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md-eval.pl
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md-eval.pl
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#!/usr/bin/perl -w
use strict;
my $version = "22";
#################################
# History:
#
# version 22: * JGF: added an option '-m FILE' to hold a CSV speaker map file.
#
# version 21: * JGF: added a flag '-n' to not remove the directory paths from the source
# files in the UEM file.
#
# version 20: * change metadata discard rule: rather than discard if the midpoint
# (or endpoint) of the metadata object lies in a no-eval zone, discard
# if there is ANY overlap whatsoever between the metadata object and
# a no-eval zone. This holds for system output objects only if the
# system output metadata object is not mapped to a ref object.
# * optimize IP and SU mapping by giving a secondary bonus mapping score
# to candidate ref-sys MD map pairs if the end-words of both coincide.
#
# version 19: * bug fix in subroutine speakers_match
# * bug fix in tag_ref_words_with_metadata_info
#
# version 18: * cosmetic fix to error message in eval_condition
# * added conditional output options for word coverage performance
# * added secondary MD word coverage optimization to word alignment
# * further optimize word alignment by considering MD subtypes
# * further optimize MD alignment by considering MD subtypes
# * add a new SU discard rule: discard if TEND in no-eval zone
# * enforce legal values for su_extent_limit
#
# version 17: create_speaker_segs modified to accommodate the same speaker
# having multiple overlapping speaker segments. (This is an
# error and pathological condition, but the system must either
# disallow (abort on) the condition, or perform properly under
# the pathological condition. The second option is chosen.)
#
# version 16: * If neither -w nor -W is specified, suppress warnings about
# ref SPEAKER records subsuming no lexemes.
# * Output the overall speaker diarization stats after the
# stats for the individual files
# * Do not alter the case of alphabetic characters in the filename
# field from the ref rttm file
# * Made the format of the overall speaker error line more similar to
# the corresponding line of output from SpkrSegEval, to facilitate
# use of existing "grep" commands in existing scripts.
#
# version 15: * bug fix in create_speaker_segs to accommodate
# contiguous same-speaker segments
# * added conditional file/channel scoring to
# speaker diarization evaluation
#
# version 14: bug fix in md_score
#
# version 13: add DISCOURSE_RESPONSE as a FILLER subtype
#
# version 12: make REF LEXEMES optional if they aren't required
#
# version 11: change default for noscore MD regions
#
# version 10: bug fix
#
# version 09:
# * avoid crash when metadata discard yields no metadata
# * make evaluated ref_wds sensitive to metadata type
# * defer discarding of system output metadata until after
# metadata mapping, then discard only unmapped events.
# * extend 1-speaker scoring inhibition to metadata
# * eliminate demand for SPKR-INFO subtype for speakers
# * correct ref count of IP and SU exact boundary words
# * add official RT-04F scores
# * add conditional analyses for file/chnl/spkr/gender
#
# version 08:
# * bug fixes speaker diarization scoring
# - count of EVAL_WORDS corrected
# - no-score extended to nearest SPEAKER boundary
#
# version 07:
# * warning issued when discarding metadata events
# that cover LEXEMEs in the evaluation region
#
# version 06:
# * eliminated unused speakers from speaker scoring
# * changed discard algorithm for unannotated SU's and
# complex EDIT's to discard sys SU's and EDIT's when
# their midpoints overlap (rather than ANY overlap).
# * fixed display_metadata_mapping
#
# version 05:
# * upgraded display_metadata_mapping
#
# version 04:
# * diagnostic metadata mapping output added
# * uem_from_rttm bug fix
#
# version 03:
# * adjusted times used for speaker diarization
# * changed usage of max_extend to agree with cookbook
#
# version 02: speaker diarization evaluation added
#
# version 01: a merged version of df-eval-v14 and su-eval-v16
#
#################################
#global data
my $epsilon = 1E-8;
my $miss_name = " MISS";
my $fa_name = " FALSE ALARM";
my %rttm_datatypes = (SEGMENT => {eval => 1, "<na>" => 1},
NOSCORE => {"<na>" => 1},
NO_RT_METADATA => {"<na>" => 1},
LEXEME => {lex => 1, fp => 1, frag => 1, "un-lex" => 1,
"for-lex" => 1, alpha => 1, acronym => 1,
interjection => 1, propernoun => 1, other => 1},
"NON-LEX" => {laugh => 1, breath => 1, lipsmack => 1,
cough => 1, sneeze => 1, other => 1},
"NON-SPEECH" => {noise => 1, music => 1, other => 1},
FILLER => {filled_pause => 1, discourse_marker => 1,
discourse_response => 1, explicit_editing_term => 1,
other => 1},
EDIT => {repetition => 1, restart => 1, revision => 1,
simple => 1, complex => 1, other => 1},
IP => {edit => 1, filler => 1, "edit&filler" => 1,
other => 1},
SU => {statement => 1, backchannel => 1, question => 1,
incomplete => 1, unannotated => 1, other => 1},
CB => {coordinating => 1, clausal => 1, other => 1},
"A/P" => {"<na>" => 1},
SPEAKER => {"<na>" => 1},
"SPKR-INFO" => {adult_male => 1, adult_female => 1, child => 1, unknown => 1});
my %md_subtypes = (FILLER => $rttm_datatypes{FILLER},
EDIT => $rttm_datatypes{EDIT},
IP => $rttm_datatypes{IP},
SU => $rttm_datatypes{SU});
my %spkr_subtypes = (adult_male => 1, adult_female => 1, child => 1, unknown => 1);
my $noeval_mds = {
DEFAULT => {
NOSCORE => {"<na>" => 1},
NO_RT_METADATA => {"<na>" => 1},
},
};
my $noscore_mds = {
DEFAULT => {
NOSCORE => {"<na>" => 1},
LEXEME => {"un-lex" => 1},
SU => {unannotated => 1},
},
MIN => {
NOSCORE => {"<na>" => 1},
SU => {unannotated => 1},
},
FRAG_UNLEX => {
NOSCORE => {"<na>" => 1},
LEXEME => {frag => 1, "un-lex" => 1},
SU => {unannotated => 1},
},
FRAG => {
NOSCORE => {"<na>" => 1},
LEXEME => {frag => 1},
SU => {unannotated => 1},
},
NONE => {
},
};
my $noeval_sds = {
DEFAULT => {
NOSCORE => {"<na>" => 1},
},
};
my $noscore_sds = {
DEFAULT => {
NOSCORE => {"<na>" => 1},
"NON-LEX" => {laugh => 1, breath => 1, lipsmack => 1,
cough => 1, sneeze => 1, other => 1},
},
};
my %speaker_map;
my $default_extend = 0.50; #the maximum time (in seconds) to extend a no-score zone
my $default_collar = 0.00; #the no-score collar (in +/- seconds) to attach to SPEAKER boundaries
my $default_tgap = 1.00; #the max gap (in seconds) between matching ref/sys words
my $default_Tgap = 1.00; #the max gap (in seconds) between matching ref/sys metadata events
my $default_Wgap = 0.10; #the max gap (in words) between matching ref/sys metadata events
my $default_su_time_limit = 0.50; #the max extent (in seconds) to match for SU's
my $default_su_word_limit = 2.00; #the max extent (in words) to match for SU's
my $default_word_delta_score = 10.0; #the max delta score for word-based DP alignment of ref/sys words
my $default_time_delta_score = 1.00; #the max delta score for time-based DP alignment of ref/sys words
my $usage = "\n\nUsage: $0 [-h] -r <ref_file> -s <src_file>\n\n".
"Description: md-eval evaluates EARS metadata detection performance\n".
" by comparing system metadata output data with reference data\n".
"INPUT:\n".
" -R <ref-list> A file containing a list of the reference metadata files\n".
" being evaluated, in RTTM format. If the word-mediated alignment\n".
" option is used then this data must include reference STT data\n".
" in addition to the metadata being evaluated.\n".
" OR\n".
" -r <ref-file> A file containing reference metadata, in RTTM format\n\n".
" -S <sys-list> A file containing a list of the system output metadata\n".
" files to be evaluated, in RTTM format. If the word-mediated\n".
" alignment option is used then this data must include system STT\n".
" output data in addition to the metadata to be evaluated.\n".
" OR\n".
" -s <sys-file> A file containin system output metadata, in RTTM format\n\n".
" input options:\n".
" -x to include complex edits in the analysis and scoring.\n".
" -w for word-mediated alignment.\n".
" * The default (time-mediated) alignment aligns ref and sys metadata\n".
" according to the time overlap of the original ref and sys metadata\n".
" time intervals.\n".
" * Word-mediated alignment aligns ref and sys metadata according to\n".
" the alignment of the words that are subsumed within the metadata\n".
" time intervals.\n".
" -W for word-optimized mapping.\n".
" * The default (time-optimized) mapping maps ref and sys metadata\n".
" so as to maximize the time overlap of mapped metadata events.\n".
" * Word-optimized mapping maps ref and sys metadata so as to\n".
" maximize the overlap in terms of the number of reference words\n".
" that are subsumed within the overlapping time interval.\n".
" -a <cfgs> Conditional analysis options for metadata detection performance:\n".
" c for performance versus channel,\n".
" f for performance versus file,\n".
" g for performance versus gender, and\n".
" s for performance versus speaker.\n".
" -A <cf> Conditional analysis options for word coverage performance:\n".
" c for performance versus channel,\n".
" f for performance versus file,\n".
" -t <time gap> The maximum time gap allowed between matching reference\n".
" and system output words (in seconds). Default value is $default_tgap.\n".
" -T <time gap> The maximum time gap allowed between matching reference\n".
" and system output metadata (in seconds). Default value is $default_Tgap.\n".
" -l <SU extent limit> The maximum SU extent used to compute overlap\n".
" between reference and system output SU's. For time-optimized SU\n".
" mapping this is the maximum time extent. For word-optimized SU\n".
" mapping (using the -W option) this is the maximum number of words.\n".
" SU extent is limited to the last part of the SU. Default value is\n".
" $default_su_time_limit for time-optimized mapping, $default_su_word_limit for word-optimized mapping.\n".
" -u <uem-file> A file containing the evaluation partitions,\n".
" in UEM format.\n".
" -g <glm-file> A file containing word transformations used to\n".
" standardize the representation of words.\n".
" -o to include overlapping speech in MD evaluation. With this option,\n".
" separate recognition passes are made for each reference speaker.\n".
" -c <collar> is the no-score zone around reference speaker segment\n".
" boundaries. (Speaker Diarization output is not evaluated within\n".
" +/- collar seconds of a reference speaker segment boundary.)\n".
" Default value is $default_collar seconds.\n".
" -1 to limit scoring to those time regions in which only a single\n".
" speaker is speaking\n".
" -y <name> to select named no-eval conditions for metadata\n".
" -Y <name> to select named no-score conditions for metadata\n".
" -z <name> to select named no-eval conditions for speaker diarization\n".
" -Z <name> to select named no-score conditions for speaker diarization\n".
" -e to examine metadata mapping\n".
" -d to print word alignment and error calculation details\n".
" -D to print metadata event alignment and error calculation details\n".
" -m to print speaker mapping details for speaker diarization\n".
" -M FILE to print speaker mapping details for speaker diarization to a CSV file called 'FILE'\n".
" -v to print the event sequence for each diarization source file\n".
" -n to keep the directory names of the UEM source file entries\n".
"OUTPUT:\n".
" Performance statistics are written to STDOUT.\n".
"\n";
######
# Intro
my ($date, $time) = date_time_stamp();
print "command line (run on $date at $time) Version: $version ", $0, " ", join(" ", @ARGV), "\n";
use vars qw ($opt_h $opt_w $opt_W $opt_d $opt_D $opt_R $opt_r $opt_S $opt_s $opt_l $opt_c $opt_x);
use vars qw ($opt_t $opt_T $opt_g $opt_p $opt_P $opt_o $opt_a $opt_A $opt_u $opt_1 $opt_m $opt_v $opt_e);
use vars qw ($opt_y $opt_Y $opt_z $opt_Z $opt_n $opt_M);
$opt_y = $opt_Y = $opt_z = $opt_Z = "DEFAULT";
use Getopt::Std;
getopts ('nhdDwWox1mvec:R:r:S:s:t:T:g:p:P:a:A:u:l:y:Y:z:Z:M:');
not defined $opt_h or die
"\n$usage";
defined $opt_r or defined $opt_R or die
"\nCOMMAND LINE ERROR: no reference data specified$usage";
not defined $opt_r or not defined $opt_R or die
"\nCOMMAND LINE ERROR: both reference file list and reference file specified$usage";
defined $opt_s or defined $opt_S or die
"\nCOMMAND LINE ERROR: no system output data specified$usage";
not defined $opt_s or not defined $opt_S or die
"\nCOMMAND LINE ERROR: both system output file list and system output file specified$usage";
my $word_gap = defined $opt_t ? $opt_t : $default_tgap;
my $md_gap = $opt_W ? $default_Wgap : (defined $opt_T ? $opt_T : $default_Tgap);
my $su_extent_limit = defined $opt_l ? $opt_l :
($opt_W ? $default_su_word_limit : $default_su_time_limit);
$opt_W ? ($su_extent_limit >= 1 or die "\nCOMMAND LINE ERROR: SU extent limit must be at least 1 for word-based MD alignment$usage") :
($su_extent_limit > 0 or die "\nCOMMAND LINE ERROR: SU extent limit must be positive for time-based MD alignment$usage");
my $max_wd_delta_score = $opt_w ? $default_word_delta_score : $default_time_delta_score;
$max_wd_delta_score = $opt_p if defined $opt_p;
my $max_md_delta_score = $opt_W ? $default_word_delta_score : $default_time_delta_score;
$max_md_delta_score = $opt_P if defined $opt_P;
my $collar = defined($opt_c) ? $opt_c : $default_collar;
$collar >= 0 or die
"\nCOMMAND LINE ERROR: Speaker Diarization scoring collar ('$collar') must be non-negative$usage";
my $max_extend = $default_extend;
$opt_a = "" unless defined $opt_a;
$opt_A = "" unless defined $opt_A;
start_speaker_map_file($opt_M) if $opt_M;
my $noeval_md = eval_condition ($opt_y, $noeval_mds, "no-eval", "metadata");
my $noscore_md = eval_condition ($opt_Y, $noscore_mds, "no-score", "metadata");
my $noeval_sd = eval_condition ($opt_z, $noeval_sds, "no-score", "speaker diarization");
my $noscore_sd = eval_condition ($opt_Z, $noscore_sds, "no-score", "speaker diarization");
my %type_order = (NOSCORE => 0,
NO_RT_METADATA => 1,
SEGMENT => 2,
SPEAKER => 3,
SU => 4,
"A/P" => 5,
"NON-SPEECH" => 6,
EDIT => 7,
FILLER => 8,
IP => 9,
CB => 10,
"NON-LEX" => 11,
LEXEME => 12);
my %event_order = (END => 0,
MID => 1,
BEG => 2);
my %source_order = (REF => 0,
SYS => 1);
{
my (%ref, %sys, $glm, $uem);
print_parameters ();
($glm) = get_glm_data ($opt_g);
get_rttm_file (\%ref, $opt_r, $glm);
get_rttm_data (\%ref, $opt_R, $glm);
get_rttm_file (\%sys, $opt_s, $glm);
get_rttm_data (\%sys, $opt_S, $glm);
($uem) = get_uem_data ($opt_u, $opt_n);
evaluate (\%ref, \%sys, $uem);
}
exit 0;
#################################
sub eval_condition {
my ($name, $conditions, $exclusion, $evaluation) = @_;
$name = "DEFAULT" unless $name;
return $conditions->{$name} if defined $conditions->{$name};
print STDERR "\nCOMMAND LINE ERROR: unknown name ($name) of $exclusion conditions for $evaluation\n".
" available $exclusion conditions for $evaluation are:\n\n";
foreach $name (sort keys %$conditions) {
printf STDERR "%-24stype subtype\n", " for \"$name\":";
foreach my $type (sort keys %{$conditions->{$name}}) {
foreach my $subt (sort keys %{$conditions->{$name}{$type}}) {
printf STDERR "%28s %s\n", $type, $subt;
}
}
print "\n";
}
die "$usage";
}
#################################
sub print_parameters {
print $opt_w ? "\nWord-based metadata alignment, max gap between matching words = $word_gap sec\n" :
"\nTime-based metadata alignment\n";
print "\nMetadata evaluation parameters:\n";
$opt_W ? (print " word-optimized metadata mapping\n".
" max gap between matching metadata events = $md_gap words\n".
" max extent to match for SU's = $su_extent_limit words\n") :
(print " time-optimized metadata mapping\n".
" max gap between matching metadata events = $md_gap sec\n".
" max extent to match for SU's = $su_extent_limit sec\n");
print "\nSpeaker Diarization evaluation parameters:\n".
" The max time to extend no-score zones for NON-LEX exclusions is $max_extend sec\n".
" The no-score collar at SPEAKER boundaries is $collar sec\n";
printf "\nExclusion zones for evaluation and scoring are:\n".
" -----MetaData----- -----SpkrData-----\n".
" exclusion set name:%12s%11s%15s%11s\n".
" token type/subtype no-eval no-score no-eval no-score\n",
$opt_y, $opt_Y, $opt_z, $opt_Z;
print " (UEM) X X\n";
foreach my $type (sort keys %rttm_datatypes) {
foreach my $subt (sort keys %{$rttm_datatypes{$type}}) {
next unless ($noeval_md->{$type}{$subt} or
$noscore_md->{$type}{$subt} or
$noeval_sd->{$type}{$subt} or
$noscore_sd->{$type}{$subt});
printf "%15s/%-14s", $type, $subt;
printf "%3s", $noeval_md->{$type}{$subt} ? "X" : "";
printf "%10s", $noscore_md->{$type}{$subt} ? "X" : "";
printf "%16s", $noeval_sd->{$type}{$subt} ? "X" : "";
printf "%10s\n", $noscore_sd->{$type}{$subt} ? "X" : "";
}
}
}
#################################
sub get_glm_data {
my ($file) = @_;
my ($record, @fields, $word, %words, %data);
return unless defined $file;
open DATA, $file or die
"\nCOMMAND LINE ERROR: unable to open glm file '$file'$usage";
while ($record = <DATA>) {
next if $record =~ /^\s*$/;
next if $record =~ /^\s*(\[|\*|\%|\;)/;
@fields = split /\s+=>\s+/, lc $record;
shift @fields if $fields[0] eq "";
next unless @fields > 1;
$fields[0] =~ s/^\s+//;
$fields[1] =~ s/[^a-z-'_ \.].*//;
next if $fields[0] =~ /^\s*$/ or $fields[1] =~ /^\s*$/;
$data{$fields[0]} = [split /\s+/, $fields[1]];
}
close DATA;
return {%data};
}
#################################
sub get_uem_data {
my ($file, $keepDirectoryPath) = @_;
my ($record, @fields, $seg, $chnl, %data);
return unless defined $file;
open DATA, $file or die
"\nCOMMAND LINE ERROR: unable to open uem file '$file'$usage";
while ($record = <DATA>) {
next if $record =~ /^\s*[\#;]|^\s*$/;
@fields = split /\s+/, $record;
shift @fields if $fields[0] eq "";
@fields >= 4 or die
("\n\nFATAL ERROR: insufficient number of fields in UEM record\n".
" record is: '$record'\n\n");
undef $seg;
$seg->{FILE} = shift @fields;
$seg->{CHNL} = lc shift @fields;
$seg->{TBEG} = lc shift @fields;
$seg->{TEND} = lc shift @fields;
$seg->{FILE} =~ s/.*\/// if (! $keepDirectoryPath); #strip directory
$seg->{FILE} =~ s/\.[^.]*//; #strip file type
$seg->{TBEG} =~ s/[^0-9\.]//g; #strip non-numeric (commas)
$seg->{TEND} =~ s/[^0-9\.]//g; #strip non-numeric (commas)
push @{$data{$seg->{FILE}}{$seg->{CHNL}}}, $seg;
}
close DATA;
#sort and check data
foreach $file (keys %data) {
foreach $chnl (keys %{$data{$file}}) {
@{$data{$file}{$chnl}} =
sort {$a->{TBEG} <=> $b->{TBEG}} @{$data{$file}{$chnl}};
my $prev_seg;
foreach $seg (@{$data{$file}{$chnl}}) {
$seg->{TEND} > $seg->{TBEG} or die
"\n\nFATAL ERROR: non-positive evaluation segment length in UEM data for file $file, channel $chnl\n\n";
not defined $prev_seg or $seg->{TBEG} >= $prev_seg->{TEND} or die
("\n\nFATAL ERROR: UEM file has overlapping evaluation segments\n".
" file $file, channel $chnl: ($prev_seg->{TBEG},$prev_seg->{TEND}),".
" ($seg->{TBEG},$seg->{TEND})\n\n");
$prev_seg = $seg;
}
}
}
return {%data};
}
#################################
sub get_rttm_data {
my ($data, $list, $glm) = @_;
return unless defined $list;
open LIST, $list or die
"\nCOMMAND LINE ERROR: unable to open file list '$list'$usage";
while (my $file = <LIST>) {
get_rttm_file ($data, $file, $glm);
}
close LIST;
}
#################################
sub get_rttm_file {
my ($data, $rttm_file, $glm) = @_;
my ($record, @fields, $data_type, $file, $chnl, $word, @words, $token);
return unless defined $rttm_file;
open DATA, $rttm_file or die
"\nCOMMAND LINE ERROR: unable to open RTTM file '$rttm_file'$usage";
while ($record = <DATA>) {
next if $record =~ /^\s*[\#;]|^\s*$/;
@fields = split /\s+/, $record;
shift @fields if $fields[0] eq "";
@fields >= 9 or die
("\n\nFATAL ERROR: insufficient number of fields in RTTM file '$rttm_file'\n".
" input RTTM record is: '$record'\n\n");
$data_type = uc shift @fields;
undef $token;
$token->{TYPE} = $data_type;
$token->{FILE} = $file = shift @fields;
$token->{CHNL} = $chnl = lc shift @fields;
$token->{TBEG} = lc shift @fields;
$token->{TBEG} =~ s/\*//;
$token->{TDUR} = lc shift @fields;
$token->{TDUR} =~ s/\*//;
$token->{TDUR} = 0 if $token->{TDUR} eq "<na>";
$token->{TDUR} >= 0 or die
("\n\nFATAL ERROR -- negative metadata duration in file $file,'\n".
" input RTTM record is: '$record'\n\n");
$token->{WORD} = lc shift @fields;
$token->{SUBT} = lc shift @fields;
$rttm_datatypes{$token->{TYPE}}{$token->{SUBT}} or die
("\n\nFATAL ERROR: unknown RTTM data type/subtype ('$token->{TYPE}'/'$token->{SUBT}') in file $rttm_file\n".
" input RTTM record is: '$record'\n\n");
$token->{SPKR} = shift @fields;
$token->{CONF} = lc shift @fields;
$token->{CONF} = "-" unless defined $token->{CONF};
$token->{SPKR} = "<na>" unless defined $token->{SPKR};
if ($data_type eq "SPKR-INFO") {
not defined $data->{$file}{$chnl}{$data_type}{$token->{SPKR}} or die
("\n\nFATAL ERROR: multiple $data_type records for speaker $token->{SPKR} in file $file\n".
" input RTTM record is: '$record'\n\n");
defined $spkr_subtypes{$token->{SUBT}} or die
("\n\nFATAL ERROR: unknown $data_type subtype ($token->{SUBT}) in file '$file'\n".
" input RTTM record is: '$record'\n\n");
$data->{$file}{$chnl}{$data_type}{$token->{SPKR}}{GENDER} = $token->{SUBT};
}
else {
$token->{TEND} = $token->{TBEG}+$token->{TDUR};
$token->{TMID} = $token->{TBEG}+$token->{TDUR}/2;
}
if ($data_type eq "LEXEME") {
$token->{WTYP} = ($token->{SUBT} =~ /^fp$/ ? "fp" :
($token->{SUBT} =~ /^frag$/ ? "frag" :
($token->{SUBT} =~ /^un-lex$/ ? "un-lex" :
($token->{SUBT} =~ /^for-lex$/ ? "for-lex" : "lex"))));
@words = standardize_word ($token, $glm);
foreach $word (@words) {
push @{$data->{$file}{$chnl}{LEXEME}}, $word;
push @{$data->{$file}{$chnl}{RTTM}}, $word;
}
}
elsif ($data_type eq "SPEAKER") {
push @{$data->{$file}{$chnl}{SPEAKER}{$token->{SPKR}}}, $token;
push @{$data->{$file}{$chnl}{RTTM}}, $token;
}
elsif ($md_subtypes{$token->{TYPE}}) {
defined $md_subtypes{$token->{TYPE}}{$token->{SUBT}} or die
("\n\nFATAL ERROR: unknown $data_type subtype ($token->{SUBT}) in file '$file'\n".
" input RTTM record is: '$record'\n\n");
push @{$data->{$file}{$chnl}{$data_type}}, $token;
push @{$data->{$file}{$chnl}{RTTM}}, $token;
}
elsif ($data_type ne "SPKR-INFO") {
push @{$data->{$file}{$chnl}{RTTM}}, $token;
}
}
close DATA;
#sort and check data
foreach $file (keys %$data) {
foreach $chnl (keys %{$data->{$file}}) {
foreach $data_type (keys %{$data->{$file}{$chnl}}) {
next if $data_type eq "SPKR-INFO";
if ($data_type eq "SPEAKER") {
foreach my $spkr (keys %{$data->{$file}{$chnl}{$data_type}}) {
my $gender = $data->{$file}{$chnl}{"SPKR-INFO"}{$spkr}{GENDER};
$gender = $data->{$file}{$chnl}{"SPKR-INFO"}{$spkr}{GENDER} = "unknown" if not $gender;
@{$data->{$file}{$chnl}{$data_type}{$spkr}} =
sort {$a->{TMID}<=>$b->{TMID}} @{$data->{$file}{$chnl}{$data_type}{$spkr}};
my $prev_token;
foreach $token (@{$data->{$file}{$chnl}{$data_type}{$spkr}}) {
$token->{SUBT} = $gender;
next unless $prev_token;
not $prev_token or $token->{TBEG} >= $prev_token->{TEND}-$epsilon or die
("\n\nFATAL ERROR: RTTM file has overlapping $data_type tokens for speaker $spkr\n".
" in file $file, channel $chnl: ($prev_token->{TBEG},$prev_token->{TEND}),".
" ($token->{TBEG},$token->{TEND})\n\n");
$prev_token = $token;
}
}
}
else {
@{$data->{$file}{$chnl}{$data_type}} =
sort {$a->{TMID} <=> $b->{TMID}} @{$data->{$file}{$chnl}{$data_type}};
}
}
}
}
}
#################################
sub evaluate {
my ($ref_data, $sys_data, $uem_data) = @_;
my ($uem, $uem_sd_eval, $uem_sd_score, $uem_md_eval, $uem_md_score);
my ($ref_wds, $sys_wds, $ref_mds, $sys_mds, $type, %scores, $ref_rttm, $sys_rttm);
foreach my $file (sort keys %$ref_data) {
foreach my $chnl (sort keys %{$ref_data->{$file}}) {
$ref_rttm = $ref_data->{$file}{$chnl}{RTTM};
$sys_rttm = $sys_data->{$file}{$chnl}{RTTM};
$ref_wds = $ref_data->{$file}{$chnl}{LEXEME} ? $ref_data->{$file}{$chnl}{LEXEME} : [];
$sys_wds = $sys_data->{$file}{$chnl}{LEXEME} ? $sys_data->{$file}{$chnl}{LEXEME} : [];
$uem = $uem_data->{$file}{$chnl};
$uem = uem_from_rttm ($ref_rttm) if not defined $uem;
@$ref_wds > 0 or not $opt_w or die
"\n\nFATAL ERROR: no reference words for file '$file' and channel '$chnl'\n\n";
@$sys_wds > 0 or not $opt_w or die
"\n\nFATAL ERROR: no system output words for file '$file' and channel '$chnl'\n".
" Words are required for word-mediated alignment\n\n";
if ($ref_wds and ($opt_w or $opt_e)) {
tag_words_with_metadata_attributes ($ref_rttm, $ref_wds);
tag_words_with_metadata_attributes ($sys_rttm, $sys_wds);
perform_word_alignment ($file, $chnl, $ref_wds, $sys_wds, $uem);
}
$uem_md_eval = add_exclusion_zones_to_uem ($noeval_md, $uem, $ref_rttm);
$uem_md_score = add_exclusion_zones_to_uem ($noscore_md, $uem_md_eval, $ref_rttm);
$uem_md_score = exclude_overlapping_speech_from_uem ($uem_md_score, $ref_rttm) if $opt_1;
tag_scoreable_words ($ref_wds, $uem_md_score);
foreach $type (sort keys %md_subtypes) {
$ref_mds = $ref_data->{$file}{$chnl}{$type};
next unless defined $ref_mds;
@$ref_wds > 0 or die
"\n\nFATAL ERROR: no reference words for file '$file' and channel '$chnl'\n\n";
$sys_mds = $sys_data->{$file}{$chnl}{$type};
$sys_mds = $sys_data->{$file}{$chnl}{$type} = [] unless defined $sys_mds;
map_metadata_to_words ($sys_mds, $sys_wds, $ref_mds, $ref_wds);
discard_unevaluated_metadata ($uem_md_eval, $type, $ref_mds, $ref_wds, "REF");
next if @$ref_mds == 0;
align_data ($ref_mds, $sys_mds, "", \&md_score, $max_md_delta_score);
trace_best_path ($ref_mds, $sys_mds);
discard_metadata_subtype ("EDIT", "complex", $ref_mds, $sys_mds) if $type eq "EDIT" and $opt_x;
discard_metadata_subtype ("SU", "unannotated", $ref_mds, $sys_mds) if $type eq "SU";
discard_unevaluated_metadata ($uem_md_eval, $type, $sys_mds, $ref_wds, "SYS");
($scores{$type}{$file}{$chnl}) = score_metadata_path
($type, $file, $chnl, $ref_mds, $sys_mds, $ref_wds);
}
$ref_mds = $ref_data->{$file}{$chnl}{SPEAKER};
if (defined $ref_mds) {
@$ref_wds > 0 or not $opt_W or die
"\n\nFATAL ERROR: no reference words for file '$file' and channel '$chnl'\n\n";
$uem_sd_eval = add_exclusion_zones_to_uem ($noeval_sd, $uem, $ref_rttm);
$sys_mds = $sys_data->{$file}{$chnl}{SPEAKER};
$sys_mds = $sys_data->{$file}{$chnl}{SPEAKER} = {} unless defined $sys_mds;
map_spkrdata_to_words ($sys_mds, $sys_wds, $ref_mds, $ref_wds);
($scores{SPEAKER}{$file}{$chnl}) = score_speaker_diarization
($file, $chnl, $ref_mds, $sys_mds, $ref_wds, $uem_sd_eval, $ref_rttm);
}
if ($opt_e) {
discard_unevaluated_metadata ($uem, "LEXEME", $ref_rttm);
discard_unevaluated_metadata ($uem, "LEXEME", $sys_rttm);
discard_unevaluated_metadata ($uem_md_eval, "", $ref_rttm);
discard_metadata_subtype ("EDIT", "complex", $ref_rttm, $sys_rttm) if $opt_x;
discard_metadata_subtype ("SU", "unannotated", $ref_rttm, $sys_rttm);
discard_unevaluated_metadata ($uem_md_eval, "", $sys_rttm);
display_metadata_mapping ($file, $chnl, $ref_rttm, $sys_rttm, $ref_wds);
}
}
}
foreach $type (sort keys %md_subtypes) {
md_performance_analysis ($type, $scores{$type}, $md_subtypes{$type}, $ref_data)
if $scores{$type};
}
sd_performance_analysis ($scores{SPEAKER}, \%spkr_subtypes)
if $scores{SPEAKER};
}
#################################
sub perform_word_alignment {
my ($file, $chnl, $ref_wds, $sys_wds, $uem) = @_;
my @ref_wds = @$ref_wds;
my @sys_wds = @$sys_wds;
discard_unevaluated_words ($uem, \@ref_wds);
discard_unevaluated_words ($uem, \@sys_wds);
@ref_wds > 0 or die
"\n\nFATAL ERROR: no reference words in UEM portion of file '$file' and channel '$chnl'\n\n";
@sys_wds > 0 or not $opt_w or die
"\n\nFATAL ERROR: no system output words in UEM portion of file '$file' and channel '$chnl'\n".
" Words are required for word-mediated alignment\n\n";
return unless @sys_wds > 0;
if ($opt_o) {
foreach my $spkr (word_kinds ($ref_wds, "SPKR")) {
align_data ($ref_wds, $sys_wds, $spkr, \&word_score, $max_wd_delta_score);
trace_best_path ($ref_wds, $sys_wds, $spkr);
}
decide_who_spoke_the_words ($ref_wds, $sys_wds);
}
else {
align_data ($ref_wds, $sys_wds, "", \&word_score, $max_wd_delta_score);
trace_best_path ($ref_wds, $sys_wds);
}
#map system output word times to ref words
foreach my $wd (@$sys_wds) {
$wd->{RTBEG} = adjust_sys_time_to_ref ($wd->{TBEG}, $sys_wds);
$wd->{RTEND} = adjust_sys_time_to_ref ($wd->{TEND}, $sys_wds);
$wd->{RTDUR} = $wd->{RTEND} - $wd->{RTBEG};
$wd->{RTMID} = $wd->{RTBEG} + $wd->{RTDUR}/2;
}
score_word_path ($file, $chnl, $ref_wds, $sys_wds) if $opt_d;
}
################################
sub time_in_eval_partition {
my ($time, $uem_eval) = @_;
return 1 unless defined $uem_eval; #not using UEM partition specification
foreach my $partition (@$uem_eval) {
return 1 if event_covers_time ($partition, $time);
}
return 0;
}
#################################
sub discard_unevaluated_words {
my ($uem, $wds) = @_;
for (my $index=0; $index<@$wds; $index++) {
splice (@$wds, $index--, 1)
if ($wds->[$index]{TYPE} eq "LEXEME" and
not time_in_eval_partition ($wds->[$index]{TMID}, $uem));
}
}
#################################
sub discard_unevaluated_metadata {
my ($uem_eval, $type, $mds, $ref_wds, $src) = @_;
for (my $index=0; $index<@$mds; $index++) {
my $md = $mds->[$index];
next if (($type and $md->{TYPE} ne $type) or
(not $type and not $md_subtypes{$md->{TYPE}}) or
$md->{MAPPTR} or
md_in_uem ($md, $uem_eval));
warn_if_discarded_md_covers_scored_lexemes ($md, $ref_wds, $uem_eval, $src) if $ref_wds;
splice (@$mds, $index--, 1);
}
}
#################################
sub warn_if_discarded_md_covers_scored_lexemes {
my ($md, $ref_wds, $uem, $source) = @_;
my ($wbeg, $wend, $index);
($wbeg, $wend) = md_word_indices ($md, $ref_wds);
for ($index=$wbeg; $index<=$wend; $index++) {
next unless ($ref_wds->[$index]{SCOREABLE} and
time_in_eval_partition ($ref_wds->[$index]{TMID}, $uem));
warn "\nWARNING: A $source metadata event is being deleted that covers evaluated reference LEXEMEs\n".
" (type=$md->{TYPE}, subtype=$md->{SUBT}, spkr=$md->{SPKR}, TBEG=$md->{TBEG}, TEND=$md->{TEND})\n";
last;
}
}
#################################
sub discard_metadata_subtype {
my ($type, $subtype, $ref_mds, $sys_mds) = @_;
my ($iref, $isys, $ref_md, $sys_md);
#discard all sys $type events that map to a ref event with subtype = $subtype
#or that are unmapped and have midpoints that lie within a ref event with subtype = $subtype
for ($iref=0; $iref<@$ref_mds; $iref++) {
$ref_md = $ref_mds->[$iref];
next unless ($ref_md->{TYPE} eq $type and
$ref_md->{SUBT} eq $subtype);
for ($isys=0; $isys<@$sys_mds; $isys++) {
$sys_md = $sys_mds->[$isys];
splice (@$sys_mds, $isys--, 1)
if ($sys_md->{TYPE} eq $type and
(($sys_md->{MAPPTR} and $sys_md->{MAPPTR}{SUBT} eq $subtype) or
(not $sys_md->{MAPPTR} and event_covers_time ($ref_md, $sys_md->{RTMID}))));
}
#discard all ref $type/$subtype events
splice (@$ref_mds, $iref--, 1);
}
}
#################################
sub tag_scoreable_words {
my ($wds, $uem_eval) = @_;
foreach my $wd (@$wds) {
$wd->{SCOREABLE} = time_in_eval_partition ($wd->{TMID}, $uem_eval);
}
}
#################################
sub tag_words_with_metadata_attributes {
my ($mds, $wds) = @_;
my ($md, $iwbeg, $iwend, $iw, $wd, $type);
foreach $md (@$mds) {
$type = $md->{TYPE};
next unless $type =~ /^(FILLER|EDIT|SU|IP)$/;
($iwbeg, $iwend) = md_word_indices ($md, $wds);
if ($type =~ /^(FILLER|EDIT)$/) {
for ($iw=$iwbeg; $iw<=$iwend; $iw++) {
$wds->[$iw]{ATTRIBUTES}{$md->{TYPE}} = $md->{SUBT};
}
}
elsif ($type =~ /^(SU|IP)$/) {
$wds->[$iwend]{ATTRIBUTES}{$md->{TYPE}} = $md->{SUBT};
}
}
return;
}
#################################
sub tag_ref_words_with_metadata_info {
my ($mds, $wds, $src) = @_;
my ($md, $iwbeg, $iwend, $iw, $type);
foreach $md (@$mds) {
$type = $md->{TYPE};
($iwbeg, $iwend) = $src eq "REF" ?
($md->{WBEG}, $md->{WEND}) : ($md->{RWBEG}, $md->{RWEND}) ;
if ($type =~ /^(FILLER|EDIT)$/) {
for ($iw=max($iwbeg,0); $iw<=min($iwend,@$wds-1); $iw++) {
$wds->[$iw]{"$src-$type"}{$md->{SUBT}}{MAP}++;
}
}
elsif ($type =~ /^(SU|IP)$/) {
$iwend = min(max($iwend,0),@$wds-1);
$wds->[$iwend]{"$src-$type"}{$md->{SUBT}}{defined $md->{MAPPTR} ? "MAP" : "NOT"}++;
}
}
return;
}
#################################
sub md_performance_analysis {
my ($metadata_type, $counts, $subtypes, $ref_data) = @_;
my ($file, $chnl, $spkr, $word, $type, $type_counts, $key);
my (@files, @chnls, @spkrs, @types, %nevent, %nwerr);
my ($subtype, $sys_subtype, %nconf, %offsets);
#compute marginal counts
@files = keys %$counts;
foreach $file (@files) {
@chnls = keys %{$counts->{$file}};
foreach $chnl (@chnls) {
$type_counts = $counts->{$file}{$chnl};
foreach $type ("REF", "DEL", "INS", "SUB") {
next unless defined $type_counts->{WORDS}{$type};
$nwerr{ALL}{$type} += $type_counts->{WORDS}{$type};
$nwerr{"c=$chnl f=$file"}{$type} += $type_counts->{WORDS}{$type} if $opt_A =~ /c/i and $opt_A =~ /f/i;
$nwerr{"c=$chnl"}{$type} += $type_counts->{WORDS}{$type} if $opt_A =~ /c/i and not $opt_A =~ /f/i;
$nwerr{"f=$file"}{$type} += $type_counts->{WORDS}{$type} if $opt_A =~ /f/i and not $opt_A =~ /c/i;
}
foreach $type ("WBEG", "WEND") {
foreach $key (keys %{$type_counts->{WORD_OFFSET}{$type}}) {
$offsets{ALL}{$type}{$key} += $type_counts->{WORD_OFFSET}{$type}{$key};
}
}
my $spkr_info = $ref_data->{$file}{$chnl}{"SPKR-INFO"};
$spkr_info->{unknown}{GENDER} = "unknown" unless defined $spkr_info->{unknown};
foreach $type (keys %$type_counts) {
next unless $type =~ /^(REF|DEL|INS|SUB|CONFUSION)$/;
@spkrs = keys %{$type_counts->{$type}};
foreach $spkr (@spkrs) {
my $gndr = $spkr_info->{$spkr}{GENDER};
foreach $subtype (keys %$subtypes) {
my $count = $type_counts->{$type}{$spkr}{$subtype};
next unless $count;
if ($type eq "CONFUSION") {
foreach $sys_subtype (keys%$count) {
$nconf{ALL}{$subtype}{$sys_subtype} += $count->{$sys_subtype};
$nconf{ALL}{$subtype}{$sys_subtype} = 0 if not $nconf{ALL}{$subtype}{$sys_subtype};
$nconf{ALL}{$sys_subtype}{$subtype} = 0 if not $nconf{ALL}{$sys_subtype}{$subtype};
}
next;
}
$nconf{ALL}{$subtype}{"{Miss}"} += $count if $type eq "DEL";
$nconf{ALL}{"{FA}"}{$subtype} += $count if $type eq "INS";
$nconf{ALL}{$subtype}{"{Miss}"} = 0 unless defined $nconf{ALL}{$subtype}{"{Miss}"};
$nconf{ALL}{"{FA}"}{$subtype} = 0 unless defined $nconf{ALL}{"{FA}"}{$subtype};
$nevent{ALL}{$type} += $count;
$nevent{"c=$chnl f=$file"}{$type} += $count if $opt_a =~ /c/i and $opt_a =~ /f/i;
$nevent{"c=$chnl"}{$type} += $count if $opt_a =~ /c/i and not $opt_a =~ /f/i;
$nevent{"f=$file"}{$type} += $count if $opt_a =~ /f/i and not $opt_a =~ /c/i;
$nevent{"s=$spkr"}{$type} += $count if $opt_a =~ /s/i;
$nevent{"g=$gndr"}{$type} += $count if $opt_a =~ /g/i;
}
}
}
}
}
print_md_scores ($metadata_type, \%nevent, \%nconf, \%offsets, \%nwerr);
}
#################################
sub print_offset_stats {
my ($counts) = @_;
my (@offsets, $count, $min, $max, $i);
@offsets = (keys %{$counts->{WBEG}}, keys %{$counts->{WEND}});
$min = min (-3, @offsets);
$max = max (3, @offsets);
print " word offsets: <-3 ";
for ($i=-3; $i<=3; $i++) {
printf "%5d", $i;
}
print " >3\n";
print " BEG:";
for ($count=0,$i=$min; $i<-3; $i++) {
$count += $counts->{WBEG}{$i} if defined $counts->{WBEG}{$i};
}
printf "%5d ", $count if defined $count;
print " - ", unless defined $count;
for ($i=-3; $i<=3; $i++) {
$count = $counts->{WBEG}{$i};
printf "%5d", $count if defined $count;
print " -", unless defined $count;
}
for ($count=0,$i=4; $i<=$max; $i++) {
$count += $counts->{WBEG}{$i} if defined $counts->{WBEG}{$i};
}
printf "%7d", $count if defined $count;
print " -", unless defined $count;
print "\n END:";
for ($count=0,$i=$min; $i<-3; $i++) {
$count += $counts->{WEND}{$i} if defined $counts->{WEND}{$i};
}
printf "%5d ", $count if defined $count;
print " - ", unless defined $count;
for ($i=-3; $i<=3; $i++) {
$count = $counts->{WEND}{$i};
printf "%5d", $count if defined $count;
print " -", unless defined $count;
}
for ($count=0,$i=4; $i<=$max; $i++) {
$count += $counts->{WEND}{$i} if defined $counts->{WEND}{$i};
}
printf "%7d", $count if defined $count;
print " -", unless defined $count;
print "\n";
}
#################################
sub print_md_scores {
my ($metadata_type, $event_counts, $conf_counts, $offset_counts, $word_counts) = @_;
my ($type, $nerr, $norm, $name, $ref, $sys, $category, $counts);
my ($count, $min, $max, $i, @offsets);
my $head_format = "%36s %5s %5s %5s %6s %6s %6s %6s %6s\n";
my $data_format = "%-28.28s %5d %5d %5d %5s %6.2f %6.2f %6.2f %6.2f %6.2f\n";
my @header = ("Nref", "Ndel", "Nins", "Nsub", "%Del", "%Ins", "%Sub", "%D+I", "%Tot");