1Text::WordDiff(3)     User Contributed Perl Documentation    Text::WordDiff(3)
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Name

6       Text::WordDiff - Track changes between documents
7

Synopsis

9           use Text::WordDiff;
10
11           my $diff = word_diff 'file1.txt', 'file2.txt', { STYLE => 'HTML' };
12           my $diff = word_diff \$string1,   \$string2,   { STYLE => 'ANSIColor' };
13           my $diff = word_diff \*FH1,       \*FH2;       \%options;
14           my $diff = word_diff \&reader1,   \&reader2;
15           my $diff = word_diff \@records1,  \@records2;
16
17           # May also mix input types:
18           my $diff = word_diff \@records1,  'file_B.txt';
19

Description

21       This module is a variation on the lovely Text::Diff module.  Rather
22       than generating traditional line-oriented diffs, however, it generates
23       word-oriented diffs. This can be useful for tracking changes in
24       narrative documents or documents with very long lines. To diff source
25       code, one is still best off using Text::Diff. But if you want to see
26       how a short story changed from one version to the next, this module
27       will do the job very nicely.
28
29   What is a Word?
30       I'm glad you asked! Well, sort of. It's a really hard question to
31       answer. I consulted a number of sources, but really just did my best to
32       punt on the question by reformulating it as, "How do I split text up
33       into individual words?" The short answer is to split on word
34       boundaries. However, every word has two boundaries, one at the
35       beginning and one at the end. So splitting on "/\b/" didn't work so
36       well. What I really wanted to do was to split on the beginning of every
37       word. Fortunately, _Mastering Regular Expressions_ has a recipe for
38       that: "/(?<!\w)(?=\w)/". I've borrowed this regular expression for use
39       in Perls before 5.6.x, but go for the Unicode variant in 5.6.0 and
40       newer: "/(?<!\p{IsWord})(?=\p{IsWord})/". Adding some additional
41       controls for punctuation and control characters, this sentence, for
42       example, would be split up into the following tokens:
43
44         my @words = (
45             "Adding ",
46             "some ",
47             "additional ",
48             "controls",
49             "\n",
50             "for ",
51             "punctuation ",
52             "and ",
53             "control ",
54             "characters",
55             ", ",
56             "this ",
57             "sentence",
58             ", ",
59             "for ",
60             "example",
61             ", ",
62             "would ",
63             "be",
64             "\n",
65             "split ",
66             "up ",
67             "into ",
68             "the ",
69             "following ",
70             "tokens",
71             ":",
72         );
73
74       So it's not just comparing words, but word-like tokens and
75       control/punctuation tokens. This makes sense to me, at least, as the
76       diff is between these tokens, and thus leads to a nice word-and-space-
77       and-punctuation type diff. It's not unlike what a word processor might
78       do (although a lot of them are character-based, but that seemed a bit
79       extreme--feel free to dupe this module into Text::CharDiff!).
80
81       Now, I acknowledge that there are localization issues with this
82       approach. In particular, it will fail with Chinese, Japanese, and
83       Korean text, as these languages don't put non-word characters between
84       words. Ideally, Test::WordDiff would then split on every character
85       (since a single character often equals a word), but such is not the
86       case when the "utf8" flag is set on a string.  For example, This simple
87       script:
88
89         use strict;
90         use utf8;
91         use Data::Dumper;
92         my $string = 'XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX';
93         my @tokens = split /(?<!\p{IsWord})(?=\p{IsWord})/msx, $string;
94         print Dumper \@tokens;
95
96       Outputs:
97
98         $VAR1 = [
99                   "\x{bf08}\x{bf09}\x{bf18}\x{bf19}\x{bf1b}\x{bf1c}\x{bf1d}\x{bf40}\x{bf41}\x{bf44}\x{bf48}\x{bf50}\x{bf51}\x{bf55}\x{bf94}\x{bfb0}\x{bfc5}\x{bfcc}\x{bfcd}\x{bfd0}\x{bfd4}\x{bfdc}\x{bfdf}\x{bfe1}\x{c03c}\x{c051}\x{c058}\x{c05c}\x{c060}\x{c068}\x{c069}\x{c090}"
100                 ];
101
102       Not so useful. It seems to be less of a problem if the "use utf8;" line
103       is commented out, in which case we get:
104
105         $VAR1 = [
106                   'X',
107                   'X',
108                   'X',
109                   'X',
110                   'X',
111                   'X',
112                   'X',
113                   'X',
114                   'X',
115                   'X',
116                   'X',
117                   'X',
118                   'X',
119                   'X',
120                   'X',
121                   'X',
122                   'X',
123                   'X',
124                   'X',
125                   'X',
126                   'X',
127                   'X',
128                   'X',
129                   'X',
130                   '?',
131                   '?X',
132                   'X',
133                   'X',
134                   'X',
135                   'X',
136                   'X',
137                   'X'
138                 ];
139
140       Someone whose more familiar with non-space-using languages will have to
141       explain to me how I might be able to duplicate this pattern within the
142       scope of "use utf8;", seing as it may very well be important to have it
143       on in order to ensure proper character semantics.
144
145       However, if my word tokenization approach is just too naive, and you
146       decide that you need to take a different approach (maybe use
147       Lingua::ZH::Toke or similar module), you can still use this module;
148       you'll just have to tokenize your strings into words yourself, and pass
149       them to word_diff() as array references:
150
151         word_diff \@my_words1, \@my_words2;
152

Options

154       word_diff() takes two arguments from which to draw input and an
155       optional hash reference of options to control its output. The first two
156       arguments contain the data to be diffed, and each may be in the form of
157       any of the following (that is, they can be in two different formats):
158
159       ·   String
160
161           A bare scalar will be assumed to be a file name. The file will be
162           opened and split up into words. word_diff() will also "stat" the
163           file to get the last modified time for use in the header, unless
164           the relevant option ("MTIME_A" or "MTIME_B") has been specified
165           explicitly.
166
167       ·   Scalar Reference
168
169           A scalar reference will be assumed to refer to a string. That
170           string will be split up into words.
171
172       ·   Array Reference
173
174           An array reference will be assumed to be a list of words.
175
176       ·   File Handle
177
178           A glob or IO::Handle-derived object will be read from and split up
179           into its constituent words.
180
181       The optional hash reference may contain the following options.
182       Additional options may be specified by the formattting class; see the
183       specific class for details.
184
185       ·   STYLE
186
187           "ANSIColor", "HTML" or an object or class name for a class
188           providing "file_header()", "hunk_header()", "same_items()",
189           "delete_items()", "insert_items()", "hunk_footer()" and
190           "file_footer()" methods. Defaults to "ANSIColor" for nice display
191           of diffs in an ANSI Color-supporting terminal.
192
193           If the package indicated by the "STYLE" has no "new()" method,
194           "word_diff()" will load it automatically (lazy loading). It will
195           then instantiate an object of that class, passing in the options
196           hash reference with which the formatting class can initialize the
197           object.
198
199           Styles may be specified as class names ("STYLE => "My::Foo""), in
200           which case they will be instantiated by calling the "new()"
201           construcctor and passing in the options hash reference, or as
202           objects ("STYLE => My::Foo->new").
203
204           The simplest way to implement your own formatting style is to
205           create a new class that inherits from Text::WordDiff::Base, wherein
206           the "new()" method is already provided, and the "file_header()"
207           returns a Unified diff-style header. All of the other formatting
208           methods simply return empty strings, and are therefore ripe for
209           overriding.
210
211       ·   FILENAME_A, MTIME_A, FILENAME_B, MTIME_B
212
213           The name of the file and the modification time "files" in epoch
214           seconds.  Unless a defined value is specified for these options,
215           they will be filled in for each file when word_diff() is passed a
216           filename. If a filename is not passed in and "FILENAME_A" and
217           "FILENAME_B" are not defined, the header will not be printed by the
218           base formatting base class.
219
220       ·   OUTPUT
221
222           The method by which diff output should be, well, output. Examples
223           and their equivalent subroutines:
224
225               OUTPUT => \*FOOHANDLE,   # like: sub { print FOOHANDLE shift() }
226               OUTPUT => \$output,      # like: sub { $output .= shift }
227               OUTPUT => \@output,      # like: sub { push @output, shift }
228               OUTPUT => sub { $output .= shift },
229
230           If "OUTPUT" is not defined, word_diff() will simply return the diff
231           as a string. If "OUTPUT" is a code reference, it will be called
232           once with the file header, once for each hunk body, and once for
233           each piece of content. If "OUTPUT" is an IO::Handle-derived object,
234           output will be sent to that handle.
235
236       ·   FILENAME_PREFIX_A, FILENAME_PREFIX_B
237
238           The string to print before the filename in the header. Defaults are
239           "---", "+++".
240
241       ·   DIFF_OPTS
242
243           A hash reference to be passed as the options to
244           "Algorithm::Diff->new".  See Algorithm::Diff for details on
245           available options.
246

Formatting Classes

248       Text::WordDiff comes with two formatting classes:
249
250       Text::WordDiff::ANSIColor
251           This is the default formatting class. It emits a header and then
252           the diff content, with deleted text in bodfaced red and inserted
253           text in boldfaced green.
254
255       Text::WordDiff::HTML
256           Specify "STYLE => 'HTML'" to take advantage of this formatting
257           class. It outputs the diff content as XHTML, with deleted text in
258           "<del>" elements and inserted text in "<ins>" elements.
259
260       To implement your own formatting class, simply inherit from
261       Text::WordDiff::Base and override its methods as necssary. By default,
262       only the "file_header()" formatting method returns a value. All others
263       simply return empty strings, and are therefore ripe for overriding:
264
265         package My::WordDiff::Format;
266         use base 'Text::WordDiff::Base';
267
268         sub file_footer { return "End of diff\n"; }
269
270       The methods supplied by the base class are:
271
272       "new()"
273           Constructs and returns a new formatting object. It takes a single
274           hash reference as its argument, and uses it to construct the
275           object. The nice thing about this is that if you want to support
276           other options in your formatting class, you can just use them in
277           the formatting object constructed by the Text::WordDiff::Base class
278           and document that they can be passed as part of the options hash
279           refernce to word_diff().
280
281       "file_header()"
282           Called once for a single call to "word_diff()", this method outputs
283           the header for the whole diff. This is the only formatting method
284           in the base class that returns anything other than an empty string.
285           It collects the filenames from "filname_a()" and "filename_b()"
286           and, if they're defined, uses the relevant prefixes and
287           modification times to return a unified diff-style header.
288
289       "hunk_header()"
290           This method is called for each diff hunk. It should output any
291           necessary header for the hunk.
292
293       "same_items()"
294           This method is called for items that have not changed between the
295           two sequnces being compared. The unchanged items will be passed as
296           a list to the method.
297
298       "delete_items"
299           This method is called for items in the first sequence that are not
300           present in the second sequcne. The deleted items will be passed as
301           a list to the method.
302
303       "insert_items"
304           This method is called for items in the second sequence that are not
305           present in the first sequcne. The inserted items will be passed as
306           a list to the method.
307
308       "hunk_footer"
309           This method is called at the end of a hunk. It should output any
310           necessary content to close out the hunk.
311
312       "file_footer()"
313           This method is called once when the whole diff has been procssed.
314           It should output any necessary content to close out the diff file.
315
316       "filename_a"
317           This accessor returns the value specified for the "FILENAME_A"
318           option to word_diff().
319
320       "filename_b"
321           This accessor returns the value specified for the "FILENAME_B"
322           option to word_diff().
323
324       "mtime_a"
325           This accessor returns the value specified for the "MTIME_A" option
326           to word_diff().
327
328       "mtime_b"
329           This accessor returns the value specified for the "MTIME_B" option
330           to word_diff().
331
332       "filename_prefix_a"
333           This accessor returns the value specified for the
334           "FILENAME_PREFIX_A" option to word_diff().
335
336       "filename_prefix_b"
337           This accessor returns the value specified for the
338           "FILENAME_PREFIX_B" option to word_diff().
339

See Also

341       Text::Diff
342           Inspired the interface and implementation of this module. Thanks
343           Barry!
344
345       Text::ParagraphDiff
346           A module that attempts to diff paragraphs and the words in them.
347
348       Algorithm::Diff
349           The module that makes this all possible.
350

Support

352       This module is stored in an open GitHub repository
353       <http://github.com/theory/text-worddiff/>. Feel free to fork and
354       contribute!
355
356       Please file bug reports via GitHub Issues
357       <http://github.com/theory/text-worddiff/issues/> or by sending mail to
358       bug-Text-WordDiff@rt.cpan.org <mailto:bug-Text-WordDiff@rt.cpan.org>.
359

Author

361       David E. Wheeler <david@justatheory.com>
362
363       Currently maintained by the developers of The Perl Shop <tps@cpan.org>.
364
366       Copyright (c) 2005-2011 David E. Wheeler. Some Rights Reserved.
367
368       This module is free software; you can redistribute it and/or modify it
369       under the same terms as Perl itself.
370
371
372
373perl v5.30.0                      2019-07-26                 Text::WordDiff(3)
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