/* Copyright 2015-2016 Samsung Electronics Co., Ltd.
* Copyright 2016 University of Szeged.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include "ecma-alloc.h"
#include "ecma-array-object.h"
#include "ecma-builtin-helpers.h"
#include "ecma-builtins.h"
#include "ecma-exceptions.h"
#include "ecma-eval.h"
#include "ecma-function-object.h"
#include "ecma-gc.h"
#include "ecma-helpers.h"
#include "ecma-init-finalize.h"
#include "ecma-lex-env.h"
#include "ecma-literal-storage.h"
#include "ecma-objects.h"
#include "ecma-objects-general.h"
#include "jcontext.h"
#include "jerry-api.h"
#include "jerry-snapshot.h"
#include "js-parser.h"
#include "re-compiler.h"
#define JERRY_INTERNAL
#include "jerry-internal.h"
JERRY_STATIC_ASSERT (sizeof (jerry_value_t) == sizeof (ecma_value_t),
size_of_jerry_value_t_must_be_equal_to_size_of_ecma_value_t);
JERRY_STATIC_ASSERT ((int) ECMA_ERROR_COMMON == (int) JERRY_ERROR_COMMON
&& (int) ECMA_ERROR_EVAL == (int) JERRY_ERROR_EVAL
&& (int) ECMA_ERROR_RANGE == (int) JERRY_ERROR_RANGE
&& (int) ECMA_ERROR_REFERENCE == (int) JERRY_ERROR_REFERENCE
&& (int) ECMA_ERROR_SYNTAX == (int) JERRY_ERROR_SYNTAX
&& (int) ECMA_ERROR_TYPE == (int) JERRY_ERROR_TYPE
&& (int) ECMA_ERROR_URI == (int) JERRY_ERROR_URI,
ecma_standard_error_t_must_be_equal_to_jerry_error_t);
#ifdef JERRY_ENABLE_ERROR_MESSAGES
/**
* Error message, if an argument is has an error flag
*/
static const char * const error_value_msg_p = "argument cannot have an error flag";
/**
* Error message, if types of arguments are incorrect
*/
static const char * const wrong_args_msg_p = "wrong type of argument";
#endif /* JERRY_ENABLE_ERROR_MESSAGES */
/** \addtogroup jerry Jerry engine interface
* @{
*/
/**
* Assert that it is correct to call API in current state.
*
* Note:
* By convention, there can be some states when API could not be invoked.
*
* While, API can be invoked jerry_api_available flag is set,
* and while it is incorrect to invoke API - it is not set.
*
* This procedure checks whether the API is available, and terminates
* the engine if it is unavailable. Otherwise it is a no-op.
*
* Note:
* The API could not be invoked in the following cases:
* - before jerry_init and after jerry_cleanup
* - between enter to and return from a native free callback
*/
static inline void __attr_always_inline___
jerry_assert_api_available (void)
{
if (unlikely (!JERRY_CONTEXT (jerry_api_available)))
{
/* Terminates the execution. */
JERRY_UNREACHABLE ();
}
} /* jerry_assert_api_available */
/**
* Turn on API availability
*/
static inline void __attr_always_inline___
jerry_make_api_available (void)
{
JERRY_CONTEXT (jerry_api_available) = true;
} /* jerry_make_api_available */
/**
* Turn off API availability
*/
static inline void __attr_always_inline___
jerry_make_api_unavailable (void)
{
JERRY_CONTEXT (jerry_api_available) = false;
} /* jerry_make_api_unavailable */
/**
* Construct new TypeError object
*
* @return TypeError object value
*/
static jerry_value_t
jerry_create_type_error (void)
{
ecma_object_t *type_error_obj_p = ecma_new_standard_error (ECMA_ERROR_TYPE);
return ecma_make_error_obj_value (type_error_obj_p);
} /* jerry_create_type_error */
/**
* Jerry engine initialization
*/
void
jerry_init (jerry_init_flag_t flags) /**< combination of Jerry flags */
{
if (unlikely (JERRY_CONTEXT (jerry_api_available)))
{
/* This function cannot be called twice unless jerry_cleanup is called. */
JERRY_UNREACHABLE ();
}
/* Zero out all members. */
memset (&JERRY_CONTEXT (JERRY_CONTEXT_FIRST_MEMBER), 0, sizeof (jerry_context_t));
if (flags & (JERRY_INIT_MEM_STATS | JERRY_INIT_MEM_STATS_SEPARATE))
{
#ifndef JMEM_STATS
flags &= (jerry_init_flag_t) ~(JERRY_INIT_MEM_STATS | JERRY_INIT_MEM_STATS_SEPARATE);
JERRY_WARNING_MSG ("Ignoring JERRY_INIT_MEM_STATS flag because of !JMEM_STATS configuration.\n");
#else /* JMEM_STATS */
flags |= JERRY_INIT_MEM_STATS;
#endif /* !JMEM_STATS */
}
if (flags & JERRY_INIT_SHOW_OPCODES)
{
#ifndef PARSER_DUMP_BYTE_CODE
flags &= (jerry_init_flag_t) ~JERRY_INIT_SHOW_OPCODES;
JERRY_WARNING_MSG ("Ignoring JERRY_INIT_SHOW_OPCODES flag because of !PARSER_DUMP_BYTE_CODE configuration.\n");
#endif /* !PARSER_DUMP_BYTE_CODE */
}
if (flags & JERRY_INIT_SHOW_REGEXP_OPCODES)
{
#ifndef REGEXP_DUMP_BYTE_CODE
flags &= (jerry_init_flag_t) ~JERRY_INIT_SHOW_REGEXP_OPCODES;
JERRY_WARNING_MSG ("Ignoring JERRY_INIT_SHOW_REGEXP_OPCODES flag "
"because of !REGEXP_DUMP_BYTE_CODE configuration.\n");
#endif /* !REGEXP_DUMP_BYTE_CODE */
}
JERRY_CONTEXT (jerry_init_flags) = flags;
jerry_make_api_available ();
jmem_init ();
ecma_init ();
} /* jerry_init */
/**
* Terminate Jerry engine
*/
void
jerry_cleanup (void)
{
jerry_assert_api_available ();
ecma_finalize ();
jmem_finalize ();
jerry_make_api_unavailable ();
} /* jerry_cleanup */
/**
* Register external magic string array
*/
void
jerry_register_magic_strings (const jerry_char_ptr_t *ex_str_items_p, /**< character arrays, representing
* external magic strings' contents */
uint32_t count, /**< number of the strings */
const jerry_length_t *str_lengths_p) /**< lengths of all strings */
{
jerry_assert_api_available ();
lit_magic_strings_ex_set ((const lit_utf8_byte_t **) ex_str_items_p, count, (const lit_utf8_size_t *) str_lengths_p);
} /* jerry_register_magic_strings */
/**
* Get Jerry configured memory limits
*/
void
jerry_get_memory_limits (size_t *out_data_bss_brk_limit_p, /**< [out] Jerry's maximum usage of
* data + bss + brk sections */
size_t *out_stack_limit_p) /**< [out] Jerry's maximum usage of stack */
{
*out_data_bss_brk_limit_p = CONFIG_MEM_HEAP_AREA_SIZE + CONFIG_MEM_DATA_LIMIT_MINUS_HEAP_SIZE;
*out_stack_limit_p = CONFIG_MEM_STACK_LIMIT;
} /* jerry_get_memory_limits */
/**
* Run garbage collection
*/
void
jerry_gc (void)
{
jerry_assert_api_available ();
ecma_gc_run (JMEM_FREE_UNUSED_MEMORY_SEVERITY_LOW);
} /* jerry_gc */
/**
* Simple Jerry runner
*
* @return true - if run was successful
* false - otherwise
*/
bool
jerry_run_simple (const jerry_char_t *script_source_p, /**< script source */
size_t script_source_size, /**< script source size */
jerry_init_flag_t flags) /**< combination of Jerry flags */
{
bool result = false;
jerry_init (flags);
jerry_value_t parse_ret_val = jerry_parse (script_source_p, script_source_size, false);
if (!ECMA_IS_VALUE_ERROR (parse_ret_val))
{
jerry_value_t run_ret_val = jerry_run (parse_ret_val);
if (!ECMA_IS_VALUE_ERROR (run_ret_val))
{
result = true;
}
jerry_release_value (run_ret_val);
}
jerry_release_value (parse_ret_val);
jerry_cleanup ();
return result;
} /* jerry_run_simple */
/**
* Parse script and construct an EcmaScript function. The lexical
* environment is set to the global lexical environment.
*
* @return function object value - if script was parsed successfully,
* thrown error - otherwise
*/
jerry_value_t
jerry_parse (const jerry_char_t *source_p, /**< script source */
size_t source_size, /**< script source size */
bool is_strict) /**< strict mode */
{
jerry_assert_api_available ();
ecma_compiled_code_t *bytecode_data_p;
ecma_value_t parse_status;
parse_status = parser_parse_script (source_p,
source_size,
is_strict,
&bytecode_data_p);
if (ECMA_IS_VALUE_ERROR (parse_status))
{
return parse_status;
}
ecma_free_value (parse_status);
#ifdef JMEM_STATS
if (JERRY_CONTEXT (jerry_init_flags) & JERRY_INIT_MEM_STATS_SEPARATE)
{
jmem_stats_print ();
jmem_stats_reset_peak ();
}
#endif /* JMEM_STATS */
is_strict = ((bytecode_data_p->status_flags & CBC_CODE_FLAGS_STRICT_MODE) != 0);
ecma_object_t *lex_env_p = ecma_get_global_environment ();
ecma_object_t *func_obj_p = ecma_op_create_function_object (lex_env_p,
is_strict,
bytecode_data_p);
ecma_bytecode_deref (bytecode_data_p);
return ecma_make_object_value (func_obj_p);
} /* jerry_parse */
/**
* Run an EcmaScript function created by jerry_parse.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return result of bytecode - if run was successful
* thrown error - otherwise
*/
jerry_value_t
jerry_run (const jerry_value_t func_val) /**< function to run */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (func_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
ecma_object_t *func_obj_p = ecma_get_object_from_value (func_val);
if (ecma_get_object_type (func_obj_p) != ECMA_OBJECT_TYPE_FUNCTION
|| ecma_get_object_is_builtin (func_obj_p))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
ecma_extended_object_t *ext_func_p = (ecma_extended_object_t *) func_obj_p;
ecma_object_t *scope_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_object_t,
ext_func_p->u.function.scope_cp);
if (scope_p != ecma_get_global_environment ())
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
const ecma_compiled_code_t *bytecode_data_p;
bytecode_data_p = ECMA_GET_INTERNAL_VALUE_POINTER (const ecma_compiled_code_t,
ext_func_p->u.function.bytecode_cp);
return vm_run_global (bytecode_data_p);
} /* jerry_run */
/**
* Perform eval
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return result of eval, may be error value.
*/
jerry_value_t
jerry_eval (const jerry_char_t *source_p, /**< source code */
size_t source_size, /**< length of source code */
bool is_strict) /**< source must conform with strict mode */
{
jerry_assert_api_available ();
return ecma_op_eval_chars_buffer ((const lit_utf8_byte_t *) source_p,
source_size,
false,
is_strict);
} /* jerry_eval */
/**
* Get global object
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return api value of global object
*/
jerry_value_t
jerry_get_global_object (void)
{
jerry_assert_api_available ();
return ecma_make_object_value (ecma_builtin_get (ECMA_BUILTIN_ID_GLOBAL));
} /* jerry_get_global_object */
/**
* Get global builtin
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return api value of global builtin
*/
jerry_value_t
jerry_get_global_builtin (const jerry_char_t * builtin_name)
{
jerry_assert_api_available ();
lit_utf8_byte_t *lit_utf8_string_p = (lit_utf8_byte_t *) builtin_name;
ecma_string_t *name_string_p = ecma_new_ecma_string_from_utf8 (lit_utf8_string_p,
(lit_utf8_size_t) lit_zt_utf8_string_size (lit_utf8_string_p));
lit_magic_string_id_t magic_string_id;
ecma_builtin_id_t builtin_id = ECMA_BUILTIN_ID__COUNT;
jerry_value_t result = jerry_create_undefined();
if (!ecma_is_string_magic (name_string_p, &magic_string_id)) {
// undefined
}
#define OBJECT_VALUE(name, obj_builtin_id, prop_attributes) \
else if (magic_string_id == name) { \
builtin_id = obj_builtin_id; \
}
#include "ecma-builtin-global.inc.h"
#undef OBJECT_VALUE
if (builtin_id < ECMA_BUILTIN_ID__COUNT) {
result = ecma_make_object_value (ecma_builtin_get (builtin_id));
}
return result;
} /* jerry_get_global_builtin */
/**
* Check if the specified value is an array object value.
*
* @return true - if the specified value is an array object,
* false - otherwise.
*/
bool
jerry_value_is_array (const jerry_value_t value) /**< jerry api value */
{
jerry_assert_api_available ();
return (ecma_is_value_object (value)
&& ecma_get_object_type (ecma_get_object_from_value (value)) == ECMA_OBJECT_TYPE_ARRAY);
} /* jerry_value_is_array */
/**
* Check if the specified value is boolean.
*
* @return true - if the specified value is boolean,
* false - otherwise.
*/
bool
jerry_value_is_boolean (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_boolean (value);
} /* jerry_value_is_boolean */
/**
* Check if the specified value is a constructor function object value.
*
* @return true - if the specified value is a function value that implements [[Construct]],
* false - otherwise.
*/
bool
jerry_value_is_constructor (const jerry_value_t value) /**< jerry api value */
{
jerry_assert_api_available ();
return ecma_is_constructor (value);
} /* jerry_value_is_constructor */
/**
* Check if the specified value is a function object value.
*
* @return true - if the specified value is callable,
* false - otherwise.
*/
bool
jerry_value_is_function (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_op_is_callable (value);
} /* jerry_value_is_function */
/**
* Check if the specified value is number.
*
* @return true - if the specified value is number,
* false - otherwise.
*/
bool
jerry_value_is_number (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_number (value);
} /* jerry_value_is_number */
/**
* Check if the specified value is null.
*
* @return true - if the specified value is null,
* false - otherwise.
*/
bool
jerry_value_is_null (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_null (value);
} /* jerry_value_is_null */
/**
* Check if the specified value is object.
*
* @return true - if the specified value is object,
* false - otherwise.
*/
bool
jerry_value_is_object (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_object (value);
} /* jerry_value_is_object */
/**
* Check if the specified value is string.
*
* @return true - if the specified value is string,
* false - otherwise.
*/
bool
jerry_value_is_string (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_string (value);
} /* jerry_value_is_string */
/**
* Check if the specified value is undefined.
*
* @return true - if the specified value is undefined,
* false - otherwise.
*/
bool
jerry_value_is_undefined (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_undefined (value);
} /* jerry_value_is_undefined */
/**
* Check if the specified value is an error value.
*
* @return true - if the error flag of the specified value is true,
* false - otherwise.
*/
bool
jerry_value_has_error_flag (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ECMA_IS_VALUE_ERROR (value);
} /* jerry_value_has_error_flag */
/**
* Clear the error flag
*/
void
jerry_value_clear_error_flag (jerry_value_t *value_p)
{
jerry_assert_api_available ();
*value_p = (*value_p) & ~ECMA_VALUE_ERROR_FLAG;
} /* jerry_value_clear_error_flag */
/**
* Set the error flag.
*/
void
jerry_value_set_error_flag (jerry_value_t *value_p)
{
jerry_assert_api_available ();
*value_p = (*value_p) | ECMA_VALUE_ERROR_FLAG;
} /* jerry_value_set_error_flag */
/**
* Get boolean from the specified value.
*
* @return true or false.
*/
bool
jerry_get_boolean_value (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
if (!jerry_value_is_boolean (value))
{
return false;
}
return ecma_is_value_true (value);
} /* jerry_get_boolean_value */
/**
* Get number from the specified value as a double.
*
* @return stored number as double
*/
double
jerry_get_number_value (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
if (!jerry_value_is_number (value))
{
return 0;
}
return (double) ecma_get_number_from_value (value);
} /* jerry_get_number_value */
/**
* Call ToBoolean operation on the api value.
*
* @return true - if the logical value is true
* false - otherwise
*/
bool
jerry_value_to_boolean (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value))
{
return false;
}
return ecma_op_to_boolean (value);
} /* jerry_value_to_boolean */
/**
* Call ToNumber operation on the api value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return converted number value - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_value_to_number (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
return ecma_op_to_number (value);
} /* jerry_value_to_number */
/**
* Call ToObject operation on the api value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return converted object value - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_value_to_object (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
return ecma_op_to_object (value);
} /* jerry_value_to_object */
/**
* Call ToPrimitive operation on the api value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return converted primitive value - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_value_to_primitive (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
return ecma_op_to_primitive (value, ECMA_PREFERRED_TYPE_NO);
} /* jerry_value_to_primitive */
/**
* Call the ToString ecma builtin operation on the api value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return converted string value - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_value_to_string (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
return ecma_op_to_string (value);
} /* jerry_value_to_string */
/**
* Acquire specified Jerry API value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return acquired api value
*/
jerry_value_t
jerry_acquire_value (jerry_value_t value) /**< API value */
{
jerry_assert_api_available ();
return ecma_copy_value (value);
} /* jerry_acquire_value */
/**
* Release specified Jerry API value
*/
void
jerry_release_value (jerry_value_t value) /**< API value */
{
jerry_assert_api_available ();
ecma_free_value (value);
} /* jerry_release_value */
/**
* Create an array object value
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the constructed array object
*/
jerry_value_t
jerry_create_array (uint32_t size) /**< size of array */
{
jerry_assert_api_available ();
ecma_value_t array_length = ecma_make_uint32_value (size);
jerry_length_t argument_size = 1;
ecma_value_t array_value = ecma_op_create_array_object (&array_length, argument_size, true);
ecma_free_value (array_length);
JERRY_ASSERT (!ECMA_IS_VALUE_ERROR (array_value));
return array_value;
} /* jerry_create_array */
/**
* Create a jerry_value_t representing a boolean value from the given boolean parameter.
*
* @return value of the created boolean
*/
jerry_value_t
jerry_create_boolean (bool value) /**< bool value from which a jerry_value_t will be created */
{
jerry_assert_api_available ();
return ecma_make_boolean_value (value);
} /* jerry_create_boolean */
/**
* Create an error object
*
* Note:
* - returned value must be freed with jerry_release_value, when it is no longer needed
* - the error flag is set for the returned value
*
* @return value of the constructed error object
*/
jerry_value_t
jerry_create_error (jerry_error_t error_type, /**< type of error */
const jerry_char_t *message_p) /**< value of 'message' property
* of constructed error object */
{
return jerry_create_error_sz (error_type,
(lit_utf8_byte_t *) message_p,
lit_zt_utf8_string_size (message_p));
} /* jerry_create_error */
/**
* Create an error object
*
* Note:
* - returned value must be freed with jerry_release_value, when it is no longer needed
* - the error flag is set for the returned value
*
* @return value of the constructed error object
*/
jerry_value_t
jerry_create_error_sz (jerry_error_t error_type, /**< type of error */
const jerry_char_t *message_p, /**< value of 'message' property
* of constructed error object */
jerry_size_t message_size) /**< size of the message in bytes */
{
jerry_assert_api_available ();
if (message_p == NULL || message_size == 0)
{
return ecma_make_error_obj_value (ecma_new_standard_error ((ecma_standard_error_t) error_type));
}
else
{
ecma_string_t *message_string_p = ecma_new_ecma_string_from_utf8 ((lit_utf8_byte_t *) message_p,
(lit_utf8_size_t) message_size);
ecma_object_t *error_object_p = ecma_new_standard_error_with_message ((ecma_standard_error_t) error_type,
message_string_p);
ecma_deref_ecma_string (message_string_p);
return ecma_make_error_obj_value (error_object_p);
}
} /* jerry_create_error_sz */
/**
* Converts an error object to a CESU-8 encoded string and writes it to specified buffer.
*
* @return number of bytes, actually copied to the buffer - if string's content was copied successfully;
* otherwise (in case size of buffer is insufficient) - negative number, which is calculated
* as negation of buffer size, that is required to hold the string's content.
*/
jerry_size_t
jerry_object_to_string_to_char_buffer (const jerry_value_t object,
jerry_char_t *buffer_p, /**< output characters buffer */
jerry_size_t buffer_size) /**< size of output buffer */
{
jerry_assert_api_available ();
ecma_value_t ecma_string = ecma_op_to_string (object);
const jerry_size_t result = jerry_string_to_char_buffer (ecma_string, buffer_p, buffer_size);
jerry_release_value (ecma_string);
return result;
}
/**
* Converts an error object to a UTF-8 encoded string and writes it to specified buffer.
*
* @return number of bytes, actually copied to the buffer - if string's content was copied successfully;
* otherwise (in case size of buffer is insufficient) - negative number, which is calculated
* as negation of buffer size, that is required to hold the string's content.
*/
jerry_size_t
jerry_object_to_string_to_utf8_char_buffer (const jerry_value_t object,
jerry_char_t *buffer_p, /**< output characters buffer */
jerry_size_t buffer_size) /**< size of output buffer */
{
jerry_assert_api_available ();
ecma_value_t ecma_string = ecma_op_to_string (object);
const jerry_size_t result = jerry_string_to_utf8_char_buffer (ecma_string, buffer_p, buffer_size);
jerry_release_value (ecma_string);
return result;
}
/**
* Create an external function object
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the constructed function object
*/
jerry_value_t
jerry_create_external_function (jerry_external_handler_t handler_p) /**< pointer to native handler
* for the function */
{
jerry_assert_api_available ();
ecma_object_t *func_obj_p = ecma_op_create_external_function_object ((ecma_external_pointer_t) handler_p);
return ecma_make_object_value (func_obj_p);
} /* jerry_create_external_function */
/**
* Creates a jerry_value_t representing a number value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return jerry_value_t created from the given double argument.
*/
jerry_value_t
jerry_create_number (double value) /**< double value from which a jerry_value_t will be created */
{
jerry_assert_api_available ();
return ecma_make_number_value ((ecma_number_t) value);
} /* jerry_create_number */
/**
* Creates a jerry_value_t representing a positive or negative infinity value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return jerry_value_t representing an infinity value.
*/
jerry_value_t
jerry_create_number_infinity (bool sign) /**< true for negative Infinity
* false for positive Infinity */
{
jerry_assert_api_available ();
return ecma_make_number_value (ecma_number_make_infinity (sign));
} /* jerry_create_number_infinity */
/**
* Creates a jerry_value_t representing a not-a-number value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return jerry_value_t representing a not-a-number value.
*/
jerry_value_t
jerry_create_number_nan (void)
{
jerry_assert_api_available ();
return ecma_make_nan_value ();
} /* jerry_create_number_nan */
/**
* Creates and returns a jerry_value_t with type null object.
*
* @return jerry_value_t representing null
*/
jerry_value_t
jerry_create_null (void)
{
jerry_assert_api_available ();
return ecma_make_simple_value (ECMA_SIMPLE_VALUE_NULL);
} /* jerry_create_null */
/**
* Create new JavaScript object, like with new Object().
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the created object
*/
jerry_value_t
jerry_create_object (void)
{
jerry_assert_api_available ();
return ecma_make_object_value (ecma_op_create_object_object_noarg ());
} /* jerry_create_object */
/**
* Create string from a valid CESU8 string
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the created string
*/
jerry_value_t
jerry_create_string (const jerry_char_t *str_p) /**< pointer to string */
{
return jerry_create_string_sz (str_p, lit_zt_utf8_string_size ((lit_utf8_byte_t *) str_p));
} /* jerry_create_string */
/**
* Create string from a valid CESU8 string
*
* Note:
* returned value must be freed with jerry_release_value when it is no longer needed.
*
* @return value of the created string
*/
jerry_value_t
jerry_create_string_sz (const jerry_char_t *str_p, /**< pointer to string */
jerry_size_t str_size) /**< string size */
{
jerry_assert_api_available ();
ecma_string_t *ecma_str_p = ecma_new_ecma_string_from_utf8 ((lit_utf8_byte_t *) str_p,
(lit_utf8_size_t) str_size);
return ecma_make_string_value (ecma_str_p);
} /* jerry_create_string_sz */
/**
* Create string from a valid UTF-8 string
*
* Note:
* returned value must be freed with jerry_release_object, when it is no longer needed.
*
* @return string value
*/
jerry_value_t
jerry_create_string_utf8 (const jerry_char_t *str_p) /**< pointer to string */
{
return jerry_create_string_utf8_sz (str_p, lit_zt_utf8_string_size ((lit_utf8_byte_t *) str_p));
} /* jerry_create_string */
/**
* Create string from a valid UTF-8 string
*
* Note:
* returned value must be freed with jerry_release_object when it is no longer needed.
*
* @return string value
*/
jerry_value_t
jerry_create_string_utf8_sz (const jerry_char_t *str_p, /**< pointer to string */
jerry_size_t str_size) /**< string size */
{
jerry_assert_api_available ();
ecma_string_t *ecma_str_p = ecma_new_ecma_string_from_utf8_to_cesu8 ((lit_utf8_byte_t *) str_p,
(lit_utf8_size_t) str_size);
return ecma_make_string_value (ecma_str_p);
} /* jerry_create_string_sz */
/**
* Creates a jerry_value_t representing an undefined value.
*
* @return value of undefined
*/
jerry_value_t
jerry_create_undefined (void)
{
jerry_assert_api_available ();
return ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
} /* jerry_create_undefined */
/**
* Get length of an array object
*
* Note:
* Returns 0, if the value parameter is not an array object.
*
* @return length of the given array
*/
uint32_t
jerry_get_array_length (const jerry_value_t value)
{
jerry_assert_api_available ();
if (!jerry_value_is_array (value))
{
return 0;
}
jerry_length_t length = 0;
ecma_string_t magic_string_length;
ecma_init_ecma_length_string (&magic_string_length);
ecma_value_t len_value = ecma_op_object_get (ecma_get_object_from_value (value),
&magic_string_length);
length = ecma_number_to_uint32 (ecma_get_number_from_value (len_value));
ecma_free_value (len_value);
return length;
} /* jerry_get_array_length */
/**
* Get size of Jerry string
*
* Note:
* Returns 0, if the value parameter is not a string.
*
* @return number of bytes in the buffer needed to represent the string
*/
jerry_size_t
jerry_get_string_size (const jerry_value_t value) /**< input string */
{
jerry_assert_api_available ();
if (!ecma_is_value_string (value))
{
return 0;
}
return ecma_string_get_size (ecma_get_string_from_value (value));
} /* jerry_get_string_size */
/**
* Get length of Jerry string
*
* Note:
* Returns 0, if the value parameter is not a string.
*
* @return number of characters in the string
*/
jerry_length_t
jerry_get_string_length (const jerry_value_t value) /**< input string */
{
jerry_assert_api_available ();
if (!ecma_is_value_string (value))
{
return 0;
}
return ecma_string_get_length (ecma_get_string_from_value (value));
} /* jerry_get_string_length */
/**
* Copy string characters to specified buffer, using CESU-8 encoding. It is the caller's
* responsibility to make sure that the string fits in the buffer.
*
* Note:
* The '\0' character could occur in character buffer.
* Returns 0, if the value parameter is not a string or
* the buffer is not large enough for the whole string.
*
* @return number of bytes, actually copied to the buffer.
*/
jerry_size_t
jerry_string_to_char_buffer (const jerry_value_t value, /**< input string value */
jerry_char_t *buffer_p, /**< [out] output characters buffer */
jerry_size_t buffer_size) /**< size of output buffer */
{
jerry_assert_api_available ();
if (!ecma_is_value_string (value) || buffer_p == NULL)
{
return 0;
}
ecma_string_t *str_p = ecma_get_string_from_value (value);
if (ecma_string_get_size (str_p) > buffer_size)
{
return 0;
}
return ecma_string_copy_to_utf8_buffer (str_p,
(lit_utf8_byte_t *) buffer_p,
buffer_size);
} /* jerry_string_to_char_buffer */
/**
* Get size of UTF-8 encoded Jerry string
*
* @return number of bytes in the buffer needed to represent the string using UTF-8 encoding
*/
jerry_size_t
jerry_get_utf8_string_size (const jerry_value_t value) /**< input string */
{
jerry_assert_api_available ();
if (!ecma_is_value_string (value))
{
return 0;
}
return ecma_string_get_utf8_size (ecma_get_string_from_value (value));
} /* jerry_get_string_size */
/**
* Copy string to specified buffer, using UTF-8 encoding. It is the caller's responsibility
* to make sure that the string fits in the buffer.
*
* Note:
* '\0' could occur in character buffer.
*
* @return number of bytes, actually copied to the buffer.
*/
jerry_size_t
jerry_string_to_utf8_char_buffer (const jerry_value_t value, /**< input string value */
jerry_char_t *buffer_p, /**< [out] output characters buffer */
jerry_size_t buffer_size) /**< size of output buffer */
{
jerry_assert_api_available ();
if (!ecma_is_value_string (value) || buffer_p == NULL)
{
return 0;
}
ecma_string_t *str_p = ecma_get_string_from_value (value);
if (buffer_size < ecma_string_get_utf8_size (str_p))
{
return 0;
}
return ecma_string_copy_and_convert_to_utf8_buffer (str_p,
(lit_utf8_byte_t *) buffer_p,
buffer_size);
} /* jerry_string_to_utf8_char_buffer */
/**
* Checks whether the object or it's prototype objects have the given property.
*
* @return true - if the property exists
* false - otherwise
*/
bool
jerry_has_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name (string value) */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return false;
}
bool has_property = ecma_op_object_has_property (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val));
return ecma_make_boolean_value (has_property);
} /* jerry_has_property */
/**
* Checks whether the object has the given property.
*
* @return true - if the property exists
* false - otherwise
*/
bool
jerry_has_own_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name (string value) */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return false;
}
bool has_property = ecma_op_object_has_own_property (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val));
return ecma_make_boolean_value (has_property);
} /* jerry_has_own_property */
/**
* Delete a property from an object.
*
* @return true - if property was deleted successfully
* false - otherwise
*/
bool
jerry_delete_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name (string value) */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return false;
}
ecma_value_t ret_value = ecma_op_object_delete (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val),
false);
return ecma_is_value_true (ret_value);
} /* jerry_delete_property */
/**
* Get value of a property to the specified object with the given name.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the property - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_get_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name (string value) */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
return ecma_op_object_get (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val));
} /* jerry_get_property */
/**
* Get value by an index from the specified object.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the property specified by the index - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_get_property_by_index (const jerry_value_t obj_val, /**< object value */
uint32_t index) /**< index to be written */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val))
{
return jerry_create_type_error ();
}
ecma_string_t str_idx;
ecma_init_ecma_string_from_uint32 (&str_idx, index);
ecma_value_t ret_value = ecma_op_object_get (ecma_get_object_from_value (obj_val), &str_idx);
return ret_value;
} /* jerry_get_property_by_index */
/**
* Set a property to the specified object with the given name.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return true value - if the operation was successful
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_set_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val, /**< property name (string value) */
const jerry_value_t value_to_set) /**< value to set */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value_to_set)
|| !ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
return ecma_op_object_put (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val),
value_to_set,
true);
} /* jerry_set_property */
/**
* Set indexed value in the specified object
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return true value - if the operation was successful
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_set_property_by_index (const jerry_value_t obj_val, /**< object value */
uint32_t index, /**< index to be written */
const jerry_value_t value_to_set) /**< value to set */
{
jerry_assert_api_available ();
if (ECMA_IS_VALUE_ERROR (value_to_set)
|| !ecma_is_value_object (obj_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
ecma_string_t *str_idx_p = ecma_new_ecma_string_from_uint32 ((uint32_t) index);
ecma_value_t ret_value = ecma_op_object_put (ecma_get_object_from_value (obj_val),
str_idx_p,
value_to_set,
true);
ecma_deref_ecma_string (str_idx_p);
return ret_value;
} /* jerry_set_property_by_index */
/**
* Initialize property descriptor.
*/
void
jerry_init_property_descriptor_fields (jerry_property_descriptor_t *prop_desc_p) /**< [out] property descriptor */
{
prop_desc_p->is_value_defined = false;
prop_desc_p->value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
prop_desc_p->is_writable_defined = false;
prop_desc_p->is_writable = false;
prop_desc_p->is_enumerable_defined = false;
prop_desc_p->is_enumerable = false;
prop_desc_p->is_configurable_defined = false;
prop_desc_p->is_configurable = false;
prop_desc_p->is_get_defined = false;
prop_desc_p->getter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
prop_desc_p->is_set_defined = false;
prop_desc_p->setter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
} /* jerry_init_property_descriptor_fields */
/**
* Define a property to the specified object with the given name.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return true value - if the operation was successful
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_define_own_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val, /**< property name (string value) */
const jerry_property_descriptor_t *prop_desc_p) /**< property descriptor */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
if ((prop_desc_p->is_writable_defined || prop_desc_p->is_value_defined)
&& (prop_desc_p->is_get_defined || prop_desc_p->is_set_defined))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
ecma_property_descriptor_t prop_desc = ecma_make_empty_property_descriptor ();
prop_desc.is_enumerable_defined = prop_desc_p->is_enumerable_defined;
prop_desc.is_enumerable = prop_desc_p->is_enumerable_defined ? prop_desc_p->is_enumerable : false;
prop_desc.is_configurable_defined = prop_desc_p->is_configurable_defined;
prop_desc.is_configurable = prop_desc_p->is_configurable_defined ? prop_desc_p->is_configurable : false;
/* Copy data property info. */
prop_desc.is_value_defined = prop_desc_p->is_value_defined;
if (prop_desc_p->is_value_defined)
{
if (ECMA_IS_VALUE_ERROR (prop_desc_p->value))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
prop_desc.value = prop_desc_p->value;
}
prop_desc.is_writable_defined = prop_desc_p->is_writable_defined;
prop_desc.is_writable = prop_desc_p->is_writable_defined ? prop_desc_p->is_writable : false;
/* Copy accessor property info. */
if (prop_desc_p->is_get_defined)
{
ecma_value_t getter = prop_desc_p->getter;
prop_desc.is_get_defined = true;
if (ECMA_IS_VALUE_ERROR (getter))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
if (ecma_op_is_callable (getter))
{
prop_desc.get_p = ecma_get_object_from_value (getter);
}
else if (!ecma_is_value_null (getter))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
}
if (prop_desc_p->is_set_defined)
{
ecma_value_t setter = prop_desc_p->setter;
prop_desc.is_set_defined = true;
if (ECMA_IS_VALUE_ERROR (setter))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
if (ecma_op_is_callable (setter))
{
prop_desc.set_p = ecma_get_object_from_value (setter);
}
else if (!ecma_is_value_null (setter))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
}
return ecma_op_object_define_own_property (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val),
&prop_desc,
true);
} /* jerry_define_own_property */
/**
* Construct property descriptor from specified property.
*
* @return true - if success, the prop_desc_p fields contains the property info
* false - otherwise, the prop_desc_p is unchanged
*/
bool
jerry_get_own_property_descriptor (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val, /**< property name (string value) */
jerry_property_descriptor_t *prop_desc_p) /**< property descriptor */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| !ecma_is_value_string (prop_name_val))
{
return false;
}
ecma_property_descriptor_t prop_desc;
if (!ecma_op_object_get_own_property_descriptor (ecma_get_object_from_value (obj_val),
ecma_get_string_from_value (prop_name_val),
&prop_desc))
{
return false;
}
prop_desc_p->is_configurable_defined = true;
prop_desc_p->is_configurable = prop_desc.is_configurable;
prop_desc_p->is_enumerable_defined = true;
prop_desc_p->is_enumerable = prop_desc.is_enumerable;
prop_desc_p->is_writable_defined = prop_desc.is_writable_defined;
prop_desc_p->is_writable = prop_desc.is_writable_defined ? prop_desc.is_writable : false;
prop_desc_p->is_value_defined = prop_desc.is_value_defined;
prop_desc_p->is_get_defined = prop_desc.is_get_defined;
prop_desc_p->is_set_defined = prop_desc.is_set_defined;
prop_desc_p->value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
prop_desc_p->getter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
prop_desc_p->setter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
if (prop_desc.is_value_defined)
{
prop_desc_p->value = prop_desc.value;
}
if (prop_desc.is_get_defined)
{
if (prop_desc.get_p != NULL)
{
prop_desc_p->getter = ecma_make_object_value (prop_desc.get_p);
}
else
{
prop_desc_p->getter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_NULL);
}
}
if (prop_desc.is_set_defined)
{
if (prop_desc.set_p != NULL)
{
prop_desc_p->setter = ecma_make_object_value (prop_desc.set_p);
}
else
{
prop_desc_p->setter = ecma_make_simple_value (ECMA_SIMPLE_VALUE_NULL);
}
}
return true;
} /* jerry_get_own_property_descriptor */
/**
* Free fields of property descriptor (setter, getter and value).
*/
void
jerry_free_property_descriptor_fields (const jerry_property_descriptor_t *prop_desc_p) /**< property descriptor */
{
if (prop_desc_p->is_value_defined)
{
ecma_free_value (prop_desc_p->value);
}
if (prop_desc_p->is_get_defined)
{
ecma_free_value (prop_desc_p->getter);
}
if (prop_desc_p->is_set_defined)
{
ecma_free_value (prop_desc_p->setter);
}
} /* jerry_free_property_descriptor_fields */
/**
* Invoke function specified by a function value
*
* Note:
* - returned value must be freed with jerry_release_value, when it is no longer needed.
* - If function is invoked as constructor, it should support [[Construct]] method,
* otherwise, if function is simply called - it should support [[Call]] method.
*
* @return returned jerry value of the invoked function
*/
static jerry_value_t
jerry_invoke_function (bool is_invoke_as_constructor, /**< true - invoke function as constructor
* (this_arg_p should be NULL, as it is ignored),
* false - perform function call */
const jerry_value_t func_obj_val, /**< function object to call */
const jerry_value_t this_val, /**< object value of 'this' binding */
const jerry_value_t args_p[], /**< function's call arguments */
const jerry_size_t args_count) /**< number of the arguments */
{
JERRY_ASSERT (args_count == 0 || args_p != NULL);
if (ECMA_IS_VALUE_ERROR (func_obj_val)
|| ECMA_IS_VALUE_ERROR (this_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
for (uint32_t i = 0; i < args_count; i++)
{
if (ECMA_IS_VALUE_ERROR (args_p[i]))
{
return ecma_raise_type_error (ECMA_ERR_MSG (error_value_msg_p));
}
}
if (is_invoke_as_constructor)
{
JERRY_ASSERT (jerry_value_is_constructor (func_obj_val));
return ecma_op_function_construct (ecma_get_object_from_value (func_obj_val),
args_p,
args_count);
}
else
{
JERRY_ASSERT (jerry_value_is_function (func_obj_val));
return ecma_op_function_call (ecma_get_object_from_value (func_obj_val),
this_val,
args_p,
args_count);
}
} /* jerry_invoke_function */
/**
* Call function specified by a function value
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
* error flag must not be set for any arguments of this function.
*
* @return returned jerry value of the called function
*/
jerry_value_t
jerry_call_function (const jerry_value_t func_obj_val, /**< function object to call */
const jerry_value_t this_val, /**< object for 'this' binding */
const jerry_value_t args_p[], /**< function's call arguments */
jerry_size_t args_count) /**< number of the arguments */
{
jerry_assert_api_available ();
if (jerry_value_is_function (func_obj_val))
{
return jerry_invoke_function (false, func_obj_val, this_val, args_p, args_count);
}
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
} /* jerry_call_function */
/**
* Construct object value invoking specified function value as a constructor
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
* error flag must not be set for any arguments of this function.
*
* @return returned jerry value of the invoked constructor
*/
jerry_value_t
jerry_construct_object (const jerry_value_t func_obj_val, /**< function object to call */
const jerry_value_t args_p[], /**< function's call arguments
* (NULL if arguments number is zero) */
jerry_size_t args_count) /**< number of the arguments */
{
jerry_assert_api_available ();
if (jerry_value_is_constructor (func_obj_val))
{
ecma_value_t this_val = ecma_make_simple_value (ECMA_SIMPLE_VALUE_UNDEFINED);
return jerry_invoke_function (true, func_obj_val, this_val, args_p, args_count);
}
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
} /* jerry_construct_object */
/**
* Get keys of the specified object value
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return array object value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_get_object_keys (const jerry_value_t obj_val) /**< object value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
return ecma_builtin_helper_object_get_properties (ecma_get_object_from_value (obj_val), true);
} /* jerry_get_object_keys */
/**
* Get the prototype of the specified object
*
* @return prototype object or null value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_get_prototype (const jerry_value_t obj_val) /**< object value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
ecma_object_t *proto_obj_p = ecma_get_object_prototype (ecma_get_object_from_value (obj_val));
if (proto_obj_p == NULL)
{
return ecma_make_simple_value (ECMA_SIMPLE_VALUE_NULL);
}
return ecma_make_object_value (proto_obj_p);
} /* jerry_get_prototype */
/**
* Set the prototype of the specified object
*
* @return true value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_set_prototype (const jerry_value_t obj_val, /**< object value */
const jerry_value_t proto_obj_val) /**< prototype object value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val)
|| ECMA_IS_VALUE_ERROR (proto_obj_val)
|| (!ecma_is_value_object (proto_obj_val) && !ecma_is_value_null (proto_obj_val)))
{
return ecma_raise_type_error (ECMA_ERR_MSG (wrong_args_msg_p));
}
if (ecma_is_value_null (proto_obj_val))
{
ECMA_SET_POINTER (ecma_get_object_from_value (obj_val)->prototype_or_outer_reference_cp, NULL);
}
else
{
ECMA_SET_POINTER (ecma_get_object_from_value (obj_val)->prototype_or_outer_reference_cp,
ecma_get_object_from_value (proto_obj_val));
}
return ecma_make_simple_value (ECMA_SIMPLE_VALUE_TRUE);
} /* jerry_set_prototype */
/**
* Get native handle, associated with specified object
*
* @return true - if there is an associated handle (handle is returned through out_handle_p),
* false - otherwise.
*/
bool
jerry_get_object_native_handle (const jerry_value_t obj_val, /**< object to get handle from */
uintptr_t *out_handle_p) /**< [out] handle value */
{
jerry_assert_api_available ();
uintptr_t handle_value;
bool does_exist = ecma_get_external_pointer_value (ecma_get_object_from_value (obj_val),
ECMA_INTERNAL_PROPERTY_NATIVE_HANDLE,
&handle_value);
if (does_exist)
{
*out_handle_p = handle_value;
}
return does_exist;
} /* jerry_get_object_native_handle */
/**
* Set native handle and an optional free callback for the specified object
*
* Note:
* If native handle was already set for the object, its value is updated.
*
* Note:
* If a non-NULL free callback is specified, it will be called
* by the garbage collector when the object is freed. The free
* callback always overwrites the previous value, so passing
* a NULL value deletes the current free callback.
*/
void
jerry_set_object_native_handle (const jerry_value_t obj_val, /**< object to set handle in */
uintptr_t handle_p, /**< handle value */
jerry_object_free_callback_t freecb_p) /**< object free callback or NULL */
{
jerry_assert_api_available ();
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
ecma_create_external_pointer_property (object_p,
ECMA_INTERNAL_PROPERTY_NATIVE_HANDLE,
handle_p);
ecma_create_external_pointer_property (object_p,
ECMA_INTERNAL_PROPERTY_FREE_CALLBACK,
(uintptr_t) freecb_p);
} /* jerry_set_object_native_handle */
/**
* Applies the given function to the every property in the object.
*
* @return true, if object fields traversal was performed successfully, i.e.:
* - no unhandled exceptions were thrown in object fields traversal;
* - object fields traversal was stopped on callback that returned false;
* false - otherwise,
* if getter of field threw a exception or unhandled exceptions were thrown during traversal;
*/
bool
jerry_foreach_object_property (const jerry_value_t obj_val, /**< object value */
jerry_object_property_foreach_t foreach_p, /**< foreach function */
void *user_data_p) /**< user data for foreach function */
{
jerry_assert_api_available ();
ecma_collection_iterator_t names_iter;
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
ecma_collection_header_t *names_p = ecma_op_object_get_property_names (object_p, false, true, true);
ecma_collection_iterator_init (&names_iter, names_p);
ecma_value_t property_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
bool continuous = true;
while (continuous
&& ecma_collection_iterator_next (&names_iter))
{
ecma_string_t *property_name_p = ecma_get_string_from_value (*names_iter.current_value_p);
property_value = ecma_op_object_get (object_p, property_name_p);
if (ECMA_IS_VALUE_ERROR (property_value))
{
break;
}
continuous = foreach_p (*names_iter.current_value_p, property_value, user_data_p);
ecma_free_value (property_value);
}
ecma_free_values_collection (names_p, true);
if (!ECMA_IS_VALUE_ERROR (property_value))
{
return true;
}
ecma_free_value (property_value);
return false;
} /* jerry_foreach_object_property */
#ifdef JERRY_ENABLE_SNAPSHOT_SAVE
/**
* Variables required to take a snapshot.
*/
typedef struct
{
bool snapshot_error_occured;
size_t snapshot_buffer_write_offset;
} snapshot_globals_t;
/**
* Write data into the specified buffer.
*
* Note:
* Offset is in-out and is incremented if the write operation completes successfully.
*
* @return true, if write was successful, i.e. offset + data_size doesn't exceed buffer size,
* false - otherwise.
*/
static inline bool __attr_always_inline___
snapshot_write_to_buffer_by_offset (uint8_t *buffer_p, /**< buffer */
size_t buffer_size, /**< size of buffer */
size_t *in_out_buffer_offset_p, /**< [in,out] offset to write to
* incremented with data_size */
const void *data_p, /**< data */
size_t data_size) /**< size of the writable data */
{
if (*in_out_buffer_offset_p + data_size > buffer_size)
{
return false;
}
memcpy (buffer_p + *in_out_buffer_offset_p, data_p, data_size);
*in_out_buffer_offset_p += data_size;
return true;
} /* snapshot_write_to_buffer_by_offset */
/**
* Snapshot callback for byte codes.
*
* @return start offset
*/
static uint16_t
snapshot_add_compiled_code (ecma_compiled_code_t *compiled_code_p, /**< compiled code */
uint8_t *snapshot_buffer_p, /**< snapshot buffer */
size_t snapshot_buffer_size, /**< snapshot buffer size */
snapshot_globals_t *globals_p) /**< snapshot globals */
{
if (globals_p->snapshot_error_occured)
{
return 0;
}
JERRY_ASSERT ((globals_p->snapshot_buffer_write_offset & (JMEM_ALIGNMENT - 1)) == 0);
if ((globals_p->snapshot_buffer_write_offset >> JMEM_ALIGNMENT_LOG) > 0xffffu)
{
globals_p->snapshot_error_occured = true;
return 0;
}
uint16_t start_offset = (uint16_t) (globals_p->snapshot_buffer_write_offset >> JMEM_ALIGNMENT_LOG);
uint8_t *copied_code_start_p = snapshot_buffer_p + globals_p->snapshot_buffer_write_offset;
ecma_compiled_code_t *copied_code_p = (ecma_compiled_code_t *) copied_code_start_p;
if (!(compiled_code_p->status_flags & CBC_CODE_FLAGS_FUNCTION))
{
#ifndef CONFIG_DISABLE_REGEXP_BUILTIN
/* Regular expression. */
if (globals_p->snapshot_buffer_write_offset + sizeof (ecma_compiled_code_t) > snapshot_buffer_size)
{
globals_p->snapshot_error_occured = true;
return 0;
}
globals_p->snapshot_buffer_write_offset += sizeof (ecma_compiled_code_t);
jmem_cpointer_t pattern_cp = ((re_compiled_code_t *) compiled_code_p)->pattern_cp;
ecma_string_t *pattern_string_p = ECMA_GET_NON_NULL_POINTER (ecma_string_t,
pattern_cp);
ecma_length_t pattern_size = 0;
ECMA_STRING_TO_UTF8_STRING (pattern_string_p, buffer_p, buffer_size);
pattern_size = buffer_size;
if (!snapshot_write_to_buffer_by_offset (snapshot_buffer_p,
snapshot_buffer_size,
&globals_p->snapshot_buffer_write_offset,
buffer_p,
buffer_size))
{
globals_p->snapshot_error_occured = true;
}
ECMA_FINALIZE_UTF8_STRING (buffer_p, buffer_size);
globals_p->snapshot_buffer_write_offset = JERRY_ALIGNUP (globals_p->snapshot_buffer_write_offset,
JMEM_ALIGNMENT);
/* Regexp character size is stored in refs. */
copied_code_p->refs = (uint16_t) pattern_size;
pattern_size += (ecma_length_t) sizeof (ecma_compiled_code_t);
copied_code_p->size = (uint16_t) ((pattern_size + JMEM_ALIGNMENT - 1) >> JMEM_ALIGNMENT_LOG);
copied_code_p->status_flags = compiled_code_p->status_flags;
#else /* CONFIG_DISABLE_REGEXP_BUILTIN */
JERRY_UNREACHABLE (); /* RegExp is not supported in the selected profile. */
#endif /* !CONFIG_DISABLE_REGEXP_BUILTIN */
return start_offset;
}
if (!snapshot_write_to_buffer_by_offset (snapshot_buffer_p,
snapshot_buffer_size,
&globals_p->snapshot_buffer_write_offset,
compiled_code_p,
((size_t) compiled_code_p->size) << JMEM_ALIGNMENT_LOG))
{
globals_p->snapshot_error_occured = true;
return 0;
}
/* Sub-functions and regular expressions are stored recursively. */
uint8_t *src_buffer_p = (uint8_t *) compiled_code_p;
uint8_t *dst_buffer_p = (uint8_t *) copied_code_p;
jmem_cpointer_t *src_literal_start_p;
jmem_cpointer_t *dst_literal_start_p;
uint32_t const_literal_end;
uint32_t literal_end;
if (compiled_code_p->status_flags & CBC_CODE_FLAGS_UINT16_ARGUMENTS)
{
src_literal_start_p = (jmem_cpointer_t *) (src_buffer_p + sizeof (cbc_uint16_arguments_t));
dst_literal_start_p = (jmem_cpointer_t *) (dst_buffer_p + sizeof (cbc_uint16_arguments_t));
cbc_uint16_arguments_t *args_p = (cbc_uint16_arguments_t *) src_buffer_p;
literal_end = args_p->literal_end;
const_literal_end = args_p->const_literal_end;
}
else
{
src_literal_start_p = (jmem_cpointer_t *) (src_buffer_p + sizeof (cbc_uint8_arguments_t));
dst_literal_start_p = (jmem_cpointer_t *) (dst_buffer_p + sizeof (cbc_uint8_arguments_t));
cbc_uint8_arguments_t *args_p = (cbc_uint8_arguments_t *) src_buffer_p;
literal_end = args_p->literal_end;
const_literal_end = args_p->const_literal_end;
}
for (uint32_t i = const_literal_end; i < literal_end; i++)
{
ecma_compiled_code_t *bytecode_p = ECMA_GET_NON_NULL_POINTER (ecma_compiled_code_t,
src_literal_start_p[i]);
if (bytecode_p == compiled_code_p)
{
dst_literal_start_p[i] = start_offset;
}
else
{
dst_literal_start_p[i] = snapshot_add_compiled_code (bytecode_p,
snapshot_buffer_p,
snapshot_buffer_size,
globals_p);
}
}
return start_offset;
} /* snapshot_add_compiled_code */
/**
* Set the uint16_t offsets in the code area.
*/
static void
jerry_snapshot_set_offsets (uint8_t *buffer_p, /**< buffer */
uint32_t size, /**< buffer size */
lit_mem_to_snapshot_id_map_entry_t *lit_map_p) /**< literal map */
{
JERRY_ASSERT (size > 0);
do
{
ecma_compiled_code_t *bytecode_p = (ecma_compiled_code_t *) buffer_p;
uint32_t code_size = ((uint32_t) bytecode_p->size) << JMEM_ALIGNMENT_LOG;
if (bytecode_p->status_flags & CBC_CODE_FLAGS_FUNCTION)
{
jmem_cpointer_t *literal_start_p;
uint32_t argument_end;
uint32_t register_end;
uint32_t const_literal_end;
if (bytecode_p->status_flags & CBC_CODE_FLAGS_UINT16_ARGUMENTS)
{
literal_start_p = (jmem_cpointer_t *) (buffer_p + sizeof (cbc_uint16_arguments_t));
cbc_uint16_arguments_t *args_p = (cbc_uint16_arguments_t *) buffer_p;
argument_end = args_p->argument_end;
register_end = args_p->register_end;
const_literal_end = args_p->const_literal_end;
}
else
{
literal_start_p = (jmem_cpointer_t *) (buffer_p + sizeof (cbc_uint8_arguments_t));
cbc_uint8_arguments_t *args_p = (cbc_uint8_arguments_t *) buffer_p;
argument_end = args_p->argument_end;
register_end = args_p->register_end;
const_literal_end = args_p->const_literal_end;
}
uint32_t register_clear_start = 0;
if ((bytecode_p->status_flags & CBC_CODE_FLAGS_ARGUMENTS_NEEDED)
&& !(bytecode_p->status_flags & CBC_CODE_FLAGS_STRICT_MODE))
{
for (uint32_t i = 0; i < argument_end; i++)
{
lit_mem_to_snapshot_id_map_entry_t *current_p = lit_map_p;
if (literal_start_p[i] != JMEM_CP_NULL)
{
while (current_p->literal_id != literal_start_p[i])
{
current_p++;
}
literal_start_p[i] = current_p->literal_offset;
}
}
register_clear_start = argument_end;
}
for (uint32_t i = register_clear_start; i < register_end; i++)
{
literal_start_p[i] = JMEM_CP_NULL;
}
for (uint32_t i = register_end; i < const_literal_end; i++)
{
lit_mem_to_snapshot_id_map_entry_t *current_p = lit_map_p;
if (literal_start_p[i] != JMEM_CP_NULL)
{
while (current_p->literal_id != literal_start_p[i])
{
current_p++;
}
literal_start_p[i] = current_p->literal_offset;
}
}
/* Set reference counter to 1. */
bytecode_p->refs = 1;
}
buffer_p += code_size;
size -= code_size;
}
while (size > 0);
} /* jerry_snapshot_set_offsets */
#endif /* JERRY_ENABLE_SNAPSHOT_SAVE */
/**
* Generate snapshot from specified source
*
* @return size of snapshot, if it was generated succesfully
* (i.e. there are no syntax errors in source code, buffer size is sufficient,
* and snapshot support is enabled in current configuration through JERRY_ENABLE_SNAPSHOT_SAVE),
* 0 - otherwise.
*/
size_t
jerry_parse_and_save_snapshot (const jerry_char_t *source_p, /**< script source */
size_t source_size, /**< script source size */
bool is_for_global, /**< snapshot would be executed as global (true)
* or eval (false) */
bool is_strict, /**< strict mode */
uint8_t *buffer_p, /**< buffer to save snapshot to */
size_t buffer_size) /**< the buffer's size */
{
#ifdef JERRY_ENABLE_SNAPSHOT_SAVE
snapshot_globals_t globals;
ecma_value_t parse_status;
ecma_compiled_code_t *bytecode_data_p;
globals.snapshot_buffer_write_offset = JERRY_ALIGNUP (sizeof (jerry_snapshot_header_t),
JMEM_ALIGNMENT);
globals.snapshot_error_occured = false;
parse_status = parser_parse_script (source_p,
source_size,
is_strict,
&bytecode_data_p);
if (ECMA_IS_VALUE_ERROR (parse_status))
{
ecma_free_value (parse_status);
return 0;
}
snapshot_add_compiled_code (bytecode_data_p, buffer_p, buffer_size, &globals);
if (globals.snapshot_error_occured)
{
return 0;
}
jerry_snapshot_header_t header;
memset(&header, 0, sizeof(header));
header.version = JERRY_SNAPSHOT_VERSION;
header.lit_table_offset = (uint32_t) globals.snapshot_buffer_write_offset;
header.is_run_global = is_for_global;
lit_mem_to_snapshot_id_map_entry_t *lit_map_p = NULL;
uint32_t literals_num;
if (!ecma_save_literals_for_snapshot (buffer_p,
buffer_size,
&globals.snapshot_buffer_write_offset,
&lit_map_p,
&literals_num,
&header.lit_table_size))
{
JERRY_ASSERT (lit_map_p == NULL);
return 0;
}
jerry_snapshot_set_offsets (buffer_p + JERRY_ALIGNUP (sizeof (jerry_snapshot_header_t), JMEM_ALIGNMENT),
(uint32_t) (header.lit_table_offset - sizeof (jerry_snapshot_header_t)),
lit_map_p);
size_t header_offset = 0;
snapshot_write_to_buffer_by_offset (buffer_p,
buffer_size,
&header_offset,
&header,
sizeof (header));
if (lit_map_p != NULL)
{
jmem_heap_free_block (lit_map_p, literals_num * sizeof (lit_mem_to_snapshot_id_map_entry_t));
}
ecma_bytecode_deref (bytecode_data_p);
return globals.snapshot_buffer_write_offset;
#else /* !JERRY_ENABLE_SNAPSHOT_SAVE */
JERRY_UNUSED (source_p);
JERRY_UNUSED (source_size);
JERRY_UNUSED (is_for_global);
JERRY_UNUSED (is_strict);
JERRY_UNUSED (buffer_p);
JERRY_UNUSED (buffer_size);
return 0;
#endif /* JERRY_ENABLE_SNAPSHOT_SAVE */
} /* jerry_parse_and_save_snapshot */
#ifdef JERRY_ENABLE_SNAPSHOT_EXEC
/**
* Byte code blocks shorter than this treshold are always copied into the memory.
* The memory / performance trade-of of byte code redirection does not worth
* in such cases.
*/
#define BYTECODE_NO_COPY_TRESHOLD 8
/**
* Load byte code from snapshot.
*
* @return byte code
*/
static ecma_compiled_code_t *
snapshot_load_compiled_code (const uint8_t *snapshot_data_p, /**< snapshot data */
size_t offset, /**< byte code offset */
lit_mem_to_snapshot_id_map_entry_t *lit_map_p, /**< literal map */
bool copy_bytecode) /**< byte code should be copied to memory */
{
ecma_compiled_code_t *bytecode_p = (ecma_compiled_code_t *) (snapshot_data_p + offset);
uint32_t code_size = ((uint32_t) bytecode_p->size) << JMEM_ALIGNMENT_LOG;
if (!(bytecode_p->status_flags & CBC_CODE_FLAGS_FUNCTION))
{
#ifndef CONFIG_DISABLE_REGEXP_BUILTIN
const re_compiled_code_t *re_bytecode_p = NULL;
const uint8_t *regex_start_p = ((const uint8_t *) bytecode_p) + sizeof (ecma_compiled_code_t);
/* Real size is stored in refs. */
ecma_string_t *pattern_str_p = ecma_new_ecma_string_from_utf8 (regex_start_p,
bytecode_p->refs);
re_compile_bytecode (&re_bytecode_p,
pattern_str_p,
bytecode_p->status_flags);
ecma_deref_ecma_string (pattern_str_p);
return (ecma_compiled_code_t *) re_bytecode_p;
#else /* CONFIG_DISABLE_REGEXP_BUILTIN */
JERRY_UNREACHABLE (); /* RegExp is not supported in the selected profile. */
#endif /* !CONFIG_DISABLE_REGEXP_BUILTIN */
}
size_t header_size;
uint32_t literal_end;
uint32_t const_literal_end;
if (bytecode_p->status_flags & CBC_CODE_FLAGS_UINT16_ARGUMENTS)
{
uint8_t *byte_p = (uint8_t *) bytecode_p;
cbc_uint16_arguments_t *args_p = (cbc_uint16_arguments_t *) byte_p;
literal_end = args_p->literal_end;
const_literal_end = args_p->const_literal_end;
header_size = sizeof (cbc_uint16_arguments_t);
}
else
{
uint8_t *byte_p = (uint8_t *) bytecode_p;
cbc_uint8_arguments_t *args_p = (cbc_uint8_arguments_t *) byte_p;
literal_end = args_p->literal_end;
const_literal_end = args_p->const_literal_end;
header_size = sizeof (cbc_uint8_arguments_t);
}
if (copy_bytecode
|| (header_size + (literal_end * sizeof (uint16_t)) + BYTECODE_NO_COPY_TRESHOLD > code_size))
{
bytecode_p = (ecma_compiled_code_t *) jmem_heap_alloc_block (code_size);
memcpy (bytecode_p, snapshot_data_p + offset, code_size);
}
else
{
code_size = (uint32_t) (header_size + literal_end * sizeof (jmem_cpointer_t));
uint8_t *real_bytecode_p = ((uint8_t *) bytecode_p) + code_size;
uint32_t total_size = JERRY_ALIGNUP (code_size + 1 + sizeof (uint8_t *), JMEM_ALIGNMENT);
bytecode_p = (ecma_compiled_code_t *) jmem_heap_alloc_block (total_size);
memcpy (bytecode_p, snapshot_data_p + offset, code_size);
bytecode_p->size = (uint16_t) (total_size >> JMEM_ALIGNMENT_LOG);
uint8_t *instructions_p = ((uint8_t *) bytecode_p);
instructions_p[code_size] = CBC_SET_BYTECODE_PTR;
memcpy (instructions_p + code_size + 1, &real_bytecode_p, sizeof (uint8_t *));
}
JERRY_ASSERT (bytecode_p->refs == 1);
jmem_cpointer_t *literal_start_p = (jmem_cpointer_t *) (((uint8_t *) bytecode_p) + header_size);
for (uint32_t i = 0; i < const_literal_end; i++)
{
lit_mem_to_snapshot_id_map_entry_t *current_p = lit_map_p;
if (literal_start_p[i] != 0)
{
while (current_p->literal_offset != literal_start_p[i])
{
current_p++;
}
literal_start_p[i] = current_p->literal_id;
}
}
for (uint32_t i = const_literal_end; i < literal_end; i++)
{
size_t literal_offset = ((size_t) literal_start_p[i]) << JMEM_ALIGNMENT_LOG;
if (literal_offset == offset)
{
/* Self reference */
ECMA_SET_NON_NULL_POINTER (literal_start_p[i],
bytecode_p);
}
else
{
ecma_compiled_code_t *literal_bytecode_p;
literal_bytecode_p = snapshot_load_compiled_code (snapshot_data_p,
literal_offset,
lit_map_p,
copy_bytecode);
ECMA_SET_NON_NULL_POINTER (literal_start_p[i],
literal_bytecode_p);
}
}
return bytecode_p;
} /* snapshot_load_compiled_code */
#endif /* JERRY_ENABLE_SNAPSHOT_EXEC */
/**
* Execute snapshot from specified buffer
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return result of bytecode - if run was successful
* thrown error - otherwise
*/
jerry_value_t
jerry_exec_snapshot (const void *snapshot_p, /**< snapshot */
size_t snapshot_size, /**< size of snapshot */
bool copy_bytecode) /**< flag, indicating whether the passed snapshot
* buffer should be copied to the engine's memory.
* If set the engine should not reference the buffer
* after the function returns (in this case, the passed
* buffer could be freed after the call).
* Otherwise (if the flag is not set) - the buffer could only be
* freed after the engine stops (i.e. after call to jerry_cleanup). */
{
#ifdef JERRY_ENABLE_SNAPSHOT_EXEC
JERRY_ASSERT (snapshot_p != NULL);
static const char * const invalid_version_error_p = "Invalid snapshot version";
static const char * const invalid_format_error_p = "Invalid snapshot format";
const uint8_t *snapshot_data_p = (uint8_t *) snapshot_p;
if (snapshot_size <= sizeof (jerry_snapshot_header_t))
{
return ecma_raise_type_error (invalid_format_error_p);
}
const jerry_snapshot_header_t *header_p = (const jerry_snapshot_header_t *) snapshot_data_p;
if (header_p->version != JERRY_SNAPSHOT_VERSION)
{
return ecma_raise_type_error (invalid_version_error_p);
}
lit_mem_to_snapshot_id_map_entry_t *lit_map_p = NULL;
uint32_t literals_num;
if (header_p->lit_table_offset >= snapshot_size)
{
return ecma_raise_type_error (invalid_version_error_p);
}
if (!ecma_load_literals_from_snapshot (snapshot_data_p + header_p->lit_table_offset,
header_p->lit_table_size,
&lit_map_p,
&literals_num))
{
JERRY_ASSERT (lit_map_p == NULL);
return ecma_raise_type_error (invalid_format_error_p);
}
ecma_compiled_code_t *bytecode_p;
bytecode_p = snapshot_load_compiled_code (snapshot_data_p,
sizeof (jerry_snapshot_header_t),
lit_map_p,
copy_bytecode);
if (lit_map_p != NULL)
{
jmem_heap_free_block (lit_map_p, literals_num * sizeof (lit_mem_to_snapshot_id_map_entry_t));
}
if (bytecode_p == NULL)
{
return ecma_raise_type_error (invalid_format_error_p);
}
ecma_value_t ret_val;
if (header_p->is_run_global)
{
ret_val = vm_run_global (bytecode_p);
ecma_bytecode_deref (bytecode_p);
}
else
{
ret_val = vm_run_eval (bytecode_p, false);
}
return ret_val;
#else /* !JERRY_ENABLE_SNAPSHOT_EXEC */
JERRY_UNUSED (snapshot_p);
JERRY_UNUSED (snapshot_size);
JERRY_UNUSED (copy_bytecode);
return ecma_make_simple_value (ECMA_SIMPLE_VALUE_FALSE);
#endif /* JERRY_ENABLE_SNAPSHOT_EXEC */
} /* jerry_exec_snapshot */
/*
* Check if a given region in memory contains a jerry snapshot
* @return true if the memory region is a snapshot
*/
bool
jerry_is_snapshot (const void *snapshot_p, /**< pointer to the memory region */
size_t snapshot_size) /**< size of the memory region */
{
if (snapshot_p == NULL || snapshot_size < sizeof (uint64_t))
{
return false;
}
// relative strong heuristic as we're currenlty at a one-digit version which would result in
// a false positive only, if the passed string contains 7 consecutive \0 right at the beginning
const jerry_snapshot_header_t *header_p = (const jerry_snapshot_header_t *) snapshot_p;
if (header_p->version != JERRY_SNAPSHOT_VERSION)
{
return false;
}
return true;
} /* jerry_is_snapshot */
/**
* @}
*/
/**
* ====================== Internal functions ==========================
*/
/**
* Dispatch call to specified external function using the native handler
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return returned ecma value of the invoked native function - if success
* thrown error - otherwise
*/
ecma_value_t
jerry_dispatch_external_function (ecma_object_t *function_object_p, /**< external function object */
ecma_external_pointer_t handler_p, /**< pointer to the function's native handler */
ecma_value_t this_arg_value, /**< 'this' argument */
const ecma_value_t *arguments_list_p, /**< arguments list */
ecma_length_t arguments_list_len) /**< arguments list length */
{
jerry_assert_api_available ();
ecma_value_t ret_value = ((jerry_external_handler_t) handler_p) (ecma_make_object_value (function_object_p),
this_arg_value,
arguments_list_p,
arguments_list_len);
return ret_value;
} /* jerry_dispatch_external_function */
/**
* Dispatch call to object's native free callback function
*
* Note:
* the callback is called during critical GC phase,
* so should not perform any requests to engine.
*/
void
jerry_dispatch_object_free_callback (ecma_external_pointer_t freecb_p, /**< pointer to free callback handler */
ecma_external_pointer_t native_p) /**< native handle, associated
* with freed object */
{
jerry_make_api_unavailable ();
((jerry_object_free_callback_t) freecb_p) ((uintptr_t) native_p);
jerry_make_api_available ();
} /* jerry_dispatch_object_free_callback */
/**
* ====================== Unit Test Helper functions ==========================
*/
// this debug function exists here to overcome problems with include paths
// and we need the prototype so that -Werror=missing-declarations won't get us
int jerry_obj_refcount(jerry_value_t o);
int jerry_obj_refcount(jerry_value_t o) {
ecma_object_t *const obj = ecma_get_object_from_value(o);
return (obj->type_flags_refs >> 6);
}