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DEFINITIONS
This source file includes following definitions.
- spl_ptr_heap_zval_dtor
- spl_ptr_heap_zval_ctor
- spl_ptr_heap_cmp_cb_helper
- spl_pqueue_extract_helper
- spl_ptr_heap_zval_max_cmp
- spl_ptr_heap_zval_min_cmp
- spl_ptr_pqueue_zval_cmp
- spl_ptr_heap_init
- spl_ptr_heap_insert
- spl_ptr_heap_top
- spl_ptr_heap_delete_top
- spl_ptr_heap_clone
- spl_ptr_heap_destroy
- spl_ptr_heap_count
- spl_heap_object_free_storage
- spl_heap_object_new_ex
- spl_heap_object_new
- spl_heap_object_clone
- spl_heap_object_count_elements
- spl_heap_object_get_debug_info_helper
- spl_heap_object_get_debug_info
- spl_pqueue_object_get_debug_info
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- spl_heap_it_dtor
- spl_heap_it_rewind
- spl_heap_it_valid
- spl_heap_it_get_current_data
- spl_pqueue_it_get_current_data
- spl_heap_it_get_current_key
- spl_heap_it_move_forward
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- SPL_METHOD
- spl_heap_get_iterator
- spl_pqueue_get_iterator
- PHP_MINIT_FUNCTION
/*
+----------------------------------------------------------------------+
| PHP Version 5 |
+----------------------------------------------------------------------+
| Copyright (c) 1997-2015 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: Etienne Kneuss <colder@php.net> |
+----------------------------------------------------------------------+
*/
/* $Id$ */
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "php.h"
#include "zend_exceptions.h"
#include "php_spl.h"
#include "spl_functions.h"
#include "spl_engine.h"
#include "spl_iterators.h"
#include "spl_heap.h"
#include "spl_exceptions.h"
#define PTR_HEAP_BLOCK_SIZE 64
#define SPL_HEAP_CORRUPTED 0x00000001
#define SPL_PQUEUE_EXTR_MASK 0x00000003
#define SPL_PQUEUE_EXTR_BOTH 0x00000003
#define SPL_PQUEUE_EXTR_DATA 0x00000001
#define SPL_PQUEUE_EXTR_PRIORITY 0x00000002
zend_object_handlers spl_handler_SplHeap;
zend_object_handlers spl_handler_SplPriorityQueue;
PHPAPI zend_class_entry *spl_ce_SplHeap;
PHPAPI zend_class_entry *spl_ce_SplMaxHeap;
PHPAPI zend_class_entry *spl_ce_SplMinHeap;
PHPAPI zend_class_entry *spl_ce_SplPriorityQueue;
typedef void *spl_ptr_heap_element;
typedef void (*spl_ptr_heap_dtor_func)(spl_ptr_heap_element TSRMLS_DC);
typedef void (*spl_ptr_heap_ctor_func)(spl_ptr_heap_element TSRMLS_DC);
typedef int (*spl_ptr_heap_cmp_func)(spl_ptr_heap_element, spl_ptr_heap_element, void* TSRMLS_DC);
typedef struct _spl_ptr_heap {
spl_ptr_heap_element *elements;
spl_ptr_heap_ctor_func ctor;
spl_ptr_heap_dtor_func dtor;
spl_ptr_heap_cmp_func cmp;
int count;
int max_size;
int flags;
} spl_ptr_heap;
typedef struct _spl_heap_object spl_heap_object;
typedef struct _spl_heap_it spl_heap_it;
struct _spl_heap_object {
zend_object std;
spl_ptr_heap *heap;
zval *retval;
int flags;
zend_class_entry *ce_get_iterator;
zend_function *fptr_cmp;
zend_function *fptr_count;
HashTable *debug_info;
};
/* define an overloaded iterator structure */
struct _spl_heap_it {
zend_user_iterator intern;
int flags;
spl_heap_object *object;
};
/* {{{ spl_ptr_heap */
static void spl_ptr_heap_zval_dtor(spl_ptr_heap_element elem TSRMLS_DC) { /* {{{ */
if (elem) {
zval_ptr_dtor((zval **)&elem);
}
}
/* }}} */
static void spl_ptr_heap_zval_ctor(spl_ptr_heap_element elem TSRMLS_DC) { /* {{{ */
Z_ADDREF_P((zval *)elem);
}
/* }}} */
static int spl_ptr_heap_cmp_cb_helper(zval *object, spl_heap_object *heap_object, zval *a, zval *b, long *result TSRMLS_DC) { /* {{{ */
zval *result_p = NULL;
zend_call_method_with_2_params(&object, heap_object->std.ce, &heap_object->fptr_cmp, "compare", &result_p, a, b);
if (EG(exception)) {
return FAILURE;
}
convert_to_long(result_p);
*result = Z_LVAL_P(result_p);
zval_ptr_dtor(&result_p);
return SUCCESS;
}
/* }}} */
static zval **spl_pqueue_extract_helper(zval **value, int flags) /* {{{ */
{
if ((flags & SPL_PQUEUE_EXTR_BOTH) == SPL_PQUEUE_EXTR_BOTH) {
return value;
} else if ((flags & SPL_PQUEUE_EXTR_BOTH) > 0) {
if ((flags & SPL_PQUEUE_EXTR_DATA) == SPL_PQUEUE_EXTR_DATA) {
zval **data;
if (zend_hash_find(Z_ARRVAL_PP(value), "data", sizeof("data"), (void **) &data) == SUCCESS) {
return data;
}
} else {
zval **priority;
if (zend_hash_find(Z_ARRVAL_PP(value), "priority", sizeof("priority"), (void **) &priority) == SUCCESS) {
return priority;
}
}
}
return NULL;
}
/* }}} */
static int spl_ptr_heap_zval_max_cmp(spl_ptr_heap_element a, spl_ptr_heap_element b, void* object TSRMLS_DC) { /* {{{ */
zval result;
if (EG(exception)) {
return 0;
}
if (object) {
spl_heap_object *heap_object = (spl_heap_object*)zend_object_store_get_object((zval *)object TSRMLS_CC);
if (heap_object->fptr_cmp) {
long lval = 0;
if (spl_ptr_heap_cmp_cb_helper((zval *)object, heap_object, (zval *)a, (zval *)b, &lval TSRMLS_CC) == FAILURE) {
/* exception or call failure */
return 0;
}
return lval;
}
}
INIT_ZVAL(result);
compare_function(&result, (zval *)a, (zval *)b TSRMLS_CC);
return Z_LVAL(result);
}
/* }}} */
static int spl_ptr_heap_zval_min_cmp(spl_ptr_heap_element a, spl_ptr_heap_element b, void* object TSRMLS_DC) { /* {{{ */
zval result;
if (EG(exception)) {
return 0;
}
if (object) {
spl_heap_object *heap_object = (spl_heap_object*)zend_object_store_get_object((zval *)object TSRMLS_CC);
if (heap_object->fptr_cmp) {
long lval = 0;
if (spl_ptr_heap_cmp_cb_helper((zval *)object, heap_object, (zval *)a, (zval *)b, &lval TSRMLS_CC) == FAILURE) {
/* exception or call failure */
return 0;
}
return lval;
}
}
INIT_ZVAL(result);
compare_function(&result, (zval *)b, (zval *)a TSRMLS_CC);
return Z_LVAL(result);
}
/* }}} */
static int spl_ptr_pqueue_zval_cmp(spl_ptr_heap_element a, spl_ptr_heap_element b, void* object TSRMLS_DC) { /* {{{ */
zval result;
zval **a_priority_pp = spl_pqueue_extract_helper((zval **)&a, SPL_PQUEUE_EXTR_PRIORITY);
zval **b_priority_pp = spl_pqueue_extract_helper((zval **)&b, SPL_PQUEUE_EXTR_PRIORITY);
if ((!a_priority_pp) || (!b_priority_pp)) {
zend_error(E_RECOVERABLE_ERROR, "Unable to extract from the PriorityQueue node");
return 0;
}
if (EG(exception)) {
return 0;
}
if (object) {
spl_heap_object *heap_object = (spl_heap_object*)zend_object_store_get_object(object TSRMLS_CC);
if (heap_object->fptr_cmp) {
long lval = 0;
if (spl_ptr_heap_cmp_cb_helper((zval *)object, heap_object, *a_priority_pp, *b_priority_pp, &lval TSRMLS_CC) == FAILURE) {
/* exception or call failure */
return 0;
}
return lval;
}
}
INIT_ZVAL(result);
compare_function(&result, *a_priority_pp, *b_priority_pp TSRMLS_CC);
return Z_LVAL(result);
}
/* }}} */
static spl_ptr_heap *spl_ptr_heap_init(spl_ptr_heap_cmp_func cmp, spl_ptr_heap_ctor_func ctor, spl_ptr_heap_dtor_func dtor) /* {{{ */
{
spl_ptr_heap *heap = emalloc(sizeof(spl_ptr_heap));
heap->dtor = dtor;
heap->ctor = ctor;
heap->cmp = cmp;
heap->elements = safe_emalloc(sizeof(spl_ptr_heap_element), PTR_HEAP_BLOCK_SIZE, 0);
heap->max_size = PTR_HEAP_BLOCK_SIZE;
heap->count = 0;
heap->flags = 0;
return heap;
}
/* }}} */
static void spl_ptr_heap_insert(spl_ptr_heap *heap, spl_ptr_heap_element elem, void *cmp_userdata TSRMLS_DC) { /* {{{ */
int i;
if (heap->count+1 > heap->max_size) {
/* we need to allocate more memory */
heap->elements = (void **) safe_erealloc(heap->elements, sizeof(spl_ptr_heap_element), (heap->max_size), (sizeof(spl_ptr_heap_element) * (heap->max_size)));
heap->max_size *= 2;
}
heap->ctor(elem TSRMLS_CC);
/* sifting up */
for(i = heap->count; i > 0 && heap->cmp(heap->elements[(i-1)/2], elem, cmp_userdata TSRMLS_CC) < 0; i = (i-1)/2) {
heap->elements[i] = heap->elements[(i-1)/2];
}
heap->count++;
if (EG(exception)) {
/* exception thrown during comparison */
heap->flags |= SPL_HEAP_CORRUPTED;
}
heap->elements[i] = elem;
}
/* }}} */
static spl_ptr_heap_element spl_ptr_heap_top(spl_ptr_heap *heap) { /* {{{ */
if (heap->count == 0) {
return NULL;
}
return heap->elements[0];
}
/* }}} */
static spl_ptr_heap_element spl_ptr_heap_delete_top(spl_ptr_heap *heap, void *cmp_userdata TSRMLS_DC) { /* {{{ */
int i, j;
const int limit = (heap->count-1)/2;
spl_ptr_heap_element top;
spl_ptr_heap_element bottom;
if (heap->count == 0) {
return NULL;
}
top = heap->elements[0];
bottom = heap->elements[--heap->count];
for( i = 0; i < limit; i = j)
{
/* Find smaller child */
j = i*2+1;
if(j != heap->count && heap->cmp(heap->elements[j+1], heap->elements[j], cmp_userdata TSRMLS_CC) > 0) {
j++; /* next child is bigger */
}
/* swap elements between two levels */
if(heap->cmp(bottom, heap->elements[j], cmp_userdata TSRMLS_CC) < 0) {
heap->elements[i] = heap->elements[j];
} else {
break;
}
}
if (EG(exception)) {
/* exception thrown during comparison */
heap->flags |= SPL_HEAP_CORRUPTED;
}
heap->elements[i] = bottom;
heap->dtor(top TSRMLS_CC);
return top;
}
/* }}} */
static spl_ptr_heap *spl_ptr_heap_clone(spl_ptr_heap *from TSRMLS_DC) { /* {{{ */
int i;
spl_ptr_heap *heap = emalloc(sizeof(spl_ptr_heap));
heap->dtor = from->dtor;
heap->ctor = from->ctor;
heap->cmp = from->cmp;
heap->max_size = from->max_size;
heap->count = from->count;
heap->flags = from->flags;
heap->elements = safe_emalloc(sizeof(spl_ptr_heap_element),from->max_size,0);
memcpy(heap->elements, from->elements, sizeof(spl_ptr_heap_element)*from->max_size);
for (i=0; i < heap->count; ++i) {
heap->ctor(heap->elements[i] TSRMLS_CC);
}
return heap;
}
/* }}} */
static void spl_ptr_heap_destroy(spl_ptr_heap *heap TSRMLS_DC) { /* {{{ */
int i;
for (i=0; i < heap->count; ++i) {
heap->dtor(heap->elements[i] TSRMLS_CC);
}
efree(heap->elements);
efree(heap);
}
/* }}} */
static int spl_ptr_heap_count(spl_ptr_heap *heap) { /* {{{ */
return heap->count;
}
/* }}} */
/* }}} */
zend_object_iterator *spl_heap_get_iterator(zend_class_entry *ce, zval *object, int by_ref TSRMLS_DC);
static void spl_heap_object_free_storage(void *object TSRMLS_DC) /* {{{ */
{
int i;
spl_heap_object *intern = (spl_heap_object *)object;
zend_object_std_dtor(&intern->std TSRMLS_CC);
for (i = 0; i < intern->heap->count; ++i) {
if (intern->heap->elements[i]) {
zval_ptr_dtor((zval **)&intern->heap->elements[i]);
}
}
spl_ptr_heap_destroy(intern->heap TSRMLS_CC);
zval_ptr_dtor(&intern->retval);
if (intern->debug_info != NULL) {
zend_hash_destroy(intern->debug_info);
efree(intern->debug_info);
}
efree(object);
}
/* }}} */
static zend_object_value spl_heap_object_new_ex(zend_class_entry *class_type, spl_heap_object **obj, zval *orig, int clone_orig TSRMLS_DC) /* {{{ */
{
zend_object_value retval;
spl_heap_object *intern;
zend_class_entry *parent = class_type;
int inherited = 0;
intern = ecalloc(1, sizeof(spl_heap_object));
*obj = intern;
ALLOC_INIT_ZVAL(intern->retval);
zend_object_std_init(&intern->std, class_type TSRMLS_CC);
object_properties_init(&intern->std, class_type);
intern->flags = 0;
intern->fptr_cmp = NULL;
intern->debug_info = NULL;
if (orig) {
spl_heap_object *other = (spl_heap_object*)zend_object_store_get_object(orig TSRMLS_CC);
intern->ce_get_iterator = other->ce_get_iterator;
if (clone_orig) {
int i;
intern->heap = spl_ptr_heap_clone(other->heap TSRMLS_CC);
for (i = 0; i < intern->heap->count; ++i) {
if (intern->heap->elements[i]) {
Z_ADDREF_P((zval *)intern->heap->elements[i]);
}
}
} else {
intern->heap = other->heap;
}
intern->flags = other->flags;
} else {
intern->heap = spl_ptr_heap_init(spl_ptr_heap_zval_max_cmp, spl_ptr_heap_zval_ctor, spl_ptr_heap_zval_dtor);
}
retval.handlers = &spl_handler_SplHeap;
while (parent) {
if (parent == spl_ce_SplPriorityQueue) {
intern->heap->cmp = spl_ptr_pqueue_zval_cmp;
intern->flags = SPL_PQUEUE_EXTR_DATA;
retval.handlers = &spl_handler_SplPriorityQueue;
break;
}
if (parent == spl_ce_SplMinHeap) {
intern->heap->cmp = spl_ptr_heap_zval_min_cmp;
break;
}
if (parent == spl_ce_SplMaxHeap) {
intern->heap->cmp = spl_ptr_heap_zval_max_cmp;
break;
}
if (parent == spl_ce_SplHeap) {
break;
}
parent = parent->parent;
inherited = 1;
}
retval.handle = zend_objects_store_put(intern, (zend_objects_store_dtor_t)zend_objects_destroy_object, spl_heap_object_free_storage, NULL TSRMLS_CC);
if (!parent) { /* this must never happen */
php_error_docref(NULL TSRMLS_CC, E_COMPILE_ERROR, "Internal compiler error, Class is not child of SplHeap");
}
if (inherited) {
zend_hash_find(&class_type->function_table, "compare", sizeof("compare"), (void **) &intern->fptr_cmp);
if (intern->fptr_cmp->common.scope == parent) {
intern->fptr_cmp = NULL;
}
zend_hash_find(&class_type->function_table, "count", sizeof("count"), (void **) &intern->fptr_count);
if (intern->fptr_count->common.scope == parent) {
intern->fptr_count = NULL;
}
}
return retval;
}
/* }}} */
static zend_object_value spl_heap_object_new(zend_class_entry *class_type TSRMLS_DC) /* {{{ */
{
spl_heap_object *tmp;
return spl_heap_object_new_ex(class_type, &tmp, NULL, 0 TSRMLS_CC);
}
/* }}} */
static zend_object_value spl_heap_object_clone(zval *zobject TSRMLS_DC) /* {{{ */
{
zend_object_value new_obj_val;
zend_object *old_object;
zend_object *new_object;
zend_object_handle handle = Z_OBJ_HANDLE_P(zobject);
spl_heap_object *intern;
old_object = zend_objects_get_address(zobject TSRMLS_CC);
new_obj_val = spl_heap_object_new_ex(old_object->ce, &intern, zobject, 1 TSRMLS_CC);
new_object = &intern->std;
zend_objects_clone_members(new_object, new_obj_val, old_object, handle TSRMLS_CC);
return new_obj_val;
}
/* }}} */
static int spl_heap_object_count_elements(zval *object, long *count TSRMLS_DC) /* {{{ */
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(object TSRMLS_CC);
if (intern->fptr_count) {
zval *rv;
zend_call_method_with_0_params(&object, intern->std.ce, &intern->fptr_count, "count", &rv);
if (rv) {
zval_ptr_dtor(&intern->retval);
MAKE_STD_ZVAL(intern->retval);
ZVAL_ZVAL(intern->retval, rv, 1, 1);
convert_to_long(intern->retval);
*count = (long) Z_LVAL_P(intern->retval);
return SUCCESS;
}
*count = 0;
return FAILURE;
}
*count = spl_ptr_heap_count(intern->heap);
return SUCCESS;
}
/* }}} */
static HashTable* spl_heap_object_get_debug_info_helper(zend_class_entry *ce, zval *obj, int *is_temp TSRMLS_DC) { /* {{{ */
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(obj TSRMLS_CC);
zval *tmp, zrv, *heap_array;
char *pnstr;
int pnlen;
int i;
*is_temp = 0;
if (!intern->std.properties) {
rebuild_object_properties(&intern->std);
}
if (intern->debug_info == NULL) {
ALLOC_HASHTABLE(intern->debug_info);
ZEND_INIT_SYMTABLE_EX(intern->debug_info, zend_hash_num_elements(intern->std.properties) + 1, 0);
}
if (intern->debug_info->nApplyCount == 0) {
INIT_PZVAL(&zrv);
Z_ARRVAL(zrv) = intern->debug_info;
zend_hash_copy(intern->debug_info, intern->std.properties, (copy_ctor_func_t) zval_add_ref, (void *) &tmp, sizeof(zval *));
pnstr = spl_gen_private_prop_name(ce, "flags", sizeof("flags")-1, &pnlen TSRMLS_CC);
add_assoc_long_ex(&zrv, pnstr, pnlen+1, intern->flags);
efree(pnstr);
pnstr = spl_gen_private_prop_name(ce, "isCorrupted", sizeof("isCorrupted")-1, &pnlen TSRMLS_CC);
add_assoc_bool_ex(&zrv, pnstr, pnlen+1, intern->heap->flags&SPL_HEAP_CORRUPTED);
efree(pnstr);
ALLOC_INIT_ZVAL(heap_array);
array_init(heap_array);
for (i = 0; i < intern->heap->count; ++i) {
add_index_zval(heap_array, i, (zval *)intern->heap->elements[i]);
Z_ADDREF_P(intern->heap->elements[i]);
}
pnstr = spl_gen_private_prop_name(ce, "heap", sizeof("heap")-1, &pnlen TSRMLS_CC);
add_assoc_zval_ex(&zrv, pnstr, pnlen+1, heap_array);
efree(pnstr);
}
return intern->debug_info;
}
/* }}} */
static HashTable* spl_heap_object_get_debug_info(zval *obj, int *is_temp TSRMLS_DC) /* {{{ */
{
return spl_heap_object_get_debug_info_helper(spl_ce_SplHeap, obj, is_temp TSRMLS_CC);
}
/* }}} */
static HashTable* spl_pqueue_object_get_debug_info(zval *obj, int *is_temp TSRMLS_DC) /* {{{ */
{
return spl_heap_object_get_debug_info_helper(spl_ce_SplPriorityQueue, obj, is_temp TSRMLS_CC);
}
/* }}} */
/* {{{ proto int SplHeap::count() U
Return the number of elements in the heap. */
SPL_METHOD(SplHeap, count)
{
long count;
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
count = spl_ptr_heap_count(intern->heap);
RETURN_LONG(count);
}
/* }}} */
/* {{{ proto int SplHeap::isEmpty() U
Return true if the heap is empty. */
SPL_METHOD(SplHeap, isEmpty)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
RETURN_BOOL(spl_ptr_heap_count(intern->heap)==0);
}
/* }}} */
/* {{{ proto bool SplHeap::insert(mixed $value) U
Push $value on the heap */
SPL_METHOD(SplHeap, insert)
{
zval *value;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "z", &value) == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
SEPARATE_ARG_IF_REF(value);
spl_ptr_heap_insert(intern->heap, value, getThis() TSRMLS_CC);
RETURN_TRUE;
}
/* }}} */
/* {{{ proto mixed SplHeap::extract() U
extract the element out of the top of the heap */
SPL_METHOD(SplHeap, extract)
{
zval *value;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
value = (zval *)spl_ptr_heap_delete_top(intern->heap, getThis() TSRMLS_CC);
if (!value) {
zend_throw_exception(spl_ce_RuntimeException, "Can't extract from an empty heap", 0 TSRMLS_CC);
return;
}
RETURN_ZVAL(value, 1, 1);
}
/* }}} */
/* {{{ proto bool SplPriorityQueue::insert(mixed $value, mixed $priority) U
Push $value with the priority $priodiry on the priorityqueue */
SPL_METHOD(SplPriorityQueue, insert)
{
zval *data, *priority, *elem;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "zz", &data, &priority) == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
SEPARATE_ARG_IF_REF(data);
SEPARATE_ARG_IF_REF(priority);
ALLOC_INIT_ZVAL(elem);
array_init(elem);
add_assoc_zval_ex(elem, "data", sizeof("data"), data);
add_assoc_zval_ex(elem, "priority", sizeof("priority"), priority);
spl_ptr_heap_insert(intern->heap, elem, getThis() TSRMLS_CC);
RETURN_TRUE;
}
/* }}} */
/* {{{ proto mixed SplPriorityQueue::extract() U
extract the element out of the top of the priority queue */
SPL_METHOD(SplPriorityQueue, extract)
{
zval *value, *value_out, **value_out_pp;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
value = (zval *)spl_ptr_heap_delete_top(intern->heap, getThis() TSRMLS_CC);
if (!value) {
zend_throw_exception(spl_ce_RuntimeException, "Can't extract from an empty heap", 0 TSRMLS_CC);
return;
}
value_out_pp = spl_pqueue_extract_helper(&value, intern->flags);
if (!value_out_pp) {
zend_error(E_RECOVERABLE_ERROR, "Unable to extract from the PriorityQueue node");
zval_ptr_dtor(&value);
return;
}
value_out = *value_out_pp;
Z_ADDREF_P(value_out);
zval_ptr_dtor(&value);
RETURN_ZVAL(value_out, 1, 1);
}
/* }}} */
/* {{{ proto mixed SplPriorityQueue::top() U
Peek at the top element of the priority queue */
SPL_METHOD(SplPriorityQueue, top)
{
zval *value, **value_out;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
value = (zval *)spl_ptr_heap_top(intern->heap);
if (!value) {
zend_throw_exception(spl_ce_RuntimeException, "Can't peek at an empty heap", 0 TSRMLS_CC);
return;
}
value_out = spl_pqueue_extract_helper(&value, intern->flags);
if (!value_out) {
zend_error(E_RECOVERABLE_ERROR, "Unable to extract from the PriorityQueue node");
return;
}
RETURN_ZVAL(*value_out, 1, 0);
}
/* }}} */
/* {{{ proto int SplPriorityQueue::setIteratorMode($flags) U
Set the flags of extraction*/
SPL_METHOD(SplPriorityQueue, setExtractFlags)
{
long value;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l", &value) == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
intern->flags = value & SPL_PQUEUE_EXTR_MASK;
RETURN_LONG(intern->flags);
}
/* }}} */
/* {{{ proto int SplHeap::recoverFromCorruption() U
Recover from a corrupted state*/
SPL_METHOD(SplHeap, recoverFromCorruption)
{
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
intern->heap->flags = intern->heap->flags & ~SPL_HEAP_CORRUPTED;
RETURN_TRUE;
}
/* }}} */
/* {{{ proto bool SplPriorityQueue::compare(mixed $a, mixed $b) U
compare the priorities */
SPL_METHOD(SplPriorityQueue, compare)
{
zval *a, *b;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "zz", &a, &b) == FAILURE) {
return;
}
RETURN_LONG(spl_ptr_heap_zval_max_cmp(a, b, NULL TSRMLS_CC));
}
/* }}} */
/* {{{ proto mixed SplHeap::top() U
Peek at the top element of the heap */
SPL_METHOD(SplHeap, top)
{
zval *value;
spl_heap_object *intern;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "") == FAILURE) {
return;
}
intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (intern->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
value = (zval *)spl_ptr_heap_top(intern->heap);
if (!value) {
zend_throw_exception(spl_ce_RuntimeException, "Can't peek at an empty heap", 0 TSRMLS_CC);
return;
}
RETURN_ZVAL(value, 1, 0);
}
/* }}} */
/* {{{ proto bool SplMinHeap::compare(mixed $a, mixed $b) U
compare the values */
SPL_METHOD(SplMinHeap, compare)
{
zval *a, *b;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "zz", &a, &b) == FAILURE) {
return;
}
RETURN_LONG(spl_ptr_heap_zval_min_cmp(a, b, NULL TSRMLS_CC));
}
/* }}} */
/* {{{ proto bool SplMaxHeap::compare(mixed $a, mixed $b) U
compare the values */
SPL_METHOD(SplMaxHeap, compare)
{
zval *a, *b;
if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "zz", &a, &b) == FAILURE) {
return;
}
RETURN_LONG(spl_ptr_heap_zval_max_cmp(a, b, NULL TSRMLS_CC));
}
/* }}} */
static void spl_heap_it_dtor(zend_object_iterator *iter TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator = (spl_heap_it *)iter;
zend_user_it_invalidate_current(iter TSRMLS_CC);
zval_ptr_dtor((zval**)&iterator->intern.it.data);
efree(iterator);
}
/* }}} */
static void spl_heap_it_rewind(zend_object_iterator *iter TSRMLS_DC) /* {{{ */
{
/* do nothing, the iterator always points to the top element */
}
/* }}} */
static int spl_heap_it_valid(zend_object_iterator *iter TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator = (spl_heap_it *)iter;
return (iterator->object->heap->count != 0 ? SUCCESS : FAILURE);
}
/* }}} */
static void spl_heap_it_get_current_data(zend_object_iterator *iter, zval ***data TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator = (spl_heap_it *)iter;
zval **element = (zval **)&iterator->object->heap->elements[0];
if (iterator->object->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
if (iterator->object->heap->count == 0 || !*element) {
*data = NULL;
} else {
*data = element;
}
}
/* }}} */
static void spl_pqueue_it_get_current_data(zend_object_iterator *iter, zval ***data TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator = (spl_heap_it *)iter;
zval **element = (zval **)&iterator->object->heap->elements[0];
if (iterator->object->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
if (iterator->object->heap->count == 0 || !*element) {
*data = NULL;
} else {
*data = spl_pqueue_extract_helper(element, iterator->object->flags);
if (!*data) {
zend_error(E_RECOVERABLE_ERROR, "Unable to extract from the PriorityQueue node");
}
}
}
/* }}} */
static void spl_heap_it_get_current_key(zend_object_iterator *iter, zval *key TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator = (spl_heap_it *)iter;
ZVAL_LONG(key, iterator->object->heap->count - 1);
}
/* }}} */
static void spl_heap_it_move_forward(zend_object_iterator *iter TSRMLS_DC) /* {{{ */
{
zval *object = (zval*)((zend_user_iterator *)iter)->it.data;
spl_heap_it *iterator = (spl_heap_it *)iter;
spl_ptr_heap_element elem;
if (iterator->object->heap->flags & SPL_HEAP_CORRUPTED) {
zend_throw_exception(spl_ce_RuntimeException, "Heap is corrupted, heap properties are no longer ensured.", 0 TSRMLS_CC);
return;
}
elem = spl_ptr_heap_delete_top(iterator->object->heap, object TSRMLS_CC);
if (elem != NULL) {
zval_ptr_dtor((zval **)&elem);
}
zend_user_it_invalidate_current(iter TSRMLS_CC);
}
/* }}} */
/* {{{ proto int SplHeap::key() U
Return current array key */
SPL_METHOD(SplHeap, key)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (zend_parse_parameters_none() == FAILURE) {
return;
}
RETURN_LONG(intern->heap->count - 1);
}
/* }}} */
/* {{{ proto void SplHeap::next() U
Move to next entry */
SPL_METHOD(SplHeap, next)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
spl_ptr_heap_element elem = spl_ptr_heap_delete_top(intern->heap, getThis() TSRMLS_CC);
if (zend_parse_parameters_none() == FAILURE) {
return;
}
if (elem != NULL) {
zval_ptr_dtor((zval **)&elem);
}
}
/* }}} */
/* {{{ proto bool SplHeap::valid() U
Check whether the datastructure contains more entries */
SPL_METHOD(SplHeap, valid)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
if (zend_parse_parameters_none() == FAILURE) {
return;
}
RETURN_BOOL(intern->heap->count != 0);
}
/* }}} */
/* {{{ proto void SplHeap::rewind() U
Rewind the datastructure back to the start */
SPL_METHOD(SplHeap, rewind)
{
if (zend_parse_parameters_none() == FAILURE) {
return;
}
/* do nothing, the iterator always points to the top element */
}
/* }}} */
/* {{{ proto mixed|NULL SplHeap::current() U
Return current datastructure entry */
SPL_METHOD(SplHeap, current)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
zval *element = (zval *)intern->heap->elements[0];
if (zend_parse_parameters_none() == FAILURE) {
return;
}
if (!intern->heap->count || !element) {
RETURN_NULL();
} else {
RETURN_ZVAL(element, 1, 0);
}
}
/* }}} */
/* {{{ proto mixed|NULL SplPriorityQueue::current() U
Return current datastructure entry */
SPL_METHOD(SplPriorityQueue, current)
{
spl_heap_object *intern = (spl_heap_object*)zend_object_store_get_object(getThis() TSRMLS_CC);
zval **element = (zval **)&intern->heap->elements[0];
if (zend_parse_parameters_none() == FAILURE) {
return;
}
if (!intern->heap->count || !*element) {
RETURN_NULL();
} else {
zval **data = spl_pqueue_extract_helper(element, intern->flags);
if (!data) {
zend_error(E_RECOVERABLE_ERROR, "Unable to extract from the PriorityQueue node");
RETURN_NULL();
}
RETURN_ZVAL(*data, 1, 0);
}
}
/* }}} */
/* iterator handler table */
zend_object_iterator_funcs spl_heap_it_funcs = {
spl_heap_it_dtor,
spl_heap_it_valid,
spl_heap_it_get_current_data,
spl_heap_it_get_current_key,
spl_heap_it_move_forward,
spl_heap_it_rewind
};
zend_object_iterator_funcs spl_pqueue_it_funcs = {
spl_heap_it_dtor,
spl_heap_it_valid,
spl_pqueue_it_get_current_data,
spl_heap_it_get_current_key,
spl_heap_it_move_forward,
spl_heap_it_rewind
};
zend_object_iterator *spl_heap_get_iterator(zend_class_entry *ce, zval *object, int by_ref TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator;
spl_heap_object *heap_object = (spl_heap_object*)zend_object_store_get_object(object TSRMLS_CC);
if (by_ref) {
zend_throw_exception(spl_ce_RuntimeException, "An iterator cannot be used with foreach by reference", 0 TSRMLS_CC);
return NULL;
}
Z_ADDREF_P(object);
iterator = emalloc(sizeof(spl_heap_it));
iterator->intern.it.data = (void*)object;
iterator->intern.it.funcs = &spl_heap_it_funcs;
iterator->intern.ce = ce;
iterator->intern.value = NULL;
iterator->flags = heap_object->flags;
iterator->object = heap_object;
return (zend_object_iterator*)iterator;
}
/* }}} */
zend_object_iterator *spl_pqueue_get_iterator(zend_class_entry *ce, zval *object, int by_ref TSRMLS_DC) /* {{{ */
{
spl_heap_it *iterator;
spl_heap_object *heap_object = (spl_heap_object*)zend_object_store_get_object(object TSRMLS_CC);
if (by_ref) {
zend_throw_exception(spl_ce_RuntimeException, "An iterator cannot be used with foreach by reference", 0 TSRMLS_CC);
return NULL;
}
Z_ADDREF_P(object);
iterator = emalloc(sizeof(spl_heap_it));
iterator->intern.it.data = (void*)object;
iterator->intern.it.funcs = &spl_pqueue_it_funcs;
iterator->intern.ce = ce;
iterator->intern.value = NULL;
iterator->flags = heap_object->flags;
iterator->object = heap_object;
return (zend_object_iterator*)iterator;
}
/* }}} */
ZEND_BEGIN_ARG_INFO(arginfo_heap_insert, 0)
ZEND_ARG_INFO(0, value)
ZEND_END_ARG_INFO()
ZEND_BEGIN_ARG_INFO(arginfo_heap_compare, 0)
ZEND_ARG_INFO(0, a)
ZEND_ARG_INFO(0, b)
ZEND_END_ARG_INFO()
ZEND_BEGIN_ARG_INFO(arginfo_pqueue_insert, 0)
ZEND_ARG_INFO(0, value)
ZEND_ARG_INFO(0, priority)
ZEND_END_ARG_INFO()
ZEND_BEGIN_ARG_INFO(arginfo_pqueue_setflags, 0)
ZEND_ARG_INFO(0, flags)
ZEND_END_ARG_INFO()
ZEND_BEGIN_ARG_INFO(arginfo_splheap_void, 0)
ZEND_END_ARG_INFO()
static const zend_function_entry spl_funcs_SplMinHeap[] = {
SPL_ME(SplMinHeap, compare, arginfo_heap_compare, ZEND_ACC_PROTECTED)
{NULL, NULL, NULL}
};
static const zend_function_entry spl_funcs_SplMaxHeap[] = {
SPL_ME(SplMaxHeap, compare, arginfo_heap_compare, ZEND_ACC_PROTECTED)
{NULL, NULL, NULL}
};
static const zend_function_entry spl_funcs_SplPriorityQueue[] = {
SPL_ME(SplPriorityQueue, compare, arginfo_heap_compare, ZEND_ACC_PUBLIC)
SPL_ME(SplPriorityQueue, insert, arginfo_pqueue_insert, ZEND_ACC_PUBLIC)
SPL_ME(SplPriorityQueue, setExtractFlags, arginfo_pqueue_setflags, ZEND_ACC_PUBLIC)
SPL_ME(SplPriorityQueue, top, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplPriorityQueue, extract, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, count, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, isEmpty, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, rewind, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplPriorityQueue, current, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, key, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, next, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, valid, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, recoverFromCorruption, arginfo_splheap_void, ZEND_ACC_PUBLIC)
{NULL, NULL, NULL}
};
static const zend_function_entry spl_funcs_SplHeap[] = {
SPL_ME(SplHeap, extract, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, insert, arginfo_heap_insert, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, top, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, count, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, isEmpty, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, rewind, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, current, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, key, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, next, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, valid, arginfo_splheap_void, ZEND_ACC_PUBLIC)
SPL_ME(SplHeap, recoverFromCorruption, arginfo_splheap_void, ZEND_ACC_PUBLIC)
ZEND_FENTRY(compare, NULL, NULL, ZEND_ACC_PROTECTED|ZEND_ACC_ABSTRACT)
{NULL, NULL, NULL}
};
/* }}} */
PHP_MINIT_FUNCTION(spl_heap) /* {{{ */
{
REGISTER_SPL_STD_CLASS_EX(SplHeap, spl_heap_object_new, spl_funcs_SplHeap);
memcpy(&spl_handler_SplHeap, zend_get_std_object_handlers(), sizeof(zend_object_handlers));
spl_handler_SplHeap.clone_obj = spl_heap_object_clone;
spl_handler_SplHeap.count_elements = spl_heap_object_count_elements;
spl_handler_SplHeap.get_debug_info = spl_heap_object_get_debug_info;
REGISTER_SPL_IMPLEMENTS(SplHeap, Iterator);
REGISTER_SPL_IMPLEMENTS(SplHeap, Countable);
spl_ce_SplHeap->get_iterator = spl_heap_get_iterator;
REGISTER_SPL_SUB_CLASS_EX(SplMinHeap, SplHeap, spl_heap_object_new, spl_funcs_SplMinHeap);
REGISTER_SPL_SUB_CLASS_EX(SplMaxHeap, SplHeap, spl_heap_object_new, spl_funcs_SplMaxHeap);
spl_ce_SplMaxHeap->get_iterator = spl_heap_get_iterator;
spl_ce_SplMinHeap->get_iterator = spl_heap_get_iterator;
REGISTER_SPL_STD_CLASS_EX(SplPriorityQueue, spl_heap_object_new, spl_funcs_SplPriorityQueue);
memcpy(&spl_handler_SplPriorityQueue, zend_get_std_object_handlers(), sizeof(zend_object_handlers));
spl_handler_SplPriorityQueue.clone_obj = spl_heap_object_clone;
spl_handler_SplPriorityQueue.count_elements = spl_heap_object_count_elements;
spl_handler_SplPriorityQueue.get_debug_info = spl_pqueue_object_get_debug_info;
REGISTER_SPL_IMPLEMENTS(SplPriorityQueue, Iterator);
REGISTER_SPL_IMPLEMENTS(SplPriorityQueue, Countable);
spl_ce_SplPriorityQueue->get_iterator = spl_pqueue_get_iterator;
REGISTER_SPL_CLASS_CONST_LONG(SplPriorityQueue, "EXTR_BOTH", SPL_PQUEUE_EXTR_BOTH);
REGISTER_SPL_CLASS_CONST_LONG(SplPriorityQueue, "EXTR_PRIORITY", SPL_PQUEUE_EXTR_PRIORITY);
REGISTER_SPL_CLASS_CONST_LONG(SplPriorityQueue, "EXTR_DATA", SPL_PQUEUE_EXTR_DATA);
return SUCCESS;
}
/* }}} */
/*
* Local variables:
* tab-width: 4
* c-basic-offset: 4
* End:
* vim600: fdm=marker
* vim: noet sw=4 ts=4
*/