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317 lines
11 KiB
C
317 lines
11 KiB
C
/*************************************************
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* PCRE DEMONSTRATION PROGRAM *
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*************************************************/
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/* This is a demonstration program to illustrate the most straightforward ways
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of calling the PCRE regular expression library from a C program. See the
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pcresample documentation for a short discussion.
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Compile thuswise:
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gcc -Wall pcredemo.c -I/opt/local/include -L/opt/local/lib \
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-R/opt/local/lib -lpcre
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Replace "/opt/local/include" and "/opt/local/lib" with wherever the include and
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library files for PCRE are installed on your system. Only some operating
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systems (e.g. Solaris) use the -R option.
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*/
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#include <stdio.h>
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#include <string.h>
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#include <pcre.h>
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#define OVECCOUNT 30 /* should be a multiple of 3 */
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int main(int argc, char **argv)
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{
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pcre *re;
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const char *error;
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char *pattern;
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char *subject;
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unsigned char *name_table;
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int erroffset;
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int find_all;
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int namecount;
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int name_entry_size;
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int ovector[OVECCOUNT];
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int subject_length;
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int rc, i;
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/*************************************************************************
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* First, sort out the command line. There is only one possible option at *
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* the moment, "-g" to request repeated matching to find all occurrences, *
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* like Perl's /g option. We set the variable find_all non-zero if it is *
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* present. Apart from that, there must be exactly two arguments. *
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*************************************************************************/
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find_all = 0;
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for (i = 1; i < argc; i++)
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{
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if (strcmp(argv[i], "-g") == 0) find_all = 1;
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else break;
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}
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/* After the options, we require exactly two arguments, which are the pattern,
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and the subject string. */
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if (argc - i != 2)
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{
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printf("Two arguments required: a regex and a subject string\n");
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return 1;
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}
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pattern = argv[i];
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subject = argv[i+1];
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subject_length = (int)strlen(subject);
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/*************************************************************************
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* Now we are going to compile the regular expression pattern, and handle *
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* and errors that are detected. *
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*************************************************************************/
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re = pcre_compile(
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pattern, /* the pattern */
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0, /* default options */
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&error, /* for error message */
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&erroffset, /* for error offset */
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NULL); /* use default character tables */
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/* Compilation failed: print the error message and exit */
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if (re == NULL)
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{
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printf("PCRE compilation failed at offset %d: %s\n", erroffset, error);
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return 1;
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}
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/*************************************************************************
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* If the compilation succeeded, we call PCRE again, in order to do a *
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* pattern match against the subject string. This just does ONE match. If *
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* further matching is needed, it will be done below. *
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*************************************************************************/
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rc = pcre_exec(
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re, /* the compiled pattern */
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NULL, /* no extra data - we didn't study the pattern */
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subject, /* the subject string */
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subject_length, /* the length of the subject */
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0, /* start at offset 0 in the subject */
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0, /* default options */
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ovector, /* output vector for substring information */
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OVECCOUNT); /* number of elements in the output vector */
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/* Matching failed: handle error cases */
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if (rc < 0)
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{
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switch(rc)
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{
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case PCRE_ERROR_NOMATCH: printf("No match\n"); break;
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/*
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Handle other special cases if you like
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*/
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default: printf("Matching error %d\n", rc); break;
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}
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return 1;
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}
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/* Match succeded */
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printf("\nMatch succeeded at offset %d\n", ovector[0]);
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/*************************************************************************
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* We have found the first match within the subject string. If the output *
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* vector wasn't big enough, set its size to the maximum. Then output any *
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* substrings that were captured. *
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*************************************************************************/
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/* The output vector wasn't big enough */
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if (rc == 0)
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{
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rc = OVECCOUNT/3;
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printf("ovector only has room for %d captured substrings\n", rc - 1);
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}
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/* Show substrings stored in the output vector by number. Obviously, in a real
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application you might want to do things other than print them. */
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for (i = 0; i < rc; i++)
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{
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char *substring_start = subject + ovector[2*i];
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int substring_length = ovector[2*i+1] - ovector[2*i];
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printf("%2d: %.*s\n", i, substring_length, substring_start);
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}
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/*************************************************************************
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* That concludes the basic part of this demonstration program. We have *
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* compiled a pattern, and performed a single match. The code that follows*
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* first shows how to access named substrings, and then how to code for *
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* repeated matches on the same subject. *
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*************************************************************************/
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/* See if there are any named substrings, and if so, show them by name. First
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we have to extract the count of named parentheses from the pattern. */
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(void)pcre_fullinfo(
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re, /* the compiled pattern */
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NULL, /* no extra data - we didn't study the pattern */
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PCRE_INFO_NAMECOUNT, /* number of named substrings */
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&namecount); /* where to put the answer */
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if (namecount <= 0) printf("No named substrings\n"); else
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{
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unsigned char *tabptr;
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printf("Named substrings\n");
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/* Before we can access the substrings, we must extract the table for
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translating names to numbers, and the size of each entry in the table. */
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(void)pcre_fullinfo(
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re, /* the compiled pattern */
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NULL, /* no extra data - we didn't study the pattern */
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PCRE_INFO_NAMETABLE, /* address of the table */
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&name_table); /* where to put the answer */
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(void)pcre_fullinfo(
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re, /* the compiled pattern */
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NULL, /* no extra data - we didn't study the pattern */
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PCRE_INFO_NAMEENTRYSIZE, /* size of each entry in the table */
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&name_entry_size); /* where to put the answer */
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/* Now we can scan the table and, for each entry, print the number, the name,
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and the substring itself. */
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tabptr = name_table;
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for (i = 0; i < namecount; i++)
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{
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int n = (tabptr[0] << 8) | tabptr[1];
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printf("(%d) %*s: %.*s\n", n, name_entry_size - 3, tabptr + 2,
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ovector[2*n+1] - ovector[2*n], subject + ovector[2*n]);
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tabptr += name_entry_size;
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}
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}
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/*************************************************************************
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* If the "-g" option was given on the command line, we want to continue *
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* to search for additional matches in the subject string, in a similar *
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* way to the /g option in Perl. This turns out to be trickier than you *
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* might think because of the possibility of matching an empty string. *
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* What happens is as follows: *
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* *
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* If the previous match was NOT for an empty string, we can just start *
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* the next match at the end of the previous one. *
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* *
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* If the previous match WAS for an empty string, we can't do that, as it *
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* would lead to an infinite loop. Instead, a special call of pcre_exec() *
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* is made with the PCRE_NOTEMPTY and PCRE_ANCHORED flags set. The first *
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* of these tells PCRE that an empty string is not a valid match; other *
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* possibilities must be tried. The second flag restricts PCRE to one *
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* match attempt at the initial string position. If this match succeeds, *
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* an alternative to the empty string match has been found, and we can *
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* proceed round the loop. *
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*************************************************************************/
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if (!find_all) return 0; /* Finish unless -g was given */
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/* Loop for second and subsequent matches */
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for (;;)
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{
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int options = 0; /* Normally no options */
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int start_offset = ovector[1]; /* Start at end of previous match */
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/* If the previous match was for an empty string, we are finished if we are
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at the end of the subject. Otherwise, arrange to run another match at the
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same point to see if a non-empty match can be found. */
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if (ovector[0] == ovector[1])
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{
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if (ovector[0] == subject_length) break;
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options = PCRE_NOTEMPTY | PCRE_ANCHORED;
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}
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/* Run the next matching operation */
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rc = pcre_exec(
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re, /* the compiled pattern */
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NULL, /* no extra data - we didn't study the pattern */
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subject, /* the subject string */
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subject_length, /* the length of the subject */
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start_offset, /* starting offset in the subject */
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options, /* options */
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ovector, /* output vector for substring information */
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OVECCOUNT); /* number of elements in the output vector */
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/* This time, a result of NOMATCH isn't an error. If the value in "options"
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is zero, it just means we have found all possible matches, so the loop ends.
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Otherwise, it means we have failed to find a non-empty-string match at a
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point where there was a previous empty-string match. In this case, we do what
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Perl does: advance the matching position by one, and continue. We do this by
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setting the "end of previous match" offset, because that is picked up at the
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top of the loop as the point at which to start again. */
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if (rc == PCRE_ERROR_NOMATCH)
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{
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if (options == 0) break;
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ovector[1] = start_offset + 1;
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continue; /* Go round the loop again */
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}
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/* Other matching errors are not recoverable. */
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if (rc < 0)
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{
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printf("Matching error %d\n", rc);
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return 1;
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}
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/* Match succeded */
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printf("\nMatch succeeded again at offset %d\n", ovector[0]);
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/* The match succeeded, but the output vector wasn't big enough. */
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if (rc == 0)
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{
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rc = OVECCOUNT/3;
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printf("ovector only has room for %d captured substrings\n", rc - 1);
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}
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/* As before, show substrings stored in the output vector by number, and then
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also any named substrings. */
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for (i = 0; i < rc; i++)
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{
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char *substring_start = subject + ovector[2*i];
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int substring_length = ovector[2*i+1] - ovector[2*i];
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printf("%2d: %.*s\n", i, substring_length, substring_start);
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}
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if (namecount <= 0) printf("No named substrings\n"); else
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{
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unsigned char *tabptr = name_table;
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printf("Named substrings\n");
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for (i = 0; i < namecount; i++)
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{
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int n = (tabptr[0] << 8) | tabptr[1];
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printf("(%d) %*s: %.*s\n", n, name_entry_size - 3, tabptr + 2,
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ovector[2*n+1] - ovector[2*n], subject + ovector[2*n]);
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tabptr += name_entry_size;
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}
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}
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} /* End of loop to find second and subsequent matches */
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printf("\n");
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return 0;
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}
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/* End of pcredemo.c */
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