/* +----------------------------------------------------------------------+ | PHP Version 5 | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Ed Batutis | +----------------------------------------------------------------------+ */ /* {{{ includes */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "grapheme.h" #include "grapheme_util.h" #include #include #include #include #include "ext/standard/php_string.h" /* }}} */ #define GRAPHEME_EXTRACT_TYPE_COUNT 0 #define GRAPHEME_EXTRACT_TYPE_MAXBYTES 1 #define GRAPHEME_EXTRACT_TYPE_MAXCHARS 2 #define GRAPHEME_EXTRACT_TYPE_MIN GRAPHEME_EXTRACT_TYPE_COUNT #define GRAPHEME_EXTRACT_TYPE_MAX GRAPHEME_EXTRACT_TYPE_MAXCHARS /* {{{ grapheme_register_constants * Register API constants */ void grapheme_register_constants( INIT_FUNC_ARGS ) { REGISTER_LONG_CONSTANT("GRAPHEME_EXTR_COUNT", GRAPHEME_EXTRACT_TYPE_COUNT, CONST_CS | CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GRAPHEME_EXTR_MAXBYTES", GRAPHEME_EXTRACT_TYPE_MAXBYTES, CONST_CS | CONST_PERSISTENT); REGISTER_LONG_CONSTANT("GRAPHEME_EXTR_MAXCHARS", GRAPHEME_EXTRACT_TYPE_MAXCHARS, CONST_CS | CONST_PERSISTENT); } /* }}} */ /* {{{ proto int grapheme_strlen(string str) Get number of graphemes in a string */ PHP_FUNCTION(grapheme_strlen) { unsigned char* string; int string_len; UChar* ustring = NULL; int ustring_len = 0; int ret_len; UErrorCode status; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "s", (char **)&string, &string_len) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strlen: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } ret_len = grapheme_ascii_check(string, string_len); if ( ret_len >= 0 ) RETURN_LONG(ret_len); /* convert the string to UTF-16. */ status = U_ZERO_ERROR; intl_convert_utf8_to_utf16(&ustring, &ustring_len, (char*) string, string_len, &status ); if ( U_FAILURE( status ) ) { /* Set global error code. */ intl_error_set_code( NULL, status TSRMLS_CC ); /* Set error messages. */ intl_error_set_custom_msg( NULL, "Error converting input string to UTF-16", 0 TSRMLS_CC ); if (ustring) { efree( ustring ); } RETURN_NULL(); } ret_len = grapheme_split_string(ustring, ustring_len, NULL, 0 TSRMLS_CC ); if (ustring) { efree( ustring ); } if (ret_len >= 0) { RETVAL_LONG(ret_len); } else { RETVAL_FALSE; } } /* }}} */ /* {{{ proto int grapheme_strpos(string haystack, string needle [, int offset ]) Find position of first occurrence of a string within another */ PHP_FUNCTION(grapheme_strpos) { unsigned char *haystack, *needle; int haystack_len, needle_len; unsigned char *found; long loffset = 0; int32_t offset = 0; int ret_pos, uchar_pos; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss|l", (char **)&haystack, &haystack_len, (char **)&needle, &needle_len, &loffset) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( OUTSIDE_STRING(loffset, haystack_len) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Offset not contained in string", 1 TSRMLS_CC ); RETURN_FALSE; } /* we checked that it will fit: */ offset = (int32_t) loffset; /* the offset is 'grapheme count offset' so it still might be invalid - we'll check it later */ if (needle_len == 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Empty delimiter", 1 TSRMLS_CC ); RETURN_FALSE; } /* quick check to see if the string might be there * I realize that 'offset' is 'grapheme count offset' but will work in spite of that */ found = (unsigned char *)php_memnstr((char *)haystack + offset, (char *)needle, needle_len, (char *)haystack + haystack_len); /* if it isn't there the we are done */ if (!found) { RETURN_FALSE; } /* if it is there, and if the haystack is ascii, we are all done */ if ( grapheme_ascii_check(haystack, haystack_len) >= 0 ) { RETURN_LONG(found - haystack); } /* do utf16 part of the strpos */ ret_pos = grapheme_strpos_utf16(haystack, haystack_len, needle, needle_len, offset, &uchar_pos, 0 /* fIgnoreCase */ TSRMLS_CC ); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos + offset); } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto int grapheme_stripos(string haystack, string needle [, int offset ]) Find position of first occurrence of a string within another, ignoring case differences */ PHP_FUNCTION(grapheme_stripos) { unsigned char *haystack, *needle, *haystack_dup, *needle_dup; int haystack_len, needle_len; unsigned char *found; long loffset = 0; int32_t offset = 0; int ret_pos, uchar_pos; int is_ascii; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss|l", (char **)&haystack, &haystack_len, (char **)&needle, &needle_len, &loffset) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_stripos: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( OUTSIDE_STRING(loffset, haystack_len) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_stripos: Offset not contained in string", 1 TSRMLS_CC ); RETURN_FALSE; } /* we checked that it will fit: */ offset = (int32_t) loffset; /* the offset is 'grapheme count offset' so it still might be invalid - we'll check it later */ if (needle_len == 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_stripos: Empty delimiter", 1 TSRMLS_CC ); RETURN_FALSE; } is_ascii = ( grapheme_ascii_check(haystack, haystack_len) >= 0 ); if ( is_ascii ) { needle_dup = (unsigned char *)estrndup((char *)needle, needle_len); php_strtolower((char *)needle_dup, needle_len); haystack_dup = (unsigned char *)estrndup((char *)haystack, haystack_len); php_strtolower((char *)haystack_dup, haystack_len); found = (unsigned char*) php_memnstr((char *)haystack_dup + offset, (char *)needle_dup, needle_len, (char *)haystack_dup + haystack_len); efree(haystack_dup); efree(needle_dup); if (found) { RETURN_LONG(found - haystack_dup); } /* if needle was ascii too, we are all done, otherwise we need to try using Unicode to see what we get */ if ( grapheme_ascii_check(needle, needle_len) >= 0 ) { RETURN_FALSE; } } /* do utf16 part of the strpos */ ret_pos = grapheme_strpos_utf16(haystack, haystack_len, needle, needle_len, offset, &uchar_pos, 1 /* fIgnoreCase */ TSRMLS_CC ); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos + offset); } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto int grapheme_strrpos(string haystack, string needle [, int offset]) Find position of last occurrence of a string within another */ PHP_FUNCTION(grapheme_strrpos) { unsigned char *haystack, *needle; int haystack_len, needle_len; long loffset = 0; int32_t offset = 0; int32_t ret_pos; int is_ascii; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss|l", (char **)&haystack, &haystack_len, (char **)&needle, &needle_len, &loffset) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strrpos: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( OUTSIDE_STRING(loffset, haystack_len) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Offset not contained in string", 1 TSRMLS_CC ); RETURN_FALSE; } /* we checked that it will fit: */ offset = (int32_t) loffset; /* the offset is 'grapheme count offset' so it still might be invalid - we'll check it later */ if (needle_len == 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Empty delimiter", 1 TSRMLS_CC ); RETURN_FALSE; } is_ascii = grapheme_ascii_check(haystack, haystack_len) >= 0; if ( is_ascii ) { ret_pos = grapheme_strrpos_ascii(haystack, haystack_len, needle, needle_len, offset); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos); } /* if the needle was ascii too, we are done */ if ( grapheme_ascii_check(needle, needle_len) >= 0 ) { RETURN_FALSE; } /* else we need to continue via utf16 */ } ret_pos = grapheme_strrpos_utf16(haystack, haystack_len, needle, needle_len, offset, 0 /* f_ignore_case */ TSRMLS_CC); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos); } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto int grapheme_strripos(string haystack, string needle [, int offset]) Find position of last occurrence of a string within another, ignoring case */ PHP_FUNCTION(grapheme_strripos) { unsigned char *haystack, *needle; int haystack_len, needle_len; long loffset = 0; int32_t offset = 0; int32_t ret_pos; int is_ascii; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss|l", (char **)&haystack, &haystack_len, (char **)&needle, &needle_len, &loffset) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strrpos: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( OUTSIDE_STRING(loffset, haystack_len) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Offset not contained in string", 1 TSRMLS_CC ); RETURN_FALSE; } /* we checked that it will fit: */ offset = (int32_t) loffset; /* the offset is 'grapheme count offset' so it still might be invalid - we'll check it later */ if (needle_len == 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Empty delimiter", 1 TSRMLS_CC ); RETURN_FALSE; } is_ascii = grapheme_ascii_check(haystack, haystack_len) >= 0; if ( is_ascii ) { unsigned char *needle_dup, *haystack_dup; needle_dup = (unsigned char *)estrndup((char *)needle, needle_len); php_strtolower((char *)needle_dup, needle_len); haystack_dup = (unsigned char *)estrndup((char *)haystack, haystack_len); php_strtolower((char *)haystack_dup, haystack_len); ret_pos = grapheme_strrpos_ascii(haystack_dup, haystack_len, needle_dup, needle_len, offset); efree(haystack_dup); efree(needle_dup); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos); } /* if the needle was ascii too, we are done */ if ( grapheme_ascii_check(needle, needle_len) >= 0 ) { RETURN_FALSE; } /* else we need to continue via utf16 */ } ret_pos = grapheme_strrpos_utf16(haystack, haystack_len, needle, needle_len, offset, 1 /* f_ignore_case */ TSRMLS_CC); if ( ret_pos >= 0 ) { RETURN_LONG(ret_pos); } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto string grapheme_substr(string str, int start [, int length]) Returns part of a string */ PHP_FUNCTION(grapheme_substr) { unsigned char *str, *sub_str; UChar *ustr; int str_len, sub_str_len, ustr_len; long lstart = 0, length = 0; int32_t start = 0; int iter_val; UErrorCode status; unsigned char u_break_iterator_buffer[U_BRK_SAFECLONE_BUFFERSIZE]; UBreakIterator* bi = NULL; int sub_str_start_pos, sub_str_end_pos; int32_t (*iter_func)(UBreakIterator *); if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "sl|l", (char **)&str, &str_len, &lstart, &length) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_substr: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( OUTSIDE_STRING(lstart, str_len) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_substr: start not contained in string", 1 TSRMLS_CC ); RETURN_FALSE; } /* we checked that it will fit: */ start = (int32_t) lstart; /* the offset is 'grapheme count offset' so it still might be invalid - we'll check it later */ if ( grapheme_ascii_check(str, str_len) >= 0 ) { grapheme_substr_ascii((char *)str, str_len, start, length, ZEND_NUM_ARGS(), (char **) &sub_str, &sub_str_len); if ( NULL == sub_str ) { RETURN_FALSE; } RETURN_STRINGL(((char *)sub_str), sub_str_len, 1); } ustr = NULL; ustr_len = 0; status = U_ZERO_ERROR; intl_convert_utf8_to_utf16(&ustr, &ustr_len, (char *)str, str_len, &status); if ( U_FAILURE( status ) ) { /* Set global error code. */ intl_error_set_code( NULL, status TSRMLS_CC ); /* Set error messages. */ intl_error_set_custom_msg( NULL, "Error converting input string to UTF-16", 0 TSRMLS_CC ); if (ustr) { efree( ustr ); } RETURN_FALSE; } bi = grapheme_get_break_iterator((void*)u_break_iterator_buffer, &status TSRMLS_CC ); if( U_FAILURE(status) ) { RETURN_FALSE; } ubrk_setText(bi, ustr, ustr_len, &status); if ( start < 0 ) { iter_func = ubrk_previous; ubrk_last(bi); iter_val = 1; } else { iter_func = ubrk_next; iter_val = -1; } sub_str_start_pos = 0; while ( start ) { sub_str_start_pos = iter_func(bi); if ( UBRK_DONE == sub_str_start_pos ) { break; } start += iter_val; } if ( 0 != start || sub_str_start_pos >= ustr_len ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_substr: start not contained in string", 1 TSRMLS_CC ); if (ustr) { efree(ustr); } ubrk_close(bi); RETURN_FALSE; } if (ZEND_NUM_ARGS() <= 2) { /* no length supplied, return the rest of the string */ sub_str = NULL; sub_str_len = 0; status = U_ZERO_ERROR; intl_convert_utf16_to_utf8((char **)&sub_str, &sub_str_len, ustr + sub_str_start_pos, ustr_len - sub_str_start_pos, &status); if (ustr) { efree( ustr ); } ubrk_close( bi ); if ( U_FAILURE( status ) ) { /* Set global error code. */ intl_error_set_code( NULL, status TSRMLS_CC ); /* Set error messages. */ intl_error_set_custom_msg( NULL, "Error converting output string to UTF-8", 0 TSRMLS_CC ); if (sub_str) { efree( sub_str ); } RETURN_FALSE; } /* return the allocated string, not a duplicate */ RETURN_STRINGL(((char *)sub_str), sub_str_len, 0); } /* find the end point of the string to return */ if ( length < 0 ) { iter_func = ubrk_previous; ubrk_last(bi); iter_val = 1; } else { iter_func = ubrk_next; iter_val = -1; } sub_str_end_pos = 0; while ( length ) { sub_str_end_pos = iter_func(bi); if ( UBRK_DONE == sub_str_end_pos ) { break; } length += iter_val; } if ( UBRK_DONE == sub_str_end_pos && length < 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_substr: length not contained in string", 1 TSRMLS_CC ); efree(ustr); ubrk_close(bi); RETURN_FALSE; } sub_str = NULL; status = U_ZERO_ERROR; intl_convert_utf16_to_utf8((char **)&sub_str, &sub_str_len, ustr + sub_str_start_pos, ( sub_str_end_pos - sub_str_start_pos ), &status); efree( ustr ); ubrk_close( bi ); if ( U_FAILURE( status ) ) { /* Set global error code. */ intl_error_set_code( NULL, status TSRMLS_CC ); /* Set error messages. */ intl_error_set_custom_msg( NULL, "Error converting output string to UTF-8", 0 TSRMLS_CC ); if ( NULL != sub_str ) efree( sub_str ); RETURN_FALSE; } /* return the allocated string, not a duplicate */ RETURN_STRINGL(((char *)sub_str), sub_str_len, 0); } /* }}} */ /* {{{ strstr_common_handler */ static void strstr_common_handler(INTERNAL_FUNCTION_PARAMETERS, int f_ignore_case) { unsigned char *haystack, *needle, *found; int haystack_len, needle_len; int ret_pos, uchar_pos; zend_bool part = 0; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss|b", (char **)&haystack, &haystack_len, (char **)&needle, &needle_len, &part) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strstr: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if (needle_len == 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_strpos: Empty delimiter", 1 TSRMLS_CC ); RETURN_FALSE; } if ( !f_ignore_case ) { /* ASCII optimization: quick check to see if the string might be there * I realize that 'offset' is 'grapheme count offset' but will work in spite of that */ found = (unsigned char *)php_memnstr((char *)haystack, (char *)needle, needle_len, (char *)haystack + haystack_len); /* if it isn't there the we are done */ if ( !found ) { RETURN_FALSE; } /* if it is there, and if the haystack is ascii, we are all done */ if ( grapheme_ascii_check(haystack, haystack_len) >= 0 ) { size_t found_offset = found - haystack; if (part) { RETURN_STRINGL(((char *)haystack) , found_offset, 1); } else { RETURN_STRINGL(((char *)found), haystack_len - found_offset, 1); } } } /* need to work in utf16 */ ret_pos = grapheme_strpos_utf16(haystack, haystack_len, needle, needle_len, 0, &uchar_pos, f_ignore_case TSRMLS_CC ); if ( ret_pos < 0 ) { RETURN_FALSE; } /* uchar_pos is the 'nth' Unicode character position of the needle */ ret_pos = 0; U8_FWD_N(haystack, ret_pos, haystack_len, uchar_pos); if (part) { RETURN_STRINGL(((char *)haystack), ret_pos, 1); } else { RETURN_STRINGL(((char *)haystack) + ret_pos, haystack_len - ret_pos, 1); } } /* }}} */ /* {{{ proto string grapheme_strstr(string haystack, string needle[, bool part]) Finds first occurrence of a string within another */ PHP_FUNCTION(grapheme_strstr) { strstr_common_handler(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0 /* f_ignore_case */); } /* }}} */ /* {{{ proto string grapheme_stristr(string haystack, string needle[, bool part]) Finds first occurrence of a string within another */ PHP_FUNCTION(grapheme_stristr) { strstr_common_handler(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1 /* f_ignore_case */); } /* }}} */ /* {{{ grapheme_extract_charcount_iter - grapheme iterator for grapheme_extract MAXCHARS */ static inline int32_t grapheme_extract_charcount_iter(UBreakIterator *bi, int32_t csize, unsigned char *pstr, int32_t str_len) { int pos = 0, prev_pos = 0; int ret_pos = 0, prev_ret_pos = 0; while ( 1 ) { pos = ubrk_next(bi); if ( UBRK_DONE == pos ) { break; } /* if we are beyond our limit, then the loop is done */ if ( pos > csize ) { break; } /* update our pointer in the original UTF-8 buffer by as many characters as ubrk_next iterated over */ prev_ret_pos = ret_pos; U8_FWD_N(pstr, ret_pos, str_len, pos - prev_pos); if ( prev_ret_pos == ret_pos ) { /* something wrong - malformed utf8? */ break; } prev_pos = pos; } return ret_pos; } /* }}} */ /* {{{ grapheme_extract_bytecount_iter - grapheme iterator for grapheme_extract MAXBYTES */ static inline int32_t grapheme_extract_bytecount_iter(UBreakIterator *bi, int32_t bsize, unsigned char *pstr, int32_t str_len) { int pos = 0, prev_pos = 0; int ret_pos = 0, prev_ret_pos = 0; while ( 1 ) { pos = ubrk_next(bi); if ( UBRK_DONE == pos ) { break; } prev_ret_pos = ret_pos; U8_FWD_N(pstr, ret_pos, str_len, pos - prev_pos); if ( ret_pos > bsize ) { ret_pos = prev_ret_pos; break; } if ( prev_ret_pos == ret_pos ) { /* something wrong - malformed utf8? */ break; } prev_pos = pos; } return ret_pos; } /* }}} */ /* {{{ grapheme_extract_count_iter - grapheme iterator for grapheme_extract COUNT */ static inline int32_t grapheme_extract_count_iter(UBreakIterator *bi, int32_t size, unsigned char *pstr, int32_t str_len) { int pos = 0, next_pos = 0; int ret_pos = 0; while ( size ) { next_pos = ubrk_next(bi); if ( UBRK_DONE == next_pos ) { break; } pos = next_pos; size--; } /* pos is one past the last UChar - and represent the number of code units to advance in the utf-8 buffer */ U8_FWD_N(pstr, ret_pos, str_len, pos); return ret_pos; } /* }}} */ /* {{{ grapheme extract iter function pointer array */ typedef int32_t (*grapheme_extract_iter)(UBreakIterator * /*bi*/, int32_t /*size*/, unsigned char * /*pstr*/, int32_t /*str_len*/); static grapheme_extract_iter grapheme_extract_iters[] = { &grapheme_extract_count_iter, &grapheme_extract_bytecount_iter, &grapheme_extract_charcount_iter, }; /* }}} */ /* {{{ proto string grapheme_extract(string str, int size[, int extract_type[, int start[, int next]]]) Function to extract a sequence of default grapheme clusters */ PHP_FUNCTION(grapheme_extract) { unsigned char *str, *pstr; UChar *ustr; int str_len, ustr_len; long size; /* maximum number of grapheme clusters, bytes, or characters (based on extract_type) to return */ long lstart = 0; /* starting position in str in bytes */ int32_t start = 0; long extract_type = GRAPHEME_EXTRACT_TYPE_COUNT; UErrorCode status; unsigned char u_break_iterator_buffer[U_BRK_SAFECLONE_BUFFERSIZE]; UBreakIterator* bi = NULL; int ret_pos; zval *next = NULL; /* return offset of next part of the string */ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "sl|llz", (char **)&str, &str_len, &size, &extract_type, &lstart, &next) == FAILURE) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: unable to parse input param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( NULL != next ) { if ( !PZVAL_IS_REF(next) ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: 'next' was not passed by reference", 0 TSRMLS_CC ); RETURN_FALSE; } else { /* initialize next */ zval_dtor(next); ZVAL_LONG(next, lstart); } } if ( extract_type < GRAPHEME_EXTRACT_TYPE_MIN || extract_type > GRAPHEME_EXTRACT_TYPE_MAX ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: unknown extract type param", 0 TSRMLS_CC ); RETURN_FALSE; } if ( lstart > INT32_MAX || lstart < 0 || lstart >= str_len ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: start not contained in string", 0 TSRMLS_CC ); RETURN_FALSE; } if ( size > INT32_MAX || size < 0) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: size is invalid", 0 TSRMLS_CC ); RETURN_FALSE; } if (size == 0) { RETURN_EMPTY_STRING(); } /* we checked that it will fit: */ start = (int32_t) lstart; pstr = str + start; /* just in case pstr points in the middle of a character, move forward to the start of the next char */ if ( !UTF8_IS_SINGLE(*pstr) && !U8_IS_LEAD(*pstr) ) { unsigned char *str_end = str + str_len; while ( !UTF8_IS_SINGLE(*pstr) && !U8_IS_LEAD(*pstr) ) { pstr++; if ( pstr >= str_end ) { intl_error_set( NULL, U_ILLEGAL_ARGUMENT_ERROR, "grapheme_extract: invalid input string", 0 TSRMLS_CC ); RETURN_FALSE; } } } str_len -= (pstr - str); /* if the string is all ASCII up to size+1 - or str_len whichever is first - then we are done. (size + 1 because the size-th character might be the beginning of a grapheme cluster) */ if ( -1 != grapheme_ascii_check(pstr, size + 1 < str_len ? size + 1 : str_len ) ) { long nsize = ( size < str_len ? size : str_len ); if ( NULL != next ) { ZVAL_LONG(next, start+nsize); } RETURN_STRINGL(((char *)pstr), nsize, 1); } /* convert the strings to UTF-16. */ ustr = NULL; ustr_len = 0; status = U_ZERO_ERROR; intl_convert_utf8_to_utf16(&ustr, &ustr_len, (char *)pstr, str_len, &status ); if ( U_FAILURE( status ) ) { /* Set global error code. */ intl_error_set_code( NULL, status TSRMLS_CC ); /* Set error messages. */ intl_error_set_custom_msg( NULL, "Error converting input string to UTF-16", 0 TSRMLS_CC ); if ( NULL != ustr ) efree( ustr ); RETURN_FALSE; } bi = NULL; status = U_ZERO_ERROR; bi = grapheme_get_break_iterator(u_break_iterator_buffer, &status TSRMLS_CC ); ubrk_setText(bi, ustr, ustr_len, &status); /* if the caller put us in the middle of a grapheme, we can't detect it in all cases since we can't back up. So, we will not do anything. */ /* now we need to find the end of the chunk the user wants us to return */ ret_pos = (*grapheme_extract_iters[extract_type])(bi, size, pstr, str_len); if (ustr) { efree(ustr); } ubrk_close(bi); if ( NULL != next ) { ZVAL_LONG(next, start+ret_pos); } RETURN_STRINGL(((char *)pstr), ret_pos, 1); } /* }}} */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: * vim600: fdm=marker * vim: noet sw=4 ts=4 */