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1<html>
2<head>
3<title>pcrepartial specification</title>
4</head>
5<body bgcolor="#FFFFFF" text="#00005A" link="#0066FF" alink="#3399FF" vlink="#2222BB">
6<h1>pcrepartial man page</h1>
7<p>
8Return to the <a href="index.html">PCRE index page</a>.
9</p>
10<p>
11This page is part of the PCRE HTML documentation. It was generated automatically
12from the original man page. If there is any nonsense in it, please consult the
13man page, in case the conversion went wrong.
14<br>
15<ul>
16<li><a name="TOC1" href="#SEC1">PARTIAL MATCHING IN PCRE</a>
17<li><a name="TOC2" href="#SEC2">PARTIAL MATCHING USING pcre_exec() OR pcre[16|32]_exec()</a>
18<li><a name="TOC3" href="#SEC3">PARTIAL MATCHING USING pcre_dfa_exec() OR pcre[16|32]_dfa_exec()</a>
19<li><a name="TOC4" href="#SEC4">PARTIAL MATCHING AND WORD BOUNDARIES</a>
20<li><a name="TOC5" href="#SEC5">FORMERLY RESTRICTED PATTERNS</a>
21<li><a name="TOC6" href="#SEC6">EXAMPLE OF PARTIAL MATCHING USING PCRETEST</a>
22<li><a name="TOC7" href="#SEC7">MULTI-SEGMENT MATCHING WITH pcre_dfa_exec() OR pcre[16|32]_dfa_exec()</a>
23<li><a name="TOC8" href="#SEC8">MULTI-SEGMENT MATCHING WITH pcre_exec() OR pcre[16|32]_exec()</a>
24<li><a name="TOC9" href="#SEC9">ISSUES WITH MULTI-SEGMENT MATCHING</a>
25<li><a name="TOC10" href="#SEC10">AUTHOR</a>
26<li><a name="TOC11" href="#SEC11">REVISION</a>
27</ul>
28<br><a name="SEC1" href="#TOC1">PARTIAL MATCHING IN PCRE</a><br>
29<P>
30In normal use of PCRE, if the subject string that is passed to a matching
31function matches as far as it goes, but is too short to match the entire
32pattern, PCRE_ERROR_NOMATCH is returned. There are circumstances where it might
33be helpful to distinguish this case from other cases in which there is no
34match.
35</P>
36<P>
37Consider, for example, an application where a human is required to type in data
38for a field with specific formatting requirements. An example might be a date
39in the form <i>ddmmmyy</i>, defined by this pattern:
40<pre>
41  ^\d?\d(jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec)\d\d$
42</pre>
43If the application sees the user's keystrokes one by one, and can check that
44what has been typed so far is potentially valid, it is able to raise an error
45as soon as a mistake is made, by beeping and not reflecting the character that
46has been typed, for example. This immediate feedback is likely to be a better
47user interface than a check that is delayed until the entire string has been
48entered. Partial matching can also be useful when the subject string is very
49long and is not all available at once.
50</P>
51<P>
52PCRE supports partial matching by means of the PCRE_PARTIAL_SOFT and
53PCRE_PARTIAL_HARD options, which can be set when calling any of the matching
54functions. For backwards compatibility, PCRE_PARTIAL is a synonym for
55PCRE_PARTIAL_SOFT. The essential difference between the two options is whether
56or not a partial match is preferred to an alternative complete match, though
57the details differ between the two types of matching function. If both options
58are set, PCRE_PARTIAL_HARD takes precedence.
59</P>
60<P>
61If you want to use partial matching with just-in-time optimized code, you must
62call <b>pcre_study()</b>, <b>pcre16_study()</b> or  <b>pcre32_study()</b> with one
63or both of these options:
64<pre>
65  PCRE_STUDY_JIT_PARTIAL_SOFT_COMPILE
66  PCRE_STUDY_JIT_PARTIAL_HARD_COMPILE
67</pre>
68PCRE_STUDY_JIT_COMPILE should also be set if you are going to run non-partial
69matches on the same pattern. If the appropriate JIT study mode has not been set
70for a match, the interpretive matching code is used.
71</P>
72<P>
73Setting a partial matching option disables two of PCRE's standard
74optimizations. PCRE remembers the last literal data unit in a pattern, and
75abandons matching immediately if it is not present in the subject string. This
76optimization cannot be used for a subject string that might match only
77partially. If the pattern was studied, PCRE knows the minimum length of a
78matching string, and does not bother to run the matching function on shorter
79strings. This optimization is also disabled for partial matching.
80</P>
81<br><a name="SEC2" href="#TOC1">PARTIAL MATCHING USING pcre_exec() OR pcre[16|32]_exec()</a><br>
82<P>
83A partial match occurs during a call to <b>pcre_exec()</b> or
84<b>pcre[16|32]_exec()</b> when the end of the subject string is reached
85successfully, but matching cannot continue because more characters are needed.
86However, at least one character in the subject must have been inspected. This
87character need not form part of the final matched string; lookbehind assertions
88and the \K escape sequence provide ways of inspecting characters before the
89start of a matched substring. The requirement for inspecting at least one
90character exists because an empty string can always be matched; without such a
91restriction there would always be a partial match of an empty string at the end
92of the subject.
93</P>
94<P>
95If there are at least two slots in the offsets vector when a partial match is
96returned, the first slot is set to the offset of the earliest character that
97was inspected. For convenience, the second offset points to the end of the
98subject so that a substring can easily be identified. If there are at least
99three slots in the offsets vector, the third slot is set to the offset of the
100character where matching started.
101</P>
102<P>
103For the majority of patterns, the contents of the first and third slots will be
104the same. However, for patterns that contain lookbehind assertions, or begin
105with \b or \B, characters before the one where matching started may have been
106inspected while carrying out the match. For example, consider this pattern:
107<pre>
108  /(?&#60;=abc)123/
109</pre>
110This pattern matches "123", but only if it is preceded by "abc". If the subject
111string is "xyzabc12", the first two offsets after a partial match are for the
112substring "abc12", because all these characters were inspected. However, the
113third offset is set to 6, because that is the offset where matching began.
114</P>
115<P>
116What happens when a partial match is identified depends on which of the two
117partial matching options are set.
118</P>
119<br><b>
120PCRE_PARTIAL_SOFT WITH pcre_exec() OR pcre[16|32]_exec()
121</b><br>
122<P>
123If PCRE_PARTIAL_SOFT is set when <b>pcre_exec()</b> or <b>pcre[16|32]_exec()</b>
124identifies a partial match, the partial match is remembered, but matching
125continues as normal, and other alternatives in the pattern are tried. If no
126complete match can be found, PCRE_ERROR_PARTIAL is returned instead of
127PCRE_ERROR_NOMATCH.
128</P>
129<P>
130This option is "soft" because it prefers a complete match over a partial match.
131All the various matching items in a pattern behave as if the subject string is
132potentially complete. For example, \z, \Z, and $ match at the end of the
133subject, as normal, and for \b and \B the end of the subject is treated as a
134non-alphanumeric.
135</P>
136<P>
137If there is more than one partial match, the first one that was found provides
138the data that is returned. Consider this pattern:
139<pre>
140  /123\w+X|dogY/
141</pre>
142If this is matched against the subject string "abc123dog", both
143alternatives fail to match, but the end of the subject is reached during
144matching, so PCRE_ERROR_PARTIAL is returned. The offsets are set to 3 and 9,
145identifying "123dog" as the first partial match that was found. (In this
146example, there are two partial matches, because "dog" on its own partially
147matches the second alternative.)
148</P>
149<br><b>
150PCRE_PARTIAL_HARD WITH pcre_exec() OR pcre[16|32]_exec()
151</b><br>
152<P>
153If PCRE_PARTIAL_HARD is set for <b>pcre_exec()</b> or <b>pcre[16|32]_exec()</b>,
154PCRE_ERROR_PARTIAL is returned as soon as a partial match is found, without
155continuing to search for possible complete matches. This option is "hard"
156because it prefers an earlier partial match over a later complete match. For
157this reason, the assumption is made that the end of the supplied subject string
158may not be the true end of the available data, and so, if \z, \Z, \b, \B,
159or $ are encountered at the end of the subject, the result is
160PCRE_ERROR_PARTIAL, provided that at least one character in the subject has
161been inspected.
162</P>
163<P>
164Setting PCRE_PARTIAL_HARD also affects the way UTF-8 and UTF-16
165subject strings are checked for validity. Normally, an invalid sequence
166causes the error PCRE_ERROR_BADUTF8 or PCRE_ERROR_BADUTF16. However, in the
167special case of a truncated character at the end of the subject,
168PCRE_ERROR_SHORTUTF8 or PCRE_ERROR_SHORTUTF16 is returned when
169PCRE_PARTIAL_HARD is set.
170</P>
171<br><b>
172Comparing hard and soft partial matching
173</b><br>
174<P>
175The difference between the two partial matching options can be illustrated by a
176pattern such as:
177<pre>
178  /dog(sbody)?/
179</pre>
180This matches either "dog" or "dogsbody", greedily (that is, it prefers the
181longer string if possible). If it is matched against the string "dog" with
182PCRE_PARTIAL_SOFT, it yields a complete match for "dog". However, if
183PCRE_PARTIAL_HARD is set, the result is PCRE_ERROR_PARTIAL. On the other hand,
184if the pattern is made ungreedy the result is different:
185<pre>
186  /dog(sbody)??/
187</pre>
188In this case the result is always a complete match because that is found first,
189and matching never continues after finding a complete match. It might be easier
190to follow this explanation by thinking of the two patterns like this:
191<pre>
192  /dog(sbody)?/    is the same as  /dogsbody|dog/
193  /dog(sbody)??/   is the same as  /dog|dogsbody/
194</pre>
195The second pattern will never match "dogsbody", because it will always find the
196shorter match first.
197</P>
198<br><a name="SEC3" href="#TOC1">PARTIAL MATCHING USING pcre_dfa_exec() OR pcre[16|32]_dfa_exec()</a><br>
199<P>
200The DFA functions move along the subject string character by character, without
201backtracking, searching for all possible matches simultaneously. If the end of
202the subject is reached before the end of the pattern, there is the possibility
203of a partial match, again provided that at least one character has been
204inspected.
205</P>
206<P>
207When PCRE_PARTIAL_SOFT is set, PCRE_ERROR_PARTIAL is returned only if there
208have been no complete matches. Otherwise, the complete matches are returned.
209However, if PCRE_PARTIAL_HARD is set, a partial match takes precedence over any
210complete matches. The portion of the string that was inspected when the longest
211partial match was found is set as the first matching string, provided there are
212at least two slots in the offsets vector.
213</P>
214<P>
215Because the DFA functions always search for all possible matches, and there is
216no difference between greedy and ungreedy repetition, their behaviour is
217different from the standard functions when PCRE_PARTIAL_HARD is set. Consider
218the string "dog" matched against the ungreedy pattern shown above:
219<pre>
220  /dog(sbody)??/
221</pre>
222Whereas the standard functions stop as soon as they find the complete match for
223"dog", the DFA functions also find the partial match for "dogsbody", and so
224return that when PCRE_PARTIAL_HARD is set.
225</P>
226<br><a name="SEC4" href="#TOC1">PARTIAL MATCHING AND WORD BOUNDARIES</a><br>
227<P>
228If a pattern ends with one of sequences \b or \B, which test for word
229boundaries, partial matching with PCRE_PARTIAL_SOFT can give counter-intuitive
230results. Consider this pattern:
231<pre>
232  /\bcat\b/
233</pre>
234This matches "cat", provided there is a word boundary at either end. If the
235subject string is "the cat", the comparison of the final "t" with a following
236character cannot take place, so a partial match is found. However, normal
237matching carries on, and \b matches at the end of the subject when the last
238character is a letter, so a complete match is found. The result, therefore, is
239<i>not</i> PCRE_ERROR_PARTIAL. Using PCRE_PARTIAL_HARD in this case does yield
240PCRE_ERROR_PARTIAL, because then the partial match takes precedence.
241</P>
242<br><a name="SEC5" href="#TOC1">FORMERLY RESTRICTED PATTERNS</a><br>
243<P>
244For releases of PCRE prior to 8.00, because of the way certain internal
245optimizations were implemented in the <b>pcre_exec()</b> function, the
246PCRE_PARTIAL option (predecessor of PCRE_PARTIAL_SOFT) could not be used with
247all patterns. From release 8.00 onwards, the restrictions no longer apply, and
248partial matching with can be requested for any pattern.
249</P>
250<P>
251Items that were formerly restricted were repeated single characters and
252repeated metasequences. If PCRE_PARTIAL was set for a pattern that did not
253conform to the restrictions, <b>pcre_exec()</b> returned the error code
254PCRE_ERROR_BADPARTIAL (-13). This error code is no longer in use. The
255PCRE_INFO_OKPARTIAL call to <b>pcre_fullinfo()</b> to find out if a compiled
256pattern can be used for partial matching now always returns 1.
257</P>
258<br><a name="SEC6" href="#TOC1">EXAMPLE OF PARTIAL MATCHING USING PCRETEST</a><br>
259<P>
260If the escape sequence \P is present in a <b>pcretest</b> data line, the
261PCRE_PARTIAL_SOFT option is used for the match. Here is a run of <b>pcretest</b>
262that uses the date example quoted above:
263<pre>
264    re&#62; /^\d?\d(jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec)\d\d$/
265  data&#62; 25jun04\P
266   0: 25jun04
267   1: jun
268  data&#62; 25dec3\P
269  Partial match: 23dec3
270  data&#62; 3ju\P
271  Partial match: 3ju
272  data&#62; 3juj\P
273  No match
274  data&#62; j\P
275  No match
276</pre>
277The first data string is matched completely, so <b>pcretest</b> shows the
278matched substrings. The remaining four strings do not match the complete
279pattern, but the first two are partial matches. Similar output is obtained
280if DFA matching is used.
281</P>
282<P>
283If the escape sequence \P is present more than once in a <b>pcretest</b> data
284line, the PCRE_PARTIAL_HARD option is set for the match.
285</P>
286<br><a name="SEC7" href="#TOC1">MULTI-SEGMENT MATCHING WITH pcre_dfa_exec() OR pcre[16|32]_dfa_exec()</a><br>
287<P>
288When a partial match has been found using a DFA matching function, it is
289possible to continue the match by providing additional subject data and calling
290the function again with the same compiled regular expression, this time setting
291the PCRE_DFA_RESTART option. You must pass the same working space as before,
292because this is where details of the previous partial match are stored. Here is
293an example using <b>pcretest</b>, using the \R escape sequence to set the
294PCRE_DFA_RESTART option (\D specifies the use of the DFA matching function):
295<pre>
296    re&#62; /^\d?\d(jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec)\d\d$/
297  data&#62; 23ja\P\D
298  Partial match: 23ja
299  data&#62; n05\R\D
300   0: n05
301</pre>
302The first call has "23ja" as the subject, and requests partial matching; the
303second call has "n05" as the subject for the continued (restarted) match.
304Notice that when the match is complete, only the last part is shown; PCRE does
305not retain the previously partially-matched string. It is up to the calling
306program to do that if it needs to.
307</P>
308<P>
309That means that, for an unanchored pattern, if a continued match fails, it is
310not possible to try again at a new starting point. All this facility is capable
311of doing is continuing with the previous match attempt. In the previous
312example, if the second set of data is "ug23" the result is no match, even
313though there would be a match for "aug23" if the entire string were given at
314once. Depending on the application, this may or may not be what you want.
315The only way to allow for starting again at the next character is to retain the
316matched part of the subject and try a new complete match.
317</P>
318<P>
319You can set the PCRE_PARTIAL_SOFT or PCRE_PARTIAL_HARD options with
320PCRE_DFA_RESTART to continue partial matching over multiple segments. This
321facility can be used to pass very long subject strings to the DFA matching
322functions.
323</P>
324<br><a name="SEC8" href="#TOC1">MULTI-SEGMENT MATCHING WITH pcre_exec() OR pcre[16|32]_exec()</a><br>
325<P>
326From release 8.00, the standard matching functions can also be used to do
327multi-segment matching. Unlike the DFA functions, it is not possible to
328restart the previous match with a new segment of data. Instead, new data must
329be added to the previous subject string, and the entire match re-run, starting
330from the point where the partial match occurred. Earlier data can be discarded.
331</P>
332<P>
333It is best to use PCRE_PARTIAL_HARD in this situation, because it does not
334treat the end of a segment as the end of the subject when matching \z, \Z,
335\b, \B, and $. Consider an unanchored pattern that matches dates:
336<pre>
337    re&#62; /\d?\d(jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec)\d\d/
338  data&#62; The date is 23ja\P\P
339  Partial match: 23ja
340</pre>
341At this stage, an application could discard the text preceding "23ja", add on
342text from the next segment, and call the matching function again. Unlike the
343DFA matching functions, the entire matching string must always be available,
344and the complete matching process occurs for each call, so more memory and more
345processing time is needed.
346</P>
347<P>
348<b>Note:</b> If the pattern contains lookbehind assertions, or \K, or starts
349with \b or \B, the string that is returned for a partial match includes
350characters that precede the start of what would be returned for a complete
351match, because it contains all the characters that were inspected during the
352partial match.
353</P>
354<br><a name="SEC9" href="#TOC1">ISSUES WITH MULTI-SEGMENT MATCHING</a><br>
355<P>
356Certain types of pattern may give problems with multi-segment matching,
357whichever matching function is used.
358</P>
359<P>
3601. If the pattern contains a test for the beginning of a line, you need to pass
361the PCRE_NOTBOL option when the subject string for any call does start at the
362beginning of a line. There is also a PCRE_NOTEOL option, but in practice when
363doing multi-segment matching you should be using PCRE_PARTIAL_HARD, which
364includes the effect of PCRE_NOTEOL.
365</P>
366<P>
3672. Lookbehind assertions that have already been obeyed are catered for in the
368offsets that are returned for a partial match. However a lookbehind assertion
369later in the pattern could require even earlier characters to be inspected. You
370can handle this case by using the PCRE_INFO_MAXLOOKBEHIND option of the
371<b>pcre_fullinfo()</b> or <b>pcre[16|32]_fullinfo()</b> functions to obtain the
372length of the longest lookbehind in the pattern. This length is given in
373characters, not bytes. If you always retain at least that many characters
374before the partially matched string, all should be well. (Of course, near the
375start of the subject, fewer characters may be present; in that case all
376characters should be retained.)
377</P>
378<P>
379From release 8.33, there is a more accurate way of deciding which characters to
380retain. Instead of subtracting the length of the longest lookbehind from the
381earliest inspected character (<i>offsets[0]</i>), the match start position
382(<i>offsets[2]</i>) should be used, and the next match attempt started at the
383<i>offsets[2]</i> character by setting the <i>startoffset</i> argument of
384<b>pcre_exec()</b> or <b>pcre_dfa_exec()</b>.
385</P>
386<P>
387For example, if the pattern "(?&#60;=123)abc" is partially
388matched against the string "xx123a", the three offset values returned are 2, 6,
389and 5. This indicates that the matching process that gave a partial match
390started at offset 5, but the characters "123a" were all inspected. The maximum
391lookbehind for that pattern is 3, so taking that away from 5 shows that we need
392only keep "123a", and the next match attempt can be started at offset 3 (that
393is, at "a") when further characters have been added. When the match start is
394not the earliest inspected character, <b>pcretest</b> shows it explicitly:
395<pre>
396    re&#62; "(?&#60;=123)abc"
397  data&#62; xx123a\P\P
398  Partial match at offset 5: 123a
399</PRE>
400</P>
401<P>
4023. Because a partial match must always contain at least one character, what
403might be considered a partial match of an empty string actually gives a "no
404match" result. For example:
405<pre>
406    re&#62; /c(?&#60;=abc)x/
407  data&#62; ab\P
408  No match
409</pre>
410If the next segment begins "cx", a match should be found, but this will only
411happen if characters from the previous segment are retained. For this reason, a
412"no match" result should be interpreted as "partial match of an empty string"
413when the pattern contains lookbehinds.
414</P>
415<P>
4164. Matching a subject string that is split into multiple segments may not
417always produce exactly the same result as matching over one single long string,
418especially when PCRE_PARTIAL_SOFT is used. The section "Partial Matching and
419Word Boundaries" above describes an issue that arises if the pattern ends with
420\b or \B. Another kind of difference may occur when there are multiple
421matching possibilities, because (for PCRE_PARTIAL_SOFT) a partial match result
422is given only when there are no completed matches. This means that as soon as
423the shortest match has been found, continuation to a new subject segment is no
424longer possible. Consider again this <b>pcretest</b> example:
425<pre>
426    re&#62; /dog(sbody)?/
427  data&#62; dogsb\P
428   0: dog
429  data&#62; do\P\D
430  Partial match: do
431  data&#62; gsb\R\P\D
432   0: g
433  data&#62; dogsbody\D
434   0: dogsbody
435   1: dog
436</pre>
437The first data line passes the string "dogsb" to a standard matching function,
438setting the PCRE_PARTIAL_SOFT option. Although the string is a partial match
439for "dogsbody", the result is not PCRE_ERROR_PARTIAL, because the shorter
440string "dog" is a complete match. Similarly, when the subject is presented to
441a DFA matching function in several parts ("do" and "gsb" being the first two)
442the match stops when "dog" has been found, and it is not possible to continue.
443On the other hand, if "dogsbody" is presented as a single string, a DFA
444matching function finds both matches.
445</P>
446<P>
447Because of these problems, it is best to use PCRE_PARTIAL_HARD when matching
448multi-segment data. The example above then behaves differently:
449<pre>
450    re&#62; /dog(sbody)?/
451  data&#62; dogsb\P\P
452  Partial match: dogsb
453  data&#62; do\P\D
454  Partial match: do
455  data&#62; gsb\R\P\P\D
456  Partial match: gsb
457</pre>
4585. Patterns that contain alternatives at the top level which do not all start
459with the same pattern item may not work as expected when PCRE_DFA_RESTART is
460used. For example, consider this pattern:
461<pre>
462  1234|3789
463</pre>
464If the first part of the subject is "ABC123", a partial match of the first
465alternative is found at offset 3. There is no partial match for the second
466alternative, because such a match does not start at the same point in the
467subject string. Attempting to continue with the string "7890" does not yield a
468match because only those alternatives that match at one point in the subject
469are remembered. The problem arises because the start of the second alternative
470matches within the first alternative. There is no problem with anchored
471patterns or patterns such as:
472<pre>
473  1234|ABCD
474</pre>
475where no string can be a partial match for both alternatives. This is not a
476problem if a standard matching function is used, because the entire match has
477to be rerun each time:
478<pre>
479    re&#62; /1234|3789/
480  data&#62; ABC123\P\P
481  Partial match: 123
482  data&#62; 1237890
483   0: 3789
484</pre>
485Of course, instead of using PCRE_DFA_RESTART, the same technique of re-running
486the entire match can also be used with the DFA matching functions. Another
487possibility is to work with two buffers. If a partial match at offset <i>n</i>
488in the first buffer is followed by "no match" when PCRE_DFA_RESTART is used on
489the second buffer, you can then try a new match starting at offset <i>n+1</i> in
490the first buffer.
491</P>
492<br><a name="SEC10" href="#TOC1">AUTHOR</a><br>
493<P>
494Philip Hazel
495<br>
496University Computing Service
497<br>
498Cambridge CB2 3QH, England.
499<br>
500</P>
501<br><a name="SEC11" href="#TOC1">REVISION</a><br>
502<P>
503Last updated: 02 July 2013
504<br>
505Copyright &copy; 1997-2013 University of Cambridge.
506<br>
507<p>
508Return to the <a href="index.html">PCRE index page</a>.
509</p>
510