#! /usr/bin/perl -w # # Static Hashtable Generator # # (c) 2000-2002 by Harri Porten and # David Faure # Modified (c) 2004 by Nikolas Zimmermann # Copyright (C) 2007, 2008, 2009 Apple Inc. All rights reserved. # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library 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. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # use strict; my $file = $ARGV[0]; shift; my $includelookup = 0; # Use -i as second argument to make it include "Lookup.h" $includelookup = 1 if (defined($ARGV[0]) && $ARGV[0] eq "-i"); # Use -n as second argument to make it use the third argument as namespace parameter ie. -n KDOM my $useNameSpace = $ARGV[1] if (defined($ARGV[0]) && $ARGV[0] eq "-n"); print STDERR "Creating hashtable for $file\n"; open(IN, $file) or die "No such file $file"; my @keys = (); my @attrs = (); my @values = (); my @hashes = (); my @table = (); my @links = (); my $hasSetter = "false"; my $inside = 0; my $name; my $pefectHashSize; my $compactSize; my $compactHashSizeMask; my $banner = 0; sub calcPerfectHashSize(); sub calcCompactHashSize(); sub output(); sub jsc_ucfirst($); sub hashValue($); while () { chomp; s/^\s+//; next if /^\#|^$/; # Comment or blank line. Do nothing. if (/^\@begin/ && !$inside) { if (/^\@begin\s*([:_\w]+)\s*\d*\s*$/) { $inside = 1; $name = $1; } else { print STDERR "WARNING: \@begin without table name, skipping $_\n"; } } elsif (/^\@end\s*$/ && $inside) { calcPerfectHashSize(); calcCompactHashSize(); output(); @keys = (); @attrs = (); @values = (); @hashes = (); @table = (); @links = (); $inside = 0; } elsif (/^(\S+)\s*(\S+)\s*([\w\|]*)\s*(\w*)\s*$/ && $inside) { my $key = $1; my $val = $2; my $att = $3; my $param = $4; push(@keys, $key); push(@attrs, length($att) > 0 ? $att : "0"); if ($att =~ m/Function/) { push(@values, { "type" => "Function", "function" => $val, "params" => (length($param) ? $param : "") }); #printf STDERR "WARNING: Number of arguments missing for $key/$val\n" if (length($param) == 0); } elsif (length($att)) { my $get = $val; my $put = "0"; if (!($att =~ m/ReadOnly/)) { $put = "set" . jsc_ucfirst($val); } $hasSetter = "true"; push(@values, { "type" => "Property", "get" => $get, "put" => $put }); } else { push(@values, { "type" => "Lexer", "value" => $val }); } push(@hashes, hashValue($key)); } elsif ($inside) { die "invalid data {" . $_ . "}"; } } die "missing closing \@end" if ($inside); sub jsc_ucfirst($) { my ($value) = @_; if ($value =~ /js/) { $value =~ s/js/JS/; return $value; } return ucfirst($value); } sub ceilingToPowerOf2 { my ($pefectHashSize) = @_; my $powerOf2 = 1; while ($pefectHashSize > $powerOf2) { $powerOf2 <<= 1; } return $powerOf2; } sub calcPerfectHashSize() { tableSizeLoop: for ($pefectHashSize = ceilingToPowerOf2(scalar @keys); ; $pefectHashSize += $pefectHashSize) { my @table = (); foreach my $key (@keys) { my $h = hashValue($key) % $pefectHashSize; next tableSizeLoop if $table[$h]; $table[$h] = 1; } last; } } sub leftShift($$) { my ($value, $distance) = @_; return (($value << $distance) & 0xFFFFFFFF); } sub calcCompactHashSize() { my $compactHashSize = ceilingToPowerOf2(2 * @keys); $compactHashSizeMask = $compactHashSize - 1; $compactSize = $compactHashSize; my $collisions = 0; my $maxdepth = 0; my $i = 0; foreach my $key (@keys) { my $depth = 0; my $h = hashValue($key) % $compactHashSize; while (defined($table[$h])) { if (defined($links[$h])) { $h = $links[$h]; $depth++; } else { $collisions++; $links[$h] = $compactSize; $h = $compactSize; $compactSize++; } } $table[$h] = $i; $i++; $maxdepth = $depth if ( $depth > $maxdepth); } } # Paul Hsieh's SuperFastHash # http://www.azillionmonkeys.com/qed/hash.html sub hashValue($) { my @chars = split(/ */, $_[0]); # This hash is designed to work on 16-bit chunks at a time. But since the normal case # (above) is to hash UTF-16 characters, we just treat the 8-bit chars as if they # were 16-bit chunks, which should give matching results my $EXP2_32 = 4294967296; my $hash = 0x9e3779b9; my $l = scalar @chars; #I wish this was in Ruby --- Maks my $rem = $l & 1; $l = $l >> 1; my $s = 0; # Main loop for (; $l > 0; $l--) { $hash += ord($chars[$s]); my $tmp = leftShift(ord($chars[$s+1]), 11) ^ $hash; $hash = (leftShift($hash, 16)% $EXP2_32) ^ $tmp; $s += 2; $hash += $hash >> 11; $hash %= $EXP2_32; } # Handle end case if ($rem != 0) { $hash += ord($chars[$s]); $hash ^= (leftShift($hash, 11)% $EXP2_32); $hash += $hash >> 17; } # Force "avalanching" of final 127 bits $hash ^= leftShift($hash, 3); $hash += ($hash >> 5); $hash = ($hash% $EXP2_32); $hash ^= (leftShift($hash, 2)% $EXP2_32); $hash += ($hash >> 15); $hash = $hash% $EXP2_32; $hash ^= (leftShift($hash, 10)% $EXP2_32); # Save 8 bits for StringImpl to use as flags. $hash &= 0xffffff; # This avoids ever returning a hash code of 0, since that is used to # signal "hash not computed yet". Setting the high bit maintains # reasonable fidelity to a hash code of 0 because it is likely to yield # exactly 0 when hash lookup masks out the high bits. $hash = (0x80000000 >> 8) if ($hash == 0); return $hash; } sub output() { if (!$banner) { $banner = 1; print "// Automatically generated from $file using $0. DO NOT EDIT!\n"; } my $nameEntries = "${name}Values"; $nameEntries =~ s/:/_/g; my $nameIndex = "${name}Index"; $nameIndex =~ s/:/_/g; print "\n#include \"JSCBuiltins.h\"\n"; print "\n#include \"Lookup.h\"\n" if ($includelookup); if ($useNameSpace) { print "\nnamespace ${useNameSpace} {\n"; print "\nusing namespace JSC;\n"; } else { print "\nnamespace JSC {\n"; } print "\nstatic const struct CompactHashIndex ${nameIndex}\[$compactSize\] = {\n"; for (my $i = 0; $i < $compactSize; $i++) { my $T = -1; if (defined($table[$i])) { $T = $table[$i]; } my $L = -1; if (defined($links[$i])) { $L = $links[$i]; } print " { $T, $L },\n"; } print "};\n\n"; my $packedSize = scalar @keys; print "\nstatic const struct HashTableValue ${nameEntries}\[$packedSize\] = {\n"; my $i = 0; foreach my $key (@keys) { my $firstValue = ""; my $secondValue = ""; my $firstCastStr = ""; my $secondCastStr = ""; if ($values[$i]{"type"} eq "Function") { $firstCastStr = "static_cast"; $firstValue = $values[$i]{"function"}; $secondValue = $values[$i]{"params"}; } elsif ($values[$i]{"type"} eq "Property") { $firstCastStr = "static_cast"; $secondCastStr = "static_cast"; $firstValue = $values[$i]{"get"}; $secondValue = $values[$i]{"put"}; } elsif ($values[$i]{"type"} eq "Lexer") { $firstValue = $values[$i]{"value"}; $secondValue = "0"; } my $intrinsic = "NoIntrinsic"; $intrinsic = "FromCharCodeIntrinsic" if ($key eq "fromCharCode"); if ($name eq "arrayPrototypeTable") { $intrinsic = "ArrayPushIntrinsic" if ($key eq "push"); $intrinsic = "ArrayPopIntrinsic" if ($key eq "pop"); } if ($name eq "regExpPrototypeTable") { $intrinsic = "RegExpExecIntrinsic" if ($key eq "exec"); $intrinsic = "RegExpTestIntrinsic" if ($key eq "test"); } if ($values[$i]{"type"} eq "Function") { my $tableHead = $name; $tableHead =~ s/Table$//; print " #if JSC_BUILTIN_EXISTS(" . uc($tableHead . $key) .")\n"; print " { \"$key\", (($attrs[$i]) & ~Function) | Builtin, $intrinsic, (intptr_t)static_cast(" . $tableHead . ucfirst($key) . "CodeGenerator), (intptr_t)$secondValue },\n"; print " #else\n" } print " { \"$key\", $attrs[$i], $intrinsic, (intptr_t)" . $firstCastStr . "($firstValue), (intptr_t)" . $secondCastStr . "($secondValue) },\n"; if ($values[$i]{"type"} eq "Function") { print " #endif\n" } $i++; } print "};\n\n"; print "extern const struct HashTable $name =\n"; print " \{ $packedSize, $compactHashSizeMask, $hasSetter, $nameEntries, 0, $nameIndex \};\n"; print "} // namespace\n"; }