File Coverage

lib/Config/AST/Node/Section.pm

Criterion	Covered	Total	%
statement	49	74	66.2
branch	11	16	68.7
condition	0	2	0.0
subroutine	13	17	76.4
pod	10	11	90.9
total	83	120	69.1

line	stmt	bran	cond	sub	pod	time	code
1							# This file is part of Config::AST -- perl --
2							# Copyright (C) 2017-2019 Sergey Poznyakoff
3							#
4							# Config::AST is free software; you can redistribute it and/or modify
5							# it under the terms of the GNU General Public License as published by
6							# the Free Software Foundation; either version 3, or (at your option)
7							# any later version.
8							#
9							# Config::AST is distributed in the hope that it will be useful,
10							# but WITHOUT ANY WARRANTY; without even the implied warranty of
11							# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12							# GNU General Public License for more details.
13							#
14							# You should have received a copy of the GNU General Public License
15							# along with Config::AST. If not, see .
16
17							package Config::AST::Node::Section;
18	19			19		144	use parent 'Config::AST::Node';
	19					32
	19					120
19	19			19		1254	use strict;
	19					30
	19					425
20	19			19		88	use warnings;
	19					29
	19					548
21	19			19		107	use Carp;
	19					31
	19					1045
22	19			19		7252	use Config::AST::Node::Null;
	19					42
	19					14567
23
24							=head1 NAME
25
26							Config::AST::Node::Section - Configuration section node.
27
28							=head1 DESCRIPTION
29
30							Nodes of this class represent configuration sections in the AST.
31
32							=head1 METHODS
33
34							=head2 new(ROOT, ARG => VAL, ...)
35
36							Creates new section object. I is the root object of the tree or the
37							B object. The I VAL> pairs are passed to
38							the parent class constructor (see B).
39
40							=cut
41
42							sub new {
43	69			69	1	1189	my $class = shift;
44	69	50				191	my $root = shift or croak "mandatory parameter missing";
45	69					244	local %_ = @_;
46	69					324	my $self = $class->SUPER::new(%_);
47	69					195	$self->{_subtree} = {};
48	69	100				523	if ($root->isa('Config::AST')) {
49	48					128	$root = $root->root;
50							}
51	69					156	$self->{_root} = $root;
52	69					223	return $self;
53							}
54
55	70			70	1	149	sub is_leaf { 0 }
56	108			108	1	290	sub is_section { 1 }
57
58	347			347	0	688	sub root { shift->{_root} }
59
60							=head2 $t = $node->subtree
61
62							Returns tree containing all subordinate nodes of this node.
63
64							=head2 $t = $node->subtree($key)
65
66							Returns the subnode at I<$key> or B if there is no such subnode.
67
68							=head2 $t = $node->subtree($key => $value)
69
70							Creates new subnode with the given I<$key> and I<$value>. Returns the
71							created node.
72
73							=cut
74
75							sub subtree {
76	451			451	1	542	my $self = shift;
77	451	100				774	if (my $key = shift) {
78	327					476	$key = $self->root->mangle_key($key);
79	327	100				687	if (my $val = shift) {
80	104					209	$self->{_subtree}{$key} = $val;
81							}
82	327					1423	return $self->{_subtree}{$key};
83							}
84	124					398	return $self->{_subtree};
85							}
86
87							=head2 @a = $node->keys;
88
89							Returns a list of names of all subordinate statements in this section.
90
91							=cut
92
93							sub keys {
94	59			59	1	75	my $self = shift;
95	59					76	return keys %{$self->{_subtree}};
	59					409
96							}
97
98							=head2 $bool = $node->has_key($str)
99
100							Returns true if statement with name B<$str> is present in the section
101							described by B<$node>.
102
103							=cut
104
105							sub has_key {
106	30			30	1	69	my ($self, $key) = @_;
107	30					131	return $self->subtree($key);
108							}
109
110							=head2 $node->delete($name)
111
112							Deletes the node with name B<$name>. Returns the removed node, or C
113							if not found.
114
115							=cut
116
117							sub delete {
118	0			0	1	0	my ($self, $key) = @_;
119	0					0	delete $self->{_subtree}{$key};
120							}
121
122							=head2 $node->merge($other)
123
124							Merges the section B<$other> (a B) to B<$node>.
125
126							=cut
127
128							sub merge {
129	1			1	1	2	my ($self, $other) = @_;
130	1					1	while (my ($k, $v) = each %{$other->subtree}) {
	3					63
131	2	50				3	if (my $old = $self->subtree($k)) {
132	2	50				5	if ($old->is_section) {
		100
133	0					0	$old->merge($v);
134							} elsif (ref($old->value) eq 'ARRAY') {
135	1					2	push @{$old->value}, $v->value;
	1					2
136	1					22	$old->locus->union($v->locus);
137							} else {
138	1					3	$old->value($v->value);
139							}
140							} else {
141	0					0	$self->subtree($k => $old->clone);
142							}
143	2					33	$self->locus->union($v->locus);
144							}
145							}
146
147							=head2 $h = $cfg->as_hash
148
149							=head2 $h = $cfg->as_hash($map)
150
151							Returns parse tree converted to a hash reference. If B<$map> is supplied,
152							it must be a reference to a function. For each I<$key>/I<$value>
153							pair, this function will be called as:
154
155							($newkey, $newvalue) = &{$map}($what, $key, $value)
156
157							where B<$what> is C or C, depending on the type of the
158							hash entry being processed. Upon successful return, B<$newvalue> will be
159							inserted in the hash slot for the key B<$newkey>.
160
161							If B<$what> is C , B<$value> is always a reference to an empty
162							hash (since the parse tree is traversed in pre-order fashion). In that
163							case, the B<$map> function is supposed to do whatever initialization that
164							is necessary for the new subtree and return as B<$newvalue> either B<$value>
165							itself, or a reference to a hash available inside the B<$value>. For
166							example:
167
168							sub map {
169							my ($what, $name, $val) = @_;
170							if ($name eq 'section') {
171							$val->{section} = {};
172							$val = $val->{section};
173							}
174							($name, $val);
175							}
176
177							=cut
178
179							sub as_hash {
180	0			0	1		my $self = shift;
181	0		0	0			my $map = shift // sub { shift; @_ };
	0
	0
182	0						my $hroot = {};
183	0						my @ar;
184
185	0						push @ar, [ '', $self, $hroot ];
186	0						while (my $elt = shift @ar) {
187	0	0					if ($elt->[1]->is_section) {
188	0						my $hr0 = {};
189	0						my ($name, $hr) = &{$map}('section', $elt->[0], $hr0);
	0
190	0						$elt->[2]{$name} = $hr0;
191	0						while (my ($kw, $val) = each %{$elt->[1]->subtree}) {
	0
192	0						push @ar, [ $kw, $val, $hr ];
193							}
194							} else {
195	0						my ($name, $value) = &{$map}('value', $elt->[0], scalar($elt->[1]->value));
	0
196	0						$elt->[2]{$name} = $value;
197							}
198							}
199	0						return $hroot->{''};
200							}
201
202							=head2 $s = $node->as_string
203
204							Returns the string "(section)".
205
206							=cut
207
208	0			0	1		sub as_string { '(section)' }
209
210							=head1 SEE ALSO
211
212							L,
213							L.
214
215							=cut
216
217							1;