mpv/TOOLS/matroska.pl

#! /usr/bin/env perl

# Generate C definitions for parsing Matroska files.

use strict;
use warnings;

use FindBin;
use lib "$FindBin::Bin/lib";
use Parse::Matroska::Definitions;
use Parse::Matroska::Reader;

use Getopt::Long;
use List::Util qw{max};

my @global_elem_list = @Parse::Matroska::Definitions::global_elem_list;

Getopt::Long::Configure(qw{auto_version auto_help});
my %opt;
GetOptions(\%opt,
    "generate-header",
    "generate-definitions",
    "full",
    );

if ($opt{"generate-header"}) {
    generate_c_header();
} elsif ($opt{"generate-definitions"}) {
    generate_c_definitions();
} else {
    for (@ARGV) {
        my $reader = Parse::Matroska::Reader->new($_ eq '-' ? \*STDIN : $_) or die $!;
        while (my $elem = $reader->read_element($_ eq '-')) {
            process_elem($elem, $_ eq '-');
        }
    }
}

# Generate declarations for libmpdemux/ebml_types.h
sub generate_c_header {
    print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";

    # Write a #define for the ElementID of each known element
    for my $el (@global_elem_list) {
        printf "#define %-40s 0x%s\n", $el->{definename}, $el->{elid};
    }
    print "\n";

    # Define a struct for each ElementID that has child elements
    for my $el (@global_elem_list) {
        next unless $el->{subelements};
        print "\nstruct $el->{structname} {\n";

        # Figure out the length of the longest variable name
        # Used for pretty-printing in the next step
        my $l = max(map { length $_->{valname} } values %{$el->{subelements}});

        # Output each variable, with pointers for array (multiple) elements
        for my $subel (sort { $a->{definename} cmp $b->{definename} } values %{$el->{subelements}}) {
            printf "    %-${l}s %s%s;\n",
                $subel->{valname}, $subel->{multiple}?'*':' ', $subel->{fieldname};
        }
        print "\n";

        # Output a counter variable for each element
        # (presence/absence for scalars, item count for arrays)
        for my $subel (values %{$el->{subelements}}) {
            print "    int n_$subel->{fieldname};\n"
        }
        print "};\n";
    }
    print "\n";

    # Output extern references for ebml_elem_desc structs for each of the elements
    # These are defined by generate_c_definitions
    for my $el (@global_elem_list) {
        next unless $el->{subelements};
        print "extern const struct ebml_elem_desc $el->{structname}_desc;\n";
    }
    print "\n";

    # Output the max number of sub-elements a known element might have
    printf "#define MAX_EBML_SUBELEMENTS %d\n",
        max(map { scalar keys %{$_->{subelements}} }
            grep { $_->{subelements} } @global_elem_list);
}

# Generate definitions for libmpdemux/ebml_defs.c
sub generate_c_definitions {
    print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";
    # ebml_defs.c uses macros declared in ebml.c
    for my $el (@global_elem_list) {
        print "\n";
        if ($el->{subelements}) {
            # set N for the next macros
            print "#define N $el->{fieldname}\n";

            # define a struct ebml_$N_desc and gets ready to define fields
            # this secretly opens two scopes; hence the }}; at the end
            print "E_S(\"$el->{name}\", ".scalar(keys %{$el->{subelements}}).")\n";

            # define a field for each subelement
            # also does lots of macro magic, but doesn't open a scope
            for my $subel (sort { $a->{definename} cmp $b->{definename} } values %{$el->{subelements}}) {
                print "F($subel->{definename}, $subel->{fieldname}, ".
                    ($subel->{multiple}?'1':'0').")\n";
            }
            # close the struct
            print "}};\n";

            # unset N since we've used it
            print "#undef N\n";
        } else {
            print "E(\"$el->{name}\", $el->{fieldname}, $el->{ebmltype})\n";
        }
    }
}

sub repr {
    my @ret;
    foreach (@_) {
        if (/'/) {
            s/"/\\"/g;
            push @ret, "\"$_\"";
        } else {
            push @ret, "'$_'";
        }
    }
    return @ret if wantarray;
    return pop @ret if defined wantarray;
    return;
}

sub process_elem {
    my ($elem, $read_bin) = @_;
    unless ($opt{full}) {
        if ($elem->{name} eq 'Cluster' || $elem->{name} eq 'Cues') {
            $elem->skip;
            return;
        }
    }
    die unless $elem;

    if ($elem->{type} ne 'skip') {
        print "$elem->{depth} $elem->{elid} $elem->{name} size: $elem->{content_len} value: ";
    }

    if ($elem->{type} eq 'sub') {
        print "subelements:\n";
        while (my $chld = $elem->next_child($read_bin)) {
            process_elem($chld);
        }
    } elsif ($elem->{type} eq 'binary') {
        my $t = "<skipped $elem->{content_len} bytes>";
        if ($elem->{content_len} < 20) {
            $t = unpack "H*", $elem->get_value;
        }
        print "binary $t\n";
        delete $elem->{value};
    } elsif ($elem->{type} eq 'ebml_id') {
        print "binary $elem->{value}->{elid} (".($elem->{value}->{name}||"UNKNOWN").")\n";
    } elsif ($elem->{type} eq 'skip') {
        # skip
    } elsif ($elem->{type} eq 'str') {
        print "string ". repr($elem->get_value) . "\n";
    } else {
        print "$elem->{type} ". $elem->get_value ."\n";
    }
}
Port several python scripts to Perl file2string.pl and vdpau_functions.pl are direct ports. matroska.py was reimplemented as the Parse::Matroska module in CPAN, and matroska.pl was made a client of Parse::Matroska. A copy of Parse::Matroska is included in TOOLS/lib, and matroska.pl looks there first when trying to load the module. osxbundle.py was not ported since I have no means to verify it. Python is always available on OSX though, so there is no harm in removing the check for it on configure. 2012-11-07 14:49:44 +00:00			`#! /usr/bin/env perl`

			`# Generate C definitions for parsing Matroska files.`

			`use strict;`
			`use warnings;`

			`use FindBin;`
			`use lib "$FindBin::Bin/lib";`
			`use Parse::Matroska::Definitions;`
			`use Parse::Matroska::Reader;`

			`use Getopt::Long;`
			`use List::Util qw{max};`

			`my @global_elem_list = @Parse::Matroska::Definitions::global_elem_list;`

			`Getopt::Long::Configure(qw{auto_version auto_help});`
			`my %opt;`
			`GetOptions(\%opt,`
			`"generate-header",`
			`"generate-definitions",`
			`"full",`
			`);`

			`if ($opt{"generate-header"}) {`
			`generate_c_header();`
			`} elsif ($opt{"generate-definitions"}) {`
			`generate_c_definitions();`
			`} else {`
			`for (@ARGV) {`
			`my $reader = Parse::Matroska::Reader->new($_ eq '-' ? \*STDIN : $_) or die $!;`
			`while (my $elem = $reader->read_element($_ eq '-')) {`
			`process_elem($elem, $_ eq '-');`
			`}`
			`}`
			`}`

			`# Generate declarations for libmpdemux/ebml_types.h`
			`sub generate_c_header {`
			`print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";`

			`# Write a #define for the ElementID of each known element`
			`for my $el (@global_elem_list) {`
			`printf "#define %-40s 0x%s\n", $el->{definename}, $el->{elid};`
			`}`
			`print "\n";`

			`# Define a struct for each ElementID that has child elements`
			`for my $el (@global_elem_list) {`
			`next unless $el->{subelements};`
			`print "\nstruct $el->{structname} {\n";`

			`# Figure out the length of the longest variable name`
			`# Used for pretty-printing in the next step`
			`my $l = max(map { length $_->{valname} } values %{$el->{subelements}});`

			`# Output each variable, with pointers for array (multiple) elements`
demux_mkv: fix compiler warnings Make TOOLS/matroska.pl output structs with fields sorted by name in ebml_types.h to make the order of fields deterministic. Fix warnings in demux_mkv.c caused by the first struct fields switching between scalar and struct types due to non-deterministic ebml_types.h field order. Since it's deterministic now, this shouldn't change anymore. The warnings produced by the compilers are bogus, but we want to silence them anyway, since this could make developers overlook legitimate warnings. What commits 7b52ba8, 6dd97cc, 4aae1ff were supposed to fix. An earlier attempt sorted fields in the generated C source file, not the header file. Hopefully this is the last commit concerning this issue... 2013-11-04 22:49:22 +00:00			`for my $subel (sort { $a->{definename} cmp $b->{definename} } values %{$el->{subelements}}) {`
Port several python scripts to Perl file2string.pl and vdpau_functions.pl are direct ports. matroska.py was reimplemented as the Parse::Matroska module in CPAN, and matroska.pl was made a client of Parse::Matroska. A copy of Parse::Matroska is included in TOOLS/lib, and matroska.pl looks there first when trying to load the module. osxbundle.py was not ported since I have no means to verify it. Python is always available on OSX though, so there is no harm in removing the check for it on configure. 2012-11-07 14:49:44 +00:00			`printf " %-${l}s %s%s;\n",`
			`$subel->{valname}, $subel->{multiple}?'*':' ', $subel->{fieldname};`
			`}`
			`print "\n";`

			`# Output a counter variable for each element`
			`# (presence/absence for scalars, item count for arrays)`
			`for my $subel (values %{$el->{subelements}}) {`
			`print " int n_$subel->{fieldname};\n"`
			`}`
			`print "};\n";`
			`}`
			`print "\n";`

			`# Output extern references for ebml_elem_desc structs for each of the elements`
			`# These are defined by generate_c_definitions`
			`for my $el (@global_elem_list) {`
			`next unless $el->{subelements};`
			`print "extern const struct ebml_elem_desc $el->{structname}_desc;\n";`
			`}`
			`print "\n";`

			`# Output the max number of sub-elements a known element might have`
			`printf "#define MAX_EBML_SUBELEMENTS %d\n",`
			`max(map { scalar keys %{$_->{subelements}} }`
			`grep { $_->{subelements} } @global_elem_list);`
			`}`

			`# Generate definitions for libmpdemux/ebml_defs.c`
			`sub generate_c_definitions {`
			`print "/* Generated by TOOLS/matroska.pl, do not edit manually */\n\n";`
			`# ebml_defs.c uses macros declared in ebml.c`
			`for my $el (@global_elem_list) {`
			`print "\n";`
			`if ($el->{subelements}) {`
			`# set N for the next macros`
			`print "#define N $el->{fieldname}\n";`

			`# define a struct ebml_$N_desc and gets ready to define fields`
			`# this secretly opens two scopes; hence the }}; at the end`
			`print "E_S(\"$el->{name}\", ".scalar(keys %{$el->{subelements}}).")\n";`

			`# define a field for each subelement`
			`# also does lots of macro magic, but doesn't open a scope`
matroska.pl: Sort the generated struct field list Newer versions of perl randomize the hash used for hashes every time it's run; this makes the order of the fields be non-deterministic. Tack a sort there to make it deterministic. Needed to fix (or allow fixing) a buggy gcc warning. 2013-11-02 01:43:49 +00:00			`for my $subel (sort { $a->{definename} cmp $b->{definename} } values %{$el->{subelements}}) {`
Port several python scripts to Perl file2string.pl and vdpau_functions.pl are direct ports. matroska.py was reimplemented as the Parse::Matroska module in CPAN, and matroska.pl was made a client of Parse::Matroska. A copy of Parse::Matroska is included in TOOLS/lib, and matroska.pl looks there first when trying to load the module. osxbundle.py was not ported since I have no means to verify it. Python is always available on OSX though, so there is no harm in removing the check for it on configure. 2012-11-07 14:49:44 +00:00			`print "F($subel->{definename}, $subel->{fieldname}, ".`
			`($subel->{multiple}?'1':'0').")\n";`
			`}`
			`# close the struct`
			`print "}};\n";`

			`# unset N since we've used it`
			`print "#undef N\n";`
			`} else {`
			`print "E(\"$el->{name}\", $el->{fieldname}, $el->{ebmltype})\n";`
			`}`
			`}`
			`}`

			`sub repr {`
			`my @ret;`
			`foreach (@_) {`
			`if (/'/) {`
			`s/"/\\"/g;`
			`push @ret, "\"$_\"";`
			`} else {`
			`push @ret, "'$_'";`
			`}`
			`}`
			`return @ret if wantarray;`
			`return pop @ret if defined wantarray;`
			`return;`
			`}`

			`sub process_elem {`
			`my ($elem, $read_bin) = @_;`
			`unless ($opt{full}) {`
			`if ($elem->{name} eq 'Cluster' \|\| $elem->{name} eq 'Cues') {`
			`$elem->skip;`
			`return;`
			`}`
			`}`
			`die unless $elem;`

			`if ($elem->{type} ne 'skip') {`
			`print "$elem->{depth} $elem->{elid} $elem->{name} size: $elem->{content_len} value: ";`
			`}`

			`if ($elem->{type} eq 'sub') {`
			`print "subelements:\n";`
			`while (my $chld = $elem->next_child($read_bin)) {`
			`process_elem($chld);`
			`}`
			`} elsif ($elem->{type} eq 'binary') {`
			`my $t = "<skipped $elem->{content_len} bytes>";`
			`if ($elem->{content_len} < 20) {`
			`$t = unpack "H*", $elem->get_value;`
			`}`
			`print "binary $t\n";`
			`delete $elem->{value};`
			`} elsif ($elem->{type} eq 'ebml_id') {`
			`print "binary $elem->{value}->{elid} (".($elem->{value}->{name}\|\|"UNKNOWN").")\n";`
			`} elsif ($elem->{type} eq 'skip') {`
			`# skip`
			`} elsif ($elem->{type} eq 'str') {`
			`print "string ". repr($elem->get_value) . "\n";`
			`} else {`
			`print "$elem->{type} ". $elem->get_value ."\n";`
			`}`
matroska.pl: Sort the generated struct field list Newer versions of perl randomize the hash used for hashes every time it's run; this makes the order of the fields be non-deterministic. Tack a sort there to make it deterministic. Needed to fix (or allow fixing) a buggy gcc warning. 2013-11-02 01:43:49 +00:00			`}`