/* +----------------------------------------------------------------------+ | 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. | +----------------------------------------------------------------------+ | Authors: Gustavo Lopes | +----------------------------------------------------------------------+ */ #include extern "C" { #define USE_BREAKITERATOR_POINTER 1 #include "breakiterator_class.h" #include #include } #include "../intl_convertcpp.h" #include "../intl_common.h" using icu::RuleBasedBreakIterator; using icu::Locale; static inline RuleBasedBreakIterator *fetch_rbbi(BreakIterator_object *bio) { return (RuleBasedBreakIterator*)bio->biter; } static void _php_intlrbbi_constructor_body(INTERNAL_FUNCTION_PARAMETERS) { char *rules; size_t rules_len; bool compiled = 0; UErrorCode status = U_ZERO_ERROR; BREAKITER_METHOD_INIT_VARS; object = ZEND_THIS; if (zend_parse_parameters(ZEND_NUM_ARGS(), "s|b", &rules, &rules_len, &compiled) == FAILURE) { RETURN_THROWS(); } BREAKITER_METHOD_FETCH_OBJECT_NO_CHECK; if (bio->biter) { zend_throw_error(NULL, "IntlRuleBasedBreakIterator object is already constructed"); RETURN_THROWS(); } // instantiation of ICU object RuleBasedBreakIterator *rbbi; if (!compiled) { UnicodeString rulesStr; UParseError parseError = UParseError(); if (intl_stringFromChar(rulesStr, rules, rules_len, &status) == FAILURE) { zend_throw_exception(IntlException_ce_ptr, "IntlRuleBasedBreakIterator::__construct(): " "rules were not a valid UTF-8 string", 0); RETURN_THROWS(); } rbbi = new RuleBasedBreakIterator(rulesStr, parseError, status); intl_error_set_code(NULL, status); if (U_FAILURE(status)) { smart_str parse_error_str; parse_error_str = intl_parse_error_to_string(&parseError); zend_throw_exception_ex(IntlException_ce_ptr, 0, "IntlRuleBasedBreakIterator::__construct(): " "unable to create RuleBasedBreakIterator from rules (%s)", parse_error_str.s ? ZSTR_VAL(parse_error_str.s) : ""); smart_str_free(&parse_error_str); delete rbbi; RETURN_THROWS(); } } else { // compiled rbbi = new RuleBasedBreakIterator((uint8_t*)rules, rules_len, status); if (U_FAILURE(status)) { zend_throw_exception(IntlException_ce_ptr, "IntlRuleBasedBreakIterator::__construct(): " "unable to create instance from compiled rules", 0); delete rbbi; RETURN_THROWS(); } } breakiterator_object_create(return_value, rbbi, 0); } U_CFUNC PHP_METHOD(IntlRuleBasedBreakIterator, __construct) { zend_error_handling error_handling; zend_replace_error_handling(EH_THROW, IntlException_ce_ptr, &error_handling); return_value = ZEND_THIS; _php_intlrbbi_constructor_body(INTERNAL_FUNCTION_PARAM_PASSTHRU); zend_restore_error_handling(&error_handling); } U_CFUNC PHP_METHOD(IntlRuleBasedBreakIterator, getRules) { BREAKITER_METHOD_INIT_VARS; object = ZEND_THIS; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } BREAKITER_METHOD_FETCH_OBJECT; zend_string *u8str; const UnicodeString rules = fetch_rbbi(bio)->getRules(); u8str = intl_charFromString(rules, BREAKITER_ERROR_CODE_P(bio)); if (!u8str) { intl_errors_set(BREAKITER_ERROR_P(bio), BREAKITER_ERROR_CODE(bio), "rbbi_hash_code: Error converting result to UTF-8 string", 0); RETURN_FALSE; } RETVAL_STR(u8str); } U_CFUNC PHP_METHOD(IntlRuleBasedBreakIterator, getRuleStatus) { BREAKITER_METHOD_INIT_VARS; object = ZEND_THIS; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } BREAKITER_METHOD_FETCH_OBJECT; RETURN_LONG(fetch_rbbi(bio)->getRuleStatus()); } U_CFUNC PHP_METHOD(IntlRuleBasedBreakIterator, getRuleStatusVec) { BREAKITER_METHOD_INIT_VARS; object = ZEND_THIS; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } BREAKITER_METHOD_FETCH_OBJECT; int32_t num_rules = fetch_rbbi(bio)->getRuleStatusVec(NULL, 0, BREAKITER_ERROR_CODE(bio)); ZEND_ASSERT(BREAKITER_ERROR_CODE(bio) == U_BUFFER_OVERFLOW_ERROR); BREAKITER_ERROR_CODE(bio) = U_ZERO_ERROR; int32_t *rules = new int32_t[num_rules]; num_rules = fetch_rbbi(bio)->getRuleStatusVec(rules, num_rules, BREAKITER_ERROR_CODE(bio)); if (U_FAILURE(BREAKITER_ERROR_CODE(bio))) { delete[] rules; intl_errors_set(BREAKITER_ERROR_P(bio), BREAKITER_ERROR_CODE(bio), "rbbi_get_rule_status_vec: failed obtaining the status values", 0); RETURN_FALSE; } array_init_size(return_value, num_rules); for (int32_t i = 0; i < num_rules; i++) { add_next_index_long(return_value, rules[i]); } delete[] rules; } U_CFUNC PHP_METHOD(IntlRuleBasedBreakIterator, getBinaryRules) { BREAKITER_METHOD_INIT_VARS; object = ZEND_THIS; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } BREAKITER_METHOD_FETCH_OBJECT; uint32_t rules_len; const uint8_t *rules = fetch_rbbi(bio)->getBinaryRules(rules_len); if (rules_len > INT_MAX - 1) { intl_errors_set(BREAKITER_ERROR_P(bio), BREAKITER_ERROR_CODE(bio), "rbbi_get_binary_rules: the rules are too large", 0); RETURN_FALSE; } zend_string *ret_rules = zend_string_alloc(rules_len, 0); memcpy(ZSTR_VAL(ret_rules), rules, rules_len); ZSTR_VAL(ret_rules)[rules_len] = '\0'; RETURN_STR(ret_rules); }