#!/usr/bin/perl -w # # Regenerate (overwriting only if changed): # # embed.h # embedvar.h # perlapi.c # perlapi.h # proto.h # # from information stored in # # embed.fnc # intrpvar.h # perlvars.h # regen/opcodes # # Accepts the standard regen_lib -q and -v args. # # This script is normally invoked from regen.pl. require 5.004; # keep this compatible, an old perl is all we may have before # we build the new one use strict; BEGIN { # Get function prototypes require 'regen/regen_lib.pl'; require 'regen/embed_lib.pl'; } my $SPLINT = 0; # Turn true for experimental splint support http://www.splint.org my $unflagged_pointers; # # See database of global and static function prototypes in embed.fnc # This is used to generate prototype headers under various configurations, # export symbols lists for different platforms, and macros to provide an # implicit interpreter context argument. # sub full_name ($$) { # Returns the function name with potentially the # prefixes 'S_' or 'Perl_' my ($func, $flags) = @_; return "S_$func" if $flags =~ /[si]/; return "Perl_$func" if $flags =~ /[bp]/; return $func; } sub open_print_header { my ($file, $quote) = @_; return open_new($file, '>', { file => $file, style => '*', by => 'regen/embed.pl', from => ['data in embed.fnc', 'regen/embed.pl', 'regen/opcodes', 'intrpvar.h', 'perlvars.h'], final => "\nEdit those files and run 'make regen_headers' to effect changes.\n", copyright => [1993 .. 2009], quote => $quote }); } my ($embed, $core, $ext, $api) = setup_embed(); # generate proto.h { my $pr = open_print_header("proto.h"); print $pr "START_EXTERN_C\n"; my $ret; foreach (@$embed) { if (@$_ == 1) { print $pr "$_->[0]\n"; next; } my ($flags,$retval,$plain_func,@args) = @$_; my @nonnull; my $has_context = ( $flags !~ /n/ ); my $never_returns = ( $flags =~ /r/ ); my $commented_out = ( $flags =~ /m/ ); my $binarycompat = ( $flags =~ /b/ ); my $is_malloc = ( $flags =~ /a/ ); my $can_ignore = ( $flags !~ /R/ ) && !$is_malloc; my @names_of_nn; my $func; if (! $can_ignore && $retval eq 'void') { warn "It is nonsensical to require the return value of a void function ($plain_func) to be checked"; } my $scope_type_flag_count = 0; $scope_type_flag_count++ if $flags =~ /s/; $scope_type_flag_count++ if $flags =~ /i/; $scope_type_flag_count++ if $flags =~ /p/; warn "$plain_func: i, p, and s flags are all mutually exclusive" if $scope_type_flag_count > 1; my $splint_flags = ""; if ( $SPLINT && !$commented_out ) { $splint_flags .= '/*@noreturn@*/ ' if $never_returns; if ($can_ignore && ($retval ne 'void') && ($retval !~ /\*/)) { $retval .= " /*\@alt void\@*/"; } } if ($flags =~ /([si])/) { my $type; if ($never_returns) { $type = $1 eq 's' ? "PERL_STATIC_NO_RET" : "PERL_STATIC_INLINE_NO_RET"; } else { $type = $1 eq 's' ? "STATIC" : "PERL_STATIC_INLINE"; } $retval = "$type $splint_flags$retval"; } else { if ($never_returns) { $retval = "PERL_CALLCONV_NO_RET $splint_flags$retval"; } else { $retval = "PERL_CALLCONV $splint_flags$retval"; } } $func = full_name($plain_func, $flags); $ret = "$retval\t$func("; if ( $has_context ) { $ret .= @args ? "pTHX_ " : "pTHX"; } if (@args) { my $n; for my $arg ( @args ) { ++$n; if ( $arg =~ /\*/ && $arg !~ /\b(NN|NULLOK)\b/ ) { warn "$func: $arg needs NN or NULLOK\n"; ++$unflagged_pointers; } my $nn = ( $arg =~ s/\s*\bNN\b\s+// ); push( @nonnull, $n ) if $nn; my $nullok = ( $arg =~ s/\s*\bNULLOK\b\s+// ); # strip NULLOK with no effect # Make sure each arg has at least a type and a var name. # An arg of "int" is valid C, but want it to be "int foo". my $temp_arg = $arg; $temp_arg =~ s/\*//g; $temp_arg =~ s/\s*\bstruct\b\s*/ /g; if ( ($temp_arg ne "...") && ($temp_arg !~ /\w+\s+(\w+)(?:\[\d+\])?\s*$/) ) { warn "$func: $arg ($n) doesn't have a name\n"; } if ( $SPLINT && $nullok && !$commented_out ) { $arg = '/*@null@*/ ' . $arg; } if (defined $1 && $nn && !($commented_out && !$binarycompat)) { push @names_of_nn, $1; } } $ret .= join ", ", @args; } else { $ret .= "void" if !$has_context; } $ret .= ")"; my @attrs; if ( $flags =~ /r/ ) { push @attrs, "__attribute__noreturn__"; } if ( $flags =~ /D/ ) { push @attrs, "__attribute__deprecated__"; } if ( $is_malloc ) { push @attrs, "__attribute__malloc__"; } if ( !$can_ignore ) { push @attrs, "__attribute__warn_unused_result__"; } if ( $flags =~ /P/ ) { push @attrs, "__attribute__pure__"; } if( $flags =~ /f/ ) { my $prefix = $has_context ? 'pTHX_' : ''; my ($args, $pat); if ($args[-1] eq '...') { $args = scalar @args; $pat = $args - 1; $args = $prefix . $args; } else { # don't check args, and guess which arg is the pattern # (one of 'fmt', 'pat', 'f'), $args = 0; my @fmts = grep $args[$_] =~ /\b(f|pat|fmt)$/, 0..$#args; if (@fmts != 1) { die "embed.pl: '$plain_func': can't determine pattern arg\n"; } $pat = $fmts[0] + 1; } my $macro = grep($_ == $pat, @nonnull) ? '__attribute__format__' : '__attribute__format__null_ok__'; if ($plain_func =~ /strftime/) { push @attrs, sprintf "%s(__strftime__,%s1,0)", $macro, $prefix; } else { push @attrs, sprintf "%s(__printf__,%s%d,%s)", $macro, $prefix, $pat, $args; } } if ( @nonnull ) { my @pos = map { $has_context ? "pTHX_$_" : $_ } @nonnull; push @attrs, map { sprintf( "__attribute__nonnull__(%s)", $_ ) } @pos; } if ( @attrs ) { $ret .= "\n"; $ret .= join( "\n", map { "\t\t\t$_" } @attrs ); } $ret .= ";"; $ret = "/* $ret */" if $commented_out; if (@names_of_nn) { $ret .= "\n#define PERL_ARGS_ASSERT_\U$plain_func\E\t\\\n\t" . join '; ', map "assert($_)", @names_of_nn; } $ret .= @attrs ? "\n\n" : "\n"; print $pr $ret; } print $pr <<'EOF'; #ifdef PERL_CORE # include "pp_proto.h" #endif END_EXTERN_C EOF read_only_bottom_close_and_rename($pr); } warn "$unflagged_pointers pointer arguments to clean up\n" if $unflagged_pointers; sub readvars { my ($file, $pre) = @_; local (*FILE, $_); my %seen; open(FILE, "< $file") or die "embed.pl: Can't open $file: $!\n"; while () { s/[ \t]*#.*//; # Delete comments. if (/PERLVARA?I?C?\($pre,\s*(\w+)/) { warn "duplicate symbol $1 while processing $file line $.\n" if $seen{$1}++; } } close(FILE); return sort keys %seen; } my @intrp = readvars 'intrpvar.h','I'; my @globvar = readvars 'perlvars.h','G'; sub hide { my ($from, $to, $indent) = @_; $indent = '' unless defined $indent; my $t = int(length("$indent$from") / 8); "#${indent}define $from" . "\t" x ($t < 3 ? 3 - $t : 1) . "$to\n"; } sub multon ($$$) { my ($sym,$pre,$ptr) = @_; hide("PL_$sym", "($ptr$pre$sym)"); } my $em = open_print_header('embed.h'); print $em <<'END'; /* (Doing namespace management portably in C is really gross.) */ /* By defining PERL_NO_SHORT_NAMES (not done by default) the short forms * (like warn instead of Perl_warn) for the API are not defined. * Not defining the short forms is a good thing for cleaner embedding. */ #ifndef PERL_NO_SHORT_NAMES /* Hide global symbols */ END my @az = ('a'..'z'); sub embed_h { my ($guard, $funcs) = @_; print $em "$guard\n" if $guard; my $lines; foreach (@$funcs) { if (@$_ == 1) { my $cond = $_->[0]; # Indent the conditionals if we are wrapped in an #if/#endif pair. $cond =~ s/#(.*)/# $1/ if $guard; $lines .= "$cond\n"; next; } my $ret = ""; my ($flags,$retval,$func,@args) = @$_; unless ($flags =~ /[om]/) { my $args = scalar @args; if ($flags =~ /n/) { $ret = hide($func, full_name($func, $flags)); } elsif ($args and $args[$args-1] =~ /\.\.\./) { if ($flags =~ /p/) { # we're out of luck for varargs functions under CPP # So we can only do these macros for no implicit context: $ret = "#ifndef PERL_IMPLICIT_CONTEXT\n" . hide($func, full_name($func, $flags)) . "#endif\n"; } } else { my $alist = join(",", @az[0..$args-1]); $ret = "#define $func($alist)"; my $t = int(length($ret) / 8); $ret .= "\t" x ($t < 4 ? 4 - $t : 1); $ret .= full_name($func, $flags) . "(aTHX"; $ret .= "_ " if $alist; $ret .= $alist . ")\n"; } } $lines .= $ret; } # Prune empty #if/#endif pairs. while ($lines =~ s/#\s*if[^\n]+\n#\s*endif\n//) { } # Merge adjacent blocks. while ($lines =~ s/(#ifndef PERL_IMPLICIT_CONTEXT [^\n]+ )#endif #ifndef PERL_IMPLICIT_CONTEXT /$1/) { } print $em $lines; print $em "#endif\n" if $guard; } embed_h('', $api); embed_h('#if defined(PERL_CORE) || defined(PERL_EXT)', $ext); embed_h('#ifdef PERL_CORE', $core); print $em <<'END'; #endif /* #ifndef PERL_NO_SHORT_NAMES */ /* Compatibility stubs. Compile extensions with -DPERL_NOCOMPAT to disable them. */ #if !defined(PERL_CORE) # define sv_setptrobj(rv,ptr,name) sv_setref_iv(rv,name,PTR2IV(ptr)) # define sv_setptrref(rv,ptr) sv_setref_iv(rv,NULL,PTR2IV(ptr)) #endif #if !defined(PERL_CORE) && !defined(PERL_NOCOMPAT) /* Compatibility for various misnamed functions. All functions in the API that begin with "perl_" (not "Perl_") take an explicit interpreter context pointer. The following are not like that, but since they had a "perl_" prefix in previous versions, we provide compatibility macros. */ # define perl_atexit(a,b) call_atexit(a,b) END foreach (@$embed) { my ($flags, $retval, $func, @args) = @$_; next unless $func; next unless $flags =~ /O/; my $alist = join ",", @az[0..$#args]; my $ret = "# define perl_$func($alist)"; my $t = (length $ret) >> 3; $ret .= "\t" x ($t < 5 ? 5 - $t : 1); print $em "$ret$func($alist)\n"; } my @nocontext; { my (%has_va, %has_nocontext); foreach (@$embed) { next unless @$_ > 1; ++$has_va{$_->[2]} if $_->[-1] =~ /\.\.\./; ++$has_nocontext{$1} if $_->[2] =~ /(.*)_nocontext/; } @nocontext = sort grep { $has_nocontext{$_} && !/printf/ # Not clear to me why these are skipped but they are. } keys %has_va; } print $em <<'END'; /* varargs functions can't be handled with CPP macros. :-( This provides a set of compatibility functions that don't take an extra argument but grab the context pointer using the macro dTHX. */ #if defined(PERL_IMPLICIT_CONTEXT) && !defined(PERL_NO_SHORT_NAMES) END foreach (@nocontext) { print $em hide($_, "Perl_${_}_nocontext", " "); } print $em <<'END'; #endif #endif /* !defined(PERL_CORE) && !defined(PERL_NOCOMPAT) */ #if !defined(PERL_IMPLICIT_CONTEXT) /* undefined symbols, point them back at the usual ones */ END foreach (@nocontext) { print $em hide("Perl_${_}_nocontext", "Perl_$_", " "); } print $em <<'END'; #endif END read_only_bottom_close_and_rename($em); $em = open_print_header('embedvar.h'); print $em <<'END'; /* (Doing namespace management portably in C is really gross.) */ /* The following combinations of MULTIPLICITY and PERL_IMPLICIT_CONTEXT are supported: 1) none 2) MULTIPLICITY # supported for compatibility 3) MULTIPLICITY && PERL_IMPLICIT_CONTEXT All other combinations of these flags are errors. only #3 is supported directly, while #2 is a special case of #3 (supported by redefining vTHX appropriately). */ #if defined(MULTIPLICITY) /* cases 2 and 3 above */ # if defined(PERL_IMPLICIT_CONTEXT) # define vTHX aTHX # else # define vTHX PERL_GET_INTERP # endif END my $sym; for $sym (@intrp) { if ($sym eq 'sawampersand') { print $em "#ifndef PL_sawampersand\n"; } print $em multon($sym,'I','vTHX->'); if ($sym eq 'sawampersand') { print $em "#endif\n"; } } print $em <<'END'; #endif /* MULTIPLICITY */ #if defined(PERL_GLOBAL_STRUCT) END for $sym (@globvar) { print $em "#ifdef OS2\n" if $sym eq 'sh_path'; print $em multon($sym, 'G','my_vars->'); print $em multon("G$sym",'', 'my_vars->'); print $em "#endif\n" if $sym eq 'sh_path'; } print $em <<'END'; #endif /* PERL_GLOBAL_STRUCT */ END read_only_bottom_close_and_rename($em); my $capih = open_print_header('perlapi.h'); print $capih <<'EOT'; /* declare accessor functions for Perl variables */ #ifndef __perlapi_h__ #define __perlapi_h__ #if defined (MULTIPLICITY) && defined (PERL_GLOBAL_STRUCT) START_EXTERN_C #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC #define PERLVAR(p,v,t) EXTERN_C t* Perl_##p##v##_ptr(pTHX); #define PERLVARA(p,v,n,t) typedef t PL_##v##_t[n]; \ EXTERN_C PL_##v##_t* Perl_##p##v##_ptr(pTHX); #define PERLVARI(p,v,t,i) PERLVAR(p,v,t) #define PERLVARIC(p,v,t,i) PERLVAR(p,v, const t) #include "perlvars.h" #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC END_EXTERN_C #if defined(PERL_CORE) /* accessor functions for Perl "global" variables */ /* these need to be mentioned here, or most linkers won't put them in the perl executable */ #ifndef PERL_NO_FORCE_LINK START_EXTERN_C #ifndef DOINIT EXTCONST void * const PL_force_link_funcs[]; #else EXTCONST void * const PL_force_link_funcs[] = { #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC #define PERLVAR(p,v,t) (void*)Perl_##p##v##_ptr, #define PERLVARA(p,v,n,t) PERLVAR(p,v,t) #define PERLVARI(p,v,t,i) PERLVAR(p,v,t) #define PERLVARIC(p,v,t,i) PERLVAR(p,v,t) /* In Tru64 (__DEC && __osf__) the cc option -std1 causes that one * cannot cast between void pointers and function pointers without * info level warnings. The PL_force_link_funcs[] would cause a few * hundred of those warnings. In code one can circumnavigate this by using * unions that overlay the different pointers, but in declarations one * cannot use this trick. Therefore we just disable the warning here * for the duration of the PL_force_link_funcs[] declaration. */ #if defined(__DECC) && defined(__osf__) #pragma message save #pragma message disable (nonstandcast) #endif #include "perlvars.h" #if defined(__DECC) && defined(__osf__) #pragma message restore #endif #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC }; #endif /* DOINIT */ END_EXTERN_C #endif /* PERL_NO_FORCE_LINK */ #else /* !PERL_CORE */ EOT foreach $sym (@globvar) { print $capih "#undef PL_$sym\n" . hide("PL_$sym", "(*Perl_G${sym}_ptr(NULL))"); } print $capih <<'EOT'; #endif /* !PERL_CORE */ #endif /* MULTIPLICITY && PERL_GLOBAL_STRUCT */ #endif /* __perlapi_h__ */ EOT read_only_bottom_close_and_rename($capih); my $capi = open_print_header('perlapi.c', <<'EOQ'); * * * Up to the threshold of the door there mounted a flight of twenty-seven * broad stairs, hewn by some unknown art of the same black stone. This * was the only entrance to the tower; ... * * [p.577 of _The Lord of the Rings_, III/x: "The Voice of Saruman"] * */ EOQ print $capi <<'EOT'; #include "EXTERN.h" #include "perl.h" #include "perlapi.h" #if defined (MULTIPLICITY) && defined (PERL_GLOBAL_STRUCT) /* accessor functions for Perl "global" variables */ START_EXTERN_C #undef PERLVARI #define PERLVARI(p,v,t,i) PERLVAR(p,v,t) #undef PERLVAR #undef PERLVARA #define PERLVAR(p,v,t) t* Perl_##p##v##_ptr(pTHX) \ { dVAR; PERL_UNUSED_CONTEXT; return &(PL_##v); } #define PERLVARA(p,v,n,t) PL_##v##_t* Perl_##p##v##_ptr(pTHX) \ { dVAR; PERL_UNUSED_CONTEXT; return &(PL_##v); } #undef PERLVARIC #define PERLVARIC(p,v,t,i) \ const t* Perl_##p##v##_ptr(pTHX) \ { PERL_UNUSED_CONTEXT; return (const t *)&(PL_##v); } #include "perlvars.h" #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC END_EXTERN_C #endif /* MULTIPLICITY && PERL_GLOBAL_STRUCT */ EOT read_only_bottom_close_and_rename($capi); # ex: set ts=8 sts=4 sw=4 noet: