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|
#!/usr/bin/perl
unlink "opcode.h";
open(OC, ">opcode.h") || die "Can't create opcode.h: $!\n";
select OC;
# Read data.
while (<DATA>) {
chop;
next unless $_;
next if /^#/;
($key, $desc, $check, $flags, $args) = split(/\t+/, $_, 5);
warn qq[Description "$desc" duplicates $seen{$desc}\n] if $seen{$desc};
die qq[Opcode "$key" duplicates $seen{$key}\n] if $seen{$key};
$seen{$desc} = qq[description of opcode "$key"];
$seen{$key} = qq[opcode "$key"];
push(@ops, $key);
$desc{$key} = $desc;
$check{$key} = $check;
$ckname{$check}++;
$flags{$key} = $flags;
$args{$key} = $args;
}
# Emit defines.
$i = 0;
print <<"END";
/* !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
This file is built by opcode.pl from its data. Any changes made here
will be lost!
*/
#define Perl_pp_i_preinc Perl_pp_preinc
#define Perl_pp_i_predec Perl_pp_predec
#define Perl_pp_i_postinc Perl_pp_postinc
#define Perl_pp_i_postdec Perl_pp_postdec
typedef enum {
END
for (@ops) {
print "\t", &tab(3,"OP_\U$_,"), "/* ", $i++, " */\n";
}
print "\t", &tab(3,"OP_max"), "\n";
print "} opcode;\n";
print "\n#define MAXO ", scalar @ops, "\n\n";
# Emit op names and descriptions.
print <<END;
START_EXTERN_C
#ifndef DOINIT
EXT char *PL_op_name[];
#else
EXT char *PL_op_name[] = {
END
for (@ops) {
print qq(\t"$_",\n);
}
print <<END;
};
#endif
END
print <<END;
#ifndef DOINIT
EXT char *PL_op_desc[];
#else
EXT char *PL_op_desc[] = {
END
for (@ops) {
print qq(\t"$desc{$_}",\n);
}
print <<END;
};
#endif
END_EXTERN_C
END
# Emit function declarations.
#for (sort keys %ckname) {
# print "OP *\t", &tab(3,$_),"(pTHX_ OP* o);\n";
#}
#
#print "\n";
#
#for (@ops) {
# print "OP *\t", &tab(3, "pp_$_"), "(pTHX);\n";
#}
# Emit ppcode switch array.
print <<END;
START_EXTERN_C
#ifndef DOINIT
EXT OP * (CPERLscope(*PL_ppaddr)[])(pTHX);
#else
EXT OP * (CPERLscope(*PL_ppaddr)[])(pTHX) = {
END
for (@ops) {
print "\tPerl_pp_$_,\n";
}
print <<END;
};
#endif
END
# Emit check routines.
print <<END;
#ifndef DOINIT
EXT OP * (CPERLscope(*PL_check)[]) (pTHX_ OP *op);
#else
EXT OP * (CPERLscope(*PL_check)[]) (pTHX_ OP *op) = {
END
for (@ops) {
print "\t", &tab(3, "Perl_$check{$_},"), "/* $_ */\n";
}
print <<END;
};
#endif
END
# Emit allowed argument types.
print <<END;
#ifndef DOINIT
EXT U32 PL_opargs[];
#else
EXT U32 PL_opargs[] = {
END
%argnum = (
S, 1, # scalar
L, 2, # list
A, 3, # array value
H, 4, # hash value
C, 5, # code value
F, 6, # file value
R, 7, # scalar reference
);
%opclass = (
'0', 0, # baseop
'1', 1, # unop
'2', 2, # binop
'|', 3, # logop
'@', 4, # listop
'/', 5, # pmop
'$', 6, # svop
'*', 7, # gvop
'"', 8, # pvop_or_svop
'{', 9, # loop
';', 10, # cop
'%', 11, # baseop_or_unop
'-', 12, # filestatop
'}', 13, # loopexop
);
for (@ops) {
$argsum = 0;
$flags = $flags{$_};
$argsum |= 1 if $flags =~ /m/; # needs stack mark
$argsum |= 2 if $flags =~ /f/; # fold constants
$argsum |= 4 if $flags =~ /s/; # always produces scalar
$argsum |= 8 if $flags =~ /t/; # needs target scalar
$argsum |= (8|256) if $flags =~ /T/; # ... which may be lexical
$argsum |= 16 if $flags =~ /i/; # always produces integer
$argsum |= 32 if $flags =~ /I/; # has corresponding int op
$argsum |= 64 if $flags =~ /d/; # danger, unknown side effects
$argsum |= 128 if $flags =~ /u/; # defaults to $_
$flags =~ /([\W\d_])/ or die qq[Opcode "$_" has no class indicator];
$argsum |= $opclass{$1} << 9;
$mul = 0x2000; # 2 ^ OASHIFT
for $arg (split(' ',$args{$_})) {
$argnum = ($arg =~ s/\?//) ? 8 : 0;
$argnum += $argnum{$arg};
warn "# Conflicting bit 32 for '$_'.\n"
if $argnum & 8 and $mul == 0x10000000;
$argsum += $argnum * $mul;
$mul <<= 4;
}
$argsum = sprintf("0x%08x", $argsum);
print "\t", &tab(3, "$argsum,"), "/* $_ */\n";
}
print <<END;
};
#endif
END_EXTERN_C
END
close OC or die "Error closing opcode.h: $!";
unlink "pp_proto.h";
unlink "pp.sym";
open PP, '>pp_proto.h' or die "Error creating pp_proto.h: $!";
open PPSYM, '>pp.sym' or die "Error creating pp.sym: $!";
print PP <<"END";
/* !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
This file is built by opcode.pl from its data. Any changes made here
will be lost!
*/
END
print PPSYM <<"END";
#
# !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
# This file is built by opcode.pl from its data. Any changes made here
# will be lost!
#
END
for (sort keys %ckname) {
print PP "PERL_CKDEF(Perl_$_)\n";
print PPSYM "Perl_$_\n";
#OP *\t", &tab(3,$_),"(OP* o);\n";
}
print PP "\n\n";
for (@ops) {
next if /^i_(pre|post)(inc|dec)$/;
print PP "PERL_PPDEF(Perl_pp_$_)\n";
print PPSYM "Perl_pp_$_\n";
}
close PP or die "Error closing pp_proto.h: $!";
close PPSYM or die "Error closing pp.sym: $!";
###########################################################################
sub tab {
local($l, $t) = @_;
$t .= "\t" x ($l - (length($t) + 1) / 8);
$t;
}
###########################################################################
# Some comments about 'T' opcode classifier:
# Safe to set if the ppcode uses:
# tryAMAGICbin, tryAMAGICun, SETn, SETi, SETu, PUSHn, PUSHTARG, SETTARG,
# SETs(TARG), XPUSHn, XPUSHu,
# Unsafe to set if the ppcode uses dTARG or [X]RETPUSH[YES|NO|UNDEF]
# lt and friends do SETs (including ncmp, but not scmp)
# pp.c pos substr each not OK (RETPUSHUNDEF)
# substr vec also not OK due to LV to target (are they???)
# ref not OK (RETPUSHNO)
# trans not OK (dTARG; TARG = sv_newmortal();)
# ucfirst etc not OK: TMP arg processed inplace
# each repeat not OK too due to array context
# pack split - unknown whether they are safe
# pp_hot.c
# readline - unknown whether it is safe
# match subst not OK (dTARG)
# grepwhile not OK (not always setting)
# pp_ctl.c
# mapwhile flip caller not OK (not always setting)
# pp_sys.c
# backtick glob warn die not OK (not always setting)
# warn not OK (RETPUSHYES)
# open fileno getc sysread syswrite ioctl accept shutdown
# ftsize(etc) readlink telldir fork alarm getlogin not OK (RETPUSHUNDEF)
# umask select not OK (XPUSHs(&PL_sv_undef);)
# fileno getc sysread syswrite tell not OK (meth("FILENO" "GETC"))
# sselect shm* sem* msg* syscall - unknown whether they are safe
# gmtime not OK (list context)
__END__
# Nothing.
null null operation ck_null 0
stub stub ck_null 0
scalar scalar ck_fun s% S
# Pushy stuff.
pushmark pushmark ck_null s0
wantarray wantarray ck_null is0
const constant item ck_svconst s$
gvsv scalar variable ck_null ds*
gv glob value ck_null ds*
gelem glob elem ck_null d2 S S
padsv private variable ck_null ds0
padav private array ck_null d0
padhv private hash ck_null d0
padany private something ck_null d0
pushre push regexp ck_null d/
# References and stuff.
rv2gv ref-to-glob cast ck_rvconst ds1
rv2sv scalar deref ck_rvconst ds1
av2arylen array length ck_null is1
rv2cv subroutine deref ck_rvconst d1
anoncode anonymous subroutine ck_anoncode $
prototype subroutine prototype ck_null s% S
refgen reference constructor ck_spair m1 L
srefgen single ref constructor ck_null fs1 S
ref reference-type operator ck_fun stu% S?
bless bless ck_fun s@ S S?
# Pushy I/O.
backtick backticks ck_null t%
# glob defaults its first arg to $_
glob glob ck_glob t@ S? S?
readline <HANDLE> ck_null t%
rcatline append I/O operator ck_null t%
# Bindable operators.
regcmaybe regexp comp once ck_fun s1 S
regcreset regexp reset interpolation flag ck_fun s1 S
regcomp regexp compilation ck_null s| S
match pattern match ck_match d/
qr pattern quote ck_match s/
subst substitution ck_null dis/ S
substcont substitution cont ck_null dis|
trans character translation ck_null is" S
# Lvalue operators.
# sassign is special-cased for op class
sassign scalar assignment ck_sassign s0
aassign list assignment ck_null t2 L L
chop chop ck_spair mTs% L
schop scalar chop ck_null sTu% S?
chomp safe chop ck_spair mTs% L
schomp scalar safe chop ck_null sTu% S?
defined defined operator ck_defined isu% S?
undef undef operator ck_lfun s% S?
study study ck_fun su% S?
pos match position ck_lfun stu% S?
preinc preincrement ck_lfun dIs1 S
i_preinc integer preincrement ck_lfun dis1 S
predec predecrement ck_lfun dIs1 S
i_predec integer predecrement ck_lfun dis1 S
postinc postincrement ck_lfun dIsT1 S
i_postinc integer postincrement ck_lfun disT1 S
postdec postdecrement ck_lfun dIsT1 S
i_postdec integer postdecrement ck_lfun disT1 S
# Ordinary operators.
pow exponentiation ck_null fsT2 S S
multiply multiplication ck_null IfsT2 S S
i_multiply integer multiplication ck_null ifsT2 S S
divide division ck_null IfsT2 S S
i_divide integer division ck_null ifsT2 S S
modulo modulus ck_null IifsT2 S S
i_modulo integer modulus ck_null ifsT2 S S
repeat repeat ck_repeat mt2 L S
add addition ck_null IfsT2 S S
i_add integer addition ck_null ifsT2 S S
subtract subtraction ck_null IfsT2 S S
i_subtract integer subtraction ck_null ifsT2 S S
concat concatenation ck_concat fsT2 S S
stringify string ck_fun fsT@ S
left_shift left bitshift ck_bitop fsT2 S S
right_shift right bitshift ck_bitop fsT2 S S
lt numeric lt ck_null Iifs2 S S
i_lt integer lt ck_null ifs2 S S
gt numeric gt ck_null Iifs2 S S
i_gt integer gt ck_null ifs2 S S
le numeric le ck_null Iifs2 S S
i_le integer le ck_null ifs2 S S
ge numeric ge ck_null Iifs2 S S
i_ge integer ge ck_null ifs2 S S
eq numeric eq ck_null Iifs2 S S
i_eq integer eq ck_null ifs2 S S
ne numeric ne ck_null Iifs2 S S
i_ne integer ne ck_null ifs2 S S
ncmp spaceship operator ck_null Iifst2 S S
i_ncmp integer spaceship ck_null ifst2 S S
slt string lt ck_scmp ifs2 S S
sgt string gt ck_scmp ifs2 S S
sle string le ck_scmp ifs2 S S
sge string ge ck_scmp ifs2 S S
seq string eq ck_null ifs2 S S
sne string ne ck_null ifs2 S S
scmp string comparison ck_scmp ifst2 S S
bit_and bitwise and ck_bitop fsT2 S S
bit_xor bitwise xor ck_bitop fsT2 S S
bit_or bitwise or ck_bitop fsT2 S S
negate negate ck_null IfsT1 S
i_negate integer negate ck_null ifsT1 S
not not ck_null ifs1 S
complement 1's complement ck_bitop fsT1 S
# High falutin' math.
atan2 atan2 ck_fun fsT@ S S
sin sin ck_fun fsTu% S?
cos cos ck_fun fsTu% S?
rand rand ck_fun sT% S?
srand srand ck_fun s% S?
exp exp ck_fun fsTu% S?
log log ck_fun fsTu% S?
sqrt sqrt ck_fun fsTu% S?
# Lowbrow math.
int int ck_fun fsTu% S?
hex hex ck_fun fsTu% S?
oct oct ck_fun fsTu% S?
abs abs ck_fun fsTu% S?
# String stuff.
length length ck_lengthconst isTu% S?
substr substr ck_fun st@ S S S? S?
vec vec ck_fun ist@ S S S
index index ck_index isT@ S S S?
rindex rindex ck_index isT@ S S S?
sprintf sprintf ck_fun_locale mfsT@ S L
formline formline ck_fun ms@ S L
ord ord ck_fun ifsTu% S?
chr chr ck_fun fsTu% S?
crypt crypt ck_fun fsT@ S S
ucfirst upper case first ck_fun_locale fstu% S?
lcfirst lower case first ck_fun_locale fstu% S?
uc upper case ck_fun_locale fstu% S?
lc lower case ck_fun_locale fstu% S?
quotemeta quote metachars ck_fun fsTu% S?
# Arrays.
rv2av array deref ck_rvconst dt1
aelemfast known array element ck_null s* A S
aelem array element ck_null s2 A S
aslice array slice ck_null m@ A L
# Hashes.
each each ck_fun t% H
values values ck_fun t% H
keys keys ck_fun t% H
delete delete ck_delete % S
exists exists operator ck_exists is% S
rv2hv hash deref ck_rvconst dt1
helem hash elem ck_null s2@ H S
hslice hash slice ck_null m@ H L
# Explosives and implosives.
unpack unpack ck_fun @ S S
pack pack ck_fun mst@ S L
split split ck_split t@ S S S
join join ck_fun msT@ S L
# List operators.
list list ck_null m@ L
lslice list slice ck_null 2 H L L
anonlist anonymous list ck_fun ms@ L
anonhash anonymous hash ck_fun ms@ L
splice splice ck_fun m@ A S? S? L
push push ck_fun imsT@ A L
pop pop ck_shift s% A
shift shift ck_shift s% A
unshift unshift ck_fun imsT@ A L
sort sort ck_sort m@ C? L
reverse reverse ck_fun mt@ L
grepstart grep ck_grep dm@ C L
grepwhile grep iterator ck_null dt|
mapstart map ck_grep dm@ C L
mapwhile map iterator ck_null dt|
# Range stuff.
range flipflop ck_null | S S
flip range (or flip) ck_null 1 S S
flop range (or flop) ck_null 1
# Control.
and logical and ck_null |
or logical or ck_null |
xor logical xor ck_null fs| S S
cond_expr conditional expression ck_null d|
andassign logical and assignment ck_null s|
orassign logical or assignment ck_null s|
method method lookup ck_null d1
entersub subroutine entry ck_subr dmt1 L
leavesub subroutine exit ck_null 1
caller caller ck_fun t% S?
warn warn ck_fun imst@ L
die die ck_fun dimst@ L
reset reset ck_fun is% S?
lineseq line sequence ck_null @
nextstate next statement ck_null s;
dbstate debug next statement ck_null s;
unstack iteration finalizer ck_null s0
enter block entry ck_null 0
leave block exit ck_null @
scope block ck_null @
enteriter foreach loop entry ck_null d{
iter foreach loop iterator ck_null 0
enterloop loop entry ck_null d{
leaveloop loop exit ck_null 2
return return ck_null dm@ L
last last ck_null ds}
next next ck_null ds}
redo redo ck_null ds}
dump dump ck_null ds}
goto goto ck_null ds}
exit exit ck_fun ds% S?
#nswitch numeric switch ck_null d
#cswitch character switch ck_null d
# I/O.
open open ck_fun ist@ F S?
close close ck_fun is% F?
pipe_op pipe ck_fun is@ F F
fileno fileno ck_fun ist% F
umask umask ck_fun ist% S?
binmode binmode ck_fun s% F
tie tie ck_fun idms@ R S L
untie untie ck_fun is% R
tied tied ck_fun s% R
dbmopen dbmopen ck_fun is@ H S S
dbmclose dbmclose ck_fun is% H
sselect select system call ck_select t@ S S S S
select select ck_select st@ F?
getc getc ck_eof st% F?
read read ck_fun imst@ F R S S?
enterwrite write ck_fun dis% F?
leavewrite write exit ck_null 1
prtf printf ck_listiob ims@ F? L
print print ck_listiob ims@ F? L
sysopen sysopen ck_fun s@ F S S S?
sysseek sysseek ck_fun s@ F S S
sysread sysread ck_fun imst@ F R S S?
syswrite syswrite ck_fun imst@ F S S? S?
send send ck_fun imst@ F S S S?
recv recv ck_fun imst@ F R S S
eof eof ck_eof is% F?
tell tell ck_fun st% F?
seek seek ck_fun s@ F S S
# truncate really behaves as if it had both "S S" and "F S"
truncate truncate ck_trunc is@ S S
fcntl fcntl ck_fun st@ F S S
ioctl ioctl ck_fun st@ F S S
flock flock ck_fun isT@ F S
# Sockets.
socket socket ck_fun is@ F S S S
sockpair socketpair ck_fun is@ F F S S S
bind bind ck_fun is@ F S
connect connect ck_fun is@ F S
listen listen ck_fun is@ F S
accept accept ck_fun ist@ F F
shutdown shutdown ck_fun ist@ F S
gsockopt getsockopt ck_fun is@ F S S
ssockopt setsockopt ck_fun is@ F S S S
getsockname getsockname ck_fun is% F
getpeername getpeername ck_fun is% F
# Stat calls.
lstat lstat ck_ftst u- F
stat stat ck_ftst u- F
ftrread -R ck_ftst isu- F
ftrwrite -W ck_ftst isu- F
ftrexec -X ck_ftst isu- F
fteread -r ck_ftst isu- F
ftewrite -w ck_ftst isu- F
fteexec -x ck_ftst isu- F
ftis -e ck_ftst isu- F
fteowned -O ck_ftst isu- F
ftrowned -o ck_ftst isu- F
ftzero -z ck_ftst isu- F
ftsize -s ck_ftst istu- F
ftmtime -M ck_ftst stu- F
ftatime -A ck_ftst stu- F
ftctime -C ck_ftst stu- F
ftsock -S ck_ftst isu- F
ftchr -c ck_ftst isu- F
ftblk -b ck_ftst isu- F
ftfile -f ck_ftst isu- F
ftdir -d ck_ftst isu- F
ftpipe -p ck_ftst isu- F
ftlink -l ck_ftst isu- F
ftsuid -u ck_ftst isu- F
ftsgid -g ck_ftst isu- F
ftsvtx -k ck_ftst isu- F
fttty -t ck_ftst is- F
fttext -T ck_ftst isu- F
ftbinary -B ck_ftst isu- F
# File calls.
chdir chdir ck_fun isT% S?
chown chown ck_fun imsT@ L
chroot chroot ck_fun isTu% S?
unlink unlink ck_fun imsTu@ L
chmod chmod ck_fun imsT@ L
utime utime ck_fun imsT@ L
rename rename ck_fun isT@ S S
link link ck_fun isT@ S S
symlink symlink ck_fun isT@ S S
readlink readlink ck_fun stu% S?
mkdir mkdir ck_fun isT@ S S
rmdir rmdir ck_fun isTu% S?
# Directory calls.
open_dir opendir ck_fun is@ F S
readdir readdir ck_fun % F
telldir telldir ck_fun st% F
seekdir seekdir ck_fun s@ F S
rewinddir rewinddir ck_fun s% F
closedir closedir ck_fun is% F
# Process control.
fork fork ck_null ist0
wait wait ck_null isT0
waitpid waitpid ck_fun isT@ S S
system system ck_exec imsT@ S? L
exec exec ck_exec dimsT@ S? L
kill kill ck_fun dimsT@ L
getppid getppid ck_null isT0
getpgrp getpgrp ck_fun isT% S?
setpgrp setpgrp ck_fun isT@ S? S?
getpriority getpriority ck_fun isT@ S S
setpriority setpriority ck_fun isT@ S S S
# Time calls.
time time ck_null isT0
tms times ck_null 0
localtime localtime ck_fun t% S?
gmtime gmtime ck_fun t% S?
alarm alarm ck_fun istu% S?
sleep sleep ck_fun isT% S?
# Shared memory.
shmget shmget ck_fun imst@ S S S
shmctl shmctl ck_fun imst@ S S S
shmread shmread ck_fun imst@ S S S S
shmwrite shmwrite ck_fun imst@ S S S S
# Message passing.
msgget msgget ck_fun imst@ S S
msgctl msgctl ck_fun imst@ S S S
msgsnd msgsnd ck_fun imst@ S S S
msgrcv msgrcv ck_fun imst@ S S S S S
# Semaphores.
semget semget ck_fun imst@ S S S
semctl semctl ck_fun imst@ S S S S
semop semop ck_fun imst@ S S
# Eval.
require require ck_require du% S?
dofile do 'file' ck_fun d1 S
entereval eval string ck_eval d% S
leaveeval eval exit ck_null 1 S
#evalonce eval constant string ck_null d1 S
entertry eval block ck_null |
leavetry eval block exit ck_null @
# Get system info.
ghbyname gethostbyname ck_fun % S
ghbyaddr gethostbyaddr ck_fun @ S S
ghostent gethostent ck_null 0
gnbyname getnetbyname ck_fun % S
gnbyaddr getnetbyaddr ck_fun @ S S
gnetent getnetent ck_null 0
gpbyname getprotobyname ck_fun % S
gpbynumber getprotobynumber ck_fun @ S
gprotoent getprotoent ck_null 0
gsbyname getservbyname ck_fun @ S S
gsbyport getservbyport ck_fun @ S S
gservent getservent ck_null 0
shostent sethostent ck_fun is% S
snetent setnetent ck_fun is% S
sprotoent setprotoent ck_fun is% S
sservent setservent ck_fun is% S
ehostent endhostent ck_null is0
enetent endnetent ck_null is0
eprotoent endprotoent ck_null is0
eservent endservent ck_null is0
gpwnam getpwnam ck_fun % S
gpwuid getpwuid ck_fun % S
gpwent getpwent ck_null 0
spwent setpwent ck_null is0
epwent endpwent ck_null is0
ggrnam getgrnam ck_fun % S
ggrgid getgrgid ck_fun % S
ggrent getgrent ck_null 0
sgrent setgrent ck_null is0
egrent endgrent ck_null is0
getlogin getlogin ck_null st0
# Miscellaneous.
syscall syscall ck_fun imst@ S L
# For multi-threading
lock lock ck_rfun s% S
threadsv per-thread variable ck_null ds0
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