#!./perl -w
#
# testsuite for Data::Dumper
#
BEGIN {
chdir 't' if -d 't';
@INC = '../lib';
require Config; import Config;
if ($Config{'extensions'} !~ /\bData\/Dumper\b/) {
print "1..0 # Skip: Data::Dumper was not built\n";
exit 0;
}
}
use Data::Dumper;
use Config;
my $Is_ebcdic = defined($Config{'ebcdic'}) && $Config{'ebcdic'} eq 'define';
$Data::Dumper::Pad = "#";
my $TMAX;
my $XS;
my $TNUM = 0;
my $WANT = '';
sub TEST {
my $string = shift;
my $name = shift;
my $t = eval $string;
++$TNUM;
$t =~ s/([A-Z]+)\(0x[0-9a-f]+\)/$1(0xdeadbeef)/g
if ($WANT =~ /deadbeef/);
if ($Is_ebcdic) {
# these data need massaging with non ascii character sets
# because of hashing order differences
$WANT = join("\n",sort(split(/\n/,$WANT)));
$WANT =~ s/\,$//mg;
$t = join("\n",sort(split(/\n/,$t)));
$t =~ s/\,$//mg;
}
$name = $name ? " - $name" : '';
print( ($t eq $WANT and not $@) ? "ok $TNUM$name\n"
: "not ok $TNUM$name\n--Expected--\n$WANT\n--Got--\n$@$t\n");
++$TNUM;
eval "$t";
print $@ ? "not ok $TNUM\n# \$@ says: $@\n" : "ok $TNUM\n";
$t = eval $string;
++$TNUM;
$t =~ s/([A-Z]+)\(0x[0-9a-f]+\)/$1(0xdeadbeef)/g
if ($WANT =~ /deadbeef/);
if ($Is_ebcdic) {
# here too there are hashing order differences
$WANT = join("\n",sort(split(/\n/,$WANT)));
$WANT =~ s/\,$//mg;
$t = join("\n",sort(split(/\n/,$t)));
$t =~ s/\,$//mg;
}
print( ($t eq $WANT and not $@) ? "ok $TNUM\n"
: "not ok $TNUM\n--Expected--\n$WANT\n--Got--\n$@$t\n");
}
# Force Data::Dumper::Dump to use perl. We test Dumpxs explicitly by calling
# it direct. Out here it lets us knobble the next if to test that the perl
# only tests do work (and count correctly)
$Data::Dumper::Useperl = 1;
if (defined &Data::Dumper::Dumpxs) {
print "### XS extension loaded, will run XS tests\n";
$TMAX = 357; $XS = 1;
}
else {
print "### XS extensions not loaded, will NOT run XS tests\n";
$TMAX = 180; $XS = 0;
}
print "1..$TMAX\n";
#XXXif (0) {
#############
#############
@c = ('c');
$c = \@c;
$b = {};
$a = [1, $b, $c];
$b->{a} = $a;
$b->{b} = $a->[1];
$b->{c} = $a->[2];
############# 1
##
$WANT = <<'EOT';
#$a = [
# 1,
# {
# 'c' => [
# 'c'
# ],
# 'a' => $a,
# 'b' => $a->[1]
# },
# $a->[1]{'c'}
# ];
#$b = $a->[1];
#$c = $a->[1]{'c'};
EOT
TEST q(Data::Dumper->Dump([$a,$b,$c], [qw(a b c)]));
TEST q(Data::Dumper->Dumpxs([$a,$b,$c], [qw(a b c)])) if $XS;
############# 7
##
$WANT = <<'EOT';
#@a = (
# 1,
# {
# 'c' => [
# 'c'
# ],
# 'a' => [],
# 'b' => {}
# },
# []
# );
#$a[1]{'a'} = \@a;
#$a[1]{'b'} = $a[1];
#$a[2] = $a[1]{'c'};
#$b = $a[1];
EOT
$Data::Dumper::Purity = 1; # fill in the holes for eval
TEST q(Data::Dumper->Dump([$a, $b], [qw(*a b)])); # print as @a
TEST q(Data::Dumper->Dumpxs([$a, $b], [qw(*a b)])) if $XS;
############# 13
##
$WANT = <<'EOT';
#%b = (
# 'c' => [
# 'c'
# ],
# 'a' => [
# 1,
# {},
# []
# ],
# 'b' => {}
# );
#$b{'a'}[1] = \%b;
#$b{'a'}[2] = $b{'c'};
#$b{'b'} = \%b;
#$a = $b{'a'};
EOT
TEST q(Data::Dumper->Dump([$b, $a], [qw(*b a)])); # print as %b
TEST q(Data::Dumper->Dumpxs([$b, $a], [qw(*b a)])) if $XS;
############# 19
##
$WANT = <<'EOT';
#$a = [
# 1,
# {
# 'c' => [],
# 'a' => [],
# 'b' => {}
# },
# []
#];
#$a->[1]{'c'} = \@c;
#$a->[1]{'a'} = $a;
#$a->[1]{'b'} = $a->[1];
#$a->[2] = \@c;
#$b = $a->[1];
EOT
$Data::Dumper::Indent = 1;
TEST q(
$d = Data::Dumper->new([$a,$b], [qw(a b)]);
$d->Seen({'*c' => $c});
$d->Dump;
);
if ($XS) {
TEST q(
$d = Data::Dumper->new([$a,$b], [qw(a b)]);
$d->Seen({'*c' => $c});
$d->Dumpxs;
);
}
############# 25
##
$WANT = <<'EOT';
#$a = [
# #0
# 1,
# #1
# {
# c => [
# #0
# 'c'
# ],
# a => $a,
# b => $a->[1]
# },
# #2
# $a->[1]{c}
# ];
#$b = $a->[1];
EOT
$d->Indent(3);
$d->Purity(0)->Quotekeys(0);
TEST q( $d->Reset; $d->Dump );
TEST q( $d->Reset; $d->Dumpxs ) if $XS;
############# 31
##
$WANT = <<'EOT';
#$VAR1 = [
# 1,
# {
# 'c' => [
# 'c'
# ],
# 'a' => [],
# 'b' => {}
# },
# []
#];
#$VAR1->[1]{'a'} = $VAR1;
#$VAR1->[1]{'b'} = $VAR1->[1];
#$VAR1->[2] = $VAR1->[1]{'c'};
EOT
TEST q(Dumper($a));
TEST q(Data::Dumper::DumperX($a)) if $XS;
############# 37
##
$WANT = <<'EOT';
#[
# 1,
# {
# c => [
# 'c'
# ],
# a => $VAR1,
# b => $VAR1->[1]
# },
# $VAR1->[1]{c}
#]
EOT
{
local $Data::Dumper::Purity = 0;
local $Data::Dumper::Quotekeys = 0;
local $Data::Dumper::Terse = 1;
TEST q(Dumper($a));
TEST q(Data::Dumper::DumperX($a)) if $XS;
}
############# 43
##
$WANT = <<'EOT';
#$VAR1 = {
# "reftest" => \\1,
# "abc\0'\efg" => "mno\0"
#};
EOT
$foo = { "abc\000\'\efg" => "mno\000",
"reftest" => \\1,
};
{
local $Data::Dumper::Useqq = 1;
TEST q(Dumper($foo));
}
$WANT = <<"EOT";
#\$VAR1 = {
# 'reftest' => \\\\1,
# 'abc\0\\'\efg' => 'mno\0'
#};
EOT
{
local $Data::Dumper::Useqq = 1;
TEST q(Data::Dumper::DumperX($foo)) if $XS; # cheat
}
#############
#############
{
package main;
use Data::Dumper;
$foo = 5;
@foo = (-10,\*foo);
%foo = (a=>1,b=>\$foo,c=>\@foo);
$foo{d} = \%foo;
$foo[2] = \%foo;
############# 49
##
$WANT = <<'EOT';
#$foo = \*::foo;
#*::foo = \5;
#*::foo = [
# #0
# -10,
# #1
# do{my $o},
# #2
# {
# 'c' => [],
# 'a' => 1,
# 'b' => do{my $o},
# 'd' => {}
# }
# ];
#*::foo{ARRAY}->[1] = $foo;
#*::foo{ARRAY}->[2]{'c'} = *::foo{ARRAY};
#*::foo{ARRAY}->[2]{'b'} = *::foo{SCALAR};
#*::foo{ARRAY}->[2]{'d'} = *::foo{ARRAY}->[2];
#*::foo = *::foo{ARRAY}->[2];
#@bar = @{*::foo{ARRAY}};
#%baz = %{*::foo{ARRAY}->[2]};
EOT
$Data::Dumper::Purity = 1;
$Data::Dumper::Indent = 3;
TEST q(Data::Dumper->Dump([\\*foo, \\@foo, \\%foo], ['*foo', '*bar', '*baz']));
TEST q(Data::Dumper->Dumpxs([\\*foo, \\@foo, \\%foo], ['*foo', '*bar', '*baz'])) if $XS;
############# 55
##
$WANT = <<'EOT';
#$foo = \*::foo;
#*::foo = \5;
#*::foo = [
# -10,
# do{my $o},
# {
# 'c' => [],
# 'a' => 1,
# 'b' => do{my $o},
# 'd' => {}
# }
#];
#*::foo{ARRAY}->[1] = $foo;
#*::foo{ARRAY}->[2]{'c'} = *::foo{ARRAY};
#*::foo{ARRAY}->[2]{'b'} = *::foo{SCALAR};
#*::foo{ARRAY}->[2]{'d'} = *::foo{ARRAY}->[2];
#*::foo = *::foo{ARRAY}->[2];
#$bar = *::foo{ARRAY};
#$baz = *::foo{ARRAY}->[2];
EOT
$Data::Dumper::Indent = 1;
TEST q(Data::Dumper->Dump([\\*foo, \\@foo, \\%foo], ['foo', 'bar', 'baz']));
TEST q(Data::Dumper->Dumpxs([\\*foo, \\@foo, \\%foo], ['foo', 'bar', 'baz'])) if $XS;
############# 61
##
$WANT = <<'EOT';
#@bar = (
# -10,
# \*::foo,
# {}
#);
#*::foo = \5;
#*::foo = \@bar;
#*::foo = {
# 'c' => [],
# 'a' => 1,
# 'b' => do{my $o},
# 'd' => {}
#};
#*::foo{HASH}->{'c'} = \@bar;
#*::foo{HASH}->{'b'} = *::foo{SCALAR};
#*::foo{HASH}->{'d'} = *::foo{HASH};
#$bar[2] = *::foo{HASH};
#%baz = %{*::foo{HASH}};
#$foo = $bar[1];
EOT
TEST q(Data::Dumper->Dump([\\@foo, \\%foo, \\*foo], ['*bar', '*baz', '*foo']));
TEST q(Data::Dumper->Dumpxs([\\@foo, \\%foo, \\*foo], ['*bar', '*baz', '*foo'])) if $XS;
############# 67
##
$WANT = <<'EOT';
#$bar = [
# -10,
# \*::foo,
# {}
#];
#*::foo = \5;
#*::foo = $bar;
#*::foo = {
# 'c' => [],
# 'a' => 1,
# 'b' => do{my $o},
# 'd' => {}
#};
#*::foo{HASH}->{'c'} = $bar;
#*::foo{HASH}->{'b'} = *::foo{SCALAR};
#*::foo{HASH}->{'d'} = *::foo{HASH};
#$bar->[2] = *::foo{HASH};
#$baz = *::foo{HASH};
#$foo = $bar->[1];
EOT
TEST q(Data::Dumper->Dump([\\@foo, \\%foo, \\*foo], ['bar', 'baz', 'foo']));
TEST q(Data::Dumper->Dumpxs([\\@foo, \\%foo, \\*foo], ['bar', 'baz', 'foo'])) if $XS;
############# 73
##
$WANT = <<'EOT';
#$foo = \*::foo;
#@bar = (
# -10,
# $foo,
# {
# c => \@bar,
# a => 1,
# b => \5,
# d => $bar[2]
# }
#);
#%baz = %{$bar[2]};
EOT
$Data::Dumper::Purity = 0;
$Data::Dumper::Quotekeys = 0;
TEST q(Data::Dumper->Dump([\\*foo, \\@foo, \\%foo], ['*foo', '*bar', '*baz']));
TEST q(Data::Dumper->Dumpxs([\\*foo, \\@foo, \\%foo], ['*foo', '*bar', '*baz'])) if $XS;
############# 79
##
$WANT = <<'EOT';
#$foo = \*::foo;
#$bar = [
# -10,
# $foo,
# {
# c => $bar,
# a => 1,
# b => \5,
# d => $bar->[2]
# }
#];
#$baz = $bar->[2];
EOT
TEST q(Data::Dumper->Dump([\\*foo, \\@foo, \\%foo], ['foo', 'bar', 'baz']));
TEST q(Data::Dumper->Dumpxs([\\*foo, \\@foo, \\%foo], ['foo', 'bar', 'baz'])) if $XS;
}
#############
#############
{
package main;
@dogs = ( 'Fido', 'Wags' );
%kennel = (
First => \$dogs[0],
Second => \$dogs[1],
);
$dogs[2] = \%kennel;
$mutts = \%kennel;
$mutts = $mutts; # avoid warning
############# 85
##
$WANT = <<'EOT';
#%kennels = (
# Second => \'Wags',
# First => \'Fido'
#);
#@dogs = (
# ${$kennels{First}},
# ${$kennels{Second}},
# \%kennels
#);
#%mutts = %kennels;
EOT
TEST q(
$d = Data::Dumper->new([\\%kennel, \\@dogs, $mutts],
[qw(*kennels *dogs *mutts)] );
$d->Dump;
);
if ($XS) {
TEST q(
$d = Data::Dumper->new([\\%kennel, \\@dogs, $mutts],
[qw(*kennels *dogs *mutts)] );
$d->Dumpxs;
);
}
############# 91
##
$WANT = <<'EOT';
#%kennels = %kennels;
#@dogs = @dogs;
#%mutts = %kennels;
EOT
TEST q($d->Dump);
TEST q($d->Dumpxs) if $XS;
############# 97
##
$WANT = <<'EOT';
#%kennels = (
# Second => \'Wags',
# First => \'Fido'
#);
#@dogs = (
# ${$kennels{First}},
# ${$kennels{Second}},
# \%kennels
#);
#%mutts = %kennels;
EOT
TEST q($d->Reset; $d->Dump);
if ($XS) {
TEST q($d->Reset; $d->Dumpxs);
}
############# 103
##
$WANT = <<'EOT';
#@dogs = (
# 'Fido',
# 'Wags',
# {
# Second => \$dogs[1],
# First => \$dogs[0]
# }
#);
#%kennels = %{$dogs[2]};
#%mutts = %{$dogs[2]};
EOT
TEST q(
$d = Data::Dumper->new([\\@dogs, \\%kennel, $mutts],
[qw(*dogs *kennels *mutts)] );
$d->Dump;
);
if ($XS) {
TEST q(
$d = Data::Dumper->new([\\@dogs, \\%kennel, $mutts],
[qw(*dogs *kennels *mutts)] );
$d->Dumpxs;
);
}
############# 109
##
TEST q($d->Reset->Dump);
if ($XS) {
TEST q($d->Reset->Dumpxs);
}
############# 115
##
$WANT = <<'EOT';
#@dogs = (
# 'Fido',
# 'Wags',
# {
# Second => \'Wags',
# First => \'Fido'
# }
#);
#%kennels = (
# Second => \'Wags',
# First => \'Fido'
#);
EOT
TEST q(
$d = Data::Dumper->new( [\@dogs, \%kennel], [qw(*dogs *kennels)] );
$d->Deepcopy(1)->Dump;
);
if ($XS) {
TEST q($d->Reset->Dumpxs);
}
}
{
sub z { print "foo\n" }
$c = [ \&z ];
############# 121
##
$WANT = <<'EOT';
#$a = $b;
#$c = [
# $b
#];
EOT
TEST q(Data::Dumper->new([\&z,$c],['a','c'])->Seen({'b' => \&z})->Dump;);
TEST q(Data::Dumper->new([\&z,$c],['a','c'])->Seen({'b' => \&z})->Dumpxs;)
if $XS;
############# 127
##
$WANT = <<'EOT';
#$a = \&b;
#$c = [
# \&b
#];
EOT
TEST q(Data::Dumper->new([\&z,$c],['a','c'])->Seen({'*b' => \&z})->Dump;);
TEST q(Data::Dumper->new([\&z,$c],['a','c'])->Seen({'*b' => \&z})->Dumpxs;)
if $XS;
############# 133
##
$WANT = <<'EOT';
#*a = \&b;
#@c = (
# \&b
#);
EOT
TEST q(Data::Dumper->new([\&z,$c],['*a','*c'])->Seen({'*b' => \&z})->Dump;);
TEST q(Data::Dumper->new([\&z,$c],['*a','*c'])->Seen({'*b' => \&z})->Dumpxs;)
if $XS;
}
{
$a = [];
$a->[1] = \$a->[0];
############# 139
##
$WANT = <<'EOT';
#@a = (
# undef,
# do{my $o}
#);
#$a[1] = \$a[0];
EOT
TEST q(Data::Dumper->new([$a],['*a'])->Purity(1)->Dump;);
TEST q(Data::Dumper->new([$a],['*a'])->Purity(1)->Dumpxs;)
if $XS;
}
{
$a = \\\\\'foo';
$b = $$$a;
############# 145
##
$WANT = <<'EOT';
#$a = \\\\\'foo';
#$b = ${${$a}};
EOT
TEST q(Data::Dumper->new([$a,$b],['a','b'])->Purity(1)->Dump;);
TEST q(Data::Dumper->new([$a,$b],['a','b'])->Purity(1)->Dumpxs;)
if $XS;
}
{
$a = [{ a => \$b }, { b => undef }];
$b = [{ c => \$b }, { d => \$a }];
############# 151
##
$WANT = <<'EOT';
#$a = [
# {
# a => \[
# {
# c => do{my $o}
# },
# {
# d => \[]
# }
# ]
# },
# {
# b => undef
# }
#];
#${$a->[0]{a}}->[0]->{c} = $a->[0]{a};
#${${$a->[0]{a}}->[1]->{d}} = $a;
#$b = ${$a->[0]{a}};
EOT
TEST q(Data::Dumper->new([$a,$b],['a','b'])->Purity(1)->Dump;);
TEST q(Data::Dumper->new([$a,$b],['a','b'])->Purity(1)->Dumpxs;)
if $XS;
}
{
$a = [[[[\\\\\'foo']]]];
$b = $a->[0][0];
$c = $${$b->[0][0]};
############# 157
##
$WANT = <<'EOT';
#$a = [
# [
# [
# [
# \\\\\'foo'
# ]
# ]
# ]
#];
#$b = $a->[0][0];
#$c = ${${$a->[0][0][0][0]}};
EOT
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Purity(1)->Dump;);
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Purity(1)->Dumpxs;)
if $XS;
}
{
$f = "pearl";
$e = [ $f ];
$d = { 'e' => $e };
$c = [ $d ];
$b = { 'c' => $c };
$a = { 'b' => $b };
############# 163
##
$WANT = <<'EOT';
#$a = {
# b => {
# c => [
# {
# e => 'ARRAY(0xdeadbeef)'
# }
# ]
# }
#};
#$b = $a->{b};
#$c = $a->{b}{c};
EOT
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Maxdepth(4)->Dump;);
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Maxdepth(4)->Dumpxs;)
if $XS;
############# 169
##
$WANT = <<'EOT';
#$a = {
# b => 'HASH(0xdeadbeef)'
#};
#$b = $a->{b};
#$c = [
# 'HASH(0xdeadbeef)'
#];
EOT
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Maxdepth(1)->Dump;);
TEST q(Data::Dumper->new([$a,$b,$c],['a','b','c'])->Maxdepth(1)->Dumpxs;)
if $XS;
}
{
$a = \$a;
$b = [$a];
############# 175
##
$WANT = <<'EOT';
#$b = [
# \$b->[0]
#];
EOT
TEST q(Data::Dumper->new([$b],['b'])->Purity(0)->Dump;);
TEST q(Data::Dumper->new([$b],['b'])->Purity(0)->Dumpxs;)
if $XS;
############# 181
##
$WANT = <<'EOT';
#$b = [
# \do{my $o}
#];
#${$b->[0]} = $b->[0];
EOT
TEST q(Data::Dumper->new([$b],['b'])->Purity(1)->Dump;);
TEST q(Data::Dumper->new([$b],['b'])->Purity(1)->Dumpxs;)
if $XS;
}
{
$a = "\x{09c10}";
############# 187
## XS code was adding an extra \0
$WANT = <<'EOT';
#$a = "\x{9c10}";
EOT
TEST q(Data::Dumper->Dump([$a], ['a'])), "\\x{9c10}";
TEST q(Data::Dumper->Dumpxs([$a], ['a'])), "XS \\x{9c10}"
if $XS;
}
{
$i = 0;
$a = { map { ("$_$_$_", ++$i) } 'I'..'Q' };
local $Data::Dumper::Sortkeys = 1;
############# 193
##
$WANT = <<'EOT';
#$VAR1 = {
# III => 1,
# JJJ => 2,
# KKK => 3,
# LLL => 4,
# MMM => 5,
# NNN => 6,
# OOO => 7,
# PPP => 8,
# QQQ => 9
#};
EOT
TEST q(Data::Dumper->new([$a])->Dump;);
TEST q(Data::Dumper->new([$a])->Dumpxs;)
if $XS;
}
{
$i = 5;
$c = { map { (++$i, "$_$_$_") } 'I'..'Q' };
local $Data::Dumper::Sortkeys = \&sort199;
sub sort199 {
my $hash = shift;
return [ sort { $b <=> $a } keys %$hash ];
}
############# 199
##
$WANT = <<'EOT';
#$VAR1 = {
# 14 => 'QQQ',
# 13 => 'PPP',
# 12 => 'OOO',
# 11 => 'NNN',
# 10 => 'MMM',
# 9 => 'LLL',
# 8 => 'KKK',
# 7 => 'JJJ',
# 6 => 'III'
#};
EOT
# perl code does keys and values as numbers if possible
TEST q(Data::Dumper->new([$c])->Dump;);
# XS code always does them as strings
$WANT =~ s/ (\d+)/ '$1'/gs;
TEST q(Data::Dumper->new([$c])->Dumpxs;)
if $XS;
}
{
$i = 5;
$c = { map { (++$i, "$_$_$_") } 'I'..'Q' };
$d = { reverse %$c };
local $Data::Dumper::Sortkeys = \&sort205;
sub sort205 {
my $hash = shift;
return [
$hash eq $c ? (sort { $a <=> $b } keys %$hash)
: (reverse sort keys %$hash)
];
}
############# 205
##
$WANT = <<'EOT';
#$VAR1 = [
# {
# 6 => 'III',
# 7 => 'JJJ',
# 8 => 'KKK',
# 9 => 'LLL',
# 10 => 'MMM',
# 11 => 'NNN',
# 12 => 'OOO',
# 13 => 'PPP',
# 14 => 'QQQ'
# },
# {
# QQQ => 14,
# PPP => 13,
# OOO => 12,
# NNN => 11,
# MMM => 10,
# LLL => 9,
# KKK => 8,
# JJJ => 7,
# III => 6
# }
#];
EOT
TEST q(Data::Dumper->new([[$c, $d]])->Dump;);
$WANT =~ s/ (\d+)/ '$1'/gs;
TEST q(Data::Dumper->new([[$c, $d]])->Dumpxs;)
if $XS;
}
{
local $Data::Dumper::Deparse = 1;
local $Data::Dumper::Indent = 2;
############# 211
##
$WANT = <<'EOT';
#$VAR1 = {
# foo => sub {
# print 'foo';
# }
# };
EOT
TEST q(Data::Dumper->new([{ foo => sub { print "foo"; } }])->Dump);
}
############# 214
##
# This is messy.
# The controls (bare numbers) are stored either as integers or floating point.
# [depending on whether the tokeniser sees things like ".".
# The peephole optimiser only runs for constant folding, not single constants,
# so I already have some NVs, some IVs
# The string versions are not. They are all PV
# This is arguably all far too chummy with the implementation, but I really
# want to ensure that we don't go wrong when flags on scalars get as side
# effects of reading them.
# These tests are actually testing the precise output of the current
# implementation, so will most likely fail if the implementation changes,
# even if the new implementation produces different but correct results.
# It would be nice to test for wrong answers, but I can't see how to do that,
# so instead I'm checking for unexpected answers. (ie -2 becoming "-2" is not
# wrong, but I can't see an easy, reliable way to code that knowledge)
# Numbers (seen by the tokeniser as numbers, stored as numbers.
@numbers =
(
0, +1, -2, 3.0, +4.0, -5.0, 6.5, +7.5, -8.5,
9, +10, -11, 12.0, +13.0, -14.0, 15.5, +16.25, -17.75,
);
# Strings
@strings =
(
"0", "+1", "-2", "3.0", "+4.0", "-5.0", "6.5", "+7.5", "-8.5", " 9",
" +10", " -11", " 12.0", " +13.0", " -14.0", " 15.5", " +16.25", " -17.75",
);
# The perl code always does things the same way for numbers.
$WANT_PL_N = <<'EOT';
#$VAR1 = 0;
#$VAR2 = 1;
#$VAR3 = -2;
#$VAR4 = 3;
#$VAR5 = 4;
#$VAR6 = -5;
#$VAR7 = '6.5';
#$VAR8 = '7.5';
#$VAR9 = '-8.5';
#$VAR10 = 9;
#$VAR11 = 10;
#$VAR12 = -11;
#$VAR13 = 12;
#$VAR14 = 13;
#$VAR15 = -14;
#$VAR16 = '15.5';
#$VAR17 = '16.25';
#$VAR18 = '-17.75';
EOT
# The perl code knows that 0 and -2 stringify exactly back to the strings,
# so it dumps them as numbers, not strings.
$WANT_PL_S = <<'EOT';
#$VAR1 = 0;
#$VAR2 = '+1';
#$VAR3 = -2;
#$VAR4 = '3.0';
#$VAR5 = '+4.0';
#$VAR6 = '-5.0';
#$VAR7 = '6.5';
#$VAR8 = '+7.5';
#$VAR9 = '-8.5';
#$VAR10 = ' 9';
#$VAR11 = ' +10';
#$VAR12 = ' -11';
#$VAR13 = ' 12.0';
#$VAR14 = ' +13.0';
#$VAR15 = ' -14.0';
#$VAR16 = ' 15.5';
#$VAR17 = ' +16.25';
#$VAR18 = ' -17.75';
EOT
# The XS code differs.
# These are the numbers as seen by the tokeniser. Constants aren't folded
# (which makes IVs where possible) so values the tokeniser thought were
# floating point are stored as NVs. The XS code outputs these as strings,
# but as it has converted them from NVs, leading + signs will not be there.
$WANT_XS_N = <<'EOT';
#$VAR1 = 0;
#$VAR2 = 1;
#$VAR3 = -2;
#$VAR4 = '3';
#$VAR5 = '4';
#$VAR6 = '-5';
#$VAR7 = '6.5';
#$VAR8 = '7.5';
#$VAR9 = '-8.5';
#$VAR10 = 9;
#$VAR11 = 10;
#$VAR12 = -11;
#$VAR13 = '12';
#$VAR14 = '13';
#$VAR15 = '-14';
#$VAR16 = '15.5';
#$VAR17 = '16.25';
#$VAR18 = '-17.75';
EOT
# These are the strings as seen by the tokeniser. The XS code will output
# these for all cases except where the scalar has been used in integer context
$WANT_XS_S = <<'EOT';
#$VAR1 = '0';
#$VAR2 = '+1';
#$VAR3 = '-2';
#$VAR4 = '3.0';
#$VAR5 = '+4.0';
#$VAR6 = '-5.0';
#$VAR7 = '6.5';
#$VAR8 = '+7.5';
#$VAR9 = '-8.5';
#$VAR10 = ' 9';
#$VAR11 = ' +10';
#$VAR12 = ' -11';
#$VAR13 = ' 12.0';
#$VAR14 = ' +13.0';
#$VAR15 = ' -14.0';
#$VAR16 = ' 15.5';
#$VAR17 = ' +16.25';
#$VAR18 = ' -17.75';
EOT
# These are the numbers as IV-ized by &
# These will differ from WANT_XS_N because now IV flags will be set on all
# values that were actually integer, and the XS code will then output these
# as numbers not strings.
$WANT_XS_I = <<'EOT';
#$VAR1 = 0;
#$VAR2 = 1;
#$VAR3 = -2;
#$VAR4 = 3;
#$VAR5 = 4;
#$VAR6 = -5;
#$VAR7 = '6.5';
#$VAR8 = '7.5';
#$VAR9 = '-8.5';
#$VAR10 = 9;
#$VAR11 = 10;
#$VAR12 = -11;
#$VAR13 = 12;
#$VAR14 = 13;
#$VAR15 = -14;
#$VAR16 = '15.5';
#$VAR17 = '16.25';
#$VAR18 = '-17.75';
EOT
# Some of these tests will be redundant.
@numbers_s = @numbers_i = @numbers_is = @numbers_n = @numbers_ns = @numbers_ni
= @numbers_nis = @numbers;
@strings_s = @strings_i = @strings_is = @strings_n = @strings_ns = @strings_ni
= @strings_nis = @strings;
# Use them in an integer context
foreach (@numbers_i, @numbers_ni, @numbers_nis, @numbers_is,
@strings_i, @strings_ni, @strings_nis, @strings_is) {
my $b = sprintf "%d", $_;
}
# Use them in a floating point context
foreach (@numbers_n, @numbers_ni, @numbers_nis, @numbers_ns,
@strings_n, @strings_ni, @strings_nis, @strings_ns) {
my $b = sprintf "%e", $_;
}
# Use them in a string context
foreach (@numbers_s, @numbers_is, @numbers_nis, @numbers_ns,
@strings_s, @strings_is, @strings_nis, @strings_ns) {
my $b = sprintf "%s", $_;
}
# use Devel::Peek; Dump ($_) foreach @vanilla_c;
$WANT=$WANT_PL_N;
TEST q(Data::Dumper->new(\@numbers)->Dump), 'Numbers';
TEST q(Data::Dumper->new(\@numbers_s)->Dump), 'Numbers PV';
TEST q(Data::Dumper->new(\@numbers_i)->Dump), 'Numbers IV';
TEST q(Data::Dumper->new(\@numbers_is)->Dump), 'Numbers IV,PV';
TEST q(Data::Dumper->new(\@numbers_n)->Dump), 'Numbers NV';
TEST q(Data::Dumper->new(\@numbers_ns)->Dump), 'Numbers NV,PV';
TEST q(Data::Dumper->new(\@numbers_ni)->Dump), 'Numbers NV,IV';
TEST q(Data::Dumper->new(\@numbers_nis)->Dump), 'Numbers NV,IV,PV';
$WANT=$WANT_PL_S;
TEST q(Data::Dumper->new(\@strings)->Dump), 'Strings';
TEST q(Data::Dumper->new(\@strings_s)->Dump), 'Strings PV';
TEST q(Data::Dumper->new(\@strings_i)->Dump), 'Strings IV';
TEST q(Data::Dumper->new(\@strings_is)->Dump), 'Strings IV,PV';
TEST q(Data::Dumper->new(\@strings_n)->Dump), 'Strings NV';
TEST q(Data::Dumper->new(\@strings_ns)->Dump), 'Strings NV,PV';
TEST q(Data::Dumper->new(\@strings_ni)->Dump), 'Strings NV,IV';
TEST q(Data::Dumper->new(\@strings_nis)->Dump), 'Strings NV,IV,PV';
if ($XS) {
$WANT=$WANT_XS_N;
TEST q(Data::Dumper->new(\@numbers)->Dumpxs), 'XS Numbers';
TEST q(Data::Dumper->new(\@numbers_s)->Dumpxs), 'XS Numbers PV';
$WANT=$WANT_XS_I;
TEST q(Data::Dumper->new(\@numbers_i)->Dumpxs), 'XS Numbers IV';
TEST q(Data::Dumper->new(\@numbers_is)->Dumpxs), 'XS Numbers IV,PV';
$WANT=$WANT_XS_N;
TEST q(Data::Dumper->new(\@numbers_n)->Dumpxs), 'XS Numbers NV';
TEST q(Data::Dumper->new(\@numbers_ns)->Dumpxs), 'XS Numbers NV,PV';
$WANT=$WANT_XS_I;
TEST q(Data::Dumper->new(\@numbers_ni)->Dumpxs), 'XS Numbers NV,IV';
TEST q(Data::Dumper->new(\@numbers_nis)->Dumpxs), 'XS Numbers NV,IV,PV';
$WANT=$WANT_XS_S;
TEST q(Data::Dumper->new(\@strings)->Dumpxs), 'XS Strings';
TEST q(Data::Dumper->new(\@strings_s)->Dumpxs), 'XS Strings PV';
# This one used to really mess up. New code actually emulates the .pm code
$WANT=$WANT_PL_S;
TEST q(Data::Dumper->new(\@strings_i)->Dumpxs), 'XS Strings IV';
TEST q(Data::Dumper->new(\@strings_is)->Dumpxs), 'XS Strings IV,PV';
$WANT=$WANT_XS_S;
TEST q(Data::Dumper->new(\@strings_n)->Dumpxs), 'XS Strings NV';
TEST q(Data::Dumper->new(\@strings_ns)->Dumpxs), 'XS Strings NV,PV';
# This one used to really mess up. New code actually emulates the .pm code
$WANT=$WANT_PL_S;
TEST q(Data::Dumper->new(\@strings_ni)->Dumpxs), 'XS Strings NV,IV';
TEST q(Data::Dumper->new(\@strings_nis)->Dumpxs), 'XS Strings NV,IV,PV';
}
{
$a = "1\n";
############# 310
## Perl code was using /...$/ and hence missing the \n.
$WANT = <<'EOT';
my $VAR1 = '42
';
EOT
# Can't pad with # as the output has an embedded newline.
local $Data::Dumper::Pad = "my ";
TEST q(Data::Dumper->Dump(["42\n"])), "number with trailing newline";
TEST q(Data::Dumper->Dumpxs(["42\n"])), "XS number with trailing newline"
if $XS;
}
{
@a = (
999999999,
1000000000,
9999999999,
10000000000,
-999999999,
-1000000000,
-9999999999,
-10000000000,
4294967295,
4294967296,
-2147483648,
-2147483649,
);
############# 316
## Perl code flips over at 10 digits.
$WANT = <<'EOT';
#$VAR1 = 999999999;
#$VAR2 = '1000000000';
#$VAR3 = '9999999999';
#$VAR4 = '10000000000';
#$VAR5 = -999999999;
#$VAR6 = '-1000000000';
#$VAR7 = '-9999999999';
#$VAR8 = '-10000000000';
#$VAR9 = '4294967295';
#$VAR10 = '4294967296';
#$VAR11 = '-2147483648';
#$VAR12 = '-2147483649';
EOT
TEST q(Data::Dumper->Dump(\@a)), "long integers";
if ($XS) {
## XS code flips over at 11 characters ("-" is a char) or larger than int.
if (~0 == 0xFFFFFFFF) {
# 32 bit system
$WANT = <<'EOT';
#$VAR1 = 999999999;
#$VAR2 = 1000000000;
#$VAR3 = '9999999999';
#$VAR4 = '10000000000';
#$VAR5 = -999999999;
#$VAR6 = '-1000000000';
#$VAR7 = '-9999999999';
#$VAR8 = '-10000000000';
#$VAR9 = 4294967295;
#$VAR10 = '4294967296';
#$VAR11 = '-2147483648';
#$VAR12 = '-2147483649';
EOT
} else {
$WANT = <<'EOT';
#$VAR1 = 999999999;
#$VAR2 = 1000000000;
#$VAR3 = 9999999999;
#$VAR4 = '10000000000';
#$VAR5 = -999999999;
#$VAR6 = '-1000000000';
#$VAR7 = '-9999999999';
#$VAR8 = '-10000000000';
#$VAR9 = 4294967295;
#$VAR10 = 4294967296;
#$VAR11 = '-2147483648';
#$VAR12 = '-2147483649';
EOT
}
TEST q(Data::Dumper->Dumpxs(\@a)), "XS long integers";
}
}
#XXX}
{
$b = "Bad. XS didn't escape dollar sign";
############# 322
$WANT = <<"EOT"; # Careful. This is '' string written inside '' here doc
#\$VAR1 = '\$b\"\@\\\\\xA3';
EOT
$a = "\$b\"\@\\\xA3\x{100}";
chop $a;
TEST q(Data::Dumper->Dump([$a])), "utf8 flag with \" and \$";
if ($XS) {
$WANT = <<'EOT'; # While this is "" string written inside "" here doc
#$VAR1 = "\$b\"\@\\\x{a3}";
EOT
TEST q(Data::Dumper->Dumpxs([$a])), "XS utf8 flag with \" and \$";
}
# XS used to produce "$b\"' which is 4 chars, not 3. [ie wrongly qq(\$b\\\")]
############# 328
$WANT = <<'EOT';
#$VAR1 = '$b"';
EOT
$a = "\$b\"\x{100}";
chop $a;
TEST q(Data::Dumper->Dump([$a])), "utf8 flag with \" and \$";
if ($XS) {
TEST q(Data::Dumper->Dumpxs([$a])), "XS utf8 flag with \" and \$";
}
# XS used to produce 'D'oh!' which is well, D'oh!
# Andreas found this one, which in turn discovered the previous two.
############# 334
$WANT = <<'EOT';
#$VAR1 = 'D\'oh!';
EOT
$a = "D'oh!\x{100}";
chop $a;
TEST q(Data::Dumper->Dump([$a])), "utf8 flag with '";
if ($XS) {
TEST q(Data::Dumper->Dumpxs([$a])), "XS utf8 flag with '";
}
}
# Jarkko found that -Mutf8 caused some tests to fail. Turns out that there
# was an otherwise untested code path in the XS for utf8 hash keys with purity
# 1
{
$WANT = <<'EOT';
#$ping = \*::ping;
#*::ping = \5;
#*::ping = {
# "\x{decaf}\x{decaf}\x{decaf}\x{decaf}" => do{my $o}
#};
#*::ping{HASH}->{"\x{decaf}\x{decaf}\x{decaf}\x{decaf}"} = *::ping{SCALAR};
#%pong = %{*::ping{HASH}};
EOT
local $Data::Dumper::Purity = 1;
local $Data::Dumper::Sortkeys;
$ping = 5;
%ping = (chr (0xDECAF) x 4 =>\$ping);
for $Data::Dumper::Sortkeys (0, 1) {
TEST q(Data::Dumper->Dump([\\*ping, \\%ping], ['*ping', '*pong']));
TEST q(Data::Dumper->Dumpxs([\\*ping, \\%ping], ['*ping', '*pong'])) if $XS;
}
}
# XS for quotekeys==0 was not being defensive enough against utf8 flagged
# scalars
{
$WANT = <<'EOT';
#$VAR1 = {
# perl => 'rocks'
#};
EOT
local $Data::Dumper::Quotekeys = 0;
my $k = 'perl' . chr 256;
chop $k;
%foo = ($k => 'rocks');
TEST q(Data::Dumper->Dump([\\%foo])), "quotekeys == 0 for utf8 flagged ASCII";
TEST q(Data::Dumper->Dumpxs([\\%foo])),
"XS quotekeys == 0 for utf8 flagged ASCII" if $XS;
}
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