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2: <head>
3: <title>pcrebuild specification</title>
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6: <h1>pcrebuild man page</h1>
7: <p>
8: Return to the <a href="index.html">PCRE index page</a>.
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10: <p>
11: This page is part of the PCRE HTML documentation. It was generated automatically
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13: man page, in case the conversion went wrong.
14: <br>
15: <ul>
1.1.1.4 ! misho 16: <li><a name="TOC1" href="#SEC1">BUILDING PCRE</a>
! 17: <li><a name="TOC2" href="#SEC2">PCRE BUILD-TIME OPTIONS</a>
! 18: <li><a name="TOC3" href="#SEC3">BUILDING 8-BIT, 16-BIT AND 32-BIT LIBRARIES</a>
! 19: <li><a name="TOC4" href="#SEC4">BUILDING SHARED AND STATIC LIBRARIES</a>
! 20: <li><a name="TOC5" href="#SEC5">C++ SUPPORT</a>
! 21: <li><a name="TOC6" href="#SEC6">UTF-8, UTF-16 AND UTF-32 SUPPORT</a>
! 22: <li><a name="TOC7" href="#SEC7">UNICODE CHARACTER PROPERTY SUPPORT</a>
! 23: <li><a name="TOC8" href="#SEC8">JUST-IN-TIME COMPILER SUPPORT</a>
! 24: <li><a name="TOC9" href="#SEC9">CODE VALUE OF NEWLINE</a>
! 25: <li><a name="TOC10" href="#SEC10">WHAT \R MATCHES</a>
! 26: <li><a name="TOC11" href="#SEC11">POSIX MALLOC USAGE</a>
! 27: <li><a name="TOC12" href="#SEC12">HANDLING VERY LARGE PATTERNS</a>
! 28: <li><a name="TOC13" href="#SEC13">AVOIDING EXCESSIVE STACK USAGE</a>
! 29: <li><a name="TOC14" href="#SEC14">LIMITING PCRE RESOURCE USAGE</a>
! 30: <li><a name="TOC15" href="#SEC15">CREATING CHARACTER TABLES AT BUILD TIME</a>
! 31: <li><a name="TOC16" href="#SEC16">USING EBCDIC CODE</a>
! 32: <li><a name="TOC17" href="#SEC17">PCREGREP OPTIONS FOR COMPRESSED FILE SUPPORT</a>
! 33: <li><a name="TOC18" href="#SEC18">PCREGREP BUFFER SIZE</a>
! 34: <li><a name="TOC19" href="#SEC19">PCRETEST OPTION FOR LIBREADLINE SUPPORT</a>
! 35: <li><a name="TOC20" href="#SEC20">DEBUGGING WITH VALGRIND SUPPORT</a>
! 36: <li><a name="TOC21" href="#SEC21">CODE COVERAGE REPORTING</a>
! 37: <li><a name="TOC22" href="#SEC22">SEE ALSO</a>
! 38: <li><a name="TOC23" href="#SEC23">AUTHOR</a>
! 39: <li><a name="TOC24" href="#SEC24">REVISION</a>
1.1 misho 40: </ul>
1.1.1.4 ! misho 41: <br><a name="SEC1" href="#TOC1">BUILDING PCRE</a><br>
1.1 misho 42: <P>
1.1.1.4 ! misho 43: PCRE is distributed with a <b>configure</b> script that can be used to build the
! 44: library in Unix-like environments using the applications known as Autotools.
! 45: Also in the distribution are files to support building using <b>CMake</b>
! 46: instead of <b>configure</b>. The text file
! 47: <a href="README.txt"><b>README</b></a>
! 48: contains general information about building with Autotools (some of which is
! 49: repeated below), and also has some comments about building on various operating
! 50: systems. There is a lot more information about building PCRE without using
! 51: Autotools (including information about using <b>CMake</b> and building "by
! 52: hand") in the text file called
! 53: <a href="NON-AUTOTOOLS-BUILD.txt"><b>NON-AUTOTOOLS-BUILD</b>.</a>
! 54: You should consult this file as well as the
! 55: <a href="README.txt"><b>README</b></a>
! 56: file if you are building in a non-Unix-like environment.
! 57: </P>
! 58: <br><a name="SEC2" href="#TOC1">PCRE BUILD-TIME OPTIONS</a><br>
! 59: <P>
! 60: The rest of this document describes the optional features of PCRE that can be
! 61: selected when the library is compiled. It assumes use of the <b>configure</b>
! 62: script, where the optional features are selected or deselected by providing
! 63: options to <b>configure</b> before running the <b>make</b> command. However, the
! 64: same options can be selected in both Unix-like and non-Unix-like environments
! 65: using the GUI facility of <b>cmake-gui</b> if you are using <b>CMake</b> instead
! 66: of <b>configure</b> to build PCRE.
! 67: </P>
! 68: <P>
! 69: If you are not using Autotools or <b>CMake</b>, option selection can be done by
! 70: editing the <b>config.h</b> file, or by passing parameter settings to the
! 71: compiler, as described in
! 72: <a href="NON-AUTOTOOLS-BUILD.txt"><b>NON-AUTOTOOLS-BUILD</b>.</a>
1.1 misho 73: </P>
74: <P>
75: The complete list of options for <b>configure</b> (which includes the standard
76: ones such as the selection of the installation directory) can be obtained by
77: running
78: <pre>
79: ./configure --help
80: </pre>
81: The following sections include descriptions of options whose names begin with
82: --enable or --disable. These settings specify changes to the defaults for the
83: <b>configure</b> command. Because of the way that <b>configure</b> works,
84: --enable and --disable always come in pairs, so the complementary option always
85: exists as well, but as it specifies the default, it is not described.
86: </P>
1.1.1.4 ! misho 87: <br><a name="SEC3" href="#TOC1">BUILDING 8-BIT, 16-BIT AND 32-BIT LIBRARIES</a><br>
1.1.1.2 misho 88: <P>
89: By default, a library called <b>libpcre</b> is built, containing functions that
90: take string arguments contained in vectors of bytes, either as single-byte
91: characters, or interpreted as UTF-8 strings. You can also build a separate
92: library, called <b>libpcre16</b>, in which strings are contained in vectors of
93: 16-bit data units and interpreted either as single-unit characters or UTF-16
94: strings, by adding
95: <pre>
96: --enable-pcre16
97: </pre>
1.1.1.4 ! misho 98: to the <b>configure</b> command. You can also build yet another separate
! 99: library, called <b>libpcre32</b>, in which strings are contained in vectors of
! 100: 32-bit data units and interpreted either as single-unit characters or UTF-32
! 101: strings, by adding
! 102: <pre>
! 103: --enable-pcre32
! 104: </pre>
1.1.1.2 misho 105: to the <b>configure</b> command. If you do not want the 8-bit library, add
106: <pre>
107: --disable-pcre8
108: </pre>
1.1.1.4 ! misho 109: as well. At least one of the three libraries must be built. Note that the C++
! 110: and POSIX wrappers are for the 8-bit library only, and that <b>pcregrep</b> is
! 111: an 8-bit program. None of these are built if you select only the 16-bit or
! 112: 32-bit libraries.
1.1.1.2 misho 113: </P>
1.1.1.4 ! misho 114: <br><a name="SEC4" href="#TOC1">BUILDING SHARED AND STATIC LIBRARIES</a><br>
1.1 misho 115: <P>
1.1.1.4 ! misho 116: The Autotools PCRE building process uses <b>libtool</b> to build both shared and
! 117: static libraries by default. You can suppress one of these by adding one of
1.1 misho 118: <pre>
119: --disable-shared
120: --disable-static
121: </pre>
122: to the <b>configure</b> command, as required.
123: </P>
1.1.1.4 ! misho 124: <br><a name="SEC5" href="#TOC1">C++ SUPPORT</a><br>
1.1 misho 125: <P>
1.1.1.2 misho 126: By default, if the 8-bit library is being built, the <b>configure</b> script
127: will search for a C++ compiler and C++ header files. If it finds them, it
128: automatically builds the C++ wrapper library (which supports only 8-bit
129: strings). You can disable this by adding
1.1 misho 130: <pre>
131: --disable-cpp
132: </pre>
133: to the <b>configure</b> command.
134: </P>
1.1.1.4 ! misho 135: <br><a name="SEC6" href="#TOC1">UTF-8, UTF-16 AND UTF-32 SUPPORT</a><br>
1.1 misho 136: <P>
1.1.1.2 misho 137: To build PCRE with support for UTF Unicode character strings, add
1.1 misho 138: <pre>
1.1.1.2 misho 139: --enable-utf
1.1 misho 140: </pre>
1.1.1.4 ! misho 141: to the <b>configure</b> command. This setting applies to all three libraries,
! 142: adding support for UTF-8 to the 8-bit library, support for UTF-16 to the 16-bit
! 143: library, and support for UTF-32 to the to the 32-bit library. There are no
! 144: separate options for enabling UTF-8, UTF-16 and UTF-32 independently because
! 145: that would allow ridiculous settings such as requesting UTF-16 support while
! 146: building only the 8-bit library. It is not possible to build one library with
! 147: UTF support and another without in the same configuration. (For backwards
! 148: compatibility, --enable-utf8 is a synonym of --enable-utf.)
1.1.1.2 misho 149: </P>
150: <P>
1.1.1.4 ! misho 151: Of itself, this setting does not make PCRE treat strings as UTF-8, UTF-16 or
! 152: UTF-32. As well as compiling PCRE with this option, you also have have to set
! 153: the PCRE_UTF8, PCRE_UTF16 or PCRE_UTF32 option (as appropriate) when you call
! 154: one of the pattern compiling functions.
1.1 misho 155: </P>
156: <P>
1.1.1.2 misho 157: If you set --enable-utf when compiling in an EBCDIC environment, PCRE expects
1.1.1.3 misho 158: its input to be either ASCII or UTF-8 (depending on the run-time option). It is
1.1 misho 159: not possible to support both EBCDIC and UTF-8 codes in the same version of the
1.1.1.2 misho 160: library. Consequently, --enable-utf and --enable-ebcdic are mutually
1.1 misho 161: exclusive.
162: </P>
1.1.1.4 ! misho 163: <br><a name="SEC7" href="#TOC1">UNICODE CHARACTER PROPERTY SUPPORT</a><br>
1.1 misho 164: <P>
1.1.1.2 misho 165: UTF support allows the libraries to process character codepoints up to 0x10ffff
166: in the strings that they handle. On its own, however, it does not provide any
1.1 misho 167: facilities for accessing the properties of such characters. If you want to be
168: able to use the pattern escapes \P, \p, and \X, which refer to Unicode
169: character properties, you must add
170: <pre>
171: --enable-unicode-properties
172: </pre>
1.1.1.2 misho 173: to the <b>configure</b> command. This implies UTF support, even if you have
1.1 misho 174: not explicitly requested it.
175: </P>
176: <P>
177: Including Unicode property support adds around 30K of tables to the PCRE
178: library. Only the general category properties such as <i>Lu</i> and <i>Nd</i> are
179: supported. Details are given in the
180: <a href="pcrepattern.html"><b>pcrepattern</b></a>
181: documentation.
182: </P>
1.1.1.4 ! misho 183: <br><a name="SEC8" href="#TOC1">JUST-IN-TIME COMPILER SUPPORT</a><br>
1.1 misho 184: <P>
185: Just-in-time compiler support is included in the build by specifying
186: <pre>
187: --enable-jit
188: </pre>
189: This support is available only for certain hardware architectures. If this
190: option is set for an unsupported architecture, a compile time error occurs.
191: See the
192: <a href="pcrejit.html"><b>pcrejit</b></a>
193: documentation for a discussion of JIT usage. When JIT support is enabled,
194: pcregrep automatically makes use of it, unless you add
195: <pre>
196: --disable-pcregrep-jit
197: </pre>
198: to the "configure" command.
199: </P>
1.1.1.4 ! misho 200: <br><a name="SEC9" href="#TOC1">CODE VALUE OF NEWLINE</a><br>
1.1 misho 201: <P>
202: By default, PCRE interprets the linefeed (LF) character as indicating the end
203: of a line. This is the normal newline character on Unix-like systems. You can
204: compile PCRE to use carriage return (CR) instead, by adding
205: <pre>
206: --enable-newline-is-cr
207: </pre>
208: to the <b>configure</b> command. There is also a --enable-newline-is-lf option,
209: which explicitly specifies linefeed as the newline character.
210: <br>
211: <br>
212: Alternatively, you can specify that line endings are to be indicated by the two
213: character sequence CRLF. If you want this, add
214: <pre>
215: --enable-newline-is-crlf
216: </pre>
217: to the <b>configure</b> command. There is a fourth option, specified by
218: <pre>
219: --enable-newline-is-anycrlf
220: </pre>
221: which causes PCRE to recognize any of the three sequences CR, LF, or CRLF as
222: indicating a line ending. Finally, a fifth option, specified by
223: <pre>
224: --enable-newline-is-any
225: </pre>
226: causes PCRE to recognize any Unicode newline sequence.
227: </P>
228: <P>
229: Whatever line ending convention is selected when PCRE is built can be
230: overridden when the library functions are called. At build time it is
231: conventional to use the standard for your operating system.
232: </P>
1.1.1.4 ! misho 233: <br><a name="SEC10" href="#TOC1">WHAT \R MATCHES</a><br>
1.1 misho 234: <P>
235: By default, the sequence \R in a pattern matches any Unicode newline sequence,
236: whatever has been selected as the line ending sequence. If you specify
237: <pre>
238: --enable-bsr-anycrlf
239: </pre>
240: the default is changed so that \R matches only CR, LF, or CRLF. Whatever is
241: selected when PCRE is built can be overridden when the library functions are
242: called.
243: </P>
1.1.1.4 ! misho 244: <br><a name="SEC11" href="#TOC1">POSIX MALLOC USAGE</a><br>
1.1 misho 245: <P>
1.1.1.2 misho 246: When the 8-bit library is called through the POSIX interface (see the
1.1 misho 247: <a href="pcreposix.html"><b>pcreposix</b></a>
248: documentation), additional working storage is required for holding the pointers
249: to capturing substrings, because PCRE requires three integers per substring,
250: whereas the POSIX interface provides only two. If the number of expected
251: substrings is small, the wrapper function uses space on the stack, because this
252: is faster than using <b>malloc()</b> for each call. The default threshold above
253: which the stack is no longer used is 10; it can be changed by adding a setting
254: such as
255: <pre>
256: --with-posix-malloc-threshold=20
257: </pre>
258: to the <b>configure</b> command.
259: </P>
1.1.1.4 ! misho 260: <br><a name="SEC12" href="#TOC1">HANDLING VERY LARGE PATTERNS</a><br>
1.1 misho 261: <P>
262: Within a compiled pattern, offset values are used to point from one part to
263: another (for example, from an opening parenthesis to an alternation
1.1.1.4 ! misho 264: metacharacter). By default, in the 8-bit and 16-bit libraries, two-byte values
! 265: are used for these offsets, leading to a maximum size for a compiled pattern of
! 266: around 64K. This is sufficient to handle all but the most gigantic patterns.
! 267: Nevertheless, some people do want to process truly enormous patterns, so it is
! 268: possible to compile PCRE to use three-byte or four-byte offsets by adding a
! 269: setting such as
1.1 misho 270: <pre>
271: --with-link-size=3
272: </pre>
1.1.1.2 misho 273: to the <b>configure</b> command. The value given must be 2, 3, or 4. For the
1.1.1.4 ! misho 274: 16-bit library, a value of 3 is rounded up to 4. In these libraries, using
! 275: longer offsets slows down the operation of PCRE because it has to load
! 276: additional data when handling them. For the 32-bit library the value is always
! 277: 4 and cannot be overridden; the value of --with-link-size is ignored.
1.1 misho 278: </P>
1.1.1.4 ! misho 279: <br><a name="SEC13" href="#TOC1">AVOIDING EXCESSIVE STACK USAGE</a><br>
1.1 misho 280: <P>
281: When matching with the <b>pcre_exec()</b> function, PCRE implements backtracking
282: by making recursive calls to an internal function called <b>match()</b>. In
283: environments where the size of the stack is limited, this can severely limit
284: PCRE's operation. (The Unix environment does not usually suffer from this
285: problem, but it may sometimes be necessary to increase the maximum stack size.
286: There is a discussion in the
287: <a href="pcrestack.html"><b>pcrestack</b></a>
288: documentation.) An alternative approach to recursion that uses memory from the
289: heap to remember data, instead of using recursive function calls, has been
290: implemented to work round the problem of limited stack size. If you want to
291: build a version of PCRE that works this way, add
292: <pre>
293: --disable-stack-for-recursion
294: </pre>
295: to the <b>configure</b> command. With this configuration, PCRE will use the
296: <b>pcre_stack_malloc</b> and <b>pcre_stack_free</b> variables to call memory
297: management functions. By default these point to <b>malloc()</b> and
298: <b>free()</b>, but you can replace the pointers so that your own functions are
299: used instead.
300: </P>
301: <P>
302: Separate functions are provided rather than using <b>pcre_malloc</b> and
303: <b>pcre_free</b> because the usage is very predictable: the block sizes
304: requested are always the same, and the blocks are always freed in reverse
305: order. A calling program might be able to implement optimized functions that
306: perform better than <b>malloc()</b> and <b>free()</b>. PCRE runs noticeably more
307: slowly when built in this way. This option affects only the <b>pcre_exec()</b>
308: function; it is not relevant for <b>pcre_dfa_exec()</b>.
309: </P>
1.1.1.4 ! misho 310: <br><a name="SEC14" href="#TOC1">LIMITING PCRE RESOURCE USAGE</a><br>
1.1 misho 311: <P>
312: Internally, PCRE has a function called <b>match()</b>, which it calls repeatedly
313: (sometimes recursively) when matching a pattern with the <b>pcre_exec()</b>
314: function. By controlling the maximum number of times this function may be
315: called during a single matching operation, a limit can be placed on the
316: resources used by a single call to <b>pcre_exec()</b>. The limit can be changed
317: at run time, as described in the
318: <a href="pcreapi.html"><b>pcreapi</b></a>
319: documentation. The default is 10 million, but this can be changed by adding a
320: setting such as
321: <pre>
322: --with-match-limit=500000
323: </pre>
324: to the <b>configure</b> command. This setting has no effect on the
325: <b>pcre_dfa_exec()</b> matching function.
326: </P>
327: <P>
328: In some environments it is desirable to limit the depth of recursive calls of
329: <b>match()</b> more strictly than the total number of calls, in order to
330: restrict the maximum amount of stack (or heap, if --disable-stack-for-recursion
331: is specified) that is used. A second limit controls this; it defaults to the
332: value that is set for --with-match-limit, which imposes no additional
333: constraints. However, you can set a lower limit by adding, for example,
334: <pre>
335: --with-match-limit-recursion=10000
336: </pre>
337: to the <b>configure</b> command. This value can also be overridden at run time.
338: </P>
1.1.1.4 ! misho 339: <br><a name="SEC15" href="#TOC1">CREATING CHARACTER TABLES AT BUILD TIME</a><br>
1.1 misho 340: <P>
341: PCRE uses fixed tables for processing characters whose code values are less
342: than 256. By default, PCRE is built with a set of tables that are distributed
343: in the file <i>pcre_chartables.c.dist</i>. These tables are for ASCII codes
344: only. If you add
345: <pre>
346: --enable-rebuild-chartables
347: </pre>
348: to the <b>configure</b> command, the distributed tables are no longer used.
349: Instead, a program called <b>dftables</b> is compiled and run. This outputs the
1.1.1.3 misho 350: source for new set of tables, created in the default locale of your C run-time
1.1 misho 351: system. (This method of replacing the tables does not work if you are cross
352: compiling, because <b>dftables</b> is run on the local host. If you need to
353: create alternative tables when cross compiling, you will have to do so "by
354: hand".)
355: </P>
1.1.1.4 ! misho 356: <br><a name="SEC16" href="#TOC1">USING EBCDIC CODE</a><br>
1.1 misho 357: <P>
358: PCRE assumes by default that it will run in an environment where the character
359: code is ASCII (or Unicode, which is a superset of ASCII). This is the case for
360: most computer operating systems. PCRE can, however, be compiled to run in an
361: EBCDIC environment by adding
362: <pre>
363: --enable-ebcdic
364: </pre>
365: to the <b>configure</b> command. This setting implies
366: --enable-rebuild-chartables. You should only use it if you know that you are in
367: an EBCDIC environment (for example, an IBM mainframe operating system). The
1.1.1.2 misho 368: --enable-ebcdic option is incompatible with --enable-utf.
1.1 misho 369: </P>
1.1.1.4 ! misho 370: <P>
! 371: The EBCDIC character that corresponds to an ASCII LF is assumed to have the
! 372: value 0x15 by default. However, in some EBCDIC environments, 0x25 is used. In
! 373: such an environment you should use
! 374: <pre>
! 375: --enable-ebcdic-nl25
! 376: </pre>
! 377: as well as, or instead of, --enable-ebcdic. The EBCDIC character for CR has the
! 378: same value as in ASCII, namely, 0x0d. Whichever of 0x15 and 0x25 is <i>not</i>
! 379: chosen as LF is made to correspond to the Unicode NEL character (which, in
! 380: Unicode, is 0x85).
! 381: </P>
! 382: <P>
! 383: The options that select newline behaviour, such as --enable-newline-is-cr,
! 384: and equivalent run-time options, refer to these character values in an EBCDIC
! 385: environment.
! 386: </P>
! 387: <br><a name="SEC17" href="#TOC1">PCREGREP OPTIONS FOR COMPRESSED FILE SUPPORT</a><br>
1.1 misho 388: <P>
389: By default, <b>pcregrep</b> reads all files as plain text. You can build it so
390: that it recognizes files whose names end in <b>.gz</b> or <b>.bz2</b>, and reads
391: them with <b>libz</b> or <b>libbz2</b>, respectively, by adding one or both of
392: <pre>
393: --enable-pcregrep-libz
394: --enable-pcregrep-libbz2
395: </pre>
396: to the <b>configure</b> command. These options naturally require that the
397: relevant libraries are installed on your system. Configuration will fail if
398: they are not.
399: </P>
1.1.1.4 ! misho 400: <br><a name="SEC18" href="#TOC1">PCREGREP BUFFER SIZE</a><br>
1.1 misho 401: <P>
402: <b>pcregrep</b> uses an internal buffer to hold a "window" on the file it is
403: scanning, in order to be able to output "before" and "after" lines when it
404: finds a match. The size of the buffer is controlled by a parameter whose
405: default value is 20K. The buffer itself is three times this size, but because
406: of the way it is used for holding "before" lines, the longest line that is
407: guaranteed to be processable is the parameter size. You can change the default
408: parameter value by adding, for example,
409: <pre>
410: --with-pcregrep-bufsize=50K
411: </pre>
412: to the <b>configure</b> command. The caller of \fPpcregrep\fP can, however,
413: override this value by specifying a run-time option.
414: </P>
1.1.1.4 ! misho 415: <br><a name="SEC19" href="#TOC1">PCRETEST OPTION FOR LIBREADLINE SUPPORT</a><br>
1.1 misho 416: <P>
417: If you add
418: <pre>
419: --enable-pcretest-libreadline
420: </pre>
421: to the <b>configure</b> command, <b>pcretest</b> is linked with the
422: <b>libreadline</b> library, and when its input is from a terminal, it reads it
423: using the <b>readline()</b> function. This provides line-editing and history
424: facilities. Note that <b>libreadline</b> is GPL-licensed, so if you distribute a
425: binary of <b>pcretest</b> linked in this way, there may be licensing issues.
426: </P>
427: <P>
428: Setting this option causes the <b>-lreadline</b> option to be added to the
429: <b>pcretest</b> build. In many operating environments with a sytem-installed
430: <b>libreadline</b> this is sufficient. However, in some environments (e.g.
431: if an unmodified distribution version of readline is in use), some extra
432: configuration may be necessary. The INSTALL file for <b>libreadline</b> says
433: this:
434: <pre>
435: "Readline uses the termcap functions, but does not link with the
436: termcap or curses library itself, allowing applications which link
437: with readline the to choose an appropriate library."
438: </pre>
439: If your environment has not been set up so that an appropriate library is
440: automatically included, you may need to add something like
441: <pre>
442: LIBS="-ncurses"
443: </pre>
444: immediately before the <b>configure</b> command.
445: </P>
1.1.1.4 ! misho 446: <br><a name="SEC20" href="#TOC1">DEBUGGING WITH VALGRIND SUPPORT</a><br>
! 447: <P>
! 448: By adding the
! 449: <pre>
! 450: --enable-valgrind
! 451: </pre>
! 452: option to to the <b>configure</b> command, PCRE will use valgrind annotations
! 453: to mark certain memory regions as unaddressable. This allows it to detect
! 454: invalid memory accesses, and is mostly useful for debugging PCRE itself.
! 455: </P>
! 456: <br><a name="SEC21" href="#TOC1">CODE COVERAGE REPORTING</a><br>
! 457: <P>
! 458: If your C compiler is gcc, you can build a version of PCRE that can generate a
! 459: code coverage report for its test suite. To enable this, you must install
! 460: <b>lcov</b> version 1.6 or above. Then specify
! 461: <pre>
! 462: --enable-coverage
! 463: </pre>
! 464: to the <b>configure</b> command and build PCRE in the usual way.
! 465: </P>
! 466: <P>
! 467: Note that using <b>ccache</b> (a caching C compiler) is incompatible with code
! 468: coverage reporting. If you have configured <b>ccache</b> to run automatically
! 469: on your system, you must set the environment variable
! 470: <pre>
! 471: CCACHE_DISABLE=1
! 472: </pre>
! 473: before running <b>make</b> to build PCRE, so that <b>ccache</b> is not used.
! 474: </P>
! 475: <P>
! 476: When --enable-coverage is used, the following addition targets are added to the
! 477: <i>Makefile</i>:
! 478: <pre>
! 479: make coverage
! 480: </pre>
! 481: This creates a fresh coverage report for the PCRE test suite. It is equivalent
! 482: to running "make coverage-reset", "make coverage-baseline", "make check", and
! 483: then "make coverage-report".
! 484: <pre>
! 485: make coverage-reset
! 486: </pre>
! 487: This zeroes the coverage counters, but does nothing else.
! 488: <pre>
! 489: make coverage-baseline
! 490: </pre>
! 491: This captures baseline coverage information.
! 492: <pre>
! 493: make coverage-report
! 494: </pre>
! 495: This creates the coverage report.
! 496: <pre>
! 497: make coverage-clean-report
! 498: </pre>
! 499: This removes the generated coverage report without cleaning the coverage data
! 500: itself.
! 501: <pre>
! 502: make coverage-clean-data
! 503: </pre>
! 504: This removes the captured coverage data without removing the coverage files
! 505: created at compile time (*.gcno).
! 506: <pre>
! 507: make coverage-clean
! 508: </pre>
! 509: This cleans all coverage data including the generated coverage report. For more
! 510: information about code coverage, see the <b>gcov</b> and <b>lcov</b>
! 511: documentation.
! 512: </P>
! 513: <br><a name="SEC22" href="#TOC1">SEE ALSO</a><br>
1.1 misho 514: <P>
1.1.1.4 ! misho 515: <b>pcreapi</b>(3), <b>pcre16</b>, <b>pcre32</b>, <b>pcre_config</b>(3).
1.1 misho 516: </P>
1.1.1.4 ! misho 517: <br><a name="SEC23" href="#TOC1">AUTHOR</a><br>
1.1 misho 518: <P>
519: Philip Hazel
520: <br>
521: University Computing Service
522: <br>
523: Cambridge CB2 3QH, England.
524: <br>
525: </P>
1.1.1.4 ! misho 526: <br><a name="SEC24" href="#TOC1">REVISION</a><br>
1.1 misho 527: <P>
1.1.1.4 ! misho 528: Last updated: 12 May 2013
1.1 misho 529: <br>
1.1.1.4 ! misho 530: Copyright © 1997-2013 University of Cambridge.
1.1 misho 531: <br>
532: <p>
533: Return to the <a href="index.html">PCRE index page</a>.
534: </p>
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