    return 0;
  }

Changes to src/wal.c.

832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
...
936
937
938
939
940
941
942

943
944
945
946
947
948
949
....
1295
1296
1297
1298
1299
1300
1301

1302
1303
1304
1305
1306
1307
1308
....
1315
1316
1317
1318
1319
1320
1321
1322
1323
1324
1325
1326

1327
1328
1329
1330
1331
1332
1333
....
2086
2087
2088
2089
2090
2091
2092
2093
2094
2095
2096
2097
2098
2099
2100
  int iPage,               /* The page we seek */
  volatile u32 **ppPage    /* Write the page pointer here */
){
  int rc = SQLITE_OK;

  /* Enlarge the pWal->apWiData[] array if required */
  if( pWal->nWiData<=iPage ){
    int nByte = sizeof(u32*)*(iPage+1);
    volatile u32 **apNew;
    apNew = (volatile u32 **)sqlite3_realloc64((void *)pWal->apWiData, nByte);
    if( !apNew ){
      *ppPage = 0;
      return SQLITE_NOMEM_BKPT;
    }
    memset((void*)&apNew[pWal->nWiData], 0,
................................................................................
    s2 = aIn[1];
  }else{
    s1 = s2 = 0;
  }

  assert( nByte>=8 );
  assert( (nByte&0x00000007)==0 );


  if( nativeCksum ){
    do {
      s1 += *aData++ + s2;
      s2 += *aData++ + s1;
    }while( aData<aEnd );
  }else{
................................................................................
** actually needed.
*/
static void walCleanupHash(Wal *pWal){
  WalHashLoc sLoc;                /* Hash table location */
  int iLimit = 0;                 /* Zero values greater than this */
  int nByte;                      /* Number of bytes to zero in aPgno[] */
  int i;                          /* Used to iterate through aHash[] */

  int iWal = walidxGetFile(&pWal->hdr);
  u32 mxFrame = walidxGetMxFrame(&pWal->hdr, iWal);

  u32 iExternal;
  if( isWalMode2(pWal) ){
    iExternal = walExternalEncode(iWal, mxFrame);
  }else{
................................................................................
  testcase( mxFrame==HASHTABLE_NPAGE_ONE );
  testcase( mxFrame==HASHTABLE_NPAGE_ONE+1 );

  if( mxFrame==0 ) return;

  /* Obtain pointers to the hash-table and page-number array containing 
  ** the entry that corresponds to frame pWal->hdr.mxFrame. It is guaranteed
  ** that the page said hash-table and array reside on is already mapped.
  */
  assert( pWal->nWiData>walFramePage(iExternal) );
  assert( pWal->apWiData[walFramePage(iExternal)] );
  walHashGet(pWal, walFramePage(iExternal), &sLoc);


  /* Zero all hash-table entries that correspond to frame numbers greater
  ** than pWal->hdr.mxFrame.
  */
  iLimit = iExternal - sLoc.iZero;
  assert( iLimit>0 );
  for(i=0; i<HASHTABLE_NSLOT; i++){
................................................................................
  int iWal, 
  u32 nBackfill, 
  WalIterator **pp
){
  WalIterator *p;                 /* Return value */
  int nSegment;                   /* Number of segments to merge */
  u32 iLast;                      /* Last frame in log */
  int nByte;                      /* Number of bytes to allocate */
  int i;                          /* Iterator variable */
  int iLastSeg;                   /* Last hash table to iterate though */
  ht_slot *aTmp;                  /* Temp space used by merge-sort */
  int rc = SQLITE_OK;             /* Return Code */
  int iMode = isWalMode2(pWal) ? 2 : 1;

  assert( isWalMode2(pWal) || iWal==0 );







|







 







>







 







>







 







|



|
>







 







|







832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
...
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
....
1296
1297
1298
1299
1300
1301
1302
1303
1304
1305
1306
1307
1308
1309
1310
....
1317
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
1331
1332
1333
1334
1335
1336
....
2089
2090
2091
2092
2093
2094
2095
2096
2097
2098
2099
2100
2101
2102
2103
  int iPage,               /* The page we seek */
  volatile u32 **ppPage    /* Write the page pointer here */
){
  int rc = SQLITE_OK;

  /* Enlarge the pWal->apWiData[] array if required */
  if( pWal->nWiData<=iPage ){
    sqlite3_int64 nByte = sizeof(u32*)*(iPage+1);
    volatile u32 **apNew;
    apNew = (volatile u32 **)sqlite3_realloc64((void *)pWal->apWiData, nByte);
    if( !apNew ){
      *ppPage = 0;
      return SQLITE_NOMEM_BKPT;
    }
    memset((void*)&apNew[pWal->nWiData], 0,
................................................................................
    s2 = aIn[1];
  }else{
    s1 = s2 = 0;
  }

  assert( nByte>=8 );
  assert( (nByte&0x00000007)==0 );
  assert( nByte<=65536 );

  if( nativeCksum ){
    do {
      s1 += *aData++ + s2;
      s2 += *aData++ + s1;
    }while( aData<aEnd );
  }else{
................................................................................
** actually needed.
*/
static void walCleanupHash(Wal *pWal){
  WalHashLoc sLoc;                /* Hash table location */
  int iLimit = 0;                 /* Zero values greater than this */
  int nByte;                      /* Number of bytes to zero in aPgno[] */
  int i;                          /* Used to iterate through aHash[] */
  int rc;                         /* Return code form walHashGet() */
  int iWal = walidxGetFile(&pWal->hdr);
  u32 mxFrame = walidxGetMxFrame(&pWal->hdr, iWal);

  u32 iExternal;
  if( isWalMode2(pWal) ){
    iExternal = walExternalEncode(iWal, mxFrame);
  }else{
................................................................................
  testcase( mxFrame==HASHTABLE_NPAGE_ONE );
  testcase( mxFrame==HASHTABLE_NPAGE_ONE+1 );

  if( mxFrame==0 ) return;

  /* Obtain pointers to the hash-table and page-number array containing 
  ** the entry that corresponds to frame pWal->hdr.mxFrame. It is guaranteed
  ** that the page said hash-table and array reside on is already mapped.(1)
  */
  assert( pWal->nWiData>walFramePage(iExternal) );
  assert( pWal->apWiData[walFramePage(iExternal)] );
  rc = walHashGet(pWal, walFramePage(iExternal), &sLoc);
  if( NEVER(rc) ) return; /* Defense-in-depth, in case (1) above is wrong */

  /* Zero all hash-table entries that correspond to frame numbers greater
  ** than pWal->hdr.mxFrame.
  */
  iLimit = iExternal - sLoc.iZero;
  assert( iLimit>0 );
  for(i=0; i<HASHTABLE_NSLOT; i++){
................................................................................
  int iWal, 
  u32 nBackfill, 
  WalIterator **pp
){
  WalIterator *p;                 /* Return value */
  int nSegment;                   /* Number of segments to merge */
  u32 iLast;                      /* Last frame in log */
  sqlite3_int64 nByte;            /* Number of bytes to allocate */
  int i;                          /* Iterator variable */
  int iLastSeg;                   /* Last hash table to iterate though */
  ht_slot *aTmp;                  /* Temp space used by merge-sort */
  int rc = SQLITE_OK;             /* Return Code */
  int iMode = isWalMode2(pWal) ? 2 : 1;

  assert( isWalMode2(pWal) || iWal==0 );

Changes to src/where.c.

3331
3332
3333
3334
3335
3336
3337
3338
3339
3340
3341
3342
3343
3344
3345
3346
3347
3348
3349

  /* First call xBestIndex() with all constraints usable. */
  WHERETRACE(0x800, ("BEGIN %s.addVirtual()\n", pSrc->pTab->zName));
  WHERETRACE(0x40, ("  VirtualOne: all usable\n"));
  rc = whereLoopAddVirtualOne(pBuilder, mPrereq, ALLBITS, 0, p, mNoOmit, &bIn);

  /* If the call to xBestIndex() with all terms enabled produced a plan
  ** that does not require any source tables (IOW: a plan with mBest==0),
  ** then there is no point in making any further calls to xBestIndex() 
  ** since they will all return the same result (if the xBestIndex()
  ** implementation is sane). */
  if( rc==SQLITE_OK && (mBest = (pNew->prereq & ~mPrereq))!=0 ){
    int seenZero = 0;             /* True if a plan with no prereqs seen */
    int seenZeroNoIN = 0;         /* Plan with no prereqs and no IN(...) seen */
    Bitmask mPrev = 0;
    Bitmask mBestNoIn = 0;

    /* If the plan produced by the earlier call uses an IN(...) term, call
    ** xBestIndex again, this time with IN(...) terms disabled. */







|
|
|
|
|







3331
3332
3333
3334
3335
3336
3337
3338
3339
3340
3341
3342
3343
3344
3345
3346
3347
3348
3349

  /* First call xBestIndex() with all constraints usable. */
  WHERETRACE(0x800, ("BEGIN %s.addVirtual()\n", pSrc->pTab->zName));
  WHERETRACE(0x40, ("  VirtualOne: all usable\n"));
  rc = whereLoopAddVirtualOne(pBuilder, mPrereq, ALLBITS, 0, p, mNoOmit, &bIn);

  /* If the call to xBestIndex() with all terms enabled produced a plan
  ** that does not require any source tables (IOW: a plan with mBest==0)
  ** and does not use an IN(...) operator, then there is no point in making 
  ** any further calls to xBestIndex() since they will all return the same
  ** result (if the xBestIndex() implementation is sane). */
  if( rc==SQLITE_OK && ((mBest = (pNew->prereq & ~mPrereq))!=0 || bIn) ){
    int seenZero = 0;             /* True if a plan with no prereqs seen */
    int seenZeroNoIN = 0;         /* Plan with no prereqs and no IN(...) seen */
    Bitmask mPrev = 0;
    Bitmask mBestNoIn = 0;

    /* If the plan produced by the earlier call uses an IN(...) term, call
    ** xBestIndex again, this time with IN(...) terms disabled. */

Changes to src/wherecode.c.

1963
1964
1965
1966
1967
1968
1969





1970
1971
1972
1973
1974
1975
1976
1977
....
2193
2194
2195
2196
2197
2198
2199


2200
2201
2202
2203
2204
2205
2206
2207
2208
        if( (pWC->a[iTerm].wtFlags & (TERM_VIRTUAL|TERM_CODED))!=0 ) continue;
        if( (pWC->a[iTerm].eOperator & WO_ALL)==0 ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_ORINFO );
        pExpr = sqlite3ExprDup(db, pExpr, 0);
        pAndExpr = sqlite3ExprAnd(db, pAndExpr, pExpr);
      }
      if( pAndExpr ){





        pAndExpr = sqlite3PExpr(pParse, TK_AND|TKFLG_DONTFOLD, 0, pAndExpr);
      }
    }

    /* Run a separate WHERE clause for each term of the OR clause.  After
    ** eliminating duplicates from other WHERE clauses, the action for each
    ** sub-WHERE clause is to to invoke the main loop body as a subroutine.
    */
................................................................................
        ** that compares BLOBs. */
#ifdef SQLITE_LIKE_DOESNT_MATCH_BLOBS
        continue;
#else
        u32 x = pLevel->iLikeRepCntr;
        if( x>0 ){
          skipLikeAddr = sqlite3VdbeAddOp1(v, (x&1)?OP_IfNot:OP_If,(int)(x>>1));


        }
        VdbeCoverage(v);
#endif
      }
#ifdef WHERETRACE_ENABLED /* 0xffff */
      if( sqlite3WhereTrace ){
        VdbeNoopComment((v, "WhereTerm[%d] (%p) priority=%d",
                         pWC->nTerm-j, pTerm, iLoop));
      }







>
>
>
>
>
|







 







>
>

<







1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
....
2198
2199
2200
2201
2202
2203
2204
2205
2206
2207

2208
2209
2210
2211
2212
2213
2214
        if( (pWC->a[iTerm].wtFlags & (TERM_VIRTUAL|TERM_CODED))!=0 ) continue;
        if( (pWC->a[iTerm].eOperator & WO_ALL)==0 ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_ORINFO );
        pExpr = sqlite3ExprDup(db, pExpr, 0);
        pAndExpr = sqlite3ExprAnd(db, pAndExpr, pExpr);
      }
      if( pAndExpr ){
        /* The extra 0x10000 bit on the opcode is masked off and does not
        ** become part of the new Expr.op.  However, it does make the
        ** op==TK_AND comparison inside of sqlite3PExpr() false, and this
        ** prevents sqlite3PExpr() from implementing AND short-circuit 
        ** optimization, which we do not want here. */
        pAndExpr = sqlite3PExpr(pParse, TK_AND|0x10000, 0, pAndExpr);
      }
    }

    /* Run a separate WHERE clause for each term of the OR clause.  After
    ** eliminating duplicates from other WHERE clauses, the action for each
    ** sub-WHERE clause is to to invoke the main loop body as a subroutine.
    */
................................................................................
        ** that compares BLOBs. */
#ifdef SQLITE_LIKE_DOESNT_MATCH_BLOBS
        continue;
#else
        u32 x = pLevel->iLikeRepCntr;
        if( x>0 ){
          skipLikeAddr = sqlite3VdbeAddOp1(v, (x&1)?OP_IfNot:OP_If,(int)(x>>1));
          VdbeCoverageIf(v, (x&1)==1);
          VdbeCoverageIf(v, (x&1)==0);
        }

#endif
      }
#ifdef WHERETRACE_ENABLED /* 0xffff */
      if( sqlite3WhereTrace ){
        VdbeNoopComment((v, "WhereTerm[%d] (%p) priority=%d",
                         pWC->nTerm-j, pTerm, iLoop));
      }

Changes to src/window.c.

194
195
196
197
198
199
200


























































































201
202
203
204
205
206
207
...
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245

246
247
248
249
250
251
252
253
254
255










256
257
258
259
260

261
262
263
264
265
266
267
268
269

270
271
272
273
274
275
276
277
278
279
280
281
282
283
284

285
286
287
288
289










290
291
292
293
294
295
296
297
298
299
300

301
302
303
304
305
306
307
...
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337











338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359

360
361
362
363
364
365
366
...
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
...
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513











514
515
516
517
518
519
520
...
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553



554








555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570

571
572
573






574
575
576
577

578
579







580
581
582
583
584
585
586
...
777
778
779
780
781
782
783

784
785
786
787
788
789
790
...
832
833
834
835
836
837
838



839
840
841
842
843
844
845
...
852
853
854
855
856
857
858

859
860
861
862
863
864
865
...
888
889
890
891
892
893
894
895
896
897
898
899

900
901

902
903
904
905
906
907
908
909
910
911
912

913
914
915
916
917
918
919
920
921
922
923
924
925
...
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946





947
948
949
950
951
952
953
954
955































































956
957
958
959
960
961
962
...
978
979
980
981
982
983
984
985
986
987

988
989
990
991
992
993
994
...
997
998
999
1000
1001
1002
1003




1004
1005
1006
1007
1008
1009













1010
1011
1012
1013
1014
1015
1016
....
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
1046
1047
1048
1049
1050






1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063


1064
1065
1066
1067
1068

1069










1070


1071
1072
1073

1074
1075
1076
1077


1078
1079
1080
1081
1082
1083
1084
....
1110
1111
1112
1113
1114
1115
1116
1117
1118
1119
1120
1121
1122
1123
1124
1125
1126
1127
1128

1129

1130
1131
1132
1133
1134
1135
1136
1137

1138
1139
1140
1141
1142
1143
1144
1145

1146
1147
1148
1149
1150
1151
1152
1153
1154
....
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
1187
1188
1189
1190
1191
1192
1193
1194
1195
1196
1197
1198
1199
1200
1201
1202
1203
1204
1205





















1206





























1207
1208
1209
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2253
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      p->nValue++;
      p->nStep = 0;
    }
    sqlite3_result_int64(pCtx, p->nValue);
  }
}



























































































/*
** Implementation of built-in window function rank(). Assumes that
** the window frame has been set to:
**
**   RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW 
*/
static void rankStepFunc(
................................................................................
  }
}

/*
** Implementation of built-in window function percent_rank(). Assumes that
** the window frame has been set to:
**
**   RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW 
*/
static void percent_rankStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  UNUSED_PARAMETER(nArg); assert( nArg==1 );


  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    if( p->nTotal==0 ){
      p->nTotal = sqlite3_value_int64(apArg[0]);
    }
    p->nStep++;
    if( p->nValue==0 ){
      p->nValue = p->nStep;
    }
  }










}
static void percent_rankValueFunc(sqlite3_context *pCtx){
  struct CallCount *p;
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){

    if( p->nTotal>1 ){
      double r = (double)(p->nValue-1) / (double)(p->nTotal-1);
      sqlite3_result_double(pCtx, r);
    }else{
      sqlite3_result_double(pCtx, 0.0);
    }
    p->nValue = 0;
  }
}


/*
** Implementation of built-in window function cume_dist(). Assumes that
** the window frame has been set to:
**
**   RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW 
*/
static void cume_distStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  assert( nArg==1 ); UNUSED_PARAMETER(nArg);


  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    if( p->nTotal==0 ){
      p->nTotal = sqlite3_value_int64(apArg[0]);
    }










    p->nStep++;
  }
}
static void cume_distValueFunc(sqlite3_context *pCtx){
  struct CallCount *p;
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->nTotal ){
    double r = (double)(p->nStep) / (double)(p->nTotal);
    sqlite3_result_double(pCtx, r);
  }
}


/*
** Context object for ntile() window function.
*/
struct NtileCtx {
  i64 nTotal;                     /* Total rows in partition */
  i64 nParam;                     /* Parameter passed to ntile(N) */
................................................................................
  i64 iRow;                       /* Current row */
};

/*
** Implementation of ntile(). This assumes that the window frame has
** been coerced to:
**
**   ROWS UNBOUNDED PRECEDING AND CURRENT ROW
*/
static void ntileStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct NtileCtx *p;
  assert( nArg==2 ); UNUSED_PARAMETER(nArg);
  p = (struct NtileCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    if( p->nTotal==0 ){
      p->nParam = sqlite3_value_int64(apArg[0]);
      p->nTotal = sqlite3_value_int64(apArg[1]);
      if( p->nParam<=0 ){
        sqlite3_result_error(
            pCtx, "argument of ntile must be a positive integer", -1
        );
      }
    }
    p->iRow++;
  }
}











static void ntileValueFunc(sqlite3_context *pCtx){
  struct NtileCtx *p;
  p = (struct NtileCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->nParam>0 ){
    int nSize = (p->nTotal / p->nParam);
    if( nSize==0 ){
      sqlite3_result_int64(pCtx, p->iRow);
    }else{
      i64 nLarge = p->nTotal - p->nParam*nSize;
      i64 iSmall = nLarge*(nSize+1);
      i64 iRow = p->iRow-1;

      assert( (nLarge*(nSize+1) + (p->nParam-nLarge)*nSize)==p->nTotal );

      if( iRow<iSmall ){
        sqlite3_result_int64(pCtx, 1 + iRow/(nSize+1));
      }else{
        sqlite3_result_int64(pCtx, 1 + nLarge + (iRow-iSmall)/nSize);
      }
    }
  }
}


/*
** Context object for last_value() window function.
*/
struct LastValueCtx {
  sqlite3_value *pVal;
  int nVal;
................................................................................
      sqlite3_value_free(p->pVal);
      p->pVal = 0;
    }
  }
}
static void last_valueValueFunc(sqlite3_context *pCtx){
  struct LastValueCtx *p;
  p = (struct LastValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->pVal ){
    sqlite3_result_value(pCtx, p->pVal);
  }
}
static void last_valueFinalizeFunc(sqlite3_context *pCtx){
  struct LastValueCtx *p;
  p = (struct LastValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
................................................................................
** Register those built-in window functions that are not also aggregates.
*/
void sqlite3WindowFunctions(void){
  static FuncDef aWindowFuncs[] = {
    WINDOWFUNCX(row_number, 0, 0),
    WINDOWFUNCX(dense_rank, 0, 0),
    WINDOWFUNCX(rank, 0, 0),
    WINDOWFUNCX(percent_rank, 0, SQLITE_FUNC_WINDOW_SIZE),
    WINDOWFUNCX(cume_dist, 0, SQLITE_FUNC_WINDOW_SIZE),
    WINDOWFUNCX(ntile, 1, SQLITE_FUNC_WINDOW_SIZE),
    WINDOWFUNCALL(last_value, 1, 0),
    WINDOWFUNCNOOP(nth_value, 2, 0),
    WINDOWFUNCNOOP(first_value, 1, 0),
    WINDOWFUNCNOOP(lead, 1, 0),
    WINDOWFUNCNOOP(lead, 2, 0),
    WINDOWFUNCNOOP(lead, 3, 0),
    WINDOWFUNCNOOP(lag, 1, 0),
    WINDOWFUNCNOOP(lag, 2, 0),
    WINDOWFUNCNOOP(lag, 3, 0),
  };
  sqlite3InsertBuiltinFuncs(aWindowFuncs, ArraySize(aWindowFuncs));
}












/*
** This function is called immediately after resolving the function name
** for a window function within a SELECT statement. Argument pList is a
** linked list of WINDOW definitions for the current SELECT statement.
** Argument pFunc is the function definition just resolved and pWin
** is the Window object representing the associated OVER clause. This
................................................................................
*/
void sqlite3WindowUpdate(
  Parse *pParse, 
  Window *pList,                  /* List of named windows for this SELECT */
  Window *pWin,                   /* Window frame to update */
  FuncDef *pFunc                  /* Window function definition */
){
  if( pWin->zName && pWin->eType==0 ){
    Window *p;
    for(p=pList; p; p=p->pNextWin){
      if( sqlite3StrICmp(p->zName, pWin->zName)==0 ) break;
    }
    if( p==0 ){
      sqlite3ErrorMsg(pParse, "no such window: %s", pWin->zName);
      return;
    }
    pWin->pPartition = sqlite3ExprListDup(pParse->db, p->pPartition, 0);
    pWin->pOrderBy = sqlite3ExprListDup(pParse->db, p->pOrderBy, 0);
    pWin->pStart = sqlite3ExprDup(pParse->db, p->pStart, 0);
    pWin->pEnd = sqlite3ExprDup(pParse->db, p->pEnd, 0);
    pWin->eStart = p->eStart;
    pWin->eEnd = p->eEnd;
    pWin->eType = p->eType;



  }








  if( pFunc->funcFlags & SQLITE_FUNC_WINDOW ){
    sqlite3 *db = pParse->db;
    if( pWin->pFilter ){
      sqlite3ErrorMsg(pParse, 
          "FILTER clause may only be used with aggregate window functions"
      );
    }else
    if( pFunc->zName==row_numberName || pFunc->zName==ntileName ){
      sqlite3ExprDelete(db, pWin->pStart);
      sqlite3ExprDelete(db, pWin->pEnd);
      pWin->pStart = pWin->pEnd = 0;
      pWin->eType = TK_ROWS;
      pWin->eStart = TK_UNBOUNDED;
      pWin->eEnd = TK_CURRENT;
    }else


    if( pFunc->zName==dense_rankName || pFunc->zName==rankName
     || pFunc->zName==percent_rankName || pFunc->zName==cume_distName
    ){






      sqlite3ExprDelete(db, pWin->pStart);
      sqlite3ExprDelete(db, pWin->pEnd);
      pWin->pStart = pWin->pEnd = 0;
      pWin->eType = TK_RANGE;

      pWin->eStart = TK_UNBOUNDED;
      pWin->eEnd = TK_CURRENT;







    }
  }
  pWin->pFunc = pFunc;
}

/*
** Context object passed through sqlite3WalkExprList() to
................................................................................
      }
    }

    /* Assign a cursor number for the ephemeral table used to buffer rows.
    ** The OpenEphemeral instruction is coded later, after it is known how
    ** many columns the table will have.  */
    pMWin->iEphCsr = pParse->nTab++;


    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pEList, &pSublist);
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pOrderBy, &pSublist);
    pMWin->nBufferCol = (pSublist ? pSublist->nExpr : 0);

    /* Append the PARTITION BY and ORDER BY expressions to the to the 
    ** sub-select expression list. They are required to figure out where 
................................................................................
      }else{
        pSub->selFlags |= SF_Expanded;
        p->selFlags &= ~SF_Aggregate;
        sqlite3SelectPrep(pParse, pSub, 0);
      }

      sqlite3VdbeAddOp2(v, OP_OpenEphemeral, pMWin->iEphCsr, pSublist->nExpr);



    }else{
      sqlite3SelectDelete(db, pSub);
    }
    if( db->mallocFailed ) rc = SQLITE_NOMEM;
  }

  return rc;
................................................................................
  if( p ){
    sqlite3ExprDelete(db, p->pFilter);
    sqlite3ExprListDelete(db, p->pPartition);
    sqlite3ExprListDelete(db, p->pOrderBy);
    sqlite3ExprDelete(db, p->pEnd);
    sqlite3ExprDelete(db, p->pStart);
    sqlite3DbFree(db, p->zName);

    sqlite3DbFree(db, p);
  }
}

/*
** Free the linked list of Window objects starting at the second argument.
*/
................................................................................
}

/*
** Allocate and return a new Window object describing a Window Definition.
*/
Window *sqlite3WindowAlloc(
  Parse *pParse,    /* Parsing context */
  int eType,        /* Frame type. TK_RANGE or TK_ROWS */
  int eStart,       /* Start type: CURRENT, PRECEDING, FOLLOWING, UNBOUNDED */
  Expr *pStart,     /* Start window size if TK_PRECEDING or FOLLOWING */
  int eEnd,         /* End type: CURRENT, FOLLOWING, TK_UNBOUNDED, PRECEDING */
  Expr *pEnd        /* End window size if TK_FOLLOWING or PRECEDING */

){
  Window *pWin = 0;


  /* Parser assures the following: */
  assert( eType==TK_RANGE || eType==TK_ROWS );
  assert( eStart==TK_CURRENT || eStart==TK_PRECEDING
           || eStart==TK_UNBOUNDED || eStart==TK_FOLLOWING );
  assert( eEnd==TK_CURRENT || eEnd==TK_FOLLOWING
           || eEnd==TK_UNBOUNDED || eEnd==TK_PRECEDING );
  assert( (eStart==TK_PRECEDING || eStart==TK_FOLLOWING)==(pStart!=0) );
  assert( (eEnd==TK_FOLLOWING || eEnd==TK_PRECEDING)==(pEnd!=0) );



  /* If a frame is declared "RANGE" (not "ROWS"), then it may not use
  ** either "<expr> PRECEDING" or "<expr> FOLLOWING".
  */
  if( eType==TK_RANGE && (pStart!=0 || pEnd!=0) ){
    sqlite3ErrorMsg(pParse, "RANGE must use only UNBOUNDED or CURRENT ROW");
    goto windowAllocErr;
  }

  /* Additionally, the
  ** starting boundary type may not occur earlier in the following list than
  ** the ending boundary type:
  **
  **   UNBOUNDED PRECEDING
................................................................................
  ** The parser ensures that "UNBOUNDED PRECEDING" cannot be used as an ending
  ** boundary, and than "UNBOUNDED FOLLOWING" cannot be used as a starting
  ** frame boundary.
  */
  if( (eStart==TK_CURRENT && eEnd==TK_PRECEDING)
   || (eStart==TK_FOLLOWING && (eEnd==TK_PRECEDING || eEnd==TK_CURRENT))
  ){
    sqlite3ErrorMsg(pParse, "unsupported frame delimiter for ROWS");
    goto windowAllocErr;
  }

  pWin = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window));
  if( pWin==0 ) goto windowAllocErr;
  pWin->eType = eType;
  pWin->eStart = eStart;
  pWin->eEnd = eEnd;





  pWin->pEnd = sqlite3WindowOffsetExpr(pParse, pEnd);
  pWin->pStart = sqlite3WindowOffsetExpr(pParse, pStart);
  return pWin;

windowAllocErr:
  sqlite3ExprDelete(pParse->db, pEnd);
  sqlite3ExprDelete(pParse->db, pStart);
  return 0;
}
































































/*
** Attach window object pWin to expression p.
*/
void sqlite3WindowAttach(Parse *pParse, Expr *p, Window *pWin){
  if( p ){
    assert( p->op==TK_FUNCTION );
................................................................................
}

/*
** Return 0 if the two window objects are identical, or non-zero otherwise.
** Identical window objects can be processed in a single scan.
*/
int sqlite3WindowCompare(Parse *pParse, Window *p1, Window *p2){
  if( p1->eType!=p2->eType ) return 1;
  if( p1->eStart!=p2->eStart ) return 1;
  if( p1->eEnd!=p2->eEnd ) return 1;

  if( sqlite3ExprCompare(pParse, p1->pStart, p2->pStart, -1) ) return 1;
  if( sqlite3ExprCompare(pParse, p1->pEnd, p2->pEnd, -1) ) return 1;
  if( sqlite3ExprListCompare(p1->pPartition, p2->pPartition, -1) ) return 1;
  if( sqlite3ExprListCompare(p1->pOrderBy, p2->pOrderBy, -1) ) return 1;
  return 0;
}

................................................................................
** This is called by code in select.c before it calls sqlite3WhereBegin()
** to begin iterating through the sub-query results. It is used to allocate
** and initialize registers and cursors used by sqlite3WindowCodeStep().
*/
void sqlite3WindowCodeInit(Parse *pParse, Window *pMWin){
  Window *pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);




  int nPart = (pMWin->pPartition ? pMWin->pPartition->nExpr : 0);
  nPart += (pMWin->pOrderBy ? pMWin->pOrderBy->nExpr : 0);
  if( nPart ){
    pMWin->regPart = pParse->nMem+1;
    pParse->nMem += nPart;
    sqlite3VdbeAddOp3(v, OP_Null, 0, pMWin->regPart, pMWin->regPart+nPart-1);













  }

  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *p = pWin->pFunc;
    if( (p->funcFlags & SQLITE_FUNC_MINMAX) && pWin->eStart!=TK_UNBOUNDED ){
      /* The inline versions of min() and max() require a single ephemeral
      ** table and 3 registers. The registers are used as follows:
................................................................................
      sqlite3VdbeAddOp2(v, OP_OpenEphemeral, pWin->csrApp, 2);
      sqlite3VdbeAppendP4(v, pKeyInfo, P4_KEYINFO);
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
    }
    else if( p->zName==nth_valueName || p->zName==first_valueName ){
      /* Allocate two registers at pWin->regApp. These will be used to
      ** store the start and end index of the current frame.  */
      assert( pMWin->iEphCsr );
      pWin->regApp = pParse->nMem+1;
      pWin->csrApp = pParse->nTab++;
      pParse->nMem += 2;
      sqlite3VdbeAddOp2(v, OP_OpenDup, pWin->csrApp, pMWin->iEphCsr);
    }
    else if( p->zName==leadName || p->zName==lagName ){
      assert( pMWin->iEphCsr );
      pWin->csrApp = pParse->nTab++;
      sqlite3VdbeAddOp2(v, OP_OpenDup, pWin->csrApp, pMWin->iEphCsr);
    }
  }
}







/*
** A "PRECEDING <expr>" (eCond==0) or "FOLLOWING <expr>" (eCond==1) or the
** value of the second argument to nth_value() (eCond==2) has just been
** evaluated and the result left in register reg. This function generates VM
** code to check that the value is a non-negative integer and throws an
** exception if it is not.
*/
static void windowCheckIntValue(Parse *pParse, int reg, int eCond){
  static const char *azErr[] = {
    "frame starting offset must be a non-negative integer",
    "frame ending offset must be a non-negative integer",
    "second argument to nth_value must be a positive integer"


  };
  static int aOp[] = { OP_Ge, OP_Ge, OP_Gt };
  Vdbe *v = sqlite3GetVdbe(pParse);
  int regZero = sqlite3GetTempReg(pParse);
  assert( eCond==0 || eCond==1 || eCond==2 );

  sqlite3VdbeAddOp2(v, OP_Integer, 0, regZero);










  sqlite3VdbeAddOp2(v, OP_MustBeInt, reg, sqlite3VdbeCurrentAddr(v)+2);


  VdbeCoverageIf(v, eCond==0);
  VdbeCoverageIf(v, eCond==1);
  VdbeCoverageIf(v, eCond==2);

  sqlite3VdbeAddOp3(v, aOp[eCond], regZero, sqlite3VdbeCurrentAddr(v)+2, reg);
  VdbeCoverageNeverNullIf(v, eCond==0);
  VdbeCoverageNeverNullIf(v, eCond==1);
  VdbeCoverageNeverNullIf(v, eCond==2);


  sqlite3MayAbort(pParse);
  sqlite3VdbeAddOp2(v, OP_Halt, SQLITE_ERROR, OE_Abort);
  sqlite3VdbeAppendP4(v, (void*)azErr[eCond], P4_STATIC);
  sqlite3ReleaseTempReg(pParse, regZero);
}

/*
................................................................................
** number of rows in the current partition.
*/
static void windowAggStep(
  Parse *pParse, 
  Window *pMWin,                  /* Linked list of window functions */
  int csr,                        /* Read arguments from this cursor */
  int bInverse,                   /* True to invoke xInverse instead of xStep */
  int reg,                        /* Array of registers */
  int regPartSize                 /* Register containing size of partition */
){
  Vdbe *v = sqlite3GetVdbe(pParse);
  Window *pWin;
  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    int flags = pWin->pFunc->funcFlags;
    int regArg;
    int nArg = windowArgCount(pWin);

    if( csr>=0 ){
      int i;

      for(i=0; i<nArg; i++){

        sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol+i, reg+i);
      }
      regArg = reg;
      if( flags & SQLITE_FUNC_WINDOW_SIZE ){
        if( nArg==0 ){
          regArg = regPartSize;
        }else{
          sqlite3VdbeAddOp2(v, OP_SCopy, regPartSize, reg+nArg);

        }
        nArg++;
      }
    }else{
      assert( !(flags & SQLITE_FUNC_WINDOW_SIZE) );
      regArg = reg + pWin->iArgCol;
    }


    if( (pWin->pFunc->funcFlags & SQLITE_FUNC_MINMAX) 
      && pWin->eStart!=TK_UNBOUNDED 
    ){
      int addrIsNull = sqlite3VdbeAddOp1(v, OP_IsNull, regArg);
      VdbeCoverage(v);
      if( bInverse==0 ){
        sqlite3VdbeAddOp2(v, OP_AddImm, pWin->regApp+1, 1);
        sqlite3VdbeAddOp2(v, OP_SCopy, regArg, pWin->regApp);
        sqlite3VdbeAddOp3(v, OP_MakeRecord, pWin->regApp, 2, pWin->regApp+2);
................................................................................
        sqlite3VdbeAddOp4Int(v, OP_SeekGE, pWin->csrApp, 0, regArg, 1);
        VdbeCoverageNeverTaken(v);
        sqlite3VdbeAddOp1(v, OP_Delete, pWin->csrApp);
        sqlite3VdbeJumpHere(v, sqlite3VdbeCurrentAddr(v)-2);
      }
      sqlite3VdbeJumpHere(v, addrIsNull);
    }else if( pWin->regApp ){
      assert( pWin->pFunc->zName==nth_valueName
           || pWin->pFunc->zName==first_valueName
      );
      assert( bInverse==0 || bInverse==1 );
      sqlite3VdbeAddOp2(v, OP_AddImm, pWin->regApp+1-bInverse, 1);
    }else if( pWin->pFunc->zName==leadName
           || pWin->pFunc->zName==lagName
    ){
      /* no-op */
    }else{
      int addrIf = 0;
      if( pWin->pFilter ){
        int regTmp;
        assert( nArg==0 || nArg==pWin->pOwner->x.pList->nExpr );
        assert( nArg || pWin->pOwner->x.pList==0 );
        if( csr>0 ){
          regTmp = sqlite3GetTempReg(pParse);
          sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol+nArg,regTmp);
        }else{
          regTmp = regArg + nArg;
        }
        addrIf = sqlite3VdbeAddOp3(v, OP_IfNot, regTmp, 0, 1);
        VdbeCoverage(v);
        if( csr>0 ){
          sqlite3ReleaseTempReg(pParse, regTmp);
        }
      }
      if( pWin->pFunc->funcFlags & SQLITE_FUNC_NEEDCOLL ){
        CollSeq *pColl;
        assert( nArg>0 );
        pColl = sqlite3ExprNNCollSeq(pParse, pWin->pOwner->x.pList->a[0].pExpr);
        sqlite3VdbeAddOp4(v, OP_CollSeq, 0,0,0, (const char*)pColl, P4_COLLSEQ);
      }
      sqlite3VdbeAddOp3(v, bInverse? OP_AggInverse : OP_AggStep, 
                        bInverse, regArg, pWin->regAccum);
      sqlite3VdbeAppendP4(v, pWin->pFunc, P4_FUNCDEF);
      sqlite3VdbeChangeP5(v, (u8)nArg);
      if( addrIf ) sqlite3VdbeJumpHere(v, addrIf);
    }
  }
}






















/*





























** Generate VM code to invoke either xValue() (bFinal==0) or xFinalize()
** (bFinal==1) for each window function in the linked list starting at
** pMWin. Or, for built-in window-functions that do not use the standard
** API, generate the equivalent VM code.
*/
static void windowAggFinal(Parse *pParse, Window *pMWin, int bFinal){


  Vdbe *v = sqlite3GetVdbe(pParse);
  Window *pWin;

  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){

    if( (pWin->pFunc->funcFlags & SQLITE_FUNC_MINMAX) 
     && pWin->eStart!=TK_UNBOUNDED 
    ){
      sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);
      sqlite3VdbeAddOp1(v, OP_Last, pWin->csrApp);
      VdbeCoverage(v);
      sqlite3VdbeAddOp3(v, OP_Column, pWin->csrApp, 0, pWin->regResult);
      sqlite3VdbeJumpHere(v, sqlite3VdbeCurrentAddr(v)-2);
      if( bFinal ){
        sqlite3VdbeAddOp1(v, OP_ResetSorter, pWin->csrApp);
      }
    }else if( pWin->regApp ){

    }else{

      if( bFinal ){
        sqlite3VdbeAddOp2(v, OP_AggFinal, pWin->regAccum, windowArgCount(pWin));
        sqlite3VdbeAppendP4(v, pWin->pFunc, P4_FUNCDEF);
        sqlite3VdbeAddOp2(v, OP_Copy, pWin->regAccum, pWin->regResult);
        sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);
      }else{
        sqlite3VdbeAddOp3(v, OP_AggValue, pWin->regAccum, windowArgCount(pWin),
                             pWin->regResult);
        sqlite3VdbeAppendP4(v, pWin->pFunc, P4_FUNCDEF);
      }
    }
  }
}

/*
** This function generates VM code to invoke the sub-routine at address
** lblFlushPart once for each partition with the entire partition cached in
** the Window.iEphCsr temp table.
*/
static void windowPartitionCache(
  Parse *pParse,
  Select *p,                      /* The rewritten SELECT statement */
  WhereInfo *pWInfo,              /* WhereInfo to call WhereEnd() on */
  int regFlushPart,               /* Register to use with Gosub lblFlushPart */
  int lblFlushPart,               /* Subroutine to Gosub to */
  int *pRegSize                   /* OUT: Register containing partition size */
){
  Window *pMWin = p->pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int iSubCsr = p->pSrc->a[0].iCursor;
  int nSub = p->pSrc->a[0].pTab->nCol;
  int k;

  int reg = pParse->nMem+1;
  int regRecord = reg+nSub;
  int regRowid = regRecord+1;

  *pRegSize = regRowid;
  pParse->nMem += nSub + 2;

  /* Load the column values for the row returned by the sub-select
  ** into an array of registers starting at reg. */
  for(k=0; k<nSub; k++){
    sqlite3VdbeAddOp3(v, OP_Column, iSubCsr, k, reg+k);
  }
  sqlite3VdbeAddOp3(v, OP_MakeRecord, reg, nSub, regRecord);

  /* Check if this is the start of a new partition. If so, call the
  ** flush_partition sub-routine.  */
  if( pMWin->pPartition ){
    int addr;
    ExprList *pPart = pMWin->pPartition;
    int nPart = pPart->nExpr;
    int regNewPart = reg + pMWin->nBufferCol;
    KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pPart, 0, 0);

    addr = sqlite3VdbeAddOp3(v, OP_Compare, regNewPart, pMWin->regPart,nPart);
    sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
    sqlite3VdbeAddOp3(v, OP_Jump, addr+2, addr+4, addr+2);
    VdbeCoverageEqNe(v);
    sqlite3VdbeAddOp3(v, OP_Copy, regNewPart, pMWin->regPart, nPart-1);
    sqlite3VdbeAddOp2(v, OP_Gosub, regFlushPart, lblFlushPart);
    VdbeComment((v, "call flush_partition"));
  }

  /* Buffer the current row in the ephemeral table. */
  sqlite3VdbeAddOp2(v, OP_NewRowid, pMWin->iEphCsr, regRowid);
  sqlite3VdbeAddOp3(v, OP_Insert, pMWin->iEphCsr, regRecord, regRowid);

  /* End of the input loop */
  sqlite3WhereEnd(pWInfo);

  /* Invoke "flush_partition" to deal with the final (or only) partition */
  sqlite3VdbeAddOp2(v, OP_Gosub, regFlushPart, lblFlushPart);
  VdbeComment((v, "call flush_partition"));































}

/*
** Invoke the sub-routine at regGosub (generated by code in select.c) to
** return the current row of Window.iEphCsr. If all window functions are
** aggregate window functions that use the standard API, a single
** OP_Gosub instruction is all that this routine generates. Extra VM code
................................................................................
** functions:
**
**   nth_value()
**   first_value()
**   lag()
**   lead()
*/
static void windowReturnOneRow(
  Parse *pParse,
  Window *pMWin,
  int regGosub,
  int addrGosub
){
  Vdbe *v = sqlite3GetVdbe(pParse);
  Window *pWin;


  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *pFunc = pWin->pFunc;
    if( pFunc->zName==nth_valueName
     || pFunc->zName==first_valueName
    ){
      int csr = pWin->csrApp;
      int lbl = sqlite3VdbeMakeLabel(pParse);
      int tmpReg = sqlite3GetTempReg(pParse);
      sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);

      if( pFunc->zName==nth_valueName ){
        sqlite3VdbeAddOp3(v, OP_Column, pMWin->iEphCsr, pWin->iArgCol+1,tmpReg);
        windowCheckIntValue(pParse, tmpReg, 2);
      }else{
        sqlite3VdbeAddOp2(v, OP_Integer, 1, tmpReg);
      }
      sqlite3VdbeAddOp3(v, OP_Add, tmpReg, pWin->regApp, tmpReg);
      sqlite3VdbeAddOp3(v, OP_Gt, pWin->regApp+1, lbl, tmpReg);
      VdbeCoverageNeverNull(v);
      sqlite3VdbeAddOp3(v, OP_SeekRowid, csr, 0, tmpReg);
................................................................................
      VdbeCoverageNeverTaken(v);
      sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol, pWin->regResult);
      sqlite3VdbeResolveLabel(v, lbl);
      sqlite3ReleaseTempReg(pParse, tmpReg);
    }
    else if( pFunc->zName==leadName || pFunc->zName==lagName ){
      int nArg = pWin->pOwner->x.pList->nExpr;
      int iEph = pMWin->iEphCsr;
      int csr = pWin->csrApp;
      int lbl = sqlite3VdbeMakeLabel(pParse);
      int tmpReg = sqlite3GetTempReg(pParse);


      if( nArg<3 ){
        sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);
      }else{
        sqlite3VdbeAddOp3(v, OP_Column, iEph, pWin->iArgCol+2, pWin->regResult);
      }
      sqlite3VdbeAddOp2(v, OP_Rowid, iEph, tmpReg);
................................................................................
      sqlite3VdbeAddOp3(v, OP_SeekRowid, csr, lbl, tmpReg);
      VdbeCoverage(v);
      sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol, pWin->regResult);
      sqlite3VdbeResolveLabel(v, lbl);
      sqlite3ReleaseTempReg(pParse, tmpReg);
    }
  }
  sqlite3VdbeAddOp2(v, OP_Gosub, regGosub, addrGosub);
}

/*
** Invoke the code generated by windowReturnOneRow() and, optionally, the
** xInverse() function for each window function, for one or more rows
** from the Window.iEphCsr temp table. This routine generates VM code
** similar to:
**
**   while( regCtr>0 ){
**     regCtr--;
**     windowReturnOneRow()
**     if( bInverse ){
**       AggInverse
**     }
**     Next (Window.iEphCsr)
**   }
*/
static void windowReturnRows(
  Parse *pParse,
  Window *pMWin,                  /* List of window functions */
  int regCtr,                     /* Register containing number of rows */
  int regGosub,                   /* Register for Gosub addrGosub */
  int addrGosub,                  /* Address of sub-routine for ReturnOneRow */
  int regInvArg,                  /* Array of registers for xInverse args */
  int regInvSize                  /* Register containing size of partition */
){
  int addr;
  Vdbe *v = sqlite3GetVdbe(pParse);
  windowAggFinal(pParse, pMWin, 0);
  addr = sqlite3VdbeAddOp3(v, OP_IfPos, regCtr, sqlite3VdbeCurrentAddr(v)+2 ,1);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_Goto, 0, 0);
  windowReturnOneRow(pParse, pMWin, regGosub, addrGosub);
  if( regInvArg ){
    windowAggStep(pParse, pMWin, pMWin->iEphCsr, 1, regInvArg, regInvSize);
  }
  sqlite3VdbeAddOp2(v, OP_Next, pMWin->iEphCsr, addr);
  VdbeCoverage(v);
  sqlite3VdbeJumpHere(v, addr+1);   /* The OP_Goto */
}

/*
** Generate code to set the accumulator register for each window function
** in the linked list passed as the second argument to NULL. And perform
** any equivalent initialization required by any built-in window functions
** in the list.
................................................................................
  int regArg;
  int nArg = 0;
  Window *pWin;
  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *pFunc = pWin->pFunc;
    sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);
    nArg = MAX(nArg, windowArgCount(pWin));
    if( pFunc->zName==nth_valueName
     || pFunc->zName==first_valueName
    ){
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp);
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
    }

    if( (pFunc->funcFlags & SQLITE_FUNC_MINMAX) && pWin->csrApp ){
      assert( pWin->eStart!=TK_UNBOUNDED );
      sqlite3VdbeAddOp1(v, OP_ResetSorter, pWin->csrApp);
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
    }
  }
  regArg = pParse->nMem+1;
  pParse->nMem += nArg;
  return regArg;
}


/*
** This function does the work of sqlite3WindowCodeStep() for all "ROWS"
** window frame types except for "BETWEEN UNBOUNDED PRECEDING AND CURRENT
** ROW". Pseudo-code for each follows.
**
** ROWS BETWEEN <expr1> PRECEDING AND <expr2> FOLLOWING
**
**     ...
**       if( new partition ){
**         Gosub flush_partition
**       }
**       Insert (record in eph-table)
**     sqlite3WhereEnd()
**     Gosub flush_partition
**  
**   flush_partition:
**     Once {
**       OpenDup (iEphCsr -> csrStart)
**       OpenDup (iEphCsr -> csrEnd)
**     }
**     regStart = <expr1>                // PRECEDING expression
**     regEnd = <expr2>                  // FOLLOWING expression
**     if( regStart<0 || regEnd<0 ){ error! }
**     Rewind (csr,csrStart,csrEnd)      // if EOF goto flush_partition_done
**       Next(csrEnd)                    // if EOF skip Aggstep
**       Aggstep (csrEnd)
**       if( (regEnd--)<=0 ){
**         AggFinal (xValue)
**         Gosub addrGosub
**         Next(csr)                // if EOF goto flush_partition_done
**         if( (regStart--)<=0 ){
**           AggInverse (csrStart)
**           Next(csrStart)
**         }
**       }
**   flush_partition_done:
**     ResetSorter (csr)
**     Return
**
** ROWS BETWEEN <expr> PRECEDING    AND CURRENT ROW
** ROWS BETWEEN CURRENT ROW         AND <expr> FOLLOWING
** ROWS BETWEEN UNBOUNDED PRECEDING AND <expr> FOLLOWING
**
**   These are similar to the above. For "CURRENT ROW", intialize the
**   register to 0. For "UNBOUNDED PRECEDING" to infinity.
**
** ROWS BETWEEN <expr> PRECEDING    AND UNBOUNDED FOLLOWING
** ROWS BETWEEN CURRENT ROW         AND UNBOUNDED FOLLOWING
**
**     Rewind (csr,csrStart,csrEnd)    // if EOF goto flush_partition_done
**     while( 1 ){
**       Next(csrEnd)                  // Exit while(1) at EOF
**       Aggstep (csrEnd)
**     }
**     while( 1 ){
**       AggFinal (xValue)
**       Gosub addrGosub
**       Next(csr)                     // if EOF goto flush_partition_done
**       if( (regStart--)<=0 ){
**         AggInverse (csrStart)
**         Next(csrStart)
**       }
**     }
**
**   For the "CURRENT ROW AND UNBOUNDED FOLLOWING" case, the final if() 
**   condition is always true (as if regStart were initialized to 0).
**
** RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
** 
**   This is the only RANGE case handled by this routine. It modifies the
**   second while( 1 ) loop in "ROWS BETWEEN CURRENT ... UNBOUNDED..." to
**   be:
**
**     while( 1 ){
**       AggFinal (xValue)
**       while( 1 ){
**         regPeer++
**         Gosub addrGosub
**         Next(csr)                     // if EOF goto flush_partition_done
**         if( new peer ) break;
**       }
**       while( (regPeer--)>0 ){
**         AggInverse (csrStart)
**         Next(csrStart)
**       }
**     }
**
** ROWS BETWEEN <expr> FOLLOWING    AND <expr> FOLLOWING
**
**   regEnd = regEnd - regStart
**   Rewind (csr,csrStart,csrEnd)   // if EOF goto flush_partition_done
**     Aggstep (csrEnd)
**     Next(csrEnd)                 // if EOF fall-through
**     if( (regEnd--)<=0 ){
**       if( (regStart--)<=0 ){
**         AggFinal (xValue)
**         Gosub addrGosub
**         Next(csr)              // if EOF goto flush_partition_done
**       }
**       AggInverse (csrStart)
**       Next (csrStart)
**     }
**
** ROWS BETWEEN <expr> PRECEDING    AND <expr> PRECEDING
**
**   Replace the bit after "Rewind" in the above with:
**
**     if( (regEnd--)<=0 ){
**       AggStep (csrEnd)
**       Next (csrEnd)
**     }
**     AggFinal (xValue)
**     Gosub addrGosub
**     Next(csr)                  // if EOF goto flush_partition_done
**     if( (regStart--)<=0 ){
**       AggInverse (csr2)
**       Next (csr2)
**     }
**
*/
static void windowCodeRowExprStep(
  Parse *pParse, 
  Select *p,
  WhereInfo *pWInfo,
  int regGosub, 
  int addrGosub
){
  Window *pMWin = p->pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int regFlushPart;               /* Register for "Gosub flush_partition" */
  int lblFlushPart;               /* Label for "Gosub flush_partition" */
  int lblFlushDone;               /* Label for "Gosub flush_partition_done" */

  int regArg;
  int addr;
  int csrStart = pParse->nTab++;
  int csrEnd = pParse->nTab++;
  int regStart;                    /* Value of <expr> PRECEDING */
  int regEnd;                      /* Value of <expr> FOLLOWING */
  int addrGoto;
  int addrTop;
  int addrIfPos1 = 0;
  int addrIfPos2 = 0;
  int regSize = 0;

  assert( pMWin->eStart==TK_PRECEDING 
       || pMWin->eStart==TK_CURRENT 
       || pMWin->eStart==TK_FOLLOWING 
       || pMWin->eStart==TK_UNBOUNDED 
  );
  assert( pMWin->eEnd==TK_FOLLOWING 
       || pMWin->eEnd==TK_CURRENT 
       || pMWin->eEnd==TK_UNBOUNDED 
       || pMWin->eEnd==TK_PRECEDING 
  );

  /* Allocate register and label for the "flush_partition" sub-routine. */
  regFlushPart = ++pParse->nMem;
  lblFlushPart = sqlite3VdbeMakeLabel(pParse);
  lblFlushDone = sqlite3VdbeMakeLabel(pParse);

  regStart = ++pParse->nMem;
  regEnd = ++pParse->nMem;

  windowPartitionCache(pParse, p, pWInfo, regFlushPart, lblFlushPart, &regSize);

  addrGoto = sqlite3VdbeAddOp0(v, OP_Goto);

  /* Start of "flush_partition" */
  sqlite3VdbeResolveLabel(v, lblFlushPart);
  sqlite3VdbeAddOp2(v, OP_Once, 0, sqlite3VdbeCurrentAddr(v)+3);
  VdbeCoverage(v);
  VdbeComment((v, "Flush_partition subroutine"));
  sqlite3VdbeAddOp2(v, OP_OpenDup, csrStart, pMWin->iEphCsr);
  sqlite3VdbeAddOp2(v, OP_OpenDup, csrEnd, pMWin->iEphCsr);

  /* If either regStart or regEnd are not non-negative integers, throw 
  ** an exception.  */
  if( pMWin->pStart ){
    sqlite3ExprCode(pParse, pMWin->pStart, regStart);
    windowCheckIntValue(pParse, regStart, 0);
  }
  if( pMWin->pEnd ){
    sqlite3ExprCode(pParse, pMWin->pEnd, regEnd);
    windowCheckIntValue(pParse, regEnd, 1);
  }

  /* If this is "ROWS <expr1> FOLLOWING AND ROWS <expr2> FOLLOWING", do:
  **
  **   if( regEnd<regStart ){
  **     // The frame always consists of 0 rows
  **     regStart = regSize;
  **   }
  **   regEnd = regEnd - regStart;
  */
  if( pMWin->pEnd && pMWin->eStart==TK_FOLLOWING ){
    assert( pMWin->pStart!=0 );
    assert( pMWin->eEnd==TK_FOLLOWING );
    sqlite3VdbeAddOp3(v, OP_Ge, regStart, sqlite3VdbeCurrentAddr(v)+2, regEnd);
    VdbeCoverageNeverNull(v);
    sqlite3VdbeAddOp2(v, OP_Copy, regSize, regStart);
    sqlite3VdbeAddOp3(v, OP_Subtract, regStart, regEnd, regEnd);
  }

  if( pMWin->pStart && pMWin->eEnd==TK_PRECEDING ){
    assert( pMWin->pEnd!=0 );
    assert( pMWin->eStart==TK_PRECEDING );
    sqlite3VdbeAddOp3(v, OP_Le, regStart, sqlite3VdbeCurrentAddr(v)+3, regEnd);
    VdbeCoverageNeverNull(v);
    sqlite3VdbeAddOp2(v, OP_Copy, regSize, regStart);
    sqlite3VdbeAddOp2(v, OP_Copy, regSize, regEnd);
  }

  /* Initialize the accumulator register for each window function to NULL */
  regArg = windowInitAccum(pParse, pMWin);

  sqlite3VdbeAddOp2(v, OP_Rewind, pMWin->iEphCsr, lblFlushDone);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_Rewind, csrStart, lblFlushDone);
  VdbeCoverageNeverTaken(v);
  sqlite3VdbeChangeP5(v, 1);
  sqlite3VdbeAddOp2(v, OP_Rewind, csrEnd, lblFlushDone);
  VdbeCoverageNeverTaken(v);
  sqlite3VdbeChangeP5(v, 1);

  /* Invoke AggStep function for each window function using the row that
  ** csrEnd currently points to. Or, if csrEnd is already at EOF,
  ** do nothing.  */
  addrTop = sqlite3VdbeCurrentAddr(v);
  if( pMWin->eEnd==TK_PRECEDING ){
    addrIfPos1 = sqlite3VdbeAddOp3(v, OP_IfPos, regEnd, 0 , 1);
    VdbeCoverage(v);
  }
  sqlite3VdbeAddOp2(v, OP_Next, csrEnd, sqlite3VdbeCurrentAddr(v)+2);
  VdbeCoverage(v);
  addr = sqlite3VdbeAddOp0(v, OP_Goto);
  windowAggStep(pParse, pMWin, csrEnd, 0, regArg, regSize);
  if( pMWin->eEnd==TK_UNBOUNDED ){
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addrTop);
    sqlite3VdbeJumpHere(v, addr);
    addrTop = sqlite3VdbeCurrentAddr(v);
  }else{
    sqlite3VdbeJumpHere(v, addr);
    if( pMWin->eEnd==TK_PRECEDING ){
      sqlite3VdbeJumpHere(v, addrIfPos1);
    }
  }

  if( pMWin->eEnd==TK_FOLLOWING ){
    addrIfPos1 = sqlite3VdbeAddOp3(v, OP_IfPos, regEnd, 0 , 1);
    VdbeCoverage(v);
  }
  if( pMWin->eStart==TK_FOLLOWING ){
    addrIfPos2 = sqlite3VdbeAddOp3(v, OP_IfPos, regStart, 0 , 1);
    VdbeCoverage(v);
  }
  windowAggFinal(pParse, pMWin, 0);
  windowReturnOneRow(pParse, pMWin, regGosub, addrGosub);
  sqlite3VdbeAddOp2(v, OP_Next, pMWin->iEphCsr, sqlite3VdbeCurrentAddr(v)+2);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_Goto, 0, lblFlushDone);
  if( pMWin->eStart==TK_FOLLOWING ){
    sqlite3VdbeJumpHere(v, addrIfPos2);
  }

  if( pMWin->eStart==TK_CURRENT 
   || pMWin->eStart==TK_PRECEDING 
   || pMWin->eStart==TK_FOLLOWING 
  ){
    int lblSkipInverse = sqlite3VdbeMakeLabel(pParse);;
    if( pMWin->eStart==TK_PRECEDING ){
      sqlite3VdbeAddOp3(v, OP_IfPos, regStart, lblSkipInverse, 1);
      VdbeCoverage(v);
    }
    if( pMWin->eStart==TK_FOLLOWING ){
      sqlite3VdbeAddOp2(v, OP_Next, csrStart, sqlite3VdbeCurrentAddr(v)+2);
      VdbeCoverage(v);
      sqlite3VdbeAddOp2(v, OP_Goto, 0, lblSkipInverse);
    }else{
      sqlite3VdbeAddOp2(v, OP_Next, csrStart, sqlite3VdbeCurrentAddr(v)+1);
      VdbeCoverageAlwaysTaken(v);
    }
    windowAggStep(pParse, pMWin, csrStart, 1, regArg, regSize);
    sqlite3VdbeResolveLabel(v, lblSkipInverse);
  }
  if( pMWin->eEnd==TK_FOLLOWING ){
    sqlite3VdbeJumpHere(v, addrIfPos1);
  }
  sqlite3VdbeAddOp2(v, OP_Goto, 0, addrTop);

  /* flush_partition_done: */
  sqlite3VdbeResolveLabel(v, lblFlushDone);
  sqlite3VdbeAddOp1(v, OP_ResetSorter, pMWin->iEphCsr);
  sqlite3VdbeAddOp1(v, OP_Return, regFlushPart);
  VdbeComment((v, "end flush_partition subroutine"));

  /* Jump to here to skip over flush_partition */
  sqlite3VdbeJumpHere(v, addrGoto);
}

/*
** This function does the work of sqlite3WindowCodeStep() for cases that
** would normally be handled by windowCodeDefaultStep() when there are
** one or more built-in window-functions that require the entire partition
** to be cached in a temp table before any rows can be returned. Additionally.
** "RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING" is always handled by
** this function.
**
** Pseudo-code corresponding to the VM code generated by this function
** for each type of window follows.
**
** RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
**
**   flush_partition:
**     Once {
**       OpenDup (iEphCsr -> csrLead)
**     }
**     Integer ctr 0
**     foreach row (csrLead){
**       if( new peer ){
**         AggFinal (xValue)
**         for(i=0; i<ctr; i++){
**           Gosub addrGosub
**           Next iEphCsr
**         }
**         Integer ctr 0
**       }
**       AggStep (csrLead)
**       Incr ctr
**     }
**
**     AggFinal (xFinalize)
**     for(i=0; i<ctr; i++){
**       Gosub addrGosub
**       Next iEphCsr
**     }
**
**     ResetSorter (csr)
**     Return
**
** ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
**
**   As above, except that the "if( new peer )" branch is always taken.
**
** RANGE BETWEEN CURRENT ROW AND CURRENT ROW 
**
**   As above, except that each of the for() loops becomes:
**
**         for(i=0; i<ctr; i++){
**           Gosub addrGosub
**           AggInverse (iEphCsr)
**           Next iEphCsr
**         }
**
** RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
**
**   flush_partition:
**     Once {
**       OpenDup (iEphCsr -> csrLead)
**     }
**     foreach row (csrLead) {
**       AggStep (csrLead)
**     }
**     foreach row (iEphCsr) {
**       Gosub addrGosub
**     }
** 
** RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
**
**   flush_partition:
**     Once {
**       OpenDup (iEphCsr -> csrLead)
**     }
**     foreach row (csrLead){
**       AggStep (csrLead)
**     }
**     Rewind (csrLead)
**     Integer ctr 0
**     foreach row (csrLead){
**       if( new peer ){
**         AggFinal (xValue)
**         for(i=0; i<ctr; i++){
**           Gosub addrGosub
**           AggInverse (iEphCsr)
**           Next iEphCsr
**         }
**         Integer ctr 0
**       }
**       Incr ctr
**     }
**
**     AggFinal (xFinalize)
**     for(i=0; i<ctr; i++){
**       Gosub addrGosub
**       Next iEphCsr
**     }
**
**     ResetSorter (csr)
**     Return
*/
static void windowCodeCacheStep(
  Parse *pParse, 
  Select *p,
  WhereInfo *pWInfo,
  int regGosub, 
  int addrGosub
){
  Window *pMWin = p->pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int k;
  int addr;
  ExprList *pPart = pMWin->pPartition;
  ExprList *pOrderBy = pMWin->pOrderBy;
  int nPeer = pOrderBy ? pOrderBy->nExpr : 0;
  int regNewPeer;

  int addrGoto;                   /* Address of Goto used to jump flush_par.. */
  int addrNext;                   /* Jump here for next iteration of loop */
  int regFlushPart;
  int lblFlushPart;
  int csrLead;
  int regCtr;
  int regArg;                     /* Register array to martial function args */
  int regSize;
  int lblEmpty;
  int bReverse = pMWin->pOrderBy && pMWin->eStart==TK_CURRENT 
          && pMWin->eEnd==TK_UNBOUNDED;

  assert( (pMWin->eStart==TK_UNBOUNDED && pMWin->eEnd==TK_CURRENT) 
       || (pMWin->eStart==TK_UNBOUNDED && pMWin->eEnd==TK_UNBOUNDED) 
       || (pMWin->eStart==TK_CURRENT && pMWin->eEnd==TK_CURRENT) 
       || (pMWin->eStart==TK_CURRENT && pMWin->eEnd==TK_UNBOUNDED) 
  );

  lblEmpty = sqlite3VdbeMakeLabel(pParse);
  regNewPeer = pParse->nMem+1;
  pParse->nMem += nPeer;

  /* Allocate register and label for the "flush_partition" sub-routine. */
  regFlushPart = ++pParse->nMem;
  lblFlushPart = sqlite3VdbeMakeLabel(pParse);

  csrLead = pParse->nTab++;
  regCtr = ++pParse->nMem;

  windowPartitionCache(pParse, p, pWInfo, regFlushPart, lblFlushPart, &regSize);
  addrGoto = sqlite3VdbeAddOp0(v, OP_Goto);

  /* Start of "flush_partition" */
  sqlite3VdbeResolveLabel(v, lblFlushPart);
  sqlite3VdbeAddOp2(v, OP_Once, 0, sqlite3VdbeCurrentAddr(v)+2);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_OpenDup, csrLead, pMWin->iEphCsr);

  /* Initialize the accumulator register for each window function to NULL */
  regArg = windowInitAccum(pParse, pMWin);

  sqlite3VdbeAddOp2(v, OP_Integer, 0, regCtr);
  sqlite3VdbeAddOp2(v, OP_Rewind, csrLead, lblEmpty);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_Rewind, pMWin->iEphCsr, lblEmpty);
  VdbeCoverageNeverTaken(v);

  if( bReverse ){
    int addr2 = sqlite3VdbeCurrentAddr(v);
    windowAggStep(pParse, pMWin, csrLead, 0, regArg, regSize);
    sqlite3VdbeAddOp2(v, OP_Next, csrLead, addr2);
    VdbeCoverage(v);
    sqlite3VdbeAddOp2(v, OP_Rewind, csrLead, lblEmpty);
    VdbeCoverageNeverTaken(v);
  }
  addrNext = sqlite3VdbeCurrentAddr(v);

  if( pOrderBy && (pMWin->eEnd==TK_CURRENT || pMWin->eStart==TK_CURRENT) ){
    int bCurrent = (pMWin->eStart==TK_CURRENT);
    int addrJump = 0;             /* Address of OP_Jump below */
    if( pMWin->eType==TK_RANGE ){
      int iOff = pMWin->nBufferCol + (pPart ? pPart->nExpr : 0);
      int regPeer = pMWin->regPart + (pPart ? pPart->nExpr : 0);
      KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pOrderBy, 0, 0);
      for(k=0; k<nPeer; k++){
        sqlite3VdbeAddOp3(v, OP_Column, csrLead, iOff+k, regNewPeer+k);
      }
      addr = sqlite3VdbeAddOp3(v, OP_Compare, regNewPeer, regPeer, nPeer);
      sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
      addrJump = sqlite3VdbeAddOp3(v, OP_Jump, addr+2, 0, addr+2);
      VdbeCoverage(v);
      sqlite3VdbeAddOp3(v, OP_Copy, regNewPeer, regPeer, nPeer-1);
    }

    windowReturnRows(pParse, pMWin, regCtr, regGosub, addrGosub, 
        (bCurrent ? regArg : 0), (bCurrent ? regSize : 0)
    );
    if( addrJump ) sqlite3VdbeJumpHere(v, addrJump);
  }

  if( bReverse==0 ){
    windowAggStep(pParse, pMWin, csrLead, 0, regArg, regSize);
  }
  sqlite3VdbeAddOp2(v, OP_AddImm, regCtr, 1);
  sqlite3VdbeAddOp2(v, OP_Next, csrLead, addrNext);
  VdbeCoverage(v);

  windowReturnRows(pParse, pMWin, regCtr, regGosub, addrGosub, 0, 0);

  sqlite3VdbeResolveLabel(v, lblEmpty);
  sqlite3VdbeAddOp1(v, OP_ResetSorter, pMWin->iEphCsr);
  sqlite3VdbeAddOp1(v, OP_Return, regFlushPart);

  /* Jump to here to skip over flush_partition */
  sqlite3VdbeJumpHere(v, addrGoto);
}


/*
** RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
**
**   ...
**     if( new partition ){
**       AggFinal (xFinalize)
**       Gosub addrGosub
**       ResetSorter eph-table
**     }
**     else if( new peer ){
**       AggFinal (xValue)
**       Gosub addrGosub
**       ResetSorter eph-table
**     }
**     AggStep
**     Insert (record into eph-table)
**   sqlite3WhereEnd()
**   AggFinal (xFinalize)
**   Gosub addrGosub
**
** RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
**
**   As above, except take no action for a "new peer". Invoke
**   the sub-routine once only for each partition.
**
** RANGE BETWEEN CURRENT ROW AND CURRENT ROW
**
**   As above, except that the "new peer" condition is handled in the
**   same way as "new partition" (so there is no "else if" block).
**
** ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
** 
**   As above, except assume every row is a "new peer".
*/
static void windowCodeDefaultStep(
  Parse *pParse, 
  Select *p,
  WhereInfo *pWInfo,
  int regGosub, 
  int addrGosub
){
  Window *pMWin = p->pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int k;
  int iSubCsr = p->pSrc->a[0].iCursor;
  int nSub = p->pSrc->a[0].pTab->nCol;
  int reg = pParse->nMem+1;
  int regRecord = reg+nSub;
  int regRowid = regRecord+1;
  int addr;
  ExprList *pPart = pMWin->pPartition;
  ExprList *pOrderBy = pMWin->pOrderBy;

  assert( pMWin->eType==TK_RANGE 
      || (pMWin->eStart==TK_UNBOUNDED && pMWin->eEnd==TK_CURRENT)
  );

  assert( (pMWin->eStart==TK_UNBOUNDED && pMWin->eEnd==TK_CURRENT)
       || (pMWin->eStart==TK_UNBOUNDED && pMWin->eEnd==TK_UNBOUNDED)
       || (pMWin->eStart==TK_CURRENT && pMWin->eEnd==TK_CURRENT)
       || (pMWin->eStart==TK_CURRENT && pMWin->eEnd==TK_UNBOUNDED && !pOrderBy)
  );

  if( pMWin->eEnd==TK_UNBOUNDED ){
    pOrderBy = 0;
  }

  pParse->nMem += nSub + 2;

  /* Load the individual column values of the row returned by
  ** the sub-select into an array of registers. */
  for(k=0; k<nSub; k++){
    sqlite3VdbeAddOp3(v, OP_Column, iSubCsr, k, reg+k);
  }

  /* Check if this is the start of a new partition or peer group. */
  if( pPart || pOrderBy ){
    int nPart = (pPart ? pPart->nExpr : 0);
    int addrGoto = 0;
    int addrJump = 0;
    int nPeer = (pOrderBy ? pOrderBy->nExpr : 0);

    if( pPart ){
      int regNewPart = reg + pMWin->nBufferCol;
      KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pPart, 0, 0);
      addr = sqlite3VdbeAddOp3(v, OP_Compare, regNewPart, pMWin->regPart,nPart);
      sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
      addrJump = sqlite3VdbeAddOp3(v, OP_Jump, addr+2, 0, addr+2);
      VdbeCoverageEqNe(v);
      windowAggFinal(pParse, pMWin, 1);
      if( pOrderBy ){
        addrGoto = sqlite3VdbeAddOp0(v, OP_Goto);
      }
    }

    if( pOrderBy ){
      int regNewPeer = reg + pMWin->nBufferCol + nPart;
      int regPeer = pMWin->regPart + nPart;

      if( addrJump ) sqlite3VdbeJumpHere(v, addrJump);
      if( pMWin->eType==TK_RANGE ){
        KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pOrderBy, 0, 0);
        addr = sqlite3VdbeAddOp3(v, OP_Compare, regNewPeer, regPeer, nPeer);
        sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
        addrJump = sqlite3VdbeAddOp3(v, OP_Jump, addr+2, 0, addr+2);
        VdbeCoverage(v);
      }else{
        addrJump = 0;
      }
      windowAggFinal(pParse, pMWin, pMWin->eStart==TK_CURRENT);
      if( addrGoto ) sqlite3VdbeJumpHere(v, addrGoto);
    }

    sqlite3VdbeAddOp2(v, OP_Rewind, pMWin->iEphCsr,sqlite3VdbeCurrentAddr(v)+3);
    VdbeCoverage(v);
    sqlite3VdbeAddOp2(v, OP_Gosub, regGosub, addrGosub);
    sqlite3VdbeAddOp2(v, OP_Next, pMWin->iEphCsr, sqlite3VdbeCurrentAddr(v)-1);
    VdbeCoverage(v);

    sqlite3VdbeAddOp1(v, OP_ResetSorter, pMWin->iEphCsr);
    sqlite3VdbeAddOp3(
        v, OP_Copy, reg+pMWin->nBufferCol, pMWin->regPart, nPart+nPeer-1
    );

    if( addrJump ) sqlite3VdbeJumpHere(v, addrJump);
  }

  /* Invoke step function for window functions */
  windowAggStep(pParse, pMWin, -1, 0, reg, 0);

  /* Buffer the current row in the ephemeral table. */
  if( pMWin->nBufferCol>0 ){
    sqlite3VdbeAddOp3(v, OP_MakeRecord, reg, pMWin->nBufferCol, regRecord);
  }else{
    sqlite3VdbeAddOp2(v, OP_Blob, 0, regRecord);
    sqlite3VdbeAppendP4(v, (void*)"", 0);
  }
  sqlite3VdbeAddOp2(v, OP_NewRowid, pMWin->iEphCsr, regRowid);
  sqlite3VdbeAddOp3(v, OP_Insert, pMWin->iEphCsr, regRecord, regRowid);

  /* End the database scan loop. */
  sqlite3WhereEnd(pWInfo);

  windowAggFinal(pParse, pMWin, 1);
  sqlite3VdbeAddOp2(v, OP_Rewind, pMWin->iEphCsr,sqlite3VdbeCurrentAddr(v)+3);
  VdbeCoverage(v);
  sqlite3VdbeAddOp2(v, OP_Gosub, regGosub, addrGosub);
  sqlite3VdbeAddOp2(v, OP_Next, pMWin->iEphCsr, sqlite3VdbeCurrentAddr(v)-1);
  VdbeCoverage(v);
}

/*
** Allocate and return a duplicate of the Window object indicated by the
** third argument. Set the Window.pOwner field of the new object to
** pOwner.
*/
Window *sqlite3WindowDup(sqlite3 *db, Expr *pOwner, Window *p){
................................................................................
    pNew = sqlite3DbMallocZero(db, sizeof(Window));
    if( pNew ){
      pNew->zName = sqlite3DbStrDup(db, p->zName);
      pNew->pFilter = sqlite3ExprDup(db, p->pFilter, 0);
      pNew->pFunc = p->pFunc;
      pNew->pPartition = sqlite3ExprListDup(db, p->pPartition, 0);
      pNew->pOrderBy = sqlite3ExprListDup(db, p->pOrderBy, 0);
      pNew->eType = p->eType;
      pNew->eEnd = p->eEnd;
      pNew->eStart = p->eStart;

      pNew->pStart = sqlite3ExprDup(db, p->pStart, 0);
      pNew->pEnd = sqlite3ExprDup(db, p->pEnd, 0);
      pNew->pOwner = pOwner;
    }
  }
  return pNew;
}
................................................................................
    *pp = sqlite3WindowDup(db, 0, pWin);
    if( *pp==0 ) break;
    pp = &((*pp)->pNextWin);
  }

  return pRet;
}

/*




















** sqlite3WhereBegin() has already been called for the SELECT statement 
** passed as the second argument when this function is invoked. It generates
** code to populate the Window.regResult register for each window function and
** invoke the sub-routine at instruction addrGosub once for each row.
** This function calls sqlite3WhereEnd() before returning. 

*/
void sqlite3WindowCodeStep(
  Parse *pParse,                  /* Parse context */
  Select *p,                      /* Rewritten SELECT statement */








  WhereInfo *pWInfo,              /* Context returned by sqlite3WhereBegin() */
  int regGosub,                   /* Register for OP_Gosub */
  int addrGosub                   /* OP_Gosub here to return each row */
){
  Window *pMWin = p->pWin;

  /* There are three different functions that may be used to do the work
  ** of this one, depending on the window frame and the specific built-in
  ** window functions used (if any).




  **
  ** windowCodeRowExprStep() handles all "ROWS" window frames, except for:





  **
  **   ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW

























  **
  ** The exception is because windowCodeRowExprStep() implements all window
  ** frame types by caching the entire partition in a temp table, and
  ** "ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW" is easy enough to
  ** implement without such a cache.

  **
  ** windowCodeCacheStep() is used for:



  **
  **   RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING



  **
  ** It is also used for anything not handled by windowCodeRowExprStep() 
  ** that invokes a built-in window function that requires the entire 
  ** partition to be cached in a temp table before any rows are returned
  ** (e.g. nth_value() or percent_rank()).



  **
  ** Finally, assuming there is no built-in window function that requires
  ** the partition to be cached, windowCodeDefaultStep() is used for:







  **
  **   RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW 








































































  **   RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING




















































































  **   RANGE BETWEEN CURRENT ROW AND CURRENT ROW 
  **   ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  **
  ** windowCodeDefaultStep() is the only one of the three functions that
  ** does not cache each partition in a temp table before beginning to
  ** return rows.




































































































  */
  if( pMWin->eType==TK_ROWS 
   && (pMWin->eStart!=TK_UNBOUNDED||pMWin->eEnd!=TK_CURRENT||!pMWin->pOrderBy)






  ){
    VdbeModuleComment((pParse->pVdbe, "Begin RowExprStep()"));
    windowCodeRowExprStep(pParse, p, pWInfo, regGosub, addrGosub);
  }else{
    Window *pWin;










    int bCache = 0;               /* True to use CacheStep() */














    if( pMWin->eStart==TK_CURRENT && pMWin->eEnd==TK_UNBOUNDED ){












      bCache = 1;
    }else{
      for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
        FuncDef *pFunc = pWin->pFunc;
        if( (pFunc->funcFlags & SQLITE_FUNC_WINDOW_SIZE)
         || (pFunc->zName==nth_valueName)
         || (pFunc->zName==first_valueName)
         || (pFunc->zName==leadName)
         || (pFunc->zName==lagName)

















        ){
          bCache = 1;


          break;







        }


      }
    }





    /* Otherwise, call windowCodeDefaultStep().  */
    if( bCache ){
      VdbeModuleComment((pParse->pVdbe, "Begin CacheStep()"));
      windowCodeCacheStep(pParse, p, pWInfo, regGosub, addrGosub);




































































































































    }else{
      VdbeModuleComment((pParse->pVdbe, "Begin DefaultStep()"));
      windowCodeDefaultStep(pParse, p, pWInfo, regGosub, addrGosub);


    }






































































































  }
}

#endif /* SQLITE_OMIT_WINDOWFUNC */







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646
647
...
658
659
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664
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667



668
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715
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731
...
922
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...
978
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....
1001
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1003
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....
1038
1039
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1064
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1067
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....
1079
1080
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....
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....
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1226
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....
1263
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1270
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....
1363
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1371
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1378
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1383

1384
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1386


1387
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1389
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....
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....
1629
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....
1666
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1669
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1672

1673
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1677
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1679
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1681
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1683
....
1695
1696
1697
1698
1699
1700
1701

1702






























1703







1704
1705
1706
1707
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1709
1710
....
1714
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1719
1720
1721
1722

1723
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1911
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1979







































































































































































































































































































































































































































1980
1981
1982
1983
1984
1985
1986
....
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
....
2018
2019
2020
2021
2022
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2024
2025
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2028
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2034
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2049
2050

2051
2052



2053
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2060
2061








2062
2063
2064
2065
2066

2067
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2071
2072

2073
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2094
2095
2096
2097
2098




2099
2100

2101
2102
2103
2104

2105
2106
2107
2108




2109
2110
2111
2112


2113
2114
2115
2116
2117
2118
2119
2120

2121
2122
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2161
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2174
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2250
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2257
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2260
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2269
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2273
2274
2275
2276
2277
2278

2279



2280
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2321
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2325
2326
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2330
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2374
2375
2376
2377
2378
2379
2380


2381
2382
2383
2384
2385
2386
2387



2388
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2419
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2421
2422
2423
2424
2425
2426
2427








2428
2429
2430
2431
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2436
2437
2438
2439
2440
2441
2442
2443
2444
2445

2446
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2461
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2464
2465




2466
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2599
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2697
2698
2699
2700
2701
2702
2703
2704
2705
2706
2707
      p->nValue++;
      p->nStep = 0;
    }
    sqlite3_result_int64(pCtx, p->nValue);
  }
}

/*
** Implementation of built-in window function nth_value(). This
** implementation is used in "slow mode" only - when the EXCLUDE clause
** is not set to the default value "NO OTHERS".
*/
struct NthValueCtx {
  i64 nStep;
  sqlite3_value *pValue;
};
static void nth_valueStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct NthValueCtx *p;
  p = (struct NthValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    i64 iVal;
    switch( sqlite3_value_numeric_type(apArg[1]) ){
      case SQLITE_INTEGER:
        iVal = sqlite3_value_int64(apArg[1]);
        break;
      case SQLITE_FLOAT: {
        double fVal = sqlite3_value_double(apArg[1]);
        if( ((i64)fVal)!=fVal ) goto error_out;
        iVal = (i64)fVal;
        break;
      }
      default:
        goto error_out;
    }
    if( iVal<=0 ) goto error_out;

    p->nStep++;
    if( iVal==p->nStep ){
      p->pValue = sqlite3_value_dup(apArg[0]);
      if( !p->pValue ){
        sqlite3_result_error_nomem(pCtx);
      }
    }
  }
  UNUSED_PARAMETER(nArg);
  UNUSED_PARAMETER(apArg);
  return;

 error_out:
  sqlite3_result_error(
      pCtx, "second argument to nth_value must be a positive integer", -1
  );
}
static void nth_valueFinalizeFunc(sqlite3_context *pCtx){
  struct NthValueCtx *p;
  p = (struct NthValueCtx*)sqlite3_aggregate_context(pCtx, 0);
  if( p && p->pValue ){
    sqlite3_result_value(pCtx, p->pValue);
    sqlite3_value_free(p->pValue);
    p->pValue = 0;
  }
}
#define nth_valueInvFunc noopStepFunc
#define nth_valueValueFunc noopValueFunc

static void first_valueStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct NthValueCtx *p;
  p = (struct NthValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->pValue==0 ){
    p->pValue = sqlite3_value_dup(apArg[0]);
    if( !p->pValue ){
      sqlite3_result_error_nomem(pCtx);
    }
  }
  UNUSED_PARAMETER(nArg);
  UNUSED_PARAMETER(apArg);
}
static void first_valueFinalizeFunc(sqlite3_context *pCtx){
  struct NthValueCtx *p;
  p = (struct NthValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->pValue ){
    sqlite3_result_value(pCtx, p->pValue);
    sqlite3_value_free(p->pValue);
    p->pValue = 0;
  }
}
#define first_valueInvFunc noopStepFunc
#define first_valueValueFunc noopValueFunc

/*
** Implementation of built-in window function rank(). Assumes that
** the window frame has been set to:
**
**   RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW 
*/
static void rankStepFunc(
................................................................................
  }
}

/*
** Implementation of built-in window function percent_rank(). Assumes that
** the window frame has been set to:
**
**   GROUPS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
*/
static void percent_rankStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  UNUSED_PARAMETER(nArg); assert( nArg==0 );

  UNUSED_PARAMETER(apArg);
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    p->nTotal++;

  }



}

static void percent_rankInvFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  UNUSED_PARAMETER(nArg); assert( nArg==0 );
  UNUSED_PARAMETER(apArg);
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  p->nStep++;
}
static void percent_rankValueFunc(sqlite3_context *pCtx){
  struct CallCount *p;
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    p->nValue = p->nStep;
    if( p->nTotal>1 ){
      double r = (double)p->nValue / (double)(p->nTotal-1);
      sqlite3_result_double(pCtx, r);
    }else{
      sqlite3_result_double(pCtx, 0.0);
    }

  }
}
#define percent_rankFinalizeFunc percent_rankValueFunc

/*
** Implementation of built-in window function cume_dist(). Assumes that
** the window frame has been set to:
**
**   GROUPS BETWEEN 1 FOLLOWING AND UNBOUNDED FOLLOWING
*/
static void cume_distStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  UNUSED_PARAMETER(nArg); assert( nArg==0 );

  UNUSED_PARAMETER(apArg);
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    p->nTotal++;

  }
}
static void cume_distInvFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct CallCount *p;
  UNUSED_PARAMETER(nArg); assert( nArg==0 );
  UNUSED_PARAMETER(apArg);
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  p->nStep++;
}

static void cume_distValueFunc(sqlite3_context *pCtx){
  struct CallCount *p;
  p = (struct CallCount*)sqlite3_aggregate_context(pCtx, 0);
  if( p ){
    double r = (double)(p->nStep) / (double)(p->nTotal);
    sqlite3_result_double(pCtx, r);
  }
}
#define cume_distFinalizeFunc cume_distValueFunc

/*
** Context object for ntile() window function.
*/
struct NtileCtx {
  i64 nTotal;                     /* Total rows in partition */
  i64 nParam;                     /* Parameter passed to ntile(N) */
................................................................................
  i64 iRow;                       /* Current row */
};

/*
** Implementation of ntile(). This assumes that the window frame has
** been coerced to:
**
**   ROWS CURRENT ROW AND UNBOUNDED FOLLOWING
*/
static void ntileStepFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct NtileCtx *p;
  assert( nArg==1 ); UNUSED_PARAMETER(nArg);
  p = (struct NtileCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p ){
    if( p->nTotal==0 ){
      p->nParam = sqlite3_value_int64(apArg[0]);

      if( p->nParam<=0 ){
        sqlite3_result_error(
            pCtx, "argument of ntile must be a positive integer", -1
        );
      }
    }
    p->nTotal++;
  }
}
static void ntileInvFunc(
  sqlite3_context *pCtx, 
  int nArg,
  sqlite3_value **apArg
){
  struct NtileCtx *p;
  assert( nArg==1 ); UNUSED_PARAMETER(nArg);
  UNUSED_PARAMETER(apArg);
  p = (struct NtileCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  p->iRow++;
}
static void ntileValueFunc(sqlite3_context *pCtx){
  struct NtileCtx *p;
  p = (struct NtileCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
  if( p && p->nParam>0 ){
    int nSize = (p->nTotal / p->nParam);
    if( nSize==0 ){
      sqlite3_result_int64(pCtx, p->iRow+1);
    }else{
      i64 nLarge = p->nTotal - p->nParam*nSize;
      i64 iSmall = nLarge*(nSize+1);
      i64 iRow = p->iRow;

      assert( (nLarge*(nSize+1) + (p->nParam-nLarge)*nSize)==p->nTotal );

      if( iRow<iSmall ){
        sqlite3_result_int64(pCtx, 1 + iRow/(nSize+1));
      }else{
        sqlite3_result_int64(pCtx, 1 + nLarge + (iRow-iSmall)/nSize);
      }
    }
  }
}
#define ntileFinalizeFunc ntileValueFunc

/*
** Context object for last_value() window function.
*/
struct LastValueCtx {
  sqlite3_value *pVal;
  int nVal;
................................................................................
      sqlite3_value_free(p->pVal);
      p->pVal = 0;
    }
  }
}
static void last_valueValueFunc(sqlite3_context *pCtx){
  struct LastValueCtx *p;
  p = (struct LastValueCtx*)sqlite3_aggregate_context(pCtx, 0);
  if( p && p->pVal ){
    sqlite3_result_value(pCtx, p->pVal);
  }
}
static void last_valueFinalizeFunc(sqlite3_context *pCtx){
  struct LastValueCtx *p;
  p = (struct LastValueCtx*)sqlite3_aggregate_context(pCtx, sizeof(*p));
................................................................................
** Register those built-in window functions that are not also aggregates.
*/
void sqlite3WindowFunctions(void){
  static FuncDef aWindowFuncs[] = {
    WINDOWFUNCX(row_number, 0, 0),
    WINDOWFUNCX(dense_rank, 0, 0),
    WINDOWFUNCX(rank, 0, 0),
    WINDOWFUNCALL(percent_rank, 0, 0),
    WINDOWFUNCALL(cume_dist, 0, 0),
    WINDOWFUNCALL(ntile, 1, 0),
    WINDOWFUNCALL(last_value, 1, 0),
    WINDOWFUNCALL(nth_value, 2, 0),
    WINDOWFUNCALL(first_value, 1, 0),
    WINDOWFUNCNOOP(lead, 1, 0),
    WINDOWFUNCNOOP(lead, 2, 0),
    WINDOWFUNCNOOP(lead, 3, 0),
    WINDOWFUNCNOOP(lag, 1, 0),
    WINDOWFUNCNOOP(lag, 2, 0),
    WINDOWFUNCNOOP(lag, 3, 0),
  };
  sqlite3InsertBuiltinFuncs(aWindowFuncs, ArraySize(aWindowFuncs));
}

static Window *windowFind(Parse *pParse, Window *pList, const char *zName){
  Window *p;
  for(p=pList; p; p=p->pNextWin){
    if( sqlite3StrICmp(p->zName, zName)==0 ) break;
  }
  if( p==0 ){
    sqlite3ErrorMsg(pParse, "no such window: %s", zName);
  }
  return p;
}

/*
** This function is called immediately after resolving the function name
** for a window function within a SELECT statement. Argument pList is a
** linked list of WINDOW definitions for the current SELECT statement.
** Argument pFunc is the function definition just resolved and pWin
** is the Window object representing the associated OVER clause. This
................................................................................
*/
void sqlite3WindowUpdate(
  Parse *pParse, 
  Window *pList,                  /* List of named windows for this SELECT */
  Window *pWin,                   /* Window frame to update */
  FuncDef *pFunc                  /* Window function definition */
){
  if( pWin->zName && pWin->eFrmType==0 ){
    Window *p = windowFind(pParse, pList, pWin->zName);



    if( p==0 ) return;



    pWin->pPartition = sqlite3ExprListDup(pParse->db, p->pPartition, 0);
    pWin->pOrderBy = sqlite3ExprListDup(pParse->db, p->pOrderBy, 0);
    pWin->pStart = sqlite3ExprDup(pParse->db, p->pStart, 0);
    pWin->pEnd = sqlite3ExprDup(pParse->db, p->pEnd, 0);
    pWin->eStart = p->eStart;
    pWin->eEnd = p->eEnd;
    pWin->eFrmType = p->eFrmType;
    pWin->eExclude = p->eExclude;
  }else{
    sqlite3WindowChain(pParse, pWin, pList);
  }
  if( (pWin->eFrmType==TK_RANGE)
   && (pWin->pStart || pWin->pEnd) 
   && (pWin->pOrderBy==0 || pWin->pOrderBy->nExpr!=1)
  ){
    sqlite3ErrorMsg(pParse, 
      "RANGE with offset PRECEDING/FOLLOWING requires one ORDER BY expression"
    );
  }else
  if( pFunc->funcFlags & SQLITE_FUNC_WINDOW ){
    sqlite3 *db = pParse->db;
    if( pWin->pFilter ){
      sqlite3ErrorMsg(pParse, 
          "FILTER clause may only be used with aggregate window functions"
      );
    }else{
      struct WindowUpdate {
        const char *zFunc;
        int eFrmType;
        int eStart;
        int eEnd;
      } aUp[] = {
        { row_numberName,   TK_ROWS,   TK_UNBOUNDED, TK_CURRENT }, 
        { dense_rankName,   TK_RANGE,  TK_UNBOUNDED, TK_CURRENT }, 

        { rankName,         TK_RANGE,  TK_UNBOUNDED, TK_CURRENT }, 
        { percent_rankName, TK_GROUPS, TK_CURRENT,   TK_UNBOUNDED }, 
        { cume_distName,    TK_GROUPS, TK_FOLLOWING, TK_UNBOUNDED }, 
        { ntileName,        TK_ROWS,   TK_CURRENT,   TK_UNBOUNDED }, 
        { leadName,         TK_ROWS,   TK_UNBOUNDED, TK_UNBOUNDED }, 
        { lagName,          TK_ROWS,   TK_UNBOUNDED, TK_CURRENT }, 
      };
      int i;
      for(i=0; i<ArraySize(aUp); i++){
        if( pFunc->zName==aUp[i].zFunc ){
          sqlite3ExprDelete(db, pWin->pStart);
          sqlite3ExprDelete(db, pWin->pEnd);
          pWin->pEnd = pWin->pStart = 0;

          pWin->eFrmType = aUp[i].eFrmType;
          pWin->eStart = aUp[i].eStart;
          pWin->eEnd = aUp[i].eEnd;
          pWin->eExclude = 0;
          if( pWin->eStart==TK_FOLLOWING ){
            pWin->pStart = sqlite3Expr(db, TK_INTEGER, "1");
          }
          break;
        }
      }
    }
  }
  pWin->pFunc = pFunc;
}

/*
** Context object passed through sqlite3WalkExprList() to
................................................................................
      }
    }

    /* Assign a cursor number for the ephemeral table used to buffer rows.
    ** The OpenEphemeral instruction is coded later, after it is known how
    ** many columns the table will have.  */
    pMWin->iEphCsr = pParse->nTab++;
    pParse->nTab += 3;

    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pEList, &pSublist);
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pOrderBy, &pSublist);
    pMWin->nBufferCol = (pSublist ? pSublist->nExpr : 0);

    /* Append the PARTITION BY and ORDER BY expressions to the to the 
    ** sub-select expression list. They are required to figure out where 
................................................................................
      }else{
        pSub->selFlags |= SF_Expanded;
        p->selFlags &= ~SF_Aggregate;
        sqlite3SelectPrep(pParse, pSub, 0);
      }

      sqlite3VdbeAddOp2(v, OP_OpenEphemeral, pMWin->iEphCsr, pSublist->nExpr);
      sqlite3VdbeAddOp2(v, OP_OpenDup, pMWin->iEphCsr+1, pMWin->iEphCsr);
      sqlite3VdbeAddOp2(v, OP_OpenDup, pMWin->iEphCsr+2, pMWin->iEphCsr);
      sqlite3VdbeAddOp2(v, OP_OpenDup, pMWin->iEphCsr+3, pMWin->iEphCsr);
    }else{
      sqlite3SelectDelete(db, pSub);
    }
    if( db->mallocFailed ) rc = SQLITE_NOMEM;
  }

  return rc;
................................................................................
  if( p ){
    sqlite3ExprDelete(db, p->pFilter);
    sqlite3ExprListDelete(db, p->pPartition);
    sqlite3ExprListDelete(db, p->pOrderBy);
    sqlite3ExprDelete(db, p->pEnd);
    sqlite3ExprDelete(db, p->pStart);
    sqlite3DbFree(db, p->zName);
    sqlite3DbFree(db, p->zBase);
    sqlite3DbFree(db, p);
  }
}

/*
** Free the linked list of Window objects starting at the second argument.
*/
................................................................................
}

/*
** Allocate and return a new Window object describing a Window Definition.
*/
Window *sqlite3WindowAlloc(
  Parse *pParse,    /* Parsing context */
  int eType,        /* Frame type. TK_RANGE, TK_ROWS, TK_GROUPS, or 0 */
  int eStart,       /* Start type: CURRENT, PRECEDING, FOLLOWING, UNBOUNDED */
  Expr *pStart,     /* Start window size if TK_PRECEDING or FOLLOWING */
  int eEnd,         /* End type: CURRENT, FOLLOWING, TK_UNBOUNDED, PRECEDING */
  Expr *pEnd,       /* End window size if TK_FOLLOWING or PRECEDING */
  u8 eExclude       /* EXCLUDE clause */
){
  Window *pWin = 0;
  int bImplicitFrame = 0;

  /* Parser assures the following: */
  assert( eType==0 || eType==TK_RANGE || eType==TK_ROWS || eType==TK_GROUPS );
  assert( eStart==TK_CURRENT || eStart==TK_PRECEDING
           || eStart==TK_UNBOUNDED || eStart==TK_FOLLOWING );
  assert( eEnd==TK_CURRENT || eEnd==TK_FOLLOWING
           || eEnd==TK_UNBOUNDED || eEnd==TK_PRECEDING );
  assert( (eStart==TK_PRECEDING || eStart==TK_FOLLOWING)==(pStart!=0) );
  assert( (eEnd==TK_FOLLOWING || eEnd==TK_PRECEDING)==(pEnd!=0) );


  if( eType==0 ){
    bImplicitFrame = 1;
    eType = TK_RANGE;




  }

  /* Additionally, the
  ** starting boundary type may not occur earlier in the following list than
  ** the ending boundary type:
  **
  **   UNBOUNDED PRECEDING
................................................................................
  ** The parser ensures that "UNBOUNDED PRECEDING" cannot be used as an ending
  ** boundary, and than "UNBOUNDED FOLLOWING" cannot be used as a starting
  ** frame boundary.
  */
  if( (eStart==TK_CURRENT && eEnd==TK_PRECEDING)
   || (eStart==TK_FOLLOWING && (eEnd==TK_PRECEDING || eEnd==TK_CURRENT))
  ){
    sqlite3ErrorMsg(pParse, "unsupported frame specification");
    goto windowAllocErr;
  }

  pWin = (Window*)sqlite3DbMallocZero(pParse->db, sizeof(Window));
  if( pWin==0 ) goto windowAllocErr;
  pWin->eFrmType = eType;
  pWin->eStart = eStart;
  pWin->eEnd = eEnd;
  if( eExclude==0 && OptimizationDisabled(pParse->db, SQLITE_WindowFunc) ){
    eExclude = TK_NO;
  }
  pWin->eExclude = eExclude;
  pWin->bImplicitFrame = bImplicitFrame;
  pWin->pEnd = sqlite3WindowOffsetExpr(pParse, pEnd);
  pWin->pStart = sqlite3WindowOffsetExpr(pParse, pStart);
  return pWin;

windowAllocErr:
  sqlite3ExprDelete(pParse->db, pEnd);
  sqlite3ExprDelete(pParse->db, pStart);
  return 0;
}

/*
** Attach PARTITION and ORDER BY clauses pPartition and pOrderBy to window
** pWin. Also, if parameter pBase is not NULL, set pWin->zBase to the
** equivalent nul-terminated string.
*/
Window *sqlite3WindowAssemble(
  Parse *pParse, 
  Window *pWin, 
  ExprList *pPartition, 
  ExprList *pOrderBy, 
  Token *pBase
){
  if( pWin ){
    pWin->pPartition = pPartition;
    pWin->pOrderBy = pOrderBy;
    if( pBase ){
      pWin->zBase = sqlite3DbStrNDup(pParse->db, pBase->z, pBase->n);
    }
  }else{
    sqlite3ExprListDelete(pParse->db, pPartition);
    sqlite3ExprListDelete(pParse->db, pOrderBy);
  }
  return pWin;
}

/*
** Window *pWin has just been created from a WINDOW clause. Tokne pBase
** is the base window. Earlier windows from the same WINDOW clause are
** stored in the linked list starting at pWin->pNextWin. This function
** either updates *pWin according to the base specification, or else
** leaves an error in pParse.
*/
void sqlite3WindowChain(Parse *pParse, Window *pWin, Window *pList){
  if( pWin->zBase ){
    sqlite3 *db = pParse->db;
    Window *pExist = windowFind(pParse, pList, pWin->zBase);
    if( pExist ){
      const char *zErr = 0;
      /* Check for errors */
      if( pWin->pPartition ){
        zErr = "PARTITION clause";
      }else if( pExist->pOrderBy && pWin->pOrderBy ){
        zErr = "ORDER BY clause";
      }else if( pExist->bImplicitFrame==0 ){
        zErr = "frame specification";
      }
      if( zErr ){
        sqlite3ErrorMsg(pParse, 
            "cannot override %s of window: %s", zErr, pWin->zBase
        );
      }else{
        pWin->pPartition = sqlite3ExprListDup(db, pExist->pPartition, 0);
        if( pExist->pOrderBy ){
          assert( pWin->pOrderBy==0 );
          pWin->pOrderBy = sqlite3ExprListDup(db, pExist->pOrderBy, 0);
        }
        sqlite3DbFree(db, pWin->zBase);
        pWin->zBase = 0;
      }
    }
  }
}

/*
** Attach window object pWin to expression p.
*/
void sqlite3WindowAttach(Parse *pParse, Expr *p, Window *pWin){
  if( p ){
    assert( p->op==TK_FUNCTION );
................................................................................
}

/*
** Return 0 if the two window objects are identical, or non-zero otherwise.
** Identical window objects can be processed in a single scan.
*/
int sqlite3WindowCompare(Parse *pParse, Window *p1, Window *p2){
  if( p1->eFrmType!=p2->eFrmType ) return 1;
  if( p1->eStart!=p2->eStart ) return 1;
  if( p1->eEnd!=p2->eEnd ) return 1;
  if( p1->eExclude!=p2->eExclude ) return 1;
  if( sqlite3ExprCompare(pParse, p1->pStart, p2->pStart, -1) ) return 1;
  if( sqlite3ExprCompare(pParse, p1->pEnd, p2->pEnd, -1) ) return 1;
  if( sqlite3ExprListCompare(p1->pPartition, p2->pPartition, -1) ) return 1;
  if( sqlite3ExprListCompare(p1->pOrderBy, p2->pOrderBy, -1) ) return 1;
  return 0;
}

................................................................................
** This is called by code in select.c before it calls sqlite3WhereBegin()
** to begin iterating through the sub-query results. It is used to allocate
** and initialize registers and cursors used by sqlite3WindowCodeStep().
*/
void sqlite3WindowCodeInit(Parse *pParse, Window *pMWin){
  Window *pWin;
  Vdbe *v = sqlite3GetVdbe(pParse);

  /* Allocate registers to use for PARTITION BY values, if any. Initialize
  ** said registers to NULL.  */
  if( pMWin->pPartition ){
    int nExpr = pMWin->pPartition->nExpr;


    pMWin->regPart = pParse->nMem+1;
    pParse->nMem += nExpr;
    sqlite3VdbeAddOp3(v, OP_Null, 0, pMWin->regPart, pMWin->regPart+nExpr-1);
  }

  pMWin->regOne = ++pParse->nMem;
  sqlite3VdbeAddOp2(v, OP_Integer, 1, pMWin->regOne);

  if( pMWin->eExclude ){
    pMWin->regStartRowid = ++pParse->nMem;
    pMWin->regEndRowid = ++pParse->nMem;
    pMWin->csrApp = pParse->nTab++;
    sqlite3VdbeAddOp2(v, OP_Integer, 1, pMWin->regStartRowid);
    sqlite3VdbeAddOp2(v, OP_Integer, 0, pMWin->regEndRowid);
    sqlite3VdbeAddOp2(v, OP_OpenDup, pMWin->csrApp, pMWin->iEphCsr);
    return;
  }

  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *p = pWin->pFunc;
    if( (p->funcFlags & SQLITE_FUNC_MINMAX) && pWin->eStart!=TK_UNBOUNDED ){
      /* The inline versions of min() and max() require a single ephemeral
      ** table and 3 registers. The registers are used as follows:
................................................................................
      sqlite3VdbeAddOp2(v, OP_OpenEphemeral, pWin->csrApp, 2);
      sqlite3VdbeAppendP4(v, pKeyInfo, P4_KEYINFO);
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
    }
    else if( p->zName==nth_valueName || p->zName==first_valueName ){
      /* Allocate two registers at pWin->regApp. These will be used to
      ** store the start and end index of the current frame.  */

      pWin->regApp = pParse->nMem+1;
      pWin->csrApp = pParse->nTab++;
      pParse->nMem += 2;
      sqlite3VdbeAddOp2(v, OP_OpenDup, pWin->csrApp, pMWin->iEphCsr);
    }
    else if( p->zName==leadName || p->zName==lagName ){

      pWin->csrApp = pParse->nTab++;
      sqlite3VdbeAddOp2(v, OP_OpenDup, pWin->csrApp, pMWin->iEphCsr);
    }
  }
}

#define WINDOW_STARTING_INT  0
#define WINDOW_ENDING_INT    1
#define WINDOW_NTH_VALUE_INT 2
#define WINDOW_STARTING_NUM  3
#define WINDOW_ENDING_NUM    4

/*
** A "PRECEDING <expr>" (eCond==0) or "FOLLOWING <expr>" (eCond==1) or the
** value of the second argument to nth_value() (eCond==2) has just been
** evaluated and the result left in register reg. This function generates VM
** code to check that the value is a non-negative integer and throws an
** exception if it is not.
*/
static void windowCheckValue(Parse *pParse, int reg, int eCond){
  static const char *azErr[] = {
    "frame starting offset must be a non-negative integer",
    "frame ending offset must be a non-negative integer",
    "second argument to nth_value must be a positive integer",
    "frame starting offset must be a non-negative number",
    "frame ending offset must be a non-negative number",
  };
  static int aOp[] = { OP_Ge, OP_Ge, OP_Gt, OP_Ge, OP_Ge };
  Vdbe *v = sqlite3GetVdbe(pParse);
  int regZero = sqlite3GetTempReg(pParse);

  assert( eCond>=0 && eCond<ArraySize(azErr) );
  sqlite3VdbeAddOp2(v, OP_Integer, 0, regZero);
  if( eCond>=WINDOW_STARTING_NUM ){
    int regString = sqlite3GetTempReg(pParse);
    sqlite3VdbeAddOp4(v, OP_String8, 0, regString, 0, "", P4_STATIC);
    sqlite3VdbeAddOp3(v, OP_Ge, regString, sqlite3VdbeCurrentAddr(v)+2, reg);
    sqlite3VdbeChangeP5(v, SQLITE_AFF_NUMERIC|SQLITE_JUMPIFNULL);
    VdbeCoverage(v);
    assert( eCond==3 || eCond==4 );
    VdbeCoverageIf(v, eCond==3);
    VdbeCoverageIf(v, eCond==4);
  }else{
    sqlite3VdbeAddOp2(v, OP_MustBeInt, reg, sqlite3VdbeCurrentAddr(v)+2);
    VdbeCoverage(v);
    assert( eCond==0 || eCond==1 || eCond==2 );
    VdbeCoverageIf(v, eCond==0);
    VdbeCoverageIf(v, eCond==1);
    VdbeCoverageIf(v, eCond==2);
  }
  sqlite3VdbeAddOp3(v, aOp[eCond], regZero, sqlite3VdbeCurrentAddr(v)+2, reg);
  VdbeCoverageNeverNullIf(v, eCond==0); /* NULL case captured by */
  VdbeCoverageNeverNullIf(v, eCond==1); /*   the OP_MustBeInt */
  VdbeCoverageNeverNullIf(v, eCond==2);
  VdbeCoverageNeverNullIf(v, eCond==3); /* NULL case caught by */
  VdbeCoverageNeverNullIf(v, eCond==4); /*   the OP_Ge */
  sqlite3MayAbort(pParse);
  sqlite3VdbeAddOp2(v, OP_Halt, SQLITE_ERROR, OE_Abort);
  sqlite3VdbeAppendP4(v, (void*)azErr[eCond], P4_STATIC);
  sqlite3ReleaseTempReg(pParse, regZero);
}

/*
................................................................................
** number of rows in the current partition.
*/
static void windowAggStep(
  Parse *pParse, 
  Window *pMWin,                  /* Linked list of window functions */
  int csr,                        /* Read arguments from this cursor */
  int bInverse,                   /* True to invoke xInverse instead of xStep */
  int reg                         /* Array of registers */

){
  Vdbe *v = sqlite3GetVdbe(pParse);
  Window *pWin;
  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *pFunc = pWin->pFunc;
    int regArg;
    int nArg = windowArgCount(pWin);


    int i;

    for(i=0; i<nArg; i++){
      if( i!=1 || pFunc->zName!=nth_valueName ){
        sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol+i, reg+i);





      }else{

        sqlite3VdbeAddOp3(v, OP_Column, pMWin->iEphCsr, pWin->iArgCol+i, reg+i);
      }

    }


    regArg = reg;


    if( pMWin->regStartRowid==0
     && (pFunc->funcFlags & SQLITE_FUNC_MINMAX) 
     && (pWin->eStart!=TK_UNBOUNDED)
    ){
      int addrIsNull = sqlite3VdbeAddOp1(v, OP_IsNull, regArg);
      VdbeCoverage(v);
      if( bInverse==0 ){
        sqlite3VdbeAddOp2(v, OP_AddImm, pWin->regApp+1, 1);
        sqlite3VdbeAddOp2(v, OP_SCopy, regArg, pWin->regApp);
        sqlite3VdbeAddOp3(v, OP_MakeRecord, pWin->regApp, 2, pWin->regApp+2);
................................................................................
        sqlite3VdbeAddOp4Int(v, OP_SeekGE, pWin->csrApp, 0, regArg, 1);
        VdbeCoverageNeverTaken(v);
        sqlite3VdbeAddOp1(v, OP_Delete, pWin->csrApp);
        sqlite3VdbeJumpHere(v, sqlite3VdbeCurrentAddr(v)-2);
      }
      sqlite3VdbeJumpHere(v, addrIsNull);
    }else if( pWin->regApp ){
      assert( pFunc->zName==nth_valueName
           || pFunc->zName==first_valueName
      );
      assert( bInverse==0 || bInverse==1 );
      sqlite3VdbeAddOp2(v, OP_AddImm, pWin->regApp+1-bInverse, 1);
    }else if( pFunc->xSFunc!=noopStepFunc ){




      int addrIf = 0;
      if( pWin->pFilter ){
        int regTmp;
        assert( nArg==0 || nArg==pWin->pOwner->x.pList->nExpr );
        assert( nArg || pWin->pOwner->x.pList==0 );

        regTmp = sqlite3GetTempReg(pParse);
        sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol+nArg,regTmp);



        addrIf = sqlite3VdbeAddOp3(v, OP_IfNot, regTmp, 0, 1);
        VdbeCoverage(v);

        sqlite3ReleaseTempReg(pParse, regTmp);
      }

      if( pFunc->funcFlags & SQLITE_FUNC_NEEDCOLL ){
        CollSeq *pColl;
        assert( nArg>0 );
        pColl = sqlite3ExprNNCollSeq(pParse, pWin->pOwner->x.pList->a[0].pExpr);
        sqlite3VdbeAddOp4(v, OP_CollSeq, 0,0,0, (const char*)pColl, P4_COLLSEQ);
      }
      sqlite3VdbeAddOp3(v, bInverse? OP_AggInverse : OP_AggStep, 
                        bInverse, regArg, pWin->regAccum);
      sqlite3VdbeAppendP4(v, pFunc, P4_FUNCDEF);
      sqlite3VdbeChangeP5(v, (u8)nArg);
      if( addrIf ) sqlite3VdbeJumpHere(v, addrIf);
    }
  }
}

typedef struct WindowCodeArg WindowCodeArg;
typedef struct WindowCsrAndReg WindowCsrAndReg;
struct WindowCsrAndReg {
  int csr;
  int reg;
};

struct WindowCodeArg {
  Parse *pParse;
  Window *pMWin;
  Vdbe *pVdbe;
  int regGosub;
  int addrGosub;
  int regArg;
  int eDelete;

  WindowCsrAndReg start;
  WindowCsrAndReg current;
  WindowCsrAndReg end;
};

/*
** Values that may be passed as the second argument to windowCodeOp().
*/
#define WINDOW_RETURN_ROW 1
#define WINDOW_AGGINVERSE 2
#define WINDOW_AGGSTEP    3

/*
** Generate VM code to read the window frames peer values from cursor csr into
** an array of registers starting at reg.
*/
static void windowReadPeerValues(
  WindowCodeArg *p,
  int csr,
  int reg
){
  Window *pMWin = p->pMWin;
  ExprList *pOrderBy = pMWin->pOrderBy;
  if( pOrderBy ){
    Vdbe *v = sqlite3GetVdbe(p->pParse);
    ExprList *pPart = pMWin->pPartition;
    int iColOff = pMWin->nBufferCol + (pPart ? pPart->nExpr : 0);
    int i;
    for(i=0; i<pOrderBy->nExpr; i++){
      sqlite3VdbeAddOp3(v, OP_Column, csr, iColOff+i, reg+i);
    }
  }
}

/*
** Generate VM code to invoke either xValue() (bFin==0) or xFinalize()
** (bFin==1) for each window function in the linked list starting at
** pMWin. Or, for built-in window-functions that do not use the standard
** API, generate the equivalent VM code.
*/
static void windowAggFinal(WindowCodeArg *p, int bFin){
  Parse *pParse = p->pParse;
  Window *pMWin = p->pMWin;
  Vdbe *v = sqlite3GetVdbe(pParse);
  Window *pWin;

  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    if( pMWin->regStartRowid==0
     && (pWin->pFunc->funcFlags & SQLITE_FUNC_MINMAX) 
     && (pWin->eStart!=TK_UNBOUNDED)
    ){
      sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);
      sqlite3VdbeAddOp1(v, OP_Last, pWin->csrApp);
      VdbeCoverage(v);
      sqlite3VdbeAddOp3(v, OP_Column, pWin->csrApp, 0, pWin->regResult);
      sqlite3VdbeJumpHere(v, sqlite3VdbeCurrentAddr(v)-2);



    }else if( pWin->regApp ){
      assert( pMWin->regStartRowid==0 );
    }else{
      int nArg = windowArgCount(pWin);
      if( bFin ){
        sqlite3VdbeAddOp2(v, OP_AggFinal, pWin->regAccum, nArg);
        sqlite3VdbeAppendP4(v, pWin->pFunc, P4_FUNCDEF);
        sqlite3VdbeAddOp2(v, OP_Copy, pWin->regAccum, pWin->regResult);
        sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);
      }else{
        sqlite3VdbeAddOp3(v, OP_AggValue,pWin->regAccum,nArg,pWin->regResult);

        sqlite3VdbeAppendP4(v, pWin->pFunc, P4_FUNCDEF);
      }
    }
  }
}

/*
** Generate code to calculate the current values of all window functions in the
** p->pMWin list by doing a full scan of the current window frame. Store the
** results in the Window.regResult registers, ready to return the upper
** layer.
*/
static void windowFullScan(WindowCodeArg *p){
  Window *pWin;
  Parse *pParse = p->pParse;
  Window *pMWin = p->pMWin;
  Vdbe *v = p->pVdbe;

  int regCRowid = 0;              /* Current rowid value */
  int regCPeer = 0;               /* Current peer values */
  int regRowid = 0;               /* AggStep rowid value */
  int regPeer = 0;                /* AggStep peer values */

  int nPeer;
  int lblNext;
  int lblBrk;
  int addrNext;
  int csr = pMWin->csrApp;

  nPeer = (pMWin->pOrderBy ? pMWin->pOrderBy->nExpr : 0);

  lblNext = sqlite3VdbeMakeLabel(pParse);
  lblBrk = sqlite3VdbeMakeLabel(pParse);

  regCRowid = sqlite3GetTempReg(pParse);
  regRowid = sqlite3GetTempReg(pParse);
  if( nPeer ){
    regCPeer = sqlite3GetTempRange(pParse, nPeer);
    regPeer = sqlite3GetTempRange(pParse, nPeer);
  }

  sqlite3VdbeAddOp2(v, OP_Rowid, pMWin->iEphCsr, regCRowid);
  windowReadPeerValues(p, pMWin->iEphCsr, regCPeer);

  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);
  }

  sqlite3VdbeAddOp3(v, OP_SeekGE, csr, lblBrk, pMWin->regStartRowid);
  VdbeCoverage(v);
  addrNext = sqlite3VdbeCurrentAddr(v);
  sqlite3VdbeAddOp2(v, OP_Rowid, csr, regRowid);
  sqlite3VdbeAddOp3(v, OP_Gt, pMWin->regEndRowid, lblBrk, regRowid);
  VdbeCoverageNeverNull(v);

  if( pMWin->eExclude==TK_CURRENT ){
    sqlite3VdbeAddOp3(v, OP_Eq, regCRowid, lblNext, regRowid);
    VdbeCoverageNeverNull(v);
  }else if( pMWin->eExclude!=TK_NO ){
    int addr;
    int addrEq = 0;
    KeyInfo *pKeyInfo = 0;

    if( pMWin->pOrderBy ){
      pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pMWin->pOrderBy, 0, 0);
    }
    if( pMWin->eExclude==TK_TIES ){
      addrEq = sqlite3VdbeAddOp3(v, OP_Eq, regCRowid, 0, regRowid);
      VdbeCoverageNeverNull(v);
    }
    if( pKeyInfo ){
      windowReadPeerValues(p, csr, regPeer);
      sqlite3VdbeAddOp3(v, OP_Compare, regPeer, regCPeer, nPeer);
      sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
      addr = sqlite3VdbeCurrentAddr(v)+1;
      sqlite3VdbeAddOp3(v, OP_Jump, addr, lblNext, addr);
      VdbeCoverageEqNe(v);
    }else{
      sqlite3VdbeAddOp2(v, OP_Goto, 0, lblNext);
    }
    if( addrEq ) sqlite3VdbeJumpHere(v, addrEq);
  }

  windowAggStep(pParse, pMWin, csr, 0, p->regArg);

  sqlite3VdbeResolveLabel(v, lblNext);
  sqlite3VdbeAddOp2(v, OP_Next, csr, addrNext);
  VdbeCoverage(v);
  sqlite3VdbeJumpHere(v, addrNext-1);
  sqlite3VdbeJumpHere(v, addrNext+1);
  sqlite3ReleaseTempReg(pParse, regRowid);
  sqlite3ReleaseTempReg(pParse, regCRowid);
  if( nPeer ){
    sqlite3ReleaseTempRange(pParse, regPeer, nPeer);
    sqlite3ReleaseTempRange(pParse, regCPeer, nPeer);
  }

  windowAggFinal(p, 1);
}

/*
** Invoke the sub-routine at regGosub (generated by code in select.c) to
** return the current row of Window.iEphCsr. If all window functions are
** aggregate window functions that use the standard API, a single
** OP_Gosub instruction is all that this routine generates. Extra VM code
................................................................................
** functions:
**
**   nth_value()
**   first_value()
**   lag()
**   lead()
*/
static void windowReturnOneRow(WindowCodeArg *p){
  Window *pMWin = p->pMWin;
  Vdbe *v = p->pVdbe;

  if( pMWin->regStartRowid ){
    windowFullScan(p);
  }else{
    Parse *pParse = p->pParse;
    Window *pWin;

    for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
      FuncDef *pFunc = pWin->pFunc;
      if( pFunc->zName==nth_valueName
       || pFunc->zName==first_valueName
      ){
        int csr = pWin->csrApp;
        int lbl = sqlite3VdbeMakeLabel(pParse);
        int tmpReg = sqlite3GetTempReg(pParse);
        sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);
  
        if( pFunc->zName==nth_valueName ){
          sqlite3VdbeAddOp3(v, OP_Column,pMWin->iEphCsr,pWin->iArgCol+1,tmpReg);
          windowCheckValue(pParse, tmpReg, 2);
        }else{
          sqlite3VdbeAddOp2(v, OP_Integer, 1, tmpReg);
        }
        sqlite3VdbeAddOp3(v, OP_Add, tmpReg, pWin->regApp, tmpReg);
        sqlite3VdbeAddOp3(v, OP_Gt, pWin->regApp+1, lbl, tmpReg);
        VdbeCoverageNeverNull(v);
        sqlite3VdbeAddOp3(v, OP_SeekRowid, csr, 0, tmpReg);
................................................................................
        VdbeCoverageNeverTaken(v);
        sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol, pWin->regResult);
        sqlite3VdbeResolveLabel(v, lbl);
        sqlite3ReleaseTempReg(pParse, tmpReg);
      }
      else if( pFunc->zName==leadName || pFunc->zName==lagName ){
        int nArg = pWin->pOwner->x.pList->nExpr;

        int csr = pWin->csrApp;
        int lbl = sqlite3VdbeMakeLabel(pParse);
        int tmpReg = sqlite3GetTempReg(pParse);
        int iEph = pMWin->iEphCsr;
  
        if( nArg<3 ){
          sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regResult);
        }else{
          sqlite3VdbeAddOp3(v, OP_Column, iEph,pWin->iArgCol+2,pWin->regResult);
        }
        sqlite3VdbeAddOp2(v, OP_Rowid, iEph, tmpReg);
................................................................................
        sqlite3VdbeAddOp3(v, OP_SeekRowid, csr, lbl, tmpReg);
        VdbeCoverage(v);
        sqlite3VdbeAddOp3(v, OP_Column, csr, pWin->iArgCol, pWin->regResult);
        sqlite3VdbeResolveLabel(v, lbl);
        sqlite3ReleaseTempReg(pParse, tmpReg);
      }
    }

  }






























  sqlite3VdbeAddOp2(v, OP_Gosub, p->regGosub, p->addrGosub);







}

/*
** Generate code to set the accumulator register for each window function
** in the linked list passed as the second argument to NULL. And perform
** any equivalent initialization required by any built-in window functions
** in the list.
................................................................................
  int regArg;
  int nArg = 0;
  Window *pWin;
  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *pFunc = pWin->pFunc;
    sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);
    nArg = MAX(nArg, windowArgCount(pWin));
    if( pMWin->regStartRowid==0 ){
      if( pFunc->zName==nth_valueName || pFunc->zName==first_valueName ){

        sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp);
        sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
      }

      if( (pFunc->funcFlags & SQLITE_FUNC_MINMAX) && pWin->csrApp ){
        assert( pWin->eStart!=TK_UNBOUNDED );
        sqlite3VdbeAddOp1(v, OP_ResetSorter, pWin->csrApp);
        sqlite3VdbeAddOp2(v, OP_Integer, 0, pWin->regApp+1);
      }
    }
  }
  regArg = pParse->nMem+1;
  pParse->nMem += nArg;
  return regArg;
}

/* 
** Return true if the current frame should be cached in the ephemeral table,
** even if there are no xInverse() calls required.
*/
static int windowCacheFrame(Window *pMWin){
  Window *pWin;
  if( pMWin->regStartRowid ) return 1;
  for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
    FuncDef *pFunc = pWin->pFunc;
    if( (pFunc->zName==nth_valueName)
     || (pFunc->zName==first_valueName)
     || (pFunc->zName==leadName)
     || (pFunc->zName==lagName)
    ){
      return 1;
    }
  }
  return 0;
}

/*
** regOld and regNew are each the first register in an array of size
** pOrderBy->nExpr. This function generates code to compare the two
** arrays of registers using the collation sequences and other comparison
** parameters specified by pOrderBy. 
**
** If the two arrays are not equal, the contents of regNew is copied to 
** regOld and control falls through. Otherwise, if the contents of the arrays
** are equal, an OP_Goto is executed. The address of the OP_Goto is returned.
*/
static void windowIfNewPeer(
  Parse *pParse,
  ExprList *pOrderBy,
  int regNew,                     /* First in array of new values */
  int regOld,                     /* First in array of old values */
  int addr                        /* Jump here */
){
  Vdbe *v = sqlite3GetVdbe(pParse);
  if( pOrderBy ){
    int nVal = pOrderBy->nExpr;
    KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pOrderBy, 0, 0);
    sqlite3VdbeAddOp3(v, OP_Compare, regOld, regNew, nVal);
    sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
    sqlite3VdbeAddOp3(v, OP_Jump, 
      sqlite3VdbeCurrentAddr(v)+1, addr, sqlite3VdbeCurrentAddr(v)+1
    );
    VdbeCoverageEqNe(v);
    sqlite3VdbeAddOp3(v, OP_Copy, regNew, regOld, nVal-1);
  }else{
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addr);
  }
}

/*
** This function is called as part of generating VM programs for RANGE
** offset PRECEDING/FOLLOWING frame boundaries. Assuming "ASC" order for
** the ORDER BY term in the window, it generates code equivalent to:
**
**   if( csr1.peerVal + regVal >= csr2.peerVal ) goto lbl;
**
** A special type of arithmetic is used such that if csr.peerVal is not
** a numeric type (real or integer), then the result of the addition is
** a copy of csr1.peerVal.
*/
static void windowCodeRangeTest(
  WindowCodeArg *p, 
  int op,                          /* OP_Ge or OP_Gt */
  int csr1, 
  int regVal, 
  int csr2,
  int lbl
){
  Parse *pParse = p->pParse;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int reg1 = sqlite3GetTempReg(pParse);
  int reg2 = sqlite3GetTempReg(pParse);
  int arith = OP_Add;
  int addrGe;

  int regString = ++pParse->nMem;

  assert( op==OP_Ge || op==OP_Gt || op==OP_Le );
  assert( p->pMWin->pOrderBy && p->pMWin->pOrderBy->nExpr==1 );
  if( p->pMWin->pOrderBy->a[0].sortOrder ){
    switch( op ){
      case OP_Ge: op = OP_Le; break;
      case OP_Gt: op = OP_Lt; break;
      default: assert( op==OP_Le ); op = OP_Ge; break;
    }
    arith = OP_Subtract;
  }

  windowReadPeerValues(p, csr1, reg1);
  windowReadPeerValues(p, csr2, reg2);

  /* Check if the peer value for csr1 value is a text or blob by comparing
  ** it to the smallest possible string - ''. If it is, jump over the
  ** OP_Add or OP_Subtract operation and proceed directly to the comparison. */
  sqlite3VdbeAddOp4(v, OP_String8, 0, regString, 0, "", P4_STATIC);
  addrGe = sqlite3VdbeAddOp3(v, OP_Ge, regString, 0, reg1);
  VdbeCoverage(v);
  sqlite3VdbeAddOp3(v, arith, regVal, reg1, reg1);
  sqlite3VdbeJumpHere(v, addrGe);
  sqlite3VdbeAddOp3(v, op, reg2, lbl, reg1); VdbeCoverage(v);
  sqlite3VdbeChangeP5(v, SQLITE_NULLEQ);
  assert( op==OP_Ge || op==OP_Gt || op==OP_Lt || op==OP_Le );
  testcase(op==OP_Ge); VdbeCoverageIf(v, op==OP_Ge);
  testcase(op==OP_Lt); VdbeCoverageIf(v, op==OP_Lt);
  testcase(op==OP_Le); VdbeCoverageIf(v, op==OP_Le);
  testcase(op==OP_Gt); VdbeCoverageIf(v, op==OP_Gt);

  sqlite3ReleaseTempReg(pParse, reg1);
  sqlite3ReleaseTempReg(pParse, reg2);
}

/*
** Helper function for sqlite3WindowCodeStep(). Each call to this function
** generates VM code for a single RETURN_ROW, AGGSTEP or AGGINVERSE 
** operation. Refer to the header comment for sqlite3WindowCodeStep() for
** details.
*/
static int windowCodeOp(
 WindowCodeArg *p,                /* Context object */
 int op,                          /* WINDOW_RETURN_ROW, AGGSTEP or AGGINVERSE */
 int regCountdown,                /* Register for OP_IfPos countdown */
 int jumpOnEof                    /* Jump here if stepped cursor reaches EOF */
){
  int csr, reg;
  Parse *pParse = p->pParse;
  Window *pMWin = p->pMWin;
  int ret = 0;
  Vdbe *v = p->pVdbe;
  int addrIf = 0; 
  int addrContinue = 0;
  int addrGoto = 0;
  int bPeer = (pMWin->eFrmType!=TK_ROWS);

  int lblDone = sqlite3VdbeMakeLabel(pParse);
  int addrNextRange = 0;

  /* Special case - WINDOW_AGGINVERSE is always a no-op if the frame
  ** starts with UNBOUNDED PRECEDING. */
  if( op==WINDOW_AGGINVERSE && pMWin->eStart==TK_UNBOUNDED ){
    assert( regCountdown==0 && jumpOnEof==0 );
    return 0;
  }

  if( regCountdown>0 ){
    if( pMWin->eFrmType==TK_RANGE ){
      addrNextRange = sqlite3VdbeCurrentAddr(v);
      assert( op==WINDOW_AGGINVERSE || op==WINDOW_AGGSTEP );
      if( op==WINDOW_AGGINVERSE ){
        if( pMWin->eStart==TK_FOLLOWING ){
          windowCodeRangeTest(
              p, OP_Le, p->current.csr, regCountdown, p->start.csr, lblDone
          );
        }else{
          windowCodeRangeTest(
              p, OP_Ge, p->start.csr, regCountdown, p->current.csr, lblDone
          );
        }
      }else{
        windowCodeRangeTest(
            p, OP_Gt, p->end.csr, regCountdown, p->current.csr, lblDone
        );
      }
    }else{
      addrIf = sqlite3VdbeAddOp3(v, OP_IfPos, regCountdown, 0, 1);
      VdbeCoverage(v);
    }
  }

  if( op==WINDOW_RETURN_ROW && pMWin->regStartRowid==0 ){
    windowAggFinal(p, 0);
  }
  addrContinue = sqlite3VdbeCurrentAddr(v);
  switch( op ){
    case WINDOW_RETURN_ROW:
      csr = p->current.csr;
      reg = p->current.reg;
      windowReturnOneRow(p);
      break;

    case WINDOW_AGGINVERSE:
      csr = p->start.csr;
      reg = p->start.reg;
      if( pMWin->regStartRowid ){
        assert( pMWin->regEndRowid );
        sqlite3VdbeAddOp2(v, OP_AddImm, pMWin->regStartRowid, 1);
      }else{
        windowAggStep(pParse, pMWin, csr, 1, p->regArg);
      }
      break;

    default:
      assert( op==WINDOW_AGGSTEP );
      csr = p->end.csr;
      reg = p->end.reg;
      if( pMWin->regStartRowid ){
        assert( pMWin->regEndRowid );
        sqlite3VdbeAddOp2(v, OP_AddImm, pMWin->regEndRowid, 1);
      }else{
        windowAggStep(pParse, pMWin, csr, 0, p->regArg);
      }
      break;
  }

  if( op==p->eDelete ){
    sqlite3VdbeAddOp1(v, OP_Delete, csr);
    sqlite3VdbeChangeP5(v, OPFLAG_SAVEPOSITION);
  }

  if( jumpOnEof ){
    sqlite3VdbeAddOp2(v, OP_Next, csr, sqlite3VdbeCurrentAddr(v)+2);
    VdbeCoverage(v);
    ret = sqlite3VdbeAddOp0(v, OP_Goto);
  }else{
    sqlite3VdbeAddOp2(v, OP_Next, csr, sqlite3VdbeCurrentAddr(v)+1+bPeer);
    VdbeCoverage(v);
    if( bPeer ){
      addrGoto = sqlite3VdbeAddOp0(v, OP_Goto);
    }
  }

  if( bPeer ){
    int nReg = (pMWin->pOrderBy ? pMWin->pOrderBy->nExpr : 0);
    int regTmp = (nReg ? sqlite3GetTempRange(pParse, nReg) : 0);
    windowReadPeerValues(p, csr, regTmp);
    windowIfNewPeer(pParse, pMWin->pOrderBy, regTmp, reg, addrContinue);
    sqlite3ReleaseTempRange(pParse, regTmp, nReg);
  }

  if( addrNextRange ){
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addrNextRange);
  }
  sqlite3VdbeResolveLabel(v, lblDone);
  if( addrGoto ) sqlite3VdbeJumpHere(v, addrGoto);
  if( addrIf ) sqlite3VdbeJumpHere(v, addrIf);
  return ret;
}









































































































































































































































































































































































































































/*
** Allocate and return a duplicate of the Window object indicated by the
** third argument. Set the Window.pOwner field of the new object to
** pOwner.
*/
Window *sqlite3WindowDup(sqlite3 *db, Expr *pOwner, Window *p){
................................................................................
    pNew = sqlite3DbMallocZero(db, sizeof(Window));
    if( pNew ){
      pNew->zName = sqlite3DbStrDup(db, p->zName);
      pNew->pFilter = sqlite3ExprDup(db, p->pFilter, 0);
      pNew->pFunc = p->pFunc;
      pNew->pPartition = sqlite3ExprListDup(db, p->pPartition, 0);
      pNew->pOrderBy = sqlite3ExprListDup(db, p->pOrderBy, 0);
      pNew->eFrmType = p->eFrmType;
      pNew->eEnd = p->eEnd;
      pNew->eStart = p->eStart;
      pNew->eExclude = p->eExclude;
      pNew->pStart = sqlite3ExprDup(db, p->pStart, 0);
      pNew->pEnd = sqlite3ExprDup(db, p->pEnd, 0);
      pNew->pOwner = pOwner;
    }
  }
  return pNew;
}
................................................................................
    *pp = sqlite3WindowDup(db, 0, pWin);
    if( *pp==0 ) break;
    pp = &((*pp)->pNextWin);
  }

  return pRet;
}

/*
** Return true if it can be determined at compile time that expression 
** pExpr evaluates to a value that, when cast to an integer, is greater 
** than zero. False otherwise.
**
** If an OOM error occurs, this function sets the Parse.db.mallocFailed 
** flag and returns zero.
*/
static int windowExprGtZero(Parse *pParse, Expr *pExpr){
  int ret = 0;
  sqlite3 *db = pParse->db;
  sqlite3_value *pVal = 0;
  sqlite3ValueFromExpr(db, pExpr, db->enc, SQLITE_AFF_NUMERIC, &pVal);
  if( pVal && sqlite3_value_int(pVal)>0 ){
    ret = 1;
  }
  sqlite3ValueFree(pVal);
  return ret;
}

/*
** sqlite3WhereBegin() has already been called for the SELECT statement 
** passed as the second argument when this function is invoked. It generates
** code to populate the Window.regResult register for each window function 
** and invoke the sub-routine at instruction addrGosub once for each row.

** sqlite3WhereEnd() is always called before returning. 
**



** This function handles several different types of window frames, which
** require slightly different processing. The following pseudo code is
** used to implement window frames of the form:
**
**   ROWS BETWEEN <expr1> PRECEDING AND <expr2> FOLLOWING
**
** Other window frame types use variants of the following:
**
**     ... loop started by sqlite3WhereBegin() ...








**       if( new partition ){
**         Gosub flush
**       }
**       Insert new row into eph table.
**       

**       if( first row of partition ){
**         // Rewind three cursors, all open on the eph table.
**         Rewind(csrEnd);
**         Rewind(csrStart);
**         Rewind(csrCurrent);
**       

**         regEnd = <expr2>          // FOLLOWING expression
**         regStart = <expr1>        // PRECEDING expression
**       }else{
**         // First time this branch is taken, the eph table contains two 
**         // rows. The first row in the partition, which all three cursors
**         // currently point to, and the following row.
**         AGGSTEP
**         if( (regEnd--)<=0 ){
**           RETURN_ROW
**           if( (regStart--)<=0 ){
**             AGGINVERSE
**           }
**         }
**       }
**     }
**     flush:
**       AGGSTEP
**       while( 1 ){
**         RETURN ROW
**         if( csrCurrent is EOF ) break;
**         if( (regStart--)<=0 ){
**           AggInverse(csrStart)
**           Next(csrStart)
**         }
**       }
**




** The pseudo-code above uses the following shorthand:
**

**   AGGSTEP:    invoke the aggregate xStep() function for each window function
**               with arguments read from the current row of cursor csrEnd, then
**               step cursor csrEnd forward one row (i.e. sqlite3BtreeNext()).
**

**   RETURN_ROW: return a row to the caller based on the contents of the 
**               current row of csrCurrent and the current state of all 
**               aggregates. Then step cursor csrCurrent forward one row.
**




**   AGGINVERSE: invoke the aggregate xInverse() function for each window 
**               functions with arguments read from the current row of cursor
**               csrStart. Then step csrStart forward one row.
**


** There are two other ROWS window frames that are handled significantly
** differently from the above - "BETWEEN <expr> PRECEDING AND <expr> PRECEDING"
** and "BETWEEN <expr> FOLLOWING AND <expr> FOLLOWING". These are special 
** cases because they change the order in which the three cursors (csrStart,
** csrCurrent and csrEnd) iterate through the ephemeral table. Cases that
** use UNBOUNDED or CURRENT ROW are much simpler variations on one of these
** three.
**

**   ROWS BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
**
**     ... loop started by sqlite3WhereBegin() ...
**       if( new partition ){
**         Gosub flush
**       }
**       Insert new row into eph table.
**       if( first row of partition ){
**         Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**         regEnd = <expr2>
**         regStart = <expr1>
**       }else{
**         if( (regEnd--)<=0 ){
**           AGGSTEP
**         }
**         RETURN_ROW
**         if( (regStart--)<=0 ){
**           AGGINVERSE
**         }
**       }
**     }
**     flush:
**       if( (regEnd--)<=0 ){
**         AGGSTEP
**       }
**       RETURN_ROW
**
**
**   ROWS BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
**
**     ... loop started by sqlite3WhereBegin() ...
**     if( new partition ){
**       Gosub flush
**     }
**     Insert new row into eph table.
**     if( first row of partition ){
**       Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**       regEnd = <expr2>
**       regStart = regEnd - <expr1>
**     }else{
**       AGGSTEP
**       if( (regEnd--)<=0 ){
**         RETURN_ROW
**       }
**       if( (regStart--)<=0 ){
**         AGGINVERSE
**       }
**     }
**   }
**   flush:
**     AGGSTEP
**     while( 1 ){
**       if( (regEnd--)<=0 ){
**         RETURN_ROW
**         if( eof ) break;
**       }
**       if( (regStart--)<=0 ){
**         AGGINVERSE
**         if( eof ) break
**       }
**     }
**     while( !eof csrCurrent ){
**       RETURN_ROW
**     }
**
** For the most part, the patterns above are adapted to support UNBOUNDED by
** assuming that it is equivalent to "infinity PRECEDING/FOLLOWING" and
** CURRENT ROW by assuming that it is equivilent to "0 PRECEDING/FOLLOWING".
** This is optimized of course - branches that will never be taken and
** conditions that are always true are omitted from the VM code. The only
** exceptional case is:
**
**   ROWS BETWEEN <expr1> FOLLOWING AND UNBOUNDED FOLLOWING
**
**     ... loop started by sqlite3WhereBegin() ...
**     if( new partition ){
**       Gosub flush
**     }
**     Insert new row into eph table.
**     if( first row of partition ){
**       Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**       regStart = <expr1>
**     }else{
**       AGGSTEP
**     }
**   }
**   flush:
**     AGGSTEP
**     while( 1 ){
**       if( (regStart--)<=0 ){
**         AGGINVERSE
**         if( eof ) break
**       }
**       RETURN_ROW
**     }
**     while( !eof csrCurrent ){
**       RETURN_ROW
**     }
**
** Also requiring special handling are the cases:
**
**   ROWS BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
**   ROWS BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
**
** when (expr1 < expr2). This is detected at runtime, not by this function.
** To handle this case, the pseudo-code programs depicted above are modified
** slightly to be:
**
**     ... loop started by sqlite3WhereBegin() ...
**     if( new partition ){
**       Gosub flush
**     }
**     Insert new row into eph table.
**     if( first row of partition ){
**       Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**       regEnd = <expr2>
**       regStart = <expr1>
**       if( regEnd < regStart ){
**         RETURN_ROW
**         delete eph table contents
**         continue
**       }
**     ...
**
** The new "continue" statement in the above jumps to the next iteration
** of the outer loop - the one started by sqlite3WhereBegin().
**
** The various GROUPS cases are implemented using the same patterns as
** ROWS. The VM code is modified slightly so that:
**
**   1. The else branch in the main loop is only taken if the row just
**      added to the ephemeral table is the start of a new group. In
**      other words, it becomes:
**
**         ... loop started by sqlite3WhereBegin() ...
**         if( new partition ){
**           Gosub flush
**         }
**         Insert new row into eph table.
**         if( first row of partition ){
**           Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**           regEnd = <expr2>
**           regStart = <expr1>
**         }else if( new group ){
**           ... 
**         }
**       }
**
**   2. Instead of processing a single row, each RETURN_ROW, AGGSTEP or 
**      AGGINVERSE step processes the current row of the relevant cursor and
**      all subsequent rows belonging to the same group.
**
** RANGE window frames are a little different again. As for GROUPS, the 
** main loop runs once per group only. And RETURN_ROW, AGGSTEP and AGGINVERSE
** deal in groups instead of rows. As for ROWS and GROUPS, there are three
** basic cases:
**
**   RANGE BETWEEN <expr1> PRECEDING AND <expr2> FOLLOWING

**



**     ... loop started by sqlite3WhereBegin() ...
**       if( new partition ){
**         Gosub flush
**       }
**       Insert new row into eph table.
**       if( first row of partition ){
**         Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**         regEnd = <expr2>
**         regStart = <expr1>
**       }else{
**         AGGSTEP
**         while( (csrCurrent.key + regEnd) < csrEnd.key ){
**           RETURN_ROW
**           while( csrStart.key + regStart) < csrCurrent.key ){
**             AGGINVERSE
**           }
**         }
**       }
**     }
**     flush:
**       AGGSTEP
**       while( 1 ){
**         RETURN ROW
**         if( csrCurrent is EOF ) break;
**           while( csrStart.key + regStart) < csrCurrent.key ){
**             AGGINVERSE
**           }
**         }
**       }
**
** In the above notation, "csr.key" means the current value of the ORDER BY 
** expression (there is only ever 1 for a RANGE that uses an <expr> FOLLOWING
** or <expr PRECEDING) read from cursor csr.
**
**   RANGE BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
**
**     ... loop started by sqlite3WhereBegin() ...
**       if( new partition ){
**         Gosub flush
**       }
**       Insert new row into eph table.
**       if( first row of partition ){
**         Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**         regEnd = <expr2>
**         regStart = <expr1>
**       }else{
**         if( (csrEnd.key + regEnd) <= csrCurrent.key ){
**           AGGSTEP
**         }
**         while( (csrStart.key + regStart) < csrCurrent.key ){
**           AGGINVERSE
**         }
**         RETURN_ROW
**       }
**     }
**     flush:
**       while( (csrEnd.key + regEnd) <= csrCurrent.key ){
**         AGGSTEP
**       }
**       while( (csrStart.key + regStart) < csrCurrent.key ){
**         AGGINVERSE
**       }
**       RETURN_ROW
**
**   RANGE BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
**
**     ... loop started by sqlite3WhereBegin() ...
**       if( new partition ){
**         Gosub flush
**       }
**       Insert new row into eph table.
**       if( first row of partition ){
**         Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
**         regEnd = <expr2>
**         regStart = <expr1>
**       }else{
**         AGGSTEP
**         while( (csrCurrent.key + regEnd) < csrEnd.key ){
**           while( (csrCurrent.key + regStart) > csrStart.key ){
**             AGGINVERSE
**           }
**           RETURN_ROW
**         }
**       }
**     }
**     flush:
**       AGGSTEP
**       while( 1 ){
**         while( (csrCurrent.key + regStart) > csrStart.key ){
**           AGGINVERSE
**           if( eof ) break "while( 1 )" loop.
**         }
**         RETURN_ROW
**       }
**       while( !eof csrCurrent ){
**         RETURN_ROW
**       }
**
** The text above leaves out many details. Refer to the code and comments
** below for a more complete picture.
*/


void sqlite3WindowCodeStep(
  Parse *pParse,                  /* Parse context */
  Select *p,                      /* Rewritten SELECT statement */
  WhereInfo *pWInfo,              /* Context returned by sqlite3WhereBegin() */
  int regGosub,                   /* Register for OP_Gosub */
  int addrGosub                   /* OP_Gosub here to return each row */
){



  Window *pMWin = p->pWin;
  ExprList *pOrderBy = pMWin->pOrderBy;
  Vdbe *v = sqlite3GetVdbe(pParse);
  int csrWrite;                   /* Cursor used to write to eph. table */
  int csrInput = p->pSrc->a[0].iCursor;     /* Cursor of sub-select */
  int nInput = p->pSrc->a[0].pTab->nCol;    /* Number of cols returned by sub */
  int iInput;                               /* To iterate through sub cols */
  int addrNe;                     /* Address of OP_Ne */
  int addrGosubFlush = 0;         /* Address of OP_Gosub to flush: */
  int addrInteger = 0;            /* Address of OP_Integer */
  int addrEmpty;                  /* Address of OP_Rewind in flush: */
  int regStart = 0;               /* Value of <expr> PRECEDING */
  int regEnd = 0;                 /* Value of <expr> FOLLOWING */
  int regNew;                     /* Array of registers holding new input row */
  int regRecord;                  /* regNew array in record form */
  int regRowid;                   /* Rowid for regRecord in eph table */
  int regNewPeer = 0;             /* Peer values for new row (part of regNew) */
  int regPeer = 0;                /* Peer values for current row */
  int regFlushPart = 0;           /* Register for "Gosub flush_partition" */
  WindowCodeArg s;                /* Context object for sub-routines */
  int lblWhereEnd;                /* Label just before sqlite3WhereEnd() code */

  assert( pMWin->eStart==TK_PRECEDING || pMWin->eStart==TK_CURRENT 
       || pMWin->eStart==TK_FOLLOWING || pMWin->eStart==TK_UNBOUNDED 
  );
  assert( pMWin->eEnd==TK_FOLLOWING || pMWin->eEnd==TK_CURRENT 
       || pMWin->eEnd==TK_UNBOUNDED || pMWin->eEnd==TK_PRECEDING 
  );
  assert( pMWin->eExclude==0 || pMWin->eExclude==TK_CURRENT
       || pMWin->eExclude==TK_GROUP || pMWin->eExclude==TK_TIES
       || pMWin->eExclude==TK_NO
  );

  lblWhereEnd = sqlite3VdbeMakeLabel(pParse);

  /* Fill in the context object */
  memset(&s, 0, sizeof(WindowCodeArg));
  s.pParse = pParse;
  s.pMWin = pMWin;
  s.pVdbe = v;








  s.regGosub = regGosub;
  s.addrGosub = addrGosub;
  s.current.csr = pMWin->iEphCsr;
  csrWrite = s.current.csr+1;
  s.start.csr = s.current.csr+2;
  s.end.csr = s.current.csr+3;

  /* Figure out when rows may be deleted from the ephemeral table. There
  ** are four options - they may never be deleted (eDelete==0), they may 
  ** be deleted as soon as they are no longer part of the window frame
  ** (eDelete==WINDOW_AGGINVERSE), they may be deleted as after the row 
  ** has been returned to the caller (WINDOW_RETURN_ROW), or they may
  ** be deleted after they enter the frame (WINDOW_AGGSTEP). */
  switch( pMWin->eStart ){
    case TK_FOLLOWING:
      if( pMWin->eFrmType!=TK_RANGE
       && windowExprGtZero(pParse, pMWin->pStart)
      ){

        s.eDelete = WINDOW_RETURN_ROW;
      }
      break;
    case TK_UNBOUNDED:
      if( windowCacheFrame(pMWin)==0 ){
        if( pMWin->eEnd==TK_PRECEDING ){
          if( pMWin->eFrmType!=TK_RANGE
           && windowExprGtZero(pParse, pMWin->pEnd)
          ){
            s.eDelete = WINDOW_AGGSTEP;
          }
        }else{
          s.eDelete = WINDOW_RETURN_ROW;
        }
      }
      break;
    default:
      s.eDelete = WINDOW_AGGINVERSE;
      break;
  }





  /* Allocate registers for the array of values from the sub-query, the
  ** samve values in record form, and the rowid used to insert said record
  ** into the ephemeral table.  */
  regNew = pParse->nMem+1;
  pParse->nMem += nInput;
  regRecord = ++pParse->nMem;
  regRowid = ++pParse->nMem;

  /* If the window frame contains an "<expr> PRECEDING" or "<expr> FOLLOWING"
  ** clause, allocate registers to store the results of evaluating each
  ** <expr>.  */
  if( pMWin->eStart==TK_PRECEDING || pMWin->eStart==TK_FOLLOWING ){
    regStart = ++pParse->nMem;
  }
  if( pMWin->eEnd==TK_PRECEDING || pMWin->eEnd==TK_FOLLOWING ){
    regEnd = ++pParse->nMem;
  }

  /* If this is not a "ROWS BETWEEN ..." frame, then allocate arrays of
  ** registers to store copies of the ORDER BY expressions (peer values) 
  ** for the main loop, and for each cursor (start, current and end). */
  if( pMWin->eFrmType!=TK_ROWS ){
    int nPeer = (pOrderBy ? pOrderBy->nExpr : 0);
    regNewPeer = regNew + pMWin->nBufferCol;
    if( pMWin->pPartition ) regNewPeer += pMWin->pPartition->nExpr;
    regPeer = pParse->nMem+1;       pParse->nMem += nPeer;
    s.start.reg = pParse->nMem+1;   pParse->nMem += nPeer;
    s.current.reg = pParse->nMem+1; pParse->nMem += nPeer;
    s.end.reg = pParse->nMem+1;     pParse->nMem += nPeer;
  }

  /* Load the column values for the row returned by the sub-select
  ** into an array of registers starting at regNew. Assemble them into
  ** a record in register regRecord. */
  for(iInput=0; iInput<nInput; iInput++){
    sqlite3VdbeAddOp3(v, OP_Column, csrInput, iInput, regNew+iInput);
  }
  sqlite3VdbeAddOp3(v, OP_MakeRecord, regNew, nInput, regRecord);

  /* An input row has just been read into an array of registers starting
  ** at regNew. If the window has a PARTITION clause, this block generates 
  ** VM code to check if the input row is the start of a new partition.
  ** If so, it does an OP_Gosub to an address to be filled in later. The
  ** address of the OP_Gosub is stored in local variable addrGosubFlush. */
  if( pMWin->pPartition ){
    int addr;
    ExprList *pPart = pMWin->pPartition;
    int nPart = pPart->nExpr;
    int regNewPart = regNew + pMWin->nBufferCol;
    KeyInfo *pKeyInfo = sqlite3KeyInfoFromExprList(pParse, pPart, 0, 0);

    regFlushPart = ++pParse->nMem;
    addr = sqlite3VdbeAddOp3(v, OP_Compare, regNewPart, pMWin->regPart, nPart);
    sqlite3VdbeAppendP4(v, (void*)pKeyInfo, P4_KEYINFO);
    sqlite3VdbeAddOp3(v, OP_Jump, addr+2, addr+4, addr+2);
    VdbeCoverageEqNe(v);
    addrGosubFlush = sqlite3VdbeAddOp1(v, OP_Gosub, regFlushPart);
    VdbeComment((v, "call flush_partition"));
    sqlite3VdbeAddOp3(v, OP_Copy, regNewPart, pMWin->regPart, nPart-1);
  }

  /* Insert the new row into the ephemeral table */
  sqlite3VdbeAddOp2(v, OP_NewRowid, csrWrite, regRowid);
  sqlite3VdbeAddOp3(v, OP_Insert, csrWrite, regRecord, regRowid);
  addrNe = sqlite3VdbeAddOp3(v, OP_Ne, pMWin->regOne, 0, regRowid);
  VdbeCoverageNeverNull(v);

  /* This block is run for the first row of each partition */
  s.regArg = windowInitAccum(pParse, pMWin);

  if( regStart ){
    sqlite3ExprCode(pParse, pMWin->pStart, regStart);
    windowCheckValue(pParse, regStart, 0 + (pMWin->eFrmType==TK_RANGE ? 3 : 0));
  }
  if( regEnd ){
    sqlite3ExprCode(pParse, pMWin->pEnd, regEnd);
    windowCheckValue(pParse, regEnd, 1 + (pMWin->eFrmType==TK_RANGE ? 3 : 0));
  }

  if( pMWin->eStart==pMWin->eEnd && regStart ){
    int op = ((pMWin->eStart==TK_FOLLOWING) ? OP_Ge : OP_Le);
    int addrGe = sqlite3VdbeAddOp3(v, op, regStart, 0, regEnd);
    VdbeCoverageNeverNullIf(v, op==OP_Ge); /* NeverNull because bound <expr> */
    VdbeCoverageNeverNullIf(v, op==OP_Le); /*   values previously checked */
    windowAggFinal(&s, 0);
    sqlite3VdbeAddOp2(v, OP_Rewind, s.current.csr, 1);
    VdbeCoverageNeverTaken(v);
    windowReturnOneRow(&s);
    sqlite3VdbeAddOp1(v, OP_ResetSorter, s.current.csr);
    sqlite3VdbeAddOp2(v, OP_Goto, 0, lblWhereEnd);
    sqlite3VdbeJumpHere(v, addrGe);
  }
  if( pMWin->eStart==TK_FOLLOWING && pMWin->eFrmType!=TK_RANGE && regEnd ){
    assert( pMWin->eEnd==TK_FOLLOWING );
    sqlite3VdbeAddOp3(v, OP_Subtract, regStart, regEnd, regStart);
  }

  if( pMWin->eStart!=TK_UNBOUNDED ){
    sqlite3VdbeAddOp2(v, OP_Rewind, s.start.csr, 1);
    VdbeCoverageNeverTaken(v);
  }
  sqlite3VdbeAddOp2(v, OP_Rewind, s.current.csr, 1);
  VdbeCoverageNeverTaken(v);
  sqlite3VdbeAddOp2(v, OP_Rewind, s.end.csr, 1);
  VdbeCoverageNeverTaken(v);
  if( regPeer && pOrderBy ){
    sqlite3VdbeAddOp3(v, OP_Copy, regNewPeer, regPeer, pOrderBy->nExpr-1);
    sqlite3VdbeAddOp3(v, OP_Copy, regPeer, s.start.reg, pOrderBy->nExpr-1);
    sqlite3VdbeAddOp3(v, OP_Copy, regPeer, s.current.reg, pOrderBy->nExpr-1);
    sqlite3VdbeAddOp3(v, OP_Copy, regPeer, s.end.reg, pOrderBy->nExpr-1);
  }

  sqlite3VdbeAddOp2(v, OP_Goto, 0, lblWhereEnd);

  sqlite3VdbeJumpHere(v, addrNe);

  /* Beginning of the block executed for the second and subsequent rows. */
  if( regPeer ){
    windowIfNewPeer(pParse, pOrderBy, regNewPeer, regPeer, lblWhereEnd);
  }
  if( pMWin->eStart==TK_FOLLOWING ){
    windowCodeOp(&s, WINDOW_AGGSTEP, 0, 0);
    if( pMWin->eEnd!=TK_UNBOUNDED ){
      if( pMWin->eFrmType==TK_RANGE ){
        int lbl = sqlite3VdbeMakeLabel(pParse);
        int addrNext = sqlite3VdbeCurrentAddr(v);
        windowCodeRangeTest(&s, OP_Ge, s.current.csr, regEnd, s.end.csr, lbl);
        windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
        windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 0);
        sqlite3VdbeAddOp2(v, OP_Goto, 0, addrNext);
        sqlite3VdbeResolveLabel(v, lbl);
      }else{


        windowCodeOp(&s, WINDOW_RETURN_ROW, regEnd, 0);
        windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
      }
    }
  }else
  if( pMWin->eEnd==TK_PRECEDING ){
    int bRPS = (pMWin->eStart==TK_PRECEDING && pMWin->eFrmType==TK_RANGE);
    windowCodeOp(&s, WINDOW_AGGSTEP, regEnd, 0);
    if( bRPS ) windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
    windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 0);
    if( !bRPS ) windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
  }else{
    int addr = 0;
    windowCodeOp(&s, WINDOW_AGGSTEP, 0, 0);
    if( pMWin->eEnd!=TK_UNBOUNDED ){
      if( pMWin->eFrmType==TK_RANGE ){
        int lbl = 0;
        addr = sqlite3VdbeCurrentAddr(v);
        if( regEnd ){
          lbl = sqlite3VdbeMakeLabel(pParse);
          windowCodeRangeTest(&s, OP_Ge, s.current.csr, regEnd, s.end.csr, lbl);
        }
        windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 0);
        windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
        if( regEnd ){
          sqlite3VdbeAddOp2(v, OP_Goto, 0, addr);
          sqlite3VdbeResolveLabel(v, lbl);
        }
      }else{
        if( regEnd ){
          addr = sqlite3VdbeAddOp3(v, OP_IfPos, regEnd, 0, 1);
          VdbeCoverage(v);
        }
        windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 0);
        windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
        if( regEnd ) sqlite3VdbeJumpHere(v, addr);
      }
    }
  }

  /* End of the main input loop */
  sqlite3VdbeResolveLabel(v, lblWhereEnd);
  sqlite3WhereEnd(pWInfo);

  /* Fall through */
  if( pMWin->pPartition ){
    addrInteger = sqlite3VdbeAddOp2(v, OP_Integer, 0, regFlushPart);
    sqlite3VdbeJumpHere(v, addrGosubFlush);
  }

  addrEmpty = sqlite3VdbeAddOp1(v, OP_Rewind, csrWrite);
  VdbeCoverage(v);
  if( pMWin->eEnd==TK_PRECEDING ){
    int bRPS = (pMWin->eStart==TK_PRECEDING && pMWin->eFrmType==TK_RANGE);
    windowCodeOp(&s, WINDOW_AGGSTEP, regEnd, 0);
    if( bRPS ) windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
    windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 0);
  }else if( pMWin->eStart==TK_FOLLOWING ){
    int addrStart;
    int addrBreak1;
    int addrBreak2;
    int addrBreak3;
    windowCodeOp(&s, WINDOW_AGGSTEP, 0, 0);
    if( pMWin->eFrmType==TK_RANGE ){
      addrStart = sqlite3VdbeCurrentAddr(v);
      addrBreak2 = windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 1);
      addrBreak1 = windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 1);
    }else
    if( pMWin->eEnd==TK_UNBOUNDED ){
      addrStart = sqlite3VdbeCurrentAddr(v);
      addrBreak1 = windowCodeOp(&s, WINDOW_RETURN_ROW, regStart, 1);
      addrBreak2 = windowCodeOp(&s, WINDOW_AGGINVERSE, 0, 1);
    }else{
      assert( pMWin->eEnd==TK_FOLLOWING );
      addrStart = sqlite3VdbeCurrentAddr(v);
      addrBreak1 = windowCodeOp(&s, WINDOW_RETURN_ROW, regEnd, 1);
      addrBreak2 = windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 1);
    }
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addrStart);
    sqlite3VdbeJumpHere(v, addrBreak2);
    addrStart = sqlite3VdbeCurrentAddr(v);
    addrBreak3 = windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 1);
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addrStart);
    sqlite3VdbeJumpHere(v, addrBreak1);
    sqlite3VdbeJumpHere(v, addrBreak3);
  }else{
    int addrBreak;
    int addrStart;
    windowCodeOp(&s, WINDOW_AGGSTEP, 0, 0);
    addrStart = sqlite3VdbeCurrentAddr(v);
    addrBreak = windowCodeOp(&s, WINDOW_RETURN_ROW, 0, 1);
    windowCodeOp(&s, WINDOW_AGGINVERSE, regStart, 0);
    sqlite3VdbeAddOp2(v, OP_Goto, 0, addrStart);
    sqlite3VdbeJumpHere(v, addrBreak);
  }
  sqlite3VdbeJumpHere(v, addrEmpty);

  sqlite3VdbeAddOp1(v, OP_ResetSorter, s.current.csr);
  if( pMWin->pPartition ){
    if( pMWin->regStartRowid ){
      sqlite3VdbeAddOp2(v, OP_Integer, 1, pMWin->regStartRowid);
      sqlite3VdbeAddOp2(v, OP_Integer, 0, pMWin->regEndRowid);
    }
    sqlite3VdbeChangeP1(v, addrInteger, sqlite3VdbeCurrentAddr(v));
    sqlite3VdbeAddOp1(v, OP_Return, regFlushPart);
  }
}

#endif /* SQLITE_OMIT_WINDOWFUNC */

Changes to test/altertab3.test.

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  BEGIN;
    ALTER TABLE t3 RENAME TO t4;
} {1 {error in trigger tr1: no such table: main.t2}}
do_execsql_test 4.1.2 {
  COMMIT;
}
do_execsql_test 4.1.3 {

  SELECT * FROM sqlite_master WHERE type='table' AND name!='t1';
} {table t3 t3 3 {CREATE TABLE t3(e, f)}}


do_catchsql_test 4.2.1 {
  BEGIN;
    ALTER TABLE t3 RENAME e TO eee;
} {1 {error in trigger tr1: no such table: main.t2}}
do_execsql_test 4.2.2 {
  COMMIT;
}
do_execsql_test 4.2.3 {

  SELECT * FROM sqlite_master WHERE type='table' AND name!='t1';
} {table t3 t3 3 {CREATE TABLE t3(e, f)}}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 5.0 {
  CREATE TABLE t1 (
      c1 integer, c2, PRIMARY KEY(c1 collate rtrim),
      UNIQUE(c2)







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  BEGIN;
    ALTER TABLE t3 RENAME TO t4;
} {1 {error in trigger tr1: no such table: main.t2}}
do_execsql_test 4.1.2 {
  COMMIT;
}
do_execsql_test 4.1.3 {
  SELECT type, name, tbl_name, sql 
  FROM sqlite_master WHERE type='table' AND name!='t1';
} {table t3 t3 {CREATE TABLE t3(e, f)}}


do_catchsql_test 4.2.1 {
  BEGIN;
    ALTER TABLE t3 RENAME e TO eee;
} {1 {error in trigger tr1: no such table: main.t2}}
do_execsql_test 4.2.2 {
  COMMIT;
}
do_execsql_test 4.2.3 {
  SELECT type, name, tbl_name, sql 
  FROM sqlite_master WHERE type='table' AND name!='t1';
} {table t3 t3 {CREATE TABLE t3(e, f)}}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 5.0 {
  CREATE TABLE t1 (
      c1 integer, c2, PRIMARY KEY(c1 collate rtrim),
      UNIQUE(c2)

Changes to test/autoinc.test.

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# focus of this script is testing the AUTOINCREMENT features.
#
# $Id: autoinc.test,v 1.14 2009/06/23 20:28:54 drh Exp $
#

set testdir [file dirname $argv0]
source $testdir/tester.tcl


# If the library is not compiled with autoincrement support then
# skip all tests in this file.
#
ifcapable {!autoinc} {
  finish_test
  return
................................................................................
  set res [catch {db eval {
    INSERT INTO t1(b) VALUES('two'),('three'),('four');
    INSERT INTO t1(b) VALUES('five');
    PRAGMA integrity_check;
  }} msg]
  lappend res $msg
} {0 ok}
























finish_test







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# focus of this script is testing the AUTOINCREMENT features.
#
# $Id: autoinc.test,v 1.14 2009/06/23 20:28:54 drh Exp $
#

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix autoinc

# If the library is not compiled with autoincrement support then
# skip all tests in this file.
#
ifcapable {!autoinc} {
  finish_test
  return
................................................................................
  set res [catch {db eval {
    INSERT INTO t1(b) VALUES('two'),('three'),('four');
    INSERT INTO t1(b) VALUES('five');
    PRAGMA integrity_check;
  }} msg]
  lappend res $msg
} {0 ok}

#--------------------------------------------------------------------------
reset_db
do_execsql_test 13.0 {
  CREATE TABLE t1(i INTEGER PRIMARY KEY AUTOINCREMENT, j);
  CREATE TABLE t2(i INTEGER PRIMARY KEY AUTOINCREMENT, j);
  CREATE TABLE t3(i INTEGER PRIMARY KEY AUTOINCREMENT, j);

  INSERT INTO t1 VALUES(NULL, 1);
  INSERT INTO t2 VALUES(NULL, 2);
  INSERT INTO t3 VALUES(NULL, 3);

  SELECT name FROM sqlite_sequence;
} {t1 t2 t3}

do_execsql_test 13.1 {
  UPDATE sqlite_sequence SET name=NULL WHERE name='t2';
  INSERT INTO t3 VALUES(NULL, 4);
  DELETE FROM t3;
  INSERT INTO t3 VALUES(NULL, 5);
  SELECT * FROM t3;
} {3 5}


finish_test

Changes to test/badutf2.test.

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    do_test badutf2-3.1.$i {
      set sql "SELECT hex('$hstr') AS x;"
      set res [ sqlite3_exec db $sql ]
      lindex [ lindex $res 1] 1
    } $uval
  }






  do_test badutf2-4.1.$i {
    sqlite3_reset $S
    sqlite3_bind_text $S 1 $xstr $len
    sqlite3_step $S
    utf8_to_ustr2 [ sqlite3_column_text $S 0 ]
  } $ustr


  ifcapable debug {
    do_test badutf2-5.1.$i {
      utf8_to_utf8 $uval
    } $u2u
  }








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    do_test badutf2-3.1.$i {
      set sql "SELECT hex('$hstr') AS x;"
      set res [ sqlite3_exec db $sql ]
      lindex [ lindex $res 1] 1
    } $uval
  }

  # Tcl 8.7 and later do automatic bad-utf8 correction for
  # characters 0x80 thru 0x9f so test case 5 does not work here.
  if {$i==5 && $tcl_version>=8.7} {
     # no-op
  } else {
    do_test badutf2-4.1.$i {
      sqlite3_reset $S
      sqlite3_bind_text $S 1 $xstr $len
      sqlite3_step $S
      utf8_to_ustr2 [ sqlite3_column_text $S 0 ]
    } $ustr
  }

  ifcapable debug {
    do_test badutf2-5.1.$i {
      utf8_to_utf8 $uval
    } $u2u
  }

Changes to test/bestindex1.test.

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  WHERE a.FlagA=0 AND a.ColumnA IN ('ValueA', 'ValueB') 
} {
  1 0 ValueA 1 0 ValueA
  2 0 ValueA 2 0 ValueA
  3 0 ValueB 3 0 ValueB
  4 0 ValueB 4 0 ValueB
}



























































finish_test








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  WHERE a.FlagA=0 AND a.ColumnA IN ('ValueA', 'ValueB') 
} {
  1 0 ValueA 1 0 ValueA
  2 0 ValueA 2 0 ValueA
  3 0 ValueB 3 0 ValueB
  4 0 ValueB 4 0 ValueB
}

#-------------------------------------------------------------------------
# If there is an IN(..) condition in the WHERE clause of a query on a
# virtual table, the xBestIndex method is first invoked with the IN(...)
# represented by a "usable" SQLITE_INDEX_CONSTRAINT_EQ constraint. If
# the virtual table elects to use the IN(...) constraint, then the 
# xBestIndex method is invoked again, this time with the IN(...) marked
# as "not usable". Depending on the relative costs of the two plans as
# defined by the virtual table implementation, and the cardinality of the
# IN(...) operator, SQLite chooses the most efficient plan. 
#
# At one point the second invocation of xBestIndex() was only being made
# for join queries. The following tests check that this problem has been
# fixed.
#
proc vtab_command {method args} {
  switch -- $method {
    xConnect {
      return "CREATE TABLE t1(a, b, c, d)"
    }

    xBestIndex {
      set clist [lindex $args 0]
      lappend ::bestindex_calls $clist
      set ret "cost 1000000 idxnum 555"
      for {set i 0} {$i < [llength $clist]} {incr i} {
        array set C [lindex $clist $i]
        if {$C(usable)} { lappend ret use $i }
      }
      return $ret
    }
  }
  return {}
}

do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE x1 USING tcl(vtab_command);
} {}

do_test 4.1 {
  set ::bestindex_calls [list]
  execsql {
    SELECT * FROM x1 WHERE a=? AND b BETWEEN ? AND ? AND c IN (1, 2, 3, 4);
  }
  set ::bestindex_calls
} [list \
    [list {op eq column 0 usable 1} \
          {op eq column 2 usable 1} \
          {op ge column 1 usable 1} \
          {op le column 1 usable 1} \
    ] \
    [list {op eq column 0 usable 1} \
          {op eq column 2 usable 0} \
          {op ge column 1 usable 1} \
          {op le column 1 usable 1}
    ]
]


finish_test

Changes to test/corruptC.test.

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  forcecopy test.bu test.db

  # insert corrupt byte(s)
  hexio_write test.db 2053 [format %02x 0x04]

  sqlite3 db test.db
  catchsql {PRAGMA integrity_check}
} {1 {database disk image is malformed}}


# test that a corrupt content offset size is handled (seed 5649)
#
# Update 2016-12-27:  As of check-in [0b86fbca66] "In sqlite3BtreeInsert() when
# replacing a re-existing row, try to overwrite the cell directly rather than
# deallocate and reallocate the cell" on 2016-12-09, this test case no longer
# detects the offset size problem during the UPDATE.  We have to run a subsequent







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  forcecopy test.bu test.db

  # insert corrupt byte(s)
  hexio_write test.db 2053 [format %02x 0x04]

  sqlite3 db test.db
  catchsql {PRAGMA integrity_check}
} {0 {{*** in database main ***
Page 3: free space corruption}}}

# test that a corrupt content offset size is handled (seed 5649)
#
# Update 2016-12-27:  As of check-in [0b86fbca66] "In sqlite3BtreeInsert() when
# replacing a re-existing row, try to overwrite the cell directly rather than
# deallocate and reallocate the cell" on 2016-12-09, this test case no longer
# detects the offset size problem during the UPDATE.  We have to run a subsequent

Changes to test/createtab.test.

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#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this file is testing that it is OK to create new tables
# and indices while creating existing tables and indices.
#
# $Id: createtab.test,v 1.3 2007/09/12 17:01:45 danielk1977 Exp $

set testdir [file dirname $argv0]
source $testdir/tester.tcl

ifcapable autovacuum {
  set upperBound 2
} else {
................................................................................
    execsql {
      SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1
    }
  } {t1 t2 t3 t4}
  integrity_check createtab-$av.40

}
  









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#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this file is testing that it is OK to create new tables
# and indices while creating existing tables and indices.
#


set testdir [file dirname $argv0]
source $testdir/tester.tcl

ifcapable autovacuum {
  set upperBound 2
} else {
................................................................................
    execsql {
      SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1
    }
  } {t1 t2 t3 t4}
  integrity_check createtab-$av.40

}

# 2019-03-31 Ensure that a proper error is returned for an index
# with too many columns.
#
do_test createtab-3.1 {
  db eval {DROP TABLE IF EXISTS t1;}
  set sql "CREATE TABLE t1(x,UNIQUE(x[string repeat ,x 100000]))"
  catchsql $sql
} {1 {too many columns in index}}
  
finish_test

Changes to test/dbfuzz001.test.

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# The DELETE query below deletes the very last cell from page 8.
# Prior to a certain fix to sqlite3BtreeDelete() and because of the
# corruption to the freeblock list on page 8, this would fail to
# cause a rebalance operation, which would leave the btree in a weird
# state that would lead to segfaults and or assertion faults.
#
set res {0 {}}
ifcapable oversize_cell_check { set res {1 {database disk image is malformed}} }
do_catchsql_test dbfuzz001-110 {
  DELETE FROM t3 WHERE x IS NOT NULL AND +rowid=6;
} $res

# This is a dbfuzz2-generate test case that can cause a page with
# pPage->nCell==0 to enter the balancer.
#
do_test dbfuzz001-200 {
  db deserialize [decode_hexdb {
    | size 3076 pagesize 512 filename c03.db







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# The DELETE query below deletes the very last cell from page 8.
# Prior to a certain fix to sqlite3BtreeDelete() and because of the
# corruption to the freeblock list on page 8, this would fail to
# cause a rebalance operation, which would leave the btree in a weird
# state that would lead to segfaults and or assertion faults.
#


do_execsql_test dbfuzz001-110 {
  DELETE FROM t3 WHERE x IS NOT NULL AND +rowid=6;
} {}

# This is a dbfuzz2-generate test case that can cause a page with
# pPage->nCell==0 to enter the balancer.
#
do_test dbfuzz001-200 {
  db deserialize [decode_hexdb {
    | size 3076 pagesize 512 filename c03.db

Changes to test/delete4.test.

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do_execsql_test 6.1 {
  DROP TABLE IF EXISTS t2;
  CREATE TABLE t2(x INT);
  INSERT INTO t2(x) VALUES(1),(2),(3),(4),(5);
  DELETE FROM t2 WHERE EXISTS(SELECT 1 FROM t2 AS v WHERE v.x=t2.x+1);
  SELECT x FROM t2;
} {5}















































































finish_test








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do_execsql_test 6.1 {
  DROP TABLE IF EXISTS t2;
  CREATE TABLE t2(x INT);
  INSERT INTO t2(x) VALUES(1),(2),(3),(4),(5);
  DELETE FROM t2 WHERE EXISTS(SELECT 1 FROM t2 AS v WHERE v.x=t2.x+1);
  SELECT x FROM t2;
} {5}

#-------------------------------------------------------------------------
# Test the effect of failing to find a table row based on an index key
# within a DELETE. Either because the db is corrupt, or a trigger on another
# row already deleted the entry, or because a BEFORE trigger on the current
# row has already deleted it.
#
do_execsql_test 7.1.0 {
  CREATE TABLE t3(id INT PRIMARY KEY, a, b) WITHOUT ROWID;
  CREATE INDEX t3a ON t3(a);
  CREATE INDEX t3b ON t3(b);

  INSERT INTO t3 VALUES(1, 1, 1);
  INSERT INTO t3 VALUES(2, 2, 2);
  INSERT INTO t3 VALUES(3, 3, 3);
  INSERT INTO t3 VALUES(4, 4, 1);
}
do_execsql_test 7.1.1 {
  DELETE FROM t3 WHERE a=4 OR b=1;
}
do_execsql_test 7.1.2 {
  SELECT * FROM t3;
} { 2 2 2   3 3 3 }

do_execsql_test 7.2.0 {
  CREATE TABLE t4(a PRIMARY KEY, b) WITHOUT ROWID;
  CREATE INDEX t4i ON t4(b);
  INSERT INTO t4 VALUES(1, 'hello');
  INSERT INTO t4 VALUES(2, 'world');

  CREATE TABLE t5(a PRIMARY KEY, b) WITHOUT ROWID;
  CREATE INDEX t5i ON t5(b);
  INSERT INTO t5 VALUES(1, 'hello');
  INSERT INTO t5 VALUES(3, 'world');

  PRAGMA writable_schema = 1;
  UPDATE sqlite_master SET rootpage = (
    SELECT rootpage FROM sqlite_master WHERE name = 't5'
  ) WHERE name = 't4';
}

db close
sqlite3 db test.db
do_execsql_test 7.2.1 {
  DELETE FROM t4 WHERE b='world'
}
reset_db

do_execsql_test 7.3.0 {
  CREATE TABLE t3(id INT PRIMARY KEY, a, b) WITHOUT ROWID;
  INSERT INTO t3 VALUES(1, 2, 3);
  INSERT INTO t3 VALUES(4, 5, 6);
  INSERT INTO t3 VALUES(7, 8, 9);
  CREATE TRIGGER t3t BEFORE DELETE ON t3 BEGIN
    DELETE FROM t3 WHERE id=old.id+3;
  END;
}

do_execsql_test 7.3.1 {
  DELETE FROM t3 WHERE a IN(2, 5, 8);
  SELECT * FROM t3;
} {}

do_execsql_test 7.3.2 {
  DROP TRIGGER t3t;
  INSERT INTO t3 VALUES(1, 2, 3);
  INSERT INTO t3 VALUES(4, 5, 6);
  INSERT INTO t3 VALUES(7, 8, 9);
  CREATE TRIGGER t3t BEFORE DELETE ON t3 BEGIN
    DELETE FROM t3 WHERE id=old.id;
  END;
}

do_execsql_test 7.3.3 {
  DELETE FROM t3 WHERE a IN(2, 5, 8);
  SELECT * FROM t3;
} {}


finish_test

Changes to test/e_vacuum.test.

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  INSERT INTO t4(x) VALUES('z');
  DELETE FROM t4 WHERE x = 'y';
  SELECT rowid, x FROM t4;
} {1 x 3 z}
do_execsql_test e_vacuum-3.1.2 {
  VACUUM;
  SELECT rowid, x FROM t4;
} {1 x 3 z}
# Was: {1 x 2 z}


do_execsql_test e_vacuum-3.1.3 {
  CREATE TABLE t5(x, y INTEGER PRIMARY KEY);
  INSERT INTO t5(x) VALUES('x');
  INSERT INTO t5(x) VALUES('y');
  INSERT INTO t5(x) VALUES('z');
  DELETE FROM t5 WHERE x = 'y';
  SELECT rowid, x FROM t5;
} {1 x 3 z}
do_execsql_test e_vacuum-3.1.4 {
  VACUUM;
  SELECT rowid, x FROM t5;
} {1 x 3 z}







































# EVIDENCE-OF: R-49563-33883 A VACUUM will fail if there is an open
# transaction, or if there are one or more active SQL statements when it
# is run.


#
do_execsql_test  e_vacuum-3.2.1.1 { BEGIN } {}
do_catchsql_test e_vacuum-3.2.1.2 { 
  VACUUM 
} {1 {cannot VACUUM from within a transaction}}
do_execsql_test  e_vacuum-3.2.1.3 { COMMIT } {}
do_execsql_test  e_vacuum-3.2.1.4 { VACUUM } {}







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  INSERT INTO t4(x) VALUES('z');
  DELETE FROM t4 WHERE x = 'y';
  SELECT rowid, x FROM t4;
} {1 x 3 z}
do_execsql_test e_vacuum-3.1.2 {
  VACUUM;
  SELECT rowid, x FROM t4;

} {1 x 2 z}

# Rowids are preserved if an INTEGER PRIMARY KEY is used
do_execsql_test e_vacuum-3.1.3 {
  CREATE TABLE t5(x, y INTEGER PRIMARY KEY);
  INSERT INTO t5(x) VALUES('x');
  INSERT INTO t5(x) VALUES('y');
  INSERT INTO t5(x) VALUES('z');
  DELETE FROM t5 WHERE x = 'y';
  SELECT rowid, x FROM t5;
} {1 x 3 z}
do_execsql_test e_vacuum-3.1.4 {
  VACUUM;
  SELECT rowid, x FROM t5;
} {1 x 3 z}

# Rowid is preserved for VACUUM INTO
do_execsql_test e_vacuum-3.1.5 {
  DROP TABLE t5;
  CREATE TABLE t5(x);
  INSERT INTO t5(x) VALUES('x');
  INSERT INTO t5(x) VALUES('y');
  INSERT INTO t5(x) VALUES('z');
  DELETE FROM t5 WHERE x = 'y';
  SELECT rowid, x FROM t5;
} {1 x 3 z}
forcedelete test2.db
do_execsql_test e_vacuum-3.1.6 {
  VACUUM INTO 'test2.db';
  ATTACH 'test2.db' AS aux1;
  SELECT rowid, x FROM aux1.t5;
  DETACH aux1;
} {1 x 3 z}

# Rowids are not renumbered if the table being vacuumed
# has indexes.
do_execsql_test e_vacuum-3.1.7 {
  DROP TABLE t5;
  CREATE TABLE t5(x,y,z);
  INSERT INTO t5(x) VALUES('x');
  INSERT INTO t5(x) VALUES('y');
  INSERT INTO t5(x) VALUES('z');
  UPDATE t5 SET y=x, z=random();
  DELETE FROM t5 WHERE x = 'y';
  CREATE INDEX t5x ON t5(x);
  CREATE UNIQUE INDEX t5y ON t5(y);
  CREATE INDEX t5zxy ON t5(z,x,y);
  SELECT rowid, x FROM t5;
} {1 x 3 z}
do_execsql_test e_vacuum-3.1.8 {
  VACUUM;
  SELECT rowid, x FROM t5;
} {1 x 3 z}

# EVIDENCE-OF: R-12218-18073 A VACUUM will fail if there is an open


# transaction on the database connection that is attempting to run the
# VACUUM.
#
do_execsql_test  e_vacuum-3.2.1.1 { BEGIN } {}
do_catchsql_test e_vacuum-3.2.1.2 { 
  VACUUM 
} {1 {cannot VACUUM from within a transaction}}
do_execsql_test  e_vacuum-3.2.1.3 { COMMIT } {}
do_execsql_test  e_vacuum-3.2.1.4 { VACUUM } {}

Changes to test/fts3atoken.test.

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    INSERT INTO t1(content) VALUES('There was movement at the station');
    INSERT INTO t1(content) VALUES('For the word has passed around');
    INSERT INTO t1(content) VALUES('That the colt from ol regret had got');
    SELECT content FROM t1 WHERE content MATCH 'movement'
  }
} {{There was movement at the station}}





sqlite3_db_config db SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER 0
do_catchsql_test 1.6 {
  SELECT fts3_tokenizer('blah', fts3_tokenizer('simple')) IS NULL;
} {1 {fts3tokenize disabled}}



































#--------------------------------------------------------------------------
# Test cases fts3atoken-2.* test error cases in the scalar function based
# API for getting and setting tokenizers.
#
do_test fts3atoken-2.1 {
  catchsql {







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    INSERT INTO t1(content) VALUES('There was movement at the station');
    INSERT INTO t1(content) VALUES('For the word has passed around');
    INSERT INTO t1(content) VALUES('That the colt from ol regret had got');
    SELECT content FROM t1 WHERE content MATCH 'movement'
  }
} {{There was movement at the station}}

unset -nocomplain simple blah2name simplename
set simplename "simple"
set blah2name "blah2"
set simple [db one {SELECT fts3_tokenizer('simple')}]
sqlite3_db_config db SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER 0
do_catchsql_test 1.6 {
  SELECT fts3_tokenizer('blah', fts3_tokenizer('simple')) IS NULL;
} {1 {fts3tokenize disabled}}
do_test fts3atoken-1.7 {
  execsql {
    SELECT fts3_tokenizer('blah2', $simple) IS NULL;
  }
} {1}

# With ENABLE_FTS3_TOKENIZER off, the fts3_tokenzer(1) function
# returns NULL unless the first parameter is a bound parameter.
# If the first parameter is a bound parameter, then fts3_tokenizer(1)
# returns the actual pointer value as a BLOB.
#
do_test fts3atoken-1.8 {
  execsql {
    SELECT fts3_tokenizer($blah2name) == fts3_tokenizer($simplename),
           typeof(fts3_tokenizer($blah2name)),
           typeof(fts3_tokenizer('blah2')),
           typeof(fts3_tokenizer($simplename)),
           typeof(fts3_tokenizer('simple'));
  }
} {1 blob null blob null}

# With ENABLE_FTS3_TOKENIZER on, fts3_tokenizer() always returns
# the BLOB pointer, regardless the parameter
#
sqlite3_db_config db SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER 1
do_test fts3atoken-1.9 {
  execsql {
    SELECT fts3_tokenizer('blah2') == fts3_tokenizer('simple'),
           typeof(fts3_tokenizer($blah2name)),
           typeof(fts3_tokenizer('blah2')),
           typeof(fts3_tokenizer($simplename)),
           typeof(fts3_tokenizer('simple'));
  }
} {1 blob blob blob blob}

#--------------------------------------------------------------------------
# Test cases fts3atoken-2.* test error cases in the scalar function based
# API for getting and setting tokenizers.
#
do_test fts3atoken-2.1 {
  catchsql {

Changes to test/fts3varint.test.

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    576460752303423487 576460752303423488 576460752303423489 }
do_fts3_varint_test 2.60 { 
    1152921504606846975 1152921504606846976 1152921504606846977 }
do_fts3_varint_test 2.61 { 
    2305843009213693951 2305843009213693952 2305843009213693953 }
do_fts3_varint_test 2.62 { 
    4611686018427387903 4611686018427387904 4611686018427387905 }


do_fts3_varint_test 2.63 { 
    9223372036854775807 9223372036854775808 9223372036854775809 }

do_fts3_varint_test 3.0 { 18446744073709551615 -18446744073709551615 }


finish_test







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    576460752303423487 576460752303423488 576460752303423489 }
do_fts3_varint_test 2.60 { 
    1152921504606846975 1152921504606846976 1152921504606846977 }
do_fts3_varint_test 2.61 { 
    2305843009213693951 2305843009213693952 2305843009213693953 }
do_fts3_varint_test 2.62 { 
    4611686018427387903 4611686018427387904 4611686018427387905 }

if {![catch {fts3_test_varint 18446744073709551615}]} {
  do_fts3_varint_test 2.63 { 
      9223372036854775807 9223372036854775808 9223372036854775809 }

  do_fts3_varint_test 3.0 { 18446744073709551615 -18446744073709551615 }
}

finish_test

Changes to test/func.test.

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}

# Test char().
#
do_execsql_test func-31.1 { 
  SELECT char(), length(char()), typeof(char()) 
} {{} 0 text}




























finish_test







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}

# Test char().
#
do_execsql_test func-31.1 { 
  SELECT char(), length(char()), typeof(char()) 
} {{} 0 text}

# sqlite3_value_frombind()
#
do_execsql_test func-32.100 {
  SELECT test_frombind(1,2,3,4);
} {0}
do_execsql_test func-32.110 {
  SELECT test_frombind(1,2,?,4);
} {4}
do_execsql_test func-32.120 {
  SELECT test_frombind(1,(?),4,?+7);
} {2}
do_execsql_test func-32.130 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a,b,c,e,f);
  INSERT INTO t1 VALUES(1,2.5,'xyz',x'e0c1b2a3',null);
  SELECT test_frombind(a,b,c,e,f,$xyz) FROM t1;
} {32}
do_execsql_test func-32.140 {
  SELECT test_frombind(a,b,c,e,f,$xyz+f) FROM t1;
} {0}
do_execsql_test func-32.150 {
  SELECT test_frombind(x.a,y.b,x.c,:123,y.e,x.f,$xyz+y.f) FROM t1 x, t1 y;
} {8}




finish_test

Changes to test/fuzzdata8.db.

cannot compute difference between binary files

Changes to test/in.test.

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                           WHERE name='Bob'
                         ) AS 't'
                   WHERE x=1
                 )
             AND t6.id IN (1,id)
         );
} {1 Alice}























finish_test







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                           WHERE name='Bob'
                         ) AS 't'
                   WHERE x=1
                 )
             AND t6.id IN (1,id)
         );
} {1 Alice}

#-------------------------------------------------------------------------
reset_db
do_execsql_test in-16.0 {
  CREATE TABLE x1(a, b);
  INSERT INTO x1(a) VALUES(1), (2), (3), (4), (5), (6);
  CREATE INDEX x1i ON x1(a, b);
}

do_execsql_test in-16.1 {
  SELECT * FROM x1 
  WHERE a IN (SELECT a FROM x1 WHERE (a%2)==0) 
  ORDER BY a DESC, b;
} {6 {} 4 {} 2 {}}

do_execsql_test in-16.2 {
  SELECT * FROM x1 
  WHERE a IN (SELECT a FROM x1 WHERE (a%7)==0) 
  ORDER BY a DESC, b;
} {}



finish_test

Changes to test/insert4.test.

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do_test 10.3 {
  execsql { PRAGMA integrity_check }
  set sqlite3_xferopt_count 0
  execsql { INSERT INTO x     SELECT * FROM t8 }
  set sqlite3_xferopt_count
} {1}






















finish_test







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do_test 10.3 {
  execsql { PRAGMA integrity_check }
  set sqlite3_xferopt_count 0
  execsql { INSERT INTO x     SELECT * FROM t8 }
  set sqlite3_xferopt_count
} {1}

#-------------------------------------------------------------------------
# xfer transfer between tables where the source has an empty partial index.
#
do_execsql_test 11.0 {
  CREATE TABLE t9(a, b, c);
  CREATE INDEX t9a ON t9(a);
  CREATE INDEX t9b ON t9(b) WHERE c=0;

  INSERT INTO t9 VALUES(1, 1, 1);
  INSERT INTO t9 VALUES(2, 2, 2);
  INSERT INTO t9 VALUES(3, 3, 3);

  CREATE TABLE t10(a, b, c);
  CREATE INDEX t10a ON t10(a);
  CREATE INDEX t10b ON t10(b) WHERE c=0;

  INSERT INTO t10 SELECT * FROM t9;
  SELECT * FROM t10;
  PRAGMA integrity_check;
} {1 1 1  2 2 2  3 3 3  ok}

finish_test

Changes to test/journal3.test.

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40



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   1 00644
   2 00666
   3 00600
   4 00755
  } {
    db close
    #set effective [format %.5o [expr $permissions & ~$umask]]



    set effective $permissions
    do_test journal3-1.2.$tn.1 {
      catch { forcedelete test.db-journal }
      file attributes test.db -permissions $permissions
      file attributes test.db -permissions
    } $permissions
    do_test journal3-1.2.$tn.2 { file exists test.db-journal } {0}







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   1 00644
   2 00666
   3 00600
   4 00755
  } {
    db close
    #set effective [format %.5o [expr $permissions & ~$umask]]
    if {$tcl_version>=8.7} {
       regsub {^00} $permissions {0o} permissions
    }
    set effective $permissions
    do_test journal3-1.2.$tn.1 {
      catch { forcedelete test.db-journal }
      file attributes test.db -permissions $permissions
      file attributes test.db -permissions
    } $permissions
    do_test journal3-1.2.$tn.2 { file exists test.db-journal } {0}

Changes to test/memdb1.test.

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} {1 {unknown option: a}}
do_test 620 {
  set rc [catch {db serialize a b} msg]
  lappend rc $msg
} {1 {wrong # args: should be "db serialize ?DATABASE?"}}

#-------------------------------------------------------------------------

reset_db
do_execsql_test 700 {
  CREATE TABLE t1(a, b);
  PRAGMA schema_version = 0;
}
do_test 710 {
  set ser [db serialize main]
................................................................................
  db close
  sqlite3 db
  db deserialize main $ser
  catchsql {
    CREATE VIRTUAL TABLE t1 USING rtree(id, a, b, c, d);
  }
} {1 {table t1 already exists}}


finish_test







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} {1 {unknown option: a}}
do_test 620 {
  set rc [catch {db serialize a b} msg]
  lappend rc $msg
} {1 {wrong # args: should be "db serialize ?DATABASE?"}}

#-------------------------------------------------------------------------
ifcapable vtab {
  reset_db
  do_execsql_test 700 {
    CREATE TABLE t1(a, b);
    PRAGMA schema_version = 0;
  }
  do_test 710 {
    set ser [db serialize main]
................................................................................
    db close
    sqlite3 db
    db deserialize main $ser
    catchsql {
      CREATE VIRTUAL TABLE t1 USING rtree(id, a, b, c, d);
    }
  } {1 {table t1 already exists}}
}

finish_test

Changes to test/permutations.test.

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} -files [
  test_set [glob -nocomplain $::testdir/../ext/rbu/*.test] -exclude rbu.test
]

test_suite "no_optimization" -description {
  Run test scripts with optimizations disabled using the
  sqlite3_test_control(SQLITE_TESTCTRL_OPTIMIZATIONS) interface.
} -files {


  where.test where2.test where3.test where4.test where5.test
  where6.test where7.test where8.test where9.test
  whereA.test whereB.test wherelimit.test
  select1.test select2.test select3.test select4.test select5.test
  select7.test select8.test selectA.test selectC.test
} -dbconfig {
  optimization_control $::dbhandle all 0
}

test_suite "prepare" -description {
  Run tests with the db connection using sqlite3_prepare() instead of _v2().
} -dbconfig {
  $::dbhandle version -use-legacy-prepare 1







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} -files [
  test_set [glob -nocomplain $::testdir/../ext/rbu/*.test] -exclude rbu.test
]

test_suite "no_optimization" -description {
  Run test scripts with optimizations disabled using the
  sqlite3_test_control(SQLITE_TESTCTRL_OPTIMIZATIONS) interface.
} -files [
  test_set \
    [glob -nocomplain $::testdir/window*.test]                       \
    where.test where2.test where3.test where4.test where5.test       \
    where6.test where7.test where8.test where9.test                  \
    whereA.test whereB.test wherelimit.test                          \
    select1.test select2.test select3.test select4.test select5.test \
    select7.test select8.test selectA.test selectC.test     
] -dbconfig {
  optimization_control $::dbhandle all 0
}

test_suite "prepare" -description {
  Run tests with the db connection using sqlite3_prepare() instead of _v2().
} -dbconfig {
  $::dbhandle version -use-legacy-prepare 1

Changes to test/pg_common.tcl.

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  }
  if {$frag != ""} {
    lappend lSql $frag
  }
  #puts $lSql

  set ret ""

  foreach stmt $lSql {
    set res [pg_exec $::db $stmt]
    set err [pg_result $res -error]
    if {$err!=""} { error $err }

    for {set i 0} {$i < [pg_result $res -numTuples]} {incr i} {
      if {$i==0} {
        set ret [pg_result $res -getTuple 0]




      } else {

        append ret "   [pg_result $res -getTuple $i]"

      }


      # lappend ret {*}[pg_result $res -getTuple $i]
    }
    pg_result $res -clear
  }

  set ret
}

proc execsql_test {tn sql} {
  set res [execsql $sql]
  set sql [string map {string_agg group_concat} $sql]


  puts $::fd "do_execsql_test $tn {"
  puts $::fd "  [string trim $sql]"
  puts $::fd "} {$res}"
  puts $::fd ""
}















# Same as [execsql_test], except coerce all results to floating point values
# with two decimal points.
#
proc execsql_float_test {tn sql} {
  set F "%.4f"
  set T 0.0001
................................................................................
puts $::fd [subst -nocommands {
do_test $tn {
  set myres {}
  foreach r [db eval {$sql}] {
    lappend myres [format $F [set r]]
  }
  set res2 {$res2}

  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-$T) || [set r]>([set r2]+$T)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }

  }
  set {} {}
} {}
}]
}

proc start_test {name date} {







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  }
  if {$frag != ""} {
    lappend lSql $frag
  }
  #puts $lSql

  set ret ""
  set nChar 0
  foreach stmt $lSql {
    set res [pg_exec $::db $stmt]
    set err [pg_result $res -error]
    if {$err!=""} { error $err }

    for {set i 0} {$i < [pg_result $res -numTuples]} {incr i} {

      set t [pg_result $res -getTuple $i]
      set nNew [string length $t]
      if {$nChar>0 && ($nChar+$nNew+3)>75} {
        append ret "\n  "
        set nChar 0
      } else {
        if {$nChar>0} {
          append ret "   "
          incr nChar 3
        }
      }
      incr nChar $nNew
      append ret $t
    }
    pg_result $res -clear
  }

  set ret
}

proc execsql_test {tn sql} {
  set res [execsql $sql]
  set sql [string map {string_agg group_concat} $sql]
  set sql [string map [list {NULLS FIRST} {}] $sql]
  set sql [string map [list {NULLS LAST} {}] $sql]
  puts $::fd "do_execsql_test $tn {"
  puts $::fd "  [string trim $sql]"
  puts $::fd "} {$res}"
  puts $::fd ""
}

proc errorsql_test {tn sql} {
  set rc [catch {execsql $sql} msg]
  if {$rc==0} {
    error "errorsql_test SQL did not cause an error!"
  }
  set msg [lindex [split [string trim $msg] "\n"] 0]
  puts $::fd "# PG says $msg"
  set sql [string map {string_agg group_concat} $sql]
  puts $::fd "do_test $tn { catch { execsql {"
  puts $::fd "  [string trim $sql]"
  puts $::fd "} } } 1"
  puts $::fd ""
}

# Same as [execsql_test], except coerce all results to floating point values
# with two decimal points.
#
proc execsql_float_test {tn sql} {
  set F "%.4f"
  set T 0.0001
................................................................................
puts $::fd [subst -nocommands {
do_test $tn {
  set myres {}
  foreach r [db eval {$sql}] {
    lappend myres [format $F [set r]]
  }
  set res2 {$res2}
  set i 0
  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-$T) || [set r]>([set r2]+$T)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }
    incr i
  }
  set {} {}
} {}
}]
}

proc start_test {name date} {

Changes to test/pragma.test.

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} {0}
do_test pragma-1.14.4 {
  execsql {
    PRAGMA synchronous=10;
    PRAGMA synchronous;
  }
} {2}

























} ;# ifcapable pager_pragmas

# Test turning "flag" pragmas on and off.
#
ifcapable debug {
  # Pragma "vdbe_listing" is only available if compiled with SQLITE_DEBUG
  #







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} {0}
do_test pragma-1.14.4 {
  execsql {
    PRAGMA synchronous=10;
    PRAGMA synchronous;
  }
} {2}

do_execsql_test 1.15.1 {
  PRAGMA default_cache_size = 0;
}
do_execsql_test 1.15.2 {
  PRAGMA default_cache_size;
} $DFLT_CACHE_SZ
do_execsql_test 1.15.3 {
  PRAGMA default_cache_size = -500;
}
do_execsql_test 1.15.4 {
  PRAGMA default_cache_size;
} 500
do_execsql_test 1.15.3 {
  PRAGMA default_cache_size = 500;
}
do_execsql_test 1.15.4 {
  PRAGMA default_cache_size;
} 500
db close
hexio_write test.db 48 FFFFFF00
sqlite3 db test.db
do_execsql_test 1.15.4 {
  PRAGMA default_cache_size;
} 256
} ;# ifcapable pager_pragmas

# Test turning "flag" pragmas on and off.
#
ifcapable debug {
  # Pragma "vdbe_listing" is only available if compiled with SQLITE_DEBUG
  #

Changes to test/pragma4.test.

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}
do_test 4.3.4 { 
  sqlite3 db3 test.db
  sqlite3 db2 test.db2
  execsql { DROP INDEX i1 } db3
  execsql { DROP INDEX i2 } db2
} {}

ifcapable vtab {
  do_execsql_test 4.3.5 { SELECT * FROM pragma_index_info('i1') } 
  do_execsql_test 4.3.6 { SELECT * FROM pragma_index_info('i2') } 
}

execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}
do_execsql_test 4.4.0 {
................................................................................
  do_execsql_test 4.4.1 { SELECT * FROM pragma_index_list('t1') } {0 i1 0 c 0}
  do_execsql_test 4.4.2 { SELECT * FROM pragma_index_list('t2') } {0 i2 0 c 0}
}
do_test 4.4.3 { 
  execsql { DROP INDEX i1 } db3
  execsql { DROP INDEX i2 } db2
} {}



ifcapable vtab {
  do_execsql_test 4.4.5 { SELECT * FROM pragma_index_list('t1') } {}
  do_execsql_test 4.4.6 { SELECT * FROM pragma_index_list('t2') } {}
}
execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}

do_execsql_test 4.5.0 {
................................................................................
    0 0 t2 r d {NO ACTION} {NO ACTION} NONE
  }
}
do_test 4.5.3 { 
  execsql { DROP TABLE c1 } db3
  execsql { DROP TABLE c2 } db2
} {}



ifcapable vtab {
  do_execsql_test 4.5.4 { SELECT * FROM pragma_foreign_key_list('c1') }
  do_execsql_test 4.5.5 { SELECT * FROM pragma_foreign_key_list('c2') } 
}
execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}

do_execsql_test 4.6.0 {







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}
do_test 4.3.4 { 
  sqlite3 db3 test.db
  sqlite3 db2 test.db2
  execsql { DROP INDEX i1 } db3
  execsql { DROP INDEX i2 } db2
} {}
if {[permutation]=="prepare"} { catchsql { SELECT * FROM sqlite_master } }
ifcapable vtab {
  do_execsql_test 4.3.5 { SELECT * FROM pragma_index_info('i1') } 
  do_execsql_test 4.3.6 { SELECT * FROM pragma_index_info('i2') } 
}

execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}
do_execsql_test 4.4.0 {
................................................................................
  do_execsql_test 4.4.1 { SELECT * FROM pragma_index_list('t1') } {0 i1 0 c 0}
  do_execsql_test 4.4.2 { SELECT * FROM pragma_index_list('t2') } {0 i2 0 c 0}
}
do_test 4.4.3 { 
  execsql { DROP INDEX i1 } db3
  execsql { DROP INDEX i2 } db2
} {}
if {[permutation]=="prepare"} { 
  catchsql { SELECT * FROM sqlite_master, aux.sqlite_master }
}
ifcapable vtab {
  do_execsql_test 4.4.5 { SELECT * FROM pragma_index_list('t1') } {}
  do_execsql_test 4.4.6 { SELECT * FROM pragma_index_list('t2') } {}
}
execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}

do_execsql_test 4.5.0 {
................................................................................
    0 0 t2 r d {NO ACTION} {NO ACTION} NONE
  }
}
do_test 4.5.3 { 
  execsql { DROP TABLE c1 } db3
  execsql { DROP TABLE c2 } db2
} {}
if {[permutation]=="prepare"} { 
  catchsql { SELECT * FROM sqlite_master, aux.sqlite_master }
}
ifcapable vtab {
  do_execsql_test 4.5.4 { SELECT * FROM pragma_foreign_key_list('c1') }
  do_execsql_test 4.5.5 { SELECT * FROM pragma_foreign_key_list('c2') } 
}
execsql {SELECT * FROM main.sqlite_master, aux.sqlite_master}

do_execsql_test 4.6.0 {

Added test/releasetest_data.tcl.

























































































































































































































































































































































































































































































































































































































































































































































































































































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# This file contains Configuration data used by "wapptest.tcl" and
# "releasetest.tcl".
#

# Omit comments (text between # and \n) in a long multi-line string.
#
proc strip_comments {in} {
  regsub -all {#[^\n]*\n} $in {} out
  return $out
}

array set ::Configs [strip_comments {
  "Default" {
    -O2
    --disable-amalgamation --disable-shared
    --enable-session
    -DSQLITE_ENABLE_DESERIALIZE
  }
  "Sanitize" {
    CC=clang -fsanitize=undefined
    -DSQLITE_ENABLE_STAT4
    --enable-session
  }
  "Stdcall" {
    -DUSE_STDCALL=1
    -O2
  }
  "Have-Not" {
    # The "Have-Not" configuration sets all possible -UHAVE_feature options
    # in order to verify that the code works even on platforms that lack
    # these support services.
    -DHAVE_FDATASYNC=0
    -DHAVE_GMTIME_R=0
    -DHAVE_ISNAN=0
    -DHAVE_LOCALTIME_R=0
    -DHAVE_LOCALTIME_S=0
    -DHAVE_MALLOC_USABLE_SIZE=0
    -DHAVE_STRCHRNUL=0
    -DHAVE_USLEEP=0
    -DHAVE_UTIME=0
  }
  "Unlock-Notify" {
    -O2
    -DSQLITE_ENABLE_UNLOCK_NOTIFY
    -DSQLITE_THREADSAFE
    -DSQLITE_TCL_DEFAULT_FULLMUTEX=1
  }
  "User-Auth" {
    -O2
    -DSQLITE_USER_AUTHENTICATION=1
  }
  "Secure-Delete" {
    -O2
    -DSQLITE_SECURE_DELETE=1
    -DSQLITE_SOUNDEX=1
  }
  "Update-Delete-Limit" {
    -O2
    -DSQLITE_DEFAULT_FILE_FORMAT=4
    -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT=1
    -DSQLITE_ENABLE_STMT_SCANSTATUS
    -DSQLITE_LIKE_DOESNT_MATCH_BLOBS
    -DSQLITE_ENABLE_CURSOR_HINTS
    --enable-json1
  }
  "Check-Symbols" {
    -DSQLITE_MEMDEBUG=1
    -DSQLITE_ENABLE_FTS3_PARENTHESIS=1
    -DSQLITE_ENABLE_FTS3=1
    -DSQLITE_ENABLE_RTREE=1
    -DSQLITE_ENABLE_MEMSYS5=1
    -DSQLITE_ENABLE_MEMSYS3=1
    -DSQLITE_ENABLE_COLUMN_METADATA=1
    -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT=1
    -DSQLITE_SECURE_DELETE=1
    -DSQLITE_SOUNDEX=1
    -DSQLITE_ENABLE_ATOMIC_WRITE=1
    -DSQLITE_ENABLE_MEMORY_MANAGEMENT=1
    -DSQLITE_ENABLE_OVERSIZE_CELL_CHECK=1
    -DSQLITE_ENABLE_STAT4
    -DSQLITE_ENABLE_STMT_SCANSTATUS
    --enable-json1 --enable-fts5 --enable-session
  }
  "Debug-One" {
    --disable-shared
    -O2 -funsigned-char
    -DSQLITE_DEBUG=1
    -DSQLITE_MEMDEBUG=1
    -DSQLITE_MUTEX_NOOP=1
    -DSQLITE_TCL_DEFAULT_FULLMUTEX=1
    -DSQLITE_ENABLE_FTS3=1
    -DSQLITE_ENABLE_RTREE=1
    -DSQLITE_ENABLE_MEMSYS5=1
    -DSQLITE_ENABLE_COLUMN_METADATA=1
    -DSQLITE_ENABLE_STAT4
    -DSQLITE_ENABLE_HIDDEN_COLUMNS
    -DSQLITE_MAX_ATTACHED=125
    -DSQLITE_MUTATION_TEST
    --enable-fts5 --enable-json1
  }
  "Fast-One" {
    -O6
    -DSQLITE_ENABLE_FTS4=1
    -DSQLITE_ENABLE_RTREE=1
    -DSQLITE_ENABLE_STAT4
    -DSQLITE_ENABLE_RBU
    -DSQLITE_MAX_ATTACHED=125
    -DLONGDOUBLE_TYPE=double
    --enable-session
  }
  "Device-One" {
    -O2
    -DSQLITE_DEBUG=1
    -DSQLITE_DEFAULT_AUTOVACUUM=1
    -DSQLITE_DEFAULT_CACHE_SIZE=64
    -DSQLITE_DEFAULT_PAGE_SIZE=1024
    -DSQLITE_DEFAULT_TEMP_CACHE_SIZE=32
    -DSQLITE_DISABLE_LFS=1
    -DSQLITE_ENABLE_ATOMIC_WRITE=1
    -DSQLITE_ENABLE_IOTRACE=1
    -DSQLITE_ENABLE_MEMORY_MANAGEMENT=1
    -DSQLITE_MAX_PAGE_SIZE=4096
    -DSQLITE_OMIT_LOAD_EXTENSION=1
    -DSQLITE_OMIT_PROGRESS_CALLBACK=1
    -DSQLITE_OMIT_VIRTUALTABLE=1
    -DSQLITE_ENABLE_HIDDEN_COLUMNS
    -DSQLITE_TEMP_STORE=3
    --enable-json1
  }
  "Device-Two" {
    -DSQLITE_4_BYTE_ALIGNED_MALLOC=1
    -DSQLITE_DEFAULT_AUTOVACUUM=1
    -DSQLITE_DEFAULT_CACHE_SIZE=1000
    -DSQLITE_DEFAULT_LOCKING_MODE=0
    -DSQLITE_DEFAULT_PAGE_SIZE=1024
    -DSQLITE_DEFAULT_TEMP_CACHE_SIZE=1000
    -DSQLITE_DISABLE_LFS=1
    -DSQLITE_ENABLE_FTS3=1
    -DSQLITE_ENABLE_MEMORY_MANAGEMENT=1
    -DSQLITE_ENABLE_RTREE=1
    -DSQLITE_MAX_COMPOUND_SELECT=50
    -DSQLITE_MAX_PAGE_SIZE=32768
    -DSQLITE_OMIT_TRACE=1
    -DSQLITE_TEMP_STORE=3
    -DSQLITE_THREADSAFE=2
    -DSQLITE_ENABLE_DESERIALIZE=1
    --enable-json1 --enable-fts5 --enable-session
  }
  "Locking-Style" {
    -O2
    -DSQLITE_ENABLE_LOCKING_STYLE=1
  }
  "Apple" {
    -Os
    -DHAVE_GMTIME_R=1
    -DHAVE_ISNAN=1
    -DHAVE_LOCALTIME_R=1
    -DHAVE_PREAD=1
    -DHAVE_PWRITE=1
    -DHAVE_USLEEP=1
    -DHAVE_USLEEP=1
    -DHAVE_UTIME=1
    -DSQLITE_DEFAULT_CACHE_SIZE=1000
    -DSQLITE_DEFAULT_CKPTFULLFSYNC=1
    -DSQLITE_DEFAULT_MEMSTATUS=1
    -DSQLITE_DEFAULT_PAGE_SIZE=1024
    -DSQLITE_DISABLE_PAGECACHE_OVERFLOW_STATS=1
    -DSQLITE_ENABLE_API_ARMOR=1
    -DSQLITE_ENABLE_AUTO_PROFILE=1
    -DSQLITE_ENABLE_FLOCKTIMEOUT=1
    -DSQLITE_ENABLE_FTS3=1
    -DSQLITE_ENABLE_FTS3_PARENTHESIS=1
    -DSQLITE_ENABLE_FTS3_TOKENIZER=1
    if:os=="Darwin" -DSQLITE_ENABLE_LOCKING_STYLE=1
    -DSQLITE_ENABLE_PERSIST_WAL=1
    -DSQLITE_ENABLE_PURGEABLE_PCACHE=1
    -DSQLITE_ENABLE_RTREE=1
    -DSQLITE_ENABLE_SNAPSHOT=1
    # -DSQLITE_ENABLE_SQLLOG=1
    -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT=1
    -DSQLITE_MAX_LENGTH=2147483645
    -DSQLITE_MAX_VARIABLE_NUMBER=500000
    # -DSQLITE_MEMDEBUG=1
    -DSQLITE_NO_SYNC=1
    -DSQLITE_OMIT_AUTORESET=1
    -DSQLITE_OMIT_LOAD_EXTENSION=1
    -DSQLITE_PREFER_PROXY_LOCKING=1
    -DSQLITE_SERIES_CONSTRAINT_VERIFY=1
    -DSQLITE_THREADSAFE=2
    -DSQLITE_USE_URI=1
    -DSQLITE_WRITE_WALFRAME_PREBUFFERED=1
    -DUSE_GUARDED_FD=1
    -DUSE_PREAD=1
    --enable-json1 --enable-fts5
  }
  "Extra-Robustness" {
    -DSQLITE_ENABLE_OVERSIZE_CELL_CHECK=1
    -DSQLITE_MAX_ATTACHED=62
  }
  "Devkit" {
    -DSQLITE_DEFAULT_FILE_FORMAT=4
    -DSQLITE_MAX_ATTACHED=30
    -DSQLITE_ENABLE_COLUMN_METADATA
    -DSQLITE_ENABLE_FTS4
    -DSQLITE_ENABLE_FTS5
    -DSQLITE_ENABLE_FTS4_PARENTHESIS
    -DSQLITE_DISABLE_FTS4_DEFERRED
    -DSQLITE_ENABLE_RTREE
    --enable-json1 --enable-fts5
  }
  "No-lookaside" {
    -DSQLITE_TEST_REALLOC_STRESS=1
    -DSQLITE_OMIT_LOOKASIDE=1
    -DHAVE_USLEEP=1
  }
  "Valgrind" {
    -DSQLITE_ENABLE_STAT4
    -DSQLITE_ENABLE_FTS4
    -DSQLITE_ENABLE_RTREE
    -DSQLITE_ENABLE_HIDDEN_COLUMNS
    --enable-json1
  }

  # The next group of configurations are used only by the
  # Failure-Detection platform.  They are all the same, but we need
  # different names for them all so that they results appear in separate
  # subdirectories.
  #
  Fail0 {-O0}
  Fail2 {-O0}
  Fail3 {-O0}
  Fail4 {-O0}
  FuzzFail1 {-O0}
  FuzzFail2 {-O0}
}]

array set ::Platforms [strip_comments {
  Linux-x86_64 {
    "Check-Symbols"           checksymbols
    "Fast-One"                "fuzztest test"
    "Debug-One"               "mptest test"
    "Have-Not"                test
    "Secure-Delete"           test
    "Unlock-Notify"           "QUICKTEST_INCLUDE=notify2.test test"
    "User-Auth"               tcltest
    "Update-Delete-Limit"     test
    "Extra-Robustness"        test
    "Device-Two"              test
    "No-lookaside"            test
    "Devkit"                  test
    "Apple"                   test
    "Sanitize"                {QUICKTEST_OMIT=func4.test,nan.test test}
    "Device-One"              fulltest
    "Default"                 "threadtest fulltest"
    "Valgrind"                valgrindtest
  }
  Linux-i686 {
    "Devkit"                  test
    "Have-Not"                test
    "Unlock-Notify"           "QUICKTEST_INCLUDE=notify2.test test"
    "Device-One"              test
    "Device-Two"              test
    "Default"                 "threadtest fulltest"
  }
  Darwin-i386 {
    "Locking-Style"           "mptest test"
    "Have-Not"                test
    "Apple"                   "threadtest fulltest"
  }
  Darwin-x86_64 {
    "Locking-Style"           "mptest test"
    "Have-Not"                test
    "Apple"                   "threadtest fulltest"
  }
  "Windows NT-intel" {
    "Stdcall"                 test
    "Have-Not"                test
    "Default"                 "mptest fulltestonly"
  }
  "Windows NT-amd64" {
    "Stdcall"                 test
    "Have-Not"                test
    "Default"                 "mptest fulltestonly"
  }

  # The Failure-Detection platform runs various tests that deliberately
  # fail.  This is used as a test of this script to verify that this script
  # correctly identifies failures.
  #
  Failure-Detection {
    Fail0     "TEST_FAILURE=0 test"
    Sanitize  "TEST_FAILURE=1 test"
    Fail2     "TEST_FAILURE=2 valgrindtest"
    Fail3     "TEST_FAILURE=3 valgrindtest"
    Fail4     "TEST_FAILURE=4 test"
    FuzzFail1 "TEST_FAILURE=5 test"
    FuzzFail2 "TEST_FAILURE=5 valgrindtest"
  }
}]

proc make_test_suite {msvc withtcl name testtarget config} {

  # Tcl variable $opts is used to build up the value used to set the
  # OPTS Makefile variable. Variable $cflags holds the value for
  # CFLAGS. The makefile will pass OPTS to both gcc and lemon, but
  # CFLAGS is only passed to gcc.
  #
  set makeOpts ""
  set cflags [expr {$msvc ? "-Zi" : "-g"}]
  set opts ""
  set title ${name}($testtarget)
  set configOpts $withtcl
  set skip 0

  regsub -all {#[^\n]*\n} $config \n config
  foreach arg $config {
    if {$skip} {
      set skip 0
      continue
    }
    if {[regexp {^-[UD]} $arg]} {
      lappend opts $arg
    } elseif {[regexp {^[A-Z]+=} $arg]} {
      lappend testtarget $arg
    } elseif {[regexp {^if:([a-z]+)(.*)} $arg all key tail]} {
      # Arguments of the form 'if:os=="Linux"' will cause the subsequent
      # argument to be skipped if the $tcl_platform(os) is not "Linux", for
      # example...
      set skip [expr !(\$::tcl_platform($key)$tail)]
    } elseif {[regexp {^--(enable|disable)-} $arg]} {
      if {$msvc} {
        if {$arg eq "--disable-amalgamation"} {
          lappend makeOpts USE_AMALGAMATION=0
          continue
        }
        if {$arg eq "--disable-shared"} {
          lappend makeOpts USE_CRT_DLL=0 DYNAMIC_SHELL=0
          continue
        }
        if {$arg eq "--enable-fts5"} {
          lappend opts -DSQLITE_ENABLE_FTS5
          continue
        }
        if {$arg eq "--enable-json1"} {
          lappend opts -DSQLITE_ENABLE_JSON1
          continue
        }
        if {$arg eq "--enable-shared"} {
          lappend makeOpts USE_CRT_DLL=1 DYNAMIC_SHELL=1
          continue
        }
      }
      lappend configOpts $arg
    } else {
      if {$msvc} {
        if {$arg eq "-g"} {
          lappend cflags -Zi
          continue
        }
        if {[regexp -- {^-O(\d+)$} $arg all level]} then {
          lappend makeOpts OPTIMIZATIONS=$level
          continue
        }
      }
      lappend cflags $arg
    }
  }

  # Disable sync to make testing faster.
  #
  lappend opts -DSQLITE_NO_SYNC=1

  # Some configurations already set HAVE_USLEEP; in that case, skip it.
  #
  if {[lsearch -regexp $opts {^-DHAVE_USLEEP(?:=|$)}]==-1} {
    lappend opts -DHAVE_USLEEP=1
  }

  # Add the define for this platform.
  #
  if {$::tcl_platform(platform)=="windows"} {
    lappend opts -DSQLITE_OS_WIN=1
  } else {
    lappend opts -DSQLITE_OS_UNIX=1
  }

  # Set the sub-directory to use.
  #
  set dir [string tolower [string map {- _ " " _ "(" _ ")" _} $name]]

  # Join option lists into strings, using space as delimiter.
  #
  set makeOpts [join $makeOpts " "]
  set cflags   [join $cflags " "]
  set opts     [join $opts " "]

  return [list $title $dir $configOpts $testtarget $makeOpts $cflags $opts]
}

# Configuration verification: Check that each entry in the list of configs
# specified for each platforms exists.
#
foreach {key value} [array get ::Platforms] {
  foreach {v t} $value {
    if {0==[info exists ::Configs($v)]} {
      puts stderr "No such configuration: \"$v\""
      exit -1
    }
  }
}

Changes to test/shell1.test.

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    #       command channels opened for it as textual ones), the carriage
    #       return character (and on Windows, the end-of-file character)
    #       cannot be used here.
    #
    if {$i==0x0D || ($tcl_platform(platform)=="windows" && $i==0x1A)} {
      continue
    }


    if {$i>=0xE0 && $tcl_platform(os)=="OpenBSD"}  continue
    if {$i>=0xE0 && $i<=0xEF && $tcl_platform(os)=="Linux"}  continue
    set hex [format %02X $i]
    set char [subst \\x$hex]; set oldChar $char
    set escapes [list]
    if {$tcl_platform(platform)=="windows"} {
      #







>
>







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    #       command channels opened for it as textual ones), the carriage
    #       return character (and on Windows, the end-of-file character)
    #       cannot be used here.
    #
    if {$i==0x0D || ($tcl_platform(platform)=="windows" && $i==0x1A)} {
      continue
    }
    # Tcl 8.7 maps 0x80 through 0x9f into valid UTF8.  So skip those tests.
    if {$i>=0x80 && $i<=0x9f} continue
    if {$i>=0xE0 && $tcl_platform(os)=="OpenBSD"}  continue
    if {$i>=0xE0 && $i<=0xEF && $tcl_platform(os)=="Linux"}  continue
    set hex [format %02X $i]
    set char [subst \\x$hex]; set oldChar $char
    set escapes [list]
    if {$tcl_platform(platform)=="windows"} {
      #

Changes to test/skipscan1.test.

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348

optimization_control db skip-scan 0
do_execsql_test skipscan1-9.3 {
  EXPLAIN QUERY PLAN
  SELECT  * FROM t9a WHERE b IN (SELECT x FROM t9b WHERE y!=5);
} {/{SCAN TABLE t9a}/}
optimization_control db skip-scan 1





























finish_test








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optimization_control db skip-scan 0
do_execsql_test skipscan1-9.3 {
  EXPLAIN QUERY PLAN
  SELECT  * FROM t9a WHERE b IN (SELECT x FROM t9b WHERE y!=5);
} {/{SCAN TABLE t9a}/}
optimization_control db skip-scan 1

do_execsql_test skipscan1-2.1 {
  CREATE TABLE t6(a TEXT, b INT, c INT, d INT);
  CREATE INDEX t6abc ON t6(a,b,c);
  INSERT INTO t6 VALUES('abc',123,4,5);

  ANALYZE;
  DELETE FROM sqlite_stat1;
  INSERT INTO sqlite_stat1 VALUES('t6','t6abc','10000 5000 2000 10');
  ANALYZE sqlite_master;
  DELETE FROM t6;
} {}

do_execsql_test skipscan1-2.2eqp {
  EXPLAIN QUERY PLAN
  SELECT a,b,c,d,'|' FROM t6 WHERE d<>99 AND b=345 ORDER BY a;
} {/* USING INDEX t6abc (ANY(a) AND b=?)*/}
do_execsql_test skipscan1-2.2 {
  SELECT a,b,c,d,'|' FROM t6 WHERE d<>99 AND b=345 ORDER BY a;
} {}

do_execsql_test skipscan1-2.3eqp {
  EXPLAIN QUERY PLAN
  SELECT a,b,c,d,'|' FROM t6 WHERE d<>99 AND b=345 ORDER BY a DESC;
} {/* USING INDEX t6abc (ANY(a) AND b=?)*/}
do_execsql_test skipscan1-2.3 {
  SELECT a,b,c,d,'|' FROM t6 WHERE d<>99 AND b=345 ORDER BY a DESC;
} {}

finish_test

Changes to test/skipscan2.test.

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    execsql { INSERT INTO t3 VALUES($i%2, $i, 'xyz') }
  }
  execsql { ANALYZE }
} {}
do_eqp_test skipscan2-3.3eqp {
  SELECT * FROM t3 WHERE b=42;
} {SEARCH TABLE t3 USING PRIMARY KEY (ANY(a) AND b=?)}



finish_test







>



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    execsql { INSERT INTO t3 VALUES($i%2, $i, 'xyz') }
  }
  execsql { ANALYZE }
} {}
do_eqp_test skipscan2-3.3eqp {
  SELECT * FROM t3 WHERE b=42;
} {SEARCH TABLE t3 USING PRIMARY KEY (ANY(a) AND b=?)}



finish_test

Changes to test/sqllimits1.test.

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892
  ))))
} "1 {too many columns in result set}"


foreach {key value} [array get saved] {
  catch {set $key $value}
}










finish_test







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  ))))
} "1 {too many columns in result set}"


foreach {key value} [array get saved] {
  catch {set $key $value}
}

#-------------------------------------------------------------------------
# At one point the following caused an assert() to fail.
#
sqlite3_limit db SQLITE_LIMIT_LENGTH 10000
set nm [string repeat x 10000]
do_catchsql_test sqllimits1-17.1 "
  CREATE TABLE $nm (x PRIMARY KEY)
" {1 {string or blob too big}}

finish_test

Changes to test/tester.tcl.

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    set ::G(output_fd) [open $cmdlinearg(output) w]
    fconfigure $::G(output_fd) -buffering line
  }

  if {$cmdlinearg(verbose)==""} {
    set cmdlinearg(verbose) 1
  }




}

# Update the soft-heap-limit each time this script is run. In that
# way if an individual test file changes the soft-heap-limit, it
# will be reset at the start of the next test file.
#
sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit)
................................................................................
    sqlite3_memdebug_log stop
    sqlite3_memdebug_log clear
    if {[sqlite3_memory_used]>0} {
      output2 "Writing leaks.tcl..."
      sqlite3_memdebug_log sync
      memdebug_log_sql leaks.tcl
    }



  }
  foreach f [glob -nocomplain test.db-*-journal] {
    forcedelete $f
  }
  foreach f [glob -nocomplain test.db-mj*] {
    forcedelete $f
  }
  exit [expr {$nErr>0}]
}


































# Display memory statistics for analysis and debugging purposes.
#
proc show_memstats {} {
  set x [sqlite3_status SQLITE_STATUS_MEMORY_USED 0]
  set y [sqlite3_status SQLITE_STATUS_MALLOC_SIZE 0]
  set val [format {now %10d  max %10d  max-size %10d} \







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    set ::G(output_fd) [open $cmdlinearg(output) w]
    fconfigure $::G(output_fd) -buffering line
  }

  if {$cmdlinearg(verbose)==""} {
    set cmdlinearg(verbose) 1
  }

  if {[info commands vdbe_coverage]!=""} {
    vdbe_coverage start
  }
}

# Update the soft-heap-limit each time this script is run. In that
# way if an individual test file changes the soft-heap-limit, it
# will be reset at the start of the next test file.
#
sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit)
................................................................................
    sqlite3_memdebug_log stop
    sqlite3_memdebug_log clear
    if {[sqlite3_memory_used]>0} {
      output2 "Writing leaks.tcl..."
      sqlite3_memdebug_log sync
      memdebug_log_sql leaks.tcl
    }
  }
  if {[info commands vdbe_coverage]!=""} {
    vdbe_coverage_report
  }
  foreach f [glob -nocomplain test.db-*-journal] {
    forcedelete $f
  }
  foreach f [glob -nocomplain test.db-mj*] {
    forcedelete $f
  }
  exit [expr {$nErr>0}]
}

proc vdbe_coverage_report {} {
  puts "Writing vdbe coverage report to vdbe_coverage.txt"
  set lSrc [list]
  set iLine 0
  if {[file exists ../sqlite3.c]} {
    set fd [open ../sqlite3.c]
    set iLine
    while { ![eof $fd] } {
      set line [gets $fd]
      incr iLine
      if {[regexp {^/\** Begin file (.*\.c) \**/} $line -> file]} {
        lappend lSrc [list $iLine $file]
      }
    }
    close $fd
  }
  set fd [open vdbe_coverage.txt w]
  foreach miss [vdbe_coverage report] {
    foreach {line branch never} $miss {}
    set nextfile ""
    while {[llength $lSrc]>0 && [lindex $lSrc 0 0] < $line} {
      set nextfile [lindex $lSrc 0 1]
      set lSrc [lrange $lSrc 1 end]
    }
    if {$nextfile != ""} {
      puts $fd ""
      puts $fd "### $nextfile ###"
    }
    puts $fd "Vdbe branch $line: never $never (path $branch)"
  }
  close $fd
}

# Display memory statistics for analysis and debugging purposes.
#
proc show_memstats {} {
  set x [sqlite3_status SQLITE_STATUS_MEMORY_USED 0]
  set y [sqlite3_status SQLITE_STATUS_MALLOC_SIZE 0]
  set val [format {now %10d  max %10d  max-size %10d} \

Changes to test/triggerC.test.

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1059
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} {1 {1st ORDER BY term does not match any column in the result set}}

do_catchsql_test 16.2 {
  SELECT count(*) FROM sqlite_master 
  GROUP BY raise(IGNORE) 
  HAVING raise(ABORT, 'msg');
} {1 {RAISE() may only be used within a trigger-program}}















finish_test








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1073
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} {1 {1st ORDER BY term does not match any column in the result set}}

do_catchsql_test 16.2 {
  SELECT count(*) FROM sqlite_master 
  GROUP BY raise(IGNORE) 
  HAVING raise(ABORT, 'msg');
} {1 {RAISE() may only be used within a trigger-program}}

#-------------------------------------------------------------------------
# Datatype mismatch on IPK when there are BEFORE triggers.
#
do_execsql_test 17.0 {
  CREATE TABLE xyz(x INTEGER PRIMARY KEY, y, z);
  CREATE TRIGGER xyz_tr BEFORE INSERT ON xyz BEGIN
    SELECT new.x;
  END;
}
do_catchsql_test 17.1 {
  INSERT INTO xyz VALUES('hello', 2, 3);
} {1 {datatype mismatch}}


finish_test

Changes to test/wal2.test.

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1157
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   2 00666
   3 00600
   4 00755
  } {
    set effective [format %.5o [expr $permissions & ~$umask]]
    do_test wal2-12.2.$tn.1 {
      file attributes test.db -permissions $permissions
      file attributes test.db -permissions
    } $permissions
    do_test wal2-12.2.$tn.2 {
      list [file exists test.db-wal] [file exists test.db-shm]
    } {0 0}
    do_test wal2-12.2.$tn.3 {
      sqlite3 db test.db
      execsql { INSERT INTO tx DEFAULT VALUES }
      list [file exists test.db-wal] [file exists test.db-shm]
    } {1 1}
    do_test wal2-12.2.$tn.4 {
      list [file attr test.db-wal -perm] [file attr test.db-shm -perm]

    } [list $effective $effective]
    do_test wal2-12.2.$tn.5 {
      db close
      list [file exists test.db-wal] [file exists test.db-shm]
    } {0 0}
  }
}
................................................................................
      file attr test.db     -perm $db_perm
      file attr test.db-wal -perm $wal_perm
      file attr test.db-shm -perm $shm_perm

      set     L [file attr test.db -perm]
      lappend L [file attr test.db-wal -perm]
      lappend L [file attr test.db-shm -perm]

    } [list $db_perm $wal_perm $shm_perm]

    # If $can_open is true, then it should be possible to open a database
    # handle. Otherwise, if $can_open is 0, attempting to open the db
    # handle throws an "unable to open database file" exception.
    #
    set r(1) {0 ok}







|










|
>







 







>







1081
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....
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   2 00666
   3 00600
   4 00755
  } {
    set effective [format %.5o [expr $permissions & ~$umask]]
    do_test wal2-12.2.$tn.1 {
      file attributes test.db -permissions $permissions
      string map {o 0} [file attributes test.db -permissions]
    } $permissions
    do_test wal2-12.2.$tn.2 {
      list [file exists test.db-wal] [file exists test.db-shm]
    } {0 0}
    do_test wal2-12.2.$tn.3 {
      sqlite3 db test.db
      execsql { INSERT INTO tx DEFAULT VALUES }
      list [file exists test.db-wal] [file exists test.db-shm]
    } {1 1}
    do_test wal2-12.2.$tn.4 {
      set x [list [file attr test.db-wal -perm] [file attr test.db-shm -perm]]
      string map {o 0} $x
    } [list $effective $effective]
    do_test wal2-12.2.$tn.5 {
      db close
      list [file exists test.db-wal] [file exists test.db-shm]
    } {0 0}
  }
}
................................................................................
      file attr test.db     -perm $db_perm
      file attr test.db-wal -perm $wal_perm
      file attr test.db-shm -perm $shm_perm

      set     L [file attr test.db -perm]
      lappend L [file attr test.db-wal -perm]
      lappend L [file attr test.db-shm -perm]
      string map {o 0} $L
    } [list $db_perm $wal_perm $shm_perm]

    # If $can_open is true, then it should be possible to open a database
    # handle. Otherwise, if $can_open is 0, attempting to open the db
    # handle throws an "unable to open database file" exception.
    #
    set r(1) {0 ok}

Added test/wapp.tcl.























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# Copyright (c) 2017 D. Richard Hipp
# 
# This program is free software; you can redistribute it and/or
# modify it under the terms of the Simplified BSD License (also
# known as the "2-Clause License" or "FreeBSD License".)
#
# This program is distributed in the hope that it will be useful,
# but without any warranty; without even the implied warranty of
# merchantability or fitness for a particular purpose.
#
#---------------------------------------------------------------------------
#
# Design rules:
#
#   (1)  All identifiers in the global namespace begin with "wapp"
#
#   (2)  Indentifiers intended for internal use only begin with "wappInt"
#
package require Tcl 8.6

# Add text to the end of the HTTP reply.  No interpretation or transformation
# of the text is performs.  The argument should be enclosed within {...}
#
proc wapp {txt} {
  global wapp
  dict append wapp .reply $txt
}

# Add text to the page under construction.  Do no escaping on the text.
#
# Though "unsafe" in general, there are uses for this kind of thing.
# For example, if you want to return the complete, unmodified content of
# a file:
#
#         set fd [open content.html rb]
#         wapp-unsafe [read $fd]
#         close $fd
#
# You could do the same thing using ordinary "wapp" instead of "wapp-unsafe".
# The difference is that wapp-safety-check will complain about the misuse
# of "wapp", but it assumes that the person who write "wapp-unsafe" understands
# the risks.
#
# Though occasionally necessary, the use of this interface should be minimized.
#
proc wapp-unsafe {txt} {
  global wapp
  dict append wapp .reply $txt
}

# Add text to the end of the reply under construction.  The following
# substitutions are made:
#
#     %html(...)          Escape text for inclusion in HTML
#     %url(...)           Escape text for use as a URL
#     %qp(...)            Escape text for use as a URI query parameter
#     %string(...)        Escape text for use within a JSON string
#     %unsafe(...)        No transformations of the text
#
# The substitutions above terminate at the first ")" character.  If the
# text of the TCL string in ... contains ")" characters itself, use instead:
#
#     %html%(...)%
#     %url%(...)%
#     %qp%(...)%
#     %string%(...)%
#     %unsafe%(...)%
#
# In other words, use "%(...)%" instead of "(...)" to include the TCL string
# to substitute.
#
# The %unsafe substitution should be avoided whenever possible, obviously.
# In addition to the substitutions above, the text also does backslash
# escapes.
#
# The wapp-trim proc works the same as wapp-subst except that it also removes
# whitespace from the left margin, so that the generated HTML/CSS/Javascript
# does not appear to be indented when delivered to the client web browser.
#
if {$tcl_version>=8.7} {
  proc wapp-subst {txt} {
    global wapp
    regsub -all -command \
       {%(html|url|qp|string|unsafe){1,1}?(|%)\((.+)\)\2} $txt wappInt-enc txt
    dict append wapp .reply [subst -novariables -nocommand $txt]
  }
  proc wapp-trim {txt} {
    global wapp
    regsub -all {\n\s+} [string trim $txt] \n txt
    regsub -all -command \
       {%(html|url|qp|string|unsafe){1,1}?(|%)\((.+)\)\2} $txt wappInt-enc txt
    dict append wapp .reply [subst -novariables -nocommand $txt]
  }
  proc wappInt-enc {all mode nu1 txt} {
    return [uplevel 2 "wappInt-enc-$mode \"$txt\""]
  }
} else {
  proc wapp-subst {txt} {
    global wapp
    regsub -all {%(html|url|qp|string|unsafe){1,1}?(|%)\((.+)\)\2} $txt \
           {[wappInt-enc-\1 "\3"]} txt
    dict append wapp .reply [uplevel 1 [list subst -novariables $txt]]
  }
  proc wapp-trim {txt} {
    global wapp
    regsub -all {\n\s+} [string trim $txt] \n txt
    regsub -all {%(html|url|qp|string|unsafe){1,1}?(|%)\((.+)\)\2} $txt \
           {[wappInt-enc-\1 "\3"]} txt
    dict append wapp .reply [uplevel 1 [list subst -novariables $txt]]
  }
}

# There must be a wappInt-enc-NAME routine for each possible substitution
# in wapp-subst.  Thus there are routines for "html", "url", "qp", and "unsafe".
#
#    wappInt-enc-html           Escape text so that it is safe to use in the
#                               body of an HTML document.
#
#    wappInt-enc-url            Escape text so that it is safe to pass as an
#                               argument to href= and src= attributes in HTML.
#
#    wappInt-enc-qp             Escape text so that it is safe to use as the
#                               value of a query parameter in a URL or in
#                               post data or in a cookie.
#
#    wappInt-enc-string         Escape ", ', \, and < for using inside of a
#                               javascript string literal.  The < character
#                               is escaped to prevent "</script>" from causing
#                               problems in embedded javascript.
#
#    wappInt-enc-unsafe         Perform no encoding at all.  Unsafe.
#
proc wappInt-enc-html {txt} {
  return [string map {& &amp; < &lt; > &gt; \" &quot; \\ &#92;} $txt]
}
proc wappInt-enc-unsafe {txt} {
  return $txt
}
proc wappInt-enc-url {s} {
  if {[regsub -all {[^-{}@~?=#_.:/a-zA-Z0-9]} $s {[wappInt-%HHchar {&}]} s]} {
    set s [subst -novar -noback $s]
  }
  if {[regsub -all {[{}]} $s {[wappInt-%HHchar \\&]} s]} {
    set s [subst -novar -noback $s]
  }
  return $s
}
proc wappInt-enc-qp {s} {
  if {[regsub -all {[^-{}_.a-zA-Z0-9]} $s {[wappInt-%HHchar {&}]} s]} {
    set s [subst -novar -noback $s]
  }
  if {[regsub -all {[{}]} $s {[wappInt-%HHchar \\&]} s]} {
    set s [subst -novar -noback $s]
  }
  return $s
}
proc wappInt-enc-string {s} {
  return [string map {\\ \\\\ \" \\\" ' \\' < \\u003c} $s]
}

# This is a helper routine for wappInt-enc-url and wappInt-enc-qp.  It returns
# an appropriate %HH encoding for the single character c.  If c is a unicode
# character, then this routine might return multiple bytes:  %HH%HH%HH
#
proc wappInt-%HHchar {c} {
  if {$c==" "} {return +}
  return [regsub -all .. [binary encode hex [encoding convertto utf-8 $c]] {%&}]
}


# Undo the www-url-encoded format.
#
# HT: This code stolen from ncgi.tcl
#
proc wappInt-decode-url {str} {
  set str [string map [list + { } "\\" "\\\\" \[ \\\[ \] \\\]] $str]
  regsub -all -- \
      {%([Ee][A-Fa-f0-9])%([89ABab][A-Fa-f0-9])%([89ABab][A-Fa-f0-9])} \
      $str {[encoding convertfrom utf-8 [binary decode hex \1\2\3]]} str
  regsub -all -- \
      {%([CDcd][A-Fa-f0-9])%([89ABab][A-Fa-f0-9])}                     \
      $str {[encoding convertfrom utf-8 [binary decode hex \1\2]]} str
  regsub -all -- {%([0-7][A-Fa-f0-9])} $str {\\u00\1} str
  return [subst -novar $str]
}

# Reset the document back to an empty string.
#
proc wapp-reset {} {
  global wapp
  dict set wapp .reply {}
}

# Change the mime-type of the result document.
#
proc wapp-mimetype {x} {
  global wapp
  dict set wapp .mimetype $x
}

# Change the reply code.
#
proc wapp-reply-code {x} {
  global wapp
  dict set wapp .reply-code $x
}

# Set a cookie
#
proc wapp-set-cookie {name value} {
  global wapp
  dict lappend wapp .new-cookies $name $value
}

# Unset a cookie
#
proc wapp-clear-cookie {name} {
  wapp-set-cookie $name {}
}

# Add extra entries to the reply header
#
proc wapp-reply-extra {name value} {
  global wapp
  dict lappend wapp .reply-extra $name $value
}

# Specifies how the web-page under construction should be cached.
# The argument should be one of:
#
#    no-cache
#    max-age=N             (for some integer number of seconds, N)
#    private,max-age=N
#
proc wapp-cache-control {x} {
  wapp-reply-extra Cache-Control $x
}

# Redirect to a different web page
#
proc wapp-redirect {uri} {
  wapp-reply-code {307 Redirect}
  wapp-reply-extra Location $uri
}

# Return the value of a wapp parameter
#
proc wapp-param {name {dflt {}}} {
  global wapp
  if {![dict exists $wapp $name]} {return $dflt}
  return [dict get $wapp $name]
}

# Return true if a and only if the wapp parameter $name exists
#
proc wapp-param-exists {name} {
  global wapp
  return [dict exists $wapp $name]
}

# Set the value of a wapp parameter
#
proc wapp-set-param {name value} {
  global wapp
  dict set wapp $name $value
}

# Return all parameter names that match the GLOB pattern, or all
# names if the GLOB pattern is omitted.
#
proc wapp-param-list {{glob {*}}} {
  global wapp
  return [dict keys $wapp $glob]
}

# By default, Wapp does not decode query parameters and POST parameters
# for cross-origin requests.  This is a security restriction, designed to
# help prevent cross-site request forgery (CSRF) attacks.
#
# As a consequence of this restriction, URLs for sites generated by Wapp
# that contain query parameters will not work as URLs found in other
# websites.  You cannot create a link from a second website into a Wapp
# website if the link contains query planner, by default.
#
# Of course, it is sometimes desirable to allow query parameters on external
# links.  For URLs for which this is safe, the application should invoke
# wapp-allow-xorigin-params.  This procedure tells Wapp that it is safe to
# go ahead and decode the query parameters even for cross-site requests.
#
# In other words, for Wapp security is the default setting.  Individual pages
# need to actively disable the cross-site request security if those pages
# are safe for cross-site access.
#
proc wapp-allow-xorigin-params {} {
  global wapp
  if {![dict exists $wapp .qp] && ![dict get $wapp SAME_ORIGIN]} {
    wappInt-decode-query-params
  }
}

# Set the content-security-policy.
#
# The default content-security-policy is very strict:  "default-src 'self'"
# The default policy prohibits the use of in-line javascript or CSS.
#
# Provide an alternative CSP as the argument.  Or use "off" to disable
# the CSP completely.
#
proc wapp-content-security-policy {val} {
  global wapp
  if {$val=="off"} {
    dict unset wapp .csp
  } else {
    dict set wapp .csp $val
  }
}

# Examine the bodys of all procedures in this program looking for
# unsafe calls to various Wapp interfaces.  Return a text string
# containing warnings. Return an empty string if all is ok.
#
# This routine is advisory only.  It misses some constructs that are
# dangerous and flags others that are safe.
#
proc wapp-safety-check {} {
  set res {}
  foreach p [info procs] {
    set ln 0
    foreach x [split [info body $p] \n] {
      incr ln
      if {[regexp {^[ \t]*wapp[ \t]+([^\n]+)} $x all tail]
       && [string index $tail 0]!="\173"
       && [regexp {[[$]} $tail]
      } {
        append res "$p:$ln: unsafe \"wapp\" call: \"[string trim $x]\"\n"
      }
      if {[regexp {^[ \t]*wapp-(subst|trim)[ \t]+[^\173]} $x all cx]} {
        append res "$p:$ln: unsafe \"wapp-$cx\" call: \"[string trim $x]\"\n"
      }
    }
  }
  return $res
}

# Return a string that descripts the current environment.  Applications
# might find this useful for debugging.
#
proc wapp-debug-env {} {
  global wapp
  set out {}
  foreach var [lsort [dict keys $wapp]] {
    if {[string index $var 0]=="."} continue
    append out "$var = [list [dict get $wapp $var]]\n"
  }
  append out "\[pwd\] = [list [pwd]]\n"
  return $out
}

# Tracing function for each HTTP request.  This is overridden by wapp-start
# if tracing is enabled.
#
proc wappInt-trace {} {}

# Start up a listening socket.  Arrange to invoke wappInt-new-connection
# for each inbound HTTP connection.
#
#    port            Listen on this TCP port.  0 means to select a port
#                    that is not currently in use
#
#    wappmode        One of "scgi", "remote-scgi", "server", or "local".
#
#    fromip          If not {}, then reject all requests from IP addresses
#                    other than $fromip
#
proc wappInt-start-listener {port wappmode fromip} {
  if {[string match *scgi $wappmode]} {
    set type SCGI
    set server [list wappInt-new-connection \
                wappInt-scgi-readable $wappmode $fromip]
  } else {
    set type HTTP
    set server [list wappInt-new-connection \
                wappInt-http-readable $wappmode $fromip]
  }
  if {$wappmode=="local" || $wappmode=="scgi"} {
    set x [socket -server $server -myaddr 127.0.0.1 $port]
  } else {
    set x [socket -server $server $port]
  }
  set coninfo [chan configure $x -sockname]
  set port [lindex $coninfo 2]
  if {$wappmode=="local"} {
    wappInt-start-browser http://127.0.0.1:$port/
  } elseif {$fromip!=""} {
    puts "Listening for $type requests on TCP port $port from IP $fromip"
  } else {
    puts "Listening for $type requests on TCP port $port"
  }
}

# Start a web-browser and point it at $URL
#
proc wappInt-start-browser {url} {
  global tcl_platform
  if {$tcl_platform(platform)=="windows"} {
    exec cmd /c start $url &
  } elseif {$tcl_platform(os)=="Darwin"} {
    exec open $url &
  } elseif {[catch {exec xdg-open $url}]} {
    exec firefox $url &
  }
}

# This routine is a "socket -server" callback.  The $chan, $ip, and $port
# arguments are added by the socket command.
#
# Arrange to invoke $callback when content is available on the new socket.
# The $callback will process inbound HTTP or SCGI content.  Reject the
# request if $fromip is not an empty string and does not match $ip.
#
proc wappInt-new-connection {callback wappmode fromip chan ip port} {
  upvar #0 wappInt-$chan W
  if {$fromip!="" && ![string match $fromip $ip]} {
    close $chan
    return
  }
  set W [dict create REMOTE_ADDR $ip REMOTE_PORT $port WAPP_MODE $wappmode \
         .header {}]
  fconfigure $chan -blocking 0 -translation binary
  fileevent $chan readable [list $callback $chan]
}

# Close an input channel
#
proc wappInt-close-channel {chan} {
  if {$chan=="stdout"} {
    # This happens after completing a CGI request
    exit 0
  } else {
    unset ::wappInt-$chan
    close $chan
  }
}

# Process new text received on an inbound HTTP request
#
proc wappInt-http-readable {chan} {
  if {[catch [list wappInt-http-readable-unsafe $chan] msg]} {
    puts stderr "$msg\n$::errorInfo"
    wappInt-close-channel $chan
  }
}
proc wappInt-http-readable-unsafe {chan} {
  upvar #0 wappInt-$chan W wapp wapp
  if {![dict exists $W .toread]} {
    # If the .toread key is not set, that means we are still reading
    # the header
    set line [string trimright [gets $chan]]
    set n [string length $line]
    if {$n>0} {
      if {[dict get $W .header]=="" || [regexp {^\s+} $line]} {
        dict append W .header $line
      } else {
        dict append W .header \n$line
      }
      if {[string length [dict get $W .header]]>100000} {
        error "HTTP request header too big - possible DOS attack"
      }
    } elseif {$n==0} {
      # We have reached the blank line that terminates the header.
      global argv0
      set a0 [file normalize $argv0]
      dict set W SCRIPT_FILENAME $a0
      dict set W DOCUMENT_ROOT [file dir $a0]
      if {[wappInt-parse-header $chan]} {
        catch {close $chan}
        return
      }
      set len 0
      if {[dict exists $W CONTENT_LENGTH]} {
        set len [dict get $W CONTENT_LENGTH]
      }
      if {$len>0} {
        # Still need to read the query content
        dict set W .toread $len
      } else {
        # There is no query content, so handle the request immediately
        set wapp $W
        wappInt-handle-request $chan 0
      }
    }
  } else {
    # If .toread is set, that means we are reading the query content.
    # Continue reading until .toread reaches zero.
    set got [read $chan [dict get $W .toread]]
    dict append W CONTENT $got
    dict set W .toread [expr {[dict get $W .toread]-[string length $got]}]
    if {[dict get $W .toread]<=0} {
      # Handle the request as soon as all the query content is received
      set wapp $W
      wappInt-handle-request $chan 0
    }
  }
}

# Decode the HTTP request header.
#
# This routine is always running inside of a [catch], so if
# any problems arise, simply raise an error.
#
proc wappInt-parse-header {chan} {
  upvar #0 wappInt-$chan W
  set hdr [split [dict get $W .header] \n]
  if {$hdr==""} {return 1}
  set req [lindex $hdr 0]
  dict set W REQUEST_METHOD [set method [lindex $req 0]]
  if {[lsearch {GET HEAD POST} $method]<0} {
    error "unsupported request method: \"[dict get $W REQUEST_METHOD]\""
  }
  set uri [lindex $req 1]
  set split_uri [split $uri ?]
  set uri0 [lindex $split_uri 0]
  if {![regexp {^/[-.a-z0-9_/]*$} $uri0]} {
    error "invalid request uri: \"$uri0\""
  }
  dict set W REQUEST_URI $uri0
  dict set W PATH_INFO $uri0
  set uri1 [lindex $split_uri 1]
  dict set W QUERY_STRING $uri1
  set n [llength $hdr]
  for {set i 1} {$i<$n} {incr i} {
    set x [lindex $hdr $i]
    if {![regexp {^(.+): +(.*)$} $x all name value]} {
      error "invalid header line: \"$x\""
    }
    set name [string toupper $name]
    switch -- $name {
      REFERER {set name HTTP_REFERER}
      USER-AGENT {set name HTTP_USER_AGENT}
      CONTENT-LENGTH {set name CONTENT_LENGTH}
      CONTENT-TYPE {set name CONTENT_TYPE}
      HOST {set name HTTP_HOST}
      COOKIE {set name HTTP_COOKIE}
      ACCEPT-ENCODING {set name HTTP_ACCEPT_ENCODING}
      default {set name .hdr:$name}
    }
    dict set W $name $value
  }
  return 0
}

# Decode the QUERY_STRING parameters from a GET request or the
# application/x-www-form-urlencoded CONTENT from a POST request.
#
# This routine sets the ".qp" element of the ::wapp dict as a signal
# that query parameters have already been decoded.
#
proc wappInt-decode-query-params {} {
  global wapp
  dict set wapp .qp 1
  if {[dict exists $wapp QUERY_STRING]} {
    foreach qterm [split [dict get $wapp QUERY_STRING] &] {
      set qsplit [split $qterm =]
      set nm [lindex $qsplit 0]
      if {[regexp {^[a-z][a-z0-9]*$} $nm]} {
        dict set wapp $nm [wappInt-decode-url [lindex $qsplit 1]]
      }
    }
  }
  if {[dict exists $wapp CONTENT_TYPE] && [dict exists $wapp CONTENT]} {
    set ctype [dict get $wapp CONTENT_TYPE]
    if {$ctype=="application/x-www-form-urlencoded"} {
      foreach qterm [split [string trim [dict get $wapp CONTENT]] &] {
        set qsplit [split $qterm =]
        set nm [lindex $qsplit 0]
        if {[regexp {^[a-z][-a-z0-9_]*$} $nm]} {
          dict set wapp $nm [wappInt-decode-url [lindex $qsplit 1]]
        }
      }
    } elseif {[string match multipart/form-data* $ctype]} {
      regexp {^(.*?)\r\n(.*)$} [dict get $wapp CONTENT] all divider body
      set ndiv [string length $divider]
      while {[string length $body]} {
        set idx [string first $divider $body]
        set unit [string range $body 0 [expr {$idx-3}]]
        set body [string range $body [expr {$idx+$ndiv+2}] end]
        if {[regexp {^Content-Disposition: form-data; (.*?)\r\n\r\n(.*)$} \
             $unit unit hdr content]} {
          if {[regexp {name="(.*)"; filename="(.*)"\r\nContent-Type: (.*?)$}\
                $hdr hr name filename mimetype]} {
            dict set wapp $name.filename \
              [string map [list \\\" \" \\\\ \\] $filename]
            dict set wapp $name.mimetype $mimetype
            dict set wapp $name.content $content
          } elseif {[regexp {name="(.*)"} $hdr hr name]} {
            dict set wapp $name $content
          }
        }
      }
    }
  }
}

# Invoke application-supplied methods to generate a reply to
# a single HTTP request.
#
# This routine always runs within [catch], so handle exceptions by
# invoking [error].
#
proc wappInt-handle-request {chan useCgi} {
  global wapp
  dict set wapp .reply {}
  dict set wapp .mimetype {text/html; charset=utf-8}
  dict set wapp .reply-code {200 Ok}
  dict set wapp .csp {default-src 'self'}

  # Set up additional CGI environment values
  #
  if {![dict exists $wapp HTTP_HOST]} {
    dict set wapp BASE_URL {}
  } elseif {[dict exists $wapp HTTPS]} {
    dict set wapp BASE_URL https://[dict get $wapp HTTP_HOST]
  } else {
    dict set wapp BASE_URL http://[dict get $wapp HTTP_HOST]
  }
  if {![dict exists $wapp REQUEST_URI]} {
    dict set wapp REQUEST_URI /
  } elseif {[regsub {\?.*} [dict get $wapp REQUEST_URI] {} newR]} {
    # Some servers (ex: nginx) append the query parameters to REQUEST_URI.
    # These need to be stripped off
    dict set wapp REQUEST_URI $newR
  }
  if {[dict exists $wapp SCRIPT_NAME]} {
    dict append wapp BASE_URL [dict get $wapp SCRIPT_NAME]
  } else {
    dict set wapp SCRIPT_NAME {}
  }
  if {![dict exists $wapp PATH_INFO]} {
    # If PATH_INFO is missing (ex: nginx) then construct it
    set URI [dict get $wapp REQUEST_URI]
    set skip [string length [dict get $wapp SCRIPT_NAME]]
    dict set wapp PATH_INFO [string range $URI $skip end]
  }
  if {[regexp {^/([^/]+)(.*)$} [dict get $wapp PATH_INFO] all head tail]} {
    dict set wapp PATH_HEAD $head
    dict set wapp PATH_TAIL [string trimleft $tail /]
  } else {
    dict set wapp PATH_INFO {}
    dict set wapp PATH_HEAD {}
    dict set wapp PATH_TAIL {}
  }
  dict set wapp SELF_URL [dict get $wapp BASE_URL]/[dict get $wapp PATH_HEAD]

  # Parse query parameters from the query string, the cookies, and
  # POST data
  #
  if {[dict exists $wapp HTTP_COOKIE]} {
    foreach qterm [split [dict get $wapp HTTP_COOKIE] {;}] {
      set qsplit [split [string trim $qterm] =]
      set nm [lindex $qsplit 0]
      if {[regexp {^[a-z][-a-z0-9_]*$} $nm]} {
        dict set wapp $nm [wappInt-decode-url [lindex $qsplit 1]]
      }
    }
  }
  set same_origin 0
  if {[dict exists $wapp HTTP_REFERER]} {
    set referer [dict get $wapp HTTP_REFERER]
    set base [dict get $wapp BASE_URL]
    if {$referer==$base || [string match $base/* $referer]} {
      set same_origin 1
    }
  }
  dict set wapp SAME_ORIGIN $same_origin
  if {$same_origin} {
    wappInt-decode-query-params
  }

  # Invoke the application-defined handler procedure for this page
  # request.  If an error occurs while running that procedure, generate
  # an HTTP reply that contains the error message.
  #
  wapp-before-dispatch-hook
  wappInt-trace
  set mname [dict get $wapp PATH_HEAD]
  if {[catch {
    if {$mname!="" && [llength [info proc wapp-page-$mname]]>0} {
      wapp-page-$mname
    } else {
      wapp-default
    }
  } msg]} {
    if {[wapp-param WAPP_MODE]=="local" || [wapp-param WAPP_MODE]=="server"} {
      puts "ERROR: $::errorInfo"
    }
    wapp-reset
    wapp-reply-code "500 Internal Server Error"
    wapp-mimetype text/html
    wapp-trim {
      <h1>Wapp Application Error</h1>
      <pre>%html($::errorInfo)</pre>
    }
    dict unset wapp .new-cookies
  }

  # Transmit the HTTP reply
  #
  if {$chan=="stdout"} {
    puts $chan "Status: [dict get $wapp .reply-code]\r"
  } else {
    puts $chan "HTTP/1.1 [dict get $wapp .reply-code]\r"
    puts $chan "Server: wapp\r"
    puts $chan "Connection: close\r"
  }
  if {[dict exists $wapp .reply-extra]} {
    foreach {name value} [dict get $wapp .reply-extra] {
      puts $chan "$name: $value\r"
    }
  }
  if {[dict exists $wapp .csp]} {
    puts $chan "Content-Security-Policy: [dict get $wapp .csp]\r"
  }
  set mimetype [dict get $wapp .mimetype]
  puts $chan "Content-Type: $mimetype\r"
  if {[dict exists $wapp .new-cookies]} {
    foreach {nm val} [dict get $wapp .new-cookies] {
      if {[regexp {^[a-z][-a-z0-9_]*$} $nm]} {
        if {$val==""} {
          puts $chan "Set-Cookie: $nm=; HttpOnly; Path=/; Max-Age=1\r"
        } else {
          set val [wappInt-enc-url $val]
          puts $chan "Set-Cookie: $nm=$val; HttpOnly; Path=/\r"
        }
      }
    }
  }
  if {[string match text/* $mimetype]} {
    set reply [encoding convertto utf-8 [dict get $wapp .reply]]
    if {[regexp {\ygzip\y} [wapp-param HTTP_ACCEPT_ENCODING]]} {
      catch {
        set x [zlib gzip $reply]
        set reply $x
        puts $chan "Content-Encoding: gzip\r"
      }
    }
  } else {
    set reply [dict get $wapp .reply]
  }
  puts $chan "Content-Length: [string length $reply]\r"
  puts $chan \r
  puts -nonewline $chan $reply
  flush $chan
  wappInt-close-channel $chan
}

# This routine runs just prior to request-handler dispatch.  The
# default implementation is a no-op, but applications can override
# to do additional transformations or checks.
#
proc wapp-before-dispatch-hook {} {return}

# Process a single CGI request
#
proc wappInt-handle-cgi-request {} {
  global wapp env
  foreach key {
    CONTENT_LENGTH
    CONTENT_TYPE
    DOCUMENT_ROOT
    HTTP_ACCEPT_ENCODING
    HTTP_COOKIE
    HTTP_HOST
    HTTP_REFERER
    HTTP_USER_AGENT
    HTTPS
    PATH_INFO
    QUERY_STRING
    REMOTE_ADDR
    REQUEST_METHOD
    REQUEST_URI
    REMOTE_USER
    SCRIPT_FILENAME
    SCRIPT_NAME
    SERVER_NAME
    SERVER_PORT
    SERVER_PROTOCOL
  } {
    if {[info exists env($key)]} {
      dict set wapp $key $env($key)
    }
  }
  set len 0
  if {[dict exists $wapp CONTENT_LENGTH]} {
    set len [dict get $wapp CONTENT_LENGTH]
  }
  if {$len>0} {
    fconfigure stdin -translation binary
    dict set wapp CONTENT [read stdin $len]
  }
  dict set wapp WAPP_MODE cgi
  fconfigure stdout -translation binary
  wappInt-handle-request stdout 1
}

# Process new text received on an inbound SCGI request
#
proc wappInt-scgi-readable {chan} {
  if {[catch [list wappInt-scgi-readable-unsafe $chan] msg]} {
    puts stderr "$msg\n$::errorInfo"
    wappInt-close-channel $chan
  }
}
proc wappInt-scgi-readable-unsafe {chan} {
  upvar #0 wappInt-$chan W wapp wapp
  if {![dict exists $W .toread]} {
    # If the .toread key is not set, that means we are still reading
    # the header.
    #
    # An SGI header is short.  This implementation assumes the entire
    # header is available all at once.
    #
    dict set W .remove_addr [dict get $W REMOTE_ADDR]
    set req [read $chan 15]
    set n [string length $req]
    scan $req %d:%s len hdr
    incr len [string length "$len:,"]
    append hdr [read $chan [expr {$len-15}]]
    foreach {nm val} [split $hdr \000] {
      if {$nm==","} break
      dict set W $nm $val
    }
    set len 0
    if {[dict exists $W CONTENT_LENGTH]} {
      set len [dict get $W CONTENT_LENGTH]
    }
    if {$len>0} {
      # Still need to read the query content
      dict set W .toread $len
    } else {
      # There is no query content, so handle the request immediately
      dict set W SERVER_ADDR [dict get $W .remove_addr]
      set wapp $W
      wappInt-handle-request $chan 0
    }
  } else {
    # If .toread is set, that means we are reading the query content.
    # Continue reading until .toread reaches zero.
    set got [read $chan [dict get $W .toread]]
    dict append W CONTENT $got
    dict set W .toread [expr {[dict get $W .toread]-[string length $got]}]
    if {[dict get $W .toread]<=0} {
      # Handle the request as soon as all the query content is received
      dict set W SERVER_ADDR [dict get $W .remove_addr]
      set wapp $W
      wappInt-handle-request $chan 0
    }
  }
}

# Start up the wapp framework.  Parameters are a list passed as the
# single argument.
#
#    -server $PORT         Listen for HTTP requests on this TCP port $PORT
#
#    -local $PORT          Listen for HTTP requests on 127.0.0.1:$PORT
#
#    -scgi $PORT           Listen for SCGI requests on 127.0.0.1:$PORT
#
#    -remote-scgi $PORT    Listen for SCGI requests on TCP port $PORT
#
#    -cgi                  Handle a single CGI request
#
# With no arguments, the behavior is called "auto".  In "auto" mode,
# if the GATEWAY_INTERFACE environment variable indicates CGI, then run
# as CGI.  Otherwise, start an HTTP server bound to the loopback address
# only, on an arbitrary TCP port, and automatically launch a web browser
# on that TCP port.
#
# Additional options:
#
#    -fromip GLOB         Reject any incoming request where the remote
#                         IP address does not match the GLOB pattern.  This
#                         value defaults to '127.0.0.1' for -local and -scgi.
#
#    -nowait              Do not wait in the event loop.  Return immediately
#                         after all event handlers are established.
#
#    -trace               "puts" each request URL as it is handled, for
#                         debugging
#
#    -lint                Run wapp-safety-check on the application instead
#                         of running the application itself
#
#    -Dvar=value          Set TCL global variable "var" to "value"
#
#
proc wapp-start {arglist} {
  global env
  set mode auto
  set port 0
  set nowait 0
  set fromip {}
  set n [llength $arglist]
  for {set i 0} {$i<$n} {incr i} {
    set term [lindex $arglist $i]
    if {[string match --* $term]} {set term [string range $term 1 end]}
    switch -glob -- $term {
      -server {
        incr i;
        set mode "server"
        set port [lindex $arglist $i]
      }
      -local {
        incr i;
        set mode "local"
        set fromip 127.0.0.1
        set port [lindex $arglist $i]
      }
      -scgi {
        incr i;
        set mode "scgi"
        set fromip 127.0.0.1
        set port [lindex $arglist $i]
      }
      -remote-scgi {
        incr i;
        set mode "remote-scgi"
        set port [lindex $arglist $i]
      }
      -cgi {
        set mode "cgi"
      }
      -fromip {
        incr i
        set fromip [lindex $arglist $i]
      }
      -nowait {
        set nowait 1
      }
      -trace {
        proc wappInt-trace {} {
          set q [wapp-param QUERY_STRING]
          set uri [wapp-param BASE_URL][wapp-param PATH_INFO]
          if {$q!=""} {append uri ?$q}
          puts $uri
        }
      }
      -lint {
        set res [wapp-safety-check]
        if {$res!=""} {
          puts "Potential problems in this code:"
          puts $res
          exit 1
        } else {
          exit
        }
      }
      -D*=* {
        if {[regexp {^.D([^=]+)=(.*)$} $term all var val]} {
          set ::$var $val
        }
      }
      default {
        error "unknown option: $term"
      }
    }
  }
  if {$mode=="auto"} {
    if {[info exists env(GATEWAY_INTERFACE)]
        && [string match CGI/1.* $env(GATEWAY_INTERFACE)]} {
      set mode cgi
    } else {
      set mode local
    }
  }
  if {$mode=="cgi"} {
    wappInt-handle-cgi-request
  } else {
    wappInt-start-listener $port $mode $fromip
    if {!$nowait} {
      vwait ::forever
    }
  }
}

# Call this version 1.0
package provide wapp 1.0

Added test/wapptest.tcl.





































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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#!/bin/sh
# \
exec wapptclsh "$0" ${1+"$@"}

# package required wapp
source [file join [file dirname [info script]] wapp.tcl]

# Read the data from the releasetest_data.tcl script.
#
source [file join [file dirname [info script]] releasetest_data.tcl]

# Variables set by the "control" form:
#
#   G(platform) - User selected platform.
#   G(test)     - Set to "Normal", "Veryquick", "Smoketest" or "Build-Only".
#   G(keep)     - Boolean. True to delete no files after each test.
#   G(msvc)     - Boolean. True to use MSVC as the compiler.
#   G(tcl)      - Use Tcl from this directory for builds.
#   G(jobs)     - How many sub-processes to run simultaneously.
#
set G(platform) $::tcl_platform(os)-$::tcl_platform(machine)
set G(test)     Normal
set G(keep)     0
set G(msvc)     0
set G(tcl)      [::tcl::pkgconfig get libdir,install]
set G(jobs)     3
set G(debug)    0

proc wapptest_init {} {
  global G

  set lSave [list platform test keep msvc tcl jobs debug] 
  foreach k $lSave { set A($k) $G($k) }
  array unset G
  foreach k $lSave { set G($k) $A($k) }

  # The root of the SQLite source tree.
  set G(srcdir)   [file dirname [file dirname [info script]]]

  # releasetest.tcl script
  set G(releaseTest) [file join [file dirname [info script]] releasetest.tcl]

  set G(sqlite_version) "unknown"

  # Either "config", "running" or "stopped":
  set G(state) "config"

  set G(hostname) "(unknown host)"
  catch { set G(hostname) [exec hostname] } 
  set G(host) $G(hostname)
  append G(host) " $::tcl_platform(os) $::tcl_platform(osVersion)"
  append G(host) " $::tcl_platform(machine) $::tcl_platform(byteOrder)"
}

# Check to see if there are uncommitted changes in the SQLite source
# directory. Return true if there are, or false otherwise.
#
proc check_uncommitted {} {
  global G
  set ret 0
  set pwd [pwd]
  cd $G(srcdir)
  if {[catch {exec fossil changes} res]==0 && [string trim $res]!=""} {
    set ret 1
  }
  cd $pwd
  return $ret
}

proc generate_fossil_info {} {
  global G
  set pwd [pwd]
  cd $G(srcdir)
  if {[catch {exec fossil info}    r1]} return
  if {[catch {exec fossil changes} r2]} return
  cd $pwd

  foreach line [split $r1 "\n"] {
    if {[regexp {^checkout: *(.*)$} $line -> co]} {
      wapp-trim { <br> %html($co) }
    }
  }

  if {[string trim $r2]!=""} {
    wapp-trim { 
      <br><span class=warning> 
      WARNING: Uncommitted changes in checkout
      </span>
    }
  }
}

# If the application is in "config" state, set the contents of the 
# ::G(test_array) global to reflect the tests that will be run. If the
# app is in some other state ("running" or "stopped"), this command
# is a no-op.
#
proc set_test_array {} {
  global G
  if { $G(state)=="config" } {
    set G(test_array) [list]
    foreach {config target} $::Platforms($G(platform)) {

      # If using MSVC, do not run sanitize or valgrind tests. Or the
      # checksymbols test.
      if {$G(msvc) && (
          "Sanitize" == $config 
       || "checksymbols" in $target
       || "valgrindtest" in $target
      )} {
        continue
      }

      # If the test mode is not "Normal", override the target.
      #
      if {$target!="checksymbols" && $G(platform)!="Failure-Detection"} {
        switch -- $G(test) {
          Veryquick { set target quicktest }
          Smoketest { set target smoketest }
          Build-Only {
            set target testfixture
            if {$::tcl_platform(platform)=="windows"} {
              set target testfixture.exe
            }
          }
        }
      }

      lappend G(test_array) [dict create config $config target $target]

      set exclude [list checksymbols valgrindtest fuzzoomtest]
      if {$G(debug) && !($target in $exclude)} {
        set debug_idx [lsearch -glob $::Configs($config) -DSQLITE_DEBUG*]
        set xtarget $target
        regsub -all {fulltest[a-z]*} $xtarget test xtarget
        if {$debug_idx<0} {
          lappend G(test_array) [
            dict create config $config-(Debug) target $xtarget
          ]
        } else {
          lappend G(test_array) [
            dict create config $config-(NDebug) target $xtarget
          ]
        }
      }
    }
  }
}

proc count_tests_and_errors {name logfile} {
  global G

  set fd [open $logfile rb]
  set seen 0
  while {![eof $fd]} {
    set line [gets $fd]
    if {[regexp {(\d+) errors out of (\d+) tests} $line all nerr ntest]} {
      incr G(test.$name.nError) $nerr
      incr G(test.$name.nTest) $ntest
      set seen 1
      if {$nerr>0} {
        set G(test.$name.errmsg) $line
      }
    }
    if {[regexp {runtime error: +(.*)} $line all msg]} {
      # skip over "value is outside range" errors
      if {[regexp {value .* is outside the range of representable} $line]} {
         # noop
      } else {
        incr G(test.$name.nError)
        if {$G(test.$name.errmsg)==""} {
          set G(test.$name.errmsg) $msg
        }
      }
    }
    if {[regexp {fatal error +(.*)} $line all msg]} {
      incr G(test.$name.nError)
      if {$G(test.$name.errmsg)==""} {
        set G(test.$name.errmsg) $msg
      }
    }
    if {[regexp {ERROR SUMMARY: (\d+) errors.*} $line all cnt] && $cnt>0} {
      incr G(test.$name.nError)
      if {$G(test.$name.errmsg)==""} {
        set G(test.$name.errmsg) $all
      }
    }
    if {[regexp {^VERSION: 3\.\d+.\d+} $line]} {
      set v [string range $line 9 end]
      if {$G(sqlite_version) eq "unknown"} {
        set G(sqlite_version) $v
      } elseif {$G(sqlite_version) ne $v} {
        set G(test.$name.errmsg) "version conflict: {$G(sqlite_version)} vs. {$v}"
      }
    }
  }
  close $fd
  if {$G(test) == "Build-Only"} {
    incr G(test.$name.nTest)
    if {$G(test.$name.nError)>0} {
      set errmsg "Build failed"
    }
  } elseif {!$seen} {
    set G(test.$name.errmsg) "Test did not complete"
    if {[file readable core]} {
      append G(test.$name.errmsg) " - core file exists"
    }
  }
}

proc slave_test_done {name rc} {
  global G
  set G(test.$name.done) [clock seconds]
  set G(test.$name.nError) 0
  set G(test.$name.nTest) 0
  set G(test.$name.errmsg) ""
  if {$rc} {
    incr G(test.$name.nError)
  }
  if {[file exists $G(test.$name.log)]} {
    count_tests_and_errors $name $G(test.$name.log)
  }
}

proc slave_fileevent {name} {
  global G
  set fd $G(test.$name.channel)

  if {[eof $fd]} {
    fconfigure $fd -blocking 1
    set rc [catch { close $fd }]
    unset G(test.$name.channel)
    slave_test_done $name $rc
  } else {
    set line [gets $fd]
    if {[string trim $line] != ""} { puts "Trace   : $name - \"$line\"" }
  }

  do_some_stuff
}

proc do_some_stuff {} {
  global G

  # Count the number of running jobs. A running job has an entry named
  # "channel" in its dictionary.
  set nRunning 0
  set bFinished 1
  foreach j $G(test_array) {
    set name [dict get $j config]
    if { [info exists G(test.$name.channel)]} { incr nRunning   }
    if {![info exists G(test.$name.done)]}    { set bFinished 0 }
  }

  if {$bFinished} {
    set nError 0
    set nTest 0
    set nConfig 0
    foreach j $G(test_array) {
      set name [dict get $j config]
      incr nError $G(test.$name.nError)
      incr nTest $G(test.$name.nTest)
      incr nConfig 
    }
    set G(result) "$nError errors from $nTest tests in $nConfig configurations."
    catch {
      append G(result) " SQLite version $G(sqlite_version)"
    }
    set G(state) "stopped"
  } else {
    set nLaunch [expr $G(jobs) - $nRunning]
    foreach j $G(test_array) {
      if {$nLaunch<=0} break
      set name [dict get $j config]
      if { ![info exists G(test.$name.channel)]
        && ![info exists G(test.$name.done)]
      } {
        set target [dict get $j target]
        set G(test.$name.start) [clock seconds]
        set fd [open "|[info nameofexecutable] $G(releaseTest) --slave" r+]
        set G(test.$name.channel) $fd
        fconfigure $fd -blocking 0
        fileevent $fd readable [list slave_fileevent $name]

        puts $fd [list 0 $G(msvc) 0 $G(keep)]

        set wtcl ""
        if {$G(tcl)!=""} { set wtcl "--with-tcl=$G(tcl)" }

        # If this configuration is named <name>-(Debug) or <name>-(NDebug),
        # then add or remove the SQLITE_DEBUG option from the base
        # configuration before running the test.
        if {[regexp -- {(.*)-(\(.*\))} $name -> head tail]} {
          set opts $::Configs($head)
          if {$tail=="(Debug)"} {
            append opts " -DSQLITE_DEBUG=1 -DSQLITE_EXTRA_IFNULLROW=1"
          } else {
            regsub { *-DSQLITE_MEMDEBUG[^ ]* *} $opts { } opts
            regsub { *-DSQLITE_DEBUG[^ ]* *} $opts { } opts
          }
        } else {
          set opts $::Configs($name)
        }

        set L [make_test_suite $G(msvc) $wtcl $name $target $opts]
        puts $fd $L
        flush $fd
        set G(test.$name.log) [file join [lindex $L 1] test.log]
        incr nLaunch -1
      }
    }
  }
}

proc generate_select_widget {label id lOpt opt} {
  wapp-trim {
    <label> %string($label) </label>
    <select id=%string($id) name=%string($id)>
  }
  foreach o $lOpt {
    set selected ""
    if {$o==$opt} { set selected " selected=1" }
    wapp-subst "<option $selected>$o</option>"
  }
  wapp-trim { </select> }
}

proc generate_main_page {{extra {}}} {
  global G
  set_test_array

  set hostname $G(hostname)
  wapp-trim {
    <html>
    <head>
      <title> %html($hostname): wapptest.tcl </title>
      <link rel="stylesheet" type="text/css" href="style.css"/>
    </head>
    <body>
  }

  set host $G(host)
  wapp-trim {
    <div class="border">%string($host)
  }
  generate_fossil_info
  wapp-trim {
    </div>
    <div class="border" id=controls> 
    <form action="control" method="post" name="control">
  }

  # Build the "platform" select widget. 
  set lOpt [array names ::Platforms]
  generate_select_widget Platform control_platform $lOpt $G(platform)

  # Build the "test" select widget. 
  set lOpt [list Normal Veryquick Smoketest Build-Only] 
  generate_select_widget Test control_test $lOpt $G(test)

  # Build the "jobs" select widget. Options are 1 to 8.
  generate_select_widget Jobs control_jobs {1 2 3 4 5 6 7 8} $G(jobs)

  switch $G(state) {
    config {
      set txt "Run Tests!"
      set id control_run
    }
    running {
      set txt "STOP Tests!"
      set id control_stop
    }
    stopped {
      set txt "Reset!"
      set id control_reset
    }
  }
  wapp-trim {
    <div class=right>
    <input id=%string($id) name=%string($id) type=submit value="%string($txt)">
    </input>
    </div>
  }

  wapp-trim {
  <br><br>
        <label> Tcl: </label>
        <input id="control_tcl" name="control_tcl"></input>
        <label> Keep files: </label>
        <input id="control_keep" name="control_keep" type=checkbox value=1>
        </input>
        <label> Use MSVC: </label>
        <input id="control_msvc" name="control_msvc" type=checkbox value=1>
        <label> Debug tests: </label>
        <input id="control_debug" name="control_debug" type=checkbox value=1>
        </input>
  }
  wapp-trim {
     </form>
  }
  wapp-trim {
     </div>
     <div id=tests>
  }
  wapp-page-tests

  set script "script/$G(state).js"
  wapp-trim {
    </div>
      <script src=%string($script)></script>
    </body>
    </html>
  }
}

proc wapp-default {} {
  generate_main_page
}

proc wapp-page-tests {} {
  global G
  wapp-trim { <table class="border" width=100%> }
  foreach t $G(test_array) {
    set config [dict get $t config]
    set target [dict get $t target]

    set class "testwait"
    set seconds ""

    if {[info exists G(test.$config.log)]} {
      if {[info exists G(test.$config.channel)]} {
        set class "testrunning"
        set seconds [expr [clock seconds] - $G(test.$config.start)]
      } elseif {[info exists G(test.$config.done)]} {
        if {$G(test.$config.nError)>0} {
          set class "testfail" 
        } else {
          set class "testdone"
        }
        set seconds [expr $G(test.$config.done) - $G(test.$config.start)]
      }

      set min [format %.2d [expr ($seconds / 60) % 60]]
      set  hr [format %.2d [expr $seconds / 3600]]
      set sec [format %.2d [expr $seconds % 60]]
      set seconds "$hr:$min:$sec"
    }

    wapp-trim {
      <tr class=%string($class)>
      <td class="nowrap"> %html($config) 
      <td class="padleft nowrap"> %html($target)
      <td class="padleft nowrap"> %html($seconds)
      <td class="padleft nowrap">
    }
    if {[info exists G(test.$config.log)]} {
      set log $G(test.$config.log)
      set uri "log/$log"
      wapp-trim {
        <a href=%url($uri)> %html($log) </a>
      }
    }
    if {[info exists G(test.$config.errmsg)] && $G(test.$config.errmsg)!=""} {
      set errmsg $G(test.$config.errmsg)
      wapp-trim {
        <tr class=testfail>
        <td> <td class="padleft" colspan=3> %html($errmsg)
      }
    }
  }

  wapp-trim { </table> }

  if {[info exists G(result)]} {
    set res $G(result)
    wapp-trim {
      <div class=border id=result> %string($res) </div>
    }
  }
}

# URI: /control
#
# Whenever the form at the top of the application page is submitted, it
# is submitted here.
#
proc wapp-page-control {} {
  global G
  if {$::G(state)=="config"} {
    set lControls [list platform test tcl jobs keep msvc debug]
    set G(msvc) 0
    set G(keep) 0
    set G(debug) 0
  } else {
    set lControls [list jobs]
  }
  foreach v $lControls {
    if {[wapp-param-exists control_$v]} {
      set G($v) [wapp-param control_$v]
    }
  }

  if {[wapp-param-exists control_run]} {
    # This is a "run test" command.
    set_test_array
    set ::G(state) "running"
  }

  if {[wapp-param-exists control_stop]} {
    # A "STOP tests" command.
    set G(state) "stopped"
    set G(result) "Test halted by user"
    foreach j $G(test_array) {
      set name [dict get $j config]
      if { [info exists G(test.$name.channel)] } {
        close $G(test.$name.channel)
        unset G(test.$name.channel)
        slave_test_done $name 1
      }
    }
  }

  if {[wapp-param-exists control_reset]} {
    # A "reset app" command.
    set G(state) "config"
    wapptest_init
  }

  if {$::G(state) == "running"} {
    do_some_stuff
  }
  wapp-redirect /
}

# URI: /style.css
#
# Return the stylesheet for the application main page.
#
proc wapp-page-style.css {} {
  wapp-subst {

    /* The boxes with black borders use this class */
    .border {
      border: 3px groove #444444;
      padding: 1em;
      margin-top: 1em;
      margin-bottom: 1em;
    }

    /* Float to the right (used for the Run/Stop/Reset button) */
    .right { float: right; }

    /* Style for the large red warning at the top of the page */
    .warning {
      color: red;
      font-weight: bold;
    }

    /* Styles used by cells in the test table */
    .padleft { padding-left: 5ex; }
    .nowrap  { white-space: nowrap; }

    /* Styles for individual tests, depending on the outcome */
    .testwait    {              }
    .testrunning { color: blue  }
    .testdone    { color: green }
    .testfail    { color: red   }
  }
}

# URI: /script/${state}.js
#
# The last part of this URI is always "config.js", "running.js" or 
# "stopped.js", depending on the state of the application. It returns
# the javascript part of the front-end for the requested state to the
# browser.
#
proc wapp-page-script {} {
  regexp {[^/]*$} [wapp-param REQUEST_URI] script

  set tcl $::G(tcl)
  set keep $::G(keep)
  set msvc $::G(msvc)
  set debug $::G(debug)
  
  wapp-subst {
    var lElem = \["control_platform", "control_test", "control_msvc", 
        "control_jobs", "control_debug"
    \];
    lElem.forEach(function(e) {
      var elem = document.getElementById(e);
      elem.addEventListener("change", function() { control.submit() } );
    })

    elem = document.getElementById("control_tcl");
    elem.value = "%string($tcl)"

    elem = document.getElementById("control_keep");
    elem.checked = %string($keep);

    elem = document.getElementById("control_msvc");
    elem.checked = %string($msvc);

    elem = document.getElementById("control_debug");
    elem.checked = %string($debug);
  }

  if {$script != "config.js"} {
    wapp-subst {
      var lElem = \["control_platform", "control_test", 
          "control_tcl", "control_keep", "control_msvc", 
          "control_debug"
      \];
      lElem.forEach(function(e) {
        var elem = document.getElementById(e);
        elem.disabled = true;
      })
    }
  }

  if {$script == "running.js"} {
    wapp-subst {
      function reload_tests() {
        fetch('tests')
          .then( data => data.text() )
          .then( data => {
            document.getElementById("tests").innerHTML = data;
          })
          .then( data => {
            if( document.getElementById("result") ){
              document.location = document.location;
            } else {
              setTimeout(reload_tests, 1000)
            }
          });
      }

      setTimeout(reload_tests, 1000)
    }
  }
}

# URI: /env
#
# This is for debugging only. Serves no other purpose.
#
proc wapp-page-env {} {
  wapp-allow-xorigin-params
  wapp-trim {
    <h1>Wapp Environment</h1>\n<pre>
    <pre>%html([wapp-debug-env])</pre>
  }
}

# URI: /log/dirname/test.log
#
# This URI reads file "dirname/test.log" from disk, wraps it in a <pre>
# block, and returns it to the browser. Use for viewing log files.
#
proc wapp-page-log {} {
  set log [string range [wapp-param REQUEST_URI] 5 end]
  set fd [open $log]
  set data [read $fd]
  close $fd
  wapp-trim {
    <pre>
    %html($data)
    </pre>
  }
}

wapptest_init
wapp-start $argv

Changes to test/where.test.

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  CREATE TABLE t1(a INTEGER PRIMARY KEY);
  INSERT INTO t1(a) VALUES(1),(2),(3);
  CREATE TABLE t2(x INTEGER PRIMARY KEY, y INT);
  INSERT INTO t2(y) VALUES(2),(3);
  SELECT * FROM t1, t2 WHERE a=y AND y=3;
} {3 2 3}





































































































finish_test








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  CREATE TABLE t1(a INTEGER PRIMARY KEY);
  INSERT INTO t1(a) VALUES(1),(2),(3);
  CREATE TABLE t2(x INTEGER PRIMARY KEY, y INT);
  INSERT INTO t2(y) VALUES(2),(3);
  SELECT * FROM t1, t2 WHERE a=y AND y=3;
} {3 2 3}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test where-24.0 {
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b);
  INSERT INTO t1 VALUES(1, 'one');
  INSERT INTO t1 VALUES(2, 'two');
  INSERT INTO t1 VALUES(3, 'three');
  INSERT INTO t1 VALUES(4, 'four');
}

foreach {tn sql res} {
  1 "SELECT b FROM t1"                   {one two three four}
  2 "SELECT b FROM t1 WHERE a<4"         {one two three}
  3 "SELECT b FROM t1 WHERE a>1"         {two three four}
  4 "SELECT b FROM t1 WHERE a>1 AND a<4" {two three}

  5 "SELECT b FROM t1 WHERE a>? AND a<4" {}
  6 "SELECT b FROM t1 WHERE a>1 AND a<?" {}
  7 "SELECT b FROM t1 WHERE a>? AND a<?" {}

  7 "SELECT b FROM t1 WHERE a>=? AND a<=4" {}
  8 "SELECT b FROM t1 WHERE a>=1 AND a<=?" {}
  9 "SELECT b FROM t1 WHERE a>=? AND a<=?" {}
} {
  set rev [list]
  foreach r $res { set rev [concat $r $rev] }

  do_execsql_test where-24.$tn.1 "$sql"                     $res
  do_execsql_test where-24.$tn.2 "$sql ORDER BY rowid"      $res
  do_execsql_test where-24.$tn.3 "$sql ORDER BY rowid DESC" $rev

  do_execsql_test where-24-$tn.4 "
    BEGIN;
      DELETE FROM t1;
      $sql;
      $sql ORDER BY rowid;
      $sql ORDER BY rowid DESC;
    ROLLBACK;
  "
}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test where-25.0 {
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c);
  CREATE UNIQUE INDEX i1 ON t1(c);
  INSERT INTO t1 VALUES(1, 'one', 'i');
  INSERT INTO t1 VALUES(2, 'two', 'ii');

  CREATE TABLE t2(a INTEGER PRIMARY KEY, b, c);
  CREATE UNIQUE INDEX i2 ON t2(c);
  INSERT INTO t2 VALUES(1, 'one', 'i');
  INSERT INTO t2 VALUES(2, 'two', 'ii');
  INSERT INTO t2 VALUES(3, 'three', 'iii');

  PRAGMA writable_schema = 1;
  UPDATE sqlite_master SET rootpage = (
    SELECT rootpage FROM sqlite_master WHERE name = 'i2'
  ) WHERE name = 'i1';
}
db close
sqlite3 db test.db
do_catchsql_test where-25.1 {
  DELETE FROM t1 WHERE c='iii'
} {1 {database disk image is malformed}}
do_catchsql_test where-25.2 {
  INSERT INTO t1 VALUES(4, 'four', 'iii') 
    ON CONFLICT(c) DO UPDATE SET b=NULL
} {1 {database disk image is malformed}}

reset_db
do_execsql_test where-25.3 {
  CREATE TABLE t1(a PRIMARY KEY, b, c) WITHOUT ROWID;
  CREATE UNIQUE INDEX i1 ON t1(c);
  INSERT INTO t1 VALUES(1, 'one', 'i');
  INSERT INTO t1 VALUES(2, 'two', 'ii');

  CREATE TABLE t2(a INTEGER PRIMARY KEY, b, c);
  CREATE UNIQUE INDEX i2 ON t2(c);
  INSERT INTO t2 VALUES(1, 'one', 'i');
  INSERT INTO t2 VALUES(2, 'two', 'ii');
  INSERT INTO t2 VALUES(3, 'three', 'iii');

  PRAGMA writable_schema = 1;
  UPDATE sqlite_master SET rootpage = (
    SELECT rootpage FROM sqlite_master WHERE name = 'i2'
  ) WHERE name = 'i1';
}
db close
sqlite3 db test.db
do_catchsql_test where-25.4 {
  SELECT * FROM t1 WHERE c='iii'
} {0 {}}
do_catchsql_test where-25.5 {
  INSERT INTO t1 VALUES(4, 'four', 'iii') 
    ON CONFLICT(c) DO UPDATE SET b=NULL
} {1 {corrupt database}}

finish_test

Changes to test/window1.test.

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} {6 6 6}

do_execsql_test 17.3 {
  SELECT 10+sum(a) OVER (ORDER BY a) 
  FROM t8 
  ORDER BY 10+sum(a) OVER (ORDER BY a) DESC;
} {16 13 11}


#-------------------------------------------------------------------------

#
reset_db
do_execsql_test 18.0 {































































































































































































































































































  CREATE TABLE t1 ( t1_id INTEGER PRIMARY KEY );
  CREATE TABLE t2 ( t2_id INTEGER PRIMARY KEY );
  CREATE TABLE t3 ( t3_id INTEGER PRIMARY KEY );

  INSERT INTO t1 VALUES(1),  (3), (5);
  INSERT INTO t2 VALUES      (3), (5);
  INSERT INTO t3 VALUES(10), (11), (12);
}

do_execsql_test 18.1 {
  SELECT t1.* FROM t1, t2 WHERE 
    t1_id=t2_id AND t1_id IN (
        SELECT t1_id + row_number() OVER ( ORDER BY t1_id ) FROM t3
    )
}

do_execsql_test 18.2 {
  SELECT t1.* FROM t1, t2 WHERE 
    t1_id=t2_id AND t1_id IN (
        SELECT         row_number() OVER ( ORDER BY t1_id ) FROM t3
    )
} {3}




































































































































finish_test










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do_execsql_test 17.3 {
  SELECT 10+sum(a) OVER (ORDER BY a) 
  FROM t8 
  ORDER BY 10+sum(a) OVER (ORDER BY a) DESC;
} {16 13 11}


#-------------------------------------------------------------------------
# Test error cases from chaining window definitions.
#
reset_db
do_execsql_test 18.0 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b TEXT, c TEXT, d INTEGER);
  INSERT INTO t1 VALUES(1, 'odd',  'one',   1);
  INSERT INTO t1 VALUES(2, 'even', 'two',   2);
  INSERT INTO t1 VALUES(3, 'odd',  'three', 3);
  INSERT INTO t1 VALUES(4, 'even', 'four',  4);
  INSERT INTO t1 VALUES(5, 'odd',  'five',  5);
  INSERT INTO t1 VALUES(6, 'even', 'six',   6);
}

foreach {tn sql error} {
  1 {
    SELECT c, sum(d) OVER win2 FROM t1
      WINDOW win1 AS (ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING), 
             win2 AS (win1 ORDER BY b)
  } {cannot override frame specification of window: win1}

  2 {
    SELECT c, sum(d) OVER win2 FROM t1
      WINDOW win1 AS (),
             win2 AS (win4 ORDER BY b)
  } {no such window: win4}

  3 {
    SELECT c, sum(d) OVER win2 FROM t1
      WINDOW win1 AS (),
             win2 AS (win1 PARTITION BY d)
  } {cannot override PARTITION clause of window: win1}

  4 {
    SELECT c, sum(d) OVER win2 FROM t1
      WINDOW win1 AS (ORDER BY b),
             win2 AS (win1 ORDER BY d)
  } {cannot override ORDER BY clause of window: win1}
} {
  do_catchsql_test 18.1.$tn $sql [list 1 $error]
}

foreach {tn sql error} {
  1 {
    SELECT c, sum(d) OVER (win1 ORDER BY b) FROM t1
      WINDOW win1 AS (ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING)
  } {cannot override frame specification of window: win1}

  2 {
    SELECT c, sum(d) OVER (win4 ORDER BY b) FROM t1
      WINDOW win1 AS ()
  } {no such window: win4}

  3 {
    SELECT c, sum(d) OVER (win1 PARTITION BY d) FROM t1
      WINDOW win1 AS ()
  } {cannot override PARTITION clause of window: win1}

  4 {
    SELECT c, sum(d) OVER (win1 ORDER BY d) FROM t1
      WINDOW win1 AS (ORDER BY b)
  } {cannot override ORDER BY clause of window: win1}
} {
  do_catchsql_test 18.2.$tn $sql [list 1 $error]
}

do_execsql_test 18.3.1 {
  SELECT group_concat(c, '.') OVER (PARTITION BY b ORDER BY c)
  FROM t1
} {four four.six four.six.two five five.one five.one.three}

do_execsql_test 18.3.2 {
  SELECT group_concat(c, '.') OVER (win1 ORDER BY c)
  FROM t1
  WINDOW win1 AS (PARTITION BY b)
} {four four.six four.six.two five five.one five.one.three}

do_execsql_test 18.3.3 {
  SELECT group_concat(c, '.') OVER win2
  FROM t1
  WINDOW win1 AS (PARTITION BY b),
         win2 AS (win1 ORDER BY c)
} {four four.six four.six.two five five.one five.one.three}

do_execsql_test 18.3.4 {
  SELECT group_concat(c, '.') OVER (win2)
  FROM t1
  WINDOW win1 AS (PARTITION BY b),
         win2 AS (win1 ORDER BY c)
} {four four.six four.six.two five five.one five.one.three}

do_execsql_test 18.3.5 {
  SELECT group_concat(c, '.') OVER win5
  FROM t1
  WINDOW win1 AS (PARTITION BY b),
         win2 AS (win1),
         win3 AS (win2),
         win4 AS (win3),
         win5 AS (win4 ORDER BY c)
} {four four.six four.six.two five five.one five.one.three}

#-------------------------------------------------------------------------
# Test RANGE <expr> PRECEDING/FOLLOWING when there are string, blob
# and NULL values in the dataset.
#
reset_db
do_execsql_test 19.0 {
  CREATE TABLE t1(a, b);
  INSERT INTO t1 VALUES
    (1, 1), (2, 2), (3, 3), (4, 4), (5, 5),
    ('a', 6), ('b', 7), ('c', 8), ('d', 9), ('e', 10);
}
do_execsql_test 19.1 {
  SELECT a, sum(b) OVER (ORDER BY a) FROM t1;
} {1 1  2 3  3 6  4 10  5 15  a 21 b 28 c 36 d 45 e 55}

do_execsql_test 19.2.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1;
} {1 3 2 6 3 9 4 12 5 9 a 6 b 7 c 8 d 9 e 10}
do_execsql_test 19.2.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1 ORDER BY a ASC;
} {1 3 2 6 3 9 4 12 5 9 a 6 b 7 c 8 d 9 e 10}

do_execsql_test 19.3.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 1 FOLLOWING
  ) FROM t1;
} {1 3 2 6 3 10 4 14 5 12 a 6 b 7 c 8 d 9 e 10}
do_execsql_test 19.3.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 1 PRECEDING AND 2 FOLLOWING
  ) FROM t1 ORDER BY a ASC;
} {1 3 2 6 3 10 4 14 5 12 a 6 b 7 c 8 d 9 e 10}


reset_db
do_execsql_test 20.0 {
  CREATE TABLE t1(a, b);
  INSERT INTO t1 VALUES
    (NULL, 100), (NULL, 100), 
    (1, 1), (2, 2), (3, 3), (4, 4), (5, 5),
    ('a', 6), ('b', 7), ('c', 8), ('d', 9), ('e', 10);
}
do_execsql_test 20.1 {
  SELECT a, sum(b) OVER (ORDER BY a) FROM t1;
} {
  {} 200 {} 200 1 201  2 203  3 206  4 210  5 215  
  a 221 b 228 c 236 d 245 e 255
}

do_execsql_test 20.2.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1;
} {{} 200 {} 200 1 3 2 6 3 9 4 12 5 9 a 6 b 7 c 8 d 9 e 10}
do_execsql_test 20.2.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1 ORDER BY a ASC;
} {{} 200 {} 200 1 3 2 6 3 9 4 12 5 9 a 6 b 7 c 8 d 9 e 10}

do_execsql_test 20.3.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 1 FOLLOWING
  ) FROM t1;
} {{} 200 {} 200 1 3 2 6 3 10 4 14 5 12 a 6 b 7 c 8 d 9 e 10}
do_execsql_test 20.3.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 1 PRECEDING AND 2 FOLLOWING
  ) FROM t1 ORDER BY a ASC;
} {{} 200 {} 200 1 3 2 6 3 10 4 14 5 12 a 6 b 7 c 8 d 9 e 10}

#-------------------------------------------------------------------------
do_execsql_test 21.0 {
  CREATE TABLE keyword_tab(
    current, exclude, filter, following, groups, no, others, over,
    partition, preceding, range, ties, unbounded, window
  );
}
do_execsql_test 21.1 {
  SELECT
    current, exclude, filter, following, groups, no, others, over,
    partition, preceding, range, ties, unbounded, window
  FROM keyword_tab
}

#-------------------------------------------------------------------------
foreach {tn expr err} {
  1   4.5      0
  2   NULL     1
  3   0.0      0
  4   0.1      0
  5  -0.1      1
  6  ''        1
  7  '2.0'     0
  8  '2.0x'    1
  9  x'1234'   1
 10  '1.2'     0
} {
  set res {0 1}
  if {$err} {set res {1 {frame starting offset must be a non-negative number}} }
  do_catchsql_test 22.$tn.1 "
    WITH a(x, y) AS ( VALUES(1, 2) )
    SELECT sum(x) OVER (
      ORDER BY y RANGE BETWEEN $expr PRECEDING AND UNBOUNDED FOLLOWING
    ) FROM a
  " $res

  set res {0 1}
  if {$err} {set res {1 {frame ending offset must be a non-negative number}} }
  do_catchsql_test 22.$tn.2 "
    WITH a(x, y) AS ( VALUES(1, 2) )
    SELECT sum(x) OVER (
      ORDER BY y RANGE BETWEEN UNBOUNDED PRECEDING AND $expr FOLLOWING
    ) FROM a
  " $res
}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 23.0 {
  CREATE TABLE t5(a, b, c);
  CREATE INDEX t5ab ON t5(a, b);
}

proc do_ordercount_test {tn sql nOrderBy} {
  set plan [execsql "EXPLAIN QUERY PLAN $sql"]
  uplevel [list do_test $tn [list regexp -all ORDER $plan] $nOrderBy]
}

do_ordercount_test 23.1 {
  SELECT 
    sum(c) OVER (ORDER BY a, b),
    sum(c) OVER (PARTITION BY a ORDER BY b)
  FROM t5
} 0

do_ordercount_test 23.2 {
  SELECT 
    sum(c) OVER (ORDER BY b, a),
    sum(c) OVER (PARTITION BY b ORDER BY a)
  FROM t5
} 1

do_ordercount_test 23.3 {
  SELECT 
    sum(c) OVER (ORDER BY b, a),
    sum(c) OVER (ORDER BY c, b)
  FROM t5
} 2

do_ordercount_test 23.4 {
  SELECT 
    sum(c) OVER (ORDER BY b ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW),
    sum(c) OVER (ORDER BY b RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW),
    sum(c) OVER (ORDER BY b GROUPS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW)
  FROM t5
} 1

do_ordercount_test 23.5 {
  SELECT 
    sum(c) OVER (ORDER BY b+1 ROWS UNBOUNDED PRECEDING),
    sum(c) OVER (ORDER BY b+1 RANGE UNBOUNDED PRECEDING),
    sum(c) OVER (ORDER BY b+1 GROUPS UNBOUNDED PRECEDING)
  FROM t5
} 1

do_ordercount_test 23.6 {
  SELECT 
    sum(c) OVER (ORDER BY b+1 ROWS UNBOUNDED PRECEDING),
    sum(c) OVER (ORDER BY b+2 RANGE UNBOUNDED PRECEDING),
    sum(c) OVER (ORDER BY b+3 GROUPS UNBOUNDED PRECEDING)
  FROM t5
} 3

do_execsql_test 24.1 {
  SELECT sum(44) OVER ()
} {44}

do_execsql_test 24.2 {
  SELECT lead(44) OVER ()
} {{}}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test 25.0 {
  CREATE TABLE t1 ( t1_id INTEGER PRIMARY KEY );
  CREATE TABLE t2 ( t2_id INTEGER PRIMARY KEY );
  CREATE TABLE t3 ( t3_id INTEGER PRIMARY KEY );

  INSERT INTO t1 VALUES(1),  (3), (5);
  INSERT INTO t2 VALUES      (3), (5);
  INSERT INTO t3 VALUES(10), (11), (12);
}

do_execsql_test 25.1 {
  SELECT t1.* FROM t1, t2 WHERE 
    t1_id=t2_id AND t1_id IN (
        SELECT t1_id + row_number() OVER ( ORDER BY t1_id ) FROM t3
    )
}

do_execsql_test 25.2 {
  SELECT t1.* FROM t1, t2 WHERE 
    t1_id=t2_id AND t1_id IN (
        SELECT         row_number() OVER ( ORDER BY t1_id ) FROM t3
    )
} {3}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 26.0 {
  CREATE TABLE t1(x);
  CREATE TABLE t2(c);
}

do_execsql_test 26.1 {
  SELECT ( SELECT row_number() OVER () FROM ( SELECT c FROM t1 ) ) FROM t2
} {}

do_execsql_test 26.2 {
  INSERT INTO t1 VALUES(1), (2), (3), (4);
  INSERT INTO t2 VALUES(2), (6), (8), (4);
  SELECT c, c IN ( 
    SELECT row_number() OVER () FROM ( SELECT c FROM t1 )
  ) FROM t2
} {2 1  6 0  8 0  4 1}

do_execsql_test 26.3 {
  DELETE FROM t1;
  DELETE FROM t2;

  INSERT INTO t2 VALUES(1), (2), (3), (4);
  INSERT INTO t1 VALUES(1), (1), (2), (3), (3), (3), (3), (4), (4);

  SELECT c, c IN ( 
    SELECT row_number() OVER () FROM ( SELECT 1 FROM t1 WHERE x=c )
  ) FROM t2
} {1 1  2 0  3 1  4 0}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 27.0 {
  CREATE TABLE t1(x);
  INSERT INTO t1 VALUES(NULL), (1), (2), (3), (4), (5);
}
do_execsql_test 27.1 {
  SELECT min(x) FROM t1;
} {1}
do_execsql_test 27.2 {
  SELECT min(x) OVER win FROM t1
  WINDOW win AS (ORDER BY rowid ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING)
} {1 1 1 2 3 4}

#-------------------------------------------------------------------------

reset_db
do_execsql_test 28.1.1 {
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b CHAR(1), c CHAR(2), d ANY);
  INSERT INTO t1 VALUES (3, 'C', 'cc', 1.0);
  INSERT INTO t1 VALUES (13,'M', 'cc', NULL);
}

do_execsql_test 28.1.2 {
  SELECT group_concat(b,'') OVER w1 FROM t1
    WINDOW w1 AS (ORDER BY a RANGE BETWEEN 3 PRECEDING AND 1 PRECEDING)
} {
  {} {}
}

do_execsql_test 28.2.1 {
  CREATE TABLE t2(a TEXT, b INTEGER);
  INSERT INTO t2 VALUES('A', NULL);
  INSERT INTO t2 VALUES('B', NULL);
}

do_execsql_test 28.2.1 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b CHAR(1), c CHAR(2), d ANY);
  INSERT INTO t1 VALUES
    (10,'J', 'cc', NULL),
    (11,'K', 'cc', 'xyz'),
    (13,'M', 'cc', NULL);
}

do_execsql_test 28.2.2 {
  SELECT a, b, c, quote(d), group_concat(b,'') OVER w1, '|' FROM t1
    WINDOW w1 AS
    (ORDER BY d DESC RANGE BETWEEN 7.0 PRECEDING AND 2.5 PRECEDING)
    ORDER BY c, d, a;
} {
  10 J cc NULL JM |
  13 M cc NULL JM | 
  11 K cc 'xyz' K |
}

#-------------------------------------------------------------------------
reset_db

do_execsql_test 29.1 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b CHAR(1), c CHAR(2), d ANY);
  INSERT INTO t1 VALUES
    (1, 'A', 'aa', 2.5),
    (2, 'B', 'bb', 3.75),
    (3, 'C', 'cc', 1.0),
    (4, 'D', 'cc', 8.25),
    (5, 'E', 'bb', 6.5),
    (6, 'F', 'aa', 6.5),
    (7, 'G', 'aa', 6.0),
    (8, 'H', 'bb', 9.0),
    (9, 'I', 'aa', 3.75),
    (10,'J', 'cc', NULL),
    (11,'K', 'cc', 'xyz'),
    (12,'L', 'cc', 'xyZ'),
    (13,'M', 'cc', NULL);
}

do_execsql_test 29.2 {
  SELECT a, b, c, quote(d), group_concat(b,'') OVER w1, '|' FROM t1
    WINDOW w1 AS
    (PARTITION BY c ORDER BY d DESC
     RANGE BETWEEN 7.0 PRECEDING AND 2.5 PRECEDING)
    ORDER BY c, d, a;
} {
  1 A aa 2.5 FG | 
  9 I aa 3.75 F | 
  7 G aa 6 {} | 
  6 F aa 6.5 {} | 
  2 B bb 3.75 HE |
  5 E bb 6.5 H | 
  8 H bb 9 {} | 
  10 J cc NULL JM | 
  13 M cc NULL JM | 
  3 C cc 1 {} | 
  4 D cc 8.25 {} | 
  12 L cc 'xyZ' L | 
  11 K cc 'xyz' K |
}

finish_test


Changes to test/window3.tcl.

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start_test window3 "2018 May 31"
ifcapable !windowfunc

execsql_test 1.0 {
  DROP TABLE IF EXISTS t2;
  CREATE TABLE t2(a INTEGER PRIMARY KEY, b INTEGER);
  INSERT INTO t2(a, b) VALUES
  (1,0), (2,74), (3,41), (4,74), (5,23), (6,99), (7,26), (8,33), (9,2),
  (10,89), (11,81), (12,96), (13,59), (14,38), (15,68), (16,39), (17,62),
  (18,91), (19,46), (20,6), (21,99), (22,97), (23,27), (24,46), (25,78),
  (26,54), (27,97), (28,8), (29,67), (30,29), (31,93), (32,84), (33,77),
  (34,23), (35,16), (36,16), (37,93), (38,65), (39,35), (40,47), (41,7),
  (42,86), (43,74), (44,61), (45,91), (46,85), (47,24), (48,85), (49,43),
  (50,59), (51,12), (52,32), (53,56), (54,3), (55,91), (56,22), (57,90),
  (58,55), (59,15), (60,28), (61,89), (62,25), (63,47), (64,1), (65,56),
................................................................................
  11 "ROWS BETWEEN 4 PRECEDING    AND 2 FOLLOWING"
  12 "ROWS BETWEEN CURRENT ROW         AND 4 FOLLOWING"
  13 "ROWS BETWEEN 2 FOLLOWING    AND 4 FOLLOWING"
  14 "ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING"
  15 "ROWS BETWEEN 4 PRECEDING    AND UNBOUNDED FOLLOWING"
  16 "ROWS BETWEEN CURRENT ROW         AND UNBOUNDED FOLLOWING"
  17 "ROWS BETWEEN 4 FOLLOWING    AND UNBOUNDED FOLLOWING"





} {
  execsql_test 1.$tn.2.1 "SELECT max(b) OVER ( ORDER BY a $window ) FROM t2"
  execsql_test 1.$tn.2.2 "SELECT min(b) OVER ( ORDER BY a $window ) FROM t2"

  execsql_test 1.$tn.3.1 "
    SELECT row_number() OVER ( ORDER BY a $window ) FROM t2
  "
................................................................................
  "
  execsql_test 1.$tn.14.5 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER ( ORDER BY b%10,a $window ) FROM t2
  "
  execsql_test 1.$tn.14.6 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER (PARTITION BY b%2,a ORDER BY b%10 $window) FROM t2
  "























  execsql_test 1.$tn.15.1 "
    SELECT count(*) OVER win, string_agg(CAST(b AS TEXT), '.') 
    FILTER (WHERE a%2=0) OVER win FROM t2
    WINDOW win AS (ORDER BY a $window)
  "








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start_test window3 "2018 May 31"
ifcapable !windowfunc

execsql_test 1.0 {
  DROP TABLE IF EXISTS t2;
  CREATE TABLE t2(a INTEGER PRIMARY KEY, b INTEGER);
  INSERT INTO t2(a, b) VALUES

  (10,89), (11,81), (12,96), (13,59), (14,38), (15,68), (16,39), (17,62),
  (18,91), (19,46), (20,6), (21,99), (22,97), (23,27), (24,46), (25,78),
  (26,54), (27,97), (28,8), (29,67), (30,29), (31,93), (32,84), (33,77),
  (34,23), (35,16), (36,16), (37,93), (38,65), (39,35), (40,47), (41,7),
  (42,86), (43,74), (44,61), (45,91), (46,85), (47,24), (48,85), (49,43),
  (50,59), (51,12), (52,32), (53,56), (54,3), (55,91), (56,22), (57,90),
  (58,55), (59,15), (60,28), (61,89), (62,25), (63,47), (64,1), (65,56),
................................................................................
  11 "ROWS BETWEEN 4 PRECEDING    AND 2 FOLLOWING"
  12 "ROWS BETWEEN CURRENT ROW         AND 4 FOLLOWING"
  13 "ROWS BETWEEN 2 FOLLOWING    AND 4 FOLLOWING"
  14 "ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING"
  15 "ROWS BETWEEN 4 PRECEDING    AND UNBOUNDED FOLLOWING"
  16 "ROWS BETWEEN CURRENT ROW         AND UNBOUNDED FOLLOWING"
  17 "ROWS BETWEEN 4 FOLLOWING    AND UNBOUNDED FOLLOWING"

  18 "ROWS BETWEEN 4 PRECEDING    AND UNBOUNDED FOLLOWING EXCLUDE CURRENT ROW"
  19 "ROWS BETWEEN 4 PRECEDING    AND UNBOUNDED FOLLOWING EXCLUDE TIES"
  20 "ROWS BETWEEN 4 PRECEDING    AND UNBOUNDED FOLLOWING EXCLUDE GROUP"

} {
  execsql_test 1.$tn.2.1 "SELECT max(b) OVER ( ORDER BY a $window ) FROM t2"
  execsql_test 1.$tn.2.2 "SELECT min(b) OVER ( ORDER BY a $window ) FROM t2"

  execsql_test 1.$tn.3.1 "
    SELECT row_number() OVER ( ORDER BY a $window ) FROM t2
  "
................................................................................
  "
  execsql_test 1.$tn.14.5 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER ( ORDER BY b%10,a $window ) FROM t2
  "
  execsql_test 1.$tn.14.6 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER (PARTITION BY b%2,a ORDER BY b%10 $window) FROM t2
  "

  execsql_test 1.$tn.14.7 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER (win1 ORDER BY b%10 $window) 
    FROM t2
    WINDOW win1 AS (PARTITION BY b%2,a)
    ORDER BY 1
  "

  execsql_test 1.$tn.14.8 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER (win1 $window) 
    FROM t2
    WINDOW win1 AS (PARTITION BY b%2,a ORDER BY b%10)
    ORDER BY 1
  "

  execsql_test 1.$tn.14.9 "
    SELECT string_agg(CAST(b AS TEXT), '.') OVER win2
    FROM t2
    WINDOW win1 AS (PARTITION BY b%2,a ORDER BY b%10),
           win2 AS (win1 $window)
    ORDER BY 1
  "

  execsql_test 1.$tn.15.1 "
    SELECT count(*) OVER win, string_agg(CAST(b AS TEXT), '.') 
    FILTER (WHERE a%2=0) OVER win FROM t2
    WINDOW win AS (ORDER BY a $window)
  "

Changes to test/window3.test.

cannot compute difference between binary files

Changes to test/window4.tcl.

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# 2018 May 19
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
|







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## 2018 May 19
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.

Changes to test/window4.test.

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  SELECT a, lag(b, 3, 'abc') OVER (ORDER BY a) FROM t4
} {1 abc   2 abc   3 abc   4 A   5 B   6 C   7 D   8 E   9 F   10 G}

do_execsql_test 2.4.1 {
  SELECT group_concat(b, '.') OVER (
    ORDER BY a ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t4
} {A.B.C.D.E.F.G.H.I.J   B.C.D.E.F.G.H.I.J   C.D.E.F.G.H.I.J   D.E.F.G.H.I.J   E.F.G.H.I.J   F.G.H.I.J   G.H.I.J   H.I.J   I.J   J}


do_execsql_test 3.0 {
  DROP TABLE IF EXISTS t5;
  CREATE TABLE t5(a INTEGER PRIMARY KEY, b TEXT, c TEXT, d INTEGER);
  INSERT INTO t5 VALUES(1, 'A', 'one',   5);
  INSERT INTO t5 VALUES(2, 'B', 'two',   4);
  INSERT INTO t5 VALUES(3, 'A', 'three', 3);
................................................................................

do_test 9.3 {
  set myres {}
  foreach r [db eval {SELECT x, percent_rank() OVER (PARTITION BY x ORDER BY x) FROM t2}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {1.0000 0.0000 1.0000 0.0000 1.0000 0.0000 4.0000 0.0000 4.0000 0.0000 6.0000 0.0000 7.0000 0.0000}

  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }

  }
  set {} {}
} {}

do_execsql_test 9.4 {
  SELECT x, rank() OVER (ORDER BY x) FROM t2 ORDER BY 1,2
} {1 1   1 1   1 1   4 4   4 4   6 6   7 7}
................................................................................

do_test 9.6 {
  set myres {}
  foreach r [db eval {SELECT percent_rank() OVER () FROM t1}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {0.0000 0.0000 0.0000}

  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }

  }
  set {} {}
} {}


do_test 9.7 {
  set myres {}
  foreach r [db eval {SELECT cume_dist() OVER () FROM t1}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {1.0000 1.0000 1.0000}

  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }

  }
  set {} {}
} {}

do_execsql_test 10.0 {
  DROP TABLE IF EXISTS t7;
  CREATE TABLE t7(id INTEGER PRIMARY KEY, a INTEGER, b INTEGER);







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  SELECT a, lag(b, 3, 'abc') OVER (ORDER BY a) FROM t4
} {1 abc   2 abc   3 abc   4 A   5 B   6 C   7 D   8 E   9 F   10 G}

do_execsql_test 2.4.1 {
  SELECT group_concat(b, '.') OVER (
    ORDER BY a ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t4
} {A.B.C.D.E.F.G.H.I.J   B.C.D.E.F.G.H.I.J   C.D.E.F.G.H.I.J   D.E.F.G.H.I.J
  E.F.G.H.I.J   F.G.H.I.J   G.H.I.J   H.I.J   I.J   J}

do_execsql_test 3.0 {
  DROP TABLE IF EXISTS t5;
  CREATE TABLE t5(a INTEGER PRIMARY KEY, b TEXT, c TEXT, d INTEGER);
  INSERT INTO t5 VALUES(1, 'A', 'one',   5);
  INSERT INTO t5 VALUES(2, 'B', 'two',   4);
  INSERT INTO t5 VALUES(3, 'A', 'three', 3);
................................................................................

do_test 9.3 {
  set myres {}
  foreach r [db eval {SELECT x, percent_rank() OVER (PARTITION BY x ORDER BY x) FROM t2}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {1.0000 0.0000 1.0000 0.0000 1.0000 0.0000 4.0000 0.0000 4.0000 0.0000 6.0000 0.0000 7.0000 0.0000}
  set i 0
  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }
    incr i
  }
  set {} {}
} {}

do_execsql_test 9.4 {
  SELECT x, rank() OVER (ORDER BY x) FROM t2 ORDER BY 1,2
} {1 1   1 1   1 1   4 4   4 4   6 6   7 7}
................................................................................

do_test 9.6 {
  set myres {}
  foreach r [db eval {SELECT percent_rank() OVER () FROM t1}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {0.0000 0.0000 0.0000}
  set i 0
  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }
    incr i
  }
  set {} {}
} {}


do_test 9.7 {
  set myres {}
  foreach r [db eval {SELECT cume_dist() OVER () FROM t1}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {1.0000 1.0000 1.0000}
  set i 0
  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }
    incr i
  }
  set {} {}
} {}

do_execsql_test 10.0 {
  DROP TABLE IF EXISTS t7;
  CREATE TABLE t7(id INTEGER PRIMARY KEY, a INTEGER, b INTEGER);

Changes to test/window6.test.

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do_execsql_test 9.0 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT x, group_concat(x) OVER (ORDER BY x ROWS 2 PRECEDING)
  FROM c;
} {
  1 1  2 1,2  3 1,2,3  4 2,3,4  5 3,4,5
}
do_catchsql_test 9.1 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT x, group_concat(x) OVER (ORDER BY x RANGE 2 PRECEDING)
  FROM c;
} {1 {RANGE must use only UNBOUNDED or CURRENT ROW}}

do_catchsql_test 9.2 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT x, group_concat(x) OVER (ORDER BY x RANGE BETWEEN UNBOUNDED PRECEDING AND 2 FOLLOWING)
  FROM c;
} {1 {RANGE must use only UNBOUNDED or CURRENT ROW}}

do_catchsql_test 9.3 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT count(DISTINCT x) OVER (ORDER BY x) FROM c;
} {1 {DISTINCT is not supported for window functions}}

do_catchsql_test 9.4 {
................................................................................
  4 "BETWEEN 4 FOLLOWING AND 2 PRECEDING"
} {
  do_catchsql_test 9.7.$tn "
    WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
    SELECT count() OVER (
        ORDER BY x ROWS $frame 
    ) FROM c;
  " {1 {unsupported frame delimiter for ROWS}}
}

do_catchsql_test 9.8.1 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT count() OVER (
      ORDER BY x ROWS BETWEEN a PRECEDING AND 2 FOLLOWING
  ) FROM c;
................................................................................
do_execsql_test 11.2 {
  SELECT a, (SELECT y FROM t3 WHERE x=a), sum(a) OVER (ORDER BY a)
    FROM t1 ORDER BY a;
} {
  10 ten 10   15 fifteen 25   20 {} 65        20 {} 65   
  25 {} 90    30 thirty 150   30 thirty 150   50 {} 200
}































finish_test








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do_execsql_test 9.0 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT x, group_concat(x) OVER (ORDER BY x ROWS 2 PRECEDING)
  FROM c;
} {
  1 1  2 1,2  3 1,2,3  4 2,3,4  5 3,4,5
}
#do_catchsql_test 9.1 {
#  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
#  SELECT x, group_concat(x) OVER (ORDER BY x RANGE 2 PRECEDING)
#  FROM c;
#} {1 {RANGE must use only UNBOUNDED or CURRENT ROW}}
#
#do_catchsql_test 9.2 {
#  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
#  SELECT x, group_concat(x) OVER (ORDER BY x RANGE BETWEEN UNBOUNDED PRECEDING AND 2 FOLLOWING)
#  FROM c;
#} {1 {RANGE must use only UNBOUNDED or CURRENT ROW}}

do_catchsql_test 9.3 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT count(DISTINCT x) OVER (ORDER BY x) FROM c;
} {1 {DISTINCT is not supported for window functions}}

do_catchsql_test 9.4 {
................................................................................
  4 "BETWEEN 4 FOLLOWING AND 2 PRECEDING"
} {
  do_catchsql_test 9.7.$tn "
    WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
    SELECT count() OVER (
        ORDER BY x ROWS $frame 
    ) FROM c;
  " {1 {unsupported frame specification}}
}

do_catchsql_test 9.8.1 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x+1 FROM c WHERE x<5)
  SELECT count() OVER (
      ORDER BY x ROWS BETWEEN a PRECEDING AND 2 FOLLOWING
  ) FROM c;
................................................................................
do_execsql_test 11.2 {
  SELECT a, (SELECT y FROM t3 WHERE x=a), sum(a) OVER (ORDER BY a)
    FROM t1 ORDER BY a;
} {
  10 ten 10   15 fifteen 25   20 {} 65        20 {} 65   
  25 {} 90    30 thirty 150   30 thirty 150   50 {} 200
}

do_execsql_test 11.3.1 {
  SELECT a, sum(a) OVER win FROM t1
  WINDOW win AS (ORDER BY a ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW)
} {
  10 10 15 25 20 45 20 65 25 90 30 120 30 150 50 200
}
do_execsql_test 11.3.2 {
  SELECT a, sum(a) OVER win FROM t1
  WINDOW win AS (ORDER BY a ROWS BETWEEN UNBOUNDED PRECEDING AND 0 FOLLOWING)
} {
  10 10 15 25 20 45 20 65 25 90 30 120 30 150 50 200
}
do_execsql_test 11.3.3 {
  SELECT a, sum(a) OVER win FROM t1
  WINDOW win AS (ORDER BY a ROWS BETWEEN UNBOUNDED PRECEDING AND 0 PRECEDING)
} {
  10 10 15 25 20 45 20 65 25 90 30 120 30 150 50 200
}

do_execsql_test 11.4.1 {
  SELECT y, group_concat(y, '.') OVER win FROM t3
  WINDOW win AS (
    ORDER BY y RANGE BETWEEN UNBOUNDED PRECEDING AND 10 PRECEDING
  );
} {
  fifteen fifteen 
  ten     fifteen.ten 
  thirty  fifteen.ten.thirty
}

finish_test

Added test/window7.tcl.























































































































































































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# 2018 May 19
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#

source [file join [file dirname $argv0] pg_common.tcl]

#=========================================================================

start_test window7 "2019 March 01"
ifcapable !windowfunc

execsql_test 1.0 {
  DROP TABLE IF EXISTS t3;
  CREATE TABLE t3(a INTEGER, b INTEGER);
  INSERT INTO t3 VALUES
    (1, 1), (2, 2), (3, 3), (4, 4), (5, 5), (6, 6), (7, 7), (8, 8), 
    (9, 9), (0, 10), (1, 11), (2, 12), (3, 13), (4, 14), (5, 15), (6, 16), 
    (7, 17), (8, 18), (9, 19), (0, 20), (1, 21), (2, 22), (3, 23), (4, 24), 
    (5, 25), (6, 26), (7, 27), (8, 28), (9, 29), (0, 30), (1, 31), (2, 32), 
    (3, 33), (4, 34), (5, 35), (6, 36), (7, 37), (8, 38), (9, 39), (0, 40), 
    (1, 41), (2, 42), (3, 43), (4, 44), (5, 45), (6, 46), (7, 47), (8, 48), 
    (9, 49), (0, 50), (1, 51), (2, 52), (3, 53), (4, 54), (5, 55), (6, 56), 
    (7, 57), (8, 58), (9, 59), (0, 60), (1, 61), (2, 62), (3, 63), (4, 64), 
    (5, 65), (6, 66), (7, 67), (8, 68), (9, 69), (0, 70), (1, 71), (2, 72), 
    (3, 73), (4, 74), (5, 75), (6, 76), (7, 77), (8, 78), (9, 79), (0, 80), 
    (1, 81), (2, 82), (3, 83), (4, 84), (5, 85), (6, 86), (7, 87), (8, 88), 
    (9, 89), (0, 90), (1, 91), (2, 92), (3, 93), (4, 94), (5, 95), (6, 96), 
    (7, 97), (8, 98), (9, 99), (0, 100);
}

execsql_test 1.1 {
  SELECT a, sum(b) FROM t3 GROUP BY a ORDER BY 1;
}

execsql_test 1.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.3 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN 0 PRECEDING AND 0 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.4 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN 2 PRECEDING AND 2 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.5 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 0 PRECEDING AND 0 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.6 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 2 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.7 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

execsql_test 1.8.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 0 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
}
execsql_test 1.8.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 0 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
}

finish_test

Added test/window7.test.





























































































































































































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# 2019 March 01
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.
#

####################################################
# DO NOT EDIT! THIS FILE IS AUTOMATICALLY GENERATED!
####################################################

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix window7

ifcapable !windowfunc { finish_test ; return }
do_execsql_test 1.0 {
  DROP TABLE IF EXISTS t3;
  CREATE TABLE t3(a INTEGER, b INTEGER);
  INSERT INTO t3 VALUES
    (1, 1), (2, 2), (3, 3), (4, 4), (5, 5), (6, 6), (7, 7), (8, 8), 
    (9, 9), (0, 10), (1, 11), (2, 12), (3, 13), (4, 14), (5, 15), (6, 16), 
    (7, 17), (8, 18), (9, 19), (0, 20), (1, 21), (2, 22), (3, 23), (4, 24), 
    (5, 25), (6, 26), (7, 27), (8, 28), (9, 29), (0, 30), (1, 31), (2, 32), 
    (3, 33), (4, 34), (5, 35), (6, 36), (7, 37), (8, 38), (9, 39), (0, 40), 
    (1, 41), (2, 42), (3, 43), (4, 44), (5, 45), (6, 46), (7, 47), (8, 48), 
    (9, 49), (0, 50), (1, 51), (2, 52), (3, 53), (4, 54), (5, 55), (6, 56), 
    (7, 57), (8, 58), (9, 59), (0, 60), (1, 61), (2, 62), (3, 63), (4, 64), 
    (5, 65), (6, 66), (7, 67), (8, 68), (9, 69), (0, 70), (1, 71), (2, 72), 
    (3, 73), (4, 74), (5, 75), (6, 76), (7, 77), (8, 78), (9, 79), (0, 80), 
    (1, 81), (2, 82), (3, 83), (4, 84), (5, 85), (6, 86), (7, 87), (8, 88), 
    (9, 89), (0, 90), (1, 91), (2, 92), (3, 93), (4, 94), (5, 95), (6, 96), 
    (7, 97), (8, 98), (9, 99), (0, 100);
} {}

do_execsql_test 1.1 {
  SELECT a, sum(b) FROM t3 GROUP BY a ORDER BY 1;
} {0 550   1 460   2 470   3 480   4 490   5 500   6 510   7 520   8 530   9 540}

do_execsql_test 1.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t3 ORDER BY 1;
} {0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540}

do_execsql_test 1.3 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN 0 PRECEDING AND 0 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540}

do_execsql_test 1.4 {
  SELECT a, sum(b) OVER (
    ORDER BY a GROUPS BETWEEN 2 PRECEDING AND 2 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590}

do_execsql_test 1.5 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 0 PRECEDING AND 0 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   1 460   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   2 470   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   3 480   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   4 490   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   5 500   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   6 510   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   7 520   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   8 530   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540}

do_execsql_test 1.6 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 2 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   0 1480   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   1 1960   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   2 2450   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   3 2400   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   4 2450   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   5 2500   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   6 2550   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   7 2600   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590}

do_execsql_test 1.7 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 2 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   1 1480   1 1480   1 1480   1 1480   1 1480   1 1480   1 1480   1 1480   1 1480   1 1480   2 1960   2 1960   2 1960   2 1960   2 1960   2 1960   2 1960   2 1960   2 1960   2 1960   3 1900   3 1900   3 1900   3 1900   3 1900   3 1900   3 1900   3 1900   3 1900   3 1900   4 1940   4 1940   4 1940   4 1940   4 1940   4 1940   4 1940   4 1940   4 1940   4 1940   5 1980   5 1980   5 1980   5 1980   5 1980   5 1980   5 1980   5 1980   5 1980   5 1980   6 2020   6 2020   6 2020   6 2020   6 2020   6 2020   6 2020   6 2020   6 2020   6 2020   7 2060   7 2060   7 2060   7 2060   7 2060   7 2060   7 2060   7 2060   7 2060   7 2060   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   8 2100   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590   9 1590}

do_execsql_test 1.8.1 {
  SELECT a, sum(b) OVER (
    ORDER BY a RANGE BETWEEN 0 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   0 1010   1 930   1 930   1 930   1 930   1 930   1 930   1 930   1 930   1 930   1 930   2 950   2 950   2 950   2 950   2 950   2 950   2 950   2 950   2 950   2 950   3 970   3 970   3 970   3 970   3 970   3 970   3 970   3 970   3 970   3 970   4 990   4 990   4 990   4 990   4 990   4 990   4 990   4 990   4 990   4 990   5 1010   5 1010   5 1010   5 1010   5 1010   5 1010   5 1010   5 1010   5 1010   5 1010   6 1030   6 1030   6 1030   6 1030   6 1030   6 1030   6 1030   6 1030   6 1030   6 1030   7 1050   7 1050   7 1050   7 1050   7 1050   7 1050   7 1050   7 1050   7 1050   7 1050   8 1070   8 1070   8 1070   8 1070   8 1070   8 1070   8 1070   8 1070   8 1070   8 1070   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540   9 540}

do_execsql_test 1.8.2 {
  SELECT a, sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 0 PRECEDING AND 1 FOLLOWING
  ) FROM t3 ORDER BY 1;
} {0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   0 550   1 1010   1 1010   1 1010   1 1010   1 1010   1 1010   1 1010   1 1010   1 1010   1 1010   2 930   2 930   2 930   2 930   2 930   2 930   2 930   2 930   2 930   2 930   3 950   3 950   3 950   3 950   3 950   3 950   3 950   3 950   3 950   3 950   4 970   4 970   4 970   4 970   4 970   4 970   4 970   4 970   4 970   4 970   5 990   5 990   5 990   5 990   5 990   5 990   5 990   5 990   5 990   5 990   6 1010   6 1010   6 1010   6 1010   6 1010   6 1010   6 1010   6 1010   6 1010   6 1010   7 1030   7 1030   7 1030   7 1030   7 1030   7 1030   7 1030   7 1030   7 1030   7 1030   8 1050   8 1050   8 1050   8 1050   8 1050   8 1050   8 1050   8 1050   8 1050   8 1050   9 1070   9 1070   9 1070   9 1070   9 1070   9 1070   9 1070   9 1070   9 1070   9 1070}

finish_test

Added test/window8.tcl.























































































































































































































































































































































































































































































































































































































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# 2018 May 19
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#

source [file join [file dirname $argv0] pg_common.tcl]

#=========================================================================

start_test window8 "2019 March 01"
ifcapable !windowfunc

execsql_test 1.0 {
  DROP TABLE IF EXISTS t3;
  CREATE TABLE t3(a TEXT, b TEXT, c INTEGER);
  INSERT INTO t3 VALUES
    ('HH', 'bb', 355), ('CC', 'aa', 158), ('BB', 'aa', 399), 
    ('FF', 'bb', 938), ('HH', 'aa', 480), ('FF', 'bb', 870), 
    ('JJ', 'aa', 768), ('JJ', 'aa', 899), ('GG', 'bb', 929), 
    ('II', 'bb', 421), ('GG', 'bb', 844), ('FF', 'bb', 574), 
    ('CC', 'bb', 822), ('GG', 'bb', 938), ('BB', 'aa', 660), 
    ('HH', 'aa', 979), ('BB', 'bb', 792), ('DD', 'aa', 845), 
    ('JJ', 'bb', 354), ('FF', 'bb', 295), ('JJ', 'aa', 234), 
    ('BB', 'bb', 840), ('AA', 'aa', 934), ('EE', 'aa', 113), 
    ('AA', 'bb', 309), ('BB', 'aa', 412), ('AA', 'aa', 911), 
    ('AA', 'bb', 572), ('II', 'aa', 398), ('II', 'bb', 250), 
    ('II', 'aa', 652), ('BB', 'bb', 633), ('AA', 'aa', 239), 
    ('FF', 'aa', 670), ('BB', 'bb', 705), ('HH', 'bb', 963), 
    ('CC', 'bb', 346), ('II', 'bb', 671), ('BB', 'aa', 247), 
    ('AA', 'aa', 223), ('GG', 'aa', 480), ('HH', 'aa', 790), 
    ('FF', 'aa', 208), ('BB', 'bb', 711), ('EE', 'aa', 777), 
    ('DD', 'bb', 716), ('CC', 'aa', 759), ('CC', 'aa', 430), 
    ('CC', 'aa', 607), ('DD', 'bb', 794), ('GG', 'aa', 148), 
    ('GG', 'aa', 634), ('JJ', 'bb', 257), ('DD', 'bb', 959), 
    ('FF', 'bb', 726), ('BB', 'aa', 762), ('JJ', 'bb', 336), 
    ('GG', 'aa', 335), ('HH', 'bb', 330), ('GG', 'bb', 160), 
    ('JJ', 'bb', 839), ('FF', 'aa', 618), ('BB', 'aa', 393), 
    ('EE', 'bb', 629), ('FF', 'aa', 667), ('AA', 'bb', 870), 
    ('FF', 'bb', 102), ('JJ', 'aa', 113), ('DD', 'aa', 224), 
    ('AA', 'bb', 627), ('HH', 'bb', 730), ('II', 'bb', 443), 
    ('HH', 'bb', 133), ('EE', 'bb', 252), ('II', 'bb', 805), 
    ('BB', 'bb', 786), ('EE', 'bb', 768), ('HH', 'bb', 683), 
    ('DD', 'bb', 238), ('DD', 'aa', 256);
}

foreach {tn frame} {
  1  { GROUPS BETWEEN UNBOUNDED PRECEDING AND 1 PRECEDING }
  2  { GROUPS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW }
  3  { GROUPS BETWEEN UNBOUNDED PRECEDING AND 1 FOLLOWING }
  4  { GROUPS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING }
  5  { GROUPS BETWEEN 1 PRECEDING         AND 2 PRECEDING }
  6  { GROUPS BETWEEN 2 PRECEDING         AND 1 PRECEDING }
  7  { GROUPS BETWEEN 3 PRECEDING         AND 1 PRECEDING }
  8  { GROUPS BETWEEN 3 PRECEDING         AND 0 PRECEDING }
  9  { GROUPS BETWEEN 2 PRECEDING         AND CURRENT ROW }
  10 { GROUPS BETWEEN 3 PRECEDING         AND 0 FOLLOWING }
  11 { GROUPS BETWEEN 2 PRECEDING         AND UNBOUNDED FOLLOWING }
  12 { GROUPS BETWEEN CURRENT ROW         AND 0 FOLLOWING }
  13 { GROUPS BETWEEN CURRENT ROW         AND 1 FOLLOWING }
  14 { GROUPS BETWEEN CURRENT ROW         AND 100 FOLLOWING }
  15 { GROUPS BETWEEN CURRENT ROW         AND UNBOUNDED FOLLOWING }
  16 { GROUPS BETWEEN 0 FOLLOWING         AND 0 FOLLOWING }
  17 { GROUPS BETWEEN 1 FOLLOWING         AND 0 FOLLOWING }
  18 { GROUPS BETWEEN 1 FOLLOWING         AND 5 FOLLOWING }
  19 { GROUPS BETWEEN 1 FOLLOWING         AND UNBOUNDED FOLLOWING }

} {
  execsql_test 1.$tn.1 "
    SELECT a, b, sum(c) OVER (ORDER BY a $frame) FROM t3 ORDER BY 1, 2, 3;
  "
  execsql_test 1.$tn.2 "
    SELECT a, b, sum(c) OVER (ORDER BY a,b $frame) FROM t3 ORDER BY 1, 2, 3;
  "
  execsql_test 1.$tn.3 "
    SELECT a, b, rank() OVER (ORDER BY a $frame) FROM t3 ORDER BY 1, 2, 3;
  "
  execsql_test 1.$tn.4 "
    SELECT a, b, max(c) OVER (ORDER BY a,b $frame) FROM t3 ORDER BY 1, 2, 3;
  "
  execsql_test 1.$tn.5 "
    SELECT a, b, min(c) OVER (ORDER BY a,b $frame) FROM t3 ORDER BY 1, 2, 3;
  "

  set f2 "$frame EXCLUDE CURRENT ROW"

  execsql_test 1.$tn.6 "
    SELECT a, b, sum(c) OVER (ORDER BY a $f2) FROM t3 ORDER BY 1, 2, 3;
  "
  execsql_test 1.$tn.7 "
    SELECT a, b, sum(c) OVER (ORDER BY a,b $f2) FROM t3 ORDER BY 1, 2, 3;
  "

  execsql_test 1.$tn.8 "
    SELECT a, b, 
      sum(c) OVER (ORDER BY a $f2),
      sum(c) OVER (ORDER BY a $frame),
      sum(c) OVER (ORDER BY a,b $f2),
      sum(c) OVER (ORDER BY a,b $frame)
    FROM t3 ORDER BY 1, 2, 3;
  "
}


foreach {tn ex} {
  1  { EXCLUDE NO OTHERS }
  2  { EXCLUDE CURRENT ROW }
  3  { EXCLUDE GROUP }
  4  { EXCLUDE TIES }
} {
  execsql_test 2.$tn.1 "
    SELECT row_number() OVER win 
    FROM t3
    WINDOW win AS (
      ORDER BY c, b, a
      ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING $ex
    )
  "

  execsql_test 2.$tn.2 "
    SELECT nth_value(c, 14) OVER win 
    FROM t3
    WINDOW win AS (
      ORDER BY c, b, a
      ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING $ex
    )
  "

  execsql_test 2.$tn.3 "
    SELECT min(c) OVER win, max(c) OVER win, sum(c) OVER win FROM t3
    WINDOW win AS (
      ORDER BY c, b, a
      ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW $ex
    ) ORDER BY a, b, c;
  "
}

==========

execsql_test 3.0 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a REAL, b INTEGER);
  INSERT INTO t1 VALUES
      (5, 10), (10, 20), (13, 26), (13, 26), 
      (15, 30), (20, 40), (22,80), (30, 90);
}

foreach {tn frame} {
  1 { ORDER BY a RANGE BETWEEN 5 PRECEDING AND 5 FOLLOWING }
  2 { ORDER BY a RANGE BETWEEN 10 PRECEDING AND 5 PRECEDING }
  3 { ORDER BY a RANGE BETWEEN 2 FOLLOWING AND 3 FOLLOWING }
  4 { ORDER BY a DESC RANGE BETWEEN 5 PRECEDING AND 5 FOLLOWING }
  5 { ORDER BY a DESC RANGE BETWEEN 10 PRECEDING AND 5 PRECEDING }
  6 { ORDER BY a DESC RANGE BETWEEN 2 FOLLOWING AND 3 FOLLOWING }

  7  { ORDER BY a RANGE BETWEEN 5.1 PRECEDING AND 5.3 FOLLOWING }
  8  { ORDER BY a RANGE BETWEEN 10.2 PRECEDING AND 5.4 PRECEDING }
  9  { ORDER BY a RANGE BETWEEN 2.6 FOLLOWING AND 3.5 FOLLOWING }
  10 { ORDER BY a DESC RANGE BETWEEN 5.7 PRECEDING AND 5.8 FOLLOWING }
  11 { ORDER BY a DESC RANGE BETWEEN UNBOUNDED PRECEDING AND 5.9 PRECEDING }
  12 { ORDER BY a DESC RANGE BETWEEN 2.1 FOLLOWING AND UNBOUNDED FOLLOWING }
  13  { ORDER BY a RANGE 5.1 PRECEDING }
} {
  execsql_test 3.$tn "
    SELECT CAST(a AS INTEGER), sum(b) OVER win FROM t1 WINDOW win AS ($frame)
  "
}

==========

execsql_test 4.0 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a INTEGER, b INTEGER);
  INSERT INTO t1 VALUES
    (NULL, 1), (NULL, 2), (NULL, 3), (10, 4), (10, 5);
}

execsql_test 4.1.1 {
  SELECT sum(b) OVER (
    ORDER BY a RANGE BETWEEN 5 PRECEDING AND 10 FOLLOWING
  ) FROM t1 ORDER BY 1;
}
execsql_test 4.1.2 {
  SELECT sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 5 PRECEDING AND 10 FOLLOWING
  ) FROM t1 ORDER BY 1;
}

execsql_test 4.2.1 {
  SELECT sum(b) OVER (
    ORDER BY a RANGE BETWEEN 5 FOLLOWING AND 10 FOLLOWING
  ) FROM t1 ORDER BY 1 NULLS FIRST;
}

execsql_test 4.2.2 {
  SELECT sum(b) OVER (
    ORDER BY a DESC RANGE BETWEEN 5 FOLLOWING AND 10 FOLLOWING
  ) FROM t1 ORDER BY 1 NULLS FIRST;
}

execsql_test 4.3.1 {
  SELECT sum(b) OVER (
    ORDER BY a NULLS FIRST RANGE BETWEEN UNBOUNDED PRECEDING AND 10 FOLLOWING
  ) FROM t1 ORDER BY 1 NULLS FIRST;
}

execsql_test 4.4.1 {
  SELECT sum(b) OVER (
    ORDER BY a NULLS FIRST ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1 ORDER BY 1 NULLS FIRST;
}

execsql_test 4.4.2 {
  SELECT sum(b) OVER (
    ORDER BY a DESC NULLS LAST ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING
  ) FROM t1 ORDER BY 1 NULLS FIRST;
}

==========

execsql_test 5.0 {
  INSERT INTO t3 VALUES
    (NULL, 'bb', 355), (NULL, 'cc', 158), (NULL, 'aa', 399), 
    ('JJ', NULL, 839), ('FF', NULL, 618), ('BB', NULL, 393), 
    (NULL, 'bb', 629), (NULL, NULL, 667), (NULL, NULL, 870);
}

foreach {tn ex} {
  1  { EXCLUDE NO OTHERS }
  2  { EXCLUDE CURRENT ROW }
  3  { EXCLUDE GROUP }
  4  { EXCLUDE TIES }
} {
  foreach {tn2 frame} {
    1 { RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING }
    2 { ORDER BY a NULLS FIRST 
        RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING }
    3 { PARTITION BY coalesce(a, '') 
        RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING }
    4 { ORDER BY a NULLS FIRST GROUPS 6 PRECEDING }
    5 { ORDER BY c NULLS FIRST RANGE BETWEEN 6 PRECEDING AND 7 FOLLOWING }
    6 { ORDER BY c NULLS FIRST RANGE BETWEEN 0 PRECEDING AND 0 FOLLOWING }
    7 { ORDER BY c NULLS FIRST, b NULLS FIRST, a NULLS FIRST
        ROWS BETWEEN 6 PRECEDING AND UNBOUNDED FOLLOWING }
  } {
    execsql_test 5.$tn.$tn2.1 "
      SELECT max(c) OVER win,
             min(c) OVER win,
             count(a) OVER win
      FROM t3
      WINDOW win AS ( $frame $ex )
      ORDER BY 1 NULLS FIRST, 2 NULLS FIRST, 3 NULLS FIRST
    "

    execsql_test 5.$tn.$tn2.2 "
      SELECT sum(c) FILTER (WHERE (c%2)!=0) OVER win,
             rank() OVER win,
             dense_rank() OVER win
      FROM t3
      WINDOW win AS ( $frame $ex )
      ORDER BY 1 NULLS FIRST, 2 NULLS FIRST, 3 NULLS FIRST
    "
  }
}

==========

execsql_test 6.0 {
  DROP TABLE IF EXISTS t2;
  CREATE TABLE t2(a TEXT, b INTEGER);
  INSERT INTO t2 VALUES('A', NULL);
  INSERT INTO t2 VALUES('B', NULL);
  INSERT INTO t2 VALUES('C', 1);
}

execsql_test 6.1 {
  SELECT string_agg(a, '.') OVER (
    ORDER BY b NULLS FIRST RANGE BETWEEN 7 PRECEDING AND 2 PRECEDING
  )
  FROM t2
}

execsql_test 6.2 {
  SELECT string_agg(a, '.') OVER (
    ORDER BY b DESC NULLS LAST RANGE BETWEEN 7 PRECEDING AND 2 PRECEDING
  )
  FROM t2
}


finish_test


Added test/window8.test.





















































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# 2019 March 01
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.
#

####################################################
# DO NOT EDIT! THIS FILE IS AUTOMATICALLY GENERATED!
####################################################

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix window8

ifcapable !windowfunc { finish_test ; return }
do_execsql_test 1.0 {
  DROP TABLE IF EXISTS t3;
  CREATE TABLE t3(a TEXT, b TEXT, c INTEGER);
  INSERT INTO t3 VALUES
    ('HH', 'bb', 355), ('CC', 'aa', 158), ('BB', 'aa', 399), 
    ('FF', 'bb', 938), ('HH', 'aa', 480), ('FF', 'bb', 870), 
    ('JJ', 'aa', 768), ('JJ', 'aa', 899), ('GG', 'bb', 929), 
    ('II', 'bb', 421), ('GG', 'bb', 844), ('FF', 'bb', 574), 
    ('CC', 'bb', 822), ('GG', 'bb', 938), ('BB', 'aa', 660), 
    ('HH', 'aa', 979), ('BB', 'bb', 792), ('DD', 'aa', 845), 
    ('JJ', 'bb', 354), ('FF', 'bb', 295), ('JJ', 'aa', 234), 
    ('BB', 'bb', 840), ('AA', 'aa', 934), ('EE', 'aa', 113), 
    ('AA', 'bb', 309), ('BB', 'aa', 412), ('AA', 'aa', 911), 
    ('AA', 'bb', 572), ('II', 'aa', 398), ('II', 'bb', 250), 
    ('II', 'aa', 652), ('BB', 'bb', 633), ('AA', 'aa', 239), 
    ('FF', 'aa', 670), ('BB', 'bb', 705), ('HH', 'bb', 963), 
    ('CC', 'bb', 346), ('II', 'bb', 671), ('BB', 'aa', 247), 
    ('AA', 'aa', 223), ('GG', 'aa', 480), ('HH', 'aa', 790), 
    ('FF', 'aa', 208), ('BB', 'bb', 711), ('EE', 'aa', 777), 
    ('DD', 'bb', 716), ('CC', 'aa', 759), ('CC', 'aa', 430), 
    ('CC', 'aa', 607), ('DD', 'bb', 794), ('GG', 'aa', 148), 
    ('GG', 'aa', 634), ('JJ', 'bb', 257), ('DD', 'bb', 959), 
    ('FF', 'bb', 726), ('BB', 'aa', 762), ('JJ', 'bb', 336), 
    ('GG', 'aa', 335), ('HH', 'bb', 330), ('GG', 'bb', 160), 
    ('JJ', 'bb', 839), ('FF', 'aa', 618), ('BB', 'aa', 393), 
    ('EE', 'bb', 629), ('FF', 'aa', 667), ('AA', 'b