our ($before, $after);
sub is_string ($) { $_[0]{T} =~ m/heredoc|string/; }
-sub is_trans ($) { grep { $_[0]{E} eq $_ } qw(__ f_); }
+sub is_trans ($) { grep { $_[0]{E} eq $_ } qw(__ f_ i_); }
+
+sub qp ($) {
+ my ($p) = @_;
+ $p =~ s{\\}{\\\\}g;
+ $p =~ s{\'}{\\'}g;
+ $p =~ s{\n}{\\n}g;
+ $p =~ s{\t}{\\t}g;
+ return "'$p'";
+};
sub semiparse ($) {
($_) = @_;
( .* \n )
( (?: (?! $d) .* \n )* )
$d \n
- }{ $1 }x or die "missing end of here doc $d\n";
+ }{ $1 }xe or die "missing end of here doc $d\n";
$o[$#o]{V} = $2;
} elsif (s{^ (["'])( (?: [^\\'"]
| \\ [^"']
Q => $q, V => $v};
} elsif (s{^$perlop_re|^\;}{}) {
push @o, { T => 'op', E => $&, P => $& };
- } elsif (s/[[{(]//) {
+ } elsif (s/^[[{(]//) {
push @o, { T => 'bra', E => $&, P => $& };
- } elsif (s/[]})]//) {
+ } elsif (s/^[]})]//) {
push @o, { T => 'ket', E => $&, P => $& };
} elsif (s/^( [\$\@\%] )( \{ )//x) {
push @o, { T => 'deref', E => $1, P => $1 },
die "cannot tokenise \`$&'";
}
}
- for (my $i=@o-2; $i>0; --$i) {
+ for (my $i=0; $i+2 < @o; $i++) {
next unless $o[$i+1]{E} eq '.';
my @inputs = @o[$i, $i+2];
+ #print STDERR Dumper(\@inputs);
next if grep { !is_string($_) } @inputs;
my $q = $inputs[0]{Q};
next if grep { $_->{Q} ne $q } @inputs;
Q => $q,
};
@o = (@o[0..$i-1], $new, @o[$i+3..$#o]);
+ $i--; # counteracts $i++
}
debug $ichunkstart, "semiparsed: ".join ' ', map { $_->{P} } @o;
+ # debug $ichunkstart, "semiparsed V: ".join ' ', map { defined $_->{V} ? ">$_->{V}<" : '-' } @o;
return @o;
}
$next_x->();
$next_y->();
next if $x->{E} eq $y->{E};
+ next if $x->{E} eq 'sprintf' and $y->{E} eq 'f_';
+ next if $x->{E} eq 'die' and $y->{E} eq 'confess';
if ($y->{E} eq '+'
and @ys >= 3
and $ys[0]{E} eq '('
and is_trans($ys[1])) {
$next_y->(); # (
- $next_y->(); # __ f_
+ $next_y->(); # __ f_ i_
+ @y_expect_suffix = ')';
+ } elsif ($y->{E} eq '('
+ and @ys > 2
+ and is_trans($ys[0])
+ and @analysed_y
+ and (grep { $_ eq $analysed_y[-1] } (qw( => [ { ? : . ),
+ '(', ',') )) {
+ $next_y->(); # __ f_ i_
@y_expect_suffix = ')';
}
my $string_changed;
if (is_trans($y)) {
$next_y->();
die "__ on non-string $y->{P}\n" unless is_string($y);
- die "__ on was non-string $y->{P}\n" unless is_string($x);
+ die "__ on was non-string $x->{P}\n" unless is_string($x);
if ($y->{Q} ne "'") {
die "var subst in new string\n"
if $y->{V} =~ m{(?<!\\) [\$\@]};
die $string_changed if length $string_changed;
next;
}
+ if ($ye eq 'i_') {
+ die $string_changed if length $string_changed;
+ next;
+ }
if ($ye eq 'f_') {
my $fmt = $y->{V};
die "no percent in _f string\n" unless $fmt =~ m{\%};
my ($lit, $what) = @_;
my $xl = substr($xs, 0, length($lit));
if ($xl ne $lit) {
- debug $ichunkstart, "not exactly x: ..\"$xs\"";
- debug $ichunkstart, "not exactly y: $lit";
+ debug $ichunkstart, "not exactly x: ..".qp($xs);
+ debug $ichunkstart, "not exactly y: ".qp($lit);
my $next = @ys ? $ys[0]{P} : '(end)';
die "string contents mismatch near $what before $next\n";
}
if ($fmt !~ m{\%[^\%]}) {
$exactly->($fmt, '(tail)');
$fmt = '';
+ die "text deleted from end of string\n" if length $xs;
last;
}
$exactly->($`, '(literal)');
elsif ($& ne '%s') { die "unhandled %-subst $&\n"; }
$next_y->();
die "expected comma, got $y->{P}\n" unless $y->{E} eq ',';
+ if (!length $fmt and
+ !length $xs and
+ @xs and
+ $xs[0]{E} eq '.') {
+ # X has "<earlier>" . <something>
+ # Y has "<earlier>%s" [other args] , <something>
+ $next_x->(); # eat the '.'
+ next;
+ }
if ($xs =~ m{^\@}) {
$next_y->();
die "\@... => not string" unless is_string($y);
pop @analysed_y;
last;
}
- $xs =~ s{^\s+}{};
+ $xs =~ s{^\s+}{} if $bras;
+ if (is_string($y) and $y->{Q} eq '"') {
+ $exactly->($y->{V}, $y->{P});
+ next;
+ }
$exactly->($y->{E}, $y->{P});
if ($y->{T} eq 'bra' or $y->{E} eq '?') {
$bras++;