package Catmandu::Fix;
use Catmandu::Sane;
our $VERSION = '1.0201';
use Catmandu;
use Catmandu::Util qw(:is :string :misc);
use Clone qw(clone);
sub _eval_emit {
use warnings FATAL => 'all';
eval $_[0];
}
use Moo;
use Catmandu::Fix::Parser;
use Path::Tiny ();
use File::Spec ();
use File::Temp ();
use B ();
use Text::Hogan::Compiler;
with 'Catmandu::Logger';
has parser => (is => 'lazy');
has fixer => (is => 'lazy', init_arg => undef);
has _num_labels =>
(is => 'rw', lazy => 1, init_arg => undef, default => sub {0});
has _num_vars =>
(is => 'rw', lazy => 1, init_arg => undef, default => sub {0});
has _captures =>
(is => 'ro', lazy => 1, init_arg => undef, default => sub {+{}});
has var =>
(is => 'ro', lazy => 1, init_arg => undef, builder => 'generate_var');
has _fixes => (is => 'ro', init_arg => 'fixes', default => sub {[]});
has fixes =>
(is => 'ro', lazy => 1, init_arg => undef, builder => '_build_fixes');
has _reject => (is => 'ro', init_arg => undef, default => sub {+{}});
has _reject_var => (
is => 'ro',
lazy => 1,
init_arg => undef,
builder => '_build_reject_var'
);
has _reject_label =>
(is => 'ro', lazy => 1, init_arg => undef, builder => 'generate_label');
has _fixes_var =>
(is => 'ro', lazy => 1, init_arg => undef, builder => '_build_fixes_var');
has _current_fix_var => (
is => 'ro',
lazy => 1,
init_arg => undef,
builder => '_build_current_fix_var'
);
has preprocess => (is => 'ro');
has _hogan =>
(is => 'ro', lazy => 1, init_arg => undef, builder => '_build_hogan');
has _hogan_vars => (is => 'ro', init_arg => 'variables');
sub _build_parser {
Catmandu::Fix::Parser->new;
}
sub _build_fixes {
my ($self) = @_;
my $fixes_arg = $self->_fixes;
my $fixes = [];
for my $fix (@$fixes_arg) {
if (is_code_ref($fix)) {
push @$fixes, require_package('Catmandu::Fix::code')->new($fix);
}
elsif (ref $fix && ref($fix) =~ /^IO::/) {
my $txt = Catmandu::Util::read_io($fix);
$txt = $self->_preprocess($txt);
push @$fixes, @{$self->parser->parse($txt)};
}
elsif (is_glob_ref($fix)) {
my $fh = Catmandu::Util::io $fix , binmode => ':encoding(UTF-8)';
my $txt = Catmandu::Util::read_io($fh);
$txt = $self->_preprocess($txt);
push @$fixes, @{$self->parser->parse($txt)};
}
elsif (ref $fix) {
push @$fixes, $fix;
}
elsif (is_string($fix)) {
if ($fix =~ /[^\s]/ && $fix !~ /\(/) {
$fix = Path::Tiny::path($fix)->slurp_utf8;
}
$fix = $self->_preprocess($fix);
push @$fixes, @{$self->parser->parse($fix)};
}
}
$fixes;
}
sub _build_fixer {
my ($self) = @_;
my $reject = $self->_reject;
my $sub = do {
local $@;
_eval_emit($self->emit, $self->_captures)
or Catmandu::Error->throw($@);
};
sub {
my $data = $_[0];
if (is_hash_ref($data)) {
my $d = $sub->($data);
return if ref $d && $d == $reject;
return $d;
}
if (is_array_ref($data)) {
return [grep {!(ref $_ && $_ == $reject)}
map {$sub->($_)} @$data];
}
if (is_code_ref($data)) {
return sub {
while (1) {
my $d = $sub->($data->() // return);
return if ref $d && $d == $reject;
return $d;
}
};
}
if ( is_instance($data)
&& is_able($data, 'does')
&& $data->does('Catmandu::Iterable'))
{
return $data->map(sub {$sub->($_[0])})
->reject(sub {ref $_[0] && $_[0] == $reject});
}
Catmandu::BadArg->throw(
"must be hashref, arrayref, coderef or iterable object");
};
}
sub _build_reject_var {
my ($self) = @_;
$self->capture($self->_reject);
}
sub _build_fixes_var {
my ($self) = @_;
$self->capture($self->fixes);
}
sub _build_current_fix_var {
my ($self) = @_;
$self->generate_var;
}
sub _build_hogan {
Text::Hogan::Compiler->new;
}
sub _preprocess {
my ($self, $text) = @_;
return $text unless $self->preprocess || $self->_hogan_vars;
my $vars = $self->_hogan_vars || {};
$self->_hogan->compile($text, {numeric_string_as_string => 1})
->render($vars);
}
sub fix {
my ($self, $data) = @_;
$self->fixer->($data);
}
sub generate_var {
my ($self) = @_;
my $n = $self->_num_vars;
$self->_num_vars($n + 1);
"\$__$n";
}
sub generate_label {
my ($self) = @_;
my $n = $self->_num_labels;
$self->_num_labels($n + 1);
my $addr = Scalar::Util::refaddr($self);
"__FIX__${addr}__${n}";
}
sub capture {
my ($self, $capture) = @_;
my $var = $self->generate_var;
$self->_captures->{$var} = $capture;
$var;
}
sub emit {
my ($self) = @_;
my $var = $self->var;
my $err = $self->generate_var;
my $captures = $self->_captures;
my $reject_var = $self->_reject_var;
my $current_fix_var = $self->_current_fix_var;
my $perl = "";
$perl .= "sub {";
$perl .= $self->emit_declare_vars($current_fix_var);
$perl .= $self->emit_declare_vars($var, '$_[0]');
$perl .= "eval {";
# Loop over all the fixes and emit their code
$perl .= $self->emit_fixes($self->fixes);
$perl .= "return ${var};";
$perl .= $self->_reject_label . ": return ${reject_var};";
$perl .= "} or do {";
$perl .= $self->emit_declare_vars($err, '$@');
$perl .= "${err}->throw if is_instance(${err},'Throwable::Error');";
$perl
.= "Catmandu::FixError->throw(message => ${err}, data => ${var}, fix => ${current_fix_var});";
$perl .= "};";
$perl .= "};";
if (%$captures) {
my @captured_vars = map {
$self->emit_declare_vars($_,
'$_[1]->{' . $self->emit_string($_) . '}');
} keys %$captures;
$perl = join '', @captured_vars, $perl;
}
$self->log->debug($perl);
$perl;
}
# Emit an array of fixes
sub emit_fixes {
my ($self, $fixes) = @_;
my $perl = '';
for (my $i = 0; $i < @{$fixes}; $i++) {
my $fix = $fixes->[$i];
$perl .= $self->emit_fix($fix);
}
$perl;
}
sub emit_reject {
my ($self) = @_;
"goto " . $self->_reject_label . ";";
}
sub emit_fix {
my ($self, $fix) = @_;
my $perl;
if ($fix->can('emit')) {
$perl = $self->emit_block(
sub {
my ($label) = @_;
$fix->emit($self, $label);
}
);
}
else {
my $var = $self->var;
my $ref = $self->generate_var;
$self->_captures->{$ref} = $fix;
$perl = "${var} = ${ref}->fix(${var});";
}
$perl;
}
sub emit_block {
my ($self, $cb) = @_;
my $n = $self->_num_labels;
$self->_num_labels($n + 1);
my $label = "__FIX__${n}";
my $perl = "${label}: {";
$perl .= $cb->($label);
$perl .= "};";
$perl;
}
sub emit_clear_hash_ref {
my ($self, $var) = @_;
"undef %{${var}} if is_hash_ref(${var});";
}
sub emit_value {
my ($self, $val) = @_;
# numbers should look like number and not start with a 0 (no support for
# octals)
is_number($val) && $val !~ /^0+/ ? $val : $self->emit_string($val);
}
sub emit_string {
my ($self, $str) = @_;
B::perlstring($str);
}
sub emit_match {
my ($self, $pattern) = @_;
$pattern =~ s/\//\\\//g;
$pattern =~ s/\\$/\\\\/; # pattern can't end with an escape in m/.../
"m/$pattern/";
}
sub emit_substitution {
my ($self, $pattern, $replace) = @_;
$pattern =~ s/\//\\\//g;
$pattern =~ s/\\$/\\\\/; # pattern can't end with an escape in m/.../
$replace =~ s/\//\\\//g;
$replace =~ s/\\$/\\\\/; # pattern can't end with an escape in m/.../
"s/$pattern/$replace/";
}
sub emit_declare_vars {
my ($self, $var, $val) = @_;
$var = "(" . join(", ", @$var) . ")" if ref $var;
$val = "(" . join(", ", @$val) . ")" if ref $val;
if (defined $val) {
return "my ${var} = ${val};";
}
"my ${var};";
}
sub emit_new_scope {
"{";
}
sub emit_end_scope {
"};";
}
sub emit_foreach {
my ($self, $var, $cb) = @_;
my $perl = "";
my $v = $self->generate_var;
$perl .= "foreach (\@{${var}}) {";
$perl .= $self->emit_declare_vars($v, '$_');
$perl .= $cb->($v);
$perl .= "}";
$perl;
}
sub emit_foreach_key {
my ($self, $var, $cb) = @_;
my $perl = "";
my $v = $self->generate_var;
$perl .= "foreach (keys(\%{${var}})) {";
$perl .= $self->emit_declare_vars($v, '$_');
$perl .= $cb->($v);
$perl .= "}";
$perl;
}
sub emit_walk_path {
my ($self, $var, $keys, $cb) = @_;
$keys = [@$keys]; # protect keys
if (@$keys) { # protect $var
my $v = $self->generate_var;
$self->emit_declare_vars($v, $var)
. $self->_emit_walk_path($v, $keys, $cb);
}
else {
$cb->($var);
}
}
sub _emit_walk_path {
my ($self, $var, $keys, $cb) = @_;
@$keys || return $cb->($var);
my $key = shift @$keys;
my $str_key = $self->emit_string($key);
my $perl = "";
if ($key =~ /^[0-9]+$/) {
$perl .= "if (is_hash_ref(${var})) {";
$perl .= "${var} = ${var}->{${str_key}};";
$perl .= $self->_emit_walk_path($var, [@$keys], $cb);
$perl .= "} elsif (is_array_ref(${var}) && \@{${var}} > ${key}) {";
$perl .= "${var} = ${var}->[${key}];";
$perl .= $self->_emit_walk_path($var, [@$keys], $cb);
$perl .= "}";
}
elsif ($key eq '*') {
my $v = $self->generate_var;
$perl .= "if (is_array_ref(${var})) {";
$perl .= $self->emit_foreach(
$var,
sub {
return $self->_emit_walk_path(shift, $keys, $cb);
}
);
$perl .= "}";
}
else {
if ($key eq '$first') {
$perl .= "if (is_array_ref(${var}) && \@{${var}}) {";
$perl .= "${var} = ${var}->[0];";
}
elsif ($key eq '$last') {
$perl .= "if (is_array_ref(${var}) && \@{${var}}) {";
$perl .= "${var} = ${var}->[\@{${var}} - 1];";
}
else {
$perl .= "if (is_hash_ref(${var})) {";
$perl .= "${var} = ${var}->{${str_key}};";
}
$perl .= $self->_emit_walk_path($var, $keys, $cb);
$perl .= "}";
}
$perl;
}
sub emit_create_path {
my ($self, $var, $keys, $cb) = @_;
$self->_emit_create_path($var, [@$keys], $cb);
}
sub _emit_create_path {
my ($self, $var, $keys, $cb) = @_;
@$keys || return $cb->($var);
my $key = shift @$keys;
my $str_key = $self->emit_string($key);
my $perl = "";
if ($key =~ /^[0-9]+$/) {
my $v1 = $self->generate_var;
my $v2 = $self->generate_var;
$perl .= "if (is_hash_ref(${var})) {";
$perl .= "my ${v1} = ${var};";
$perl
.= $self->_emit_create_path("${v1}->{${str_key}}", [@$keys], $cb);
$perl .= "} elsif (is_maybe_array_ref(${var})) {";
$perl .= "my ${v2} = ${var} //= [];";
$perl .= $self->_emit_create_path("${v2}->[${key}]", [@$keys], $cb);
$perl .= "}";
}
elsif ($key eq '*') {
my $v1 = $self->generate_var;
my $v2 = $self->generate_var;
$perl .= "if (is_array_ref(${var})) {";
$perl .= "my ${v1} = ${var};";
$perl .= "for (my ${v2} = 0; ${v2} < \@{${v1}}; ${v2}++) {";
$perl .= $self->_emit_create_path("${v1}->[${v2}]", $keys, $cb);
$perl .= "}";
$perl .= "}";
}
else {
my $v = $self->generate_var;
if ( $key eq '$first'
|| $key eq '$last'
|| $key eq '$prepend'
|| $key eq '$append')
{
$perl .= "if (is_maybe_array_ref(${var})) {";
$perl .= "my ${v} = ${var} //= [];";
if ($key eq '$first') {
$perl .= $self->_emit_create_path("${v}->[0]", $keys, $cb);
}
elsif ($key eq '$last') {
$perl .= "if (\@${v}) {";
$perl .= $self->_emit_create_path("${v}->[\@${v} - 1]",
[@$keys], $cb);
$perl .= "} else {";
$perl .= $self->_emit_create_path("${v}->[0]", [@$keys], $cb);
$perl .= "}";
}
elsif ($key eq '$prepend') {
$perl .= "if (\@${v}) {";
$perl .= "unshift(\@${v}, undef);";
$perl .= "}";
$perl .= $self->_emit_create_path("${v}->[0]", $keys, $cb);
}
elsif ($key eq '$append') {
$perl
.= $self->_emit_create_path("${v}->[\@${v}]", $keys, $cb);
}
$perl .= "}";
}
else {
$perl .= "if (is_maybe_hash_ref(${var})) {";
$perl .= "my ${v} = ${var} //= {};";
$perl
.= $self->_emit_create_path("${v}->{${str_key}}", $keys, $cb);
$perl .= "}";
}
}
$perl;
}
sub emit_get_key {
my ($self, $var, $key, $cb) = @_;
return $cb->($var) unless defined $key;
my $str_key = $self->emit_string($key);
my $perl = "";
if ($key =~ /^[0-9]+$/) {
$perl .= "if (is_hash_ref(${var}) && exists(${var}->{${str_key}})) {";
$perl .= $cb->("${var}->{${str_key}}");
$perl .= "} elsif (is_array_ref(${var}) && \@{${var}} > ${key}) {";
$perl .= $cb->("${var}->[${key}]");
$perl .= "}";
}
elsif ($key eq '$first') {
$perl .= "if (is_array_ref(${var}) && \@{${var}}) {";
$perl .= $cb->("${var}->[0]");
$perl .= "}";
}
elsif ($key eq '$last') {
$perl .= "if (is_array_ref(${var}) && \@{${var}}) {";
$perl .= $cb->("${var}->[\@{${var}} - 1]");
$perl .= "}";
}
elsif ($key eq '*') {
my $i = $self->generate_var;
$perl .= "if (is_array_ref(${var})) {";
$perl .= "for (my ${i} = 0; ${i} < \@{${var}}; ${i}++) {";
$perl .= $cb->("${var}->[${i}]", $i);
$perl .= "}}";
}
else {
$perl .= "if (is_hash_ref(${var}) && exists(${var}->{${str_key}})) {";
$perl .= $cb->("${var}->{${str_key}}");
$perl .= "}";
}
$perl;
}
sub emit_set_key {
my ($self, $var, $key, $val) = @_;
return "${var} = $val;" unless defined $key;
my $perl = "";
my $str_key = $self->emit_string($key);
if ($key =~ /^[0-9]+$/) {
$perl .= "if (is_hash_ref(${var})) {";
$perl .= "${var}->{${str_key}} = $val;";
$perl .= "} elsif (is_array_ref(${var})) {";
$perl .= "${var}->[${key}] = $val;";
$perl .= "}";
}
elsif ($key eq '$first') {
$perl .= "if (is_array_ref(${var})) {";
$perl .= "${var}->[0] = $val;";
$perl .= "}";
}
elsif ($key eq '$last') {
$perl .= "if (is_array_ref(${var})) {";
$perl .= "${var}->[\@{${var}} - 1] = $val;";
$perl .= "}";
}
elsif ($key eq '$prepend') {
$perl .= "if (is_array_ref(${var})) {";
$perl .= "unshift(\@{${var}}, $val);";
$perl .= "}";
}
elsif ($key eq '$append') {
$perl .= "if (is_array_ref(${var})) {";
$perl .= "push(\@{${var}}, $val);";
$perl .= "}";
}
elsif ($key eq '*') {
my $i = $self->generate_var;
$perl .= "if (is_array_ref(${var})) {";
$perl .= "for (my ${i} = 0; ${i} < \@{${var}}; ${i}++) {";
$perl .= "${var}->[${i}] = $val;";
$perl .= "}}";
}
else {
$perl .= "if (is_hash_ref(${var})) {";
$perl .= "${var}->{${str_key}} = $val;";
$perl .= "}";
}
$perl;
}
sub emit_delete_key {
my ($self, $var, $key, $cb) = @_;
my $str_key = $self->emit_string($key);
my $perl = "";
my $vals;
if ($cb) {
$vals = $self->generate_var;
$perl = $self->emit_declare_vars($vals, '[]');
}
if ($key =~ /^[0-9]+$/) {
$perl .= "if (is_hash_ref(${var}) && exists(${var}->{${str_key}})) {";
$perl .= "push(\@{${vals}}, " if $cb;
$perl .= "delete(${var}->{${str_key}})";
$perl .= ")" if $cb;
$perl .= ";";
$perl .= "} elsif (is_array_ref(${var}) && \@{${var}} > ${key}) {";
$perl .= "push(\@{${vals}}, " if $cb;
$perl .= "splice(\@{${var}}, ${key}, 1)";
$perl .= ")" if $cb;
}
elsif ($key eq '$first' || $key eq '$last' || $key eq '*') {
$perl .= "if (is_array_ref(${var}) && \@{${var}}) {";
$perl .= "push(\@{${vals}}, " if $cb;
$perl .= "splice(\@{${var}}, 0, 1)" if $key eq '$first';
$perl .= "splice(\@{${var}}, \@{${var}} - 1, 1)" if $key eq '$last';
$perl .= "splice(\@{${var}}, 0, \@{${var}})" if $key eq '*';
$perl .= ")" if $cb;
}
else {
$perl .= "if (is_hash_ref(${var}) && exists(${var}->{${str_key}})) {";
$perl .= "push(\@{${vals}}, " if $cb;
$perl .= "delete(${var}->{${str_key}})";
$perl .= ")" if $cb;
}
$perl .= ";";
$perl .= "}";
if ($cb) {
$perl .= $cb->($vals);
}
$perl;
}
sub emit_retain_key {
my ($self, $var, $key) = @_;
my $perl = "";
if ($key =~ /^[0-9]+$/) {
$perl .= "if (is_hash_ref(${var})) {";
$perl .= $self->emit_foreach_key(
$var,
sub {
my $v = shift;
"delete(${var}->{${v}}) if ${v} ne ${key};";
}
);
$perl .= "} elsif (is_array_ref(${var})) {";
$perl .= "if (\@{${var}} > ${key}) {";
$perl .= "splice(\@{${var}}, 0, ${key});" if $key > 0;
$perl .= "splice(\@{${var}}, 1, \@{${var}} - 1);";
$perl .= "} else {";
$perl .= "splice(\@{${var}}, 0, \@{${var}});";
$perl .= "}";
$perl .= "}";
}
elsif ($key eq '$first') {
$perl .= "if (is_array_ref(${var}) && \@{${var}} > 1) {";
$perl .= "splice(\@{${var}}, 1, \@{${var}} - 1);";
$perl .= "}";
}
elsif ($key eq '$last') {
$perl .= "if (is_array_ref(${var}) && \@{${var}} > 1) {";
$perl .= "splice(\@{${var}}, 0, \@{${var}} - 1);";
$perl .= "}";
}
elsif ($key eq '*') {
# retain everything
}
else {
$key = $self->emit_string($key);
$perl .= "if (is_hash_ref(${var})) {";
$perl .= $self->emit_foreach_key(
$var,
sub {
my $v = shift;
"if ($v ne ${key}) {" . "delete(${var}->{${v}});" . "}";
}
);
$perl .= "}";
}
$perl;
}
sub emit_clone {
my ($self, $var) = @_;
"$var = clone($var);";
}
# Split a path on '.' or '/', but not on '\.' or '\/'.
sub split_path {
my ($self, $path) = @_;
[map {s/\\(?=[\.\/])//g; $_} split /(?<!\\)[\.\/]/, trim($path)];
}
1;
__END__
=pod
=head1 NAME
Catmandu::Fix - a Catmandu class used for data transformations
=head1 SYNOPSIS
# From the command line
$ catmandu convert JSON --fix 'add_field(foo,bar)' < data.json
$ catmandu convert YAML --fix 'upcase(job); remove_field(test)' < data.yml
$ catmandu convert CSV --fix 'sort_field(tags)' < data.csv
$ catmandu run /tmp/myfixes.txt
$ catmandu convert OAI --url http://biblio.ugent.be/oai --fix /tmp/myfixes.txt
# From Perl
use Catmandu;
my $fixer = Catmandu->fixer('upcase(job)','remove_field(test)');
my $fixer = Catmandu->fixer('/tmp/myfixes.txt');
# Convert data
my $arr = $fixer->fix([ ... ]);
my $hash = $fixer->fix({ ... });
my $importer = Catmandu->importer('YAML', file => 'data.yml');
my $fixed_importer = $fixer->fix($importer);
# Inline fixes
use Catmandu::Fix::upcase as => 'my_upcase';
use Catmandu::Fix::remove_field as => 'my_remove';
my $hash = { 'job' => 'librarian' , deep => { nested => '1'} };
my_upcase($hash,'job');
my_remove($hash,'deep.nested');
=head1 DESCRIPTION
A Catmandu::Fix is a Perl package that can transform data. These packages are used
for easy data manipulation by non programmers. The main intention is to use fixes
on the command line or in Fix scripts. A small DSL language is available to execute
many Fix command on a stream of data.
When a C<fix> argument is given to a L<Catmandu::Importer>, L<Catmandu::Exporter> or
L<Catmandu::Store> then the transformations are executed on every item in the stream.
=head1 FIX LANGUAGE
A Fix script is a collection of one or more Fix commands. The fixes are executed
on every record in the dataset. If this command is executed on the command line:
$ catmandu convert JSON --fix 'upcase(title); add_field(deep.nested.field,1)' < data.json
then all the title fields will be upcased and a new deeply nested field will be added:
{ "title":"foo" }
{ "title":"bar" }
becomes:
{ "title":"FOO" , "deep":{"nested":{"field":1}} }
{ "title":"BAR" , "deep":{"nested":{"field":1}} }
Using the command line, Fix commands need a semicolon (;) as separator. All these commands can
also be written into a Fix script where semicolons are not required:
$ catmandu convert JSON --fix script.fix < data.json
where C<script.fix> contains:
upcase(title)
add_field(deep.nested.field,1)
Conditionals can be used to provide the logic when to execute fixes:
if exists(error)
set_field(valid, 0)
end
if exists(error)
set_field(is_valid, 0)
elsif exists(warning)
set_field(is_valid, 1)
log(...)
else
set_field(is_valid, 1)
end
unless all_match(title, "PERL")
add_field(is_perl, "noooo")
end
exists(error) and set_field(is_valid, 0)
exists(error) && set_field(is_valid, 0)
exists(title) or log('title missing')
exists(title) || log('title missing')
Binds are used to manipulate the context in which Fixes are executed. E.g.
execute a fix on every item in a list:
# 'demo' is an array of hashes
bind list(path:demo)
add_field(foo,bar)
end
# do is an alias for bind
do list(path:demo)
add_field(foo,bar)
end
To delete records from a stream of data the C<reject> Fix can be used:
reject() # Reject all in the stream
if exists(foo)
reject() # Reject records that contain a 'foo' field
end
reject exists(foo) # Reject records that contain a 'foo' field
The opposite of C<reject> is C<select>:
select() # Keep all records in the stream
select exists(foo) # Keep only the records that contain a 'foo' field
Comments in Fix scripts are all lines (or parts of a line) that start with a hash (#):
# This is ignored
add_field(test,123) # This is also a comment
=head1 PATHS
Most of the Fix commandsuse paths to point to values
in a data record. E.g. 'foo.2.bar' is a key 'bar' which is the 3-rd value of the
key 'foo'.
A special case is when you want to point to all items in an array. In this case
the wildcard '*' can be used. E.g. 'foo.*' points to all the items in the 'foo'
array.
For array values there are special wildcards available:
* $append - Add a new item at the end of an array
* $prepend - Add a new item at the start of an array
* $first - Syntactic sugar for index '0' (the head of the array)
* $last - Syntactic sugar for index '-1' (the tail of the array)
E.g.
# Create { mods => { titleInfo => [ { 'title' => 'a title' }] } };
add_field('mods.titleInfo.$append.title', 'a title');
# Create { mods => { titleInfo => [ { 'title' => 'a title' } , { 'title' => 'another title' }] } };
add_field('mods.titleInfo.$append.title', 'another title');
# Create { mods => { titleInfo => [ { 'title' => 'foo' } , { 'title' => 'another title' }] } };
add_field('mods.titleInfo.$first.title', 'foo');
# Create { mods => { titleInfo => [ { 'title' => 'foo' } , { 'title' => 'bar' }] } };
add_field('mods.titleInfo.$last.title', 'bar');
=head1 OPTIONS
=head2 fixes
An array of fixes. L<Catmandu::Fix> which will execute every fix in consecutive
order. A fix can be the name of a Catmandu::Fix::* routine, or the path to a
plain text file containing all the fixes to be executed. Required.
=head2 preprocess
If set to C<1>, fix files or inline fixes will first be preprocessed as a
moustache template. See C<variables> below for an example. Default is C<0>, no
preprocessing.
=head2 variables
An optional hashref of variables that are used to preprocess the fix files or
inline fixes as a moustache template. Setting the C<variables> option also sets
C<preprocess> to 1.
my $fixer = Catmandu::Fix->new(
variables => {x => 'foo', y => 'bar'},
fixes => ['add_field({{x}},{{y}})'],
);
my $data = {};
$fixer->fix($data);
# $data is now {foo => 'bar'}
=head1 METHODS
=head2 fix(HASH)
Execute all the fixes on a HASH. Returns the fixed HASH.
=head2 fix(ARRAY)
Execute all the fixes on every element in the ARRAY. Returns an ARRAY of fixes.
=head2 fix(Catmandu::Iterator)
Execute all the fixes on every item in an L<Catmandu::Iterator>. Returns a
(lazy) iterator on all the fixes.
=head2 fix(sub {})
Executes all the fixes on a generator function. Returns a new generator with fixed data.
=head2 log
Return the current logger. See L<Catmandu> for activating the logger in your main code.
=head1 CODING
One can extend the Fix language by creating own custom-made fixes. Two methods are
available to create an own Fix function:
* Quick and easy: create a class that implements a C<fix> method.
* Advanced: create a class that emits Perl code that will be evaled by the Fix module.
Both methods will be explained shortly.
=head2 Quick and easy
A Fix function is a Perl class in the C<Catmandu::Fix> namespace that implements a C<fix> method.
The C<fix> methods accepts a Perl hash as input and returns a (fixed) Perl hash as output. As
an example, the code belows implements the C<meow> Fix which inserts a 'meow' field with value 'purrrrr'.
package Catmandu::Fix::meow;
use Moo;
sub fix {
my ($self,$data) = @_;
$data->{meow} = 'purrrrr';
$data;
}
1;
Given this Perl class, the following fix statement can be used in your application:
# Will add 'meow' = 'purrrrr' to the data
meow()
Use the quick and easy method when your fixes are not dependent on reading or writing data
from/to a JSON path. Your Perl classes need to implement their own logic to read or write data
into the given Perl hash.
Fix arguments are passed as arguments to the C<new> function of the Perl class. As in
# In the fix file...
meow('test123', -count => 4)
# ...will be translated into this pseudo code
my $fix = Catmandu::Fix::meow->new('test123', '-count', 4);
Using L<Moo> these arguments can be catched with L<Catmandu::Fix::Has> package:
package Catmandu::Fix::meow;
use Catmandu::Sane;
use Moo;
use Catmandu::Fix::Has;
has msg => (fix_arg => 1); # required parameter 1
has count => (fix_opt => 1, default => sub { 4 }); # optional parameter 'count' with default value 4
sub fix {
my ($self,$data) = @_;
$data->{meow} = $self->msg x $self->count;
$data;
}
1;
Using this code the fix statement can be used like:
# Will add 'meow' = 'purrpurrpurrpurr'
meow('purr', -count => 4)
=head2 Advanced
The advanced method is required when one needs to read or write values from/to deeply nested JSON paths.
One could parse JSON paths using the quick and easy Perl class above, but this would require a
lot of inefficient for-while loops. The advanced method emits Perl code that gets compiled.
This compiled code is evaled against all Perl hashes in the unput.The best
way to learn this method is by inspecting some example Fix commands.
To ease the implementation of Fixed that emit Perl code some helper methods are created. Many Fix functions
require a transformation of one or more values on a JSON Path. The L<Catmandu::Fix::SimpleGetValue>
provides an easy way to create such as script. In the example below we'll set the value at a JSON Path
to 'purrrrr':
package Catmandu::Fix::purrrrr;
use Catmandu::Sane;
use Moo;
use Catmandu::Fix::Has;
has path => (fix_arg => 1);
with 'Catmandu::Fix::SimpleGetValue';
sub emit_value {
my ($self, $var, $fixer) = @_;
"${var} = 'purrrrr';";
}
1;
Run this command as:
# Set the value(s) of an existing path to 'purrr'
purrrrr(my.deep.nested.path)
purrrrr(all.my.values.*)
Notice how the C<emit_value> of the Catmandu::Fix::purrrrr package returns Perl code and doesn't
operate directy on the Perl data. The parameter C<$var> contains only the name of a temporary variable
that will hold the value of the JSON path after compiling the code into Perl.
Use L<Catmandu::Fix::Has> to add more arguments to this fix:
package Catmandu::Fix::purrrrr;
use Catmandu::Sane;
use Moo;
use Catmandu::Fix::Has;
has path => (fix_arg => 1);
has msg => (fix_opt => 1 , default => sub { 'purrrrr' });
with 'Catmandu::Fix::SimpleGetValue';
sub emit_value {
my ($self, $var, $fixer) = @_;
my $msg = $fixer->emit_string($self->msg);
"${var} = ${msg};";
}
1;
Run this command as:
# Set the value(s) of an existing path to 'okido'
purrrrr(my.deep.nested.path, -msg => 'okido')
purrrrr(all.my.values.*, -msg => 'okido')
Notice how the C<emit_value> needs to quote the C<msg> option using the emit_string function.
=head1 INTERNAL METHODS
This module provides several methods for writing fix packages. Usage can best
be understood by reading the code of existing fix packages.
=over
=item capture
=item emit_block
=item emit_clone
=item emit_clear_hash_ref
=item emit_create_path
=item emit_declare_vars
=item emit_delete_key
=item emit_fix
=item emit_fixes
=item emit_foreach
=item emit_foreach_key
=item emit_get_key
=item emit_reject
=item emit_retain_key
this method is DEPRECATED.
=item emit_set_key
=item emit_string
=item emit_value
=item emit_walk_path
=item generate_var
=item split_path
=back
=head1 SEE ALSO
L<Catmandu::Fixable>,
L<Catmandu::Importer>,
L<Catmandu::Exporter>,
L<Catmandu::Store>,
L<Catmandu::Bag>
=cut