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Diffstat (limited to 'triehash/triehash.pl')
| -rwxr-xr-x | triehash/triehash.pl | 691 |
1 files changed, 0 insertions, 691 deletions
diff --git a/triehash/triehash.pl b/triehash/triehash.pl deleted file mode 100755 index 841c0e7e2..000000000 --- a/triehash/triehash.pl +++ /dev/null @@ -1,691 +0,0 @@ -#!/usr/bin/perl -w -# -# Copyright (C) 2016 Julian Andres Klode <jak@jak-linux.org> -# -# Permission is hereby granted, free of charge, to any person obtaining a copy -# of this software and associated documentation files (the "Software"), to deal -# in the Software without restriction, including without limitation the rights -# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -# copies of the Software, and to permit persons to whom the Software is -# furnished to do so, subject to the following conditions: -# -# The above copyright notice and this permission notice shall be included in -# all copies or substantial portions of the Software. -# -# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -# THE SOFTWARE. - - -=head1 NAME - -triehash - Generate a perfect hash function derived from a trie. - -=cut - -use strict; -use warnings; -use Getopt::Long; - -=head1 SYNOPSIS - -B<triehash> [S<I<option>>] [S<I<input file>>] - -=head1 DESCRIPTION - -triehash takes a list of words in input file and generates a function and -an enumeration to describe the word - -=head1 INPUT FILE FORMAT - -The file consists of multiple lines of the form: - - [label ~ ] word [= value] - -This maps word to value, and generates an enumeration with entries of the form: - - label = value - -If I<label> is undefined, the word will be used, the minus character will be -replaced by an underscore. If value is undefined it is counted upwards from -the last value. - -There may also be one line of the format - - [ label ~] = value - -Which defines the value to be used for non-existing keys. Note that this also -changes default value for other keys, as for normal entries. So if you place - - = 0 - -at the beginning of the file, unknown strings map to 0, and the other strings -map to values starting with 1. If label is not specified, the default is -I<Unknown>. - -=head1 OPTIONS - -=over 4 - -=item B<-C>I<.c file> B<--code>=I<.c file> - -Generate code in the given file. - -=item B<-H>I<header file> B<--header>=I<header file> - -Generate a header in the given file, containing a declaration of the hash -function and an enumeration. - -=item B<--enum-name=>I<word> - -The name of the enumeration. - -=item B<--function-name=>I<word> - -The name of the function. - -=item B<--namespace=>I<name> - -Put the function and enum into a namespace (C++) - -=item B<--class=>I<name> - -Put the function and enum into a class (C++) - -=item B<--enum-class> - -Generate an enum class instead of an enum (C++) - -=item B<--counter-name=>I<name> - -Use I<name> for a counter that is set to the latest entry in the enumeration -+ 1. This can be useful for defining array sizes. - -=item B<--extern-c> - -Wrap everything into an extern "C" block. Not compatible with the C++ -options, as a header with namespaces, classes, or enum classes is not -valid C. - -=item B<--multi-byte>=I<value> - -Generate code reading multiple bytes at once. The value is a string of power -of twos to enable. The default value is 320 meaning that 8, 4, and single byte -reads are enabled. Specify 0 to disable multi-byte completely, or add 2 if you -also want to allow 2-byte reads. 2-byte reads are disabled by default because -they negatively affect performance on older Intel architectures. - -This generates code for both multiple bytes and single byte reads, but only -enables the multiple byte reads of GNU C compatible compilers, as the following -extensions are used: - -=over 8 - -=item Byte-aligned integers - -We must be able to generate integers that are aligned to a single byte using: - - typedef uint64_t __attribute__((aligned (1))) triehash_uu64; - -=item Byte-order - -The macros __BYTE_ORDER__ and __ORDER_LITTLE_ENDIAN__ must be defined. - -=back - -We forcefully disable multi-byte reads on platforms where the variable -I<__ARM_ARCH> is defined and I<__ARM_FEATURE_UNALIGNED> is not defined, -as there is a measurable overhead from emulating the unaligned reads on -ARM. - -=item B<--language=>I<language> - -Generate a file in the specified language. Currently known are 'C' and 'tree', -the latter generating a tree. - -=item B<--include=>I<header> - -Add the header to the include statements of the header file. The value must -be surrounded by quotes or angle brackets for C code. May be specified multiple -times. - -=back - -=cut - -my $unknown = -1; -my $unknown_label = "Unknown"; -my $counter_start = 0; -my $enum_name = "PerfectKey"; -my $function_name = "PerfectHash"; -my $enum_class = 0; - -my $code_name = "-"; -my $header_name = "-"; -my $code; -my $header; -my $ignore_case = 0; -my $multi_byte = "320"; -my $language = 'C'; -my $counter_name = undef; -my @includes = (); - - -Getopt::Long::config('default', - 'bundling', - 'no_getopt_compat', - 'no_auto_abbrev', - 'permute', - 'auto_help'); - -GetOptions ("code|C=s" => \$code_name, - "header|H=s" => \$header_name, - "function-name=s" => \$function_name, - "ignore-case" => \$ignore_case, - "enum-name=s" => \$enum_name, - "language|l=s" => \$language, - "multi-byte=s" => \$multi_byte, - "enum-class" => \$enum_class, - "include=s" => \@includes, - "counter-name=s" => \$counter_name) - or die("Could not parse options!"); - - -# This implements a simple trie. Each node has three attributes: -# -# children - A hash of keys to other nodes -# value - The value to be stored here -# label - A named representation of the value. -# -# The key at each level of the trie can consist of one or more bytes, and the -# trie can be normalized to a form where all keys at a level have the same -# length using rebuild_tree(). -package Trie { - - sub new { - my $class = shift; - my $self = {}; - bless $self, $class; - - $self->{children} = {}; - $self->{value} = undef; - $self->{label} = undef; - - return $self; - } - - # Return the largest power of 2 smaller or equal to the argument - sub alignpower2 { - my ($self, $length) = @_; - - return 8 if ($length >= 8 && $multi_byte =~ /3/); - return 4 if ($length >= 4 && $multi_byte =~ /2/); - return 2 if ($length >= 2 && $multi_byte =~ /1/); - - return 1; - } - - # Split the key into a head block and a tail - sub split_key { - my ($self, $key) = @_; - my $length = length $key; - my $split = $self->alignpower2($length); - - return (substr($key, 0, $split), substr($key, $split)); - } - - # Given a key, a label, and a value, insert that into the tree, possibly - # replacing an existing node. - sub insert { - my ($self, $key, $label, $value) = @_; - - if (length($key) == 0) { - $self->{label} = $label; - $self->{value} = $value; - return; - } - - my ($child, $tail) = $self->split_key($key); - - $self->{children}{$child} = Trie->new if (!defined($self->{children}{$child})); - - $self->{children}{$child}->insert($tail, $label, $value); - } - - # Construct a new trie that only contains words of a given length. This - # is used to split up the common trie after knowing all words, so we can - # switch on the expected word length first, and have the per-trie function - # implement simple longest prefix matching. - sub filter_depth { - my ($self, $togo) = @_; - - my $new = Trie->new; - - if ($togo != 0) { - my $found = 0; - foreach my $key (sort keys %{$self->{children}}) { - if ($togo > length($key) || defined $self->{children}{$key}->{value}) { - my $child = $self->{children}{$key}->filter_depth($togo - length($key)); - - $new->{children}{$key}= $child if defined $child; - $found = 1 if defined $child; - } - } - return undef if (!$found); - } else { - $new->{value} = $self->{value}; - $new->{label} = $self->{label}; - } - - return $new; - } - - # (helper for rebuild_tree) - # Reinsert all value nodes into the specified $trie, prepending $prefix - # to their $paths. - sub reinsert_value_nodes_into { - my ($self, $trie, $prefix) = @_; - - $trie->insert($prefix, $self->{label}, $self->{value}) if (defined $self->{value}); - - foreach my $key (sort keys %{$self->{children}}) { - $self->{children}{$key}->reinsert_value_nodes_into($trie, $prefix . $key); - } - } - - # (helper for rebuild_tree) - # Find the earliest point to split a key. Normally, we split at the maximum - # power of 2 that is greater or equal than the length of the key. When we - # are building an ASCII-optimised case-insensitive trie that simply ORs - # each byte with 0x20, we need to split at the first ambiguous character: - # - # For example, the words a-bc and a\rbc are identical in such a situation: - # '-' | 0x20 == '-' == '\r' | 0x20 - # We cannot simply switch on all 4 bytes at once, but need to split before - # the ambiguous character so we can process the ambiguous character on its - # own. - sub find_ealier_split { - my ($self, $key) = @_; - - if ($ignore_case) { - for my $i (0..length($key)-1) { - # If the key starts with an ambiguous character, we need to - # take only it. Otherwise, we need to take everything - # before the character. - return $self->alignpower2($i || 1) if (main::ambiguous(substr($key, $i, 1))); - } - } - return $self->alignpower2(length $key); - } - - # This rebuilds the trie, splitting each key before ambiguous characters - # as explained in find_earlier_split(), and then chooses the smallest - # such split at each level, so that all keys at all levels have the same - # length (so we can use a multi-byte switch). - sub rebuild_tree { - my $self = shift; - # Determine if/where we need to split before an ambiguous character - my $new_split = 99999999999999999; - foreach my $key (sort keys %{$self->{children}}) { - my $special_length = $self->find_ealier_split($key); - $new_split = $special_length if ($special_length < $new_split); - } - - # Start building a new uniform trie - my $newself = Trie->new; - $newself->{label} = $self->{label}; - $newself->{value} = $self->{value}; - $newself->{children} = {}; - - foreach my $key (sort keys %{$self->{children}}) { - my $head = substr($key, 0, $new_split); - my $tail = substr($key, $new_split); - # Rebuild the child node at $head, pushing $tail downwards - $newself->{children}{$head} //= Trie->new; - $self->{children}{$key}->reinsert_value_nodes_into($newself->{children}{$head}, $tail); - # We took up to one special character of each key label. There might - # be more, so we need to rebuild recursively. - $newself->{children}{$head} = $newself->{children}{$head}->rebuild_tree(); - } - - return $newself; - } -} - -# Code generator for C and C++ -package CCodeGen { - my $static = ($code_name eq $header_name) ? "static" : ""; - my $enum_specifier = $enum_class ? "enum class" : "enum"; - - sub new { - my $class = shift; - my $self = {}; - bless $self, $class; - - return $self; - } - - sub open_output { - my $self = shift; - if ($code_name ne "-") { - open($code, '>', $code_name) or die "Cannot open $code_name: $!" ; - } else { - $code = *STDOUT; - } - if($code_name eq $header_name) { - $header = $code; - } elsif ($header_name ne "-") { - open($header, '>', $header_name) or die "Cannot open $header_name: $!" ; - } else { - $header = *STDOUT; - } - } - - sub word_to_label { - my ($class, $word) = @_; - - $word =~ s/_/__/g; - $word =~ s/-/_/g; - return $word; - } - - # Return a case label, by shifting and or-ing bytes in the word - sub case_label { - my ($self, $key) = @_; - - return sprintf("'%s'", substr($key, 0, 1)) if not $multi_byte; - - my $output = '0'; - - for my $i (0..length($key)-1) { - $output .= sprintf("| onechar('%s', %d, %d)", substr($key, $i, 1), 8 * $i, 8*length($key)); - } - - return $output; - } - - # Return an appropriate read instruction for $length bytes from $offset - sub switch_key { - my ($self, $offset, $length) = @_; - - return "string[$offset]" if $length == 1; - return sprintf("*((triehash_uu%s*) &string[$offset])", $length * 8); - } - - # Render the trie so that it matches the longest prefix. - sub print_table { - my ($self, $trie, $fh, $indent, $index) = @_; - $indent //= 0; - $index //= 0; - - # If we have children, try to match them. - if (%{$trie->{children}}) { - # The difference between lowercase and uppercase alphabetical characters - # is that they have one bit flipped. If we have alphabetical characters - # in the search space, and the entire search space works fine if we - # always turn on the flip, just OR the character we are switching over - # with the bit. - my $want_use_bit = 0; - my $can_use_bit = 1; - my $key_length = 0; - foreach my $key (sort keys %{$trie->{children}}) { - $can_use_bit &= not main::ambiguous($key); - $want_use_bit |= ($key =~ /^[a-zA-Z]+$/); - $key_length = length($key); - } - - if ($ignore_case && $can_use_bit && $want_use_bit) { - printf $fh ((" " x $indent) . "switch(%s | 0x%s) {\n", $self->switch_key($index, $key_length), "20" x $key_length); - } else { - printf $fh ((" " x $indent) . "switch(%s) {\n", $self->switch_key($index, $key_length)); - } - - my $notfirst = 0; - foreach my $key (sort keys %{$trie->{children}}) { - if ($notfirst) { - printf $fh (" " x $indent . " break;\n"); - } - if ($ignore_case) { - printf $fh (" " x $indent . "case %s:\n", $self->case_label(lc($key))); - printf $fh (" " x $indent . "case %s:\n", $self->case_label(uc($key))) if lc($key) ne uc($key) && !($can_use_bit && $want_use_bit); - } else { - printf $fh (" " x $indent . "case %s:\n", $self->case_label($key)); - } - - $self->print_table($trie->{children}{$key}, $fh, $indent + 1, $index + length($key)); - - $notfirst=1; - } - - printf $fh (" " x $indent . "}\n"); - } - - - # This node has a value, so it is a possible end point. If no children - # matched, we have found our longest prefix. - if (defined $trie->{value}) { - printf $fh (" " x $indent . "return %s;\n", ($enum_class ? "${enum_name}::" : "").$trie->{label}); - } - - } - - sub print_words { - my ($self, $trie, $fh, $indent, $sofar) = @_; - - $indent //= 0; - $sofar //= ""; - - - printf $fh (" " x $indent."%s = %s,\n", $trie->{label}, $trie->{value}) if defined $trie->{value}; - - foreach my $key (sort keys %{$trie->{children}}) { - $self->print_words($trie->{children}{$key}, $fh, $indent, $sofar . $key); - } - } - - sub print_functions { - my ($self, $trie, %lengths) = @_; - foreach my $local_length (sort { $a <=> $b } (keys %lengths)) { - print $code ("static enum ${enum_name} ${function_name}${local_length}(const char *string)\n"); - print $code ("{\n"); - $self->print_table($trie->filter_depth($local_length)->rebuild_tree(), $code, 1); - printf $code (" return %s$unknown_label;\n", ($enum_class ? "${enum_name}::" : "")); - print $code ("}\n"); - } - } - - sub main { - my ($self, $trie, $num_values, %lengths) = @_; - print $header ("#ifndef TRIE_HASH_${function_name}\n"); - print $header ("#define TRIE_HASH_${function_name}\n"); - print $header ("#include <stddef.h>\n"); - print $header ("#include <stdint.h>\n"); - foreach my $include (@includes) { - print $header ("#include $include\n"); - } - printf $header ("enum { $counter_name = $num_values };\n") if (defined($counter_name)); - print $header ("${enum_specifier} ${enum_name} {\n"); - $self->print_words($trie, $header, 1); - printf $header (" $unknown_label = $unknown,\n"); - print $header ("};\n"); - print $header ("$static enum ${enum_name} ${function_name}(const char *string, size_t length);\n"); - - print $code ("#include \"$header_name\"\n") if ($header_name ne $code_name); - - if ($multi_byte) { - print $code ("#ifdef __GNUC__\n"); - for (my $i=16; $i <= 64; $i *= 2) { - print $code ("typedef uint${i}_t __attribute__((aligned (1))) triehash_uu${i};\n"); - print $code ("typedef char static_assert${i}[__alignof__(triehash_uu${i}) == 1 ? 1 : -1];\n"); - } - - print $code ("#if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__\n"); - print $code ("#define onechar(c, s, l) (((uint64_t)(c)) << (s))\n"); - print $code ("#else\n"); - print $code ("#define onechar(c, s, l) (((uint64_t)(c)) << (l-8-s))\n"); - print $code ("#endif\n"); - print $code ("#if (!defined(__ARM_ARCH) || defined(__ARM_FEATURE_UNALIGNED)) && !defined(TRIE_HASH_NO_MULTI_BYTE)\n"); - print $code ("#define TRIE_HASH_MULTI_BYTE\n"); - print $code ("#endif\n"); - print $code ("#endif /*GNUC */\n"); - - print $code ("#ifdef TRIE_HASH_MULTI_BYTE\n"); - $self->print_functions($trie, %lengths); - $multi_byte = 0; - print $code ("#else\n"); - $self->print_functions($trie, %lengths); - print $code ("#endif /* TRIE_HASH_MULTI_BYTE */\n"); - } else { - $self->print_functions($trie, %lengths); - } - - print $code ("$static enum ${enum_name} ${function_name}(const char *string, size_t length)\n"); - print $code ("{\n"); - print $code (" switch (length) {\n"); - foreach my $local_length (sort { $a <=> $b } (keys %lengths)) { - print $code (" case $local_length:\n"); - print $code (" return ${function_name}${local_length}(string);\n"); - } - print $code (" default:\n"); - printf $code (" return %s$unknown_label;\n", ($enum_class ? "${enum_name}::" : "")); - print $code (" }\n"); - print $code ("}\n"); - - # Print end of header here, in case header and code point to the same file - print $header ("#endif /* TRIE_HASH_${function_name} */\n"); - } -} - -# A character is ambiguous if the 1<<5 (0x20) bit does not correspond to the -# lower case bit. A word is ambiguous if any character is. This definition is -# used to check if we can perform the |0x20 optimization when building a case- -# insensitive trie. -sub ambiguous { - my $word = shift; - - foreach my $char (split //, $word) { - # If 0x20 does not solely indicate lowercase, it is ambiguous - return 1 if ord(lc($char)) != (ord($char) | 0x20); - return 1 if ord(uc($char)) != (ord($char) & ~0x20); - } - - return 0; -} - -sub build_trie { - my $codegen = shift; - my $trie = Trie->new; - - my $counter = $counter_start; - my %lengths; - - open(my $input, '<', $ARGV[0]) or die "Cannot open ".$ARGV[0].": $!"; - while (my $line = <$input>) { - my ($label, $word, $value) = $line =~/\s*(?:([^~\s]+)\s*~)?(?:\s*([^~=\s]+)\s*)?(?:=\s*([^\s]+)\s+)?\s*/; - - if (defined $word) { - $counter = $value if defined($value); - $label //= $codegen->word_to_label($word); - - $trie->insert($word, $label, $counter); - $lengths{length($word)} = 1; - $counter++; - } elsif (defined $value) { - $unknown = $value; - $unknown_label = $label if defined($label); - $counter = $value + 1; - } else { - die "Invalid line: $line"; - } - } - - return ($trie, $counter, %lengths); -} - -# Generates an ASCII art tree -package TreeCodeGen { - - sub new { - my $class = shift; - my $self = {}; - bless $self, $class; - - return $self; - } - - sub word_to_label { - my ($self, $word) = @_; - return $word; - } - - sub main { - my ($self, $trie, $counter, %lengths) = @_; - printf $code ("┌────────────────────────────────────────────────────┐\n"); - printf $code ("│ Initial trie │\n"); - printf $code ("└────────────────────────────────────────────────────┘\n"); - $self->print($trie); - printf $code ("┌────────────────────────────────────────────────────┐\n"); - printf $code ("│ Rebuilt trie │\n"); - printf $code ("└────────────────────────────────────────────────────┘\n"); - $self->print($trie->rebuild_tree()); - - foreach my $local_length (sort { $a <=> $b } (keys %lengths)) { - printf $code ("┌────────────────────────────────────────────────────┐\n"); - printf $code ("│ Trie for words of length %-4d │\n", $local_length); - printf $code ("└────────────────────────────────────────────────────┘\n"); - $self->print($trie->filter_depth($local_length)->rebuild_tree()); - } - } - - sub open_output { - my $self = shift; - if ($code_name ne "-") { - open($code, '>', $code_name) or die "Cannot open ".$ARGV[0].": $!" ; - } else { - $code = *STDOUT; - } - } - - # Print a trie - sub print { - my ($self, $trie, $depth) = @_; - $depth //= 0; - - print $code (" → ") if defined($trie->{label}); - print $code ($trie->{label} // "", "\n"); - foreach my $key (sort keys %{$trie->{children}}) { - print $code ("│ " x ($depth), "├── $key"); - $self->print($trie->{children}{$key}, $depth + 1); - } - } -} - -my %codegens = ( - C => "CCodeGen", - tree => "TreeCodeGen", -); - - -defined($codegens{$language}) or die "Unknown language $language. Valid choices: ", join(", ", keys %codegens); -my $codegen = $codegens{$language}->new(); -my ($trie, $counter, %lengths) = build_trie($codegen); - -$codegen->open_output(); -$codegen->main($trie, $counter, %lengths); - - -=head1 LICENSE - -triehash is available under the MIT/Expat license, see the source code -for more information. - -=head1 AUTHOR - -Julian Andres Klode <jak@jak-linux.org> - -=cut - |