#!/usr/bin/perl -w # See copyright, etc in below POD section. ###################################################################### require 5.006_001; use Getopt::Long; use IO::File; use Pod::Usage; use Data::Dumper; $Data::Dumper::Indent = 1; use Bit::Vector; use strict; use vars qw($Debug); our @Orig_ARGV = @ARGV; our $Rerun_Args = $0." ".join(' ',@Orig_ARGV); $Rerun_Args =~ s/\s+$//; use vars qw(@Blocks %Vars %VarAttrs %VarsBlock %Tree @Commit $Depth %IdWidth %Ops); #====================================================================== # width=> Number of bits the output size is, 0=you tell me. # func=> What to put in output file # signed=> 0=unsigned output, 1=signed output, '%1'=signed if op1 signed # lsb=> LSB for variable declarations # em=> How to calculate emulated return value # %w Width of this output op ($treeref->{width}) # %v Output value ($treeref->{val}) # %1r First operand ($treeref->{op1}) # %1v First operand value ($treeref->{op1}{val}) # %1w First operand width ($treeref->{op1}{width}) our $Raise_Weight_Max = 50; %Ops = ( 'VCONST'=> {weight=>1&&20, width=>0, sc=>1, terminal=>1, v=>'%v', }, 'VIDNEW'=> {weight=>1&&10, width=>0, sc=>1, terminal=>0, v=>'%i', }, 'VIDOLD'=> {weight=>1&&20, width=>0, sc=>1, terminal=>0, v=>'%i', }, 'VIDSAME'=> {weight=>1&&20, width=>0, sc=>1, terminal=>0, v=>'%i', }, 'VRANGE'=> {weight=>1&&30, width=>0, signed=>0,sc=>0, terminal=>0, v=>'%i[%2:%3]', }, 'VBITSEL'=> {weight=>1&&10, width=>1, signed=>0,sc=>0, terminal=>0, v=>'%i[%2]', }, 'VBITSELP'=> {weight=>1&&10, width=>0, signed=>0,sc=>0, terminal=>0, v=>'%i[%2+:%3]', }, 'VBITSELM'=> {weight=>1&&10, width=>0, signed=>0,sc=>0, terminal=>0, v=>'%i[%2-:%3]', }, # Unary 'VEXTEND'=> {weight=>1&&3, width=>-2, signed=>0,sc=>0, terminal=>0, v=>'{%xd\'h0,%1}', }, 'VLOGNOT'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(! %1)', }, 'VREDAND'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(& %1)', }, 'VREDOR'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(| %1)', }, 'VREDNAND'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(~& %1)', }, 'VREDNOR'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(~| %1)', }, 'VREDXNOR'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(^~ %1)', }, 'VREDXOR'=> {weight=>1&&1, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(^ %1)', }, 'VNOT'=> {weight=>1&&3, width=>0, sc=>1, terminal=>0, v=>'(~ %1)', }, 'VNEGATE'=> {weight=>1&&2, width=>0, sc=>1, terminal=>0, v=>'(- %1)', }, 'VCOUNTONES'=> {weight=>0&&2, width=>32, signed=>0, sc=>0, terminal=>0, v=>'\$countones(%1)', }, # No ncv support 'VONEHOT'=> {weight=>0&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'\$onehot(%1)', }, # No ncv support 'VONEHOT0'=> {weight=>0&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'\$onehot0(%1)', }, # No ncv support # Binary 'VAND'=> {weight=>1&&2, width=>0, sc=>1, terminal=>0, v=>'(%1 & %2)', }, 'VOR'=> {weight=>1&&2, width=>0, sc=>1, terminal=>0, v=>'(%1 | %2)', }, 'VNAND'=> {weight=>1&&0, width=>0, sc=>0, terminal=>0, v=>'(%1 ~& %2)', }, #FIX vcs bug! 'VNOR'=> {weight=>1&&0, width=>0, sc=>0, terminal=>0, v=>'(%1 ~| %2)', }, #FIX vcs bug! 'VXOR'=> {weight=>1&&2, width=>0, sc=>1, terminal=>0, v=>'(%1 ^ %2)', }, 'VXNOR'=> {weight=>1&&0, width=>0, sc=>0, terminal=>0, v=>'(%1 ^~ %2)', }, #FIX vcs bug! 'VEQ'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 == %2)', }, 'VNEQ'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 != %2)', }, 'VGT'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 > %2)', }, 'VGTE'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 >= %2)', }, 'VLT'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 < %2)', }, 'VLTE'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 <= %2)', }, 'VEQCASE'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 === %2)', }, # FIX just a = for now 'VNEQCASE'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 !== %2)', }, # FIX just a != for now 'VLOGOR'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 || %2)', }, 'VLOGAND'=> {weight=>1&&2, width=>1, signed=>0, sc=>0, terminal=>0, v=>'(%1 && %2)', }, 'VADD'=> {weight=>1&&10, width=>0, sc=>1, terminal=>0, v=>'(%1 + %2)', }, 'VSUB'=> {weight=>1&&10, width=>0, sc=>1, terminal=>0, v=>'(%1 - %2)', }, 'VMUL'=> {weight=>1&&15,width=>0, sc=>1, terminal=>0, v=>'(%1 * %2)', }, # High % as rarely applyable # Unspecified behavior with == (a-signed / b) -- see t_math_signed5.v test 'VDIV'=> {weight=>1&&8, width=>0, signed=>0, sc=>1, terminal=>0, v=>'((%2)==%xw\'h0 ? %xw\'%xsh0:(%1 / %2))', }, 'VMODDIV'=> {weight=>1&&8, width=>0, signed=>0, sc=>1, terminal=>0, v=>'((%2)==%xw\'h0 ? %xw\'%xsh0:(%1 %% %2))', }, #'VPOW'=> {weight=>2&&0,width=>-64, sc=>0, terminal=>0, v=>'(%1 ** %2)', }, 'VSHIFTL'=> {weight=>1&&8, width=>0, signed=>0, sc=>0, terminal=>0, v=>'(%1 << %2)', }, 'VSHIFTLS'=> {weight=>1&&8, width=>0, signed=>1, sc=>0, terminal=>0, v=>'(%1 <<< %2)', }, 'VSHIFTR'=> {weight=>1&&8, width=>0, signed=>0, sc=>0, terminal=>0, v=>'(%1 >> %2)', }, 'VSHIFTRS'=> {weight=>1&&15,width=>0, signed=>1, sc=>0, terminal=>0, v=>'(%1 >>> %2)', }, # ShiftR seems to sign extend differently for <=32 and >32 bits 'VCONCAT'=> {weight=>1&&4, width=>-2,signed=>0, sc=>0, terminal=>0, v=>'{%1,%2}', }, 'VREPLIC'=> {weight=>1&&2, width=>0, signed=>0, sc=>0, terminal=>0, v=>'{%1{%2}}', }, 'VREPLIC1W'=> {weight=>1&&2, width=>0, signed=>0, sc=>0, terminal=>0, v=>'{%1{%2}}', }, 'VSIGNED'=> {weight=>1&&2, width=>0, signed=>1, sc=>0, terminal=>0, v=>'\$signed(%1)', }, 'VUNSIGNED'=> {weight=>1&&2, width=>0, signed=>0, sc=>0, terminal=>0, v=>'\$unsigned(%1)', }, # Triops 'VCOND'=> {weight=>1&&4, width=>0, sc=>0, terminal=>0, v=>'(%1 ? %2 : %3)', }, # Control flow #VIF #VFOR #VCASE #VCASEX #VCASEZ ); my %ops2 = ( 'VCONST'=> {pl=>'', rnd=>'rnd_const(%tr);'}, 'VIDNEW'=> {pl=>'%tv=$Vars{%i}{val};', rnd=>'%i=next_id(%tw);' .' $Vars{%i}=gen_leaf(width=>%tw,trunc=>1,signed=>%tg);' .' $VarAttrs{%i}{lsb} = rnd_lsb();' .' id_commit(%tr,"%i");1;',}, 'VIDOLD'=> {pl=>'%tv=$Vars{%i}{val};', rnd=>'%i=id_old(%tr);', ok_id_width=>1,}, 'VIDSAME'=> {pl=>'%tv=$Vars{%i}{val};', rnd=>'%i=id_same(%tr);', ok_id_width=>1,}, # These create IDs they then extract from 'VRANGE'=> {pl=>'VRANGE(%tr,$Vars{%i}{val},%2v,%3v,$VarAttrs{%i}{lsb});', rnd=>'%i=next_id(%tw); $VarAttrs{%i}{lsb} = 0&&rnd_lsb();' .' my $lsb=rnd(128-%tw); my $msb=$lsb+%tw-1;' .' %2r=val_leaf($msb); %3r=val_leaf($lsb);' .' $Vars{%i}=gen_leaf(width=>($msb+1));'}, 'VBITSEL'=> {pl=>'VRANGE(%tr,$Vars{%i}{val},%2v,%2v,$VarAttrs{%i}{lsb});', rnd=>'%i=next_id(%tw); $VarAttrs{%i}{lsb} = 0&&rnd_lsb();' .' my $wid=min(128,rnd_width()|3);' .' %2r=gen_leaf(width=>(log2($wid)-1),signed=>0);' .' $Vars{%i}=gen_leaf(width=>$wid);'}, 'VBITSELP'=> {pl=>'VBITSELP(%tr,$Vars{%i}{val},%2v,%3v,$VarAttrs{%i}{lsb});', rnd=>'%i=next_id(%tw); $VarAttrs{%i}{lsb} = 0&&rnd_lsb();' .' my $wid=min(128,(%tw+rnd_width()|3)); %3r=val_leaf(%tw); my $maxval = $wid-%tw; %2r=(($maxval<4)?val_leaf($maxval):gen_leaf(width=>(log2($maxval)-1),signed=>0));' .' $Vars{%i}=gen_leaf(width=>$wid);'}, 'VBITSELM'=> {pl=>'VBITSELM(%tr,$Vars{%i}{val},%2v,%3v,$VarAttrs{%i}{lsb});', rnd=>'%i=next_id(%tw); $VarAttrs{%i}{lsb} = 0&&rnd_lsb();' .' my $wid=min(128,(%tw+rnd_width()|3)); %3r=val_leaf(%tw); my $maxval = $wid-1; my $minval=%tw-1; %2r=val_leaf(rnd($maxval-$minval)+$minval);' .' $Vars{%i}=gen_leaf(width=>$wid);'}, # No easy way to make expr with specified minimum # Unary 'VEXTEND'=> {pl=>'VRESIZE (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>rnd_width(%tw-1));'}, 'VLOGNOT'=> {pl=>'VLOGNOT (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDAND'=> {pl=>'VREDAND (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDOR'=> {pl=>'VREDOR (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDNAND'=> {pl=>'VREDNAND (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDNOR'=> {pl=>'VREDNOR (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDXOR'=> {pl=>'VREDXOR (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VREDXNOR'=> {pl=>'VREDXNOR (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VNOT'=> {pl=>'VNOT (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VNEGATE'=> {pl=>'VNEGATE (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VCOUNTONES'=> {pl=>'VCOUNTONES(%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VONEHOT'=> {pl=>'VONEHOT (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, 'VONEHOT0'=> {pl=>'VONEHOT0 (%tr,%1v);', rnd=>'%1r=gen_leaf(width=>0);'}, # Binary 'VAND'=> {pl=>'VAND (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VOR'=> {pl=>'VOR (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VNAND'=> {pl=>'VNAND (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VNOR'=> {pl=>'VNOR (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VXOR'=> {pl=>'VXOR (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VXNOR'=> {pl=>'VXNOR (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VEQ'=> {pl=>'VEQ (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VNEQ'=> {pl=>'VNE (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VGT'=> {pl=>'VGT (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VGTE'=> {pl=>'VGE (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VLT'=> {pl=>'VLT (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VLTE'=> {pl=>'VLE (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VEQCASE'=> {pl=>'VEQ (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VNEQCASE'=> {pl=>'VNE (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>%1w,signed=>%1g);'}, 'VLOGOR'=> {pl=>'VLOGOR (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>0);'}, 'VLOGAND'=> {pl=>'VLOGAND(%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>0); %2r=gen_leaf(width=>0);'}, 'VADD'=> {pl=>'VADD (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);', trunc=>1,}, 'VSUB'=> {pl=>'VSUB (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);', trunc=>1,}, 'VMUL'=> {pl=>'VMUL (%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);', trunc=>1,}, # Multiply generates larger width, so need truncate for safety 'VDIV'=> {pl=>'VDIV (%tr,%1r,%2r,0);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, 'VMODDIV'=> {pl=>'VDIV (%tr,%1r,%2r,1);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>%tw,signed=>%tg);'}, #'VPOW'=> {pl=>'VPOW (%tr,%1r,%2r);', rnd=>'%1r=gen_leaf(width=>min(%tw,6),signed=>%tg); %2r=gen_leaf(width=>min(%tw,8),signed=>%tg);', trunc=>1,}, # Generates larger width, so need truncate for safety 'VSHIFTL'=> {pl=>'VSHIFTL(%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>log2(%tw)+1,signed=>%tg);'}, 'VSHIFTLS'=> {pl=>'VSHIFTL(%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>log2(%tw)+1,signed=>%tg);'}, 'VSHIFTR'=> {pl=>'VSHIFTR(%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>log2(%tw)+1,signed=>%tg);'}, 'VSHIFTRS'=> {pl=>'VSHIFTRS(%tr,%1v,%2v);', rnd=>'%1r=gen_leaf(width=>%tw,signed=>%tg); %2r=gen_leaf(width=>log2(%tw)+1,signed=>%tg);'}, 'VCONCAT'=> {pl=>'VCONCAT(%tr,%1v,%2v);', rnd=>'my $d=(rnd(%tw-2)+1); %1r=gen_leaf(width=>$d,signed=>0); %2r=gen_leaf(width=>(%tw-$d),signed=>0);'}, 'VREPLIC'=> {pl=>'VREPLIC(%tr,%1v,%2v);', rnd=>'my $d=rnd_rep_width(%tw); %1r=val_leaf($d); %2r=gen_leaf(width=>(%tw/$d),signed=>0);'}, 'VREPLIC1W'=> {pl=>'VREPLIC(%tr,%1v,%2v);', rnd=>'%1r=val_leaf(%tw); %2r=gen_leaf(width=>1,signed=>0);'}, 'VSIGNED'=> {pl=>'VCLONE (%tr,%1v,0);', rnd=>'%1r=gen_leaf(width=>%tw);'}, 'VUNSIGNED'=> {pl=>'VCLONE (%tr,%1v,0);', rnd=>'%1r=gen_leaf(width=>%tw);'}, # Triops 'VCOND'=> {pl=>'VCOND(%tr,%1v,%2v,%3v);', rnd=>'%1r=gen_leaf(width=>1); %2r=gen_leaf(width=>%tw,signed=>%tg); %3r=gen_leaf(width=>%tw,signed=>%tg);'}, ); foreach my $op (keys %ops2) { while ((my $key,my $val) = each %{$ops2{$op}}) { $Ops{$op}{$key} = $val; } } #====================================================================== # main #Bit::Vector->Configuration("ops=arithmetic"); my $opt_seed=5; our $Opt_NumOps = 30; our $Opt_Depth = 4; our $Opt_Output; our $Opt_Signed = 1; our $Opt_Raise; our $Opt_BlockStmts = 2; our $Signed_Pct = 60; $Debug = 0; if (! GetOptions ( "help" => \&usage, "debug" => \&debug, "depth=i" => \$Opt_Depth, "blockstmts=i"=> \$Opt_BlockStmts, "numops=i" => \$Opt_NumOps, "o=s" => \$Opt_Output, "raise=i" => \$Opt_Raise, "seed=i" => \$opt_seed, "signed!" => \$Opt_Signed, "<>" => \¶meter, )) { usage(); } if ($opt_seed==0) { srand(); $opt_seed = rnd(1<<20)+1; $Rerun_Args =~ s/-seed[= ]+0/-seed=$opt_seed/; print " $Rerun_Args\n"; } srand($opt_seed); init(); selftest(); gentest(); $Opt_Output or die "%Error: Need -o option,"; write_output_v($Opt_Output); #---------------------------------------------------------------------- sub usage { pod2usage(-verbose=>2, -exitval=>2, -output=>\*STDOUT); exit(1); } sub debug { $Debug = 1; } sub parameter { my $param = shift; die "%Error: Unknown parameter: $param\n"; } ####################################################################### ####################################################################### ####################################################################### ####################################################################### # Global Functions sub init { for my $op (keys %Ops) { my $opref = $Ops{$op}; $opref->{name} = $op; gen_v($opref); gen_pl($opref); gen_rnd($opref); } raise(); } sub raise { for (my $i=0; $i<($Opt_Raise||0); $i++) { my @ops = (values %Ops); while (1) { my $rndop = $ops[rnd($#ops + 1)]; next if !$rndop->{weight}; # Don't turn on disabled ops $rndop->{weight} += rnd($Raise_Weight_Max); printf "\tWeight %-15s +%d\n",$rndop->{name},$rndop->{weight}; last; } } } sub gentest { for (my $opn=0; $opn<$Opt_NumOps/$Opt_BlockStmts; $opn++) { do_a_test(); } } ####################################################################### # Randomization sub _rnd_op_ok { my $opref = shift; my $paramref = shift; return (($opref->{width} == 0 || $opref->{width} == $paramref->{width} # Note -2 means >, while -32 means {width}==-31 && $paramref->{width}<=31) # -31... must be <31 bits || ($opref->{width}==-32 && $paramref->{width}<=32) # -32... must be <32 bits || ($opref->{width}==-63 && $paramref->{width}<=63) # -63... must be <63 bits || ($opref->{width}==-64 && $paramref->{width}<=64) # -64... must be <64 bits || ($opref->{width}==-2 && $paramref->{width}>=2) # -2... must be >2 bits ) && (!$opref->{ok_id_width} || $IdWidth{$paramref->{width}}{$paramref->{signed}||0}) && (!defined $opref->{signed} || ($opref->{signed} == ($paramref->{signed}||0))) && (!$opref->{trunc} || $paramref->{trunc}) && (!$opref->{opt_signed} || $Opt_Signed) && (($Depth < $Opt_Depth && !$paramref->{need_terminal}) || $opref->{terminal})); } sub rnd_op { my $paramref = shift; my $totweight = 0; foreach my $opref (values %Ops) { if (_rnd_op_ok($opref,$paramref)) { $totweight += $opref->{weight}; } } my $chooseweight = rnd($totweight); $totweight = 0; foreach my $opref (values %Ops) { if (_rnd_op_ok($opref,$paramref)) { $totweight += $opref->{weight}; if ($chooseweight < $totweight) { return $opref; } } } die "%Error: No instructions match,"; } sub rnd_width { my $max = shift; my $v = rnd(100); my $n = (0 || (($v<20) && 1) || (($v<25) && 2) || (($v<30) && 31) || (($v<35) && 32) || (($v<40) && 63) || (($v<45) && 64) || (($v<50) && 95) || (($v<55) && 96) || (rnd(128)+1)); if ($max && $n>=$max) { $n = rnd($max-1)+1; } return $n; } sub rnd_rep_width { my $out = shift; return 1 if $out==1; # We'd like to pick any divisor that works. my @factors; for (my $div=1; $div<$out; $div++) { if (int($out/$div)==($out/$div)) { push @factors, $div; } } my $fac = $factors[rnd($#factors+1)]; #print "RND REP $out -> $fac (@factors)\n" if $Debug; return $fac; } sub rnd_const { my $treeref = shift; my $width = $treeref->{width} or die; my $v = rnd(100); my $val = Bit::Vector->new($width); if ($v<25) { # zero } elsif ($v<50) { # ones for (my $w=0; $w<$val->Word_Size; ++$w) { $val->Word_Store(0,~0); } } elsif ($v<60) { # one $val->Word_Store(0,1); } else { # random for (my $w=0; $w<$val->Word_Size; ++$w) { $val->Word_Store($w,rnd_int()); } } $treeref->{val} = $val; } sub rnd_int { my $v = rnd(100); return 0 if ($v<25); return ~0 if ($v<50); return 1 if ($v<60); return rnd32(); } sub rnd_lsb { return 0; #return rnd(8)-4; # Not working yet } sub rnd { return (int(rand($_[0]))) if ($_[0] < (1<<15)); return (rnd32() % $_[0]); } sub rnd32 { my $vp = int(rand(1<<16)); $vp ^= (int(rand(1<<8)))<<16; # Single 1<<16 doesn't work $vp ^= (int(rand(1<<8)))<<24; return ($vp); } ####################################################################### our $Next_Id = 0; sub next_id { # Note width hasn't been determined yet $Next_Id++; my $id = sprintf("W%04d",$Next_Id); return $id; } sub id_commit { my $treeref = shift; my $width = $treeref->{width}; my $signed = $treeref->{signed}; my $id = shift; push @Commit, sub { $IdWidth{$width}{$signed} = [] if !$IdWidth{$width}{$signed}; push @{$IdWidth{$width}{$signed}}, $id; $VarsBlock{$id}{set} = 1; 1; }; } sub id_old { my $treeref = shift; my $width = $treeref->{width}; my $signed = $treeref->{signed}; my $n = $#{$IdWidth{$width}{$signed}} + 1; my $idn = rnd($n); my $id = $IdWidth{$width}{$signed}[$idn]; $VarsBlock{$id}{used} = 1; return $id; } sub id_same { my $treeref = shift; my $width = $treeref->{width}; my $signed = $treeref->{signed}; my @possible; foreach my $id (keys %VarsBlock) { next if !$VarsBlock{$id}{used}; my $varref = $Vars{$id}; next if $varref->{signed} != $signed; next if $varref->{width} != $width; push @possible, $id; } my $n = $#possible + 1; if ($n<1) { # Nothing, grab another! return id_old($treeref,$width,$signed); } my $idn = rnd($n); my $id = $possible[$idn]; $VarsBlock{$id}{used} = 1; return $id; } sub write_output_v { my $filename = shift; my $fh = IO::File->new($filename, "w") or die("%Error: $! $filename,\n"); print $fh "// Created by: $Rerun_Args\n"; print $fh "module vgen (clk);\n"; print $fh " input clk;\n"; print $fh " reg check; initial check = '0;\n"; print $fh ' initial $write("\n*** Vgen.v starting, seed = ',$opt_seed,'\n");',"\n"; print $fh " // verilator lint_off UNSIGNED\n"; print $fh " // verilator lint_off CMPCONST\n"; print $fh " // verilator lint_off WIDTH\n"; print $fh "\n"; my $cycles = 2; foreach my $var (sort (keys %Vars)) { print $fh "",decl_text ($var),"\n"; } foreach my $block (@Blocks) { print $fh "\t//".('='x60)."\n"; my $style = rnd(100); if ($style < 15) { # This allows statements to get split up, and constants to propagate print $fh " always @(", join(" or ", ('check', @{$block->{inputs}})); print $fh ") begin : $block->{name}\n"; print $fh @{$block->{preass}}; print $fh " end\n"; print $fh " always @(posedge clk) begin : $block->{name}Check\n"; print $fh @{$block->{body}}; print $fh " end\n"; } elsif ($style < 40) { print $fh " always @(", join(" or ", ('check', @{$block->{inputs}})); print $fh ") begin : $block->{name}\n"; print $fh @{$block->{preass}}; print $fh @{$block->{body}}; print $fh " end\n"; } else { foreach my $stmt (@{$block->{preass}}) { $cycles++; print $fh " always @(posedge clk) begin\n"; $stmt =~ s/ = / <= /mg; print $fh $stmt; print $fh " end\n"; } print $fh " always @(posedge clk) begin\n"; print $fh @{$block->{body}}; print $fh " end\n"; } } print $fh "\n"; print $fh " parameter [31:0] CYCLES /*verilator public*/ = $cycles;\n"; print $fh "\n"; print $fh " integer cyc; initial cyc = 0;\n"; print $fh " always @(posedge clk) begin\n"; print $fh "`ifdef TEST_VERBOSE\n"; print $fh ' $write("[%0t] cyc=%0d check=%d\n", $time, cyc, check);',"\n"; print $fh "`endif\n"; print $fh " cyc <= cyc + 1;\n"; print $fh " if (cyc < CYCLES) begin\n"; print $fh " check <= 1'b0;\n"; print $fh " end\n"; print $fh " else if (cyc >= CYCLES) begin\n"; print $fh " check <= 1'b1;\n"; print $fh " if (cyc >= (CYCLES+10)) begin\n"; print $fh ' $write("*-* All Finished *-*\n");',"\n"; print $fh ' $finish;',"\n"; print $fh " end\n"; print $fh " end\n"; print $fh " end\n"; print $fh "endmodule\n"; $fh->close(); } ###################################################################### sub callers { for (my $i=0; ; $i++) { my @c = caller($i); last if !$c[0]; print "Caller $i: ",join(' ',@c[0..3]),"\n"; } } ####################################################################### ####################################################################### ####################################################################### ####################################################################### # Code generation/emitting Functions sub do_a_test { local $Depth = 0; @Commit = (); %VarsBlock = (); my $block = { name=>"Block".($#Blocks+2), body=>[], preass=>[], inputs=>[], outputs=>[], }; for (my $i=0; $i<$Opt_BlockStmts; $i++) { my $treeref = gen_leaf(width=>0); push @{$block->{body}}, "\tif ($treeref->{text} != ".$treeref->val_to_text().") if (check) ".stop_text().";\n"; } foreach my $var (keys %VarsBlock) { push @{$block->{inputs}}, $var if $VarsBlock{$var}{used} && !$VarsBlock{$var}{set}; } foreach my $var (reverse (sort (keys %Vars))) { my $varref = $Vars{$var}; next if $varref->{printedit}; $varref->{printedit} = 1; push @{$block->{outputs}}, $var; push @{$block->{preass}}, sprintf ("\t$var = %s;\n" ,$varref->{text}); } foreach my $com (@Commit) { &{$com} or die "%Error: Can't eval:\n$com\n $@ "; } push @Blocks, $block; } sub gen_leaf { my $inforef = {width=>0, # Anything need_terminal=>0, #trunc=>undef, # Allow multiply op @_}; $inforef->{width} ||= rnd_width(); $inforef->{signed} = ($Opt_Signed && $inforef->{width}>1 && (rnd(100)<$Signed_Pct))?1:0 if !defined $inforef->{signed}; print +((" "x$Depth)."Leaf of width $inforef->{width}\n") if $Debug; my $op = rnd_op($inforef); my $treeref = new Vg::Base; while ((my $key,my $val) = each %{$op}) { $treeref->{$key} = $val; } while ((my $key,my $val) = each %{$inforef}) { $treeref->{$key} = $val; } local $Depth = $Depth+1; print "RndSub $treeref->{rnd_sub_text}\n" if $Debug; $treeref->{rnd_sub}($treeref); $treeref->tree_dump() if $Debug; print "RndPl\n" if $Debug; $treeref->{pl_sub}($treeref); print "RndV\n" if $Debug; $treeref->{text} = $treeref->{v_sub}($treeref); print "Done\n" if $Debug; print " Value ",$treeref->{val}," = ",$treeref->val_to_text(),"\n" if $Debug; #$treeref->tree_dump() if $Debug; $treeref->{val_size} = $treeref->{val}->Size; # Debugging $treeref->{val_text} = $treeref->{val}->to_Hex; # Debugging ($treeref->{val}->Size == $treeref->{width}) or die "%Error: Size mismatch ",$treeref->{val}->Size,"!=",$treeref->{width},"\n",Dumper($treeref); return $treeref; } sub gen_v { my $opref = shift; my $fmt = $opref->{v}; $fmt =~ s/%1/%s/g; $fmt =~ s/%2/%s/g; $fmt =~ s/%3/%s/g; $fmt =~ s/%v/%s/g; $fmt =~ s/%i/%s/g; $fmt =~ s/%x[wds]/%s/g; my $argl = $opref->{v}; my @args; while ($argl =~ s/(%x.|%.)//) { my $arg = $1; push @args, '$treeref->{op1}{text}' if $arg =~ /%1/; push @args, '$treeref->{op2}{text}' if $arg =~ /%2/; push @args, '$treeref->{op3}{text}' if $arg =~ /%3/; push @args, '$treeref->val_to_text' if $arg =~ /%v/; push @args, '$treeref->{id}' if $arg =~ /%i/; push @args, '$treeref->{signed}?"s":""' if $arg =~ /%xs/; push @args, '$treeref->{width}' if $arg =~ /%xw/; push @args, '$treeref->{width}-$treeref->{op1}{width}' if $arg =~ /%xd/; } my $func = ("sub { " ." my \$treeref = shift;" ." sprintf(\"$fmt\",".join(',',@args).");" ."}"); my $set = ("\$opref->{v_sub} = $func; 1;"); $opref->{v_sub_text} = $func; # For seeing it in debugging dumps #print "Op V $opref->{name} $set\n"; eval($set) or die "%Error: Can't eval:\n$set\n $@ "; } sub escapes { my $str = shift; my $cmt = shift; $str =~ s/%tr/\$treeref/g; $str =~ s/%tg/\$treeref->{signed}/g; $str =~ s/%tv/\$treeref->{val}/g; $str =~ s/%tw/\$treeref->{width}/g; # $str =~ s/%1r/\$treeref->{op1}/g; $str =~ s/%1g/\$treeref->{op1}{signed}/g; $str =~ s/%1n/(\$treeref->{op1}{val}->Word_Read(0))/g; $str =~ s/%1v/\$treeref->{op1}{val}/g; $str =~ s/%1w/\$treeref->{op1}{width}/g; # $str =~ s/%2r/\$treeref->{op2}/g; $str =~ s/%2g/\$treeref->{op2}{signed}/g; $str =~ s/%2n/(\$treeref->{op2}{val}->Word_Read(0))/g; $str =~ s/%2v/\$treeref->{op2}{val}/g; $str =~ s/%2w/\$treeref->{op2}{width}/g; # $str =~ s/%3r/\$treeref->{op3}/g; $str =~ s/%3g/\$treeref->{op3}{signed}/g; $str =~ s/%3n/(\$treeref->{op3}{val}->Word_Read(0))/g; $str =~ s/%3v/\$treeref->{op3}{val}/g; $str =~ s/%3w/\$treeref->{op3}{width}/g; # $str =~ s/%i/\$treeref->{id}/g; ($str !~ /%/) or die "%Error: $cmt: Unknown %% escape in $str,"; return $str; } sub gen_pl { my $opref = shift; my $str = escapes($opref->{pl}, $opref->{name}); my $func = ("sub { " ." my \$treeref = shift;" ." $str;" ."}"); my $set = ("\$opref->{pl_sub} = $func; 1;"); $opref->{pl_sub_text} = $func; # For seeing it in debugging dumps #print "Op PL $opref->{name} $set\n"; eval($set) or die "%Error: Can't eval:\n$set\n $@ "; } sub gen_rnd { my $opref = shift; my $str = escapes($opref->{rnd}, $opref->{name}); my $func = ("sub { " ." my \$treeref = shift;" ." $str;" ."}"); my $set = ("\$opref->{rnd_sub} = $func; 1;"); $opref->{rnd_sub_text} = $func; # For seeing it in debugging dumps #print "Op RND $opref->{name} $set\n"; eval($set) or die "%Error: Can't eval:\n$set\n $@ "; } sub stop_text { return '$stop'; } sub decl_text { my $var = shift; my $decl_with = shift; my $varref = $Vars{$var}; return sprintf(" reg %s [%3d:%3d] %s %s; //=%d'h%s" , ($varref->{signed}?"signed":" ") , ($varref->{val}->Size)-1+$VarAttrs{$var}{lsb}, , $VarAttrs{$var}{lsb} , $var , (rnd(100)<30 ? "/*verilator public*/":(" "x length("/*verilator public*/"))) , $varref->{val}->Size , lc $varref->{val}->to_Hex); } ####################################################################### ####################################################################### ####################################################################### ####################################################################### # Math Functions sub selftest { my $o = {}; VDIV($o, {val=>Bit::Vector->new_Dec(8,0xff)}, {val=>Bit::Vector->new_Dec(8,0x13)}, 0); ($o->{val}->Word_Read(0) == 0x0d) or die; VDIV($o, {val=>Bit::Vector->new_Dec(8,0xff)}, {val=>Bit::Vector->new_Dec(8,0x13)}, 1); ($o->{val}->Word_Read(0) == 0x08) or die; VDIV($o, {val=>Bit::Vector->new_Dec(8,0xff), signed=>1}, {val=>Bit::Vector->new_Dec(8,0x13), signed=>1}, 0); ($o->{val}->Word_Read(0) == 0x00) or die; VDIV($o, {val=>Bit::Vector->new_Dec(8,0xff), signed=>1}, {val=>Bit::Vector->new_Dec(8,0x13), signed=>1}, 1); ($o->{val}->Word_Read(0) == 0xff) or die; VDIV($o, {val=>Bit::Vector->new_Dec(8,0xff), signed=>1}, {val=>Bit::Vector->new_Dec(8,0xdb), signed=>1}, 1); ($o->{val}->Word_Read(0) == 0xff) or die; VDIV($o, {val=>Bit::Vector->new_Dec(8,0x72), signed=>1}, {val=>Bit::Vector->new_Dec(8,0xdb), signed=>1}, 1); ($o->{val}->Word_Read(0) == 0x3) or die; } sub val_leaf { return {width=>32, signed=>0, val=>Bit::Vector->new_Dec(32,$_[0]), text=>$_[0],}; } sub makebool { return (Bit::Vector->new_Dec(1,$_[0])); } sub newsized { return (Bit::Vector->new($_[0]->Size)); } sub max { return $_[0]<$_[1] ? $_[1] : $_[0]; } sub min { return $_[0]>$_[1] ? $_[1] : $_[0]; } sub log2 { for (my $i=31; $i>=0; $i--) { return $i+1 if $_[0]>(1<<$i); } return 0; } sub countones { my $out = 0; for (my $bit=0; $bit < $_[0]->Size; $bit++) { $out ++ if $_[0]->bit_test($bit); } return $out; } sub VLOGNOT { $_[0]{val} = makebool(($_[1]->is_empty)?1:0); } sub VNEGATE { $_[0]{val} = my $o = newsized($_[1]); $o->Negate($_[1]); } sub VCOUNTONES { $_[0]{val} = Bit::Vector->new_Dec(32,countones($_[1])); } sub VONEHOT { $_[0]{val} = makebool((countones($_[1])==1)?1:0); } sub VONEHOT0 { $_[0]{val} = makebool((countones($_[1])<=1)?1:0); } sub VLOGAND { $_[0]{val} = makebool((!($_[1]->is_empty) && !($_[2]->is_empty))?1:0); } sub VLOGOR { $_[0]{val} = makebool((!($_[1]->is_empty) || !($_[2]->is_empty))?1:0); } sub VCOND { if (!($_[1]->is_empty)) { $_[0]{val}=$_[2]->Clone; } else { $_[0]{val}=$_[3]->Clone; } } sub VREDAND { $_[0]{val} = makebool(($_[1]->is_full)?1:0); } sub VREDOR { $_[0]{val} = makebool(($_[1]->is_empty)?0:1); } sub VREDNAND { $_[0]{val} = makebool(($_[1]->is_full)?0:1); } sub VREDNOR { $_[0]{val} = makebool(($_[1]->is_empty)?1:0); } sub VREDXOR { my $out = 0; for (my $bit=0; $bit < $_[1]->Size; $bit++) { $out ^= $_[1]->bit_test($bit); } $_[0]{val} = makebool($out); } sub VREDXNOR { my $out = 1; for (my $bit=0; $bit < $_[1]->Size; $bit++) { $out ^= $_[1]->bit_test($bit); } $_[0]{val} = makebool($out); } sub eithercompare { ($_[1]->{signed} && $_[2]->{signed}) ? $_[1]{val}->Compare($_[2]{val}) : $_[1]{val}->Lexicompare($_[2]{val}); } sub VEQ { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])==0) ?1:0); } sub VNE { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])!=0) ?1:0); } sub VLT { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])< 0) ?1:0); } sub VLE { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])<=0) ?1:0); } sub VGT { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])> 0) ?1:0); } sub VGE { $_[0]{val} = makebool( (eithercompare($_[0],$_[1],$_[2])>=0) ?1:0); } sub VSHIFTLxx { print "$Vars{vq}->ShiftL($_[0],$_[1]);\n"; print " ",$_[0]->to_Hex," ",$_[1]->to_Hex,";\n"; my $out = $_[0]->Clone; $out->Move_Left($_[1]->Word_Read(0)); print $out->to_Hex,"\n"; return $out; } sub VAND { $_[0]{val}=my $o=newsized($_[1]); $o->Intersection($_[1],$_[2]); } sub VOR { $_[0]{val}=my $o=newsized($_[1]); $o->Union($_[1],$_[2]); } sub VNAND { $_[0]{val}=my $o=newsized($_[1]); $o->Intersection($_[1],$_[2]); $o->Complement($o); } sub VNOR { $_[0]{val}=my $o=newsized($_[1]); $o->Union($_[1],$_[2]); $o->Complement($o); } sub VXOR { $_[0]{val}=my $o=newsized($_[1]); $o->ExclusiveOr($_[1],$_[2]); } sub VXNOR{ $_[0]{val}=my $o=newsized($_[1]); $o->ExclusiveOr($_[1],$_[2]); $o->Complement($o); } sub VNOT { $_[0]{val}=my $o=newsized($_[1]); $o->Complement($_[1]); } sub VSHIFTL{ $_[0]{val}=my $o=$_[1]->Clone; $o->Move_Left ($_[2]->Word_Read(0)); } sub VSHIFTR{ $_[0]{val}=my $o=$_[1]->Clone; $o->Move_Right($_[2]->Word_Read(0)); } sub VSHIFTRS{$_[0]{val}=my $o=$_[1]->Clone; $o->Move_Right($_[2]->Word_Read(0)); if ($_[1]->msb() && $_[2]->Word_Read(0)>0) {$o->Interval_Fill(max(0,$o->Size-1-$_[2]->Word_Read(0)), $o->Size-1); } #print (" SHI ",$_[0]{val}->to_Hex,' = ',$_[1]->to_Hex,' >>> ',$_[2]->Word_Read(0),"\n"); } sub VCLONE { $_[0]{val}=$_[1]->Clone; } sub VRESIZE { $_[0]{val}=$_[1]->Clone; $_[0]{val}->Resize($_[0]{width}); } sub VADD { $_[0]{val}=my $o=newsized($_[1]); $o->add($_[1],$_[2],0); } sub VSUB { $_[0]{val}=my $o=newsized($_[1]); $o->subtract($_[1],$_[2],0); } sub VMUL { # Multiply is signed, so need an additional sign bit my $a=$_[1]->Clone; $a->Resize($a->Size + 1); my $b=$_[2]->Clone; $b->Resize($b->Size + 1); my $mo=Bit::Vector->new($_[1]->Size + $_[2]->Size + 1); $mo->Multiply($a,$b); my $o=newsized($_[1]); $o->Interval_Copy($mo,0,0,$_[1]->Size); $_[0]{val}=$o; } sub VDIV { my $is_mod = $_[3]; if ($_[2]{val}->is_empty) { # Avoid divide by zero $_[0]{val}=newsized($_[1]{val}); return; } my $a=$_[1]{val}->Clone; if (!$_[1]->{signed}) { $a->Resize($a->Size + 1); } my $b=$_[2]{val}->Clone; if (!$_[2]->{signed}) { $b->Resize($b->Size + 1); } #print ("//DIVpp ",$_[1]->to_Hex,' ',$_[2]->to_Hex,' ',$_[1]->Size,'.',$_[2]->Size," \n"); #print ("//DIVpp ",$a->to_Hex,' ',$b->to_Hex,' ',$a->Size,'.',$b->Size," \n"); my $quo=newsized($a); my $rem=newsized($a); $quo->Divide($a,$b,$rem); # No division by zero - handled by if above my $o=newsized($_[1]{val}); $o->Interval_Copy($is_mod ? $rem : $quo,0,0,$_[1]{val}->Size); #print "//DIV",($_[1]->{signed}?"S":" "),' w',$a->Size,' ',$_[1]{val}->to_Hex,' ',$_[2]{val}->to_Hex,' =',$quo->to_Hex,'.',$rem->to_Hex," \n"; $_[0]{val}=$o; } sub VPOW { # Power is a signed operation my $a=$_[1]{val}->Clone; if (!$_[1]->{signed}) { $a->Resize($_[1]{val}->Size + 1); } my $b=$_[2]{val}->Clone; if (!$_[2]->{signed}) { $b->Resize($_[2]{val}->Size + 1); } print "VVpow = ",$_[1]{val}->to_Hex," ** ",$_[2]{val}->to_Hex,"\n"; my $mo=Bit::Vector->new($_[1]{val}->Size + 1); $mo->Power($a,$b); my $o=Bit::Vector->new($_[0]{width}); $o->Interval_Copy($mo,0,0,$_[1]{val}->Size); $_[0]{val}=$o; print "VV = $o\n"; } sub VRANGE { #print "RANGE ",$_[1]->to_Hex,' ',$_[2]->to_Hex,' ',$_[3]->to_Hex," \n"; return VRANGE_CONST($_[0], $_[1], $_[2]->Word_Read(0), $_[3]->Word_Read(0), $_[4]); } sub VBITSELP { return VRANGE_CONST($_[0], $_[1], $_[2]->Word_Read(0)+$_[3]->Word_Read(0)-1, $_[2]->Word_Read(0), $_[4]); } sub VBITSELM { return VRANGE_CONST($_[0],$_[1],$_[2]->Word_Read(0), $_[2]->Word_Read(0)-$_[3]->Word_Read(0)+1, $_[4]); } sub VRANGE_CONST { # to, from, msb, lsb, variable_lsb_to_subtract #print "RANGE ",$_[1]->to_Hex,' ',$_[2],' ',$_[3],' ',$_[4]," \n"; my $size = $_[2] - $_[3] + 1; my $o=Bit::Vector->new($size); if ($_[3] < $_[1]->Size) { $o->Interval_Copy($_[1],0,$_[3]-$_[4],$size); } $_[0]{val}=$o; } sub VCONCAT { my $o=Bit::Vector->new($_[1]->Size + $_[2]->Size); $o->Interval_Copy($_[1],$_[2]->Size,0,$_[1]->Size); $o->Interval_Copy($_[2],0,0,$_[2]->Size); $_[0]{val}=$o; } sub VREPLIC { my $o=Bit::Vector->new($_[1]->Word_Read(0) * $_[2]->Size); my $pos = 0; for (my $time=0; $time<($_[1]->Word_Read(0)); $time++) { $o->Interval_Copy($_[2],$pos,0,$_[2]->Size); $pos += $_[2]->Size; } $_[0]{val}=$o; } ####################################################################### ####################################################################### ####################################################################### package Vg::Base; use Data::Dumper; use strict; #------------------------------------------------------------ # CREATORS sub new { my $class = shift; my $self = { width=>0, # Width of expression, 0=Pick a width #signed=>0/1, # Undef = pick a sign @_}; bless $self, $class; return $self; } # ACCESSORS #------------------------------------------------------------ # OUTPUTTING sub val_to_text { my $treeref = shift; my $val = lc $treeref->{val}->to_Hex(); $val = "0" if $treeref->{val}->is_empty; return ($treeref->{width} .($treeref->{signed}?"'sh":"'h") .$val); } sub tree_dump { my $treeref = shift; print Dumper($treeref); } ####################################################################### __END__ =pod =head1 NAME vgen.pl - Generate random verilog code =head1 SYNOPSIS vgen.pl -o vgen.v =head1 DESCRIPTION vgen.pl generates automatic random verilog programs. =head1 ARGUMENTS =over 4 =item --help Displays this message and program version and exits. =item --blockstmts Number of statements per block. Defaults to 2. =item --depth Maximum depth of generated expressions. =item --initial Put all statements into an initial block. This will probably be optimized down to a NOP. =item --numops Number of operations to create. =item -o I Specify output filename. =item --raise Pick the specified number of random opcodes, and raise their frequency. =item --seed Seed for the random number generator. Defaults to 5, 0=randomize. =item --signed Include some signed arithmetic in the generated code. Experimental. =back =head1 DISTRIBUTION Copyright 2001-2019 by Wilson Snyder. Verilator is free software; you can redistribute it and/or modify it under the terms of either the GNU Lesser General Public License Version 3 or the Perl Artistic License Version 2.0. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. =head1 AUTHORS Wilson Snyder =head1 SEE ALSO =cut ###################################################################### ### Local Variables: ### compile-command: "./vgen.pl --depth=10 --blockstmts=10 -o obj_dir/vgen.v" ### compile-command: "v4make test_regress/t/t_vgen.pl " ### End: