gb/gb_regex.h

1009 lines
24 KiB
C

/* gb_regex.h - v0.01c - Regular Expressions Library - public domain
- no warranty implied; use at your own risk
This is a single header file with a bunch of useful stuff
to replace the C/C++ standard library
===========================================================================
YOU MUST
#define GB_REGEX_IMPLEMENTATION
in EXACTLY _one_ C or C++ file that includes this header, BEFORE the
include like this:
#define GB_REGEX_IMPLEMENTATION
#include "gb_regex.h"
All other files should just #include "gb_regex.h" without #define
===========================================================================
Version History:
0.01c - Capture length fix and little more documentation
0.01b - Code readjustment
0.01a - New \ codes and bug fixes
0.01 - Initial Version
LICENSE
This software is dual-licensed to the public domain and under the following
license: you are granted a perpetual, irrevocable license to copy, modify,
publish, and distribute this file as you see fit.
WARNING
- This library is _highly_ experimental and features may not work as expected.
- This also means that many functions are not documented.
NOTES
Supported Matching:
^ - Beginning of string
$ - End of string
. - Match one (anything)
| - Branch (or)
() - Capturing group
[] - Any character included in set
[^] - Any character excluded from set
+ - One or more (greedy)
+? - One or more (non-greedy)
* - Zero or more (greedy)
*? - Zero or more (non-greedy)
? - Zero or once
\XX - Hex decimal digit (must be 2 digits)
\meta - Meta character
\s - Whitespace
\S - Not whitespace
\d - Digit
\D - Not digit
\a - Alphabetic character
\l - Lower case letter
\u - Upper case letter
\w - Word
\W - Not word
\x - Hex Digit
\p - Printable ASCII character
--Whitespace--
\t - Tab
\n - New line
\r - Return carriage
\v - Vertical Tab
\f - Form feed
TODO
{m,n} - Ranges
(?:) - Non capturing groups
UTF-8 Support (or is ASCII good enough?)
CREDITS
Written by Ginger Bill
*/
#ifndef GB_REGEX_INCLUDE_GB_REGEX_H
#define GB_REGEX_INCLUDE_GB_REGEX_H
#include <stddef.h>
#include <stdarg.h>
#include <string.h>
#if defined(__cplusplus)
extern "C" {
#endif
/* NOTE(bill): Redefine for DLL, etc. */
#ifndef GBRE_DEF
#ifdef GBRE_STATIC
#define GBRE_DEF static
#else
#define GBRE_DEF extern
#endif
#endif
#if !defined(GBRE_NO_MALLOC)
#ifndef GBRE_MALLOC
#define GBRE_MALLOC(sz) malloc(sz)
#endif
#ifndef GBRE_REALLOC
#define GBRE_REALLOC(ptr, sz) realloc(ptr, sz)
#endif
#ifndef GBRE_FREE
#define GBRE_FREE(ptr) free(ptr)
#endif
#endif /* !defined(GBRE_NO_MALLOC) */
typedef ptrdiff_t isize; /* TODO(bill): Should this be replaced with int? */
typedef int gbreBool;
#define gbre_size_of(x) ((isize)sizeof(x))
#define GBRE_TRUE (0 == 0)
#define GBRE_FALSE (0 != 0)
typedef struct gbRegex {
isize capture_count;
unsigned char *buf;
isize buf_len, buf_cap;
gbreBool can_realloc;
} gbRegex;
typedef struct gbreCapture {
char const *str;
isize len;
} gbreCapture;
typedef enum gbreError {
GBRE_ERROR_NONE,
GBRE_ERROR_NO_MATCH,
GBRE_ERROR_TOO_LONG,
GBRE_ERROR_MISMATCHED_CAPTURES,
GBRE_ERROR_MISMATCHED_BLOCKS,
GBRE_ERROR_INVALID_QUANTIFIER,
GBRE_ERROR_BRANCH_FAILURE,
GBRE_ERROR_INTERNAL_FAILURE
} gbreError;
#if !defined(GBRE_NO_MALLOC)
GBRE_DEF gbreError gbre_compile (gbRegex *re, char const *pattern, isize pattern_len);
#endif
GBRE_DEF gbreError gbre_compile_from_buffer(gbRegex *re, char const *pattern, isize pattern_len, void *buffer, isize buffer_len);
GBRE_DEF void gbre_destroy (gbRegex *re);
GBRE_DEF isize gbre_capture_count (gbRegex *re); /* TODO(bill): Should this be a function or just get the "raw" variable? */
GBRE_DEF gbreBool gbre_match (gbRegex *re, char const *str, isize str_len, gbreCapture *captures, isize max_capture_count);
#if defined(__cplusplus)
}
#endif
#endif /* GB_REGEX_INCLUDE_GB_REGEX_H */
/****************************************************************
*
*
*
*
*
*
*
*
*
*
*
*
*
* Implementation
*
*
*
*
*
*
*
*
*
*
*
***************************************************************/
#if defined(GB_REGEX_IMPLEMENTATION) && !defined(GB_REGEX_IMPLEMENTATION_DONE)
#define GB_REGEX_IMPLEMENTATION_DONE
#if defined(__cplusplus)
extern "C" {
#endif
typedef enum gbreOp {
GBRE_OP_BEGIN_CAPTURE,
GBRE_OP_END_CAPTURE,
GBRE_OP_BEGINNING_OF_LINE,
GBRE_OP_END_OF_LINE,
GBRE_OP_EXACT_MATCH,
GBRE_OP_META_MATCH,
GBRE_OP_ANY,
GBRE_OP_ANY_OF,
GBRE_OP_ANY_BUT,
GBRE_OP_ZERO_OR_MORE,
GBRE_OP_ONE_OR_MORE,
GBRE_OP_ZERO_OR_MORE_SHORTEST,
GBRE_OP_ONE_OR_MORE_SHORTEST,
GBRE_OP_ZERO_OR_ONE,
GBRE_OP_BRANCH_START,
GBRE_OP_BRANCH_END
} gbreOp;
typedef enum gbreCode {
GBRE_CODE_NULL = 0x0000,
GBRE_CODE_WHITESPACE = 0x0100,
GBRE_CODE_NOT_WHITESPACE = 0x0200,
GBRE_CODE_DIGIT = 0x0300,
GBRE_CODE_NOT_DIGIT = 0x0400,
GBRE_CODE_ALPHA = 0x0500,
GBRE_CODE_LOWER = 0x0600,
GBRE_CODE_UPPER = 0x0700,
GBRE_CODE_WORD = 0x0800,
GBRE_CODE_NOT_WORD = 0x0900,
GBRE_CODE_XDIGIT = 0x0a00,
GBRE_CODE_PRINTABLE = 0x0b00,
} gbreCode;
typedef struct gbreContext {
isize op, offset;
} gbreContext;
enum { /* TODO(bill): Should these be defines or is an enum good enough? */
GBRE__NO_MATCH = -1,
GBRE__INTERNAL_FAILURE = -2
};
static char const GBRE__META_CHARS[] = "^$()[].*+?|\\";
static char const GBRE__WHITESPACE[] = " \r\t\n\v\f";
#define GBRE__LITERAL(str) (str), gbre_size_of(str)-1
static gbreContext gbre__exec_single(gbRegex *re, isize op, char const *str, isize str_len, isize offset,
gbreCapture *captures, isize max_capture_count);
static gbreContext gbre__exec(gbRegex *re, isize op, char const *str, isize str_len, isize offset,
gbreCapture *captures, isize max_capture_count);
static gbreContext
gbre__context_no_match(isize op)
{
gbreContext c;
c.op = op;
c.offset = GBRE__NO_MATCH;
return c;
}
static gbreContext
gbre__context_internal_failure(isize op)
{
gbreContext c;
c.op = op;
c.offset = GBRE__INTERNAL_FAILURE;
return c;
}
static gbreBool
gbre__is_hex(char const *s)
{
if ((s[0] < '0' || s[0] > '9') &&
(s[0] < 'a' || s[0] > 'f') &&
(s[0] < 'A' || s[0] > 'F')) {
return GBRE_FALSE;
}
if ((s[1] < '0' || s[1] > '9') &&
(s[1] < 'a' || s[1] > 'f') &&
(s[1] < 'A' || s[1] > 'F')) {
return GBRE_FALSE;
}
return GBRE_TRUE;
}
static unsigned char
gbre__hex_digit(char const *s)
{
if (s[0] >= '0' && s[0] <= '9')
return (unsigned char)(s[0] - '0');
if (s[0] >= 'a' && s[0] <= 'f')
return (unsigned char)(10 + s[0] - 'a');
if (s[0] >= 'A' && s[0] <= 'F')
return (unsigned char)(10 + s[0] - 'A');
return 0;
}
static unsigned char
gbre__hex(char const *s)
{
return ((gbre__hex_digit(s) << 4) & 0xf0) | (gbre__hex_digit(s+1) & 0x0f);
}
static isize
gbre__strfind(char const *str, isize len, char c, isize offset)
{
if (offset < len) {
char const *found = (char const *)memchr(str+offset, c, len-offset);
if (found)
return found-str;
}
return -1;
}
static gbreBool
gbre__match_escape(char c, int code)
{
switch (code) {
case GBRE_CODE_NULL: return c == 0;
case GBRE_CODE_WHITESPACE: return gbre__strfind(GBRE__LITERAL(GBRE__WHITESPACE), c, 0) >= 0;
case GBRE_CODE_NOT_WHITESPACE: return gbre__strfind(GBRE__LITERAL(GBRE__WHITESPACE), c, 0) < 0;
case GBRE_CODE_DIGIT: return (c >= '0' && c <= '9');
case GBRE_CODE_NOT_DIGIT: return !(c >= '0' && c <= '9');
case GBRE_CODE_ALPHA: return (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z');
case GBRE_CODE_LOWER: return (c >= 'a' && c <= 'z');
case GBRE_CODE_UPPER: return (c >= 'A' && c <= 'Z');
/* TODO(bill): Make better? */
case GBRE_CODE_WORD: return (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9') || c == '_';
case GBRE_CODE_NOT_WORD: return !((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9') || c == '_');
/* TODO(bill): Maybe replace with between tests? */
case GBRE_CODE_XDIGIT: return gbre__strfind(GBRE__LITERAL("0123456789ABCDEFabcdef"), c, 0) >= 0;
case GBRE_CODE_PRINTABLE: return c >= 0x20 && c <= 0x7e;
default: break;
}
return GBRE_FALSE;
}
static gbreContext
gbre__consume(gbRegex *re, isize op, char const *str, isize str_len, isize offset,
gbreCapture *captures, isize max_capture_count,
gbreBool is_greedy)
{
gbreContext c, best_c, next_c;
c.op = op;
c.offset = offset;
best_c.op = GBRE__NO_MATCH;
best_c.offset = offset;
next_c;
for (;;) {
c = gbre__exec_single(re, op, str, str_len, c.offset, 0, 0);
if (c.offset > str_len) break;
if (c.op >= re->buf_len) return c;
next_c = gbre__exec(re, c.op, str, str_len, c.offset, 0, 0);
if (next_c.offset <= str_len) {
if (captures)
gbre__exec(re, c.op, str, str_len, c.offset, captures, max_capture_count);
best_c = next_c;
if (!is_greedy) break;
}
}
if (best_c.op > re->buf_len)
best_c.op = c.op;
return best_c;
}
static gbreContext
gbre__exec_single(gbRegex *re, isize op, char const *str, isize str_len, isize offset,
gbreCapture *captures, isize max_capture_count)
{
gbreContext context;
isize buffer_len;
isize matchlen;
isize next_op;
isize skip;
switch (re->buf[op++]) {
case GBRE_OP_BEGIN_CAPTURE: {
unsigned char capture = re->buf[op++];
if (captures && (capture < max_capture_count))
captures[capture].str = str + offset;
} break;
case GBRE_OP_END_CAPTURE: {
unsigned char capture = re->buf[op++];
if (captures && (capture < max_capture_count))
captures[capture].len = (str+offset) - captures[capture].str;
} break;
case GBRE_OP_BEGINNING_OF_LINE: {
if (offset != 0)
return gbre__context_no_match(op);
} break;
case GBRE_OP_END_OF_LINE: {
if (offset != str_len)
return gbre__context_no_match(op);
} break;
case GBRE_OP_BRANCH_START: {
skip = re->buf[op++];
context = gbre__exec(re, op, str, str_len, offset, captures, max_capture_count);
if (context.offset <= str_len) {
offset = context.offset;
op = context.op;
} else {
context = gbre__exec(re, op + skip, str, str_len, offset, captures, max_capture_count);
offset = context.offset;
op = context.op;
}
} break;
case GBRE_OP_BRANCH_END: {
skip = re->buf[op++];
op += skip;
} break;
case GBRE_OP_ANY: {
if (offset < str_len) {
offset++;
break;
}
return gbre__context_no_match(op);
} break;
case GBRE_OP_ANY_OF: {
isize i;
char cin = str[offset];
buffer_len = re->buf[op++];
if (offset >= str_len)
return gbre__context_no_match(op + buffer_len);
for (i = 0; i < buffer_len; i++) {
char cmatch = (char)re->buf[op+i];
if (!cmatch) {
i++;
if (gbre__match_escape(cin, re->buf[op+i] << 8))
break;
} else if (cin == cmatch) {
break;
}
}
if (i == buffer_len)
return gbre__context_no_match(op + buffer_len);
offset++;
op += buffer_len;
} break;
case GBRE_OP_ANY_BUT: {
isize i;
char cin = str[offset];
buffer_len = re->buf[op++];
if (offset >= str_len)
return gbre__context_no_match(op + buffer_len);
for (i = 0; i < buffer_len; i++) {
char cmatch = (char)re->buf[op + i];
if (!cmatch) {
i++;
if (gbre__match_escape(cin, re->buf[op+i] << 8))
return gbre__context_no_match(op + buffer_len);
} else if (cin == cmatch) {
return gbre__context_no_match(op + buffer_len);
}
}
offset++;
op += buffer_len;
} break;
case GBRE_OP_EXACT_MATCH: {
matchlen = re->buf[op++];
if ((matchlen > (str_len-offset)) ||
strncmp(str+offset, (const char*)re->buf + op, matchlen) != 0)
return gbre__context_no_match(op + matchlen);
op += matchlen;
offset += matchlen;
} break;
case GBRE_OP_META_MATCH: {
char cin = (char)re->buf[op++];
char cmatch = str[offset++];
if (!cin) {
if (gbre__match_escape(cmatch, re->buf[op++] << 8))
break;
} else if (cin == cmatch) {
break;
}
return gbre__context_no_match(op);
} break;
case GBRE_OP_ZERO_OR_MORE: {
context = gbre__consume(re, op, str, str_len, offset, captures, max_capture_count, GBRE_TRUE);
offset = context.offset;
op = context.op;
} break;
case GBRE_OP_ONE_OR_MORE: {
context = gbre__exec_single(re, op, str, str_len, offset, captures, max_capture_count);
if (context.offset > str_len)
return context;
context = gbre__consume(re, op, str, str_len, context.offset, captures, max_capture_count, GBRE_TRUE);
offset = context.offset;
op = context.op;
} break;
case GBRE_OP_ZERO_OR_MORE_SHORTEST: {
context = gbre__consume(re, op, str, str_len, offset, captures, max_capture_count, GBRE_FALSE);
offset = context.offset;
op = context.op;
} break;
case GBRE_OP_ONE_OR_MORE_SHORTEST: {
context = gbre__exec_single(re, op, str, str_len, offset, captures, max_capture_count);
if (context.offset > str_len)
return context;
context = gbre__consume(re, op, str, str_len, context.offset, captures, max_capture_count, GBRE_FALSE);
offset = context.offset;
op = context.op;
} break;
case GBRE_OP_ZERO_OR_ONE: {
context = gbre__exec_single(re, op, str, str_len, offset, captures, max_capture_count);
if (context.offset <= str_len) {
gbreContext maybe_context = gbre__exec(re, context.op, str, str_len, context.offset,
captures, max_capture_count);
if (maybe_context.offset <= str_len) {
op = maybe_context.op;
offset = maybe_context.offset;
break;
}
}
next_op = context.op;
context = gbre__exec(re, next_op, str, str_len, offset, captures, max_capture_count);
if (context.offset <= str_len) {
op = context.op;
offset = context.offset;
break;
}
return gbre__context_no_match(next_op);
} break;
default: {
/* NOTE(bill): Not supported, FUCK!!! */
return gbre__context_internal_failure(op);
} break;
}
context.op = op;
context.offset = offset;
return context;
}
static gbreContext
gbre__exec(gbRegex *re, isize op, char const *str, isize str_len, isize offset,
gbreCapture *captures, isize max_capture_count)
{
gbreContext c;
c.op = op;
c.offset = offset;
while (c.op < re->buf_len) {
c = gbre__exec_single(re, c.op, str, str_len, c.offset, captures, max_capture_count);
if (c.offset > str_len)
break;
}
return c;
}
static gbreError
gbre__emit_ops(gbRegex *re, isize op_count, ...)
{
isize i;
va_list va;
if (re->buf_len + op_count > re->buf_cap) {
if (!re->can_realloc) {
return GBRE_ERROR_TOO_LONG;
} else {
#if !defined(GBRE_NO_MALLOC)
isize new_cap = (re->buf_cap * 2) + op_count;
re->buf = (unsigned char *)GBRE_REALLOC(re->buf, new_cap);
re->buf_cap = new_cap;
#else
#error GBRE_NO_MALLOC defined
#endif
}
}
va_start(va, op_count);
for (i = 0; i < op_count; i++) {
int value = va_arg(va, int);
if (value > 256)
return GBRE_ERROR_TOO_LONG;
re->buf[re->buf_len++] = (unsigned char)value;
}
va_end(va);
return GBRE_ERROR_NONE;
}
static gbreError
gbre__emit_ops_buffer(gbRegex *re, isize op_count, unsigned char const *buffer)
{
isize i;
if (re->buf_len + op_count > re->buf_cap) {
if (!re->can_realloc) {
return GBRE_ERROR_TOO_LONG;
} else {
#if !defined(GBRE_NO_MALLOC)
isize new_cap = (re->buf_cap * 2) + op_count;
re->buf = (unsigned char *)GBRE_REALLOC(re->buf, new_cap);
re->buf_cap = new_cap;
#else
#error GBRE_NO_MALLOC defined
#endif
}
}
for (i = 0; i < op_count; i++) {
re->buf[re->buf_len++] = buffer[i];
}
return GBRE_ERROR_NONE;
}
static int
gbre__encode_espace(char code)
{
switch (code) {
default: break; /* NOTE(bill): It's a normal character */
/* TODO(bill): Are there anymore? */
case 't': return '\t';
case 'n': return '\n';
case 'r': return '\r';
case 'f': return '\f';
case 'v': return '\v';
case '0': return GBRE_CODE_NULL;
case 's': return GBRE_CODE_WHITESPACE;
case 'S': return GBRE_CODE_NOT_WHITESPACE;
case 'd': return GBRE_CODE_DIGIT;
case 'D': return GBRE_CODE_NOT_DIGIT;
case 'a': return GBRE_CODE_ALPHA;
case 'l': return GBRE_CODE_LOWER;
case 'u': return GBRE_CODE_UPPER;
case 'w': return GBRE_CODE_WORD;
case 'W': return GBRE_CODE_NOT_WORD;
case 'x': return GBRE_CODE_XDIGIT;
case 'p': return GBRE_CODE_PRINTABLE;
}
return code;
}
static gbreError
gbre__parse_group(gbRegex *re, char const *pattern, isize len, isize offset, isize *new_offset)
{
gbreError err = GBRE_ERROR_NONE;
unsigned char buffer[256] = {0}; /* NOTE(bill): ascii is only 7/8 bits */
isize buffer_len = 0, buffer_cap = gbre_size_of(buffer);
gbreBool closed = GBRE_FALSE;
gbreOp op = GBRE_OP_ANY_OF;
if (pattern[offset] == '^') {
offset++;
op = GBRE_OP_ANY_BUT;
}
while (!closed &&
err == GBRE_ERROR_NONE &&
offset < len) {
if (pattern[offset] == ']') {
err = gbre__emit_ops(re, 2, (int)op, (int)buffer_len);
if (err) break;
err = gbre__emit_ops_buffer(re, buffer_len, buffer);
if (buffer && err) break;
offset++;
closed = GBRE_TRUE;
break;
}
if (buffer_len >= buffer_cap)
return GBRE_ERROR_TOO_LONG;
if (pattern[offset] == '\\') {
offset++;
if ((offset+1 < len) && gbre__is_hex(pattern+offset)) {
buffer[buffer_len++] = gbre__hex(pattern+offset);
offset++;
} else if (offset < len) {
int code = gbre__encode_espace(pattern[offset]);
if (!code || code > 0xff) {
buffer[buffer_len++] = 0;
if (buffer_len >= buffer_cap)
return GBRE_ERROR_TOO_LONG;
buffer[buffer_len++] = (code >> 8) & 0xff;
} else {
buffer[buffer_len++] = code & 0xff;
}
}
} else {
buffer[buffer_len++] = (unsigned char)pattern[offset];
}
offset++;
}
if (err) return err;
if (!closed) return GBRE_ERROR_MISMATCHED_BLOCKS;
if (new_offset) *new_offset = offset;
return GBRE_ERROR_NONE;
}
static gbreError
gbre__compile_quantifier(gbRegex *re, isize last_buf_len, unsigned char quantifier)
{
gbreError err;
isize move_size;
if ((re->buf[last_buf_len] == GBRE_OP_EXACT_MATCH) &&
(re->buf[last_buf_len+1] > 1)) {
unsigned char last_char = re->buf[re->buf_len-1];
re->buf[last_buf_len+1]--;
re->buf_len--;
err = gbre__emit_ops(re, 4, (int)quantifier, (int)GBRE_OP_EXACT_MATCH, 1, (int)last_char);
if (err) return err;
return GBRE_ERROR_NONE;
}
move_size = re->buf_len - last_buf_len + 1;
err = gbre__emit_ops(re, 1, 0);
if (err) return err;
memmove(re->buf+last_buf_len+1, re->buf+last_buf_len, move_size);
re->buf[last_buf_len] = quantifier;
return GBRE_ERROR_NONE;
}
static gbreError
gbre__parse(gbRegex *re, char const *pattern, isize len, isize offset, isize level, isize *new_offset)
{
gbreError err = GBRE_ERROR_NONE;
isize last_buf_len = re->buf_len;
isize branch_begin = re->buf_len;
isize branch_op = -1;
while (offset < len) {
switch (pattern[offset++]) {
case '^': {
err = gbre__emit_ops(re, 1, GBRE_OP_BEGINNING_OF_LINE);
if (err) return err;
} break;
case '$': {
err = gbre__emit_ops(re, 1, GBRE_OP_END_OF_LINE);
if (err) return err;
} break;
case '(': {
isize capture = re->capture_count++;
last_buf_len = re->buf_len;
err = gbre__emit_ops(re, 2, GBRE_OP_BEGIN_CAPTURE, (int)capture);
if (err) return err;
err = gbre__parse(re, pattern, len, offset, level+1, &offset);
if ((offset > len) || (pattern[offset-1] != ')'))
return GBRE_ERROR_MISMATCHED_CAPTURES;
err = gbre__emit_ops(re, 2, GBRE_OP_END_CAPTURE, (int)capture);
if (err) return err;
} break;
case ')': {
if (branch_op != -1)
re->buf[branch_op + 1] = (unsigned char)(re->buf_len - (branch_op+2));
if (level == 0)
return GBRE_ERROR_MISMATCHED_CAPTURES;
if (new_offset) *new_offset = offset;
return GBRE_ERROR_NONE;
} break;
case '[': {
last_buf_len = re->buf_len;
err = gbre__parse_group(re, pattern, len, offset, &offset);
if (offset > len)
return err;
} break;
/* NOTE(bill): Branching magic! */
case '|': {
if (branch_begin >= re->buf_len) {
return GBRE_ERROR_BRANCH_FAILURE;
} else {
isize size = re->buf_len - branch_begin;
err = gbre__emit_ops(re, 4, 0, 0, GBRE_OP_BRANCH_END, 0);
if (err) return err;
memmove(re->buf + branch_begin + 2, re->buf + branch_begin, size);
re->buf[branch_begin] = GBRE_OP_BRANCH_START;
re->buf[branch_begin+1] = (size+2) & 0xff;
branch_op = re->buf_len-2;
}
} break;
case '.': {
last_buf_len = re->buf_len;
err = gbre__emit_ops(re, 1, GBRE_OP_ANY);
if (err) return err;
} break;
case '*':
case '+':
{
unsigned char quantifier = GBRE_OP_ONE_OR_MORE;
if (pattern[offset-1] == '*')
quantifier = GBRE_OP_ZERO_OR_MORE;
if (last_buf_len >= re->buf_len)
return GBRE_ERROR_INVALID_QUANTIFIER;
if ((re->buf[last_buf_len] < GBRE_OP_EXACT_MATCH) ||
(re->buf[last_buf_len] > GBRE_OP_ANY_BUT))
return GBRE_ERROR_INVALID_QUANTIFIER;
if ((offset < len) && (pattern[offset] == '?')) {
quantifier = GBRE_OP_ONE_OR_MORE_SHORTEST;
if (quantifier == GBRE_OP_ZERO_OR_MORE)
quantifier = GBRE_OP_ZERO_OR_MORE_SHORTEST;
offset++;
}
err = gbre__compile_quantifier(re, last_buf_len, quantifier);
if (err) return err;
} break;
case '?': {
if (last_buf_len >= re->buf_len)
return GBRE_ERROR_INVALID_QUANTIFIER;
if ((re->buf[last_buf_len] < GBRE_OP_EXACT_MATCH) ||
(re->buf[last_buf_len] > GBRE_OP_ANY_BUT))
return GBRE_ERROR_INVALID_QUANTIFIER;
err = gbre__compile_quantifier(re, last_buf_len,
(unsigned char)GBRE_OP_ZERO_OR_ONE);
if (err) return err;
} break;
case '\\': {
last_buf_len = re->buf_len;
if ((offset+1 < len) && gbre__is_hex(pattern+offset)) {
unsigned char hex_value = gbre__hex(pattern+offset);
offset += 2;
err = gbre__emit_ops(re, 2, GBRE_OP_META_MATCH, (int)hex_value);
if (err) return err;
} else if (offset < len) {
int code = gbre__encode_espace(pattern[offset++]);
if (!code || (code > 0xff)) {
err = gbre__emit_ops(re, 3, GBRE_OP_META_MATCH, 0, (int)((code >> 8) & 0xff));
if (err) return err;
} else {
err = gbre__emit_ops(re, 2, GBRE_OP_META_MATCH, (int)code);
if (err) return err;
}
}
} break;
/* NOTE(bill): Exact match */
default: {
char const *match_start;
isize size = 0;
offset--;
match_start = pattern+offset;
while ((offset < len) &&
(gbre__strfind(GBRE__LITERAL(GBRE__META_CHARS), pattern[offset], 0) < 0)) {
size++, offset++;
}
last_buf_len = re->buf_len;
err = gbre__emit_ops(re, 2, GBRE_OP_EXACT_MATCH, (int)size);
if (err) return err;
err = gbre__emit_ops_buffer(re, size, (unsigned char const *)match_start);
if (err) return err;
} break;
}
}
if (new_offset) *new_offset = offset;
return GBRE_ERROR_NONE;
}
gbreError
gbre_compile_from_buffer(gbRegex *re, char const *pattern, isize pattern_len, void *buffer, isize buffer_len)
{
gbreError err;
re->capture_count = 0;
re->buf = (unsigned char *)buffer;
re->buf_len = 0;
re->buf_cap = buffer_len;
re->can_realloc = GBRE_FALSE;
err = gbre__parse(re, pattern, pattern_len, 0, 0, 0);
return err;
}
#if !defined(GBRE_NO_MALLOC)
gbreError
gbre_compile(gbRegex *re, char const *pattern, isize len)
{
gbreError err;
isize cap = len+128;
isize offset = 0;
re->capture_count = 0;
re->buf = (unsigned char *)GBRE_MALLOC(cap);
re->buf_len = 0;
re->buf_cap = cap;
re->can_realloc = GBRE_TRUE;
err = gbre__parse(re, pattern, len, 0, 0, &offset);
if (offset != len)
GBRE_FREE(re->buf);
return err;
}
#endif
void gbre_destroy(gbRegex *re)
{
(void)gbre_size_of(re);
#if !defined(GBRE_NO_MALLOC)
if (re->can_realloc && re->buf) {
GBRE_FREE(re->buf);
re->buf = NULL;
}
#endif
}
isize gbre_capture_count(gbRegex *re) { return re->capture_count; }
gbreBool
gbre_match(gbRegex *re, char const *str, isize len, gbreCapture *captures, isize max_capture_count)
{
if (re && re->buf_len > 0) {
if (re->buf[0] == GBRE_OP_BEGINNING_OF_LINE) {
gbreContext c = gbre__exec(re, 0, str, len, 0, captures, max_capture_count);
if (c.offset >= 0 && c.offset <= len) return GBRE_TRUE;
if (c.offset == GBRE__INTERNAL_FAILURE) return GBRE_FALSE;
} else {
isize i;
for (i = 0; i < len; i++) {
gbreContext c = gbre__exec(re, 0, str, len, i, captures, max_capture_count);
if (c.offset >= 0 && c.offset <= len) return GBRE_TRUE;
if (c.offset == GBRE__INTERNAL_FAILURE) return GBRE_FALSE;
}
}
return GBRE_FALSE;
}
return GBRE_TRUE;
}
#if defined(__cplusplus)
}
#endif
#endif /* GB_REGEX_IMPLEMENTATION */