mirror of
git://projects.qi-hardware.com/eda-tools.git
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211 lines
4.7 KiB
Perl
Executable File
211 lines
4.7 KiB
Perl
Executable File
#!/usr/bin/perl
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use re 'eval';
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#
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# "sub" populates the following global variables:
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#
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# $end[rule-number] = 0 / 1
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# $match[rule-number]{field}[0] = original-pattern
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# $match[rule-number]{field}[1] = RE1
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# $match[rule-number]{field}[2] = RE2
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# $action[rule-number]{field} = value
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#
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# $match_stack[depth]{field}[0] = original-pattern
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# $match_stack[depth]{field}[1] = RE1
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# $match_stack[depth]{field}[2] = RE2
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# $action_stack[depth]{field} = value
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# $may_cont = 0 / 1
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# $last
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# $last_action
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#
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#
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# $cvn_from{internal-handle} = index
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# $cvn_to{internal-handle} = index
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# $cvn_unit{internal-handle} = unit-name
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# $cvn_num = internal-handle
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# $found{field-or-subfield} = string
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#
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# We convert each input pattern into two regular expressions: the first matches
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# units in the nXn notation, e.g., 4u7 or 100R. The second matches them in SI
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# notation (sans space).
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#
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# When matching (sub_match), we first apply the first expression. Each time we
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# encounter a unit ($R, $F, etc.), __cvn is called. __cvn stores the index of
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# the unit in %cvn_from and %cvn_to.
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#
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# We then pick these substrings from the input string and convert the units to
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# SI notation. At the same time, we normalize the mantissa. Once done, we run
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# the second expression. This one always matches (hopefully :-)
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#
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# All (...) ranges in the original pattern have been replaced with named
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# capture buffers in the second expression, so all these subfields are now
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# gathered in the $+ array. (The same also happened in the first pass, but we
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# ignore it.)
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#
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# Finally, when expanding a value (sub_expand), we look for $field and
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# $field:index, and expand accordingly.
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#
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sub __cvn
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{
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local ($num) = @_;
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$cvn_from{$num} = $-[$#-];
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$cvn_to{$num} = $+[$#+];
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}
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sub sub_match
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{
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local ($s, $field, $m1, $m2) = @_;
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#
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# Perform the first match and record where we saw $<unit> patterns.
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#
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undef %cvn_from;
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undef %cvn_to;
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return undef unless $s =~ $m1;
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#
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# Convert the unit patterns to almost-SI notation. (We don't put a space
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# after the number, but the rest is SI-compliant.)
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#
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my $off = 0;
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for (keys %cvn_from) {
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my $unit = $cvn_unit{$_};
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my $from = $cvn_from{$_}+$off;
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my $len = $cvn_to{$_}-$cvn_from{$_};
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die unless substr($s, $from, $len) =~
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/(\d+)$unit(\d*)|(\d+)([GMkmunpf])(\d*)/;
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#
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# Normalize to \d+.\d*
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#
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my $v = "$1$3.$2$5";
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my $exp = $4 eq "" ? " " : $4;
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#
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# Remove leading zeroes.
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#
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$v =~ s/^0*(\d+)/\1/;
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#
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# Mantissa must be < 1000.
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# Do the math as string operation to avoid rounding errors.
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#
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while ($v =~ /(\d+)(\d{3})\./) {
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$v = "$1.$2$'";
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$exp =~ tr/GMk munpf/TGMk munp/;
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}
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#
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# Mantissa must be >= 1.
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#
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while ($v =~ /\b0\.(\d+)/) {
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if (length $1 < 3) {
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$v = $1.("0" x (3-length $1)).".";
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} else {
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$v = substr($1, 0, 3).".".substr($1, 3);
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}
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$exp =~ tr/GMk munpf/Mk munpa/;
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}
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#
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# Remove trailing zeroes
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#
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$v =~ s/(\.[1-9]*)0*/\1/;
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$exp =~ s/ //;
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$v =~ s/\.$//;
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$v = $v.$exp.$unit;
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$off += length($v)-$len;
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substr($s, $from, $len, $v);
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}
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#
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# Run the second match on the string to process any (...) patterns
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#
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$found{$field} = $s;
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die $m2 unless $s =~ $m2;
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for (keys %+) {
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$found{$_} = $+{$_};
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}
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return $s;
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}
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sub sub_expand
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{
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local ($s) = @_;
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while ($s =~ /^([^\$]*)\$([A-Za-z_]\w*)(:(\d+))?|^([^\$]*)\${([A-Za-z_]\w*)(:(\d+))?}/) {
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my $name = "$2$6";
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$name .= "__$4$8" if defined($4) || defined($8);
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if (!defined $found{$name}) {
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die "don't know \"$name\"".
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(defined $__match_error ?
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" (processing \"$__match_error\")" : "");
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}
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$s = $1.$5.$found{$name}.$';
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}
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return $s;
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}
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#
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# return 0 if all rules have been exhausted, 1 if there was an explicit halt.
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#
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sub apply_rules
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{
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RULE: for (my $i = 0; $i <= $#match; $i++) {
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print STDERR "RULE #$i\n" if $debug;
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%found = %field;
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FIELD: for my $f (keys %{ $match[$i] }) {
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my @f = $f ne "FN" ? ($f) :
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("F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9");
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for (@f) {
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print STDERR " MATCH $_=$match[$i]{$f}[0] " if $debug;
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if (!defined $found{$_}) {
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print STDERR "NO FIELD\n" if $debug;
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next;
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}
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print STDERR "FIELD $found{$_} " if $debug;
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if (!defined &sub_match($found{$_}, $f,
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$match[$i]{$f}[1], $match[$i]{$f}[2])) {
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print STDERR "MISS\n" if $debug;
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next;
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}
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print STDERR "MATCH\n" if $debug;
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next FIELD;
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}
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next RULE;
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}
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for (keys %{ $action[$i] }) {
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my $s = &sub_expand($action[$i]{$_});
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print STDERR " SET $_=$action[$i]{$_} => $s\n" if $debug;
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$field{$_} = $s;
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}
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if ($end[$i]) {
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print STDERR " END\n" if $debug;
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return 1;
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}
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}
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return 0;
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}
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sub match_set_error
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{
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$__match_error = $_[0];
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}
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return 1;
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