#!usr/bin/perl -w use strict; #use Shell; use FileHandle; #Use the time use Time::gmtime; #Get Date my $mydate = gmctime(); my ($char_per_line) = (80); my ($fname,$frpt,$finitial); my $add_default_clk = "off"; my $latch_token; my ($remove_buffers) = (0); my ($default_clk_name) = ("clk"); my @buffers_to_remove; my @buffers_to_rename; sub print_usage() { print "Usage:\n"; print " perl [-options]\n"; print " Options:(Mandatory!)\n"; print " -i \n"; print " -o \n"; print " Options: (Optional)\n"; print " -remove_buffers\n"; print " -add_default_clk\n"; print " -initial_blif \n"; print "\n"; return 0; } sub opts_read() { if (-1 == $#ARGV) { print "Error: No input argument!\n"; &print_usage(); exit(1); } else { for (my $iargv = 0; $iargv < $#ARGV+1; $iargv++) { if ("-i" eq $ARGV[$iargv]) { $fname = $ARGV[$iargv+1]; } elsif ("-o" eq $ARGV[$iargv]) { $frpt = $ARGV[$iargv+1]; } elsif ("-add_default_clk" eq $ARGV[$iargv]) { $add_default_clk = "on"; } elsif ("-initial_blif" eq $ARGV[$iargv]) { $finitial = $ARGV[$iargv+1]; } elsif ("-remove_buffers" eq $ARGV[$iargv]) { $remove_buffers = 1; } } } return 0; } # Print a line of blif netlist sub fprint_blifln($ $ $) { my ($FH, $tokens_ref, $char_per_line) = @_; my ($cur_line_len) = (0); my @tokens = @$tokens_ref; if ($char_per_line < 1) { die "ERROR: (fprint_blifln) minimum acceptable number of chars in a line is 1!\n"; } # if the length of current line exceed the char_per_line, # A continue line '\' is added and start a new line for (my $itok = 0; $itok < ($#tokens+1); $itok++) { if (!($tokens[$itok])) { next; } # Contain any buffer names to be removed won't show up if (1 == $remove_buffers) { for (my $ibuf = 0; $ibuf < $#buffers_to_remove + 1; $ibuf++) { if ($tokens[$itok] eq $buffers_to_remove[$ibuf]) { $tokens[$itok] = $buffers_to_rename[$ibuf]; } } } $cur_line_len += length($tokens[$itok]); if ($cur_line_len > $char_per_line) { print $FH "\\"."\n"; $cur_line_len = 0; } print $FH "$tokens[$itok] "; $cur_line_len += length($tokens[$itok]); } print $FH "\n"; } sub read_blifline($ $) { my ($FIN, $line_no_ptr) = @_; my ($lines,$line) = ("",""); # Get one line if (defined($line = <$FIN>)) { chomp $line; $lines = $line; # Replace the < and > with [ and ], VPR does not support... $lines =~ s//]/g; while($lines =~ m/\\$/) { $lines =~ s/\\$//; if (defined($line = <$FIN>)) { chomp $line; $lines = $lines.$line; $line =~ s//]/g; } else { return $lines; } } return $lines; } else { return $lines; } } sub process_blifmodel($ $) { my ($FIN,$line_no_ptr) = @_; my ($blackbox) = (0); my ($lines); my ($clk_num,$have_default_clk,$need_default_clk,$clk_recorded) = (0,0,0,0); my @model_input_tokens; my ($input_lines); while(!eof($FIN)) { # Get one line $lines = &read_blifline($FIN,$line_no_ptr); # Check the tokens if (!defined($lines)) { next; } my @tokens = split('\s+',$lines); # .end -> return if (!defined($tokens[0])) { next; } if (".end" eq $tokens[0]) { return (\@model_input_tokens,$blackbox,$clk_num,$have_default_clk,$need_default_clk); } elsif (".inputs" eq $tokens[0]) { foreach my $temp(@tokens) { if ($temp eq $default_clk_name) { $have_default_clk = 1; $clk_num++; print "Found 1 clock: $temp in @tokens\n"; last; } } @model_input_tokens = @tokens; } elsif (".blackbox" eq $tokens[0]) { $blackbox = 1; } elsif (".latch" eq $tokens[0]) { # illegal definition exit if ((3 != $#tokens)&&(5 != $#tokens)) { die "ERROR: [LINE: $$line_no_ptr]illegal definition of latch!\n"; } elsif (3 == $#tokens) { # We need a default clock if ($need_default_clk == 0) { $need_default_clk = 1; $clk_num++; } } elsif (5 == $#tokens) { $clk_recorded = 0; # Check if we have this clk names already foreach my $tmp(@model_input_tokens) { if ($tmp eq $tokens[4]) { $clk_recorded = 1; last; } } # if have been recorded, we push it into the array if (0 == $clk_recorded) { $clk_num++; push @model_input_tokens,$tokens[4]; } } # Could be subckt or .names } elsif (".names" eq $tokens[0]) { if ((3 == ($#tokens + 1))&&(1 == $remove_buffers)) { # We want to know is this a buffer??? my $lut_lines = &read_blifline($FIN,$line_no_ptr); my @lut_lines_tokens = split('\s+',$lut_lines); if ((2 == ($#lut_lines_tokens + 1))&&("1" eq $lut_lines_tokens[0])&&("1" eq $lut_lines_tokens[1])) { # push it to the array: buffers_to_remove push @buffers_to_remove,$tokens[1]; push @buffers_to_rename,$tokens[2]; } } } } # Re-organise the input lines #print @model_input_tokens; $input_lines = ".inputs "; foreach my $temp(@model_input_tokens) { if (".inputs" ne $temp) { $input_lines .= $temp." "; } } $input_lines =~ s/\s+$//; @model_input_tokens = split('\s+',$input_lines); return (\@model_input_tokens,$blackbox,$clk_num,$have_default_clk,$need_default_clk); } sub scan_blif() { my ($line,$lines); my @tokens; my ($clk_num,$have_default_clk,$need_default_clk,$clk_recorded); my ($blackbox,$model_clk_num); my @input_tokens; my $input_lines; my (@input_buffer); my ($line_no) = (0); if (!defined($finitial)) { $latch_token = "re clk"; } else { my $latch_token_found = 0; my $count = 0; my ($FIN0) = FileHandle->new; if ($FIN0->open("< $finitial")) { print "INFO: Parsing $finitial...\n"; } else { die "ERROR: Fail to open $finitial!\n"; } while((!$latch_token_found)&&(!eof($FIN0))){ # Get one line $lines = &read_blifline($FIN0); if (!defined($lines)) { next; } @tokens = split('\s+',$lines); if(".latch" eq $tokens[0]) { if($#tokens == 5){ $latch_token = "$tokens[3] $tokens[4]"; $latch_token_found = 1; } } } close($FIN0); } # Pre-process the netlist # Open src file first-scan to check if we have clock my ($FIN) = FileHandle->new; if ($FIN->open("< $fname")) { print "INFO: Parsing $fname...\n"; } else { die "ERROR: Fail to open $fname!\n"; } while(!eof($FIN)) { # Get one line $lines = &read_blifline($FIN); if (!defined($lines)) { next; } @tokens = split('\s+',$lines); if (!defined($tokens[0])) { next; } # When we found .model we should check it. until .end comes. # Check if it is a black box if (".model" eq $tokens[0]) { ($input_lines,$blackbox,$model_clk_num,$have_default_clk,$need_default_clk) = &process_blifmodel($FIN,\$line_no); if (0 == $blackbox) { @input_tokens = @$input_lines; } $clk_num += $model_clk_num; } } close($FIN); # Add default clock if ("on" eq $add_default_clk) { print "INFO: $clk_num clock ports need to be added.\n"; print "INFO: have_default_clk: $have_default_clk, need_default_clk: $need_default_clk\n"; if ((0 == $have_default_clk)&&(1 == $need_default_clk)) { push @input_tokens,$default_clk_name; } } # Bypass some sensitive tokens for(my $itok = 0; $itok < $#input_tokens+1; $itok++) { if ("unconn" eq $input_tokens[$itok]) { delete $input_tokens[$itok]; } } # Print Buffer names to be removed my $num_buffer_to_remove = $#buffers_to_remove + 1; print "INFO: $num_buffer_to_remove buffer to be removed:\n"; for(my $itok = 0; $itok < $#buffers_to_remove+1; $itok++) { print $buffers_to_remove[$itok]." will be renamed to ".$buffers_to_rename[$itok]."\n"; } # Second scan - write my ($inputs_written) = (0); my ($FIN2) = FileHandle->new; if ($FIN2->open("< $fname")) { print "INFO: Parsing $fname the second time...\n"; } else { die "ERROR: Fail to open $fname!\n"; } # Open des file my ($FOUT) = (FileHandle->new); if (!($FOUT->open("> $frpt"))) { die "Fail to create output file: $frpt!\n"; } while(!eof($FIN2)) { $line = <$FIN2>; chomp $line; if ($line eq "") { print $FOUT "\n"; next; } # Replace the < and > with [ and ], VPR does not support... $line =~ s//]/g; # Check if this line start with ".latch", which we cares only @tokens = split('\s+',$line); if ((".inputs" eq $tokens[0])&&(0 == $inputs_written)) { $lines = $line; while($lines =~ m/\\$/) { $line = <$FIN2>; chomp $line; # Replace the < and > with [ and ], VPR does not support... $line =~ s//]/g; $lines =~ s/\\$//; $lines = $lines.$line; } #print @input_tokens."\n"; &fprint_blifln($FOUT,\@input_tokens,$char_per_line); $inputs_written = 1; next; } if (".outputs" eq $tokens[0]) { $lines = $line; while($lines =~ m/\\$/) { $line = <$FIN2>; chomp $line; # Replace the < and > with [ and ], VPR does not support... $line =~ s//]/g; $lines =~ s/\\$//; $lines = $lines.$line; } my @output_tokens = split('\s',$lines); for(my $itok = 0; $itok < $#output_tokens+1; $itok++) { if ("unconn" eq $output_tokens[$itok]) { delete $output_tokens[$itok]; } } &fprint_blifln($FOUT,\@output_tokens,$char_per_line); next; } if (".latch" eq $tokens[0]) { # check if we need complete it if ($#tokens == 3) { # Complete it for (my $i=0; $i<3; $i++) { print $FOUT "$tokens[$i] "; } print $FOUT "$latch_token $tokens[3]\n"; } elsif ($#tokens == 5) { # replace the clock name with clk for (my $i=0; $i < ($#tokens+1); $i++) { # if (4 == $i) { # print $FOUT "clk "; # } else { print $FOUT "$tokens[$i] "; # } } print $FOUT "\n"; } else { die "ERROR: [LINE: $line_no]illegal definition of latch!\n"; } next; } elsif (".names" eq $tokens[0]) { if ((3 == ($#tokens + 1))&&(1 == $remove_buffers)) { # We want to know is this a buffer??? my $lut_lines = &read_blifline($FIN2,\$line_no); my @lut_lines_tokens = split('\s+',$lut_lines); if ((2 == ($#lut_lines_tokens + 1))&&("1" eq $lut_lines_tokens[0])&&("1" eq $lut_lines_tokens[1])) { # pass it. next; } else { print $FOUT "$line\n"; print $FOUT "$lut_lines\n"; } } else { print $FOUT "$line\n"; } next; } elsif ((".subckt" eq $tokens[0])&&(1 == $remove_buffers)) { $lines = $line; $lines =~ s/\s+$//; while($lines =~ m/\\$/) { $line = <$FIN2>; chomp $line; # Replace the < and > with [ and ], VPR does not support... $line =~ s//]/g; $lines =~ s/\\$//; $lines = $lines.$line; $lines =~ s/\s+$//; #ODIN II has some shit space after \ !!!!! } my @subckt_tokens = split('\s+',$lines); for(my $itok = 0; $itok < $#subckt_tokens+1; $itok++) { if (($itok > 1)&&("" ne $subckt_tokens[$itok])) { my @port_tokens = split('=',$subckt_tokens[$itok]); for (my $ibuf = 0; $ibuf < $#buffers_to_remove + 1; $ibuf++) { if ($port_tokens[1] eq $buffers_to_remove[$ibuf]) { $port_tokens[1] = $buffers_to_rename[$ibuf]; } } $subckt_tokens[$itok] = join ('=',$port_tokens[0],$port_tokens[1]); #print "See:".$subckt_tokens[$itok]."\n"; } } &fprint_blifln($FOUT,\@subckt_tokens,$char_per_line); next; } print $FOUT "$line\n"; } close($FIN2); close($FOUT); return 0; } sub main() { &opts_read(); &scan_blif(); return 0; } &main(); exit(0);