/* +----------------------------------------------------------------------+ | Copyright (c) The PHP Group | +----------------------------------------------------------------------+ | 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: Marcus Boerger | +----------------------------------------------------------------------+ */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "php.h" #include "php_ini.h" #include "ext/standard/info.h" #include "zend_exceptions.h" #include "zend_interfaces.h" #include "php_spl.h" #include "spl_functions.h" #include "spl_engine.h" #include "spl_iterators.h" #include "spl_iterators_arginfo.h" #include "spl_directory.h" #include "spl_array.h" #include "spl_exceptions.h" #include "zend_smart_str.h" #ifdef accept #undef accept #endif PHPAPI zend_class_entry *spl_ce_RecursiveIterator; PHPAPI zend_class_entry *spl_ce_RecursiveIteratorIterator; PHPAPI zend_class_entry *spl_ce_FilterIterator; PHPAPI zend_class_entry *spl_ce_CallbackFilterIterator; PHPAPI zend_class_entry *spl_ce_RecursiveFilterIterator; PHPAPI zend_class_entry *spl_ce_RecursiveCallbackFilterIterator; PHPAPI zend_class_entry *spl_ce_ParentIterator; PHPAPI zend_class_entry *spl_ce_SeekableIterator; PHPAPI zend_class_entry *spl_ce_LimitIterator; PHPAPI zend_class_entry *spl_ce_CachingIterator; PHPAPI zend_class_entry *spl_ce_RecursiveCachingIterator; PHPAPI zend_class_entry *spl_ce_OuterIterator; PHPAPI zend_class_entry *spl_ce_IteratorIterator; PHPAPI zend_class_entry *spl_ce_NoRewindIterator; PHPAPI zend_class_entry *spl_ce_InfiniteIterator; PHPAPI zend_class_entry *spl_ce_EmptyIterator; PHPAPI zend_class_entry *spl_ce_AppendIterator; PHPAPI zend_class_entry *spl_ce_RegexIterator; PHPAPI zend_class_entry *spl_ce_RecursiveRegexIterator; PHPAPI zend_class_entry *spl_ce_RecursiveTreeIterator; typedef enum { RIT_LEAVES_ONLY = 0, RIT_SELF_FIRST = 1, RIT_CHILD_FIRST = 2 } RecursiveIteratorMode; #define RIT_CATCH_GET_CHILD CIT_CATCH_GET_CHILD typedef enum { RTIT_BYPASS_CURRENT = 4, RTIT_BYPASS_KEY = 8 } RecursiveTreeIteratorFlags; typedef enum { RS_NEXT = 0, RS_TEST = 1, RS_SELF = 2, RS_CHILD = 3, RS_START = 4 } RecursiveIteratorState; typedef struct _spl_sub_iterator { zend_object_iterator *iterator; zval zobject; zend_class_entry *ce; RecursiveIteratorState state; zend_function *haschildren; zend_function *getchildren; } spl_sub_iterator; typedef struct _spl_recursive_it_object { spl_sub_iterator *iterators; int level; RecursiveIteratorMode mode; int flags; int max_depth; bool in_iteration; zend_function *beginIteration; zend_function *endIteration; zend_function *callHasChildren; zend_function *callGetChildren; zend_function *beginChildren; zend_function *endChildren; zend_function *nextElement; zend_class_entry *ce; smart_str prefix[6]; smart_str postfix[1]; zend_object std; } spl_recursive_it_object; typedef struct _spl_recursive_it_iterator { zend_object_iterator intern; } spl_recursive_it_iterator; static zend_object_handlers spl_handlers_rec_it_it; static zend_object_handlers spl_handlers_dual_it; static inline spl_recursive_it_object *spl_recursive_it_from_obj(zend_object *obj) /* {{{ */ { return (spl_recursive_it_object*)((char*)(obj) - XtOffsetOf(spl_recursive_it_object, std)); } /* }}} */ #define Z_SPLRECURSIVE_IT_P(zv) spl_recursive_it_from_obj(Z_OBJ_P((zv))) #define SPL_FETCH_AND_CHECK_DUAL_IT(var, objzval) \ do { \ spl_dual_it_object *it = Z_SPLDUAL_IT_P(objzval); \ if (it->dit_type == DIT_Unknown) { \ zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); \ RETURN_THROWS(); \ } \ (var) = it; \ } while (0) #define SPL_FETCH_SUB_ELEMENT(var, object, element) \ do { \ if(!(object)->iterators) { \ zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); \ return; \ } \ (var) = (object)->iterators[(object)->level].element; \ } while (0) #define SPL_FETCH_SUB_ELEMENT_ADDR(var, object, element) \ do { \ if(!(object)->iterators) { \ zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); \ RETURN_THROWS(); \ } \ (var) = &(object)->iterators[(object)->level].element; \ } while (0) #define SPL_FETCH_SUB_ITERATOR(var, object) SPL_FETCH_SUB_ELEMENT(var, object, iterator) static void spl_recursive_it_dtor(zend_object_iterator *_iter) { spl_recursive_it_iterator *iter = (spl_recursive_it_iterator*)_iter; spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(&iter->intern.data); zend_object_iterator *sub_iter; while (object->level > 0) { if (!Z_ISUNDEF(object->iterators[object->level].zobject)) { sub_iter = object->iterators[object->level].iterator; zend_iterator_dtor(sub_iter); zval_ptr_dtor(&object->iterators[object->level].zobject); } object->level--; } object->iterators = erealloc(object->iterators, sizeof(spl_sub_iterator)); object->level = 0; zval_ptr_dtor(&iter->intern.data); } static int spl_recursive_it_valid_ex(spl_recursive_it_object *object, zval *zthis) { zend_object_iterator *sub_iter; int level = object->level; if(!object->iterators) { return FAILURE; } while (level >=0) { sub_iter = object->iterators[level].iterator; if (sub_iter->funcs->valid(sub_iter) == SUCCESS) { return SUCCESS; } level--; } if (object->endIteration && object->in_iteration) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->endIteration, "endIteration", NULL); } object->in_iteration = 0; return FAILURE; } static int spl_recursive_it_valid(zend_object_iterator *iter) { return spl_recursive_it_valid_ex(Z_SPLRECURSIVE_IT_P(&iter->data), &iter->data); } static zval *spl_recursive_it_get_current_data(zend_object_iterator *iter) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(&iter->data); zend_object_iterator *sub_iter = object->iterators[object->level].iterator; return sub_iter->funcs->get_current_data(sub_iter); } static void spl_recursive_it_get_current_key(zend_object_iterator *iter, zval *key) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(&iter->data); zend_object_iterator *sub_iter = object->iterators[object->level].iterator; if (sub_iter->funcs->get_current_key) { sub_iter->funcs->get_current_key(sub_iter, key); } else { ZVAL_LONG(key, iter->index); } } static void spl_recursive_it_move_forward_ex(spl_recursive_it_object *object, zval *zthis) { zend_object_iterator *iterator; zend_class_entry *ce; zval retval, child; zend_object_iterator *sub_iter; int has_children; SPL_FETCH_SUB_ITERATOR(iterator, object); while (!EG(exception)) { next_step: iterator = object->iterators[object->level].iterator; switch (object->iterators[object->level].state) { case RS_NEXT: iterator->funcs->move_forward(iterator); if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { return; } else { zend_clear_exception(); } } /* fall through */ case RS_START: if (iterator->funcs->valid(iterator) == FAILURE) { break; } object->iterators[object->level].state = RS_TEST; /* break; */ case RS_TEST: if (object->callHasChildren) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->callHasChildren, "callHasChildren", &retval); } else { zend_class_entry *ce = object->iterators[object->level].ce; zend_object *obj = Z_OBJ(object->iterators[object->level].zobject); zend_function **cache = &object->iterators[object->level].haschildren; zend_call_method_with_0_params(obj, ce, cache, "haschildren", &retval); } if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { object->iterators[object->level].state = RS_NEXT; return; } else { zend_clear_exception(); } } if (Z_TYPE(retval) != IS_UNDEF) { has_children = zend_is_true(&retval); zval_ptr_dtor(&retval); if (has_children) { if (object->max_depth == -1 || object->max_depth > object->level) { switch (object->mode) { case RIT_LEAVES_ONLY: case RIT_CHILD_FIRST: object->iterators[object->level].state = RS_CHILD; goto next_step; case RIT_SELF_FIRST: object->iterators[object->level].state = RS_SELF; goto next_step; } } else { /* do not recurse into */ if (object->mode == RIT_LEAVES_ONLY) { /* this is not a leave, so skip it */ object->iterators[object->level].state = RS_NEXT; goto next_step; } } } } if (object->nextElement) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->nextElement, "nextelement", NULL); } object->iterators[object->level].state = RS_NEXT; if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { return; } else { zend_clear_exception(); } } return /* self */; case RS_SELF: if (object->nextElement && (object->mode == RIT_SELF_FIRST || object->mode == RIT_CHILD_FIRST)) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->nextElement, "nextelement", NULL); } if (object->mode == RIT_SELF_FIRST) { object->iterators[object->level].state = RS_CHILD; } else { object->iterators[object->level].state = RS_NEXT; } return /* self */; case RS_CHILD: if (object->callGetChildren) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->callGetChildren, "callGetChildren", &child); } else { zend_class_entry *ce = object->iterators[object->level].ce; zend_object *obj = Z_OBJ(object->iterators[object->level].zobject); zend_function **cache = &object->iterators[object->level].getchildren; zend_call_method_with_0_params(obj, ce, cache, "getchildren", &child); } if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { return; } else { zend_clear_exception(); zval_ptr_dtor(&child); object->iterators[object->level].state = RS_NEXT; goto next_step; } } if (Z_TYPE(child) == IS_UNDEF || Z_TYPE(child) != IS_OBJECT || !((ce = Z_OBJCE(child)) && instanceof_function(ce, spl_ce_RecursiveIterator))) { zval_ptr_dtor(&child); zend_throw_exception(spl_ce_UnexpectedValueException, "Objects returned by RecursiveIterator::getChildren() must implement RecursiveIterator", 0); return; } if (object->mode == RIT_CHILD_FIRST) { object->iterators[object->level].state = RS_SELF; } else { object->iterators[object->level].state = RS_NEXT; } object->iterators = erealloc(object->iterators, sizeof(spl_sub_iterator) * (++object->level+1)); sub_iter = ce->get_iterator(ce, &child, 0); ZVAL_COPY_VALUE(&object->iterators[object->level].zobject, &child); object->iterators[object->level].iterator = sub_iter; object->iterators[object->level].ce = ce; object->iterators[object->level].state = RS_START; if (object->level > 0 && object->iterators[object->level - 1].ce == 0) { object->iterators[object->level].haschildren = object->iterators[object->level - 1].haschildren; object->iterators[object->level].getchildren = object->iterators[object->level - 1].getchildren; } else { object->iterators[object->level].haschildren = NULL; object->iterators[object->level].getchildren = NULL; } if (sub_iter->funcs->rewind) { sub_iter->funcs->rewind(sub_iter); } if (object->beginChildren) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->beginChildren, "beginchildren", NULL); if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { return; } else { zend_clear_exception(); } } } goto next_step; } /* no more elements */ if (object->level > 0) { if (object->endChildren) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->endChildren, "endchildren", NULL); if (EG(exception)) { if (!(object->flags & RIT_CATCH_GET_CHILD)) { return; } else { zend_clear_exception(); } } } if (object->level > 0) { zval garbage; ZVAL_COPY_VALUE(&garbage, &object->iterators[object->level].zobject); ZVAL_UNDEF(&object->iterators[object->level].zobject); zval_ptr_dtor(&garbage); zend_iterator_dtor(iterator); object->level--; } } else { return; /* done completeley */ } } } static void spl_recursive_it_rewind_ex(spl_recursive_it_object *object, zval *zthis) { zend_object_iterator *sub_iter; SPL_FETCH_SUB_ITERATOR(sub_iter, object); while (object->level) { sub_iter = object->iterators[object->level].iterator; zend_iterator_dtor(sub_iter); zval_ptr_dtor(&object->iterators[object->level--].zobject); if (!EG(exception) && (!object->endChildren || object->endChildren->common.scope != spl_ce_RecursiveIteratorIterator)) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->endChildren, "endchildren", NULL); } } object->iterators = erealloc(object->iterators, sizeof(spl_sub_iterator)); object->iterators[0].state = RS_START; sub_iter = object->iterators[0].iterator; if (sub_iter->funcs->rewind) { sub_iter->funcs->rewind(sub_iter); } if (!EG(exception) && object->beginIteration && !object->in_iteration) { zend_call_method_with_0_params(Z_OBJ_P(zthis), object->ce, &object->beginIteration, "beginIteration", NULL); } object->in_iteration = 1; spl_recursive_it_move_forward_ex(object, zthis); } static void spl_recursive_it_move_forward(zend_object_iterator *iter) { spl_recursive_it_move_forward_ex(Z_SPLRECURSIVE_IT_P(&iter->data), &iter->data); } static void spl_recursive_it_rewind(zend_object_iterator *iter) { spl_recursive_it_rewind_ex(Z_SPLRECURSIVE_IT_P(&iter->data), &iter->data); } static const zend_object_iterator_funcs spl_recursive_it_iterator_funcs = { spl_recursive_it_dtor, spl_recursive_it_valid, spl_recursive_it_get_current_data, spl_recursive_it_get_current_key, spl_recursive_it_move_forward, spl_recursive_it_rewind, NULL, NULL, /* get_gc */ }; static zend_object_iterator *spl_recursive_it_get_iterator(zend_class_entry *ce, zval *zobject, int by_ref) { spl_recursive_it_iterator *iterator; spl_recursive_it_object *object; if (by_ref) { zend_throw_error(NULL, "An iterator cannot be used with foreach by reference"); return NULL; } iterator = emalloc(sizeof(spl_recursive_it_iterator)); object = Z_SPLRECURSIVE_IT_P(zobject); if (object->iterators == NULL) { zend_throw_error(NULL, "Object is not initialized"); return NULL; } zend_iterator_init((zend_object_iterator*)iterator); ZVAL_OBJ_COPY(&iterator->intern.data, Z_OBJ_P(zobject)); iterator->intern.funcs = &spl_recursive_it_iterator_funcs; return (zend_object_iterator*)iterator; } static void spl_recursive_it_it_construct(INTERNAL_FUNCTION_PARAMETERS, zend_class_entry *ce_base, zend_class_entry *ce_inner, recursive_it_it_type rit_type) { zval *object = ZEND_THIS; spl_recursive_it_object *intern; zval *iterator; zend_class_entry *ce_iterator; zend_long mode, flags; zend_error_handling error_handling; zval caching_it, aggregate_retval; switch (rit_type) { case RIT_RecursiveTreeIterator: { zval caching_it_flags; zend_long user_caching_it_flags = CIT_CATCH_GET_CHILD; mode = RIT_SELF_FIRST; flags = RTIT_BYPASS_KEY; if (zend_parse_parameters(ZEND_NUM_ARGS(), "o|lll", &iterator, &flags, &user_caching_it_flags, &mode) == FAILURE) { RETURN_THROWS(); } zend_replace_error_handling(EH_THROW, spl_ce_InvalidArgumentException, &error_handling); if (instanceof_function(Z_OBJCE_P(iterator), zend_ce_aggregate)) { zend_function **getiterator_cache = Z_OBJCE_P(iterator)->iterator_funcs_ptr ? &Z_OBJCE_P(iterator)->iterator_funcs_ptr->zf_new_iterator : NULL; zend_call_method_with_0_params(Z_OBJ_P(iterator), Z_OBJCE_P(iterator), getiterator_cache, "getiterator", &aggregate_retval); iterator = &aggregate_retval; } else { Z_ADDREF_P(iterator); } ZVAL_LONG(&caching_it_flags, user_caching_it_flags); spl_instantiate_arg_ex2(spl_ce_RecursiveCachingIterator, &caching_it, iterator, &caching_it_flags); zval_ptr_dtor(&caching_it_flags); zval_ptr_dtor(iterator); iterator = &caching_it; break; } case RIT_RecursiveIteratorIterator: default: { mode = RIT_LEAVES_ONLY; flags = 0; if (zend_parse_parameters(ZEND_NUM_ARGS(), "o|ll", &iterator, &mode, &flags) == FAILURE) { RETURN_THROWS(); } zend_replace_error_handling(EH_THROW, spl_ce_InvalidArgumentException, &error_handling); if (instanceof_function(Z_OBJCE_P(iterator), zend_ce_aggregate)) { zend_function **getiterator_cache = Z_OBJCE_P(iterator)->iterator_funcs_ptr ? &Z_OBJCE_P(iterator)->iterator_funcs_ptr->zf_new_iterator : NULL; zend_call_method_with_0_params(Z_OBJ_P(iterator), Z_OBJCE_P(iterator), getiterator_cache, "getiterator", &aggregate_retval); iterator = &aggregate_retval; } else { Z_ADDREF_P(iterator); } break; } } if (!instanceof_function(Z_OBJCE_P(iterator), spl_ce_RecursiveIterator)) { if (iterator) { zval_ptr_dtor(iterator); } zend_throw_exception(spl_ce_InvalidArgumentException, "An instance of RecursiveIterator or IteratorAggregate creating it is required", 0); zend_restore_error_handling(&error_handling); return; } intern = Z_SPLRECURSIVE_IT_P(object); intern->iterators = emalloc(sizeof(spl_sub_iterator)); intern->level = 0; intern->mode = mode; intern->flags = (int)flags; intern->max_depth = -1; intern->in_iteration = 0; intern->ce = Z_OBJCE_P(object); intern->beginIteration = zend_hash_str_find_ptr(&intern->ce->function_table, "beginiteration", sizeof("beginiteration") - 1); if (intern->beginIteration->common.scope == ce_base) { intern->beginIteration = NULL; } intern->endIteration = zend_hash_str_find_ptr(&intern->ce->function_table, "enditeration", sizeof("enditeration") - 1); if (intern->endIteration->common.scope == ce_base) { intern->endIteration = NULL; } intern->callHasChildren = zend_hash_str_find_ptr(&intern->ce->function_table, "callhaschildren", sizeof("callHasChildren") - 1); if (intern->callHasChildren->common.scope == ce_base) { intern->callHasChildren = NULL; } intern->callGetChildren = zend_hash_str_find_ptr(&intern->ce->function_table, "callgetchildren", sizeof("callGetChildren") - 1); if (intern->callGetChildren->common.scope == ce_base) { intern->callGetChildren = NULL; } intern->beginChildren = zend_hash_str_find_ptr(&intern->ce->function_table, "beginchildren", sizeof("beginchildren") - 1); if (intern->beginChildren->common.scope == ce_base) { intern->beginChildren = NULL; } intern->endChildren = zend_hash_str_find_ptr(&intern->ce->function_table, "endchildren", sizeof("endchildren") - 1); if (intern->endChildren->common.scope == ce_base) { intern->endChildren = NULL; } intern->nextElement = zend_hash_str_find_ptr(&intern->ce->function_table, "nextelement", sizeof("nextElement") - 1); if (intern->nextElement->common.scope == ce_base) { intern->nextElement = NULL; } ce_iterator = Z_OBJCE_P(iterator); /* respect inheritance, don't use spl_ce_RecursiveIterator */ intern->iterators[0].iterator = ce_iterator->get_iterator(ce_iterator, iterator, 0); ZVAL_OBJ(&intern->iterators[0].zobject, Z_OBJ_P(iterator)); intern->iterators[0].ce = ce_iterator; intern->iterators[0].state = RS_START; intern->iterators[0].haschildren = NULL; intern->iterators[0].getchildren = NULL; zend_restore_error_handling(&error_handling); if (EG(exception)) { zend_object_iterator *sub_iter; while (intern->level >= 0) { sub_iter = intern->iterators[intern->level].iterator; zend_iterator_dtor(sub_iter); zval_ptr_dtor(&intern->iterators[intern->level--].zobject); } efree(intern->iterators); intern->iterators = NULL; } } /* {{{ Creates a RecursiveIteratorIterator from a RecursiveIterator. */ PHP_METHOD(RecursiveIteratorIterator, __construct) { spl_recursive_it_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveIteratorIterator, zend_ce_iterator, RIT_RecursiveIteratorIterator); } /* }}} */ /* {{{ Rewind the iterator to the first element of the top level inner iterator. */ PHP_METHOD(RecursiveIteratorIterator, rewind) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } spl_recursive_it_rewind_ex(object, ZEND_THIS); } /* }}} */ /* {{{ Check whether the current position is valid */ PHP_METHOD(RecursiveIteratorIterator, valid) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } RETURN_BOOL(spl_recursive_it_valid_ex(object, ZEND_THIS) == SUCCESS); } /* }}} */ /* {{{ Access the current key */ PHP_METHOD(RecursiveIteratorIterator, key) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_object_iterator *iterator; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_SUB_ITERATOR(iterator, object); if (iterator->funcs->get_current_key) { iterator->funcs->get_current_key(iterator, return_value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Access the current element value */ PHP_METHOD(RecursiveIteratorIterator, current) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_object_iterator *iterator; zval *data; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_SUB_ITERATOR(iterator, object); data = iterator->funcs->get_current_data(iterator); if (data) { ZVAL_COPY_DEREF(return_value, data); } } /* }}} */ /* {{{ Move forward to the next element */ PHP_METHOD(RecursiveIteratorIterator, next) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } spl_recursive_it_move_forward_ex(object, ZEND_THIS); } /* }}} */ /* {{{ Get the current depth of the recursive iteration */ PHP_METHOD(RecursiveIteratorIterator, getDepth) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } RETURN_LONG(object->level); } /* }}} */ /* {{{ The current active sub iterator or the iterator at specified level */ PHP_METHOD(RecursiveIteratorIterator, getSubIterator) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_long level; bool level_is_null = 1; zval *value; if (zend_parse_parameters(ZEND_NUM_ARGS(), "|l!", &level, &level_is_null) == FAILURE) { RETURN_THROWS(); } if (level_is_null) { level = object->level; } else if (level < 0 || level > object->level) { RETURN_NULL(); } if(!object->iterators) { zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); RETURN_THROWS(); } value = &object->iterators[level].zobject; ZVAL_COPY_DEREF(return_value, value); } /* }}} */ /* {{{ The current active sub iterator */ PHP_METHOD(RecursiveIteratorIterator, getInnerIterator) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zval *zobject; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_SUB_ELEMENT_ADDR(zobject, object, zobject); ZVAL_COPY_DEREF(return_value, zobject); } /* }}} */ /* {{{ Called when iteration begins (after first rewind() call) */ PHP_METHOD(RecursiveIteratorIterator, beginIteration) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Called when iteration ends (when valid() first returns false */ PHP_METHOD(RecursiveIteratorIterator, endIteration) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Called for each element to test whether it has children */ PHP_METHOD(RecursiveIteratorIterator, callHasChildren) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_class_entry *ce; zval *zobject; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if (!object->iterators) { RETURN_FALSE; } SPL_FETCH_SUB_ELEMENT(ce, object, ce); zobject = &object->iterators[object->level].zobject; if (Z_TYPE_P(zobject) == IS_UNDEF) { RETURN_FALSE; } else { zend_call_method_with_0_params(Z_OBJ_P(zobject), ce, &object->iterators[object->level].haschildren, "haschildren", return_value); if (Z_TYPE_P(return_value) == IS_UNDEF) { RETURN_FALSE; } } } /* }}} */ /* {{{ Return children of current element */ PHP_METHOD(RecursiveIteratorIterator, callGetChildren) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_class_entry *ce; zval *zobject; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_SUB_ELEMENT(ce, object, ce); zobject = &object->iterators[object->level].zobject; if (Z_TYPE_P(zobject) == IS_UNDEF) { return; } else { zend_call_method_with_0_params(Z_OBJ_P(zobject), ce, &object->iterators[object->level].getchildren, "getchildren", return_value); if (Z_TYPE_P(return_value) == IS_UNDEF) { RETURN_NULL(); } } } /* }}} */ /* {{{ Called when recursing one level down */ PHP_METHOD(RecursiveIteratorIterator, beginChildren) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Called when end recursing one level */ PHP_METHOD(RecursiveIteratorIterator, endChildren) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Called when the next element is available */ PHP_METHOD(RecursiveIteratorIterator, nextElement) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Set the maximum allowed depth (or any depth if pmax_depth = -1] */ PHP_METHOD(RecursiveIteratorIterator, setMaxDepth) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_long max_depth = -1; if (zend_parse_parameters(ZEND_NUM_ARGS(), "|l", &max_depth) == FAILURE) { RETURN_THROWS(); } if (max_depth < -1) { zend_argument_value_error(1, "must be greater than or equal to -1"); RETURN_THROWS(); } else if (max_depth > INT_MAX) { max_depth = INT_MAX; } object->max_depth = (int)max_depth; } /* }}} */ /* {{{ Return the maximum accepted depth or false if any depth is allowed */ PHP_METHOD(RecursiveIteratorIterator, getMaxDepth) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if (object->max_depth == -1) { RETURN_FALSE; } else { RETURN_LONG(object->max_depth); } } /* }}} */ static zend_function *spl_recursive_it_get_method(zend_object **zobject, zend_string *method, const zval *key) { zend_function *function_handler; spl_recursive_it_object *object = spl_recursive_it_from_obj(*zobject); zend_long level = object->level; zval *zobj; if (!object->iterators) { zend_throw_error(NULL, "The %s instance wasn't initialized properly", ZSTR_VAL((*zobject)->ce->name)); return NULL; } zobj = &object->iterators[level].zobject; function_handler = zend_std_get_method(zobject, method, key); if (!function_handler) { if ((function_handler = zend_hash_find_ptr(&Z_OBJCE_P(zobj)->function_table, method)) == NULL) { *zobject = Z_OBJ_P(zobj); function_handler = (*zobject)->handlers->get_method(zobject, method, key); } else { *zobject = Z_OBJ_P(zobj); } } return function_handler; } /* {{{ spl_RecursiveIteratorIterator_dtor */ static void spl_RecursiveIteratorIterator_dtor(zend_object *_object) { spl_recursive_it_object *object = spl_recursive_it_from_obj(_object); zend_object_iterator *sub_iter; /* call standard dtor */ zend_objects_destroy_object(_object); if (object->iterators) { while (object->level >= 0) { sub_iter = object->iterators[object->level].iterator; zend_iterator_dtor(sub_iter); zval_ptr_dtor(&object->iterators[object->level--].zobject); } efree(object->iterators); object->iterators = NULL; } } /* }}} */ /* {{{ spl_RecursiveIteratorIterator_free_storage */ static void spl_RecursiveIteratorIterator_free_storage(zend_object *_object) { spl_recursive_it_object *object = spl_recursive_it_from_obj(_object); if (object->iterators) { efree(object->iterators); object->iterators = NULL; object->level = 0; } zend_object_std_dtor(&object->std); smart_str_free(&object->prefix[0]); smart_str_free(&object->prefix[1]); smart_str_free(&object->prefix[2]); smart_str_free(&object->prefix[3]); smart_str_free(&object->prefix[4]); smart_str_free(&object->prefix[5]); smart_str_free(&object->postfix[0]); } /* }}} */ /* {{{ spl_RecursiveIteratorIterator_new_ex */ static zend_object *spl_RecursiveIteratorIterator_new_ex(zend_class_entry *class_type, int init_prefix) { spl_recursive_it_object *intern; intern = zend_object_alloc(sizeof(spl_recursive_it_object), class_type); if (init_prefix) { smart_str_appendl(&intern->prefix[0], "", 0); smart_str_appendl(&intern->prefix[1], "| ", 2); smart_str_appendl(&intern->prefix[2], " ", 2); smart_str_appendl(&intern->prefix[3], "|-", 2); smart_str_appendl(&intern->prefix[4], "\\-", 2); smart_str_appendl(&intern->prefix[5], "", 0); smart_str_appendl(&intern->postfix[0], "", 0); } zend_object_std_init(&intern->std, class_type); object_properties_init(&intern->std, class_type); intern->std.handlers = &spl_handlers_rec_it_it; return &intern->std; } /* }}} */ /* {{{ spl_RecursiveIteratorIterator_new */ static zend_object *spl_RecursiveIteratorIterator_new(zend_class_entry *class_type) { return spl_RecursiveIteratorIterator_new_ex(class_type, 0); } /* }}} */ /* {{{ spl_RecursiveTreeIterator_new */ static zend_object *spl_RecursiveTreeIterator_new(zend_class_entry *class_type) { return spl_RecursiveIteratorIterator_new_ex(class_type, 1); } /* }}} */ static void spl_recursive_tree_iterator_get_prefix(spl_recursive_it_object *object, zval *return_value) { smart_str str = {0}; zval has_next; int level; smart_str_appendl(&str, ZSTR_VAL(object->prefix[0].s), ZSTR_LEN(object->prefix[0].s)); for (level = 0; level < object->level; ++level) { zend_call_method_with_0_params(Z_OBJ(object->iterators[level].zobject), object->iterators[level].ce, NULL, "hasnext", &has_next); if (Z_TYPE(has_next) != IS_UNDEF) { if (Z_TYPE(has_next) == IS_TRUE) { smart_str_appendl(&str, ZSTR_VAL(object->prefix[1].s), ZSTR_LEN(object->prefix[1].s)); } else { smart_str_appendl(&str, ZSTR_VAL(object->prefix[2].s), ZSTR_LEN(object->prefix[2].s)); } zval_ptr_dtor(&has_next); } } zend_call_method_with_0_params(Z_OBJ(object->iterators[level].zobject), object->iterators[level].ce, NULL, "hasnext", &has_next); if (Z_TYPE(has_next) != IS_UNDEF) { if (Z_TYPE(has_next) == IS_TRUE) { smart_str_appendl(&str, ZSTR_VAL(object->prefix[3].s), ZSTR_LEN(object->prefix[3].s)); } else { smart_str_appendl(&str, ZSTR_VAL(object->prefix[4].s), ZSTR_LEN(object->prefix[4].s)); } zval_ptr_dtor(&has_next); } smart_str_appendl(&str, ZSTR_VAL(object->prefix[5].s), ZSTR_LEN(object->prefix[5].s)); smart_str_0(&str); RETURN_NEW_STR(str.s); } static void spl_recursive_tree_iterator_get_entry(spl_recursive_it_object *object, zval *return_value) { zend_object_iterator *iterator = object->iterators[object->level].iterator; zval *data; data = iterator->funcs->get_current_data(iterator); if (data) { ZVAL_DEREF(data); /* TODO: Remove this special case? */ if (Z_TYPE_P(data) == IS_ARRAY) { RETVAL_INTERNED_STR(ZSTR_KNOWN(ZEND_STR_ARRAY_CAPITALIZED)); } else { ZVAL_COPY(return_value, data); convert_to_string(return_value); } } } static void spl_recursive_tree_iterator_get_postfix(spl_recursive_it_object *object, zval *return_value) { RETVAL_STR(object->postfix[0].s); Z_ADDREF_P(return_value); } /* {{{ RecursiveIteratorIterator to generate ASCII graphic trees for the entries in a RecursiveIterator */ PHP_METHOD(RecursiveTreeIterator, __construct) { spl_recursive_it_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveTreeIterator, zend_ce_iterator, RIT_RecursiveTreeIterator); } /* }}} */ /* {{{ Sets prefix parts as used in getPrefix() */ PHP_METHOD(RecursiveTreeIterator, setPrefixPart) { zend_long part; char* prefix; size_t prefix_len; spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters(ZEND_NUM_ARGS(), "ls", &part, &prefix, &prefix_len) == FAILURE) { RETURN_THROWS(); } if (0 > part || part > 5) { zend_argument_value_error(1, "must be a RecursiveTreeIterator::PREFIX_* constant"); RETURN_THROWS(); } smart_str_free(&object->prefix[part]); smart_str_appendl(&object->prefix[part], prefix, prefix_len); } /* }}} */ /* {{{ Returns the string to place in front of current element */ PHP_METHOD(RecursiveTreeIterator, getPrefix) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if(!object->iterators) { zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); RETURN_THROWS(); } spl_recursive_tree_iterator_get_prefix(object, return_value); } /* }}} */ /* {{{ Sets postfix as used in getPostfix() */ PHP_METHOD(RecursiveTreeIterator, setPostfix) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); char* postfix; size_t postfix_len; if (zend_parse_parameters(ZEND_NUM_ARGS(), "s", &postfix, &postfix_len) == FAILURE) { RETURN_THROWS(); } smart_str_free(&object->postfix[0]); smart_str_appendl(&object->postfix[0], postfix, postfix_len); } /* }}} */ /* {{{ Returns the string presentation built for current element */ PHP_METHOD(RecursiveTreeIterator, getEntry) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if(!object->iterators) { zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); RETURN_THROWS(); } spl_recursive_tree_iterator_get_entry(object, return_value); } /* }}} */ /* {{{ Returns the string to place after the current element */ PHP_METHOD(RecursiveTreeIterator, getPostfix) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if(!object->iterators) { zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); RETURN_THROWS(); } spl_recursive_tree_iterator_get_postfix(object, return_value); } /* }}} */ /* {{{ Returns the current element prefixed and postfixed */ PHP_METHOD(RecursiveTreeIterator, current) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zval prefix, entry, postfix; char *ptr; zend_string *str; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if(!object->iterators) { zend_throw_error(NULL, "The object is in an invalid state as the parent constructor was not called"); RETURN_THROWS(); } if (object->flags & RTIT_BYPASS_CURRENT) { zend_object_iterator *iterator = object->iterators[object->level].iterator; zval *data; SPL_FETCH_SUB_ITERATOR(iterator, object); data = iterator->funcs->get_current_data(iterator); if (data) { ZVAL_COPY_DEREF(return_value, data); return; } else { RETURN_NULL(); } } ZVAL_NULL(&prefix); ZVAL_NULL(&entry); spl_recursive_tree_iterator_get_prefix(object, &prefix); spl_recursive_tree_iterator_get_entry(object, &entry); if (Z_TYPE(entry) != IS_STRING) { zval_ptr_dtor(&prefix); zval_ptr_dtor(&entry); RETURN_NULL(); } spl_recursive_tree_iterator_get_postfix(object, &postfix); str = zend_string_alloc(Z_STRLEN(prefix) + Z_STRLEN(entry) + Z_STRLEN(postfix), 0); ptr = ZSTR_VAL(str); memcpy(ptr, Z_STRVAL(prefix), Z_STRLEN(prefix)); ptr += Z_STRLEN(prefix); memcpy(ptr, Z_STRVAL(entry), Z_STRLEN(entry)); ptr += Z_STRLEN(entry); memcpy(ptr, Z_STRVAL(postfix), Z_STRLEN(postfix)); ptr += Z_STRLEN(postfix); *ptr = 0; zval_ptr_dtor(&prefix); zval_ptr_dtor(&entry); zval_ptr_dtor(&postfix); RETURN_NEW_STR(str); } /* }}} */ /* {{{ Returns the current key prefixed and postfixed */ PHP_METHOD(RecursiveTreeIterator, key) { spl_recursive_it_object *object = Z_SPLRECURSIVE_IT_P(ZEND_THIS); zend_object_iterator *iterator; zval prefix, key, postfix, key_copy; char *ptr; zend_string *str; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_SUB_ITERATOR(iterator, object); if (iterator->funcs->get_current_key) { iterator->funcs->get_current_key(iterator, &key); } else { ZVAL_NULL(&key); } if (object->flags & RTIT_BYPASS_KEY) { RETURN_COPY_VALUE(&key); } if (Z_TYPE(key) != IS_STRING) { if (zend_make_printable_zval(&key, &key_copy)) { key = key_copy; } } spl_recursive_tree_iterator_get_prefix(object, &prefix); spl_recursive_tree_iterator_get_postfix(object, &postfix); str = zend_string_alloc(Z_STRLEN(prefix) + Z_STRLEN(key) + Z_STRLEN(postfix), 0); ptr = ZSTR_VAL(str); memcpy(ptr, Z_STRVAL(prefix), Z_STRLEN(prefix)); ptr += Z_STRLEN(prefix); memcpy(ptr, Z_STRVAL(key), Z_STRLEN(key)); ptr += Z_STRLEN(key); memcpy(ptr, Z_STRVAL(postfix), Z_STRLEN(postfix)); ptr += Z_STRLEN(postfix); *ptr = 0; zval_ptr_dtor(&prefix); zval_ptr_dtor(&key); zval_ptr_dtor(&postfix); RETURN_NEW_STR(str); } /* }}} */ static zend_function *spl_dual_it_get_method(zend_object **object, zend_string *method, const zval *key) { zend_function *function_handler; spl_dual_it_object *intern; intern = spl_dual_it_from_obj(*object); function_handler = zend_std_get_method(object, method, key); if (!function_handler && intern->inner.ce) { if ((function_handler = zend_hash_find_ptr(&intern->inner.ce->function_table, method)) == NULL) { if (Z_OBJ_HT(intern->inner.zobject)->get_method) { *object = Z_OBJ(intern->inner.zobject); function_handler = (*object)->handlers->get_method(object, method, key); } } else { *object = Z_OBJ(intern->inner.zobject); } } return function_handler; } #define SPL_CHECK_CTOR(intern, classname) \ if (intern->dit_type == DIT_Unknown) { \ /* TODO Normal Error? */ \ zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "Classes derived from %s must call %s::__construct()", \ ZSTR_VAL((spl_ce_##classname)->name), ZSTR_VAL((spl_ce_##classname)->name)); \ RETURN_THROWS(); \ } #define APPENDIT_CHECK_CTOR(intern) SPL_CHECK_CTOR(intern, AppendIterator) static inline int spl_dual_it_fetch(spl_dual_it_object *intern, int check_more); static inline int spl_cit_check_flags(zend_long flags) { zend_long cnt = 0; cnt += (flags & CIT_CALL_TOSTRING) ? 1 : 0; cnt += (flags & CIT_TOSTRING_USE_KEY) ? 1 : 0; cnt += (flags & CIT_TOSTRING_USE_CURRENT) ? 1 : 0; cnt += (flags & CIT_TOSTRING_USE_INNER) ? 1 : 0; return cnt <= 1 ? SUCCESS : FAILURE; } static spl_dual_it_object* spl_dual_it_construct(INTERNAL_FUNCTION_PARAMETERS, zend_class_entry *ce_base, zend_class_entry *ce_inner, dual_it_type dit_type) { zval *zobject, retval; spl_dual_it_object *intern; zend_class_entry *ce = NULL; int inc_refcount = 1; zend_error_handling error_handling; intern = Z_SPLDUAL_IT_P(ZEND_THIS); if (intern->dit_type != DIT_Unknown) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s::getIterator() must be called exactly once per instance", ZSTR_VAL(ce_base->name)); return NULL; } switch (dit_type) { case DIT_LimitIterator: { intern->u.limit.offset = 0; /* start at beginning */ intern->u.limit.count = -1; /* get all */ if (zend_parse_parameters(ZEND_NUM_ARGS(), "O|ll", &zobject, ce_inner, &intern->u.limit.offset, &intern->u.limit.count) == FAILURE) { return NULL; } if (intern->u.limit.offset < 0) { zend_argument_value_error(2, "must be greater than or equal to 0"); return NULL; } if (intern->u.limit.count < -1) { zend_argument_value_error(3, "must be greater than or equal to -1"); return NULL; } break; } case DIT_CachingIterator: case DIT_RecursiveCachingIterator: { zend_long flags = CIT_CALL_TOSTRING; if (zend_parse_parameters(ZEND_NUM_ARGS(), "O|l", &zobject, ce_inner, &flags) == FAILURE) { return NULL; } if (spl_cit_check_flags(flags) != SUCCESS) { zend_argument_value_error(2, "must contain only one of CachingIterator::CALL_TOSTRING, " "CachingIterator::TOSTRING_USE_KEY, CachingIterator::TOSTRING_USE_CURRENT, " "or CachingIterator::TOSTRING_USE_INNER"); return NULL; } intern->u.caching.flags |= flags & CIT_PUBLIC; array_init(&intern->u.caching.zcache); break; } case DIT_IteratorIterator: { zend_class_entry *ce_cast; zend_string *class_name = NULL; if (zend_parse_parameters(ZEND_NUM_ARGS(), "O|S!", &zobject, ce_inner, &class_name) == FAILURE) { return NULL; } ce = Z_OBJCE_P(zobject); if (!instanceof_function(ce, zend_ce_iterator)) { if (class_name) { if (!(ce_cast = zend_lookup_class(class_name)) || !instanceof_function(ce, ce_cast) || !ce_cast->get_iterator ) { zend_throw_exception(spl_ce_LogicException, "Class to downcast to not found or not base class or does not implement Traversable", 0); return NULL; } ce = ce_cast; } if (instanceof_function(ce, zend_ce_aggregate)) { zend_function **getiterator_cache = ce->iterator_funcs_ptr ? &ce->iterator_funcs_ptr->zf_new_iterator : NULL; zend_call_method_with_0_params(Z_OBJ_P(zobject), ce, getiterator_cache, "getiterator", &retval); if (EG(exception)) { zval_ptr_dtor(&retval); return NULL; } if (Z_TYPE(retval) != IS_OBJECT || !instanceof_function(Z_OBJCE(retval), zend_ce_traversable)) { zend_throw_exception_ex(spl_ce_LogicException, 0, "%s::getIterator() must return an object that implements Traversable", ZSTR_VAL(ce->name)); return NULL; } zobject = &retval; ce = Z_OBJCE_P(zobject); inc_refcount = 0; } } break; } case DIT_AppendIterator: if (zend_parse_parameters_none() == FAILURE) { return NULL; } intern->dit_type = DIT_AppendIterator; zend_replace_error_handling(EH_THROW, spl_ce_InvalidArgumentException, &error_handling); object_init_ex(&intern->u.append.zarrayit, spl_ce_ArrayIterator); zend_call_method_with_0_params(Z_OBJ(intern->u.append.zarrayit), spl_ce_ArrayIterator, &spl_ce_ArrayIterator->constructor, "__construct", NULL); intern->u.append.iterator = spl_ce_ArrayIterator->get_iterator(spl_ce_ArrayIterator, &intern->u.append.zarrayit, 0); zend_restore_error_handling(&error_handling); return intern; case DIT_RegexIterator: case DIT_RecursiveRegexIterator: { zend_string *regex; zend_long mode = REGIT_MODE_MATCH; intern->u.regex.use_flags = ZEND_NUM_ARGS() >= 5; intern->u.regex.flags = 0; intern->u.regex.preg_flags = 0; if (zend_parse_parameters(ZEND_NUM_ARGS(), "OS|lll", &zobject, ce_inner, ®ex, &mode, &intern->u.regex.flags, &intern->u.regex.preg_flags) == FAILURE) { return NULL; } if (mode < 0 || mode >= REGIT_MODE_MAX) { zend_argument_value_error(3, "must be RegexIterator::MATCH, RegexIterator::GET_MATCH, " "RegexIterator::ALL_MATCHES, RegexIterator::SPLIT, or RegexIterator::REPLACE"); return NULL; } zend_replace_error_handling(EH_THROW, spl_ce_InvalidArgumentException, &error_handling); intern->u.regex.pce = pcre_get_compiled_regex_cache(regex); zend_restore_error_handling(&error_handling); if (intern->u.regex.pce == NULL) { /* pcre_get_compiled_regex_cache has already sent error */ return NULL; } intern->u.regex.mode = mode; intern->u.regex.regex = zend_string_copy(regex); php_pcre_pce_incref(intern->u.regex.pce); break; } case DIT_CallbackFilterIterator: case DIT_RecursiveCallbackFilterIterator: { _spl_cbfilter_it_intern *cfi = emalloc(sizeof(*cfi)); cfi->fci.object = NULL; if (zend_parse_parameters(ZEND_NUM_ARGS(), "Of", &zobject, ce_inner, &cfi->fci, &cfi->fcc) == FAILURE) { efree(cfi); return NULL; } Z_TRY_ADDREF(cfi->fci.function_name); cfi->object = cfi->fcc.object; if (cfi->object) GC_ADDREF(cfi->object); intern->u.cbfilter = cfi; break; } default: if (zend_parse_parameters(ZEND_NUM_ARGS(), "O", &zobject, ce_inner) == FAILURE) { return NULL; } break; } intern->dit_type = dit_type; if (inc_refcount) { Z_ADDREF_P(zobject); } ZVAL_OBJ(&intern->inner.zobject, Z_OBJ_P(zobject)); intern->inner.ce = dit_type == DIT_IteratorIterator ? ce : Z_OBJCE_P(zobject); intern->inner.object = Z_OBJ_P(zobject); intern->inner.iterator = intern->inner.ce->get_iterator(intern->inner.ce, zobject, 0); return intern; } /* {{{ Create an Iterator from another iterator */ PHP_METHOD(FilterIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_FilterIterator, zend_ce_iterator, DIT_FilterIterator); } /* }}} */ /* {{{ Create an Iterator from another iterator */ PHP_METHOD(CallbackFilterIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_CallbackFilterIterator, zend_ce_iterator, DIT_CallbackFilterIterator); } /* }}} */ /* {{{ Get the inner iterator */ PHP_METHOD(IteratorIterator, getInnerIterator) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!Z_ISUNDEF(intern->inner.zobject)) { zval *value = &intern->inner.zobject; ZVAL_COPY_DEREF(return_value, value); } else { RETURN_NULL(); } } /* }}} */ static inline void spl_dual_it_free(spl_dual_it_object *intern) { if (intern->inner.iterator && intern->inner.iterator->funcs->invalidate_current) { intern->inner.iterator->funcs->invalidate_current(intern->inner.iterator); } if (Z_TYPE(intern->current.data) != IS_UNDEF) { zval_ptr_dtor(&intern->current.data); ZVAL_UNDEF(&intern->current.data); } if (Z_TYPE(intern->current.key) != IS_UNDEF) { zval_ptr_dtor(&intern->current.key); ZVAL_UNDEF(&intern->current.key); } if (intern->dit_type == DIT_CachingIterator || intern->dit_type == DIT_RecursiveCachingIterator) { if (Z_TYPE(intern->u.caching.zstr) != IS_UNDEF) { zval_ptr_dtor(&intern->u.caching.zstr); ZVAL_UNDEF(&intern->u.caching.zstr); } if (Z_TYPE(intern->u.caching.zchildren) != IS_UNDEF) { zval_ptr_dtor(&intern->u.caching.zchildren); ZVAL_UNDEF(&intern->u.caching.zchildren); } } } static inline void spl_dual_it_rewind(spl_dual_it_object *intern) { spl_dual_it_free(intern); intern->current.pos = 0; if (intern->inner.iterator && intern->inner.iterator->funcs->rewind) { intern->inner.iterator->funcs->rewind(intern->inner.iterator); } } static inline int spl_dual_it_valid(spl_dual_it_object *intern) { if (!intern->inner.iterator) { return FAILURE; } /* FAILURE / SUCCESS */ return intern->inner.iterator->funcs->valid(intern->inner.iterator); } static inline int spl_dual_it_fetch(spl_dual_it_object *intern, int check_more) { zval *data; spl_dual_it_free(intern); if (!check_more || spl_dual_it_valid(intern) == SUCCESS) { data = intern->inner.iterator->funcs->get_current_data(intern->inner.iterator); if (data) { ZVAL_COPY(&intern->current.data, data); } if (intern->inner.iterator->funcs->get_current_key) { intern->inner.iterator->funcs->get_current_key(intern->inner.iterator, &intern->current.key); if (EG(exception)) { zval_ptr_dtor(&intern->current.key); ZVAL_UNDEF(&intern->current.key); } } else { ZVAL_LONG(&intern->current.key, intern->current.pos); } return EG(exception) ? FAILURE : SUCCESS; } return FAILURE; } static inline void spl_dual_it_next(spl_dual_it_object *intern, int do_free) { if (do_free) { spl_dual_it_free(intern); } else if (!intern->inner.iterator) { zend_throw_error(NULL, "The inner constructor wasn't initialized with an iterator instance"); return; } intern->inner.iterator->funcs->move_forward(intern->inner.iterator); intern->current.pos++; } /* {{{ Rewind the iterator */ PHP_METHOD(IteratorIterator, rewind) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_rewind(intern); spl_dual_it_fetch(intern, 1); } /* }}} */ /* {{{ Check whether the current element is valid */ PHP_METHOD(IteratorIterator, valid) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(Z_TYPE(intern->current.data) != IS_UNDEF); } /* }}} */ /* {{{ Get the current key */ PHP_METHOD(IteratorIterator, key) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->current.key) != IS_UNDEF) { zval *value = &intern->current.key; ZVAL_COPY_DEREF(return_value, value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Get the current element value */ PHP_METHOD(IteratorIterator, current) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->current.data) != IS_UNDEF) { zval *value = &intern->current.data; ZVAL_COPY_DEREF(return_value, value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Move the iterator forward */ PHP_METHOD(IteratorIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_next(intern, 1); spl_dual_it_fetch(intern, 1); } /* }}} */ static inline void spl_filter_it_fetch(zval *zthis, spl_dual_it_object *intern) { zval retval; while (spl_dual_it_fetch(intern, 1) == SUCCESS) { zend_call_method_with_0_params(Z_OBJ_P(zthis), intern->std.ce, NULL, "accept", &retval); if (Z_TYPE(retval) != IS_UNDEF) { if (zend_is_true(&retval)) { zval_ptr_dtor(&retval); return; } zval_ptr_dtor(&retval); } if (EG(exception)) { return; } intern->inner.iterator->funcs->move_forward(intern->inner.iterator); } spl_dual_it_free(intern); } static inline void spl_filter_it_rewind(zval *zthis, spl_dual_it_object *intern) { spl_dual_it_rewind(intern); spl_filter_it_fetch(zthis, intern); } static inline void spl_filter_it_next(zval *zthis, spl_dual_it_object *intern) { spl_dual_it_next(intern, 1); spl_filter_it_fetch(zthis, intern); } /* {{{ Rewind the iterator */ PHP_METHOD(FilterIterator, rewind) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_filter_it_rewind(ZEND_THIS, intern); } /* }}} */ /* {{{ Move the iterator forward */ PHP_METHOD(FilterIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_filter_it_next(ZEND_THIS, intern); } /* }}} */ /* {{{ Create a RecursiveCallbackFilterIterator from a RecursiveIterator */ PHP_METHOD(RecursiveCallbackFilterIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveCallbackFilterIterator, spl_ce_RecursiveIterator, DIT_RecursiveCallbackFilterIterator); } /* }}} */ /* {{{ Create a RecursiveFilterIterator from a RecursiveIterator */ PHP_METHOD(RecursiveFilterIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveFilterIterator, spl_ce_RecursiveIterator, DIT_RecursiveFilterIterator); } /* }}} */ /* {{{ Check whether the inner iterator's current element has children */ PHP_METHOD(RecursiveFilterIterator, hasChildren) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "haschildren", return_value); } /* }}} */ /* {{{ Return the inner iterator's children contained in a RecursiveFilterIterator */ PHP_METHOD(RecursiveFilterIterator, getChildren) { spl_dual_it_object *intern; zval retval; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "getchildren", &retval); if (!EG(exception) && Z_TYPE(retval) != IS_UNDEF) { spl_instantiate_arg_ex1(Z_OBJCE_P(ZEND_THIS), return_value, &retval); } zval_ptr_dtor(&retval); } /* }}} */ /* {{{ Return the inner iterator's children contained in a RecursiveCallbackFilterIterator */ PHP_METHOD(RecursiveCallbackFilterIterator, getChildren) { spl_dual_it_object *intern; zval retval; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "getchildren", &retval); if (!EG(exception) && Z_TYPE(retval) != IS_UNDEF) { spl_instantiate_arg_ex2(Z_OBJCE_P(ZEND_THIS), return_value, &retval, &intern->u.cbfilter->fci.function_name); } zval_ptr_dtor(&retval); } /* }}} */ /* {{{ Create a ParentIterator from a RecursiveIterator */ PHP_METHOD(ParentIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_ParentIterator, spl_ce_RecursiveIterator, DIT_ParentIterator); } /* }}} */ /* {{{ Create an RegexIterator from another iterator and a regular expression */ PHP_METHOD(RegexIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RegexIterator, zend_ce_iterator, DIT_RegexIterator); } /* }}} */ /* {{{ Calls the callback with the current value, the current key and the inner iterator as arguments */ PHP_METHOD(CallbackFilterIterator, accept) { spl_dual_it_object *intern = Z_SPLDUAL_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->current.data) == IS_UNDEF || Z_TYPE(intern->current.key) == IS_UNDEF) { RETURN_FALSE; } zval params[3]; ZVAL_COPY_VALUE(¶ms[0], &intern->current.data); ZVAL_COPY_VALUE(¶ms[1], &intern->current.key); ZVAL_COPY_VALUE(¶ms[2], &intern->inner.zobject); zend_fcall_info *fci = &intern->u.cbfilter->fci; zend_fcall_info_cache *fcc = &intern->u.cbfilter->fcc; fci->retval = return_value; fci->param_count = 3; fci->params = params; if (zend_call_function(fci, fcc) != SUCCESS || Z_ISUNDEF_P(return_value)) { RETURN_FALSE; } } /* }}} */ /* {{{ Match (string)current() against regular expression */ PHP_METHOD(RegexIterator, accept) { spl_dual_it_object *intern; zend_string *result, *subject; size_t count = 0; zval zcount, rv; pcre2_match_data *match_data; pcre2_code *re; int rc; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->current.data) == IS_UNDEF) { RETURN_FALSE; } if (intern->u.regex.flags & REGIT_USE_KEY) { subject = zval_get_string(&intern->current.key); } else { if (Z_TYPE(intern->current.data) == IS_ARRAY) { RETURN_FALSE; } subject = zval_get_string(&intern->current.data); } /* Exception during string conversion. */ if (EG(exception)) { RETURN_THROWS(); } switch (intern->u.regex.mode) { case REGIT_MODE_MAX: /* won't happen but makes compiler happy */ case REGIT_MODE_MATCH: re = php_pcre_pce_re(intern->u.regex.pce); match_data = php_pcre_create_match_data(0, re); if (!match_data) { RETURN_FALSE; } rc = pcre2_match(re, (PCRE2_SPTR)ZSTR_VAL(subject), ZSTR_LEN(subject), 0, 0, match_data, php_pcre_mctx()); RETVAL_BOOL(rc >= 0); php_pcre_free_match_data(match_data); break; case REGIT_MODE_ALL_MATCHES: case REGIT_MODE_GET_MATCH: zval_ptr_dtor(&intern->current.data); ZVAL_UNDEF(&intern->current.data); php_pcre_match_impl(intern->u.regex.pce, subject, &zcount, &intern->current.data, intern->u.regex.mode == REGIT_MODE_ALL_MATCHES, intern->u.regex.use_flags, intern->u.regex.preg_flags, 0); RETVAL_BOOL(Z_LVAL(zcount) > 0); break; case REGIT_MODE_SPLIT: zval_ptr_dtor(&intern->current.data); ZVAL_UNDEF(&intern->current.data); php_pcre_split_impl(intern->u.regex.pce, subject, &intern->current.data, -1, intern->u.regex.preg_flags); count = zend_hash_num_elements(Z_ARRVAL(intern->current.data)); RETVAL_BOOL(count > 1); break; case REGIT_MODE_REPLACE: { zval *replacement = zend_read_property(intern->std.ce, Z_OBJ_P(ZEND_THIS), "replacement", sizeof("replacement")-1, 1, &rv); zend_string *replacement_str = zval_try_get_string(replacement); if (UNEXPECTED(!replacement_str)) { return; } result = php_pcre_replace_impl(intern->u.regex.pce, subject, ZSTR_VAL(subject), ZSTR_LEN(subject), replacement_str, -1, &count); if (intern->u.regex.flags & REGIT_USE_KEY) { zval_ptr_dtor(&intern->current.key); ZVAL_STR(&intern->current.key, result); } else { zval_ptr_dtor(&intern->current.data); ZVAL_STR(&intern->current.data, result); } zend_string_release(replacement_str); RETVAL_BOOL(count > 0); } } if (intern->u.regex.flags & REGIT_INVERTED) { RETVAL_BOOL(Z_TYPE_P(return_value) != IS_TRUE); } zend_string_release_ex(subject, 0); } /* }}} */ /* {{{ Returns current regular expression */ PHP_METHOD(RegexIterator, getRegex) { spl_dual_it_object *intern = Z_SPLDUAL_IT_P(ZEND_THIS); if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_STR_COPY(intern->u.regex.regex); } /* }}} */ /* {{{ Returns current operation mode */ PHP_METHOD(RegexIterator, getMode) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_LONG(intern->u.regex.mode); } /* }}} */ /* {{{ Set new operation mode */ PHP_METHOD(RegexIterator, setMode) { spl_dual_it_object *intern; zend_long mode; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &mode) == FAILURE) { RETURN_THROWS(); } if (mode < 0 || mode >= REGIT_MODE_MAX) { zend_argument_value_error(1, "must be RegexIterator::MATCH, RegexIterator::GET_MATCH, " "RegexIterator::ALL_MATCHES, RegexIterator::SPLIT, or RegexIterator::REPLACE"); RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); intern->u.regex.mode = mode; } /* }}} */ /* {{{ Returns current operation flags */ PHP_METHOD(RegexIterator, getFlags) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_LONG(intern->u.regex.flags); } /* }}} */ /* {{{ Set operation flags */ PHP_METHOD(RegexIterator, setFlags) { spl_dual_it_object *intern; zend_long flags; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &flags) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); intern->u.regex.flags = flags; } /* }}} */ /* {{{ Returns current PREG flags (if in use or NULL) */ PHP_METHOD(RegexIterator, getPregFlags) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (intern->u.regex.use_flags) { RETURN_LONG(intern->u.regex.preg_flags); } else { RETURN_LONG(0); } } /* }}} */ /* {{{ Set PREG flags */ PHP_METHOD(RegexIterator, setPregFlags) { spl_dual_it_object *intern; zend_long preg_flags; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &preg_flags) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); intern->u.regex.preg_flags = preg_flags; intern->u.regex.use_flags = 1; } /* }}} */ /* {{{ Create an RecursiveRegexIterator from another recursive iterator and a regular expression */ PHP_METHOD(RecursiveRegexIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveRegexIterator, spl_ce_RecursiveIterator, DIT_RecursiveRegexIterator); } /* }}} */ /* {{{ Return the inner iterator's children contained in a RecursiveRegexIterator */ PHP_METHOD(RecursiveRegexIterator, getChildren) { spl_dual_it_object *intern; zval retval; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "getchildren", &retval); if (!EG(exception)) { zval args[5]; ZVAL_COPY(&args[0], &retval); ZVAL_STR_COPY(&args[1], intern->u.regex.regex); ZVAL_LONG(&args[2], intern->u.regex.mode); ZVAL_LONG(&args[3], intern->u.regex.flags); ZVAL_LONG(&args[4], intern->u.regex.preg_flags); spl_instantiate_arg_n(Z_OBJCE_P(ZEND_THIS), return_value, 5, args); zval_ptr_dtor(&args[0]); zval_ptr_dtor(&args[1]); } zval_ptr_dtor(&retval); } /* }}} */ PHP_METHOD(RecursiveRegexIterator, accept) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->current.data) == IS_UNDEF) { RETURN_FALSE; } else if (Z_TYPE(intern->current.data) == IS_ARRAY) { RETURN_BOOL(zend_hash_num_elements(Z_ARRVAL(intern->current.data)) > 0); } zend_call_method_with_0_params(Z_OBJ_P(ZEND_THIS), spl_ce_RegexIterator, NULL, "accept", return_value); } /* {{{ spl_dual_it_dtor */ static void spl_dual_it_dtor(zend_object *_object) { spl_dual_it_object *object = spl_dual_it_from_obj(_object); /* call standard dtor */ zend_objects_destroy_object(_object); spl_dual_it_free(object); if (object->inner.iterator) { zend_iterator_dtor(object->inner.iterator); } } /* }}} */ /* {{{ spl_dual_it_free_storage */ static void spl_dual_it_free_storage(zend_object *_object) { spl_dual_it_object *object = spl_dual_it_from_obj(_object); if (!Z_ISUNDEF(object->inner.zobject)) { zval_ptr_dtor(&object->inner.zobject); } if (object->dit_type == DIT_AppendIterator) { zend_iterator_dtor(object->u.append.iterator); if (Z_TYPE(object->u.append.zarrayit) != IS_UNDEF) { zval_ptr_dtor(&object->u.append.zarrayit); } } if (object->dit_type == DIT_CachingIterator || object->dit_type == DIT_RecursiveCachingIterator) { zval_ptr_dtor(&object->u.caching.zcache); } if (object->dit_type == DIT_RegexIterator || object->dit_type == DIT_RecursiveRegexIterator) { if (object->u.regex.pce) { php_pcre_pce_decref(object->u.regex.pce); } if (object->u.regex.regex) { zend_string_release_ex(object->u.regex.regex, 0); } } if (object->dit_type == DIT_CallbackFilterIterator || object->dit_type == DIT_RecursiveCallbackFilterIterator) { if (object->u.cbfilter) { _spl_cbfilter_it_intern *cbfilter = object->u.cbfilter; object->u.cbfilter = NULL; zval_ptr_dtor(&cbfilter->fci.function_name); if (cbfilter->fci.object) { OBJ_RELEASE(cbfilter->fci.object); } efree(cbfilter); } } zend_object_std_dtor(&object->std); } /* }}} */ static HashTable *spl_dual_it_get_gc(zend_object *obj, zval **table, int *n) { spl_dual_it_object *object = spl_dual_it_from_obj(obj); zend_get_gc_buffer *gc_buffer = zend_get_gc_buffer_create(); if (!Z_ISUNDEF(object->inner.zobject)) { zend_get_gc_buffer_add_zval(gc_buffer, &object->inner.zobject); } switch (object->dit_type) { case DIT_Unknown: case DIT_Default: case DIT_IteratorIterator: case DIT_NoRewindIterator: case DIT_InfiniteIterator: case DIT_LimitIterator: case DIT_RegexIterator: case DIT_RecursiveRegexIterator: /* Nothing to do */ break; case DIT_AppendIterator: zend_get_gc_buffer_add_obj(gc_buffer, &object->u.append.iterator->std); if (Z_TYPE(object->u.append.zarrayit) != IS_UNDEF) { zend_get_gc_buffer_add_zval(gc_buffer, &object->u.append.zarrayit); } break; case DIT_CachingIterator: case DIT_RecursiveCachingIterator: zend_get_gc_buffer_add_zval(gc_buffer, &object->u.caching.zcache); break; case DIT_CallbackFilterIterator: case DIT_RecursiveCallbackFilterIterator: if (object->u.cbfilter) { zend_get_gc_buffer_add_zval(gc_buffer, &object->u.cbfilter->fci.function_name); if (object->u.cbfilter->fci.object) { zend_get_gc_buffer_add_obj(gc_buffer, object->u.cbfilter->fci.object); } } break; } zend_get_gc_buffer_use(gc_buffer, table, n); return zend_std_get_properties(obj); } /* {{{ spl_dual_it_new */ static zend_object *spl_dual_it_new(zend_class_entry *class_type) { spl_dual_it_object *intern; intern = zend_object_alloc(sizeof(spl_dual_it_object), class_type); intern->dit_type = DIT_Unknown; zend_object_std_init(&intern->std, class_type); object_properties_init(&intern->std, class_type); intern->std.handlers = &spl_handlers_dual_it; return &intern->std; } /* }}} */ static inline int spl_limit_it_valid(spl_dual_it_object *intern) { /* FAILURE / SUCCESS */ if (intern->u.limit.count != -1 && intern->current.pos >= intern->u.limit.offset + intern->u.limit.count) { return FAILURE; } else { return spl_dual_it_valid(intern); } } static inline void spl_limit_it_seek(spl_dual_it_object *intern, zend_long pos) { zval zpos; spl_dual_it_free(intern); if (pos < intern->u.limit.offset) { zend_throw_exception_ex(spl_ce_OutOfBoundsException, 0, "Cannot seek to " ZEND_LONG_FMT " which is below the offset " ZEND_LONG_FMT, pos, intern->u.limit.offset); return; } if (pos >= intern->u.limit.offset + intern->u.limit.count && intern->u.limit.count != -1) { zend_throw_exception_ex(spl_ce_OutOfBoundsException, 0, "Cannot seek to " ZEND_LONG_FMT " which is behind offset " ZEND_LONG_FMT " plus count " ZEND_LONG_FMT, pos, intern->u.limit.offset, intern->u.limit.count); return; } if (pos != intern->current.pos && instanceof_function(intern->inner.ce, spl_ce_SeekableIterator)) { ZVAL_LONG(&zpos, pos); spl_dual_it_free(intern); zend_call_method_with_1_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "seek", NULL, &zpos); if (!EG(exception)) { intern->current.pos = pos; if (spl_limit_it_valid(intern) == SUCCESS) { spl_dual_it_fetch(intern, 0); } } } else { /* emulate the forward seek, by next() calls */ /* a back ward seek is done by a previous rewind() */ if (pos < intern->current.pos) { spl_dual_it_rewind(intern); } while (pos > intern->current.pos && spl_dual_it_valid(intern) == SUCCESS) { spl_dual_it_next(intern, 1); } if (spl_dual_it_valid(intern) == SUCCESS) { spl_dual_it_fetch(intern, 1); } } } /* {{{ Construct a LimitIterator from an Iterator with a given starting offset and optionally a maximum count */ PHP_METHOD(LimitIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_LimitIterator, zend_ce_iterator, DIT_LimitIterator); } /* }}} */ /* {{{ Rewind the iterator to the specified starting offset */ PHP_METHOD(LimitIterator, rewind) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_rewind(intern); spl_limit_it_seek(intern, intern->u.limit.offset); } /* }}} */ /* {{{ Check whether the current element is valid */ PHP_METHOD(LimitIterator, valid) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); /* RETURN_BOOL(spl_limit_it_valid(intern) == SUCCESS);*/ RETURN_BOOL((intern->u.limit.count == -1 || intern->current.pos < intern->u.limit.offset + intern->u.limit.count) && Z_TYPE(intern->current.data) != IS_UNDEF); } /* }}} */ /* {{{ Move the iterator forward */ PHP_METHOD(LimitIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_next(intern, 1); if (intern->u.limit.count == -1 || intern->current.pos < intern->u.limit.offset + intern->u.limit.count) { spl_dual_it_fetch(intern, 1); } } /* }}} */ /* {{{ Seek to the given position */ PHP_METHOD(LimitIterator, seek) { spl_dual_it_object *intern; zend_long pos; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &pos) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_limit_it_seek(intern, pos); RETURN_LONG(intern->current.pos); } /* }}} */ /* {{{ Return the current position */ PHP_METHOD(LimitIterator, getPosition) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_LONG(intern->current.pos); } /* }}} */ static inline int spl_caching_it_valid(spl_dual_it_object *intern) { return intern->u.caching.flags & CIT_VALID ? SUCCESS : FAILURE; } static inline int spl_caching_it_has_next(spl_dual_it_object *intern) { return spl_dual_it_valid(intern); } static inline void spl_caching_it_next(spl_dual_it_object *intern) { if (spl_dual_it_fetch(intern, 1) == SUCCESS) { intern->u.caching.flags |= CIT_VALID; /* Full cache ? */ if (intern->u.caching.flags & CIT_FULL_CACHE) { zval *key = &intern->current.key; zval *data = &intern->current.data; ZVAL_DEREF(data); array_set_zval_key(Z_ARRVAL(intern->u.caching.zcache), key, data); } /* Recursion ? */ if (intern->dit_type == DIT_RecursiveCachingIterator) { zval retval, zchildren, zflags; zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "haschildren", &retval); if (EG(exception)) { zval_ptr_dtor(&retval); if (intern->u.caching.flags & CIT_CATCH_GET_CHILD) { zend_clear_exception(); } else { return; } } else { if (zend_is_true(&retval)) { zend_call_method_with_0_params(Z_OBJ(intern->inner.zobject), intern->inner.ce, NULL, "getchildren", &zchildren); if (EG(exception)) { zval_ptr_dtor(&zchildren); if (intern->u.caching.flags & CIT_CATCH_GET_CHILD) { zend_clear_exception(); } else { zval_ptr_dtor(&retval); return; } } else { ZVAL_LONG(&zflags, intern->u.caching.flags & CIT_PUBLIC); spl_instantiate_arg_ex2(spl_ce_RecursiveCachingIterator, &intern->u.caching.zchildren, &zchildren, &zflags); zval_ptr_dtor(&zchildren); } } zval_ptr_dtor(&retval); if (EG(exception)) { if (intern->u.caching.flags & CIT_CATCH_GET_CHILD) { zend_clear_exception(); } else { return; } } } } if (intern->u.caching.flags & (CIT_TOSTRING_USE_INNER|CIT_CALL_TOSTRING)) { int use_copy; zval expr_copy; if (intern->u.caching.flags & CIT_TOSTRING_USE_INNER) { ZVAL_COPY_VALUE(&intern->u.caching.zstr, &intern->inner.zobject); } else { ZVAL_COPY_VALUE(&intern->u.caching.zstr, &intern->current.data); } use_copy = zend_make_printable_zval(&intern->u.caching.zstr, &expr_copy); if (use_copy) { ZVAL_COPY_VALUE(&intern->u.caching.zstr, &expr_copy); } else { Z_TRY_ADDREF(intern->u.caching.zstr); } } spl_dual_it_next(intern, 0); } else { intern->u.caching.flags &= ~CIT_VALID; } } static inline void spl_caching_it_rewind(spl_dual_it_object *intern) { spl_dual_it_rewind(intern); zend_hash_clean(Z_ARRVAL(intern->u.caching.zcache)); spl_caching_it_next(intern); } /* {{{ Construct a CachingIterator from an Iterator */ PHP_METHOD(CachingIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_CachingIterator, zend_ce_iterator, DIT_CachingIterator); } /* }}} */ /* {{{ Rewind the iterator */ PHP_METHOD(CachingIterator, rewind) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_caching_it_rewind(intern); } /* }}} */ /* {{{ Check whether the current element is valid */ PHP_METHOD(CachingIterator, valid) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(spl_caching_it_valid(intern) == SUCCESS); } /* }}} */ /* {{{ Move the iterator forward */ PHP_METHOD(CachingIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_caching_it_next(intern); } /* }}} */ /* {{{ Check whether the inner iterator has a valid next element */ PHP_METHOD(CachingIterator, hasNext) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(spl_caching_it_has_next(intern) == SUCCESS); } /* }}} */ /* {{{ Return the string representation of the current element */ PHP_METHOD(CachingIterator, __toString) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & (CIT_CALL_TOSTRING|CIT_TOSTRING_USE_KEY|CIT_TOSTRING_USE_CURRENT|CIT_TOSTRING_USE_INNER))) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not fetch string value (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } if (intern->u.caching.flags & CIT_TOSTRING_USE_KEY) { ZVAL_COPY(return_value, &intern->current.key); convert_to_string(return_value); return; } else if (intern->u.caching.flags & CIT_TOSTRING_USE_CURRENT) { ZVAL_COPY(return_value, &intern->current.data); convert_to_string(return_value); return; } if (Z_TYPE(intern->u.caching.zstr) == IS_STRING) { RETURN_STR_COPY(Z_STR_P(&intern->u.caching.zstr)); } else { RETURN_EMPTY_STRING(); } } /* }}} */ /* {{{ Set given index in cache */ PHP_METHOD(CachingIterator, offsetSet) { spl_dual_it_object *intern; zend_string *key; zval *value; if (zend_parse_parameters(ZEND_NUM_ARGS(), "Sz", &key, &value) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } Z_TRY_ADDREF_P(value); zend_symtable_update(Z_ARRVAL(intern->u.caching.zcache), key, value); } /* }}} */ /* {{{ Return the internal cache if used */ PHP_METHOD(CachingIterator, offsetGet) { spl_dual_it_object *intern; zend_string *key; zval *value; if (zend_parse_parameters(ZEND_NUM_ARGS(), "S", &key) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } if ((value = zend_symtable_find(Z_ARRVAL(intern->u.caching.zcache), key)) == NULL) { zend_error(E_WARNING, "Undefined array key \"%s\"", ZSTR_VAL(key)); return; } ZVAL_COPY_DEREF(return_value, value); } /* }}} */ /* {{{ Unset given index in cache */ PHP_METHOD(CachingIterator, offsetUnset) { spl_dual_it_object *intern; zend_string *key; SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (zend_parse_parameters(ZEND_NUM_ARGS(), "S", &key) == FAILURE) { RETURN_THROWS(); } if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } zend_symtable_del(Z_ARRVAL(intern->u.caching.zcache), key); } /* }}} */ /* {{{ Return whether the requested index exists */ PHP_METHOD(CachingIterator, offsetExists) { spl_dual_it_object *intern; zend_string *key; if (zend_parse_parameters(ZEND_NUM_ARGS(), "S", &key) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } RETURN_BOOL(zend_symtable_exists(Z_ARRVAL(intern->u.caching.zcache), key)); } /* }}} */ /* {{{ Return the cache */ PHP_METHOD(CachingIterator, getCache) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } ZVAL_COPY(return_value, &intern->u.caching.zcache); } /* }}} */ /* {{{ Return the internal flags */ PHP_METHOD(CachingIterator, getFlags) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_LONG(intern->u.caching.flags); } /* }}} */ /* {{{ Set the internal flags */ PHP_METHOD(CachingIterator, setFlags) { spl_dual_it_object *intern; zend_long flags; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &flags) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (spl_cit_check_flags(flags) != SUCCESS) { zend_argument_value_error(1, "must contain only one of CachingIterator::CALL_TOSTRING, " "CachingIterator::TOSTRING_USE_KEY, CachingIterator::TOSTRING_USE_CURRENT, " "or CachingIterator::TOSTRING_USE_INNER"); RETURN_THROWS(); } if ((intern->u.caching.flags & CIT_CALL_TOSTRING) != 0 && (flags & CIT_CALL_TOSTRING) == 0) { zend_throw_exception(spl_ce_InvalidArgumentException, "Unsetting flag CALL_TO_STRING is not possible", 0); RETURN_THROWS(); } if ((intern->u.caching.flags & CIT_TOSTRING_USE_INNER) != 0 && (flags & CIT_TOSTRING_USE_INNER) == 0) { zend_throw_exception(spl_ce_InvalidArgumentException, "Unsetting flag TOSTRING_USE_INNER is not possible", 0); RETURN_THROWS(); } if ((flags & CIT_FULL_CACHE) != 0 && (intern->u.caching.flags & CIT_FULL_CACHE) == 0) { /* clear on (re)enable */ zend_hash_clean(Z_ARRVAL(intern->u.caching.zcache)); } intern->u.caching.flags = (intern->u.caching.flags & ~CIT_PUBLIC) | (flags & CIT_PUBLIC); } /* }}} */ /* {{{ Number of cached elements */ PHP_METHOD(CachingIterator, count) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (!(intern->u.caching.flags & CIT_FULL_CACHE)) { zend_throw_exception_ex(spl_ce_BadMethodCallException, 0, "%s does not use a full cache (see CachingIterator::__construct)", ZSTR_VAL(Z_OBJCE_P(ZEND_THIS)->name)); RETURN_THROWS(); } RETURN_LONG(zend_hash_num_elements(Z_ARRVAL(intern->u.caching.zcache))); } /* }}} */ /* {{{ Create an iterator from a RecursiveIterator */ PHP_METHOD(RecursiveCachingIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_RecursiveCachingIterator, spl_ce_RecursiveIterator, DIT_RecursiveCachingIterator); } /* }}} */ /* {{{ Check whether the current element of the inner iterator has children */ PHP_METHOD(RecursiveCachingIterator, hasChildren) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(Z_TYPE(intern->u.caching.zchildren) != IS_UNDEF); } /* }}} */ /* {{{ Return the inner iterator's children as a RecursiveCachingIterator */ PHP_METHOD(RecursiveCachingIterator, getChildren) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (Z_TYPE(intern->u.caching.zchildren) != IS_UNDEF) { zval *value = &intern->u.caching.zchildren; ZVAL_COPY_DEREF(return_value, value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Create an iterator from anything that is traversable */ PHP_METHOD(IteratorIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_IteratorIterator, zend_ce_traversable, DIT_IteratorIterator); } /* }}} */ /* {{{ Create an iterator from another iterator */ PHP_METHOD(NoRewindIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_NoRewindIterator, zend_ce_iterator, DIT_NoRewindIterator); } /* }}} */ /* {{{ Prevent a call to inner iterators rewind() */ PHP_METHOD(NoRewindIterator, rewind) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } /* nothing to do */ } /* }}} */ /* {{{ Return inner iterators valid() */ PHP_METHOD(NoRewindIterator, valid) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(intern->inner.iterator->funcs->valid(intern->inner.iterator) == SUCCESS); } /* }}} */ /* {{{ Return inner iterators key() */ PHP_METHOD(NoRewindIterator, key) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (intern->inner.iterator->funcs->get_current_key) { intern->inner.iterator->funcs->get_current_key(intern->inner.iterator, return_value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Return inner iterators current() */ PHP_METHOD(NoRewindIterator, current) { spl_dual_it_object *intern; zval *data; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); data = intern->inner.iterator->funcs->get_current_data(intern->inner.iterator); if (data) { ZVAL_COPY_DEREF(return_value, data); } } /* }}} */ /* {{{ Return inner iterators next() */ PHP_METHOD(NoRewindIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); intern->inner.iterator->funcs->move_forward(intern->inner.iterator); } /* }}} */ /* {{{ Create an iterator from another iterator */ PHP_METHOD(InfiniteIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_InfiniteIterator, zend_ce_iterator, DIT_InfiniteIterator); } /* }}} */ /* {{{ Prevent a call to inner iterators rewind() (internally the current data will be fetched if valid()) */ PHP_METHOD(InfiniteIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_next(intern, 1); if (spl_dual_it_valid(intern) == SUCCESS) { spl_dual_it_fetch(intern, 0); } else { spl_dual_it_rewind(intern); if (spl_dual_it_valid(intern) == SUCCESS) { spl_dual_it_fetch(intern, 0); } } } /* }}} */ /* {{{ Does nothing */ PHP_METHOD(EmptyIterator, rewind) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } } /* }}} */ /* {{{ Return false */ PHP_METHOD(EmptyIterator, valid) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } RETURN_FALSE; } /* }}} */ /* {{{ Throws exception BadMethodCallException */ PHP_METHOD(EmptyIterator, key) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } zend_throw_exception(spl_ce_BadMethodCallException, "Accessing the key of an EmptyIterator", 0); } /* }}} */ /* {{{ Throws exception BadMethodCallException */ PHP_METHOD(EmptyIterator, current) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } zend_throw_exception(spl_ce_BadMethodCallException, "Accessing the value of an EmptyIterator", 0); } /* }}} */ /* {{{ Does nothing */ PHP_METHOD(EmptyIterator, next) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } } /* }}} */ int spl_append_it_next_iterator(spl_dual_it_object *intern) /* {{{*/ { spl_dual_it_free(intern); if (!Z_ISUNDEF(intern->inner.zobject)) { zval_ptr_dtor(&intern->inner.zobject); ZVAL_UNDEF(&intern->inner.zobject); intern->inner.ce = NULL; if (intern->inner.iterator) { zend_iterator_dtor(intern->inner.iterator); intern->inner.iterator = NULL; } } if (intern->u.append.iterator->funcs->valid(intern->u.append.iterator) == SUCCESS) { zval *it; it = intern->u.append.iterator->funcs->get_current_data(intern->u.append.iterator); ZVAL_COPY(&intern->inner.zobject, it); intern->inner.ce = Z_OBJCE_P(it); intern->inner.iterator = intern->inner.ce->get_iterator(intern->inner.ce, it, 0); spl_dual_it_rewind(intern); return SUCCESS; } else { return FAILURE; } } /* }}} */ void spl_append_it_fetch(spl_dual_it_object *intern) /* {{{*/ { while (spl_dual_it_valid(intern) != SUCCESS) { intern->u.append.iterator->funcs->move_forward(intern->u.append.iterator); if (spl_append_it_next_iterator(intern) != SUCCESS) { return; } } spl_dual_it_fetch(intern, 0); } /* }}} */ void spl_append_it_next(spl_dual_it_object *intern) /* {{{ */ { if (spl_dual_it_valid(intern) == SUCCESS) { spl_dual_it_next(intern, 1); } spl_append_it_fetch(intern); } /* }}} */ /* {{{ Create an AppendIterator */ PHP_METHOD(AppendIterator, __construct) { spl_dual_it_construct(INTERNAL_FUNCTION_PARAM_PASSTHRU, spl_ce_AppendIterator, zend_ce_iterator, DIT_AppendIterator); } /* }}} */ /* {{{ Append an iterator */ PHP_METHOD(AppendIterator, append) { spl_dual_it_object *intern; zval *it; if (zend_parse_parameters(ZEND_NUM_ARGS(), "O", &it, zend_ce_iterator) == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); if (intern->u.append.iterator->funcs->valid(intern->u.append.iterator) == SUCCESS && spl_dual_it_valid(intern) != SUCCESS) { spl_array_iterator_append(&intern->u.append.zarrayit, it); intern->u.append.iterator->funcs->move_forward(intern->u.append.iterator); }else{ spl_array_iterator_append(&intern->u.append.zarrayit, it); } if (!intern->inner.iterator || spl_dual_it_valid(intern) != SUCCESS) { if (intern->u.append.iterator->funcs->valid(intern->u.append.iterator) != SUCCESS) { intern->u.append.iterator->funcs->rewind(intern->u.append.iterator); } do { spl_append_it_next_iterator(intern); } while (Z_OBJ(intern->inner.zobject) != Z_OBJ_P(it)); spl_append_it_fetch(intern); } } /* }}} */ /* {{{ Get the current element value */ PHP_METHOD(AppendIterator, current) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_dual_it_fetch(intern, 1); if (Z_TYPE(intern->current.data) != IS_UNDEF) { zval *value = &intern->current.data; ZVAL_COPY_DEREF(return_value, value); } else { RETURN_NULL(); } } /* }}} */ /* {{{ Rewind to the first iterator and rewind the first iterator, too */ PHP_METHOD(AppendIterator, rewind) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); intern->u.append.iterator->funcs->rewind(intern->u.append.iterator); if (spl_append_it_next_iterator(intern) == SUCCESS) { spl_append_it_fetch(intern); } } /* }}} */ /* {{{ Check if the current state is valid */ PHP_METHOD(AppendIterator, valid) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); RETURN_BOOL(Z_TYPE(intern->current.data) != IS_UNDEF); } /* }}} */ /* {{{ Forward to next element */ PHP_METHOD(AppendIterator, next) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); spl_append_it_next(intern); } /* }}} */ /* {{{ Get index of iterator */ PHP_METHOD(AppendIterator, getIteratorIndex) { spl_dual_it_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); APPENDIT_CHECK_CTOR(intern); spl_array_iterator_key(&intern->u.append.zarrayit, return_value); } /* }}} */ /* {{{ Get access to inner ArrayIterator */ PHP_METHOD(AppendIterator, getArrayIterator) { spl_dual_it_object *intern; zval *value; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } SPL_FETCH_AND_CHECK_DUAL_IT(intern, ZEND_THIS); value = &intern->u.append.zarrayit; ZVAL_COPY_DEREF(return_value, value); } /* }}} */ PHPAPI int spl_iterator_apply(zval *obj, spl_iterator_apply_func_t apply_func, void *puser) { zend_object_iterator *iter; zend_class_entry *ce = Z_OBJCE_P(obj); iter = ce->get_iterator(ce, obj, 0); if (EG(exception)) { goto done; } iter->index = 0; if (iter->funcs->rewind) { iter->funcs->rewind(iter); if (EG(exception)) { goto done; } } while (iter->funcs->valid(iter) == SUCCESS) { if (EG(exception)) { goto done; } if (apply_func(iter, puser) == ZEND_HASH_APPLY_STOP || EG(exception)) { goto done; } iter->index++; iter->funcs->move_forward(iter); if (EG(exception)) { goto done; } } done: if (iter) { zend_iterator_dtor(iter); } return EG(exception) ? FAILURE : SUCCESS; } /* }}} */ static int spl_iterator_to_array_apply(zend_object_iterator *iter, void *puser) /* {{{ */ { zval *data, *return_value = (zval*)puser; data = iter->funcs->get_current_data(iter); if (EG(exception)) { return ZEND_HASH_APPLY_STOP; } if (data == NULL) { return ZEND_HASH_APPLY_STOP; } if (iter->funcs->get_current_key) { zval key; iter->funcs->get_current_key(iter, &key); if (EG(exception)) { return ZEND_HASH_APPLY_STOP; } array_set_zval_key(Z_ARRVAL_P(return_value), &key, data); zval_ptr_dtor(&key); } else { Z_TRY_ADDREF_P(data); add_next_index_zval(return_value, data); } return ZEND_HASH_APPLY_KEEP; } /* }}} */ static int spl_iterator_to_values_apply(zend_object_iterator *iter, void *puser) /* {{{ */ { zval *data, *return_value = (zval*)puser; data = iter->funcs->get_current_data(iter); if (EG(exception)) { return ZEND_HASH_APPLY_STOP; } if (data == NULL) { return ZEND_HASH_APPLY_STOP; } Z_TRY_ADDREF_P(data); add_next_index_zval(return_value, data); return ZEND_HASH_APPLY_KEEP; } /* }}} */ /* {{{ Copy the iterator into an array */ PHP_FUNCTION(iterator_to_array) { zval *obj; bool use_keys = 1; if (zend_parse_parameters(ZEND_NUM_ARGS(), "O|b", &obj, zend_ce_traversable, &use_keys) == FAILURE) { RETURN_THROWS(); } array_init(return_value); spl_iterator_apply(obj, use_keys ? spl_iterator_to_array_apply : spl_iterator_to_values_apply, (void*)return_value); } /* }}} */ static int spl_iterator_count_apply(zend_object_iterator *iter, void *puser) /* {{{ */ { (*(zend_long*)puser)++; return ZEND_HASH_APPLY_KEEP; } /* }}} */ /* {{{ Count the elements in an iterator */ PHP_FUNCTION(iterator_count) { zval *obj; zend_long count = 0; if (zend_parse_parameters(ZEND_NUM_ARGS(), "O", &obj, zend_ce_traversable) == FAILURE) { RETURN_THROWS(); } if (spl_iterator_apply(obj, spl_iterator_count_apply, (void*)&count) == FAILURE) { return; } RETURN_LONG(count); } /* }}} */ typedef struct { zval *obj; zval *args; zend_long count; zend_fcall_info fci; zend_fcall_info_cache fcc; } spl_iterator_apply_info; static int spl_iterator_func_apply(zend_object_iterator *iter, void *puser) /* {{{ */ { zval retval; spl_iterator_apply_info *apply_info = (spl_iterator_apply_info*)puser; int result; apply_info->count++; zend_fcall_info_call(&apply_info->fci, &apply_info->fcc, &retval, NULL); result = zend_is_true(&retval) ? ZEND_HASH_APPLY_KEEP : ZEND_HASH_APPLY_STOP; zval_ptr_dtor(&retval); return result; } /* }}} */ /* {{{ Calls a function for every element in an iterator */ PHP_FUNCTION(iterator_apply) { spl_iterator_apply_info apply_info; apply_info.args = NULL; if (zend_parse_parameters(ZEND_NUM_ARGS(), "Of|a!", &apply_info.obj, zend_ce_traversable, &apply_info.fci, &apply_info.fcc, &apply_info.args) == FAILURE) { RETURN_THROWS(); } apply_info.count = 0; zend_fcall_info_args(&apply_info.fci, apply_info.args); if (spl_iterator_apply(apply_info.obj, spl_iterator_func_apply, (void*)&apply_info) == FAILURE) { zend_fcall_info_args(&apply_info.fci, NULL); return; } zend_fcall_info_args(&apply_info.fci, NULL); RETURN_LONG(apply_info.count); } /* }}} */ /* {{{ PHP_MINIT_FUNCTION(spl_iterators) */ PHP_MINIT_FUNCTION(spl_iterators) { spl_ce_RecursiveIterator = register_class_RecursiveIterator(zend_ce_iterator); spl_ce_OuterIterator = register_class_OuterIterator(zend_ce_iterator); spl_ce_RecursiveIteratorIterator = register_class_RecursiveIteratorIterator(spl_ce_OuterIterator); spl_ce_RecursiveIteratorIterator->create_object = spl_RecursiveIteratorIterator_new; spl_ce_RecursiveIteratorIterator->get_iterator = spl_recursive_it_get_iterator; memcpy(&spl_handlers_rec_it_it, &std_object_handlers, sizeof(zend_object_handlers)); spl_handlers_rec_it_it.offset = XtOffsetOf(spl_recursive_it_object, std); spl_handlers_rec_it_it.get_method = spl_recursive_it_get_method; spl_handlers_rec_it_it.clone_obj = NULL; spl_handlers_rec_it_it.dtor_obj = spl_RecursiveIteratorIterator_dtor; spl_handlers_rec_it_it.free_obj = spl_RecursiveIteratorIterator_free_storage; memcpy(&spl_handlers_dual_it, &std_object_handlers, sizeof(zend_object_handlers)); spl_handlers_dual_it.offset = XtOffsetOf(spl_dual_it_object, std); spl_handlers_dual_it.get_method = spl_dual_it_get_method; spl_handlers_dual_it.clone_obj = NULL; spl_handlers_dual_it.dtor_obj = spl_dual_it_dtor; spl_handlers_dual_it.free_obj = spl_dual_it_free_storage; spl_handlers_dual_it.get_gc = spl_dual_it_get_gc; REGISTER_SPL_CLASS_CONST_LONG(RecursiveIteratorIterator, "LEAVES_ONLY", RIT_LEAVES_ONLY); REGISTER_SPL_CLASS_CONST_LONG(RecursiveIteratorIterator, "SELF_FIRST", RIT_SELF_FIRST); REGISTER_SPL_CLASS_CONST_LONG(RecursiveIteratorIterator, "CHILD_FIRST", RIT_CHILD_FIRST); REGISTER_SPL_CLASS_CONST_LONG(RecursiveIteratorIterator, "CATCH_GET_CHILD", RIT_CATCH_GET_CHILD); spl_ce_IteratorIterator = register_class_IteratorIterator(spl_ce_OuterIterator); spl_ce_IteratorIterator->create_object = spl_dual_it_new; spl_ce_FilterIterator = register_class_FilterIterator(spl_ce_IteratorIterator); spl_ce_FilterIterator->create_object = spl_dual_it_new; spl_ce_RecursiveFilterIterator = register_class_RecursiveFilterIterator(spl_ce_FilterIterator, spl_ce_RecursiveIterator); spl_ce_RecursiveFilterIterator->create_object = spl_dual_it_new; spl_ce_CallbackFilterIterator = register_class_CallbackFilterIterator(spl_ce_FilterIterator); spl_ce_CallbackFilterIterator->create_object = spl_dual_it_new; spl_ce_RecursiveCallbackFilterIterator = register_class_RecursiveCallbackFilterIterator(spl_ce_CallbackFilterIterator, spl_ce_RecursiveIterator); spl_ce_RecursiveCallbackFilterIterator->create_object = spl_dual_it_new; spl_ce_ParentIterator = register_class_ParentIterator(spl_ce_RecursiveFilterIterator); spl_ce_ParentIterator->create_object = spl_dual_it_new; spl_ce_SeekableIterator = register_class_SeekableIterator(zend_ce_iterator); spl_ce_LimitIterator = register_class_LimitIterator(spl_ce_IteratorIterator); spl_ce_LimitIterator->create_object = spl_dual_it_new; spl_ce_CachingIterator = register_class_CachingIterator(spl_ce_IteratorIterator, zend_ce_arrayaccess, zend_ce_countable, zend_ce_stringable); spl_ce_CachingIterator->create_object = spl_dual_it_new; REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "CALL_TOSTRING", CIT_CALL_TOSTRING); REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "CATCH_GET_CHILD", CIT_CATCH_GET_CHILD); REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "TOSTRING_USE_KEY", CIT_TOSTRING_USE_KEY); REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "TOSTRING_USE_CURRENT", CIT_TOSTRING_USE_CURRENT); REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "TOSTRING_USE_INNER", CIT_TOSTRING_USE_INNER); REGISTER_SPL_CLASS_CONST_LONG(CachingIterator, "FULL_CACHE", CIT_FULL_CACHE); spl_ce_RecursiveCachingIterator = register_class_RecursiveCachingIterator(spl_ce_CachingIterator, spl_ce_RecursiveIterator); spl_ce_RecursiveCachingIterator->create_object = spl_dual_it_new; spl_ce_NoRewindIterator = register_class_NoRewindIterator(spl_ce_IteratorIterator); spl_ce_NoRewindIterator->create_object = spl_dual_it_new; spl_ce_AppendIterator = register_class_AppendIterator(spl_ce_IteratorIterator); spl_ce_AppendIterator->create_object = spl_dual_it_new; spl_ce_InfiniteIterator = register_class_InfiniteIterator(spl_ce_IteratorIterator); spl_ce_InfiniteIterator->create_object = spl_dual_it_new; spl_ce_RegexIterator = register_class_RegexIterator(spl_ce_FilterIterator); spl_ce_RegexIterator->create_object = spl_dual_it_new; REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "USE_KEY", REGIT_USE_KEY); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "INVERT_MATCH",REGIT_INVERTED); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "MATCH", REGIT_MODE_MATCH); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "GET_MATCH", REGIT_MODE_GET_MATCH); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "ALL_MATCHES", REGIT_MODE_ALL_MATCHES); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "SPLIT", REGIT_MODE_SPLIT); REGISTER_SPL_CLASS_CONST_LONG(RegexIterator, "REPLACE", REGIT_MODE_REPLACE); spl_ce_RecursiveRegexIterator = register_class_RecursiveRegexIterator(spl_ce_RegexIterator, spl_ce_RecursiveIterator); spl_ce_RecursiveRegexIterator->create_object = spl_dual_it_new; spl_ce_EmptyIterator = register_class_EmptyIterator(zend_ce_iterator); spl_ce_RecursiveTreeIterator = register_class_RecursiveTreeIterator(spl_ce_RecursiveIteratorIterator); spl_ce_RecursiveTreeIterator->create_object = spl_RecursiveTreeIterator_new; REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "BYPASS_CURRENT", RTIT_BYPASS_CURRENT); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "BYPASS_KEY", RTIT_BYPASS_KEY); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_LEFT", 0); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_MID_HAS_NEXT", 1); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_MID_LAST", 2); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_END_HAS_NEXT", 3); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_END_LAST", 4); REGISTER_SPL_CLASS_CONST_LONG(RecursiveTreeIterator, "PREFIX_RIGHT", 5); return SUCCESS; } /* }}} */