OpenFPGA/yosys/tests/tools/vcdcd.pl

288 lines
7.3 KiB
Perl
Executable File

#!/usr/bin/perl -w
#
# Note: You might need to install the Verilog::VCD package using CPAN..
use strict;
use Data::Dumper;
use Verilog::VCD qw(parse_vcd list_sigs);
$| = 1;
my $opt_width = 0;
my $opt_delay = 0;
while (1)
{
if ($ARGV[0] eq '-w') {
$opt_width = +$ARGV[1];
shift @ARGV;
shift @ARGV;
next;
}
if ($ARGV[0] eq '-d') {
$opt_delay = +$ARGV[1];
shift @ARGV;
shift @ARGV;
next;
}
last;
}
if ($#ARGV != 1) {
print STDERR "\n";
print STDERR "VCDCD - Value Change Dump Change Dumper\n";
print STDERR "\n";
print STDERR "Usage: $0 [-w N] [-d N] gold.vcd gate.vcd\n";
print STDERR "\n";
print STDERR " -w N\n";
print STDERR " reserve N characters for bitmap in text output (default: auto)\n";
print STDERR "\n";
print STDERR " -d N\n";
print STDERR " allow for N timesteps delay between gate and gold (default: 0)\n";
print STDERR "\n";
print STDERR "Compare a known-good (gold) vcd file with a second (gate) vcd file.\n";
print STDERR "This is not very efficient -- so use with care on large vcd files.\n";
print STDERR "\n";
exit 1;
}
my $fn_gold = $ARGV[0];
my $fn_gate = $ARGV[1];
print "Finding common signals..\n";
my @gold_signals = list_sigs($fn_gold);
my @gate_signals = list_sigs($fn_gate);
my %gold_signals_hash;
my %gate_signals_hash;
for (@gold_signals) {
my $fullname = $_;
s/(\[([0-9]+|[0-9]+:[0-9]+)\])$//;
$gold_signals_hash{$_}->{$fullname} = 1 unless /(^|\.)_[0-9]+_/;
}
for (@gate_signals) {
my $fullname = $_;
s/(\[([0-9]+|[0-9]+:[0-9]+)\])$//;
$gate_signals_hash{$_}->{$fullname} = 1 unless /(^|\.)_[0-9]+_/;
}
my @signals;
for my $net (sort keys %gold_signals_hash) {
next unless exists $gate_signals_hash{$net};
# next unless $net eq "tst_bench_top.i2c_top.byte_controller.bit_controller.cnt";
my %orig_net_names;
print "common signal: $net";
for my $fullname (keys $gold_signals_hash{$net}) {
$orig_net_names{$fullname} = 1;
}
for my $fullname (keys $gate_signals_hash{$net}) {
$orig_net_names{$fullname} = 1;
}
for my $net (sort keys %orig_net_names) {
push @signals, $net;
print " $1" if /(\[([0-9]+|[0-9]+:[0-9]+)\])$/;
}
print "\n";
}
print "Loading gold vcd data..\n";
my $vcd_gold = parse_vcd($fn_gold, {siglist => \@signals});
print "Loading gate vcd data..\n";
my $vcd_gate = parse_vcd($fn_gate, {siglist => \@signals});
# print Dumper($vcd_gold);
# print Dumper($vcd_gate);
my %times;
my $signal_maxlen = 8;
my $data_gold = { };
my $data_gate = { };
sub checklen($$)
{
my ($net, $val) = @_;
my $thislen = length $val;
$thislen += $1 if $net =~ /\[([0-9]+)\]$/;
$thislen += $1 if $net =~ /\[([0-9]+):[0-9]+\]$/;
$signal_maxlen = $thislen if $signal_maxlen < $thislen;
}
print "Processing gold vcd data..\n";
for my $key (keys %$vcd_gold) {
for my $net (@{$vcd_gold->{$key}->{'nets'}}) {
my $netname = $net->{'hier'} . "." . $net->{'name'};
for my $tv (@{$vcd_gold->{$key}->{'tv'}}) {
my $time = int($tv->[0]);
my $value = $tv->[1];
checklen($netname, $value);
$data_gold->{$time}->{$netname} = $value;
$times{$time} = 1;
}
}
}
print "Processing gate vcd data..\n";
for my $key (keys %$vcd_gate) {
for my $net (@{$vcd_gate->{$key}->{'nets'}}) {
my $netname = $net->{'hier'} . "." . $net->{'name'};
for my $tv (@{$vcd_gate->{$key}->{'tv'}}) {
my $time = int($tv->[0]);
my $value = $tv->[1];
checklen($netname, $value);
$data_gate->{$time}->{$netname} = $value;
$times{$time} = 1;
}
}
}
$signal_maxlen = $opt_width if $opt_width > 0;
my $diffcount = 0;
my %state_gold;
my %state_gate;
my %signal_sync;
my %touched_nets;
sub set_state_bit($$$$)
{
my ($state, $net, $bit, $value) = @_;
my @data;
@data = split //, $state->{$net} if exists $state->{$net};
unshift @data, "-" while $#data < $bit;
$data[$#data - $bit] = $value;
$state->{$net} = join "", @data;
$signal_sync{$net} = 1 unless exists $signal_sync{$net};
$touched_nets{$net} = 1;
}
sub set_state($$$)
{
my ($state, $net, $value) = @_;
if ($net =~ /(.*)\[([0-9]+)\]$/) {
set_state_bit($state, $1, $2, $value);
return;
}
if ($net =~ /(.*)\[([0-9]+):([0-9]+)\]$/) {
my ($n, $u, $d) = ($1, $2, $3);
my @bits = split //, $value;
my $extbit = $bits[0] eq "1" ? "0" : $bits[0];
unshift @bits, $extbit while $#bits < $u - $d;
set_state_bit($state, $n, $u--, shift @bits) while $u >= $d;
return;
}
$state->{$net} = $value;
$signal_sync{$net} = 1 unless exists $signal_sync{$net};
$touched_nets{$net} = 1;
}
sub cmp_signal($$)
{
my ($a, $b) = @_;
return 1 if $a eq $b;
my @a = split //, $a;
my @b = split //, $b;
my $trail_a = $#a < 0 ? '-' : $a[0] eq '1' ? '0' : $a[0];
my $trail_b = $#b < 0 ? '-' : $b[0] eq '1' ? '0' : $b[0];
unshift @a, $trail_a while $#a < $#b;
unshift @b, $trail_b while $#b < $#a;
for (my $i = 0; $i <= $#a; $i++) {
next if $a[$i] eq "-" || $b[$i] eq "-";
return 0 if $a[$i] ne "x" && $a[$i] ne $b[$i];
}
return 1;
}
# Message objects: .text, .time, .signal, .sync
my @messages;
print "Comparing vcd data..\n";
for my $time (sort { $a <=> $b } keys %times)
{
%touched_nets = ();
for my $net (keys %{$data_gold->{$time}}) {
set_state(\%state_gold, $net, $data_gold->{$time}->{$net});
}
for my $net (keys %{$data_gate->{$time}}) {
set_state(\%state_gate, $net, $data_gate->{$time}->{$net});
}
for my $net (sort keys %touched_nets) {
my ($stgo, $stga) = ('-', '-');
$stgo = $state_gold{$net} if exists $state_gold{$net};
$stga = $state_gate{$net} if exists $state_gate{$net};
if (cmp_signal($stgo, $stga)) {
next if $signal_sync{$net};
my $message = { };
$message->{text} = sprintf "%-10s %-20d %-*s %-*s %s\n", "<sync>", $time, $signal_maxlen, $stgo, $signal_maxlen, $stga, $net;
$message->{time} = $time;
$message->{signal} = $net;
$message->{sync} = 1;
push @messages, $message;
$signal_sync{$net} = 1;
} else {
my $message = { };
$message->{text} = sprintf "%-10d %-20d %-*s %-*s %s\n", $diffcount, $time, $signal_maxlen, $stgo, $signal_maxlen, $stga, $net;
$message->{time} = $time;
$message->{signal} = $net;
$message->{sync} = 0;
push @messages, $message;
$signal_sync{$net} = 0;
$diffcount++;
}
}
}
print "Found $diffcount differences.\n";
if ($opt_delay > 0) {
my %per_net_history;
my $removed_diff_count = 0;
for (my $i = 0; $i <= $#messages; $i++) {
my $message = $messages[$i];
$message->{deleted} = 0;
$per_net_history{$message->{signal}} = [ ] unless exists $per_net_history{$message->{signal}};
if ($message->{sync}) {
my $deleted_all = 1;
for my $j (@{$per_net_history{$message->{signal}}}) {
my $m = $messages[$j];
if ($m->{time} + $opt_delay >= $message->{time}) {
$m->{deleted} = 1;
$removed_diff_count++;
} else {
$deleted_all = 0;
}
}
$message->{deleted} = 1 if $deleted_all;
$per_net_history{$message->{signal}} = [ ];
} else {
push @{$per_net_history{$message->{signal}}}, $i;
}
}
my @new_messages;
for my $message (@messages) {
push @new_messages, $message unless $message->{deleted};
}
@messages = @new_messages;
printf "Removed %d differences using delay filtering.\n", $removed_diff_count;
$diffcount = $diffcount - $removed_diff_count;
}
if ($#messages >= 0) {
printf "\n%-10s %-20s %-*s %-*s %s\n", "count", "time", $signal_maxlen, "gold", $signal_maxlen, "gate", "net" if $diffcount++ == 0;
for (my $i = 0; $i <= $#messages; $i++) {
printf "%s", $messages[$i]->{text};
}
}
exit ($diffcount > 0 ? 1 : 0);