eda-tools/old-boom/match.pl

#!/usr/bin/perl

use re 'eval';


#
# "sub" populates the following global variables:
#
# $end[rule-number] = 0 / 1
# $match[rule-number]{field}[0] = original-pattern
# $match[rule-number]{field}[1] = RE1 
# $match[rule-number]{field}[2] = RE2
# $action[rule-number]{field} = value
#
# $match_stack[depth]{field}[0] = original-pattern
# $match_stack[depth]{field}[1] = RE1
# $match_stack[depth]{field}[2] = RE2
# $action_stack[depth]{field} = value
# $may_cont = 0 / 1
# $last
# $last_action
#

#
# $cvn_from{internal-handle} = index
# $cvn_to{internal-handle} = index
# $cvn_unit{internal-handle} = unit-name
# $cvn_num = internal-handle
# $found{field-or-subfield} = string


#
# We convert each input pattern into two regular expressions: the first matches
# units in the nXn notation, e.g., 4u7 or 100R. The second matches them in SI
# notation (sans space).
#
# When matching (sub_match), we first apply the first expression. Each time we
# encounter a unit ($R, $F, etc.), __cvn is called. __cvn stores the index of
# the unit in %cvn_from and %cvn_to.
#
# We then pick these substrings from the input string and convert the units to
# SI notation. At the same time, we normalize the mantissa. Once done, we run
# the second expression. This one always matches (hopefully :-)
#
# All (...) ranges in the original pattern have been replaced with named
# capture buffers in the second expression, so all these subfields are now
# gathered in the $+ array. (The same also happened in the first pass, but we
# ignore it.)
#
# Finally, when expanding a value (sub_expand), we look for $field and
# $field:index, and expand accordingly.
#


sub __cvn
{
    local ($num) = @_;

    $cvn_from{$num} = $-[$#-];
    $cvn_to{$num} = $+[$#+];
}


sub sub_match
{
    local ($s, $field, $m1, $m2) = @_;

    #
    # Perform the first match and record where we saw $<unit> patterns.
    #
    undef %cvn_from;
    undef %cvn_to;
    return undef unless $s =~ $m1;

    #
    # Convert the unit patterns to almost-SI notation. (We don't put a space
    # after the number, but the rest is SI-compliant.)
    #
    my $off = 0;
    for (keys %cvn_from) {
	my $unit = $cvn_unit{$_};
	my $from = $cvn_from{$_}+$off;
	my $len = $cvn_to{$_}-$cvn_from{$_};
	die unless substr($s, $from, $len) =~
	    /(\d+)$unit(\d*)|(\d+)([GMkmunpf])(\d*)/;

	#
	# Normalize to \d+.\d*
	#
	my $v = "$1$3.$2$5";
	my $exp = $4 eq "" ? " " : $4;

	#
	# Remove leading zeroes.
	#
	$v =~ s/^0*(\d+)/\1/;

	#
	# Mantissa must be < 1000.
	# Do the math as string operation to avoid rounding errors.
	#
	while ($v =~ /(\d+)(\d{3})\./) {
	    $v = "$1.$2$'";
	    $exp =~ tr/GMk munpf/TGMk munp/;
	}

	#
	# Mantissa must be >= 1.
	#
	while ($v =~ /\b0\.(\d+)/) {
	    if (length $1 < 3) {
		$v = $1.("0" x (3-length $1)).".";
	    } else {
		$v = substr($1, 0, 3).".".substr($1, 3);
	    }
	    $exp =~ tr/GMk munpf/Mk munpa/;
	}

	#
	# Remove trailing zeroes
	#
	$v =~ s/(\.[1-9]*)0*/\1/;

	$exp =~ s/ //;
	$v =~ s/\.$//;
	$v = $v.$exp.$unit;
	$off += length($v)-$len;
	substr($s, $from, $len, $v);
    }

    #
    # Run the second match on the string to process any (...) patterns
    #
    $found{$field} = $s;
    die $m2 unless $s =~ $m2;
    for (keys %+) {
	$found{$_} = $+{$_};
    }
    return $s;
}


sub sub_expand
{
    local ($s) = @_;

    while ($s =~ /^([^\$]*)\$([A-Za-z_]\w*)(:(\d+))?|^([^\$]*)\${([A-Za-z_]\w*)(:(\d+))?}/) {
	my $name = "$2$6";
	$name .= "__$4$8" if defined($4) || defined($8);
	if (!defined $found{$name}) {
		die "don't know \"$name\"".
		  (defined $__match_error ?
		  " (processing \"$__match_error\")" : "");
	}
	$s = $1.$5.$found{$name}.$';
    }
    return $s;
}


#
# return 0 if all rules have been exhausted, 1 if there was an explicit halt.
#

sub apply_rules
{
    RULE: for (my $i = 0; $i <= $#match; $i++) {
	print STDERR "RULE #$i\n" if $debug;
	%found = %field;
	FIELD: for my $f (keys %{ $match[$i] }) {
	    my @f = $f ne "FN" ? ($f) :
	      ("F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9");
	    for (@f) {
		print STDERR "  MATCH $_=$match[$i]{$f}[0] " if $debug;
		if (!defined $found{$_}) {
		    print STDERR "NO FIELD\n" if $debug;
		    next;
		}
		print STDERR "FIELD $found{$_} " if $debug;
		if (!defined &sub_match($found{$_}, $f,
		  $match[$i]{$f}[1], $match[$i]{$f}[2])) {
		    print STDERR "MISS\n" if $debug;
		    next;
		}
		print STDERR "MATCH\n" if $debug;
		next FIELD;
	    }
	    next RULE;
	}
	for (keys %{ $action[$i] }) {
	    my $s = &sub_expand($action[$i]{$_});
	    print STDERR "  SET $_=$action[$i]{$_} => $s\n" if $debug;
	    $field{$_} = $s;
	}
	if ($end[$i]) {
	    print STDERR "  END\n" if $debug;
	    return 1;
	}
    }
    return 0;
}


sub match_set_error
{
    $__match_error = $_[0];
}


return 1;
rescue files from svn.openmoko.org 2012-05-02 05:09:24 +03:00			`#!/usr/bin/perl`

			`use re 'eval';`


			`#`
			`# "sub" populates the following global variables:`
			`#`
			`# $end[rule-number] = 0 / 1`
			`# $match[rule-number]{field}[0] = original-pattern`
			`# $match[rule-number]{field}[1] = RE1`
			`# $match[rule-number]{field}[2] = RE2`
			`# $action[rule-number]{field} = value`
			`#`
			`# $match_stack[depth]{field}[0] = original-pattern`
			`# $match_stack[depth]{field}[1] = RE1`
			`# $match_stack[depth]{field}[2] = RE2`
			`# $action_stack[depth]{field} = value`
			`# $may_cont = 0 / 1`
			`# $last`
			`# $last_action`
			`#`

			`#`
			`# $cvn_from{internal-handle} = index`
			`# $cvn_to{internal-handle} = index`
			`# $cvn_unit{internal-handle} = unit-name`
			`# $cvn_num = internal-handle`
			`# $found{field-or-subfield} = string`


			`#`
			`# We convert each input pattern into two regular expressions: the first matches`
			`# units in the nXn notation, e.g., 4u7 or 100R. The second matches them in SI`
			`# notation (sans space).`
			`#`
			`# When matching (sub_match), we first apply the first expression. Each time we`
			`# encounter a unit ($R, $F, etc.), __cvn is called. __cvn stores the index of`
			`# the unit in %cvn_from and %cvn_to.`
			`#`
			`# We then pick these substrings from the input string and convert the units to`
			`# SI notation. At the same time, we normalize the mantissa. Once done, we run`
			`# the second expression. This one always matches (hopefully :-)`
			`#`
			`# All (...) ranges in the original pattern have been replaced with named`
			`# capture buffers in the second expression, so all these subfields are now`
			`# gathered in the $+ array. (The same also happened in the first pass, but we`
			`# ignore it.)`
			`#`
			`# Finally, when expanding a value (sub_expand), we look for $field and`
			`# $field:index, and expand accordingly.`
			`#`


			`sub __cvn`
			`{`
			`local ($num) = @_;`

			`$cvn_from{$num} = $-[$#-];`
			`$cvn_to{$num} = $+[$#+];`
			`}`


			`sub sub_match`
			`{`
			`local ($s, $field, $m1, $m2) = @_;`

			`#`
			`# Perform the first match and record where we saw $<unit> patterns.`
			`#`
			`undef %cvn_from;`
			`undef %cvn_to;`
			`return undef unless $s =~ $m1;`

			`#`
			`# Convert the unit patterns to almost-SI notation. (We don't put a space`
			`# after the number, but the rest is SI-compliant.)`
			`#`
			`my $off = 0;`
			`for (keys %cvn_from) {`
			`my $unit = $cvn_unit{$_};`
			`my $from = $cvn_from{$_}+$off;`
			`my $len = $cvn_to{$_}-$cvn_from{$_};`
			`die unless substr($s, $from, $len) =~`
			`/(\d+)$unit(\d)\|(\d+)([GMkmunpf])(\d)/;`

			`#`
			`# Normalize to \d+.\d*`
			`#`
			`my $v = "$1$3.$2$5";`
			`my $exp = $4 eq "" ? " " : $4;`

			`#`
			`# Remove leading zeroes.`
			`#`
			`$v =~ s/^0*(\d+)/\1/;`

			`#`
			`# Mantissa must be < 1000.`
			`# Do the math as string operation to avoid rounding errors.`
			`#`
			`while ($v =~ /(\d+)(\d{3})\./) {`
			`$v = "$1.$2$'";`
			`$exp =~ tr/GMk munpf/TGMk munp/;`
			`}`

			`#`
			`# Mantissa must be >= 1.`
			`#`
			`while ($v =~ /\b0\.(\d+)/) {`
			`if (length $1 < 3) {`
			`$v = $1.("0" x (3-length $1)).".";`
			`} else {`
			`$v = substr($1, 0, 3).".".substr($1, 3);`
			`}`
			`$exp =~ tr/GMk munpf/Mk munpa/;`
			`}`

			`#`
			`# Remove trailing zeroes`
			`#`
			`$v =~ s/(\.[1-9])0/\1/;`

			`$exp =~ s/ //;`
			`$v =~ s/\.$//;`
			`$v = $v.$exp.$unit;`
			`$off += length($v)-$len;`
			`substr($s, $from, $len, $v);`
			`}`

			`#`
			`# Run the second match on the string to process any (...) patterns`
			`#`
			`$found{$field} = $s;`
			`die $m2 unless $s =~ $m2;`
			`for (keys %+) {`
			`$found{$_} = $+{$_};`
			`}`
			`return $s;`
			`}`


			`sub sub_expand`
			`{`
			`local ($s) = @_;`

			`while ($s =~ /^([^\$])\$([A-Za-z_]\w)(:(\d+))?\|^([^\$])\${([A-Za-z_]\w)(:(\d+))?}/) {`
			`my $name = "$2$6";`
			`$name .= "__$4$8" if defined($4) \|\| defined($8);`
			`if (!defined $found{$name}) {`
			`die "don't know \"$name\"".`
			`(defined $__match_error ?`
			`" (processing \"$__match_error\")" : "");`
			`}`
			`$s = $1.$5.$found{$name}.$';`
			`}`
			`return $s;`
			`}`


			`#`
			`# return 0 if all rules have been exhausted, 1 if there was an explicit halt.`
			`#`

			`sub apply_rules`
			`{`
			`RULE: for (my $i = 0; $i <= $#match; $i++) {`
			`print STDERR "RULE #$i\n" if $debug;`
			`%found = %field;`
			`FIELD: for my $f (keys %{ $match[$i] }) {`
			`my @f = $f ne "FN" ? ($f) :`
			`("F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9");`
			`for (@f) {`
			`print STDERR " MATCH $_=$match[$i]{$f}[0] " if $debug;`
			`if (!defined $found{$_}) {`
			`print STDERR "NO FIELD\n" if $debug;`
			`next;`
			`}`
			`print STDERR "FIELD $found{$_} " if $debug;`
			`if (!defined &sub_match($found{$_}, $f,`
			`$match[$i]{$f}[1], $match[$i]{$f}[2])) {`
			`print STDERR "MISS\n" if $debug;`
			`next;`
			`}`
			`print STDERR "MATCH\n" if $debug;`
			`next FIELD;`
			`}`
			`next RULE;`
			`}`
			`for (keys %{ $action[$i] }) {`
			`my $s = &sub_expand($action[$i]{$_});`
			`print STDERR " SET $_=$action[$i]{$_} => $s\n" if $debug;`
			`$field{$_} = $s;`
			`}`
			`if ($end[$i]) {`
			`print STDERR " END\n" if $debug;`
			`return 1;`
			`}`
			`}`
			`return 0;`
			`}`


			`sub match_set_error`
			`{`
			`$__match_error = $_[0];`
			`}`


			`return 1;`