tool/mkopcodeh.tcl - external/github.com/sqlite/sqlite - Git at Google

 #!/usr/bin/tclsh
 #
 # Generate the file opcodes.h.
 #
 # This TCL script scans a concatenation of the parse.h output file from the
 # parser and the vdbe.c source file in order to generate the opcodes numbers
 # for all opcodes.
 #
 # The lines of the vdbe.c that we are interested in are of the form:
 #
 #       case OP_aaaa:      /* same as TK_bbbbb */
 #
 # The TK_ comment is optional.  If it is present, then the value assigned to
 # the OP_ is the same as the TK_ value.  If missing, the OP_ value is assigned
 # a small integer that is different from every other OP_ value.
 #
 # We go to the trouble of making some OP_ values the same as TK_ values
 # as an optimization.  During parsing, things like expression operators
 # are coded with TK_ values such as TK_ADD, TK_DIVIDE, and so forth.  Later
 # during code generation, we need to generate corresponding opcodes like
 # OP_Add and OP_Divide.  By making TK_ADD==OP_Add and TK_DIVIDE==OP_Divide,
 # code to translate from one to the other is avoided.  This makes the
 # code generator smaller and faster.
 #
 # This script also scans for lines of the form:
 #
 #       case OP_aaaa:       /* jump, in1, in2, in3, out2, out3 */
 #
 # When such comments are found on an opcode, it means that certain
 # properties apply to that opcode.  Set corresponding flags using the
 # OPFLG_INITIALIZER macro.
 #

 set in stdin
 set currentOp {}
 set prevName {}
 set nOp 0
 set nGroup 0
 while {![eof $in]} {
   set line [gets $in]

   # Remember the TK_ values from the parse.h file.
   # NB:  The "TK_" prefix stands for "ToKen", not the graphical Tk toolkit
   # commonly associated with TCL.
   #
   if {[regexp {^#define TK_} $line]} {
     set tk([lindex $line 1]) [lindex $line 2]
     continue
   }

   # Find "/* Opcode: " lines in the vdbe.c file.  Each one introduces
   # a new opcode.  Remember which parameters are used.
   #
   if {[regexp {^.. Opcode: } $line]} {
     set currentOp OP_[lindex $line 2]
     set m 0
     foreach term $line {
       switch $term {
         P1 {incr m 1}
         P2 {incr m 2}
         P3 {incr m 4}
         P4 {incr m 8}
         P5 {incr m 16}
       }
     }
     set paramused($currentOp) $m
   }

   # Find "** Synopsis: " lines that follow Opcode:
   #
   if {[regexp {^.. Synopsis: (.*)} $line all x] && $currentOp!=""} {
     set synopsis($currentOp) [string trim $x]
   }

   # Scan for "case OP_aaaa:" lines in the vdbe.c file
   #
   if {[regexp {^case OP_} $line]} {
     set line [split $line]
     set name [string trim [lindex $line 1] :]
     if {$name=="OP_Abortable"} continue;  # put OP_Abortable last
     set op($name) -1
     set group($name) 0
     set jump($name) 0
     set in1($name) 0
     set in2($name) 0
     set in3($name) 0
     set out2($name) 0
     set out3($name) 0
     for {set i 3} {$i<[llength $line]-1} {incr i} {
        switch [string trim [lindex $line $i] ,] {
          same {
            incr i
            if {[lindex $line $i]=="as"} {
              incr i
              set sym [string trim [lindex $line $i] ,]
              set val $tk($sym)
              set op($name) $val
              set used($val) 1
              set sameas($val) $sym
              set def($val) $name
            }
          }
          group {set group($name) 1}
          jump  {set jump($name) 1}
          in1   {set in1($name) 1}
          in2   {set in2($name) 1}
          in3   {set in3($name) 1}
          out2  {set out2($name) 1}
          out3  {set out3($name) 1}
        }
     }
     if {$group($name)} {
       set newGroup 0
       if {[info exists groups($nGroup)]} {
         if {$prevName=="" || !$group($prevName)} {
           set newGroup 1
         }
       }
       lappend groups($nGroup) $name
       if {$newGroup} {incr nGroup}
     } else {
       if {$prevName!="" && $group($prevName)} {
         incr nGroup
       }
     }
     set order($nOp) $name
     set prevName $name
     incr nOp
   }
 }

 # Assign numbers to all opcodes and output the result.
 #
 puts "/* Automatically generated.  Do not edit */"
 puts "/* See the tool/mkopcodeh.tcl script for details */"
 foreach name {OP_Noop OP_Explain OP_Abortable} {
   set jump($name) 0
   set in1($name) 0
   set in2($name) 0
   set in3($name) 0
   set out2($name) 0
   set out3($name) 0
   set op($name) -1
   set order($nOp) $name
   incr nOp
 }

 # The following are the opcodes that are processed by resolveP2Values()
 #
 set rp2v_ops {
   OP_Transaction
   OP_AutoCommit
   OP_Savepoint
   OP_Checkpoint
   OP_Vacuum
   OP_JournalMode
   OP_VUpdate
   OP_VFilter
   OP_Next
   OP_NextIfOpen
   OP_SorterNext
   OP_Prev
   OP_PrevIfOpen
 }

 # Assign small values to opcodes that are processed by resolveP2Values()
 # to make code generation for the switch() statement smaller and faster.
 #
 set cnt -1
 for {set i 0} {$i<$nOp} {incr i} {
   set name $order($i)
   if {[lsearch $rp2v_ops $name]>=0} {
     incr cnt
     while {[info exists used($cnt)]} {incr cnt}
     set op($name) $cnt
     set used($cnt) 1
     set def($cnt) $name
   }
 }

 # Assign the next group of values to JUMP opcodes
 #
 for {set i 0} {$i<$nOp} {incr i} {
   set name $order($i)
   if {$op($name)>=0} continue
   if {!$jump($name)} continue
   incr cnt
   while {[info exists used($cnt)]} {incr cnt}
   set op($name) $cnt
   set used($cnt) 1
   set def($cnt) $name
 }

 # Find the numeric value for the largest JUMP opcode
 #
 set mxJump -1
 for {set i 0} {$i<$nOp} {incr i} {
   set name $order($i)
   if {$jump($name) && $op($name)>$mxJump} {set mxJump $op($name)}
 }


 # Generate the numeric values for all remaining opcodes, while
 # preserving any groupings of opcodes (i.e. those that must be
 # together).
 #
 for {set g 0} {$g<$nGroup} {incr g} {
   set gLen [llength $groups($g)]
   set ok 0; set start -1
   while {!$ok} {
     set seek $cnt; incr seek
     while {[info exists used($seek)]} {incr seek}
     set ok 1; set start $seek
     for {set j 0} {$j<$gLen} {incr j} {
       incr seek
       if {[info exists used($seek)]} {
         set ok 0; break
       }
     }
   }
   if {$ok} {
     set next $start
     for {set j 0} {$j<$gLen} {incr j} {
       set name [lindex $groups($g) $j]
       if {$op($name)>=0} continue
       set op($name) $next
       set used($next) 1
       set def($next) $name
       incr next
     }
   } else {
     error "cannot find opcodes for group: $groups($g)"
   }
 }

 for {set i 0} {$i<$nOp} {incr i} {
   set name $order($i)
   if {$op($name)<0} {
     incr cnt
     while {[info exists used($cnt)]} {incr cnt}
     set op($name) $cnt
     set used($cnt) 1
     set def($cnt) $name
   }
 }

 set max [lindex [lsort -decr -integer [array names used]] 0]
 for {set i 0} {$i<=$max} {incr i} {
   if {![info exists used($i)]} {
     set def($i) "OP_NotUsed_$i"
   }
   if {$i>$max} {set max $i}
   set name $def($i)
   puts -nonewline [format {#define %-16s %3d} $name $i]
   set com {}
   if {[info exists jump($name)] && $jump($name)} {
     lappend com "jump"
   }
   if {[info exists sameas($i)]} {
     lappend com "same as $sameas($i)"
   }
   if {[info exists synopsis($name)]} {
     lappend com "synopsis: $synopsis($name)"
   }
   if {[llength $com]} {
     puts -nonewline [format " /* %-42s */" [join $com {, }]]
   }
   puts ""
 }

 if {$max>255} {
   error "More than 255 opcodes - VdbeOp.opcode is of type u8!"
 }

 # Generate the bitvectors:
 #
 set bv(0) 0
 for {set i 0} {$i<=$max} {incr i} {
   set x 0
   set name $def($i)
   if {[string match OP_NotUsed* $name]==0} {
     if {$jump($name)}  {incr x 1}
     if {$in1($name)}   {incr x 2}
     if {$in2($name)}   {incr x 4}
     if {$in3($name)}   {incr x 8}
     if {$out2($name)}  {incr x 16}
     if {$out3($name)}  {incr x 32}
   }
   set bv($i) $x
 }
 puts ""
 puts "/* Properties such as \"out2\" or \"jump\" that are specified in"
 puts "** comments following the \"case\" for each opcode in the vdbe.c"
 puts "** are encoded into bitvectors as follows:"
 puts "*/"
 puts "#define OPFLG_JUMP        0x01  /* jump:  P2 holds jmp target */"
 puts "#define OPFLG_IN1         0x02  /* in1:   P1 is an input */"
 puts "#define OPFLG_IN2         0x04  /* in2:   P2 is an input */"
 puts "#define OPFLG_IN3         0x08  /* in3:   P3 is an input */"
 puts "#define OPFLG_OUT2        0x10  /* out2:  P2 is an output */"
 puts "#define OPFLG_OUT3        0x20  /* out3:  P3 is an output */"
 puts "#define OPFLG_INITIALIZER \173\\"
 for {set i 0} {$i<=$max} {incr i} {
   if {$i%8==0} {
     puts -nonewline [format "/* %3d */" $i]
   }
   puts -nonewline [format " 0x%02x," $bv($i)]
   if {$i%8==7} {
     puts "\\"
   }
 }
 puts "\175"
 puts ""
 puts "/* The sqlite3P2Values() routine is able to run faster if it knows"
 puts "** the value of the largest JUMP opcode.  The smaller the maximum"
 puts "** JUMP opcode the better, so the mkopcodeh.tcl script that"
 puts "** generated this include file strives to group all JUMP opcodes"
 puts "** together near the beginning of the list."
 puts "*/"
 puts "#define SQLITE_MX_JUMP_OPCODE  $mxJump  /* Maximum JUMP opcode */"
	#!/usr/bin/tclsh
	#
	# Generate the file opcodes.h.
	#
	# This TCL script scans a concatenation of the parse.h output file from the
	# parser and the vdbe.c source file in order to generate the opcodes numbers
	# for all opcodes.
	#
	# The lines of the vdbe.c that we are interested in are of the form:
	#
	# case OP_aaaa: /* same as TK_bbbbb */
	#
	# The TK_ comment is optional. If it is present, then the value assigned to
	# the OP_ is the same as the TK_ value. If missing, the OP_ value is assigned
	# a small integer that is different from every other OP_ value.
	#
	# We go to the trouble of making some OP_ values the same as TK_ values
	# as an optimization. During parsing, things like expression operators
	# are coded with TK_ values such as TK_ADD, TK_DIVIDE, and so forth. Later
	# during code generation, we need to generate corresponding opcodes like
	# OP_Add and OP_Divide. By making TK_ADD==OP_Add and TK_DIVIDE==OP_Divide,
	# code to translate from one to the other is avoided. This makes the
	# code generator smaller and faster.
	#
	# This script also scans for lines of the form:
	#
	# case OP_aaaa: /* jump, in1, in2, in3, out2, out3 */
	#
	# When such comments are found on an opcode, it means that certain
	# properties apply to that opcode. Set corresponding flags using the
	# OPFLG_INITIALIZER macro.
	#

	set in stdin
	set currentOp {}
	set prevName {}
	set nOp 0
	set nGroup 0
	while {![eof $in]} {
	set line [gets $in]

	# Remember the TK_ values from the parse.h file.
	# NB: The "TK_" prefix stands for "ToKen", not the graphical Tk toolkit
	# commonly associated with TCL.
	#
	if {[regexp {^#define TK_} $line]} {
	set tk([lindex $line 1]) [lindex $line 2]
	continue
	}

	# Find "/* Opcode: " lines in the vdbe.c file. Each one introduces
	# a new opcode. Remember which parameters are used.
	#
	if {[regexp {^.. Opcode: } $line]} {
	set currentOp OP_[lindex $line 2]
	set m 0
	foreach term $line {
	switch $term {
	P1 {incr m 1}
	P2 {incr m 2}
	P3 {incr m 4}
	P4 {incr m 8}
	P5 {incr m 16}
	}
	}
	set paramused($currentOp) $m
	}

	# Find "** Synopsis: " lines that follow Opcode:
	#
	if {[regexp {^.. Synopsis: (.*)} $line all x] && $currentOp!=""} {
	set synopsis($currentOp) [string trim $x]
	}

	# Scan for "case OP_aaaa:" lines in the vdbe.c file
	#
	if {[regexp {^case OP_} $line]} {
	set line [split $line]
	set name [string trim [lindex $line 1] :]
	if {$name=="OP_Abortable"} continue; # put OP_Abortable last
	set op($name) -1
	set group($name) 0
	set jump($name) 0
	set in1($name) 0
	set in2($name) 0
	set in3($name) 0
	set out2($name) 0
	set out3($name) 0
	for {set i 3} {$i<[llength $line]-1} {incr i} {
	switch [string trim [lindex $line $i] ,] {
	same {
	incr i
	if {[lindex $line $i]=="as"} {
	incr i
	set sym [string trim [lindex $line $i] ,]
	set val $tk($sym)
	set op($name) $val
	set used($val) 1
	set sameas($val) $sym
	set def($val) $name
	}
	}
	group {set group($name) 1}
	jump {set jump($name) 1}
	in1 {set in1($name) 1}
	in2 {set in2($name) 1}
	in3 {set in3($name) 1}
	out2 {set out2($name) 1}
	out3 {set out3($name) 1}
	}
	}
	if {$group($name)} {
	set newGroup 0
	if {[info exists groups($nGroup)]} {
	if {$prevName=="" \|\| !$group($prevName)} {
	set newGroup 1
	}
	}
	lappend groups($nGroup) $name
	if {$newGroup} {incr nGroup}
	} else {
	if {$prevName!="" && $group($prevName)} {
	incr nGroup
	}
	}
	set order($nOp) $name
	set prevName $name
	incr nOp
	}
	}

	# Assign numbers to all opcodes and output the result.
	#
	puts "/* Automatically generated. Do not edit */"
	puts "/* See the tool/mkopcodeh.tcl script for details */"
	foreach name {OP_Noop OP_Explain OP_Abortable} {
	set jump($name) 0
	set in1($name) 0
	set in2($name) 0
	set in3($name) 0
	set out2($name) 0
	set out3($name) 0
	set op($name) -1
	set order($nOp) $name
	incr nOp
	}

	# The following are the opcodes that are processed by resolveP2Values()
	#
	set rp2v_ops {
	OP_Transaction
	OP_AutoCommit
	OP_Savepoint
	OP_Checkpoint
	OP_Vacuum
	OP_JournalMode
	OP_VUpdate
	OP_VFilter
	OP_Next
	OP_NextIfOpen
	OP_SorterNext
	OP_Prev
	OP_PrevIfOpen
	}

	# Assign small values to opcodes that are processed by resolveP2Values()
	# to make code generation for the switch() statement smaller and faster.
	#
	set cnt -1
	for {set i 0} {$i<$nOp} {incr i} {
	set name $order($i)
	if {[lsearch $rp2v_ops $name]>=0} {
	incr cnt
	while {[info exists used($cnt)]} {incr cnt}
	set op($name) $cnt
	set used($cnt) 1
	set def($cnt) $name
	}
	}

	# Assign the next group of values to JUMP opcodes
	#
	for {set i 0} {$i<$nOp} {incr i} {
	set name $order($i)
	if {$op($name)>=0} continue
	if {!$jump($name)} continue
	incr cnt
	while {[info exists used($cnt)]} {incr cnt}
	set op($name) $cnt
	set used($cnt) 1
	set def($cnt) $name
	}

	# Find the numeric value for the largest JUMP opcode
	#
	set mxJump -1
	for {set i 0} {$i<$nOp} {incr i} {
	set name $order($i)
	if {$jump($name) && $op($name)>$mxJump} {set mxJump $op($name)}
	}


	# Generate the numeric values for all remaining opcodes, while
	# preserving any groupings of opcodes (i.e. those that must be
	# together).
	#
	for {set g 0} {$g<$nGroup} {incr g} {
	set gLen [llength $groups($g)]
	set ok 0; set start -1
	while {!$ok} {
	set seek $cnt; incr seek
	while {[info exists used($seek)]} {incr seek}
	set ok 1; set start $seek
	for {set j 0} {$j<$gLen} {incr j} {
	incr seek
	if {[info exists used($seek)]} {
	set ok 0; break
	}
	}
	}
	if {$ok} {
	set next $start
	for {set j 0} {$j<$gLen} {incr j} {
	set name [lindex $groups($g) $j]
	if {$op($name)>=0} continue
	set op($name) $next
	set used($next) 1
	set def($next) $name
	incr next
	}
	} else {
	error "cannot find opcodes for group: $groups($g)"
	}
	}

	for {set i 0} {$i<$nOp} {incr i} {
	set name $order($i)
	if {$op($name)<0} {
	incr cnt
	while {[info exists used($cnt)]} {incr cnt}
	set op($name) $cnt
	set used($cnt) 1
	set def($cnt) $name
	}
	}

	set max [lindex [lsort -decr -integer [array names used]] 0]
	for {set i 0} {$i<=$max} {incr i} {
	if {![info exists used($i)]} {
	set def($i) "OP_NotUsed_$i"
	}
	if {$i>$max} {set max $i}
	set name $def($i)
	puts -nonewline [format {#define %-16s %3d} $name $i]
	set com {}
	if {[info exists jump($name)] && $jump($name)} {
	lappend com "jump"
	}
	if {[info exists sameas($i)]} {
	lappend com "same as $sameas($i)"
	}
	if {[info exists synopsis($name)]} {
	lappend com "synopsis: $synopsis($name)"
	}
	if {[llength $com]} {
	puts -nonewline [format " /* %-42s */" [join $com {, }]]
	}
	puts ""
	}

	if {$max>255} {
	error "More than 255 opcodes - VdbeOp.opcode is of type u8!"
	}

	# Generate the bitvectors:
	#
	set bv(0) 0
	for {set i 0} {$i<=$max} {incr i} {
	set x 0
	set name $def($i)
	if {[string match OP_NotUsed* $name]==0} {
	if {$jump($name)} {incr x 1}
	if {$in1($name)} {incr x 2}
	if {$in2($name)} {incr x 4}
	if {$in3($name)} {incr x 8}
	if {$out2($name)} {incr x 16}
	if {$out3($name)} {incr x 32}
	}
	set bv($i) $x
	}
	puts ""
	puts "/* Properties such as \"out2\" or \"jump\" that are specified in"
	puts "** comments following the \"case\" for each opcode in the vdbe.c"
	puts "** are encoded into bitvectors as follows:"
	puts "*/"
	puts "#define OPFLG_JUMP 0x01 /* jump: P2 holds jmp target */"
	puts "#define OPFLG_IN1 0x02 /* in1: P1 is an input */"
	puts "#define OPFLG_IN2 0x04 /* in2: P2 is an input */"
	puts "#define OPFLG_IN3 0x08 /* in3: P3 is an input */"
	puts "#define OPFLG_OUT2 0x10 /* out2: P2 is an output */"
	puts "#define OPFLG_OUT3 0x20 /* out3: P3 is an output */"
	puts "#define OPFLG_INITIALIZER \173\\"
	for {set i 0} {$i<=$max} {incr i} {
	if {$i%8==0} {
	puts -nonewline [format "/* %3d */" $i]
	}
	puts -nonewline [format " 0x%02x," $bv($i)]
	if {$i%8==7} {
	puts "\\"
	}
	}
	puts "\175"
	puts ""
	puts "/* The sqlite3P2Values() routine is able to run faster if it knows"
	puts "** the value of the largest JUMP opcode. The smaller the maximum"
	puts "** JUMP opcode the better, so the mkopcodeh.tcl script that"
	puts "** generated this include file strives to group all JUMP opcodes"
	puts "** together near the beginning of the list."
	puts "*/"
	puts "#define SQLITE_MX_JUMP_OPCODE $mxJump /* Maximum JUMP opcode */"