File Coverage

blib/lib/PDF/API2/Resource/XObject/Image/TIFF/File.pm

Criterion	Covered	Total	%
statement	102	142	71.8
branch	69	104	66.3
condition	1	9	11.1
subroutine	7	7	100.0
pod	0	4	0.0
total	179	266	67.2

line	stmt	bran	cond	sub	pod	time	code
1							package PDF::API2::Resource::XObject::Image::TIFF::File;
2
3	2			2		13	use strict;
	2					4
	2					56
4	2			2		10	use warnings;
	2					3
	2					94
5
6							our $VERSION = '2.045'; # VERSION
7
8	2			2		9	use IO::File;
	2					4
	2					3179
9
10							sub new {
11	4			4	0	7	my ($class, $file) = @_;
12
13	4					6	my $self = {};
14	4					6	bless($self, $class);
15	4	100				9	if (ref($file)) {
16	1					2	$self->{'fh'} = $file;
17	1					7	seek($self->{'fh'}, 0, 0);
18							}
19							else {
20	3					12	$self->{'fh'} = IO::File->new();
21	3	100				199	open($self->{'fh'}, '<', $file) or die "$!: $file";
22							}
23	3					17	binmode($self->{'fh'}, ':raw');
24	3					7	my $fh = $self->{'fh'};
25
26	3					3	$self->{'offset'} = 0;
27	3					18	$fh->seek($self->{'offset'}, 0);
28
29							# checking byte order of data
30	3					42	$fh->read($self->{'byteOrder'}, 2);
31	3					114	$self->{'byte'} = 'C';
32	3	50				10	$self->{'short'} = (($self->{'byteOrder'} eq 'MM') ? 'n' : 'v' );
33	3	50				7	$self->{'long'} = (($self->{'byteOrder'} eq 'MM') ? 'N' : 'V' );
34	3	50				9	$self->{'rational'} = (($self->{'byteOrder'} eq 'MM') ? 'NN' : 'VV' );
35
36							# get/check version id
37	3					10	$fh->read($self->{'version'}, 2);
38	3					31	$self->{'version'} = unpack($self->{'short'}, $self->{'version'});
39	3	50				8	die "Wrong TIFF Id '$self->{version}' (should be 42)." if $self->{'version'} != 42;
40
41							# get the offset to the first tag directory.
42	3					9	$fh->read($self->{'ifdOffset'}, 4);
43	3					18	$self->{'ifdOffset'} = unpack($self->{'long'}, $self->{'ifdOffset'});
44
45	3					8	$self->readTags();
46
47	3					7	return $self;
48							}
49
50							sub readTag {
51	61			61	0	112	my $self = shift();
52	61					73	my $fh = $self->{'fh'};
53	61					63	my $buf;
54	61					129	$fh->read($buf, 12);
55	61					331	my $tag = unpack($self->{'short'}, substr($buf, 0, 2));
56	61					90	my $type = unpack($self->{'short'}, substr($buf, 2, 2));
57	61					86	my $count = unpack($self->{'long'}, substr($buf, 4, 4));
58	61					69	my $len = 0;
59
60	61	100				136	$len = ($type == 1 ? $count : # byte
		100
		100
		100
		100
61							$type == 2 ? $count : # char2
62							$type == 3 ? $count * 2 : # int16
63							$type == 4 ? $count * 4 : # int32
64							$type == 5 ? $count * 8 : # rational: 2 * int32
65							$count);
66
67	61					77	my $off = substr($buf, 8, 4);
68
69	61	100				87	if ($len > 4) {
70	22					31	$off = unpack($self->{'long'}, $off);
71							}
72							else {
73							$off = ($type == 1 ? unpack($self->{'byte'}, $off) :
74							$type == 2 ? unpack($self->{'long'}, $off) :
75							$type == 3 ? unpack($self->{'short'}, $off) :
76	39	50				93	$type == 4 ? unpack($self->{'long'}, $off) : unpack($self->{'short'}, $off));
		100
		50
		50
77							}
78
79	61					118	return ($tag, $type, $count, $len, $off);
80							}
81
82							sub close { ## no critic
83	3			3	0	4	my $self = shift();
84	3					14	return $self->{'fh'}->close();
85							}
86
87							sub readTags {
88	3			3	0	3	my $self = shift();
89	3					5	my $fh = $self->{'fh'};
90	3					5	$self->{'fillOrder'} = 1;
91	3					5	$self->{'ifd'} = $self->{'ifdOffset'};
92
93	3					7	while ($self->{'ifd'} > 0) {
94	3					12	$fh->seek($self->{'ifd'}, 0);
95	3					47	$fh->read($self->{'ifdNum'}, 2);
96	3					47	$self->{'ifdNum'} = unpack($self->{'short'}, $self->{'ifdNum'});
97	3					5	$self->{'bitsPerSample'} = 1;
98	3					9	foreach (1 .. $self->{'ifdNum'}) {
99	61					115	my ($valTag, $valType, $valCount, $valLen, $valOffset) = $self->readTag();
100							# print "tag=$valTag type=$valType count=$valCount len=$valLen off=$valOffset\n";
101	61	50				263	if ($valTag == 0) {
		100
		100
		100
		100
		100
		50
		50
		100
		100
		100
		100
		100
		100
		100
		50
		50
		50
		50
		50
102							}
103							elsif ($valTag == 256) {
104	3					7	$self->{'imageWidth'} = $valOffset;
105							}
106							elsif ($valTag == 257) {
107	3					5	$self->{'imageHeight'} = $valOffset;
108							}
109							elsif ($valTag == 258) {
110							# bits per sample
111	3	100				6	if ($valCount > 1) {
112	2					10	my $here = $fh->tell();
113	2					30	my $val;
114	2					6	$fh->seek($valOffset, 0);
115	2					29	$fh->read($val, 2);
116	2					28	$self->{'bitsPerSample'} = unpack($self->{'short'}, $val);
117	2					6	$fh->seek($here, 0);
118							}
119							else {
120	1					2	$self->{'bitsPerSample'} = $valOffset;
121							}
122							}
123							elsif ($valTag == 259) {
124							# compression
125	3					10	$self->{'filter'} = $valOffset;
126	3	100	33			10	if ($valOffset == 1) {
		50	0
		50	0
		0
		0
		0
127	2					5	delete $self->{'filter'};
128							}
129							elsif ($valOffset == 3 \|\| $valOffset == 4) {
130	0					0	$self->{'filter'} = 'CCITTFaxDecode';
131	0					0	$self->{'ccitt'} = $valOffset;
132							}
133							elsif ($valOffset == 5) {
134	1					2	$self->{'filter'} = 'LZWDecode';
135							}
136							elsif ($valOffset == 6 \|\| $valOffset == 7) {
137	0					0	$self->{'filter'} = 'DCTDecode';
138							}
139							elsif ($valOffset == 8 \|\| $valOffset == 0x80b2) {
140	0					0	$self->{'filter'} = 'FlateDecode';
141							}
142							elsif ($valOffset == 32773) {
143	0					0	$self->{'filter'} = 'RunLengthDecode';
144							}
145							else {
146	0					0	die "unknown/unsupported TIFF compression method with id '$self->{filter}'.";
147							}
148							}
149							elsif ($valTag == 262) {
150							# photometric interpretation
151	3					4	$self->{'colorSpace'} = $valOffset;
152	3	100				7	if ($valOffset == 0) {
		50
		50
		0
		0
		0
		0
153	1					2	$self->{'colorSpace'} = 'DeviceGray';
154	1					2	$self->{'whiteIsZero'} = 1;
155							}
156							elsif ($valOffset == 1) {
157	0					0	$self->{'colorSpace'} = 'DeviceGray';
158	0					0	$self->{'blackIsZero'} = 1;
159							}
160							elsif ($valOffset == 2) {
161	2					4	$self->{'colorSpace'} = 'DeviceRGB';
162							}
163							elsif($valOffset == 3) {
164	0					0	$self->{'colorSpace'} = 'Indexed';
165							}
166							# elsif($valOffset == 4) {
167							# $self->{'colorSpace'} = 'TransMask';
168							# }
169							elsif ($valOffset == 5) {
170	0					0	$self->{'colorSpace'} = 'DeviceCMYK';
171							}
172							elsif($valOffset == 6) {
173	0					0	$self->{'colorSpace'} = 'DeviceRGB';
174							}
175							elsif ($valOffset == 8) {
176	0					0	$self->{'colorSpace'} = 'Lab';
177							}
178							else {
179	0					0	die "unknown/unsupported TIFF photometric interpretation with id '$self->{colorSpace}'.";
180							}
181							}
182							elsif ($valTag == 266) {
183	0					0	$self->{'fillOrder'} = $valOffset;
184							}
185							elsif ($valTag == 270) {
186							# ImageDescription
187	0					0	my $here = $fh->tell();
188	0					0	$fh->seek($valOffset, 0);
189	0					0	$fh->read($self->{'imageDescription'}, $valLen);
190	0					0	$fh->seek($here, 0);
191							}
192							elsif($valTag == 282) {
193							# xRes
194	3					8	my $here = $fh->tell();
195	3					16	$fh->seek($valOffset, 0);
196	3					48	$fh->read($self->{'xRes'}, $valLen);
197	3					51	$fh->seek($here, 0);
198	3					42	$self->{'xRes'} = [unpack($self->{'rational'}, $self->{'xRes'})];
199	3					11	$self->{'xRes'} = ($self->{'xRes'}->[0] / $self->{'xRes'}->[1]);
200							}
201							elsif($valTag == 283) {
202							# yRes
203	3					8	my $here = $fh->tell();
204	3					15	$fh->seek($valOffset, 0);
205	3					44	$fh->read($self->{'yRes'}, $valLen);
206	3					44	$fh->seek($here, 0);
207	3					41	$self->{'yRes'} = [unpack($self->{'rational'}, $self->{'yRes'})];
208	3					8	$self->{'yRes'} = ($self->{'yRes'}->[0] / $self->{'yRes'}->[1]);
209							}
210							elsif ($valTag == 296) {
211							# resolution Unit
212	3					6	$self->{'resUnit'} = $valOffset;
213							}
214							elsif ($valTag == 273) {
215							# image data offset/strip offsets
216	3	50				5	if ($valCount == 1) {
217	3					5	$self->{'imageOffset'} = $valOffset;
218							}
219							else {
220	0					0	my $here =$fh->tell();
221	0					0	my $val;
222	0					0	$fh->seek($valOffset, 0);
223	0					0	$fh->read($val, $valLen);
224	0					0	$fh->seek($here, 0);
225	0					0	$self->{'imageOffset'} = [unpack($self->{'long'} . '*', $val)];
226							}
227							}
228							elsif ($valTag == 277) {
229	3					5	$self->{'samplesPerPixel'} = $valOffset;
230							}
231							elsif ($valTag == 278) {
232	3					6	$self->{'RowsPerStrip'} = $valOffset;
233							}
234							elsif ($valTag == 279) {
235							# image data length/strip lengths
236	3	50				5	if ($valCount == 1) {
237	3					5	$self->{'imageLength'} = $valOffset;
238							}
239							else {
240	0					0	my $here = $fh->tell();
241	0					0	my $val;
242	0					0	$fh->seek($valOffset, 0);
243	0					0	$fh->read($val, $valLen);
244	0					0	$fh->seek($here, 0);
245	0					0	$self->{'imageLength'} = [unpack($self->{'long'} . '*', $val)];
246							}
247							}
248							elsif ($valTag == 292) {
249	0					0	$self->{'g3Options'} = $valOffset;
250							}
251							elsif ($valTag == 293) {
252	0					0	$self->{'g4Options'} = $valOffset;
253							}
254							elsif ($valTag == 320) {
255							# color map
256	0					0	$self->{'colorMapOffset'} = $valOffset;
257	0					0	$self->{'colorMapSamples'} = $valCount;
258	0					0	$self->{'colorMapLength'} = $valCount * 2; # shorts!
259							}
260							elsif ($valTag == 317) {
261	0					0	$self->{'lzwPredictor'} = $valOffset;
262							}
263							elsif ($valTag == 0x800d) {
264							# imageID
265	0					0	my $here = $fh->tell();
266	0					0	$fh->seek($valOffset, 0);
267	0					0	$fh->read($self->{'imageId'}, $valLen);
268	0					0	$fh->seek($here, 0);
269							}
270							# else {
271							# print "tag=$valTag, type=$valType, len=$valLen\n";
272							# }
273							}
274	3					9	$fh->read($self->{'ifd'}, 4);
275	3					15	$self->{'ifd'} = unpack($self->{'long'}, $self->{'ifd'});
276							}
277
278	3					6	return $self;
279							}
280
281							1;