pcre_maketables()
documentation), this is relatively straightforward. If you are using private tables, it is a little bit more complicated. However, if you are using the just-in-time optimization feature, it is not possible to save and reload the JIT data.
If you save compiled patterns to a file, you can copy them to a different host and run them there. If the two hosts have different endianness (byte order), you should run the pcre[16|32]_pattern_to_host_byte_order() function on the new host before trying to match the pattern. The matching functions return PCRE_ERROR_BADENDIANNESS if they detect a pattern with the wrong endianness.
Compiling regular expressions with one version of PCRE for use with a different version is not guaranteed to work and may cause crashes, and saving and restoring a compiled pattern loses any JIT optimization data. . .
If you want to write more than one pattern to a file, you will have to devise a way of separating them. For binary data, preceding each pattern with its length is probably the most straightforward approach. Another possibility is to write out the data in hexadecimal instead of binary, one pattern to a line.
Saving compiled patterns in a file is only one possible way of storing them for later use. They could equally well be saved in a database, or in the memory of some daemon process that passes them via sockets to the processes that want them.
If the pattern has been studied, it is also possible to save the normal study
data in a similar way to the compiled pattern itself. However, if the
PCRE_STUDY_JIT_COMPILE was used, the just-in-time data that is created cannot
be saved because it is too dependent on the current environment. When studying
generates additional information, pcre[16|32]_study() returns a pointer to a
pcre[16|32]_extra data block. Its format is defined in the
HTML <a href="pcreapi.html#extradata">
</a>
section on matching a pattern
in the
HREF
pcreapi
documentation. The study_data field points to the binary study data, and
this is what you must save (not the pcre[16|32]_extra block itself). The
length of the study data can be obtained by calling pcre[16|32]_fullinfo()
with an argument of PCRE_INFO_STUDYSIZE. Remember to check that
pcre[16|32]_study() did return a non-NULL value before trying to save the
study data.
.
.
However, if you passed a pointer to custom character tables when the pattern
was compiled (the tableptr argument of pcre[16|32]_compile()), you
must now pass a similar pointer to pcre[16|32]_exec() or
pcre[16|32]_dfa_exec(), because the value saved with the compiled pattern
will obviously be nonsense. A field in a pcre[16|32]_extra() block is used
to pass this data, as described in the
HTML <a href="pcreapi.html#extradata">
</a>
section on matching a pattern
in the
HREF
pcreapi
documentation.
Warning: The tables that pcre_exec() and pcre_dfa_exec() use must be the same as those that were used when the pattern was compiled. If this is not the case, the behaviour is undefined.
If you did not provide custom character tables when the pattern was compiled, the pointer in the compiled pattern is NULL, which causes the matching functions to use PCRE's internal tables. Thus, you do not need to take any special action at run time in this case.
If you saved study data with the compiled pattern, you need to create your own pcre[16|32]_extra data block and set the study_data field to point to the reloaded study data. You must also set the PCRE_EXTRA_STUDY_DATA bit in the flags field to indicate that study data is present. Then pass the pcre[16|32]_extra block to the matching function in the usual way. If the pattern was studied for just-in-time optimization, that data cannot be saved, and so is lost by a save/restore cycle. . .
Philip Hazel University Computing Service Cambridge CB2 3QH, England.. .
Last updated: 12 November 2013 Copyright (c) 1997-2013 University of Cambridge.
