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https://github.com/netwide-assembler/nasm.git
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3fe5b3f5a1
Some preprocessor functions have the same name as directives. In those cases, they should be expanded as functions if and only if they are followed by a left parenthesis. Although it is not inherently true that either preprocessor functions require a paren nor that directives cannot start with one, but it is true and will remain true for all cases where there is a namespace collision. Signed-off-by: H. Peter Anvin <hpa@zytor.com>
354 lines
10 KiB
Perl
Executable File
354 lines
10 KiB
Perl
Executable File
#!/usr/bin/perl
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## --------------------------------------------------------------------------
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##
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## Copyright 1996-2022 The NASM Authors - All Rights Reserved
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## See the file AUTHORS included with the NASM distribution for
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## the specific copyright holders.
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##
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## Redistribution and use in source and binary forms, with or without
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## modification, are permitted provided that the following
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## conditions are met:
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##
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## * Redistributions of source code must retain the above copyright
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## notice, this list of conditions and the following disclaimer.
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## * Redistributions in binary form must reproduce the above
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## copyright notice, this list of conditions and the following
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## disclaimer in the documentation and/or other materials provided
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## with the distribution.
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##
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## THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
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## CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
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## INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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## MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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## DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
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## CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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## SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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## NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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## LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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## HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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## CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
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## OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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## EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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##
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## --------------------------------------------------------------------------
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#
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# Produce pptok.c, pptok.h and pptok.ph from pptok.dat
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#
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require 'phash.ph';
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my($what, $in, $out) = @ARGV;
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#
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# Read pptok.dat
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#
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open(IN, '<', $in) or die "$0: cannot open: $in\n";
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while (defined($line = <IN>)) {
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$line =~ s/\r?\n$//; # Remove trailing \r\n or \n
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$line =~ s/^\s+//; # Remove leading whitespace
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$line =~ s/\s*\#.*$//; # Remove comments and trailing whitespace
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next if ($line eq '');
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if ($line =~ /^\%(.*)\*$/) {
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# Condition stem
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push(@cctok, $1);
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} elsif ($line =~ /^\%(.*\!.*)$/) {
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# Directive with case insensitity "i" option
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# Mnemonic: ! is "upside down i"
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push(@ppitok, $1);
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} elsif ($line =~ /^\%(.*)$/) {
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# Other directive
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push(@pptok, $1);
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} elsif ($line =~ /^\*(.*)$/) {
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# Condition tail
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push(@cond, $1);
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} elsif ($line =~ /^\@(.*)$/) {
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# TASM compatibility directive
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push(@tasm, $1);
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}
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}
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close(IN);
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# Always sort %if first
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@cctok = sort { $a eq 'if' ? -1 : $b eq 'if' ? 1 : $a cmp $b } @cctok;
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@cond = sort @cond;
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@pptok = sort @pptok;
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@ppitok = sort @ppitok;
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@tasm = sort @tasm;
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# Generate the expanded list including conditionals. The conditionals
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# are at the beginning, padded to a power of 2, with the inverses
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# following each group; this allows a simple mask to pick out the condition,
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# polarity, and directive type.
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while ((scalar @cond) & (scalar @cond)-1) {
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push(@cond, sprintf("_COND_%d", scalar @cond));
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}
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@cptok = ();
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foreach $ct (@cctok) {
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foreach $cc (@cond) {
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push(@cptok, $ct.$cc);
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}
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foreach $cc (@cond) {
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push(@cptok, $ct.'n'.$cc);
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}
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}
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$first_uncond = scalar @cptok;
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@pptok = (@cptok, @pptok);
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# Generate the list of case-specific tokens; these are in pairs
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# with the -i- variant following the plain variant
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if (scalar(@pptok) & 1) {
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push(@pptok, 'CASE_PAD');
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}
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$first_itoken = scalar @pptok;
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foreach $it (@ppitok) {
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(my $at = $it) =~ s/\!//;
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(my $bt = $it) =~ s/\!/i/;
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push(@pptok, $at, $bt);
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}
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open(OUT, '>', $out) or die "$0: cannot open: $out\n";
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#
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# Output pptok.h
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#
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if ($what eq 'h') {
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print OUT "/* Automatically generated from $in by $0 */\n";
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print OUT "/* Do not edit */\n";
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print OUT "\n";
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print OUT "enum preproc_token {\n";
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$n = 0;
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my $maxlen = 0;
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foreach $pt (@pptok) {
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if (defined($pt)) {
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printf OUT " %-24s = %3d,\n", "PP_\U$pt\E", $n;
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$maxlen = length($pt) if (length($pt) > $maxlen);
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}
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$n++;
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}
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printf OUT " %-24s = %3d,\n", 'PP_count', $n;
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printf OUT " %-24s = %3d\n", 'PP_invalid', -1;
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print OUT "};\n";
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print OUT "\n";
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printf OUT "#define PP_COND(x) ((x) & 0x%x)\n",
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(scalar(@cond)-1);
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printf OUT "#define PP_IS_COND(x) ((unsigned int)(x) < PP_%s)\n",
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uc($pptok[$first_uncond]);
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printf OUT "#define PP_COND_NEGATIVE(x) (!!((x) & 0x%x))\n", scalar(@cond);
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print OUT "\n";
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printf OUT "#define PP_HAS_CASE(x) ((x) >= PP_%s)\n",
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uc($pptok[$first_itoken]);
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print OUT "#define PP_INSENSITIVE(x) ((x) & 1)\n";
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# The +1 here is for the initial % sign
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printf OUT "#define PP_TOKLEN_MAX %d\n", $maxlen+1;
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print OUT "\n";
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foreach $ct (@cctok) {
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print OUT "#define CASE_PP_\U$ct\E";
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$pref = " \\\n";
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foreach $cc (@cond) {
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print OUT "$pref\tcase PP_\U${ct}${cc}\E";
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$pref = ":\\\n";
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}
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foreach $cc (@cond) {
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print OUT "$pref\tcase PP_\U${ct}N${cc}\E";
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$pref = ":\\\n";
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}
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print OUT "\n"; # No colon or newline on the last one
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}
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}
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#
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# Output pptok.c
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#
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if ($what eq 'c') {
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print OUT "/* Automatically generated from $in by $0 */\n";
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print OUT "/* Do not edit */\n";
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print OUT "\n";
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print OUT "#include \"compiler.h\"\n";
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print OUT "#include \"nctype.h\"\n";
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print OUT "#include \"nasmlib.h\"\n";
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print OUT "#include \"hashtbl.h\"\n";
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print OUT "#include \"preproc.h\"\n";
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print OUT "\n";
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# Note that this is global.
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printf OUT "const char * const pp_directives[%d] = {\n", scalar(@pptok);
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foreach $d (@pptok) {
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if (defined($d) && $d !~ /[A-Z]/) {
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print OUT " \"%$d\",\n";
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} else {
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print OUT " NULL,\n";
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}
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}
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print OUT "};\n";
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printf OUT "const uint8_t pp_directives_len[%d] = {\n", scalar(@pptok);
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foreach $d (@pptok) {
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printf OUT " %d,\n", defined($d) ? length($d)+1 : 0;
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}
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print OUT "};\n";
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# Put a large value in unused hash slots. This makes it extremely
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# unlikely that any combination that involves unused slot will
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# pass the range test. This speeds up rejection of unrecognized
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# tokens, i.e. identifiers.
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print OUT "\n#define INVALID_HASH_ENTRY (65535/3)\n";
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my %tokens = ();
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my @tokendata = ();
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my $n = 0;
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foreach $pt (@pptok) {
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# Upper case characters signify internal use tokens only
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if (defined($pt) && $pt !~ /[A-Z]/) {
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$tokens{'%'.$pt} = $n;
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if ($pt =~ /[\@\[\]\\_]/) {
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# Fail on characters which look like upper-case letters
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# to the quick-and-dirty downcasing in the prehash
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# (see below)
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die "$in: invalid character in token: $pt";
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}
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}
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$n++;
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}
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my @hashinfo = gen_perfect_hash(\%tokens);
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if (!@hashinfo) {
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die "$0: no hash found\n";
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}
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# Paranoia...
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verify_hash_table(\%tokens, \@hashinfo);
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($n, $sv, $g) = @hashinfo;
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die if ($n & ($n-1));
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$n <<= 1;
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print OUT "\n\n/* Primary preprocessor token hash */\n\n";
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print OUT "enum preproc_token pp_token_hash(const char *token)\n";
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print OUT "{\n";
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print OUT " static const int16_t hashdata[$n] = {\n";
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for ($i = 0; $i < $n; $i++) {
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my $h = ${$g}[$i];
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print OUT " ", defined($h) ? $h : 'INVALID_HASH_ENTRY', ",\n";
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}
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print OUT " };\n";
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print OUT " uint32_t k1, k2;\n";
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print OUT " uint64_t crc;\n";
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# For correct overflow behavior, "ix" should be unsigned of the same
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# width as the hash arrays.
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print OUT " uint16_t ix;\n";
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print OUT "\n";
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printf OUT " crc = crc64i(UINT64_C(0x%08x%08x), token);\n",
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$$sv[0], $$sv[1];
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printf OUT " k1 = ((uint32_t)crc & 0x%x) + 0;\n", $n-2;
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printf OUT " k2 = ((uint32_t)(crc >> 32) & 0x%x) + 1;\n", $n-2;
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print OUT "\n";
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print OUT " ix = hashdata[k1] + hashdata[k2];\n";
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printf OUT " if (ix >= %d)\n", scalar(@pptok);
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print OUT " return PP_invalid;\n";
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print OUT "\n";
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print OUT " if (!pp_directives[ix] || nasm_stricmp(pp_directives[ix], token))\n";
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print OUT " return PP_invalid;\n";
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print OUT "\n";
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print OUT " return ix;\n";
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print OUT "}\n";
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my %tasmtokens = ();
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foreach $pt (@tasm) {
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# TASM compatibility token
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$nasmt = '%'.$pt;
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if (!defined($tokens{$nasmt})) {
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die "$in: TASM compat token $pt does not have a ".
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"corresponding $nasmt\n";
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}
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$tasmtokens{$pt} = $tokens{$nasmt};
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}
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@hashinfo = gen_perfect_hash(\%tasmtokens);
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if (!@hashinfo) {
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die "$0: no hash found\n";
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}
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# Paranoia...
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verify_hash_table(\%tasmtokens, \@hashinfo);
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($n, $sv, $g) = @hashinfo;
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die if ($n & ($n-1));
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$n <<= 1;
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print OUT "\n\n/* TASM compatibility preprocessor token hash */\n";
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print OUT "enum preproc_token pp_tasm_token_hash(const char *token)\n";
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print OUT "{\n";
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print OUT " static const int16_t hashdata[$n] = {\n";
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for ($i = 0; $i < $n; $i++) {
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my $h = ${$g}[$i];
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print OUT " ", defined($h) ? $h : 'INVALID_HASH_ENTRY', ",\n";
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}
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print OUT " };\n";
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print OUT " uint32_t k1, k2;\n";
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print OUT " uint64_t crc;\n";
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# For correct overflow behavior, "ix" should be unsigned of the same
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# width as the hash arrays.
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print OUT " uint16_t ix;\n";
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print OUT "\n";
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printf OUT " crc = crc64i(UINT64_C(0x%08x%08x), token);\n",
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$$sv[0], $$sv[1];
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printf OUT " k1 = ((uint32_t)crc & 0x%x) + 0;\n", $n-2;
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printf OUT " k2 = ((uint32_t)(crc >> 32) & 0x%x) + 1;\n", $n-2;
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print OUT "\n";
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printf OUT " ix = hashdata[k1] + hashdata[k2];\n", $n-1, $n-1;
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# Comparing to pptok here is correct, because this hash produces
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# an enum preproc_token value directly.
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printf OUT " if (ix >= %d)\n", scalar(@pptok);
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print OUT " return PP_invalid;\n";
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print OUT "\n";
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print OUT " if (!pp_directives[ix] || nasm_stricmp(pp_directives[ix]+1, token))\n";
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print OUT " return PP_invalid;\n";
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print OUT "\n";
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print OUT " return ix;\n";
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print OUT "}\n";
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}
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#
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# Output pptok.ph
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#
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if ($what eq 'ph') {
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print OUT "# Automatically generated from $in by $0\n";
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print OUT "# Do not edit\n";
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print OUT "\n\%pptok_hash = (\n";
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$n = 0;
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foreach $tok (@pptok) {
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if (defined($tok)) {
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printf OUT " '%%%s' => %d,\n", $tok, $n;
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}
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$n++;
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}
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print OUT ");\n";
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print OUT "\n\@pptok_list = (\n";
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foreach $tok (@pptok) {
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print OUT " ", (defined($tok) ? "'\%$tok'" : 'undef'), ",\n";
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}
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print OUT ");\n";
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print OUT "\n1;\n";
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}
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