mirror of https://github.com/mpv-player/mpv
169 lines
5.2 KiB
Perl
Executable File
169 lines
5.2 KiB
Perl
Executable File
#! /usr/bin/env perl
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# Generate C definitions for parsing Matroska files.
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use strict;
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use warnings;
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use FindBin;
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use lib "$FindBin::Bin/lib";
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use Parse::Matroska::Definitions;
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use Parse::Matroska::Reader;
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use Getopt::Long;
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use List::Util qw{max};
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my @global_elem_list = @Parse::Matroska::Definitions::global_elem_list;
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Getopt::Long::Configure(qw{auto_version auto_help});
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my %opt;
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GetOptions(\%opt,
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"generate-header",
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"generate-definitions",
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"full",
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);
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if ($opt{"generate-header"}) {
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generate_c_header();
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} elsif ($opt{"generate-definitions"}) {
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generate_c_definitions();
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} else {
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for (@ARGV) {
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my $reader = Parse::Matroska::Reader->new($_ eq '-' ? \*STDIN : $_) or die $!;
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while (my $elem = $reader->read_element($_ eq '-')) {
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process_elem($elem, $_ eq '-');
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}
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}
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}
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# Generate declarations for libmpdemux/ebml_types.h
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sub generate_c_header {
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print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";
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# Write a #define for the ElementID of each known element
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for my $el (@global_elem_list) {
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printf "#define %-40s 0x%s\n", $el->{definename}, $el->{elid};
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}
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print "\n";
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# Define a struct for each ElementID that has child elements
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for my $el (@global_elem_list) {
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next unless $el->{subelements};
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print "\nstruct $el->{structname} {\n";
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# Figure out the length of the longest variable name
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# Used for pretty-printing in the next step
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my $l = max(map { length $_->{valname} } values %{$el->{subelements}});
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# Output each variable, with pointers for array (multiple) elements
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for my $subel (values %{$el->{subelements}}) {
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printf " %-${l}s %s%s;\n",
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$subel->{valname}, $subel->{multiple}?'*':' ', $subel->{fieldname};
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}
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print "\n";
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# Output a counter variable for each element
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# (presence/absence for scalars, item count for arrays)
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for my $subel (values %{$el->{subelements}}) {
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print " int n_$subel->{fieldname};\n"
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}
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print "};\n";
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}
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print "\n";
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# Output extern references for ebml_elem_desc structs for each of the elements
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# These are defined by generate_c_definitions
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for my $el (@global_elem_list) {
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next unless $el->{subelements};
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print "extern const struct ebml_elem_desc $el->{structname}_desc;\n";
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}
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print "\n";
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# Output the max number of sub-elements a known element might have
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printf "#define MAX_EBML_SUBELEMENTS %d\n",
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max(map { scalar keys %{$_->{subelements}} }
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grep { $_->{subelements} } @global_elem_list);
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}
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# Generate definitions for libmpdemux/ebml_defs.c
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sub generate_c_definitions {
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print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";
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# ebml_defs.c uses macros declared in ebml.c
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for my $el (@global_elem_list) {
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print "\n";
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if ($el->{subelements}) {
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# set N for the next macros
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print "#define N $el->{fieldname}\n";
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# define a struct ebml_$N_desc and gets ready to define fields
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# this secretly opens two scopes; hence the }}; at the end
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print "E_S(\"$el->{name}\", ".scalar(keys %{$el->{subelements}}).")\n";
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# define a field for each subelement
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# also does lots of macro magic, but doesn't open a scope
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for my $subel (values %{$el->{subelements}}) {
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print "F($subel->{definename}, $subel->{fieldname}, ".
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($subel->{multiple}?'1':'0').")\n";
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}
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# close the struct
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print "}};\n";
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# unset N since we've used it
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print "#undef N\n";
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} else {
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print "E(\"$el->{name}\", $el->{fieldname}, $el->{ebmltype})\n";
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}
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}
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}
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sub repr {
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my @ret;
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foreach (@_) {
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if (/'/) {
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s/"/\\"/g;
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push @ret, "\"$_\"";
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} else {
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push @ret, "'$_'";
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}
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}
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return @ret if wantarray;
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return pop @ret if defined wantarray;
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return;
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}
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sub process_elem {
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my ($elem, $read_bin) = @_;
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unless ($opt{full}) {
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if ($elem->{name} eq 'Cluster' || $elem->{name} eq 'Cues') {
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$elem->skip;
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return;
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}
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}
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die unless $elem;
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if ($elem->{type} ne 'skip') {
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print "$elem->{depth} $elem->{elid} $elem->{name} size: $elem->{content_len} value: ";
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}
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if ($elem->{type} eq 'sub') {
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print "subelements:\n";
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while (my $chld = $elem->next_child($read_bin)) {
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process_elem($chld);
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}
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} elsif ($elem->{type} eq 'binary') {
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my $t = "<skipped $elem->{content_len} bytes>";
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if ($elem->{content_len} < 20) {
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$t = unpack "H*", $elem->get_value;
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}
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print "binary $t\n";
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delete $elem->{value};
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} elsif ($elem->{type} eq 'ebml_id') {
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print "binary $elem->{value}->{elid} (".($elem->{value}->{name}||"UNKNOWN").")\n";
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} elsif ($elem->{type} eq 'skip') {
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# skip
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} elsif ($elem->{type} eq 'str') {
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print "string ". repr($elem->get_value) . "\n";
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} else {
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print "$elem->{type} ". $elem->get_value ."\n";
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}
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} |