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120 lines
3.3 KiB
Perl
Executable File
Vendored
120 lines
3.3 KiB
Perl
Executable File
Vendored
#!/usr/bin/perl -sw
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use strict;
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use List::Util qw[ reduce ]; $a=$b;
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our $XLATE ||= 0;
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sub rpn2exp {
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local $SIG{__WARN__} = sub {
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print "Malformed arguments.\n";
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exit 1;
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};
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my %tops = map{ $_ => undef } qw[ % MOD + ADD * MULT / DIV ** POW - SUB ];
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my @stack;
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my $expr;
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while ( @_ ) {
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my $item = shift @_;
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push( @stack, $item ), next
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unless exists $tops{ $item } or $item =~ m[\(\)$];
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if ( exists $tops{ $item } ) {
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my $arg2 = pop @stack;
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my $arg1 = pop @stack;
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push @stack, "($arg1 $item $arg2)";
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}
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elsif ( my( $func ) = $item =~ m[^(.*)\(\)$] ) {
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my $args = pop @stack;
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if ($args > 4) {
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print "Too many function arguments.\n";
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exit 1;
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}
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my @args = map{ pop @stack } 1 .. $args;
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push @stack, $func . '(' . join( ', ', reverse @args ) . ')';
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}
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}
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return "@stack";
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}
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sub nestedOk {
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index( $_[ 0 ], '(' ) <= index( $_[ 0 ], ')' ) and
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0 == reduce{
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$a + ( $b eq '(' ) - ( $b eq ')' )
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} 0, split'[^()]*', $_[ 0 ]
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}
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my $re_var = qr[ [a-zA-Z]\w* ]x;
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my $re_subex = qr[ \{\d+\} ]x;
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my $re_func = qr[ $re_var $re_subex ]x;
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my $re_num = qr[ -? \d+ (?: \. \d+ )? (?: [Ee] [+-]? \d+ )? ]x;
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my $re_term = qr[ $re_num | $re_func | $re_subex | $re_var ]x;
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my $re_op = qr[\*\*|[,*%+/^-]];
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my %ops = ( qw[ % MOD + ADD * MULT / DIV ** POW - SUB ] );
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my @varargs;
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sub exp2rpn {
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my( $exp, $aStack, $aBits ) = @_;
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print "Unbalanced parens: '$exp'" and exit 1 unless nestedOk $exp;
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if ( $exp =~ m/^$re_term$/ and $exp !~ m/\{\d+\}/ ) {
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push @$aStack, $exp;
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}
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else {{
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my( $left, $op, $right, $rest ) = $exp =~ m[
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^ (?: ( $re_term )? ( $re_op ) )? ( $re_term ) ( .* ) $
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]x or print "malformed (sub)expression '$exp'" and exit 1;
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#{ no warnings; print "'$exp' => L'$left' O'$op' R'$right' >'$rest'"; }
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$varargs[ -1 ]++ if $op and $op eq ',' and @varargs;
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for ( $left, $right ) {
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next unless $_;
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if ( my( $func, $subex ) = m[^ ( $re_var )? \{ ( \d+ ) \} $]x ) {
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push @varargs, 1 if $func;
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exp2rpn( $aBits->[ $subex ], $aStack, $aBits );
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push @$aStack, pop( @varargs ), "$func()" if $func;
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}
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else{
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push( @$aStack, $_ );
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}
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}
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push @$aStack, $XLATE ? $ops{ $op } : $op
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if $op and $op ne ',';
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$exp = $rest, redo if $rest;
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}}
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return $aStack;
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}
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sub parseExp {
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my( $exp ) = @_;
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print "Unbalanced parens: '$exp'" and exit 1 unless nestedOk $exp;
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$exp =~ s[\s+][]g;
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my( $n, @bits )= ( 1, $exp );
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for ( reverse @bits ) {
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s/\( ( [^()]* ) \)/ push @bits, $1; "{${ \( $n++ ) }}"; /ex while m/[()]/;
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}
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s/([^,]+)(,?)/push @bits, $1; "{${ \( $n++ ) }}$2" /eg for reverse @bits;
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for ( reverse @bits ) {
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1 while s/( $re_term (?:\*\*) $re_term )/ push @bits, $1; "{${ \( $n++ ) }}"; /gex;
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1 while s/( $re_term (?:[*\/%]) $re_term )/ push @bits, $1; "{${ \( $n++ ) }}"; /gex;
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1 while s/( $re_term (?:(?<![eE])[+-]) $re_term )/ push @bits, $1; "{${ \( $n++ ) }}"; /gex;
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}
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return @{ exp2rpn $bits[ 0 ], [], \@bits };
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}
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my $mode = shift @ARGV;
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my $args = join ' ', @ARGV;
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if (not $args) {
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print "Missing arguments.\n";
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exit 1;
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}
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if ($mode eq 'rpn') {
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my @rpn = parseExp $args;
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print join(', ', @rpn), "\n";
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} else {
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my $infix = rpn2exp split /\s*,\s*/, $args;
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print "$infix\n";
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}
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