#line 1 #. TODO: #. #=============================================================================== # 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 639