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|
#line 1
#===============================================================================
# This is the default class for handling Test::Base data filtering.
#===============================================================================
package Test::Base::Filter;
use Spiffy -Base;
use Spiffy ':XXX';
field 'current_block';
our $arguments;
sub current_arguments {
return undef unless defined $arguments;
my $args = $arguments;
$args =~ s/(\\s)/ /g;
$args =~ s/(\\[a-z])/'"' . $1 . '"'/gee;
return $args;
}
sub assert_scalar {
return if @_ == 1;
require Carp;
my $filter = (caller(1))[3];
$filter =~ s/.*:://;
Carp::croak "Input to the '$filter' filter must be a scalar, not a list";
}
sub _apply_deepest {
my $method = shift;
return () unless @_;
if (ref $_[0] eq 'ARRAY') {
for my $aref (@_) {
@$aref = $self->_apply_deepest($method, @$aref);
}
return @_;
}
$self->$method(@_);
}
sub _split_array {
map {
[$self->split($_)];
} @_;
}
sub _peel_deepest {
return () unless @_;
if (ref $_[0] eq 'ARRAY') {
if (ref $_[0]->[0] eq 'ARRAY') {
for my $aref (@_) {
@$aref = $self->_peel_deepest(@$aref);
}
return @_;
}
return map { $_->[0] } @_;
}
return @_;
}
#===============================================================================
# these filters work on the leaves of nested arrays
#===============================================================================
sub Join { $self->_peel_deepest($self->_apply_deepest(join => @_)) }
sub Reverse { $self->_apply_deepest(reverse => @_) }
sub Split { $self->_apply_deepest(_split_array => @_) }
sub Sort { $self->_apply_deepest(sort => @_) }
sub append {
my $suffix = $self->current_arguments;
map { $_ . $suffix } @_;
}
sub array {
return [@_];
}
sub base64_decode {
$self->assert_scalar(@_);
require MIME::Base64;
MIME::Base64::decode_base64(shift);
}
sub base64_encode {
$self->assert_scalar(@_);
require MIME::Base64;
MIME::Base64::encode_base64(shift);
}
sub chomp {
map { CORE::chomp; $_ } @_;
}
sub chop {
map { CORE::chop; $_ } @_;
}
sub dumper {
no warnings 'once';
require Data::Dumper;
local $Data::Dumper::Sortkeys = 1;
local $Data::Dumper::Indent = 1;
local $Data::Dumper::Terse = 1;
Data::Dumper::Dumper(@_);
}
sub escape {
$self->assert_scalar(@_);
my $text = shift;
$text =~ s/(\\.)/eval "qq{$1}"/ge;
return $text;
}
sub eval {
$self->assert_scalar(@_);
my @return = CORE::eval(shift);
return $@ if $@;
return @return;
}
sub eval_all {
$self->assert_scalar(@_);
my $out = '';
my $err = '';
Test::Base::tie_output(*STDOUT, $out);
Test::Base::tie_output(*STDERR, $err);
my $return = CORE::eval(shift);
no warnings;
untie *STDOUT;
untie *STDERR;
return $return, $@, $out, $err;
}
sub eval_stderr {
$self->assert_scalar(@_);
my $output = '';
Test::Base::tie_output(*STDERR, $output);
CORE::eval(shift);
no warnings;
untie *STDERR;
return $output;
}
sub eval_stdout {
$self->assert_scalar(@_);
my $output = '';
Test::Base::tie_output(*STDOUT, $output);
CORE::eval(shift);
no warnings;
untie *STDOUT;
return $output;
}
sub exec_perl_stdout {
my $tmpfile = "/tmp/test-blocks-$$";
$self->_write_to($tmpfile, @_);
open my $execution, "$^X $tmpfile 2>&1 |"
or die "Couldn't open subprocess: $!\n";
local $/;
my $output = <$execution>;
close $execution;
unlink($tmpfile)
or die "Couldn't unlink $tmpfile: $!\n";
return $output;
}
sub flatten {
$self->assert_scalar(@_);
my $ref = shift;
if (ref($ref) eq 'HASH') {
return map {
($_, $ref->{$_});
} sort keys %$ref;
}
if (ref($ref) eq 'ARRAY') {
return @$ref;
}
die "Can only flatten a hash or array ref";
}
sub get_url {
$self->assert_scalar(@_);
my $url = shift;
CORE::chomp($url);
require LWP::Simple;
LWP::Simple::get($url);
}
sub hash {
return +{ @_ };
}
sub head {
my $size = $self->current_arguments || 1;
return splice(@_, 0, $size);
}
sub join {
my $string = $self->current_arguments;
$string = '' unless defined $string;
CORE::join $string, @_;
}
sub lines {
$self->assert_scalar(@_);
my $text = shift;
return () unless length $text;
my @lines = ($text =~ /^(.*\n?)/gm);
return @lines;
}
sub norm {
$self->assert_scalar(@_);
my $text = shift;
$text = '' unless defined $text;
$text =~ s/\015\012/\n/g;
$text =~ s/\r/\n/g;
return $text;
}
sub prepend {
my $prefix = $self->current_arguments;
map { $prefix . $_ } @_;
}
sub read_file {
$self->assert_scalar(@_);
my $file = shift;
CORE::chomp $file;
open my $fh, $file
or die "Can't open '$file' for input:\n$!";
CORE::join '', <$fh>;
}
sub regexp {
$self->assert_scalar(@_);
my $text = shift;
my $flags = $self->current_arguments;
if ($text =~ /\n.*?\n/s) {
$flags = 'xism'
unless defined $flags;
}
else {
CORE::chomp($text);
}
$flags ||= '';
my $regexp = eval "qr{$text}$flags";
die $@ if $@;
return $regexp;
}
sub reverse {
CORE::reverse(@_);
}
sub slice {
die "Invalid args for slice"
unless $self->current_arguments =~ /^(\d+)(?:,(\d))?$/;
my ($x, $y) = ($1, $2);
$y = $x if not defined $y;
die "Invalid args for slice"
if $x > $y;
return splice(@_, $x, 1 + $y - $x);
}
sub sort {
CORE::sort(@_);
}
sub split {
$self->assert_scalar(@_);
my $separator = $self->current_arguments;
if (defined $separator and $separator =~ s{^/(.*)/$}{$1}) {
my $regexp = $1;
$separator = qr{$regexp};
}
$separator = qr/\s+/ unless $separator;
CORE::split $separator, shift;
}
sub strict {
$self->assert_scalar(@_);
<<'...' . shift;
use strict;
use warnings;
...
}
sub tail {
my $size = $self->current_arguments || 1;
return splice(@_, @_ - $size, $size);
}
sub trim {
map {
s/\A([ \t]*\n)+//;
s/(?<=\n)\s*\z//g;
$_;
} @_;
}
sub unchomp {
map { $_ . "\n" } @_;
}
sub write_file {
my $file = $self->current_arguments
or die "No file specified for write_file filter";
if ($file =~ /(.*)[\\\/]/) {
my $dir = $1;
if (not -e $dir) {
require File::Path;
File::Path::mkpath($dir)
or die "Can't create $dir";
}
}
open my $fh, ">$file"
or die "Can't open '$file' for output\n:$!";
print $fh @_;
close $fh;
return $file;
}
sub yaml {
$self->assert_scalar(@_);
require YAML;
return YAML::Load(shift);
}
sub _write_to {
my $filename = shift;
open my $script, ">$filename"
or die "Couldn't open $filename: $!\n";
print $script @_;
close $script
or die "Couldn't close $filename: $!\n";
}
__DATA__
#line 636
|
