/* +----------------------------------------------------------------------+ | 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: | | https://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Antony Dovgal | | Etienne Kneuss | +----------------------------------------------------------------------+ */ #ifdef HAVE_CONFIG_H #include #endif #include "php.h" #include "zend_interfaces.h" #include "zend_exceptions.h" #include "zend_attributes.h" #include "spl_fixedarray_arginfo.h" #include "spl_fixedarray.h" #include "spl_exceptions.h" #include "ext/json/php_json.h" /* For php_json_serializable_ce */ static zend_object_handlers spl_handler_SplFixedArray; PHPAPI zend_class_entry *spl_ce_SplFixedArray; /* Check if the object is an instance of a subclass of SplFixedArray that overrides method's implementation. * Expect subclassing SplFixedArray to be rare and check that first. */ #define HAS_FIXEDARRAY_ARRAYACCESS_OVERRIDE(object, method) UNEXPECTED((object)->ce != spl_ce_SplFixedArray && (object)->ce->arrayaccess_funcs_ptr->method->common.scope != spl_ce_SplFixedArray) typedef struct _spl_fixedarray { zend_long size; /* It is possible to resize this, so this can't be combined with the object */ zval *elements; /* If positive, it's a resize within a resize and the value gives the desired size. If -1, it's not. */ zend_long cached_resize; } spl_fixedarray; typedef struct _spl_fixedarray_object { spl_fixedarray array; zend_function *fptr_count; zend_object std; } spl_fixedarray_object; typedef struct _spl_fixedarray_it { zend_object_iterator intern; zend_long current; } spl_fixedarray_it; static spl_fixedarray_object *spl_fixed_array_from_obj(zend_object *obj) { return (spl_fixedarray_object*)((char*)(obj) - XtOffsetOf(spl_fixedarray_object, std)); } #define Z_SPLFIXEDARRAY_P(zv) spl_fixed_array_from_obj(Z_OBJ_P((zv))) /* Helps enforce the invariants in debug mode: * - if size == 0, then elements == NULL * - if size > 0, then elements != NULL * - size is not less than 0 */ static bool spl_fixedarray_empty(spl_fixedarray *array) { if (array->elements) { ZEND_ASSERT(array->size > 0); return false; } ZEND_ASSERT(array->size == 0); return true; } static void spl_fixedarray_default_ctor(spl_fixedarray *array) { array->size = 0; array->elements = NULL; array->cached_resize = -1; } /* Initializes the range [from, to) to null. Does not dtor existing elements. */ static void spl_fixedarray_init_elems(spl_fixedarray *array, zend_long from, zend_long to) { ZEND_ASSERT(from <= to); zval *begin = array->elements + from, *end = array->elements + to; while (begin != end) { ZVAL_NULL(begin++); } } static void spl_fixedarray_init_non_empty_struct(spl_fixedarray *array, zend_long size) { array->size = 0; /* reset size in case ecalloc() fails */ array->elements = size ? safe_emalloc(size, sizeof(zval), 0) : NULL; array->size = size; array->cached_resize = -1; } static void spl_fixedarray_init(spl_fixedarray *array, zend_long size) { if (size > 0) { spl_fixedarray_init_non_empty_struct(array, size); spl_fixedarray_init_elems(array, 0, size); } else { spl_fixedarray_default_ctor(array); } } /* Copies the range [begin, end) into the fixedarray, beginning at `offset`. * Does not dtor the existing elements. */ static void spl_fixedarray_copy_range(spl_fixedarray *array, zend_long offset, zval *begin, zval *end) { ZEND_ASSERT(offset >= 0); ZEND_ASSERT(array->size - offset >= end - begin); zval *to = &array->elements[offset]; while (begin != end) { ZVAL_COPY(to++, begin++); } } static void spl_fixedarray_copy_ctor(spl_fixedarray *to, spl_fixedarray *from) { zend_long size = from->size; spl_fixedarray_init(to, size); if (size != 0) { zval *begin = from->elements, *end = from->elements + size; spl_fixedarray_copy_range(to, 0, begin, end); } } /* Destructs the elements in the range [from, to). * Caller is expected to bounds check. */ static void spl_fixedarray_dtor_range(spl_fixedarray *array, zend_long from, zend_long to) { array->size = from; zval *begin = array->elements + from, *end = array->elements + to; while (begin != end) { zval_ptr_dtor(begin++); } } /* Destructs and frees contents but not the array itself. * If you want to re-use the array then you need to re-initialize it. */ static void spl_fixedarray_dtor(spl_fixedarray *array) { if (!spl_fixedarray_empty(array)) { zval *begin = array->elements, *end = array->elements + array->size; array->elements = NULL; array->size = 0; while (begin != end) { zval_ptr_dtor(--end); } efree(begin); } } static void spl_fixedarray_resize(spl_fixedarray *array, zend_long size) { if (size == array->size) { /* nothing to do */ return; } /* first initialization */ if (array->size == 0) { spl_fixedarray_init(array, size); return; } if (UNEXPECTED(array->cached_resize >= 0)) { /* We're already resizing, so just remember the desired size. * The resize will happen later. */ array->cached_resize = size; return; } array->cached_resize = size; /* clearing the array */ if (size == 0) { spl_fixedarray_dtor(array); array->elements = NULL; array->size = 0; } else if (size > array->size) { array->elements = safe_erealloc(array->elements, size, sizeof(zval), 0); spl_fixedarray_init_elems(array, array->size, size); array->size = size; } else { /* size < array->size */ /* Size set in spl_fixedarray_dtor_range() */ spl_fixedarray_dtor_range(array, size, array->size); array->elements = erealloc(array->elements, sizeof(zval) * size); } /* If resized within the destructor, take the last resize command and perform it */ zend_long cached_resize = array->cached_resize; array->cached_resize = -1; if (cached_resize != size) { spl_fixedarray_resize(array, cached_resize); } } static HashTable* spl_fixedarray_object_get_gc(zend_object *obj, zval **table, int *n) { spl_fixedarray_object *intern = spl_fixed_array_from_obj(obj); HashTable *ht = zend_std_get_properties(obj); *table = intern->array.elements; *n = (int)intern->array.size; return ht; } static HashTable* spl_fixedarray_object_get_properties_for(zend_object *obj, zend_prop_purpose purpose) { /* This has __serialize, so the purpose is not ZEND_PROP_PURPOSE_SERIALIZE, which would expect a non-null return value */ ZEND_ASSERT(purpose != ZEND_PROP_PURPOSE_SERIALIZE); const spl_fixedarray_object *intern = spl_fixed_array_from_obj(obj); /* * SplFixedArray can be subclassed or have dynamic properties (With or without AllowDynamicProperties in subclasses). * Instances of subclasses with declared properties may have properties but not yet have a property table. */ HashTable *source_properties = obj->properties ? obj->properties : (obj->ce->default_properties_count ? zend_std_get_properties(obj) : NULL); const zend_long size = intern->array.size; if (size == 0 && (!source_properties || !zend_hash_num_elements(source_properties))) { return NULL; } zval *const elements = intern->array.elements; HashTable *ht = zend_new_array(size); for (zend_long i = 0; i < size; i++) { Z_TRY_ADDREF_P(&elements[i]); zend_hash_next_index_insert(ht, &elements[i]); } if (source_properties && zend_hash_num_elements(source_properties) > 0) { zend_long nkey; zend_string *skey; zval *value; ZEND_HASH_MAP_FOREACH_KEY_VAL_IND(source_properties, nkey, skey, value) { Z_TRY_ADDREF_P(value); if (skey) { zend_hash_add_new(ht, skey, value); } else { zend_hash_index_update(ht, nkey, value); } } ZEND_HASH_FOREACH_END(); } return ht; } static void spl_fixedarray_object_free_storage(zend_object *object) { spl_fixedarray_object *intern = spl_fixed_array_from_obj(object); spl_fixedarray_dtor(&intern->array); zend_object_std_dtor(&intern->std); } static zend_object *spl_fixedarray_object_new_ex(zend_class_entry *class_type, zend_object *orig, bool clone_orig) { spl_fixedarray_object *intern; zend_class_entry *parent = class_type; bool inherited = false; intern = zend_object_alloc(sizeof(spl_fixedarray_object), parent); zend_object_std_init(&intern->std, class_type); object_properties_init(&intern->std, class_type); if (orig && clone_orig) { spl_fixedarray_object *other = spl_fixed_array_from_obj(orig); spl_fixedarray_copy_ctor(&intern->array, &other->array); } while (parent) { if (parent == spl_ce_SplFixedArray) { break; } parent = parent->parent; inherited = true; } ZEND_ASSERT(parent); if (UNEXPECTED(inherited)) { /* Find count() method */ zend_function *fptr_count = zend_hash_find_ptr(&class_type->function_table, ZSTR_KNOWN(ZEND_STR_COUNT)); if (fptr_count->common.scope == parent) { fptr_count = NULL; } intern->fptr_count = fptr_count; } return &intern->std; } static zend_object *spl_fixedarray_new(zend_class_entry *class_type) { return spl_fixedarray_object_new_ex(class_type, NULL, 0); } static zend_object *spl_fixedarray_object_clone(zend_object *old_object) { zend_object *new_object = spl_fixedarray_object_new_ex(old_object->ce, old_object, 1); zend_objects_clone_members(new_object, old_object); return new_object; } static zend_long spl_offset_convert_to_long(zval *offset) /* {{{ */ { try_again: switch (Z_TYPE_P(offset)) { case IS_STRING: { zend_ulong index; if (ZEND_HANDLE_NUMERIC(Z_STR_P(offset), index)) { return (zend_long) index; } break; } case IS_DOUBLE: return zend_dval_to_lval_safe(Z_DVAL_P(offset)); case IS_LONG: return Z_LVAL_P(offset); case IS_FALSE: return 0; case IS_TRUE: return 1; case IS_REFERENCE: offset = Z_REFVAL_P(offset); goto try_again; case IS_RESOURCE: zend_use_resource_as_offset(offset); return Z_RES_HANDLE_P(offset); } /* Use SplFixedArray name from the CE */ zend_illegal_container_offset(spl_ce_SplFixedArray->name, offset, BP_VAR_R); return 0; } static zval *spl_fixedarray_object_read_dimension_helper(spl_fixedarray_object *intern, zval *offset) { zend_long index; /* we have to return NULL on error here to avoid memleak because of * ZE duplicating uninitialized_zval_ptr */ if (!offset) { zend_throw_error(NULL, "[] operator not supported for SplFixedArray"); return NULL; } index = spl_offset_convert_to_long(offset); if (EG(exception)) { return NULL; } if (index < 0 || index >= intern->array.size) { zend_throw_exception(spl_ce_OutOfBoundsException, "Index invalid or out of range", 0); return NULL; } else { return &intern->array.elements[index]; } } static int spl_fixedarray_object_has_dimension(zend_object *object, zval *offset, int check_empty); static zval *spl_fixedarray_object_read_dimension(zend_object *object, zval *offset, int type, zval *rv) { if (type == BP_VAR_IS && !spl_fixedarray_object_has_dimension(object, offset, 0)) { return &EG(uninitialized_zval); } if (HAS_FIXEDARRAY_ARRAYACCESS_OVERRIDE(object, zf_offsetget)) { zval tmp; if (!offset) { ZVAL_NULL(&tmp); offset = &tmp; } zend_call_known_instance_method_with_1_params(object->ce->arrayaccess_funcs_ptr->zf_offsetget, object, rv, offset); if (!Z_ISUNDEF_P(rv)) { return rv; } return &EG(uninitialized_zval); } spl_fixedarray_object *intern = spl_fixed_array_from_obj(object); return spl_fixedarray_object_read_dimension_helper(intern, offset); } static void spl_fixedarray_object_write_dimension_helper(spl_fixedarray_object *intern, zval *offset, zval *value) { zend_long index; if (!offset) { /* '$array[] = value' syntax is not supported */ zend_throw_error(NULL, "[] operator not supported for SplFixedArray"); return; } index = spl_offset_convert_to_long(offset); if (EG(exception)) { return; } if (index < 0 || index >= intern->array.size) { zend_throw_exception(spl_ce_OutOfBoundsException, "Index invalid or out of range", 0); return; } else { /* Fix #81429 */ zval *ptr = &(intern->array.elements[index]); zval tmp; ZVAL_COPY_VALUE(&tmp, ptr); ZVAL_COPY_DEREF(ptr, value); zval_ptr_dtor(&tmp); } } static void spl_fixedarray_object_write_dimension(zend_object *object, zval *offset, zval *value) { if (HAS_FIXEDARRAY_ARRAYACCESS_OVERRIDE(object, zf_offsetset)) { zval tmp; if (!offset) { ZVAL_NULL(&tmp); offset = &tmp; } zend_call_known_instance_method_with_2_params(object->ce->arrayaccess_funcs_ptr->zf_offsetset, object, NULL, offset, value); return; } spl_fixedarray_object *intern = spl_fixed_array_from_obj(object); spl_fixedarray_object_write_dimension_helper(intern, offset, value); } static void spl_fixedarray_object_unset_dimension_helper(spl_fixedarray_object *intern, zval *offset) { zend_long index; index = spl_offset_convert_to_long(offset); if (EG(exception)) { return; } if (index < 0 || index >= intern->array.size) { zend_throw_exception(spl_ce_OutOfBoundsException, "Index invalid or out of range", 0); return; } else { zval garbage; ZVAL_COPY_VALUE(&garbage, &intern->array.elements[index]); ZVAL_NULL(&intern->array.elements[index]); zval_ptr_dtor(&garbage); } } static void spl_fixedarray_object_unset_dimension(zend_object *object, zval *offset) { if (UNEXPECTED(HAS_FIXEDARRAY_ARRAYACCESS_OVERRIDE(object, zf_offsetunset))) { zend_call_known_instance_method_with_1_params(object->ce->arrayaccess_funcs_ptr->zf_offsetunset, object, NULL, offset); return; } spl_fixedarray_object *intern = spl_fixed_array_from_obj(object); spl_fixedarray_object_unset_dimension_helper(intern, offset); } static bool spl_fixedarray_object_has_dimension_helper(spl_fixedarray_object *intern, zval *offset, bool check_empty) { zend_long index; index = spl_offset_convert_to_long(offset); if (EG(exception)) { return false; } if (index < 0 || index >= intern->array.size) { return false; } if (check_empty) { return zend_is_true(&intern->array.elements[index]); } return Z_TYPE(intern->array.elements[index]) != IS_NULL; } static int spl_fixedarray_object_has_dimension(zend_object *object, zval *offset, int check_empty) { if (HAS_FIXEDARRAY_ARRAYACCESS_OVERRIDE(object, zf_offsetexists)) { zval rv; zend_call_known_instance_method_with_1_params(object->ce->arrayaccess_funcs_ptr->zf_offsetexists, object, &rv, offset); bool result = zend_is_true(&rv); zval_ptr_dtor(&rv); return result; } spl_fixedarray_object *intern = spl_fixed_array_from_obj(object); return spl_fixedarray_object_has_dimension_helper(intern, offset, check_empty); } static zend_result spl_fixedarray_object_count_elements(zend_object *object, zend_long *count) { spl_fixedarray_object *intern; intern = spl_fixed_array_from_obj(object); if (UNEXPECTED(intern->fptr_count)) { zval rv; zend_call_known_instance_method_with_0_params(intern->fptr_count, object, &rv); if (!Z_ISUNDEF(rv)) { *count = zval_get_long(&rv); zval_ptr_dtor(&rv); } else { *count = 0; } } else { *count = intern->array.size; } return SUCCESS; } PHP_METHOD(SplFixedArray, __construct) { zval *object = ZEND_THIS; spl_fixedarray_object *intern; zend_long size = 0; if (zend_parse_parameters(ZEND_NUM_ARGS(), "|l", &size) == FAILURE) { RETURN_THROWS(); } if (size < 0) { zend_argument_value_error(1, "must be greater than or equal to 0"); RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(object); if (!spl_fixedarray_empty(&intern->array)) { /* called __construct() twice, bail out */ return; } spl_fixedarray_init(&intern->array, size); } PHP_METHOD(SplFixedArray, __wakeup) { spl_fixedarray_object *intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); HashTable *intern_ht = zend_std_get_properties(Z_OBJ_P(ZEND_THIS)); zval *data; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } if (intern->array.size == 0) { int index = 0; int size = zend_hash_num_elements(intern_ht); spl_fixedarray_init(&intern->array, size); ZEND_HASH_FOREACH_VAL(intern_ht, data) { ZVAL_COPY(&intern->array.elements[index], data); index++; } ZEND_HASH_FOREACH_END(); /* Remove the unserialised properties, since we now have the elements * within the spl_fixedarray_object structure. */ zend_hash_clean(intern_ht); } } PHP_METHOD(SplFixedArray, __serialize) { spl_fixedarray_object *intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); zval *current; zend_string *key; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } HashTable *ht = zend_std_get_properties(&intern->std); uint32_t num_properties = zend_hash_num_elements(ht); array_init_size(return_value, intern->array.size + num_properties); /* elements */ for (zend_long i = 0; i < intern->array.size; i++) { current = &intern->array.elements[i]; zend_hash_next_index_insert(Z_ARRVAL_P(return_value), current); Z_TRY_ADDREF_P(current); } /* members */ ZEND_HASH_FOREACH_STR_KEY_VAL_IND(ht, key, current) { /* If the properties table was already rebuild, it will also contain the * array elements. The array elements are already added in the above loop. * We can detect array elements by the fact that their key == NULL. */ if (key != NULL) { zend_hash_add_new(Z_ARRVAL_P(return_value), key, current); Z_TRY_ADDREF_P(current); } } ZEND_HASH_FOREACH_END(); } PHP_METHOD(SplFixedArray, __unserialize) { spl_fixedarray_object *intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); HashTable *data; zval members_zv, *elem; zend_string *key; zend_long size; if (zend_parse_parameters(ZEND_NUM_ARGS(), "h", &data) == FAILURE) { RETURN_THROWS(); } if (intern->array.size == 0) { size = zend_hash_num_elements(data); spl_fixedarray_init_non_empty_struct(&intern->array, size); if (!size) { return; } array_init(&members_zv); intern->array.size = 0; ZEND_HASH_FOREACH_STR_KEY_VAL(data, key, elem) { if (key == NULL) { ZVAL_COPY(&intern->array.elements[intern->array.size], elem); intern->array.size++; } else { Z_TRY_ADDREF_P(elem); zend_hash_add(Z_ARRVAL(members_zv), key, elem); } } ZEND_HASH_FOREACH_END(); if (intern->array.size != size) { if (intern->array.size) { intern->array.elements = erealloc(intern->array.elements, sizeof(zval) * intern->array.size); } else { efree(intern->array.elements); intern->array.elements = NULL; } } object_properties_load(&intern->std, Z_ARRVAL(members_zv)); zval_ptr_dtor(&members_zv); } } PHP_METHOD(SplFixedArray, count) { zval *object = ZEND_THIS; spl_fixedarray_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(object); RETURN_LONG(intern->array.size); } PHP_METHOD(SplFixedArray, toArray) { spl_fixedarray_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); if (!spl_fixedarray_empty(&intern->array)) { array_init(return_value); for (zend_long i = 0; i < intern->array.size; i++) { zend_hash_index_update(Z_ARRVAL_P(return_value), i, &intern->array.elements[i]); Z_TRY_ADDREF(intern->array.elements[i]); } } else { RETURN_EMPTY_ARRAY(); } } PHP_METHOD(SplFixedArray, fromArray) { zval *data; spl_fixedarray array; spl_fixedarray_object *intern; int num; bool save_indexes = 1; if (zend_parse_parameters(ZEND_NUM_ARGS(), "a|b", &data, &save_indexes) == FAILURE) { RETURN_THROWS(); } num = zend_hash_num_elements(Z_ARRVAL_P(data)); if (num > 0 && save_indexes) { zval *element; zend_string *str_index; zend_ulong num_index, max_index = 0; zend_long tmp; ZEND_HASH_FOREACH_KEY(Z_ARRVAL_P(data), num_index, str_index) { if (str_index != NULL || (zend_long)num_index < 0) { zend_throw_exception_ex(spl_ce_InvalidArgumentException, 0, "array must contain only positive integer keys"); RETURN_THROWS(); } if (num_index > max_index) { max_index = num_index; } } ZEND_HASH_FOREACH_END(); tmp = max_index + 1; if (tmp <= 0) { zend_throw_exception_ex(spl_ce_InvalidArgumentException, 0, "integer overflow detected"); RETURN_THROWS(); } spl_fixedarray_init(&array, tmp); ZEND_HASH_FOREACH_NUM_KEY_VAL(Z_ARRVAL_P(data), num_index, element) { ZVAL_COPY_DEREF(&array.elements[num_index], element); } ZEND_HASH_FOREACH_END(); } else if (num > 0 && !save_indexes) { zval *element; zend_long i = 0; spl_fixedarray_init(&array, num); ZEND_HASH_FOREACH_VAL(Z_ARRVAL_P(data), element) { ZVAL_COPY_DEREF(&array.elements[i], element); i++; } ZEND_HASH_FOREACH_END(); } else { spl_fixedarray_init(&array, 0); } object_init_ex(return_value, spl_ce_SplFixedArray); intern = Z_SPLFIXEDARRAY_P(return_value); intern->array = array; } PHP_METHOD(SplFixedArray, getSize) { zval *object = ZEND_THIS; spl_fixedarray_object *intern; if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(object); RETURN_LONG(intern->array.size); } PHP_METHOD(SplFixedArray, setSize) { zval *object = ZEND_THIS; spl_fixedarray_object *intern; zend_long size; if (zend_parse_parameters(ZEND_NUM_ARGS(), "l", &size) == FAILURE) { RETURN_THROWS(); } if (size < 0) { zend_argument_value_error(1, "must be greater than or equal to 0"); RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(object); spl_fixedarray_resize(&intern->array, size); RETURN_TRUE; } /* Returns whether the requested $index exists. */ PHP_METHOD(SplFixedArray, offsetExists) { zval *zindex; spl_fixedarray_object *intern; if (zend_parse_parameters(ZEND_NUM_ARGS(), "z", &zindex) == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); RETURN_BOOL(spl_fixedarray_object_has_dimension_helper(intern, zindex, 0)); } /* Returns the value at the specified $index. */ PHP_METHOD(SplFixedArray, offsetGet) { zval *zindex, *value; spl_fixedarray_object *intern; if (zend_parse_parameters(ZEND_NUM_ARGS(), "z", &zindex) == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); value = spl_fixedarray_object_read_dimension_helper(intern, zindex); if (value) { RETURN_COPY_DEREF(value); } else { RETURN_NULL(); } } /* Sets the value at the specified $index to $newval. */ PHP_METHOD(SplFixedArray, offsetSet) { zval *zindex, *value; spl_fixedarray_object *intern; if (zend_parse_parameters(ZEND_NUM_ARGS(), "zz", &zindex, &value) == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); spl_fixedarray_object_write_dimension_helper(intern, zindex, value); } /* Unsets the value at the specified $index. */ PHP_METHOD(SplFixedArray, offsetUnset) { zval *zindex; spl_fixedarray_object *intern; if (zend_parse_parameters(ZEND_NUM_ARGS(), "z", &zindex) == FAILURE) { RETURN_THROWS(); } intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); spl_fixedarray_object_unset_dimension_helper(intern, zindex); } /* Create a new iterator from a SplFixedArray instance. */ PHP_METHOD(SplFixedArray, getIterator) { if (zend_parse_parameters_none() == FAILURE) { RETURN_THROWS(); } zend_create_internal_iterator_zval(return_value, ZEND_THIS); } PHP_METHOD(SplFixedArray, jsonSerialize) { ZEND_PARSE_PARAMETERS_NONE(); spl_fixedarray_object *intern = Z_SPLFIXEDARRAY_P(ZEND_THIS); array_init_size(return_value, intern->array.size); for (zend_long i = 0; i < intern->array.size; i++) { zend_hash_next_index_insert_new(Z_ARR_P(return_value), &intern->array.elements[i]); Z_TRY_ADDREF(intern->array.elements[i]); } } static void spl_fixedarray_it_dtor(zend_object_iterator *iter) { zval_ptr_dtor(&iter->data); } static void spl_fixedarray_it_rewind(zend_object_iterator *iter) { ((spl_fixedarray_it*)iter)->current = 0; } static zend_result spl_fixedarray_it_valid(zend_object_iterator *iter) { spl_fixedarray_it *iterator = (spl_fixedarray_it*)iter; spl_fixedarray_object *object = Z_SPLFIXEDARRAY_P(&iter->data); if (iterator->current >= 0 && iterator->current < object->array.size) { return SUCCESS; } return FAILURE; } static zval *spl_fixedarray_it_get_current_data(zend_object_iterator *iter) { zval zindex, *data; spl_fixedarray_it *iterator = (spl_fixedarray_it*)iter; spl_fixedarray_object *object = Z_SPLFIXEDARRAY_P(&iter->data); ZVAL_LONG(&zindex, iterator->current); data = spl_fixedarray_object_read_dimension_helper(object, &zindex); if (data == NULL) { data = &EG(uninitialized_zval); } return data; } static void spl_fixedarray_it_get_current_key(zend_object_iterator *iter, zval *key) { ZVAL_LONG(key, ((spl_fixedarray_it*)iter)->current); } static void spl_fixedarray_it_move_forward(zend_object_iterator *iter) { ((spl_fixedarray_it*)iter)->current++; } /* iterator handler table */ static const zend_object_iterator_funcs spl_fixedarray_it_funcs = { spl_fixedarray_it_dtor, spl_fixedarray_it_valid, spl_fixedarray_it_get_current_data, spl_fixedarray_it_get_current_key, spl_fixedarray_it_move_forward, spl_fixedarray_it_rewind, NULL, NULL, /* get_gc */ }; static zend_object_iterator *spl_fixedarray_get_iterator(zend_class_entry *ce, zval *object, int by_ref) { spl_fixedarray_it *iterator; if (by_ref) { zend_throw_error(NULL, "An iterator cannot be used with foreach by reference"); return NULL; } iterator = emalloc(sizeof(spl_fixedarray_it)); zend_iterator_init((zend_object_iterator*)iterator); ZVAL_OBJ_COPY(&iterator->intern.data, Z_OBJ_P(object)); iterator->intern.funcs = &spl_fixedarray_it_funcs; return &iterator->intern; } PHP_MINIT_FUNCTION(spl_fixedarray) { spl_ce_SplFixedArray = register_class_SplFixedArray( zend_ce_aggregate, zend_ce_arrayaccess, zend_ce_countable, php_json_serializable_ce); spl_ce_SplFixedArray->create_object = spl_fixedarray_new; spl_ce_SplFixedArray->default_object_handlers = &spl_handler_SplFixedArray; spl_ce_SplFixedArray->get_iterator = spl_fixedarray_get_iterator; memcpy(&spl_handler_SplFixedArray, &std_object_handlers, sizeof(zend_object_handlers)); spl_handler_SplFixedArray.offset = XtOffsetOf(spl_fixedarray_object, std); spl_handler_SplFixedArray.clone_obj = spl_fixedarray_object_clone; spl_handler_SplFixedArray.read_dimension = spl_fixedarray_object_read_dimension; spl_handler_SplFixedArray.write_dimension = spl_fixedarray_object_write_dimension; spl_handler_SplFixedArray.unset_dimension = spl_fixedarray_object_unset_dimension; spl_handler_SplFixedArray.has_dimension = spl_fixedarray_object_has_dimension; spl_handler_SplFixedArray.count_elements = spl_fixedarray_object_count_elements; spl_handler_SplFixedArray.get_properties_for = spl_fixedarray_object_get_properties_for; spl_handler_SplFixedArray.get_gc = spl_fixedarray_object_get_gc; spl_handler_SplFixedArray.free_obj = spl_fixedarray_object_free_storage; return SUCCESS; }