Add three common utility functions: - insnv allows emitting variable-length instructions in little-endian or big-endian byte order; it subsumes functionality of former insn16() and insn32() functions.
- randint_constr allows generating random integers according to several constraints passed as arguments. - rand_fill uses randint_constr to fill a given hash with (optionally constrained) random values. Signed-off-by: Jan Bobek <jan.bo...@gmail.com> --- risugen_common.pm | 101 +++++++++++++++++++++++++++++++++++++++++++--- 1 file changed, 95 insertions(+), 6 deletions(-) diff --git a/risugen_common.pm b/risugen_common.pm index 71ee996..98b9170 100644 --- a/risugen_common.pm +++ b/risugen_common.pm @@ -23,7 +23,8 @@ BEGIN { require Exporter; our @ISA = qw(Exporter); - our @EXPORT = qw(open_bin close_bin set_endian insn32 insn16 $bytecount + our @EXPORT = qw(open_bin close_bin set_endian insn32 insn16 + $bytecount insnv randint_constr rand_fill progress_start progress_update progress_end eval_with_fields is_pow_of_2 sextract ctz dump_insn_details); @@ -37,7 +38,7 @@ my $bigendian = 0; # (default is little endian, 0). sub set_endian { - $bigendian = @_; + ($bigendian) = @_; } sub open_bin @@ -52,18 +53,106 @@ sub close_bin close(BIN) or die "can't close output file: $!"; } +sub insnv(%) +{ + my (%args) = @_; + + # Default to big-endian order, so that the instruction bytes are + # emitted in the same order as they are written in the + # configuration file. + $args{bigendian} = 1 unless defined $args{bigendian}; + + while (0 < $args{len}) { + my $format; + my $len; + + if ($args{len} >= 8) { + $format = "Q"; + $len = 8; + } elsif ($args{len} >= 4) { + $format = "L"; + $len = 4; + } elsif ($args{len} >= 2) { + $format = "S"; + $len = 2; + } else { + $format = "C"; + $len = 1; + } + + $format .= ($args{bigendian} ? ">" : "<") if $len > 1; + + my $bitlen = 8 * $len; + my $bitmask = (1 << $bitlen) - 1; + my $value = ($args{bigendian} + ? ($args{value} >> (8 * $args{len} - $bitlen)) + : $args{value}); + + print BIN pack($format, $value & $bitmask); + $bytecount += $len; + + $args{len} -= $len; + $args{value} >>= $bitlen unless $args{bigendian}; + } +} + sub insn32($) { my ($insn) = @_; - print BIN pack($bigendian ? "N" : "V", $insn); - $bytecount += 4; + insnv(value => $insn, len => 4, bigendian => $bigendian); } sub insn16($) { my ($insn) = @_; - print BIN pack($bigendian ? "n" : "v", $insn); - $bytecount += 2; + insnv(value => $insn, len => 2, bigendian => $bigendian); +} + +sub randint_constr(%) +{ + my (%args) = @_; + my $bitlen = $args{bitlen}; + my $halfrange = 1 << ($bitlen - 1); + + while (1) { + my $value = int(rand(2 * $halfrange)); + $value -= $halfrange if defined $args{signed} && $args{signed}; + $value &= ~$args{fixedbitmask} if defined $args{fixedbitmask}; + $value |= $args{fixedbits} if defined $args{fixedbits}; + + if (defined $args{constraint}) { + if (!($args{constraint} >> 63)) { + $value = $args{constraint}; + } elsif ($value == ~$args{constraint}) { + next; + } + } + + return $value; + } +} + +sub rand_fill($$) +{ + my ($target, $constraints) = @_; + + for (keys %{$target}) { + my %args = (bitlen => $target->{$_}{bitlen}); + + $args{fixedbits} = $target->{$_}{fixedbits} + if defined $target->{$_}{fixedbits}; + $args{fixedbitmask} = $target->{$_}{fixedbitmask} + if defined $target->{$_}{fixedbitmask}; + $args{signed} = $target->{$_}{signed} + if defined $target->{$_}{signed}; + + $args{constraint} = $constraints->{$_} + if defined $constraints->{$_}; + + $target->{$_} = randint_constr(%args); + } + + return $target; } # Progress bar implementation -- 2.20.1