mirror of
https://github.com/php/php-src.git
synced 2024-11-24 02:15:04 +08:00
ccf18da450
This slightly improves calls to regular function and method calls in cost of a bit slower generator initialization. Separate call frame for generators, allocated on heap, now created by ZEND_GENERATOR_CREATE instruction.
378 lines
14 KiB
C
378 lines
14 KiB
C
/*
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+----------------------------------------------------------------------+
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| Zend Engine |
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+----------------------------------------------------------------------+
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| Copyright (c) 1998-2016 Zend Technologies Ltd. (http://www.zend.com) |
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+----------------------------------------------------------------------+
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| This source file is subject to version 2.00 of the Zend license, |
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| that is bundled with this package in the file LICENSE, and is |
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| available through the world-wide-web at the following url: |
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| http://www.zend.com/license/2_00.txt. |
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| If you did not receive a copy of the Zend license and are unable to |
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| obtain it through the world-wide-web, please send a note to |
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| license@zend.com so we can mail you a copy immediately. |
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+----------------------------------------------------------------------+
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| Authors: Andi Gutmans <andi@zend.com> |
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| Zeev Suraski <zeev@zend.com> |
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| Dmitry Stogov <dmitry@zend.com> |
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+----------------------------------------------------------------------+
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*/
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/* $Id$ */
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#ifndef ZEND_EXECUTE_H
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#define ZEND_EXECUTE_H
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#include "zend_compile.h"
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#include "zend_hash.h"
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#include "zend_operators.h"
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#include "zend_variables.h"
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BEGIN_EXTERN_C()
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struct _zend_fcall_info;
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ZEND_API extern void (*zend_execute_ex)(zend_execute_data *execute_data);
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ZEND_API extern void (*zend_execute_internal)(zend_execute_data *execute_data, zval *return_value);
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void init_executor(void);
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void shutdown_executor(void);
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void shutdown_destructors(void);
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ZEND_API void zend_init_execute_data(zend_execute_data *execute_data, zend_op_array *op_array, zval *return_value);
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ZEND_API void zend_execute(zend_op_array *op_array, zval *return_value);
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ZEND_API void execute_ex(zend_execute_data *execute_data);
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ZEND_API void execute_internal(zend_execute_data *execute_data, zval *return_value);
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ZEND_API zend_class_entry *zend_lookup_class(zend_string *name);
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ZEND_API zend_class_entry *zend_lookup_class_ex(zend_string *name, const zval *key, int use_autoload);
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ZEND_API zend_class_entry *zend_get_called_scope(zend_execute_data *ex);
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ZEND_API zend_object *zend_get_this_object(zend_execute_data *ex);
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ZEND_API int zend_eval_string(char *str, zval *retval_ptr, char *string_name);
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ZEND_API int zend_eval_stringl(char *str, size_t str_len, zval *retval_ptr, char *string_name);
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ZEND_API int zend_eval_string_ex(char *str, zval *retval_ptr, char *string_name, int handle_exceptions);
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ZEND_API int zend_eval_stringl_ex(char *str, size_t str_len, zval *retval_ptr, char *string_name, int handle_exceptions);
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/* export zend_pass_function to allow comparisons against it */
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extern ZEND_API const zend_internal_function zend_pass_function;
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ZEND_API void ZEND_FASTCALL zend_check_internal_arg_type(zend_function *zf, uint32_t arg_num, zval *arg);
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ZEND_API int ZEND_FASTCALL zend_check_arg_type(zend_function *zf, uint32_t arg_num, zval *arg, zval *default_value, void **cache_slot);
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ZEND_API void ZEND_FASTCALL zend_check_missing_arg(zend_execute_data *execute_data, uint32_t arg_num, void **cache_slot);
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static zend_always_inline zval* zend_assign_to_variable(zval *variable_ptr, zval *value, zend_uchar value_type)
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{
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zend_refcounted *ref = NULL;
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if (ZEND_CONST_COND(value_type & (IS_VAR|IS_CV), 1) && Z_ISREF_P(value)) {
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ref = Z_COUNTED_P(value);
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value = Z_REFVAL_P(value);
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}
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do {
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if (UNEXPECTED(Z_REFCOUNTED_P(variable_ptr))) {
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zend_refcounted *garbage;
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if (Z_ISREF_P(variable_ptr)) {
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variable_ptr = Z_REFVAL_P(variable_ptr);
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if (EXPECTED(!Z_REFCOUNTED_P(variable_ptr))) {
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break;
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}
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}
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if (Z_TYPE_P(variable_ptr) == IS_OBJECT &&
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UNEXPECTED(Z_OBJ_HANDLER_P(variable_ptr, set) != NULL)) {
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Z_OBJ_HANDLER_P(variable_ptr, set)(variable_ptr, value);
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return variable_ptr;
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}
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if (ZEND_CONST_COND(value_type & (IS_VAR|IS_CV), 1) && variable_ptr == value) {
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return variable_ptr;
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}
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garbage = Z_COUNTED_P(variable_ptr);
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if (--GC_REFCOUNT(garbage) == 0) {
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ZVAL_COPY_VALUE(variable_ptr, value);
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if (value_type & (IS_CONST|IS_CV)) {
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if (UNEXPECTED(Z_OPT_REFCOUNTED_P(variable_ptr))) {
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Z_ADDREF_P(variable_ptr);
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}
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} else if (ZEND_CONST_COND(value_type == IS_VAR, 1) && UNEXPECTED(ref)) {
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if (UNEXPECTED(--GC_REFCOUNT(ref) == 0)) {
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efree_size(ref, sizeof(zend_reference));
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} else if (Z_OPT_REFCOUNTED_P(variable_ptr)) {
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Z_ADDREF_P(variable_ptr);
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}
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}
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zval_dtor_func(garbage);
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return variable_ptr;
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} else { /* we need to split */
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/* optimized version of GC_ZVAL_CHECK_POSSIBLE_ROOT(variable_ptr) */
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if ((Z_COLLECTABLE_P(variable_ptr)) &&
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UNEXPECTED(!GC_INFO(garbage))) {
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gc_possible_root(garbage);
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}
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}
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}
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} while (0);
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ZVAL_COPY_VALUE(variable_ptr, value);
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if (value_type & (IS_CONST|IS_CV)) {
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if (UNEXPECTED(Z_OPT_REFCOUNTED_P(variable_ptr))) {
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Z_ADDREF_P(variable_ptr);
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}
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} else if (ZEND_CONST_COND(value_type == IS_VAR, 1) && UNEXPECTED(ref)) {
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if (UNEXPECTED(--GC_REFCOUNT(ref) == 0)) {
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efree_size(ref, sizeof(zend_reference));
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} else if (Z_OPT_REFCOUNTED_P(variable_ptr)) {
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Z_ADDREF_P(variable_ptr);
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}
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}
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return variable_ptr;
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}
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ZEND_API int zval_update_constant(zval *pp);
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ZEND_API int zval_update_constant_ex(zval *pp, zend_class_entry *scope);
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/* dedicated Zend executor functions - do not use! */
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struct _zend_vm_stack {
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zval *top;
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zval *end;
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zend_vm_stack prev;
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};
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#define ZEND_VM_STACK_HEADER_SLOTS \
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((ZEND_MM_ALIGNED_SIZE(sizeof(struct _zend_vm_stack)) + ZEND_MM_ALIGNED_SIZE(sizeof(zval)) - 1) / ZEND_MM_ALIGNED_SIZE(sizeof(zval)))
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#define ZEND_VM_STACK_ELEMENTS(stack) \
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(((zval*)(stack)) + ZEND_VM_STACK_HEADER_SLOTS)
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/*
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* In general in RELEASE build ZEND_ASSERT() must be zero-cost, but for some
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* reason, GCC generated worse code, performing CSE on assertion code and the
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* following "slow path" and moving memory read operatins from slow path into
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* common header. This made a degradation for the fast path.
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* The following "#if ZEND_DEBUG" eliminates it.
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*/
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#if ZEND_DEBUG
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# define ZEND_ASSERT_VM_STACK(stack) ZEND_ASSERT(stack->top > (zval *) stack && stack->end > (zval *) stack && stack->top <= stack->end)
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# define ZEND_ASSERT_VM_STACK_GLOBAL ZEND_ASSERT(EG(vm_stack_top) > (zval *) EG(vm_stack) && EG(vm_stack_end) > (zval *) EG(vm_stack) && EG(vm_stack_top) <= EG(vm_stack_end))
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#else
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# define ZEND_ASSERT_VM_STACK(stack)
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# define ZEND_ASSERT_VM_STACK_GLOBAL
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#endif
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ZEND_API void zend_vm_stack_init(void);
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ZEND_API void zend_vm_stack_destroy(void);
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ZEND_API void* zend_vm_stack_extend(size_t size);
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static zend_always_inline void zend_vm_init_call_frame(zend_execute_data *call, uint32_t call_info, zend_function *func, uint32_t num_args, zend_class_entry *called_scope, zend_object *object)
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{
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call->func = func;
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if (object) {
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Z_OBJ(call->This) = object;
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ZEND_SET_CALL_INFO(call, 1, call_info);
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} else {
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Z_CE(call->This) = called_scope;
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ZEND_SET_CALL_INFO(call, 0, call_info);
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}
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ZEND_CALL_NUM_ARGS(call) = num_args;
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}
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static zend_always_inline zend_execute_data *zend_vm_stack_push_call_frame_ex(uint32_t used_stack, uint32_t call_info, zend_function *func, uint32_t num_args, zend_class_entry *called_scope, zend_object *object)
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{
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zend_execute_data *call = (zend_execute_data*)EG(vm_stack_top);
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ZEND_ASSERT_VM_STACK_GLOBAL;
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if (UNEXPECTED(used_stack > (size_t)(((char*)EG(vm_stack_end)) - (char*)call))) {
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call = (zend_execute_data*)zend_vm_stack_extend(used_stack);
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ZEND_ASSERT_VM_STACK_GLOBAL;
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zend_vm_init_call_frame(call, call_info | ZEND_CALL_ALLOCATED, func, num_args, called_scope, object);
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return call;
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} else {
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EG(vm_stack_top) = (zval*)((char*)call + used_stack);
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zend_vm_init_call_frame(call, call_info, func, num_args, called_scope, object);
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return call;
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}
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}
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static zend_always_inline uint32_t zend_vm_calc_used_stack(uint32_t num_args, zend_function *func)
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{
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uint32_t used_stack = ZEND_CALL_FRAME_SLOT + num_args;
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if (EXPECTED(ZEND_USER_CODE(func->type))) {
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used_stack += func->op_array.last_var + func->op_array.T - MIN(func->op_array.num_args, num_args);
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}
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return used_stack * sizeof(zval);
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}
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static zend_always_inline zend_execute_data *zend_vm_stack_push_call_frame(uint32_t call_info, zend_function *func, uint32_t num_args, zend_class_entry *called_scope, zend_object *object)
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{
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uint32_t used_stack = zend_vm_calc_used_stack(num_args, func);
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return zend_vm_stack_push_call_frame_ex(used_stack, call_info,
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func, num_args, called_scope, object);
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}
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static zend_always_inline void zend_vm_stack_free_extra_args_ex(uint32_t call_info, zend_execute_data *call)
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{
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if (UNEXPECTED(call_info & ZEND_CALL_FREE_EXTRA_ARGS)) {
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zval *end = ZEND_CALL_VAR_NUM(call, call->func->op_array.last_var + call->func->op_array.T);
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zval *p = end + (ZEND_CALL_NUM_ARGS(call) - call->func->op_array.num_args);
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do {
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p--;
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if (Z_REFCOUNTED_P(p)) {
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if (!Z_DELREF_P(p)) {
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zend_refcounted *r = Z_COUNTED_P(p);
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ZVAL_NULL(p);
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zval_dtor_func(r);
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} else {
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GC_ZVAL_CHECK_POSSIBLE_ROOT(p);
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}
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}
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} while (p != end);
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}
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}
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static zend_always_inline void zend_vm_stack_free_extra_args(zend_execute_data *call)
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{
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zend_vm_stack_free_extra_args_ex(ZEND_CALL_INFO(call), call);
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}
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static zend_always_inline void zend_vm_stack_free_args(zend_execute_data *call)
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{
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uint32_t num_args = ZEND_CALL_NUM_ARGS(call);
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if (EXPECTED(num_args > 0)) {
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zval *end = ZEND_CALL_ARG(call, 1);
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zval *p = end + num_args;
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do {
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p--;
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if (Z_REFCOUNTED_P(p)) {
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if (!Z_DELREF_P(p)) {
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zend_refcounted *r = Z_COUNTED_P(p);
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ZVAL_NULL(p);
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zval_dtor_func(r);
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}
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}
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} while (p != end);
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}
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}
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static zend_always_inline void zend_vm_stack_free_call_frame_ex(uint32_t call_info, zend_execute_data *call)
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{
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ZEND_ASSERT_VM_STACK_GLOBAL;
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if (UNEXPECTED(call_info & ZEND_CALL_ALLOCATED)) {
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ZEND_ASSERT(call == (zend_execute_data*)ZEND_VM_STACK_ELEMENTS(EG(vm_stack)));
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zend_vm_stack p = EG(vm_stack);
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zend_vm_stack prev = p->prev;
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EG(vm_stack_top) = prev->top;
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EG(vm_stack_end) = prev->end;
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EG(vm_stack) = prev;
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efree(p);
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} else {
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EG(vm_stack_top) = (zval*)call;
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}
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ZEND_ASSERT_VM_STACK_GLOBAL;
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}
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static zend_always_inline void zend_vm_stack_free_call_frame(zend_execute_data *call)
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{
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zend_vm_stack_free_call_frame_ex(ZEND_CALL_INFO(call), call);
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}
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/* services */
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ZEND_API const char *get_active_class_name(const char **space);
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ZEND_API const char *get_active_function_name(void);
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ZEND_API const char *zend_get_executed_filename(void);
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ZEND_API zend_string *zend_get_executed_filename_ex(void);
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ZEND_API uint zend_get_executed_lineno(void);
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ZEND_API zend_class_entry *zend_get_executed_scope(void);
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ZEND_API zend_bool zend_is_executing(void);
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ZEND_API void zend_set_timeout(zend_long seconds, int reset_signals);
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ZEND_API void zend_unset_timeout(void);
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ZEND_API ZEND_NORETURN void zend_timeout(int dummy);
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ZEND_API zend_class_entry *zend_fetch_class(zend_string *class_name, int fetch_type);
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ZEND_API zend_class_entry *zend_fetch_class_by_name(zend_string *class_name, const zval *key, int fetch_type);
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void zend_verify_abstract_class(zend_class_entry *ce);
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ZEND_API void zend_fetch_dimension_by_zval(zval *result, zval *container, zval *dim);
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ZEND_API void zend_fetch_dimension_by_zval_is(zval *result, zval *container, zval *dim, int dim_type);
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ZEND_API zval* zend_get_compiled_variable_value(const zend_execute_data *execute_data_ptr, uint32_t var);
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#define ZEND_USER_OPCODE_CONTINUE 0 /* execute next opcode */
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#define ZEND_USER_OPCODE_RETURN 1 /* exit from executor (return from function) */
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#define ZEND_USER_OPCODE_DISPATCH 2 /* call original opcode handler */
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#define ZEND_USER_OPCODE_ENTER 3 /* enter into new op_array without recursion */
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#define ZEND_USER_OPCODE_LEAVE 4 /* return to calling op_array within the same executor */
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#define ZEND_USER_OPCODE_DISPATCH_TO 0x100 /* call original handler of returned opcode */
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ZEND_API int zend_set_user_opcode_handler(zend_uchar opcode, user_opcode_handler_t handler);
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ZEND_API user_opcode_handler_t zend_get_user_opcode_handler(zend_uchar opcode);
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/* former zend_execute_locks.h */
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typedef zval* zend_free_op;
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ZEND_API zval *zend_get_zval_ptr(int op_type, const znode_op *node, const zend_execute_data *execute_data, zend_free_op *should_free, int type);
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ZEND_API void zend_clean_and_cache_symbol_table(zend_array *symbol_table);
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void zend_free_compiled_variables(zend_execute_data *execute_data);
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void zend_cleanup_unfinished_execution(zend_execute_data *execute_data, uint32_t op_num, uint32_t catch_op_num);
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#define CACHE_ADDR(num) \
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((void**)((char*)EX_RUN_TIME_CACHE() + (num)))
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#define CACHED_PTR(num) \
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((void**)((char*)EX_RUN_TIME_CACHE() + (num)))[0]
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#define CACHE_PTR(num, ptr) do { \
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((void**)((char*)EX_RUN_TIME_CACHE() + (num)))[0] = (ptr); \
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} while (0)
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#define CACHED_POLYMORPHIC_PTR(num, ce) \
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(EXPECTED(((void**)((char*)EX_RUN_TIME_CACHE() + (num)))[0] == (void*)(ce)) ? \
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((void**)((char*)EX_RUN_TIME_CACHE() + (num)))[1] : \
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NULL)
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#define CACHE_POLYMORPHIC_PTR(num, ce, ptr) do { \
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void **slot = (void**)((char*)EX_RUN_TIME_CACHE() + (num)); \
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slot[0] = (ce); \
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slot[1] = (ptr); \
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} while (0)
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#define CACHED_PTR_EX(slot) \
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(slot)[0]
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#define CACHE_PTR_EX(slot, ptr) do { \
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(slot)[0] = (ptr); \
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} while (0)
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#define CACHED_POLYMORPHIC_PTR_EX(slot, ce) \
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(EXPECTED((slot)[0] == (ce)) ? (slot)[1] : NULL)
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#define CACHE_POLYMORPHIC_PTR_EX(slot, ce, ptr) do { \
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(slot)[0] = (ce); \
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(slot)[1] = (ptr); \
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} while (0)
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#define SKIP_EXT_OPLINE(opline) do { \
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while (UNEXPECTED((opline)->opcode >= ZEND_EXT_STMT \
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&& (opline)->opcode <= ZEND_TICKS)) { \
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(opline)--; \
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} \
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} while (0)
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END_EXTERN_C()
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#endif /* ZEND_EXECUTE_H */
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/*
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* Local variables:
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* tab-width: 4
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* c-basic-offset: 4
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* indent-tabs-mode: t
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* End:
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*/
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