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jerryscript/jerry-core/api/jerryscript.c
Robert Fancsik badfdf4dba
Replace vera++ with clang-format (#4518) 
JerryScript-DCO-1.0-Signed-off-by: Robert Fancsik robert.fancsik@h-lab.eu
2021-11-05 14:15:47 +01:00

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/* Copyright JS Foundation and other contributors, http://js.foundation
*
* 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 "jerryscript.h"
#include <math.h>
#include <stdio.h>
#include "jerryscript-debugger-transport.h"
#include "ecma-alloc.h"
#include "ecma-array-object.h"
#include "ecma-arraybuffer-object.h"
#include "ecma-bigint.h"
#include "ecma-builtin-helpers.h"
#include "ecma-builtins.h"
#include "ecma-comparison.h"
#include "ecma-container-object.h"
#include "ecma-dataview-object.h"
#include "ecma-eval.h"
#include "ecma-exceptions.h"
#include "ecma-extended-info.h"
#include "ecma-function-object.h"
#include "ecma-gc.h"
#include "ecma-helpers.h"
#include "ecma-init-finalize.h"
#include "ecma-iterator-object.h"
#include "ecma-lex-env.h"
#include "ecma-line-info.h"
#include "ecma-literal-storage.h"
#include "ecma-objects-general.h"
#include "ecma-objects.h"
#include "ecma-promise-object.h"
#include "ecma-proxy-object.h"
#include "ecma-regexp-object.h"
#include "ecma-shared-arraybuffer-object.h"
#include "ecma-symbol-object.h"
#include "ecma-typedarray-object.h"
#include "debugger.h"
#include "jcontext.h"
#include "jmem.h"
#include "js-parser.h"
#include "lit-char-helpers.h"
#include "opcodes.h"
#include "re-compiler.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);
#if JERRY_BUILTIN_REGEXP
JERRY_STATIC_ASSERT ((int) RE_FLAG_GLOBAL == (int) JERRY_REGEXP_FLAG_GLOBAL
&& (int) RE_FLAG_MULTILINE == (int) JERRY_REGEXP_FLAG_MULTILINE
&& (int) RE_FLAG_IGNORE_CASE == (int) JERRY_REGEXP_FLAG_IGNORE_CASE
&& (int) RE_FLAG_STICKY == (int) JERRY_REGEXP_FLAG_STICKY
&& (int) RE_FLAG_UNICODE == (int) JERRY_REGEXP_FLAG_UNICODE
&& (int) RE_FLAG_DOTALL == (int) JERRY_REGEXP_FLAG_DOTALL,
re_flags_t_must_be_equal_to_jerry_regexp_flags_t);
#endif /* JERRY_BUILTIN_REGEXP */
#if JERRY_ESNEXT
/* The internal ECMA_PROMISE_STATE_* values are "one byte away" from the API values */
JERRY_STATIC_ASSERT ((int) ECMA_PROMISE_IS_PENDING == (int) JERRY_PROMISE_STATE_PENDING
&& (int) ECMA_PROMISE_IS_FULFILLED == (int) JERRY_PROMISE_STATE_FULFILLED,
promise_internal_state_matches_external);
#endif /* JERRY_ESNEXT */
/**
* Offset between internal and external arithmetic operator types
*/
#define ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET (JERRY_BIN_OP_SUB - NUMBER_ARITHMETIC_SUBTRACTION)
JERRY_STATIC_ASSERT (((NUMBER_ARITHMETIC_SUBTRACTION + ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET) == JERRY_BIN_OP_SUB)
&& ((NUMBER_ARITHMETIC_MULTIPLICATION + ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET)
== JERRY_BIN_OP_MUL)
&& ((NUMBER_ARITHMETIC_DIVISION + ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET) == JERRY_BIN_OP_DIV)
&& ((NUMBER_ARITHMETIC_REMAINDER + ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET) == JERRY_BIN_OP_REM),
number_arithmetics_operation_type_matches_external);
#if !JERRY_PARSER && !JERRY_SNAPSHOT_EXEC
#error "JERRY_SNAPSHOT_EXEC must be enabled if JERRY_PARSER is disabled!"
#endif /* !JERRY_PARSER && !JERRY_SNAPSHOT_EXEC */
/** \addtogroup jerry Jerry engine interface
* @{
*/
/**
* Assert that it is correct to call API in current state.
*
* Note:
* By convention, there are some states when API could not be invoked.
*
* The API can be and only be invoked when the ECMA_STATUS_API_AVAILABLE
* flag is 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 JERRY_ATTR_ALWAYS_INLINE
jerry_assert_api_available (void)
{
JERRY_ASSERT (JERRY_CONTEXT (status_flags) & ECMA_STATUS_API_AVAILABLE);
} /* jerry_assert_api_available */
/**
* Turn on API availability
*/
static inline void JERRY_ATTR_ALWAYS_INLINE
jerry_make_api_available (void)
{
JERRY_CONTEXT (status_flags) |= ECMA_STATUS_API_AVAILABLE;
} /* jerry_make_api_available */
/**
* Turn off API availability
*/
static inline void JERRY_ATTR_ALWAYS_INLINE
jerry_make_api_unavailable (void)
{
JERRY_CONTEXT (status_flags) &= (uint32_t) ~ECMA_STATUS_API_AVAILABLE;
} /* jerry_make_api_unavailable */
/**
* Create an API compatible return value.
*
* @return return value for Jerry API functions
*/
static jerry_value_t
jerry_return (jerry_value_t value) /**< return value */
{
if (ECMA_IS_VALUE_ERROR (value))
{
value = ecma_create_error_reference_from_context ();
}
return value;
} /* jerry_return */
/**
* Throw an API compatible return value.
*
* @return return value for Jerry API functions
*/
static inline jerry_value_t JERRY_ATTR_ALWAYS_INLINE
jerry_throw (jerry_value_t value) /**< return value */
{
JERRY_ASSERT (ECMA_IS_VALUE_ERROR (value));
return ecma_create_error_reference_from_context ();
} /* jerry_throw */
/**
* Jerry engine initialization
*/
void
jerry_init (jerry_init_flag_t flags) /**< combination of Jerry flags */
{
/* This function cannot be called twice unless jerry_cleanup is called. */
JERRY_ASSERT (!(JERRY_CONTEXT (status_flags) & ECMA_STATUS_API_AVAILABLE));
/* Zero out all non-external members. */
memset ((char *) &JERRY_CONTEXT_STRUCT + offsetof (jerry_context_t, JERRY_CONTEXT_FIRST_MEMBER),
0,
sizeof (jerry_context_t) - offsetof (jerry_context_t, JERRY_CONTEXT_FIRST_MEMBER));
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 ();
#if JERRY_DEBUGGER
if (JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED)
{
jerry_debugger_send_type (JERRY_DEBUGGER_CLOSE_CONNECTION);
jerry_debugger_transport_close ();
}
#endif /* JERRY_DEBUGGER */
for (jerry_context_data_header_t *this_p = JERRY_CONTEXT (context_data_p); this_p != NULL; this_p = this_p->next_p)
{
if (this_p->manager_p->deinit_cb)
{
void *data = (this_p->manager_p->bytes_needed > 0) ? JERRY_CONTEXT_DATA_HEADER_USER_DATA (this_p) : NULL;
this_p->manager_p->deinit_cb (data);
}
}
#if JERRY_ESNEXT
ecma_free_all_enqueued_jobs ();
#endif /* JERRY_ESNEXT */
ecma_finalize ();
jerry_make_api_unavailable ();
for (jerry_context_data_header_t *this_p = JERRY_CONTEXT (context_data_p), *next_p = NULL; this_p != NULL;
this_p = next_p)
{
next_p = this_p->next_p;
if (this_p->manager_p->finalize_cb)
{
void *data = (this_p->manager_p->bytes_needed > 0) ? JERRY_CONTEXT_DATA_HEADER_USER_DATA (this_p) : NULL;
this_p->manager_p->finalize_cb (data);
}
jmem_heap_free_block (this_p, sizeof (jerry_context_data_header_t) + this_p->manager_p->bytes_needed);
}
jmem_finalize ();
} /* jerry_cleanup */
/**
* Retrieve a context data item, or create a new one.
*
* @param manager_p pointer to the manager whose context data item should be returned.
*
* @return a pointer to the user-provided context-specific data item for the given manager, creating such a pointer if
* none was found.
*/
void *
jerry_get_context_data (const jerry_context_data_manager_t *manager_p)
{
void *ret = NULL;
jerry_context_data_header_t *item_p;
for (item_p = JERRY_CONTEXT (context_data_p); item_p != NULL; item_p = item_p->next_p)
{
if (item_p->manager_p == manager_p)
{
return (manager_p->bytes_needed > 0) ? JERRY_CONTEXT_DATA_HEADER_USER_DATA (item_p) : NULL;
}
}
item_p = jmem_heap_alloc_block (sizeof (jerry_context_data_header_t) + manager_p->bytes_needed);
item_p->manager_p = manager_p;
item_p->next_p = JERRY_CONTEXT (context_data_p);
JERRY_CONTEXT (context_data_p) = item_p;
if (manager_p->bytes_needed > 0)
{
ret = JERRY_CONTEXT_DATA_HEADER_USER_DATA (item_p);
memset (ret, 0, manager_p->bytes_needed);
}
if (manager_p->init_cb)
{
manager_p->init_cb (ret);
}
return ret;
} /* jerry_get_context_data */
/**
* Register external magic string array
*/
void
jerry_register_magic_strings (const jerry_char_t *const *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 *const *) ex_str_items_p,
count,
(const lit_utf8_size_t *) str_lengths_p);
} /* jerry_register_magic_strings */
/**
* Run garbage collection
*/
void
jerry_gc (jerry_gc_mode_t mode) /**< operational mode */
{
jerry_assert_api_available ();
if (mode == JERRY_GC_PRESSURE_LOW)
{
/* Call GC directly, because 'ecma_free_unused_memory' might decide it's not yet worth it. */
ecma_gc_run ();
return;
}
ecma_free_unused_memory (JMEM_PRESSURE_HIGH);
} /* jerry_gc */
/**
* Get heap memory stats.
*
* @return true - get the heap stats successful
* false - otherwise. Usually it is because the MEM_STATS feature is not enabled.
*/
bool
jerry_get_memory_stats (jerry_heap_stats_t *out_stats_p) /**< [out] heap memory stats */
{
#if JERRY_MEM_STATS
if (out_stats_p == NULL)
{
return false;
}
jmem_heap_stats_t jmem_heap_stats;
memset (&jmem_heap_stats, 0, sizeof (jmem_heap_stats));
jmem_heap_get_stats (&jmem_heap_stats);
*out_stats_p = (jerry_heap_stats_t){ .version = 1,
.size = jmem_heap_stats.size,
.allocated_bytes = jmem_heap_stats.allocated_bytes,
.peak_allocated_bytes = jmem_heap_stats.peak_allocated_bytes };
return true;
#else /* !JERRY_MEM_STATS */
JERRY_UNUSED (out_stats_p);
return false;
#endif /* JERRY_MEM_STATS */
} /* jerry_get_memory_stats */
/**
* 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, NULL);
if (!ecma_is_value_error_reference (parse_ret_val))
{
jerry_value_t run_ret_val = jerry_run (parse_ret_val);
if (!ecma_is_value_error_reference (run_ret_val))
{
result = true;
}
jerry_release_value (run_ret_val);
}
jerry_release_value (parse_ret_val);
jerry_cleanup ();
return result;
} /* jerry_run_simple */
#if JERRY_PARSER
/**
* Common code for parsing a script, module, or function.
*
* @return function object value - if script was parsed successfully,
* thrown error - otherwise
*/
static jerry_value_t
jerry_parse_common (void *source_p, /**< script source */
const jerry_parse_options_t *options_p, /**< parsing options, can be NULL if not used */
uint32_t parse_opts) /**< internal parsing options */
{
jerry_assert_api_available ();
if (options_p != NULL)
{
const uint32_t allowed_options = (JERRY_PARSE_STRICT_MODE | JERRY_PARSE_MODULE | JERRY_PARSE_HAS_ARGUMENT_LIST
| JERRY_PARSE_HAS_RESOURCE | JERRY_PARSE_HAS_START | JERRY_PARSE_HAS_USER_VALUE);
uint32_t options = options_p->options;
if ((options & ~allowed_options) != 0
|| ((options_p->options & JERRY_PARSE_HAS_ARGUMENT_LIST)
&& ((options_p->options & JERRY_PARSE_MODULE) || !ecma_is_value_string (options_p->argument_list)))
|| ((options_p->options & JERRY_PARSE_HAS_RESOURCE) && !ecma_is_value_string (options_p->resource_name)))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
}
#if JERRY_DEBUGGER
if ((JERRY_CONTEXT (debugger_flags) & JERRY_DEBUGGER_CONNECTED) && options_p != NULL
&& (options_p->options & JERRY_PARSE_HAS_RESOURCE) && ecma_is_value_string (options_p->resource_name))
{
ECMA_STRING_TO_UTF8_STRING (ecma_get_string_from_value (options_p->resource_name),
resource_name_start_p,
resource_name_size);
jerry_debugger_send_string (JERRY_DEBUGGER_SOURCE_CODE_NAME,
JERRY_DEBUGGER_NO_SUBTYPE,
resource_name_start_p,
resource_name_size);
ECMA_FINALIZE_UTF8_STRING (resource_name_start_p, resource_name_size);
}
#endif /* JERRY_DEBUGGER */
if (options_p != NULL)
{
parse_opts |= options_p->options & (JERRY_PARSE_STRICT_MODE | JERRY_PARSE_MODULE);
}
if ((parse_opts & JERRY_PARSE_MODULE) != 0)
{
#if JERRY_MODULE_SYSTEM
JERRY_CONTEXT (module_current_p) = ecma_module_create ();
#else /* !JERRY_MODULE_SYSTEM */
return jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
}
ecma_compiled_code_t *bytecode_data_p;
bytecode_data_p = parser_parse_script (source_p, parse_opts, options_p);
if (JERRY_UNLIKELY (bytecode_data_p == NULL))
{
#if JERRY_MODULE_SYSTEM
if ((parse_opts & JERRY_PARSE_MODULE) != 0)
{
ecma_module_cleanup_context ();
}
#endif /* JERRY_MODULE_SYSTEM */
return ecma_create_error_reference_from_context ();
}
#if JERRY_MODULE_SYSTEM
if (JERRY_UNLIKELY (parse_opts & JERRY_PARSE_MODULE))
{
ecma_module_t *module_p = JERRY_CONTEXT (module_current_p);
module_p->u.compiled_code_p = bytecode_data_p;
JERRY_CONTEXT (module_current_p) = NULL;
return ecma_make_object_value ((ecma_object_t *) module_p);
}
#endif /* JERRY_MODULE_SYSTEM */
if (JERRY_UNLIKELY (options_p != NULL && (options_p->options & JERRY_PARSE_HAS_ARGUMENT_LIST)))
{
ecma_object_t *global_object_p = ecma_builtin_get_global ();
#if JERRY_BUILTIN_REALMS
JERRY_ASSERT (global_object_p == (ecma_object_t *) ecma_op_function_get_realm (bytecode_data_p));
#endif /* JERRY_BUILTIN_REALMS */
ecma_object_t *lex_env_p = ecma_get_global_environment (global_object_p);
ecma_object_t *func_obj_p = ecma_op_create_simple_function_object (lex_env_p, bytecode_data_p);
ecma_bytecode_deref (bytecode_data_p);
return ecma_make_object_value (func_obj_p);
}
ecma_object_t *object_p = ecma_create_object (NULL, sizeof (ecma_extended_object_t), ECMA_OBJECT_TYPE_CLASS);
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
ext_object_p->u.cls.type = ECMA_OBJECT_CLASS_SCRIPT;
ECMA_SET_INTERNAL_VALUE_POINTER (ext_object_p->u.cls.u3.value, bytecode_data_p);
return ecma_make_object_value (object_p);
} /* jerry_parse_common */
#endif /* JERRY_PARSER */
/**
* Parse a script, module, or function and create a compiled code using a character string
*
* @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 */
const jerry_parse_options_t *options_p) /**< parsing options, can be NULL if not used */
{
#if JERRY_PARSER
parser_source_char_t source_char;
source_char.source_p = source_p;
source_char.source_size = source_size;
return jerry_parse_common ((void *) &source_char, options_p, JERRY_PARSE_NO_OPTS);
#else /* !JERRY_PARSER */
JERRY_UNUSED (source_p);
JERRY_UNUSED (source_size);
JERRY_UNUSED (options_p);
return jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG (ecma_error_parser_not_supported_p)));
#endif /* JERRY_PARSER */
} /* jerry_parse */
/**
* Parse a script, module, or function and create a compiled code using a string value
*
* @return function object value - if script was parsed successfully,
* thrown error - otherwise
*/
jerry_value_t
jerry_parse_value (const jerry_value_t source_value, /**< script source */
const jerry_parse_options_t *options_p) /**< parsing options, can be NULL if not used */
{
#if JERRY_PARSER
if (!ecma_is_value_string (source_value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_value_t source[1];
source[0] = source_value;
return jerry_parse_common ((void *) source, options_p, ECMA_PARSE_HAS_SOURCE_VALUE);
#else /* !JERRY_PARSER */
JERRY_UNUSED (source_value);
JERRY_UNUSED (options_p);
return jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG (ecma_error_parser_not_supported_p)));
#endif /* JERRY_PARSER */
} /* jerry_parse_value */
/**
* Run a Script or Module 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 jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *object_p = ecma_get_object_from_value (func_val);
if (!ecma_object_class_is (object_p, ECMA_OBJECT_CLASS_SCRIPT))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
const ecma_compiled_code_t *bytecode_data_p;
bytecode_data_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_compiled_code_t, ext_object_p->u.cls.u3.value);
JERRY_ASSERT (CBC_FUNCTION_GET_TYPE (bytecode_data_p->status_flags) == CBC_FUNCTION_SCRIPT);
return jerry_return (vm_run_global (bytecode_data_p, object_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 */
uint32_t parse_opts) /**< jerry_parse_opts_t option bits */
{
jerry_assert_api_available ();
uint32_t allowed_parse_options = JERRY_PARSE_STRICT_MODE;
if ((parse_opts & ~allowed_parse_options) != 0)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
parser_source_char_t source_char;
source_char.source_p = source_p;
source_char.source_size = source_size;
return jerry_return (ecma_op_eval_chars_buffer ((void *) &source_char, parse_opts));
} /* jerry_eval */
/**
* Link modules to their dependencies. The dependencies are resolved by a user callback.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return true - if linking is successful, error - otherwise
*/
jerry_value_t
jerry_module_link (const jerry_value_t module_val, /**< root module */
jerry_module_resolve_callback_t callback, /**< resolve module callback, uses
* jerry_port_module_resolve when NULL is passed */
void *user_p) /**< pointer passed to the resolve callback */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
if (callback == NULL)
{
callback = jerry_port_module_resolve;
}
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
return jerry_return (ecma_module_link (module_p, callback, user_p));
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
JERRY_UNUSED (callback);
JERRY_UNUSED (user_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_link */
/**
* Evaluate a module and its dependencies. The module must be in linked state.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return result of module bytecode execution - if evaluation was successful
* error - otherwise
*/
jerry_value_t
jerry_module_evaluate (const jerry_value_t module_val) /**< root module */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
if (module_p->header.u.cls.u1.module_state != JERRY_MODULE_STATE_LINKED)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Module must be in linked state")));
}
return jerry_return (ecma_module_evaluate (module_p));
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_evaluate */
/**
* Returns the current status of a module
*
* @return current status - if module_val is a module,
* JERRY_MODULE_STATE_INVALID - otherwise
*/
jerry_module_state_t
jerry_module_get_state (const jerry_value_t module_val) /**< module object */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return JERRY_MODULE_STATE_INVALID;
}
return (jerry_module_state_t) module_p->header.u.cls.u1.module_state;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
return JERRY_MODULE_STATE_INVALID;
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_get_state */
/**
* Sets a callback which is called after a module state is changed to linked, evaluated, or error.
*/
void
jerry_module_set_state_changed_callback (jerry_module_state_changed_callback_t callback, /**< callback */
void *user_p) /**< pointer passed to the callback */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
JERRY_CONTEXT (module_state_changed_callback_p) = callback;
JERRY_CONTEXT (module_state_changed_callback_user_p) = user_p;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (callback);
JERRY_UNUSED (user_p);
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_set_state_changed_callback */
/**
* Sets a callback which is called when an import.meta expression of a module is evaluated the first time.
*/
void
jerry_module_set_import_meta_callback (jerry_module_import_meta_callback_t callback, /**< callback */
void *user_p) /**< pointer passed to the callback */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
JERRY_CONTEXT (module_import_meta_callback_p) = callback;
JERRY_CONTEXT (module_import_meta_callback_user_p) = user_p;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (callback);
JERRY_UNUSED (user_p);
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_set_import_meta_callback */
/**
* Returns the number of import/export requests of a module
*
* @return number of import/export requests of a module
*/
size_t
jerry_module_get_number_of_requests (const jerry_value_t module_val) /**< module */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return 0;
}
size_t number_of_requests = 0;
ecma_module_node_t *node_p = module_p->imports_p;
while (node_p != NULL)
{
number_of_requests++;
node_p = node_p->next_p;
}
return number_of_requests;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
return 0;
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_get_number_of_requests */
/**
* Returns the module request specified by the request_index argument
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return string - if the request has not been resolved yet,
* module object - if the request has been resolved successfully,
* error - otherwise
*/
jerry_value_t
jerry_module_get_request (const jerry_value_t module_val, /**< module */
size_t request_index) /**< request index */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
ecma_module_node_t *node_p = module_p->imports_p;
while (node_p != NULL)
{
if (request_index == 0)
{
return ecma_copy_value (node_p->u.path_or_module);
}
--request_index;
node_p = node_p->next_p;
}
return jerry_throw (ecma_raise_range_error (ECMA_ERR_MSG ("Request is not available")));
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
JERRY_UNUSED (request_index);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_get_request */
/**
* Returns the namespace object of a module
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return object - if namespace object is available,
* error - otherwise
*/
jerry_value_t
jerry_module_get_namespace (const jerry_value_t module_val) /**< module */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
if (module_p->header.u.cls.u1.module_state < JERRY_MODULE_STATE_LINKED
|| module_p->header.u.cls.u1.module_state > JERRY_MODULE_STATE_EVALUATED)
{
return jerry_throw (ecma_raise_range_error (ECMA_ERR_MSG ("Namespace object is not available")));
}
JERRY_ASSERT (module_p->namespace_object_p != NULL);
ecma_ref_object (module_p->namespace_object_p);
return ecma_make_object_value (module_p->namespace_object_p);
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (module_val);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_get_namespace */
/**
* Sets the callback which is called when dynamic imports are resolved
*/
void
jerry_module_set_import_callback (jerry_module_import_callback_t callback_p, /**< callback which handles
* dynamic import calls */
void *user_p) /**< user pointer passed to the callback */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
JERRY_CONTEXT (module_import_callback_p) = callback_p;
JERRY_CONTEXT (module_import_callback_user_p) = user_p;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (callback_p);
JERRY_UNUSED (user_p);
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_module_set_import_callback */
/**
* Creates a native module with a list of exports. The initial state of the module is linked.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return native module - if the module is successfully created,
* error - otherwise
*/
jerry_value_t
jerry_native_module_create (jerry_native_module_evaluate_callback_t callback, /**< evaluation callback for
* native modules */
const jerry_value_t *const exports_p, /**< list of the exported bindings of the module,
* must be valid string identifiers */
size_t number_of_exports) /**< number of exports in the exports_p list */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_object_t *global_object_p = ecma_builtin_get_global ();
ecma_object_t *scope_p = ecma_create_decl_lex_env (ecma_get_global_environment (global_object_p));
ecma_module_names_t *local_exports_p = NULL;
for (size_t i = 0; i < number_of_exports; i++)
{
if (!ecma_is_value_string (exports_p[i]))
{
ecma_deref_object (scope_p);
ecma_module_release_module_names (local_exports_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Module exports must be string values")));
}
ecma_string_t *name_str_p = ecma_get_string_from_value (exports_p[i]);
bool valid_identifier = false;
ECMA_STRING_TO_UTF8_STRING (name_str_p, name_start_p, name_size);
if (name_size > 0)
{
const lit_utf8_byte_t *name_p = name_start_p;
const lit_utf8_byte_t *name_end_p = name_start_p + name_size;
lit_code_point_t code_point;
lit_utf8_size_t size = lit_read_code_point_from_cesu8 (name_p, name_end_p, &code_point);
if (lit_code_point_is_identifier_start (code_point))
{
name_p += size;
valid_identifier = true;
while (name_p < name_end_p)
{
size = lit_read_code_point_from_cesu8 (name_p, name_end_p, &code_point);
if (!lit_code_point_is_identifier_part (code_point))
{
valid_identifier = false;
break;
}
name_p += size;
}
}
}
ECMA_FINALIZE_UTF8_STRING (name_start_p, name_size);
if (!valid_identifier)
{
ecma_deref_object (scope_p);
ecma_module_release_module_names (local_exports_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Module exports must be valid identifiers")));
}
if (ecma_find_named_property (scope_p, name_str_p) != NULL)
{
continue;
}
ecma_create_named_data_property (scope_p, name_str_p, ECMA_PROPERTY_FLAG_WRITABLE, NULL);
ecma_module_names_t *new_export_p;
new_export_p = (ecma_module_names_t *) jmem_heap_alloc_block (sizeof (ecma_module_names_t));
new_export_p->next_p = local_exports_p;
local_exports_p = new_export_p;
ecma_ref_ecma_string (name_str_p);
new_export_p->imex_name_p = name_str_p;
ecma_ref_ecma_string (name_str_p);
new_export_p->local_name_p = name_str_p;
}
ecma_module_t *module_p = ecma_module_create ();
module_p->header.u.cls.u2.module_flags |= ECMA_MODULE_IS_NATIVE;
module_p->scope_p = scope_p;
module_p->local_exports_p = local_exports_p;
module_p->u.callback = callback;
ecma_deref_object (scope_p);
return ecma_make_object_value (&module_p->header.object);
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (callback);
JERRY_UNUSED (exports_p);
JERRY_UNUSED (number_of_exports);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_native_module_create */
/**
* Gets the value of an export which belongs to a native module.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the export - if success
* error - otherwise
*/
jerry_value_t
jerry_native_module_get_export (const jerry_value_t native_module_val, /**< a native module object */
const jerry_value_t export_name_val) /**< string identifier of the export */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (native_module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
if (!(module_p->header.u.cls.u2.module_flags & ECMA_MODULE_IS_NATIVE) || !ecma_is_value_string (export_name_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_property_t *property_p =
ecma_find_named_property (module_p->scope_p, ecma_get_string_from_value (export_name_val));
if (property_p == NULL)
{
return jerry_throw (ecma_raise_reference_error (ECMA_ERR_MSG (ecma_error_unknown_export_p)));
}
return ecma_copy_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value);
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (native_module_val);
JERRY_UNUSED (export_name_val);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_native_module_get_export */
/**
* Sets the value of an export which belongs to a native module.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return true value - if the operation was successful
* error - otherwise
*/
jerry_value_t
jerry_native_module_set_export (const jerry_value_t native_module_val, /**< a native module object */
const jerry_value_t export_name_val, /**< string identifier of the export */
const jerry_value_t value_to_set) /**< new value of the export */
{
jerry_assert_api_available ();
#if JERRY_MODULE_SYSTEM
ecma_module_t *module_p = ecma_module_get_resolved_module (native_module_val);
if (module_p == NULL)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_not_module_p)));
}
if (!(module_p->header.u.cls.u2.module_flags & ECMA_MODULE_IS_NATIVE) || !ecma_is_value_string (export_name_val)
|| ecma_is_value_error_reference (value_to_set))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_property_t *property_p =
ecma_find_named_property (module_p->scope_p, ecma_get_string_from_value (export_name_val));
if (property_p == NULL)
{
return jerry_throw (ecma_raise_reference_error (ECMA_ERR_MSG (ecma_error_unknown_export_p)));
}
ecma_named_data_property_assign_value (module_p->scope_p, ECMA_PROPERTY_VALUE_PTR (property_p), value_to_set);
return ECMA_VALUE_TRUE;
#else /* !JERRY_MODULE_SYSTEM */
JERRY_UNUSED (native_module_val);
JERRY_UNUSED (export_name_val);
JERRY_UNUSED (value_to_set);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_module_not_supported_p)));
#endif /* JERRY_MODULE_SYSTEM */
} /* jerry_native_module_set_export */
/**
* Run enqueued Promise jobs until the first thrown error or until all get executed.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return result of last executed job, may be error value.
*/
jerry_value_t
jerry_run_all_enqueued_jobs (void)
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
return ecma_process_all_enqueued_jobs ();
#else /* !JERRY_ESNEXT */
return ECMA_VALUE_UNDEFINED;
#endif /* JERRY_ESNEXT */
} /* jerry_run_all_enqueued_jobs */
/**
* 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 ();
ecma_object_t *global_obj_p = ecma_builtin_get_global ();
ecma_ref_object (global_obj_p);
return ecma_make_object_value (global_obj_p);
} /* jerry_get_global_object */
/**
* Check if the specified value is an abort value.
*
* @return true - if both the error and abort values are set,
* false - otherwise
*/
bool
jerry_value_is_abort (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
if (!ecma_is_value_error_reference (value))
{
return false;
}
ecma_extended_primitive_t *error_ref_p = ecma_get_extended_primitive_from_value (value);
return (error_ref_p->refs_and_type & ECMA_ERROR_API_ABORT) != 0;
} /* jerry_value_is_abort */
/**
* 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_base_type (ecma_get_object_from_value (value)) == ECMA_OBJECT_BASE_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 true.
*
* @return true - if the specified value is true
* false - otherwise
*/
bool
jerry_value_is_true (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_true (value);
} /* jerry_value_is_true */
/**
* Check if the specified value is false.
*
* @return true - if the specified value is false
* false - otherwise
*/
bool
jerry_value_is_false (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_false (value);
} /* jerry_value_is_false */
/**
* 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 an error or abort value.
*
* @return true - if the specified value is an error value,
* false - otherwise
*/
bool
jerry_value_is_error (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
return ecma_is_value_error_reference (value);
} /* jerry_value_is_error */
/**
* 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 an async function object value.
*
* @return true - if the specified value is an async function,
* false - otherwise
*/
bool
jerry_value_is_async_function (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (ecma_is_value_object (value))
{
ecma_object_t *obj_p = ecma_get_object_from_value (value);
if (ecma_get_object_type (obj_p) == ECMA_OBJECT_TYPE_FUNCTION)
{
const ecma_compiled_code_t *bytecode_data_p;
bytecode_data_p = ecma_op_function_get_compiled_code ((ecma_extended_object_t *) obj_p);
uint16_t type = CBC_FUNCTION_GET_TYPE (bytecode_data_p->status_flags);
return (type == CBC_FUNCTION_ASYNC || type == CBC_FUNCTION_ASYNC_ARROW || type == CBC_FUNCTION_ASYNC_GENERATOR);
}
}
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (value);
#endif /* JERRY_ESNEXT */
return false;
} /* jerry_value_is_async_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 promise.
*
* @return true - if the specified value is promise,
* false - otherwise
*/
bool
jerry_value_is_promise (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
return (ecma_is_value_object (value) && ecma_is_promise (ecma_get_object_from_value (value)));
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_ESNEXT */
} /* jerry_value_is_promise */
/**
* Check if the specified value is a proxy object.
*
* @return true - if the specified value is a proxy object,
* false - otherwise
*/
bool
jerry_value_is_proxy (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_PROXY
return (ecma_is_value_object (value) && ECMA_OBJECT_IS_PROXY (ecma_get_object_from_value (value)));
#else /* !JERRY_BUILTIN_PROXY */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_PROXY */
} /* jerry_value_is_proxy */
/**
* 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 symbol.
*
* @return true - if the specified value is symbol,
* false - otherwise
*/
bool
jerry_value_is_symbol (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
return ecma_is_value_symbol (value);
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_ESNEXT */
} /* jerry_value_is_symbol */
/**
* Check if the specified value is BigInt.
*
* @return true - if the specified value is BigInt,
* false - otherwise
*/
bool
jerry_value_is_bigint (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_BIGINT
return ecma_is_value_bigint (value);
#else /* !JERRY_BUILTIN_BIGINT */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_BIGINT */
} /* jerry_value_is_bigint */
/**
* 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 */
/**
* Perform the base type of the JavaScript value.
*
* @return jerry_type_t value
*/
jerry_type_t
jerry_value_get_type (const jerry_value_t value) /**< input value to check */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (value))
{
return JERRY_TYPE_ERROR;
}
lit_magic_string_id_t lit_id = ecma_get_typeof_lit_id (value);
JERRY_ASSERT (lit_id != LIT_MAGIC_STRING__EMPTY);
switch (lit_id)
{
case LIT_MAGIC_STRING_UNDEFINED:
{
return JERRY_TYPE_UNDEFINED;
}
case LIT_MAGIC_STRING_BOOLEAN:
{
return JERRY_TYPE_BOOLEAN;
}
case LIT_MAGIC_STRING_NUMBER:
{
return JERRY_TYPE_NUMBER;
}
case LIT_MAGIC_STRING_STRING:
{
return JERRY_TYPE_STRING;
}
#if JERRY_ESNEXT
case LIT_MAGIC_STRING_SYMBOL:
{
return JERRY_TYPE_SYMBOL;
}
#endif /* JERRY_ESNEXT */
case LIT_MAGIC_STRING_FUNCTION:
{
return JERRY_TYPE_FUNCTION;
}
#if JERRY_BUILTIN_BIGINT
case LIT_MAGIC_STRING_BIGINT:
{
return JERRY_TYPE_BIGINT;
}
#endif /* JERRY_BUILTIN_BIGINT */
default:
{
JERRY_ASSERT (lit_id == LIT_MAGIC_STRING_OBJECT);
/* Based on the ECMA 262 5.1 standard the 'null' value is an object.
* Thus we'll do an extra check for 'null' here.
*/
return ecma_is_value_null (value) ? JERRY_TYPE_NULL : JERRY_TYPE_OBJECT;
}
}
} /* jerry_value_get_type */
/**
* Used by jerry_object_get_type to get the type of class objects
*/
static const uint8_t jerry_class_object_type[] = {
/* These objects require custom property resolving. */
JERRY_OBJECT_TYPE_STRING, /**< type of ECMA_OBJECT_CLASS_STRING */
JERRY_OBJECT_TYPE_ARGUMENTS, /**< type of ECMA_OBJECT_CLASS_ARGUMENTS */
#if JERRY_BUILTIN_TYPEDARRAY
JERRY_OBJECT_TYPE_TYPEDARRAY, /**< type of ECMA_OBJECT_CLASS_TYPEDARRAY */
#endif /* JERRY_BUILTIN_TYPEDARRAY */
#if JERRY_MODULE_SYSTEM
JERRY_OBJECT_TYPE_MODULE_NAMESPACE, /**< type of ECMA_OBJECT_CLASS_MODULE_NAMESPACE */
#endif /* JERRY_MODULE_SYSTEM */
/* These objects are marked by Garbage Collector. */
#if JERRY_ESNEXT
JERRY_OBJECT_TYPE_GENERATOR, /**< type of ECMA_OBJECT_CLASS_GENERATOR */
JERRY_OBJECT_TYPE_GENERATOR, /**< type of ECMA_OBJECT_CLASS_ASYNC_GENERATOR */
JERRY_OBJECT_TYPE_ITERATOR, /**< type of ECMA_OBJECT_CLASS_ARRAY_ITERATOR */
JERRY_OBJECT_TYPE_ITERATOR, /**< type of ECMA_OBJECT_CLASS_SET_ITERATOR */
JERRY_OBJECT_TYPE_ITERATOR, /**< type of ECMA_OBJECT_CLASS_MAP_ITERATOR */
#if JERRY_BUILTIN_REGEXP
JERRY_OBJECT_TYPE_ITERATOR, /**< type of ECMA_OBJECT_CLASS_REGEXP_STRING_ITERATOR */
#endif /* JERRY_BUILTIN_REGEXP */
#endif /* JERRY_ESNEXT */
#if JERRY_MODULE_SYSTEM
JERRY_OBJECT_TYPE_MODULE, /**< type of ECMA_OBJECT_CLASS_MODULE */
#endif /* JERRY_MODULE_SYSTEM */
#if JERRY_ESNEXT
JERRY_OBJECT_TYPE_PROMISE, /**< type of ECMA_OBJECT_CLASS_PROMISE */
JERRY_OBJECT_TYPE_GENERIC, /**< type of ECMA_OBJECT_CLASS_PROMISE_CAPABILITY */
JERRY_OBJECT_TYPE_GENERIC, /**< type of ECMA_OBJECT_CLASS_ASYNC_FROM_SYNC_ITERATOR */
#endif /* JERRY_ESNEXT */
#if JERRY_BUILTIN_DATAVIEW
JERRY_OBJECT_TYPE_DATAVIEW, /**< type of ECMA_OBJECT_CLASS_DATAVIEW */
#endif /* JERRY_BUILTIN_DATAVIEW */
#if JERRY_BUILTIN_CONTAINER
JERRY_OBJECT_TYPE_CONTAINER, /**< type of ECMA_OBJECT_CLASS_CONTAINER */
#endif /* JERRY_BUILTIN_CONTAINER */
/* Normal objects. */
JERRY_OBJECT_TYPE_BOOLEAN, /**< type of ECMA_OBJECT_CLASS_BOOLEAN */
JERRY_OBJECT_TYPE_NUMBER, /**< type of ECMA_OBJECT_CLASS_NUMBER */
JERRY_OBJECT_TYPE_ERROR, /**< type of ECMA_OBJECT_CLASS_ERROR */
JERRY_OBJECT_TYPE_GENERIC, /**< type of ECMA_OBJECT_CLASS_INTERNAL_OBJECT */
#if JERRY_PARSER
JERRY_OBJECT_TYPE_SCRIPT, /**< type of ECMA_OBJECT_CLASS_SCRIPT */
#endif /* JERRY_PARSER */
#if JERRY_BUILTIN_DATE
JERRY_OBJECT_TYPE_DATE, /**< type of ECMA_OBJECT_CLASS_DATE */
#endif /* JERRY_BUILTIN_DATE */
#if JERRY_BUILTIN_REGEXP
JERRY_OBJECT_TYPE_REGEXP, /**< type of ECMA_OBJECT_CLASS_REGEXP */
#endif /* JERRY_BUILTIN_REGEXP */
#if JERRY_ESNEXT
JERRY_OBJECT_TYPE_SYMBOL, /**< type of ECMA_OBJECT_CLASS_SYMBOL */
JERRY_OBJECT_TYPE_ITERATOR, /**< type of ECMA_OBJECT_CLASS_STRING_ITERATOR */
#endif /* JERRY_ESNEXT */
#if JERRY_BUILTIN_TYPEDARRAY
JERRY_OBJECT_TYPE_ARRAYBUFFER, /**< type of ECMA_OBJECT_CLASS_ARRAY_BUFFER */
#if JERRY_BUILTIN_SHAREDARRAYBUFFER
JERRY_OBJECT_TYPE_SHARED_ARRAY_BUFFER, /**< type of ECMA_OBJECT_CLASS_SHARED_ARRAY_BUFFER */
#endif /* JERRY_BUILTIN_SHAREDARRAYBUFFER */
#endif /* JERRY_BUILTIN_TYPEDARRAY */
#if JERRY_BUILTIN_BIGINT
JERRY_OBJECT_TYPE_BIGINT, /**< type of ECMA_OBJECT_CLASS_BIGINT */
#endif /* JERRY_BUILTIN_BIGINT */
#if JERRY_BUILTIN_WEAKREF
JERRY_OBJECT_TYPE_WEAKREF, /**< type of ECMA_OBJECT_CLASS_WEAKREF */
#endif /* JERRY_BUILTIN_WEAKREF */
};
JERRY_STATIC_ASSERT (sizeof (jerry_class_object_type) == ECMA_OBJECT_CLASS__MAX,
jerry_class_object_type_must_have_object_class_max_elements);
/**
* Get the object type of the given value
*
* @return JERRY_OBJECT_TYPE_NONE - if the given value is not an object
* jerry_object_type_t value - otherwise
*/
jerry_object_type_t
jerry_object_get_type (const jerry_value_t value) /**< input value to check */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (value))
{
return JERRY_OBJECT_TYPE_NONE;
}
ecma_object_t *obj_p = ecma_get_object_from_value (value);
ecma_extended_object_t *ext_obj_p = (ecma_extended_object_t *) obj_p;
switch (ecma_get_object_type (obj_p))
{
case ECMA_OBJECT_TYPE_CLASS:
case ECMA_OBJECT_TYPE_BUILT_IN_CLASS:
{
JERRY_ASSERT (ext_obj_p->u.cls.type < ECMA_OBJECT_CLASS__MAX);
return jerry_class_object_type[ext_obj_p->u.cls.type];
}
case ECMA_OBJECT_TYPE_ARRAY:
case ECMA_OBJECT_TYPE_BUILT_IN_ARRAY:
{
return JERRY_OBJECT_TYPE_ARRAY;
}
#if JERRY_ESNEXT
case ECMA_OBJECT_TYPE_PROXY:
{
return JERRY_OBJECT_TYPE_PROXY;
}
#endif /* JERRY_ESNEXT */
case ECMA_OBJECT_TYPE_FUNCTION:
case ECMA_OBJECT_TYPE_BOUND_FUNCTION:
case ECMA_OBJECT_TYPE_NATIVE_FUNCTION:
case ECMA_OBJECT_TYPE_BUILT_IN_FUNCTION:
{
return JERRY_OBJECT_TYPE_FUNCTION;
}
default:
{
break;
}
}
return JERRY_OBJECT_TYPE_GENERIC;
} /* jerry_object_get_type */
/**
* Get the function type of the given value
*
* @return JERRY_FUNCTION_TYPE_NONE - if the given value is not a function object
* jerry_function_type_t value - otherwise
*/
jerry_function_type_t
jerry_function_get_type (const jerry_value_t value) /**< input value to check */
{
jerry_assert_api_available ();
if (ecma_is_value_object (value))
{
ecma_object_t *obj_p = ecma_get_object_from_value (value);
ecma_extended_object_t *ext_obj_p = (ecma_extended_object_t *) obj_p;
switch (ecma_get_object_type (obj_p))
{
case ECMA_OBJECT_TYPE_BOUND_FUNCTION:
{
return JERRY_FUNCTION_TYPE_BOUND;
}
case ECMA_OBJECT_TYPE_NATIVE_FUNCTION:
case ECMA_OBJECT_TYPE_BUILT_IN_FUNCTION:
{
return JERRY_FUNCTION_TYPE_GENERIC;
}
case ECMA_OBJECT_TYPE_FUNCTION:
{
const ecma_compiled_code_t *bytecode_data_p = ecma_op_function_get_compiled_code (ext_obj_p);
switch (CBC_FUNCTION_GET_TYPE (bytecode_data_p->status_flags))
{
#if JERRY_ESNEXT
case CBC_FUNCTION_ARROW:
case CBC_FUNCTION_ASYNC_ARROW:
{
return JERRY_FUNCTION_TYPE_ARROW;
}
case CBC_FUNCTION_GENERATOR:
case CBC_FUNCTION_ASYNC_GENERATOR:
{
return JERRY_FUNCTION_TYPE_GENERATOR;
}
#endif /* JERRY_ESNEXT */
case CBC_FUNCTION_ACCESSOR:
{
return JERRY_FUNCTION_TYPE_ACCESSOR;
}
default:
{
break;
}
}
return JERRY_FUNCTION_TYPE_GENERIC;
}
default:
{
break;
}
}
}
return JERRY_FUNCTION_TYPE_NONE;
} /* jerry_function_get_type */
/**
* Get the itearator type of the given value
*
* @return JERRY_ITERATOR_TYPE_NONE - if the given value is not an iterator object
* jerry_iterator_type_t value - otherwise
*/
jerry_iterator_type_t
jerry_iterator_get_type (const jerry_value_t value) /**< input value to check */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (ecma_is_value_object (value))
{
ecma_object_t *obj_p = ecma_get_object_from_value (value);
ecma_extended_object_t *ext_obj_p = (ecma_extended_object_t *) obj_p;
if (ecma_get_object_type (obj_p) == ECMA_OBJECT_TYPE_CLASS)
{
switch (ext_obj_p->u.cls.type)
{
case ECMA_OBJECT_CLASS_ARRAY_ITERATOR:
{
return JERRY_ITERATOR_TYPE_ARRAY;
}
#if JERRY_BUILTIN_CONTAINER
case ECMA_OBJECT_CLASS_SET_ITERATOR:
{
return JERRY_ITERATOR_TYPE_SET;
}
case ECMA_OBJECT_CLASS_MAP_ITERATOR:
{
return JERRY_ITERATOR_TYPE_MAP;
}
#endif /* JERRY_BUILTIN_CONTAINER */
case ECMA_OBJECT_CLASS_STRING_ITERATOR:
{
return JERRY_ITERATOR_TYPE_STRING;
}
default:
{
break;
}
}
}
}
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (value);
#endif /* JERRY_ESNEXT */
return JERRY_ITERATOR_TYPE_NONE;
} /* jerry_iterator_get_type */
/**
* Check if the specified feature is enabled.
*
* @return true - if the specified feature is enabled,
* false - otherwise
*/
bool
jerry_is_feature_enabled (const jerry_feature_t feature) /**< feature to check */
{
JERRY_ASSERT (feature < JERRY_FEATURE__COUNT);
return (false
#if JERRY_CPOINTER_32_BIT
|| feature == JERRY_FEATURE_CPOINTER_32_BIT
#endif /* JERRY_CPOINTER_32_BIT */
#if JERRY_ERROR_MESSAGES
|| feature == JERRY_FEATURE_ERROR_MESSAGES
#endif /* JERRY_ERROR_MESSAGES */
#if JERRY_PARSER
|| feature == JERRY_FEATURE_JS_PARSER
#endif /* JERRY_PARSER */
#if JERRY_MEM_STATS
|| feature == JERRY_FEATURE_MEM_STATS
#endif /* JERRY_MEM_STATS */
#if JERRY_PARSER_DUMP_BYTE_CODE
|| feature == JERRY_FEATURE_PARSER_DUMP
#endif /* JERRY_PARSER_DUMP_BYTE_CODE */
#if JERRY_REGEXP_DUMP_BYTE_CODE
|| feature == JERRY_FEATURE_REGEXP_DUMP
#endif /* JERRY_REGEXP_DUMP_BYTE_CODE */
#if JERRY_SNAPSHOT_SAVE
|| feature == JERRY_FEATURE_SNAPSHOT_SAVE
#endif /* JERRY_SNAPSHOT_SAVE */
#if JERRY_SNAPSHOT_EXEC
|| feature == JERRY_FEATURE_SNAPSHOT_EXEC
#endif /* JERRY_SNAPSHOT_EXEC */
#if JERRY_DEBUGGER
|| feature == JERRY_FEATURE_DEBUGGER
#endif /* JERRY_DEBUGGER */
#if JERRY_VM_EXEC_STOP
|| feature == JERRY_FEATURE_VM_EXEC_STOP
#endif /* JERRY_VM_EXEC_STOP */
#if JERRY_VM_THROW
|| feature == JERRY_FEATURE_VM_THROW
#endif /* JERRY_VM_THROW */
#if JERRY_BUILTIN_JSON
|| feature == JERRY_FEATURE_JSON
#endif /* JERRY_BUILTIN_JSON */
#if JERRY_ESNEXT
|| feature == JERRY_FEATURE_PROMISE || feature == JERRY_FEATURE_SYMBOL
#endif /* JERRY_ESNEXT */
#if JERRY_BUILTIN_TYPEDARRAY
|| feature == JERRY_FEATURE_TYPEDARRAY
#endif /* JERRY_BUILTIN_TYPEDARRAY */
#if JERRY_BUILTIN_DATAVIEW
|| feature == JERRY_FEATURE_DATAVIEW
#endif /* JERRY_BUILTIN_DATAVIEW */
#if JERRY_BUILTIN_PROXY
|| feature == JERRY_FEATURE_PROXY
#endif /* JERRY_BUILTIN_PROXY */
#if JERRY_BUILTIN_DATE
|| feature == JERRY_FEATURE_DATE
#endif /* JERRY_BUILTIN_DATE */
#if JERRY_BUILTIN_REGEXP
|| feature == JERRY_FEATURE_REGEXP
#endif /* JERRY_BUILTIN_REGEXP */
#if JERRY_LINE_INFO
|| feature == JERRY_FEATURE_LINE_INFO
#endif /* JERRY_LINE_INFO */
#if JERRY_LOGGING
|| feature == JERRY_FEATURE_LOGGING
#endif /* JERRY_LOGGING */
#if JERRY_BUILTIN_GLOBAL_THIS
|| feature == JERRY_FEATURE_GLOBAL_THIS
#endif /* JERRY_BUILTIN_GLOBAL_THIS */
#if JERRY_BUILTIN_CONTAINER
|| feature == JERRY_FEATURE_MAP || feature == JERRY_FEATURE_SET || feature == JERRY_FEATURE_WEAKMAP
|| feature == JERRY_FEATURE_WEAKSET
#endif /* JERRY_BUILTIN_CONTAINER */
#if JERRY_BUILTIN_WEAKREF
|| feature == JERRY_FEATURE_WEAKREF
#endif /* JERRY_BUILTIN_WEAKREF */
#if JERRY_BUILTIN_BIGINT
|| feature == JERRY_FEATURE_BIGINT
#endif /* JERRY_BUILTIN_BIGINT */
#if JERRY_BUILTIN_REALMS
|| feature == JERRY_FEATURE_REALM
#endif /* JERRY_BUILTIN_REALMS */
#if JERRY_PROMISE_CALLBACK
|| feature == JERRY_FEATURE_PROMISE_CALLBACK
#endif /* JERRY_PROMISE_CALLBACK */
#if JERRY_MODULE_SYSTEM
|| feature == JERRY_FEATURE_MODULE
#endif /* JERRY_MODULE_SYSTEM */
#if JERRY_FUNCTION_TO_STRING
|| feature == JERRY_FEATURE_FUNCTION_TO_STRING
#endif /* JERRY_FUNCTION_TO_STRING */
);
} /* jerry_is_feature_enabled */
/**
* Perform binary operation on the given operands (==, ===, <, >, etc.).
*
* @return error - if argument has an error flag or operation is unsuccessful or unsupported
* true/false - the result of the binary operation on the given operands otherwise
*/
jerry_value_t
jerry_binary_operation (jerry_binary_operation_t op, /**< operation */
const jerry_value_t lhs, /**< first operand */
const jerry_value_t rhs) /**< second operand */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (lhs) || ecma_is_value_error_reference (rhs))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
switch (op)
{
case JERRY_BIN_OP_EQUAL:
{
return jerry_return (ecma_op_abstract_equality_compare (lhs, rhs));
}
case JERRY_BIN_OP_STRICT_EQUAL:
{
return ecma_make_boolean_value (ecma_op_strict_equality_compare (lhs, rhs));
}
case JERRY_BIN_OP_LESS:
{
return jerry_return (opfunc_relation (lhs, rhs, true, false));
}
case JERRY_BIN_OP_LESS_EQUAL:
{
return jerry_return (opfunc_relation (lhs, rhs, false, true));
}
case JERRY_BIN_OP_GREATER:
{
return jerry_return (opfunc_relation (lhs, rhs, false, false));
}
case JERRY_BIN_OP_GREATER_EQUAL:
{
return jerry_return (opfunc_relation (lhs, rhs, true, true));
}
case JERRY_BIN_OP_INSTANCEOF:
{
if (!ecma_is_value_object (lhs) || !ecma_op_is_callable (rhs))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *proto_obj_p = ecma_get_object_from_value (rhs);
return jerry_return (ecma_op_object_has_instance (proto_obj_p, lhs));
}
case JERRY_BIN_OP_ADD:
{
return jerry_return (opfunc_addition (lhs, rhs));
}
case JERRY_BIN_OP_SUB:
case JERRY_BIN_OP_MUL:
case JERRY_BIN_OP_DIV:
case JERRY_BIN_OP_REM:
{
return jerry_return (do_number_arithmetic (op - ECMA_NUMBER_ARITHMETIC_OP_API_OFFSET, lhs, rhs));
}
default:
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Unsupported binary operation")));
}
}
} /* jerry_binary_operation */
/**
* Create abort from an api value.
*
* Create abort value from an api value. If the second argument is true
* it will release the input api value.
*
* @return api abort value
*/
jerry_value_t
jerry_create_abort_from_value (jerry_value_t value, /**< api value */
bool release) /**< release api value */
{
jerry_assert_api_available ();
if (JERRY_UNLIKELY (ecma_is_value_error_reference (value)))
{
/* This is a rare case so it is optimized for
* binary size rather than performance. */
if (jerry_value_is_abort (value))
{
return release ? value : jerry_acquire_value (value);
}
value = jerry_get_value_from_error (value, release);
release = true;
}
if (!release)
{
value = ecma_copy_value (value);
}
return ecma_create_error_reference (value, ECMA_ERROR_API_ABORT);
} /* jerry_create_abort_from_value */
/**
* Create error from an api value.
*
* Create error value from an api value. If the second argument is true
* it will release the input api value.
*
* @return api error value
*/
jerry_value_t
jerry_create_error_from_value (jerry_value_t value, /**< api value */
bool release) /**< release api value */
{
jerry_assert_api_available ();
if (JERRY_UNLIKELY (ecma_is_value_error_reference (value)))
{
/* This is a rare case so it is optimized for
* binary size rather than performance. */
if (!jerry_value_is_abort (value))
{
return release ? value : jerry_acquire_value (value);
}
value = jerry_get_value_from_error (value, release);
release = true;
}
if (!release)
{
value = ecma_copy_value (value);
}
return ecma_create_error_reference (value, 0);
} /* jerry_create_error_from_value */
/**
* Get the value from an error value.
*
* Extract the api value from an error. If the second argument is true
* it will release the input error value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return jerry_value_t value
*/
jerry_value_t
jerry_get_value_from_error (jerry_value_t value, /**< api value */
bool release) /**< release api value */
{
jerry_assert_api_available ();
if (!ecma_is_value_error_reference (value))
{
return release ? value : ecma_copy_value (value);
}
jerry_value_t ret_val = jerry_acquire_value (ecma_get_extended_primitive_from_value (value)->u.value);
if (release)
{
jerry_release_value (value);
}
return ret_val;
} /* jerry_get_value_from_error */
/**
* Set new decorator callback for Error objects. The decorator can
* create or update any properties of the newly created Error object.
*/
void
jerry_set_error_object_created_callback (jerry_error_object_created_callback_t callback, /**< new callback */
void *user_p) /**< user pointer passed to the callback */
{
jerry_assert_api_available ();
JERRY_CONTEXT (error_object_created_callback_p) = callback;
JERRY_CONTEXT (error_object_created_callback_user_p) = user_p;
} /* jerry_set_error_object_created_callback */
/**
* When JERRY_VM_THROW is enabled, the callback passed to this
* function is called when an error is thrown in ECMAScript code.
*/
void
jerry_set_vm_throw_callback (jerry_vm_throw_callback_t throw_cb, /**< callback which is called on throws */
void *user_p) /**< pointer passed to the function */
{
#if JERRY_VM_THROW
JERRY_CONTEXT (vm_throw_callback_p) = throw_cb;
JERRY_CONTEXT (vm_throw_callback_user_p) = user_p;
#else /* !JERRY_VM_THROW */
JERRY_UNUSED (throw_cb);
JERRY_UNUSED (user_p);
#endif /* JERRY_VM_THROW */
} /* jerry_set_vm_throw_callback */
/**
* Checks whether the callback set by jerry_set_vm_throw_callback captured the error
*
* @return true, if the vm throw callback captured the error
* false, otherwise
*/
bool
jerry_error_is_throw_captured (jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
#if JERRY_VM_THROW
if (!ecma_is_value_error_reference (value))
{
return false;
}
ecma_extended_primitive_t *error_ref_p = ecma_get_extended_primitive_from_value (value);
return (error_ref_p->refs_and_type & ECMA_ERROR_API_THROW_CAPTURED) != 0;
#else /* !JERRY_VM_THROW */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_VM_THROW */
} /* jerry_error_is_throw_captured */
/**
* Sets whether the callback set by jerry_set_vm_throw_callback should capture the error or not
*/
void
jerry_error_set_throw_capture (jerry_value_t value, /**< api value */
bool should_capture) /**< callback should capture this error */
{
jerry_assert_api_available ();
#if JERRY_VM_THROW
if (!ecma_is_value_error_reference (value))
{
return;
}
ecma_extended_primitive_t *error_ref_p = ecma_get_extended_primitive_from_value (value);
if (should_capture)
{
error_ref_p->refs_and_type &= ~(uint32_t) ECMA_ERROR_API_THROW_CAPTURED;
return;
}
error_ref_p->refs_and_type |= ECMA_ERROR_API_THROW_CAPTURED;
#else /* !JERRY_VM_THROW */
JERRY_UNUSED (value);
JERRY_UNUSED (should_capture);
#endif /* JERRY_VM_THROW */
} /* jerry_error_set_throw_capture */
/**
* Return the type of the Error object if possible.
*
* @return one of the jerry_error_t value as the type of the Error object
* JERRY_ERROR_NONE - if the input value is not an Error object
*/
jerry_error_t
jerry_get_error_type (jerry_value_t value) /**< api value */
{
if (JERRY_UNLIKELY (ecma_is_value_error_reference (value)))
{
value = ecma_get_extended_primitive_from_value (value)->u.value;
}
if (!ecma_is_value_object (value))
{
return JERRY_ERROR_NONE;
}
ecma_object_t *object_p = ecma_get_object_from_value (value);
jerry_error_t error_type = ecma_get_error_type (object_p);
return (jerry_error_t) error_type;
} /* jerry_get_error_type */
/**
* 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 (!ecma_is_value_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_reference (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_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
ecma_number_t num;
ecma_value_t ret_value = ecma_op_to_number (value, &num);
if (ECMA_IS_VALUE_ERROR (ret_value))
{
return ecma_create_error_reference_from_context ();
}
return ecma_make_number_value (num);
} /* 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_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
return jerry_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_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
return jerry_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_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
ecma_string_t *str_p = ecma_op_to_string (value);
if (JERRY_UNLIKELY (str_p == NULL))
{
return ecma_create_error_reference_from_context ();
}
return ecma_make_string_value (str_p);
} /* jerry_value_to_string */
/**
* Call the BigInt constructor ecma builtin operation on the api value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return BigInt value - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_value_to_bigint (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_BIGINT
if (ecma_is_value_error_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
return jerry_return (ecma_bigint_to_bigint (value, true));
#else /* !JERRY_BUILTIN_BIGINT */
JERRY_UNUSED (value);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_bigint_not_supported_p)));
#endif /* JERRY_BUILTIN_BIGINT */
} /* jerry_value_to_bigint */
/**
* Convert any number to integer number.
*
* Note:
* For non-number values 0 is returned.
*
* @return integer representation of the number.
*/
double
jerry_value_as_integer (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (!ecma_is_value_number (value))
{
return 0;
}
double number = ecma_get_number_from_value (value);
if (ecma_number_is_nan (number))
{
return ECMA_NUMBER_ZERO;
}
if (ecma_number_is_zero (number) || ecma_number_is_infinity (number))
{
return number;
}
ecma_number_t floor_fabs = (ecma_number_t) floor (fabs (number));
return ecma_number_is_negative (number) ? -floor_fabs : floor_fabs;
} /* jerry_value_as_integer */
/**
* Convert any number to int32 number.
*
* Note:
* For non-number values 0 is returned.
*
* @return int32 representation of the number.
*/
int32_t
jerry_value_as_int32 (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (!ecma_is_value_number (value))
{
return 0;
}
return ecma_number_to_int32 (ecma_get_number_from_value (value));
} /* jerry_value_as_int32 */
/**
* Convert any number to uint32 number.
*
* Note:
* For non-number values 0 is returned.
*
* @return uint32 representation of the number.
*/
uint32_t
jerry_value_as_uint32 (const jerry_value_t value) /**< input value */
{
jerry_assert_api_available ();
if (!ecma_is_value_number (value))
{
return 0;
}
return ecma_number_to_uint32 (ecma_get_number_from_value (value));
} /* jerry_value_as_uint32 */
/**
* 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 ();
if (JERRY_UNLIKELY (ecma_is_value_error_reference (value)))
{
ecma_ref_extended_primitive (ecma_get_extended_primitive_from_value (value));
return value;
}
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 ();
if (JERRY_UNLIKELY (ecma_is_value_error_reference (value)))
{
ecma_deref_error_reference (ecma_get_extended_primitive_from_value (value));
return;
}
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_object_t *array_p = ecma_op_new_array_object (size);
return ecma_make_object_value (array_p);
} /* 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 jerry_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_create_error_object_reference (ecma_new_standard_error ((jerry_error_t) error_type, NULL));
}
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 ((jerry_error_t) error_type, message_string_p);
ecma_deref_ecma_string (message_string_p);
return ecma_create_error_object_reference (error_object_p);
}
} /* jerry_create_error_sz */
/**
* 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 (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 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_VALUE_UNDEFINED;
} /* jerry_create_undefined */
/**
* 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_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 an empty Promise object which can be resolve/reject later
* by calling jerry_resolve_or_reject_promise.
*
* 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_promise (void)
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
ecma_value_t promise_value = ecma_op_create_promise_object (ECMA_VALUE_EMPTY, ECMA_VALUE_UNDEFINED, NULL);
return promise_value;
#else /* !JERRY_ESNEXT */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_promise_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_create_promise */
/**
* Create a new Proxy object with the given target and handler
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the created Proxy object
*/
jerry_value_t
jerry_create_proxy (const jerry_value_t target, /**< target argument */
const jerry_value_t handler) /**< handler argument */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (target) || ecma_is_value_error_reference (handler))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
#if JERRY_BUILTIN_PROXY
ecma_object_t *proxy_p = ecma_proxy_create (target, handler, 0);
return jerry_return (proxy_p == NULL ? ECMA_VALUE_ERROR : ecma_make_object_value (proxy_p));
#else /* !JERRY_BUILTIN_PROXY */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Proxy is not supported")));
#endif /* JERRY_BUILTIN_PROXY */
} /* jerry_create_proxy */
#if JERRY_BUILTIN_PROXY
JERRY_STATIC_ASSERT ((int) JERRY_PROXY_SKIP_RESULT_VALIDATION == (int) ECMA_PROXY_SKIP_RESULT_VALIDATION,
jerry_and_ecma_proxy_skip_result_validation_must_be_equal);
#endif /* JERRY_BUILTIN_PROXY */
/**
* Create a new Proxy object with the given target, handler, and special options
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the created Proxy object
*/
jerry_value_t
jerry_create_special_proxy (const jerry_value_t target, /**< target argument */
const jerry_value_t handler, /**< handler argument */
uint32_t options) /**< jerry_proxy_object_options_t option bits */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (target) || ecma_is_value_error_reference (handler))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
#if JERRY_BUILTIN_PROXY
options &= JERRY_PROXY_SKIP_RESULT_VALIDATION;
ecma_object_t *proxy_p = ecma_proxy_create (target, handler, options);
return jerry_return (proxy_p == NULL ? ECMA_VALUE_ERROR : ecma_make_object_value (proxy_p));
#else /* !JERRY_BUILTIN_PROXY */
JERRY_UNUSED (options);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Proxy is not supported")));
#endif /* JERRY_BUILTIN_PROXY */
} /* jerry_create_special_proxy */
/**
* Create string from a valid UTF-8 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_from_utf8 (const jerry_char_t *str_p) /**< pointer to string */
{
return jerry_create_string_sz_from_utf8 (str_p, lit_zt_utf8_string_size ((lit_utf8_byte_t *) str_p));
} /* jerry_create_string_from_utf8 */
/**
* Create string from a valid UTF-8 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_from_utf8 (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_converted_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_from_utf8 */
/**
* Create string from a valid CESU-8 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 CESU-8 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 external string from a valid CESU-8 string
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return value of the created external string
*/
jerry_value_t
jerry_create_external_string (const jerry_char_t *str_p, /**< pointer to string */
void *user_p) /**< user pointer passed to the callback when the string is freed */
{
return jerry_create_external_string_sz (str_p, lit_zt_utf8_string_size ((lit_utf8_byte_t *) str_p), user_p);
} /* jerry_create_external_string */
/**
* Create external string from a valid CESU-8 string
*
* Note:
* returned value must be freed with jerry_release_value when it is no longer needed.
*
* @return value of the created external string
*/
jerry_value_t
jerry_create_external_string_sz (const jerry_char_t *str_p, /**< pointer to string */
jerry_size_t str_size, /**< string size */
void *user_p) /**< user pointer passed to the callback when the string is freed */
{
jerry_assert_api_available ();
ecma_string_t *ecma_str_p =
ecma_new_ecma_external_string_from_cesu8 ((lit_utf8_byte_t *) str_p, (lit_utf8_size_t) str_size, user_p);
return ecma_make_string_value (ecma_str_p);
} /* jerry_create_external_string_sz */
/**
* Create symbol from an api value
*
* Note:
* The given argument is converted to string. This operation can throw an error.
* returned value must be freed with jerry_release_value when it is no longer needed.
*
* @return value of the created symbol, if success
* thrown error, otherwise
*/
jerry_value_t
jerry_create_symbol (const jerry_value_t value) /**< api value */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
#if JERRY_ESNEXT
return jerry_return (ecma_op_create_symbol (&value, 1));
#else /* !JERRY_ESNEXT */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_symbol_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_create_symbol */
/**
* Create BigInt from a sequence of uint64 digits
*
* @return value of the created bigint, if success
* thrown error, otherwise
*/
jerry_value_t
jerry_create_bigint (const uint64_t *digits_p, /**< BigInt digits (lowest digit first) */
uint32_t size, /**< number of BigInt digits */
bool sign) /**< sign bit, true if the result should be negative */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_BIGINT
return jerry_return (ecma_bigint_create_from_digits (digits_p, size, sign));
#else /* !JERRY_BUILTIN_BIGINT */
JERRY_UNUSED (digits_p);
JERRY_UNUSED (size);
JERRY_UNUSED (sign);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_bigint_not_supported_p)));
#endif /* JERRY_BUILTIN_BIGINT */
} /* jerry_create_bigint */
/**
* Calculates the size of the given pattern and creates a RegExp object.
*
* @return value of the constructed RegExp object.
*/
jerry_value_t
jerry_create_regexp (const jerry_char_t *pattern_p, /**< zero-terminated UTF-8 string as RegExp pattern */
uint16_t flags) /**< optional RegExp flags */
{
return jerry_create_regexp_sz (pattern_p, lit_zt_utf8_string_size (pattern_p), flags);
} /* jerry_create_regexp */
/**
* Creates a RegExp object with the given pattern and flags.
*
* @return value of the constructed RegExp object.
*/
jerry_value_t
jerry_create_regexp_sz (const jerry_char_t *pattern_p, /**< zero-terminated UTF-8 string as RegExp pattern */
jerry_size_t pattern_size, /**< length of the pattern */
uint16_t flags) /**< optional RegExp flags */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_REGEXP
if (!lit_is_valid_utf8_string (pattern_p, pattern_size, true))
{
return jerry_throw (ecma_raise_common_error (ECMA_ERR_MSG ("Input must be a valid utf8 string")));
}
ecma_object_t *regexp_obj_p = ecma_op_regexp_alloc (NULL);
if (JERRY_UNLIKELY (regexp_obj_p == NULL))
{
return ECMA_VALUE_ERROR;
}
ecma_string_t *ecma_pattern = ecma_new_ecma_string_from_utf8 (pattern_p, pattern_size);
jerry_value_t ret_val = ecma_op_create_regexp_with_flags (regexp_obj_p, ecma_make_string_value (ecma_pattern), flags);
ecma_deref_ecma_string (ecma_pattern);
return ret_val;
#else /* !JERRY_BUILTIN_REGEXP */
JERRY_UNUSED (pattern_p);
JERRY_UNUSED (pattern_size);
JERRY_UNUSED (flags);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("RegExp is not supported")));
#endif /* JERRY_BUILTIN_REGEXP */
} /* jerry_create_regexp_sz */
/**
* Creates a new realm (global object).
*
* @return new realm object
*/
jerry_value_t
jerry_create_realm (void)
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_REALMS
ecma_global_object_t *global_object_p = ecma_builtin_create_global_object ();
return ecma_make_object_value ((ecma_object_t *) global_object_p);
#else /* !JERRY_BUILTIN_REALMS */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Realms are disabled")));
#endif /* JERRY_BUILTIN_REALMS */
} /* jerry_create_realm */
/**
* 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) /**< api value */
{
jerry_assert_api_available ();
if (!jerry_value_is_object (value))
{
return 0;
}
ecma_object_t *object_p = ecma_get_object_from_value (value);
if (JERRY_LIKELY (ecma_get_object_base_type (object_p) == ECMA_OBJECT_BASE_TYPE_ARRAY))
{
return ecma_array_get_length (object_p);
}
return 0;
} /* 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 UTF-8 encoded string size from Jerry string
*
* Note:
* Returns 0, if the value parameter is not a string.
*
* @return number of bytes in the buffer needed to represent the UTF-8 encoded string
*/
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_utf8_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 */
/**
* Get UTF-8 string length from 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_utf8_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_utf8_length (ecma_get_string_from_value (value));
} /* jerry_get_utf8_string_length */
/**
* Copy the characters of a string into a specified 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.
*
* Note:
* If the size of the string in jerry value is larger than the size of the
* target buffer, the copy will fail.
* To copy substring use jerry_substring_to_char_buffer() instead.
*
* @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_cesu8_buffer (str_p, (lit_utf8_byte_t *) buffer_p, buffer_size);
} /* jerry_string_to_char_buffer */
/**
* Copy the characters of an utf-8 encoded string into a specified buffer.
*
* Note:
* The '\0' character could occur anywhere in the returned string
* Returns 0, if the value parameter is not a string or the buffer
* is not large enough for the whole string.
*
* Note:
* If the size of the string in jerry value is larger than the size of the
* target buffer, the copy will fail.
* To copy a substring use jerry_substring_to_utf8_char_buffer() instead.
*
* @return number of bytes 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 (ecma_string_get_utf8_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_utf8_char_buffer */
/**
* Copy the characters of an cesu-8 encoded substring into a specified buffer.
*
* Note:
* The '\0' character could occur anywhere in the returned string
* Returns 0, if the value parameter is not a string.
* It will extract the substring beetween the specified start position
* and the end position (or the end of the string, whichever comes first).
*
* @return number of bytes copied to the buffer.
*/
jerry_size_t
jerry_substring_to_char_buffer (const jerry_value_t value, /**< input string value */
jerry_length_t start_pos, /**< position of the first character */
jerry_length_t end_pos, /**< position of the last character */
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);
return ecma_substring_copy_to_cesu8_buffer (str_p, start_pos, end_pos, (lit_utf8_byte_t *) buffer_p, buffer_size);
} /* jerry_substring_to_char_buffer */
/**
* Copy the characters of an utf-8 encoded substring into a specified buffer.
*
* Note:
* The '\0' character could occur anywhere in the returned string
* Returns 0, if the value parameter is not a string.
* It will extract the substring beetween the specified start position
* and the end position (or the end of the string, whichever comes first).
*
* @return number of bytes copied to the buffer.
*/
jerry_size_t
jerry_substring_to_utf8_char_buffer (const jerry_value_t value, /**< input string value */
jerry_length_t start_pos, /**< position of the first character */
jerry_length_t end_pos, /**< position of the last character */
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);
return ecma_substring_copy_to_utf8_buffer (str_p, start_pos, end_pos, (lit_utf8_byte_t *) buffer_p, buffer_size);
} /* jerry_substring_to_utf8_char_buffer */
/**
* Sets the global callback which is called when an external string is freed.
*/
void
jerry_string_set_external_free_callback (jerry_external_string_free_callback_t callback_p) /**< free callback */
{
JERRY_CONTEXT (external_string_free_callback_p) = callback_p;
} /* jerry_string_set_external_free_callback */
/**
* Returns the user pointer assigned to an external string.
*
* @return user pointer, if value is an external string
* NULL, otherwise
*/
void *
jerry_string_get_external_user_pointer (const jerry_value_t value, /**< string value */
bool *is_external) /**< [out] true - if value is an external string,
* false - otherwise */
{
if (is_external != NULL)
{
*is_external = false;
}
if (!ecma_is_value_string (value))
{
return NULL;
}
ecma_string_t *string_p = ecma_get_string_from_value (value);
if (ECMA_IS_DIRECT_STRING (string_p)
|| ECMA_STRING_GET_CONTAINER (string_p) != ECMA_STRING_CONTAINER_LONG_OR_EXTERNAL_STRING)
{
return NULL;
}
ecma_long_string_t *long_string_p = (ecma_long_string_t *) string_p;
if (long_string_p->string_p == ECMA_LONG_STRING_BUFFER_START (long_string_p))
{
return NULL;
}
if (is_external != NULL)
{
*is_external = true;
}
return ((ecma_external_string_t *) string_p)->user_p;
} /* jerry_string_get_external_user_pointer */
/**
* Checks whether the object or it's prototype objects have the given property.
*
* @return raised error - if the operation fail
* true/false API value - depend on whether the property exists
*/
jerry_value_t
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_prop_name (prop_name_val))
{
return ECMA_VALUE_FALSE;
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *prop_name_p = ecma_get_prop_name_from_value (prop_name_val);
return jerry_return (ecma_op_object_has_property (obj_p, prop_name_p));
} /* jerry_has_property */
/**
* Checks whether the object has the given property.
*
* @return ECMA_VALUE_ERROR - if the operation raises error
* ECMA_VALUE_{TRUE, FALSE} - based on whether the property exists
*/
jerry_value_t
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_prop_name (prop_name_val))
{
return ECMA_VALUE_FALSE;
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *prop_name_p = ecma_get_prop_name_from_value (prop_name_val);
#if JERRY_BUILTIN_PROXY
if (ECMA_OBJECT_IS_PROXY (obj_p))
{
ecma_property_descriptor_t prop_desc;
ecma_value_t status = ecma_proxy_object_get_own_property_descriptor (obj_p, prop_name_p, &prop_desc);
if (ecma_is_value_true (status))
{
ecma_free_property_descriptor (&prop_desc);
}
return jerry_return (status);
}
#endif /* JERRY_BUILTIN_PROXY */
#if JERRY_BUILTIN_TYPEDARRAY
return jerry_return (ecma_op_ordinary_object_has_own_property (obj_p, prop_name_p));
#else /* !JERRY_BUILTIN_TYPEDARRAY */
return ecma_op_ordinary_object_has_own_property (obj_p, prop_name_p);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_has_own_property */
/**
* Checks whether the object has the given internal property.
*
* @return true - if the internal property exists
* false - otherwise
*/
bool
jerry_has_internal_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val) || !ecma_is_value_prop_name (prop_name_val))
{
return false;
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *internal_string_p = ecma_get_magic_string (LIT_INTERNAL_MAGIC_API_INTERNAL);
if (ecma_op_object_is_fast_array (obj_p))
{
return false;
}
ecma_property_t *property_p = ecma_find_named_property (obj_p, internal_string_p);
if (property_p == NULL)
{
return false;
}
ecma_object_t *internal_object_p = ecma_get_object_from_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value);
property_p = ecma_find_named_property (internal_object_p, ecma_get_prop_name_from_value (prop_name_val));
return property_p != NULL;
} /* jerry_has_internal_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_prop_name (prop_name_val))
{
return false;
}
ecma_value_t ret_value =
ecma_op_object_delete (ecma_get_object_from_value (obj_val), ecma_get_prop_name_from_value (prop_name_val), false);
#if JERRY_BUILTIN_PROXY
if (ECMA_IS_VALUE_ERROR (ret_value))
{
// TODO: Due to Proxies the return value must be changed to jerry_value_t on next release
jcontext_release_exception ();
}
#endif /* JERRY_BUILTIN_PROXY */
return ecma_is_value_true (ret_value);
} /* jerry_delete_property */
/**
* Delete indexed property from the specified object.
*
* @return true - if property was deleted successfully
* false - otherwise
*/
bool
jerry_delete_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 false;
}
ecma_string_t *str_idx_p = ecma_new_ecma_string_from_uint32 (index);
ecma_value_t ret_value = ecma_op_object_delete (ecma_get_object_from_value (obj_val), str_idx_p, false);
ecma_deref_ecma_string (str_idx_p);
#if JERRY_BUILTIN_PROXY
if (ECMA_IS_VALUE_ERROR (ret_value))
{
// TODO: Due to Proxies the return value must be changed to jerry_value_t on next release
jcontext_release_exception ();
}
#endif /* JERRY_BUILTIN_PROXY */
return ecma_is_value_true (ret_value);
} /* jerry_delete_property_by_index */
/**
* Delete an internal property from an object.
*
* @return true - if property was deleted successfully
* false - otherwise
*/
bool
jerry_delete_internal_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val) || !ecma_is_value_prop_name (prop_name_val))
{
return false;
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *internal_string_p = ecma_get_magic_string (LIT_INTERNAL_MAGIC_API_INTERNAL);
if (ecma_op_object_is_fast_array (obj_p))
{
return true;
}
ecma_property_t *property_p = ecma_find_named_property (obj_p, internal_string_p);
if (property_p == NULL)
{
return true;
}
ecma_object_t *internal_object_p = ecma_get_object_from_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value);
property_p = ecma_find_named_property (internal_object_p, ecma_get_prop_name_from_value (prop_name_val));
if (property_p == NULL)
{
return true;
}
ecma_delete_property (internal_object_p, ECMA_PROPERTY_VALUE_PTR (property_p));
return true;
} /* jerry_delete_internal_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_prop_name (prop_name_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
jerry_value_t ret_value =
ecma_op_object_get (ecma_get_object_from_value (obj_val), ecma_get_prop_name_from_value (prop_name_val));
return jerry_return (ret_value);
} /* 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_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_value_t ret_value = ecma_op_object_get_by_index (ecma_get_object_from_value (obj_val), index);
return jerry_return (ret_value);
} /* jerry_get_property_by_index */
/**
* Get the own property value of an 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_own_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val, /**< property name (string value) */
const jerry_value_t receiver_val, /**< receiver object value */
bool *found_p) /**< [out] true, if the property is found
* or obj_val is a Proxy object, false otherwise */
{
jerry_assert_api_available ();
if (found_p != NULL)
{
*found_p = false;
}
if (!ecma_is_value_object (obj_val) || !ecma_is_value_prop_name (prop_name_val)
|| !ecma_is_value_object (receiver_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
ecma_string_t *property_name_p = ecma_get_prop_name_from_value (prop_name_val);
#if JERRY_BUILTIN_PROXY
if (ECMA_OBJECT_IS_PROXY (object_p))
{
if (found_p != NULL)
{
*found_p = true;
}
return jerry_return (ecma_proxy_object_get (object_p, property_name_p, receiver_val));
}
#endif /* JERRY_BUILTIN_PROXY */
ecma_value_t ret_value = ecma_op_object_find_own (receiver_val, object_p, property_name_p);
if (ecma_is_value_found (ret_value))
{
if (found_p != NULL)
{
*found_p = true;
}
return jerry_return (ret_value);
}
return ECMA_VALUE_UNDEFINED;
} /* jerry_get_own_property */
/**
* Get value of an internal 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 internal property - if the internal property exists
* undefined value - if the internal does not property exists
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_get_internal_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val) /**< property name value */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val) || !ecma_is_value_prop_name (prop_name_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *internal_string_p = ecma_get_magic_string (LIT_INTERNAL_MAGIC_API_INTERNAL);
if (ecma_op_object_is_fast_array (obj_p))
{
return jerry_return (ECMA_VALUE_UNDEFINED);
}
ecma_property_t *property_p = ecma_find_named_property (obj_p, internal_string_p);
if (property_p == NULL)
{
return jerry_return (ECMA_VALUE_UNDEFINED);
}
ecma_object_t *internal_object_p = ecma_get_object_from_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value);
property_p = ecma_find_named_property (internal_object_p, ecma_get_prop_name_from_value (prop_name_val));
if (property_p == NULL)
{
return jerry_return (ECMA_VALUE_UNDEFINED);
}
return jerry_return (ecma_copy_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value));
} /* jerry_get_internal_property */
/**
* 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_reference (value_to_set) || !ecma_is_value_object (obj_val)
|| !ecma_is_value_prop_name (prop_name_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
return jerry_return (ecma_op_object_put (ecma_get_object_from_value (obj_val),
ecma_get_prop_name_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_reference (value_to_set) || !ecma_is_value_object (obj_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_value_t ret_value =
ecma_op_object_put_by_index (ecma_get_object_from_value (obj_val), index, value_to_set, true);
return jerry_return (ret_value);
} /* jerry_set_property_by_index */
/**
* Set an internal property to the specified object with the given name.
*
* Note:
* - the property cannot be accessed from the JavaScript context, only from the public API
* - 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
*/
bool
jerry_set_internal_property (const jerry_value_t obj_val, /**< object value */
const jerry_value_t prop_name_val, /**< property name value */
const jerry_value_t value_to_set) /**< value to set */
{
jerry_assert_api_available ();
if (ecma_is_value_error_reference (value_to_set) || !ecma_is_value_object (obj_val)
|| !ecma_is_value_prop_name (prop_name_val))
{
return false;
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_string_t *internal_string_p = ecma_get_magic_string (LIT_INTERNAL_MAGIC_API_INTERNAL);
if (ecma_op_object_is_fast_array (obj_p))
{
ecma_fast_array_convert_to_normal (obj_p);
}
ecma_property_t *property_p = ecma_find_named_property (obj_p, internal_string_p);
ecma_object_t *internal_object_p;
if (property_p == NULL)
{
ecma_property_value_t *value_p =
ecma_create_named_data_property (obj_p, internal_string_p, ECMA_PROPERTY_CONFIGURABLE_ENUMERABLE_WRITABLE, NULL);
internal_object_p = ecma_create_object (NULL, sizeof (ecma_extended_object_t), ECMA_OBJECT_TYPE_CLASS);
{
ecma_extended_object_t *container_p = (ecma_extended_object_t *) internal_object_p;
container_p->u.cls.type = ECMA_OBJECT_CLASS_INTERNAL_OBJECT;
}
value_p->value = ecma_make_object_value (internal_object_p);
ecma_deref_object (internal_object_p);
}
else
{
internal_object_p = ecma_get_object_from_value (ECMA_PROPERTY_VALUE_PTR (property_p)->value);
}
ecma_string_t *prop_name_p = ecma_get_prop_name_from_value (prop_name_val);
property_p = ecma_find_named_property (internal_object_p, prop_name_p);
if (property_p == NULL)
{
ecma_property_value_t *value_p = ecma_create_named_data_property (internal_object_p,
prop_name_p,
ECMA_PROPERTY_CONFIGURABLE_ENUMERABLE_WRITABLE,
NULL);
value_p->value = ecma_copy_value_if_not_object (value_to_set);
}
else
{
ecma_named_data_property_assign_value (internal_object_p, ECMA_PROPERTY_VALUE_PTR (property_p), value_to_set);
}
return true;
} /* jerry_set_internal_property */
/**
* Construct empty property descriptor, i.e.:
* property descriptor with all is_defined flags set to false and the rest - to default value.
*
* @return empty property descriptor
*/
jerry_property_descriptor_t
jerry_property_descriptor_create (void)
{
jerry_property_descriptor_t prop_desc;
prop_desc.flags = JERRY_PROP_NO_OPTS;
prop_desc.value = ECMA_VALUE_UNDEFINED;
prop_desc.getter = ECMA_VALUE_UNDEFINED;
prop_desc.setter = ECMA_VALUE_UNDEFINED;
return prop_desc;
} /* jerry_property_descriptor_create */
/**
* Convert a ecma_property_descriptor_t to a jerry_property_descriptor_t
*
* if error occurs the property descriptor's value field is filled with ECMA_VALUE_ERROR
*
* @return jerry_property_descriptor_t
*/
static jerry_property_descriptor_t
jerry_property_descriptor_from_ecma (const ecma_property_descriptor_t *prop_desc_p) /**<[out] property_descriptor */
{
jerry_property_descriptor_t prop_desc = jerry_property_descriptor_create ();
prop_desc.flags = prop_desc_p->flags;
if (prop_desc.flags & (JERRY_PROP_IS_VALUE_DEFINED))
{
prop_desc.value = prop_desc_p->value;
}
if (prop_desc_p->flags & JERRY_PROP_IS_GET_DEFINED)
{
prop_desc.getter = ECMA_VALUE_NULL;
if (prop_desc_p->get_p != NULL)
{
prop_desc.getter = ecma_make_object_value (prop_desc_p->get_p);
JERRY_ASSERT (ecma_op_is_callable (prop_desc.getter));
}
}
if (prop_desc_p->flags & JERRY_PROP_IS_SET_DEFINED)
{
prop_desc.setter = ECMA_VALUE_NULL;
if (prop_desc_p->set_p != NULL)
{
prop_desc.setter = ecma_make_object_value (prop_desc_p->set_p);
JERRY_ASSERT (ecma_op_is_callable (prop_desc.setter));
}
}
return prop_desc;
} /* jerry_property_descriptor_from_ecma */
/**
* Convert a jerry_property_descriptor_t to a ecma_property_descriptor_t
*
* Note:
* if error occurs the property descriptor's value field
* is set to ECMA_VALUE_ERROR, but no error is thrown
*
* @return ecma_property_descriptor_t
*/
static ecma_property_descriptor_t
jerry_property_descriptor_to_ecma (const jerry_property_descriptor_t *prop_desc_p) /**< input property_descriptor */
{
ecma_property_descriptor_t prop_desc = ecma_make_empty_property_descriptor ();
prop_desc.flags = prop_desc_p->flags;
/* Copy data property info. */
if (prop_desc_p->flags & JERRY_PROP_IS_VALUE_DEFINED)
{
if (ecma_is_value_error_reference (prop_desc_p->value)
|| (prop_desc_p->flags & (JERRY_PROP_IS_GET_DEFINED | JERRY_PROP_IS_SET_DEFINED)))
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
prop_desc.value = prop_desc_p->value;
}
/* Copy accessor property info. */
if (prop_desc_p->flags & JERRY_PROP_IS_GET_DEFINED)
{
ecma_value_t getter = prop_desc_p->getter;
if (ecma_is_value_error_reference (getter))
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
if (ecma_op_is_callable (getter))
{
prop_desc.get_p = ecma_get_object_from_value (getter);
}
else if (!ecma_is_value_null (getter))
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
}
if (prop_desc_p->flags & JERRY_PROP_IS_SET_DEFINED)
{
ecma_value_t setter = prop_desc_p->setter;
if (ecma_is_value_error_reference (setter))
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
if (ecma_op_is_callable (setter))
{
prop_desc.set_p = ecma_get_object_from_value (setter);
}
else if (!ecma_is_value_null (setter))
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
}
const uint16_t configurable_mask = JERRY_PROP_IS_CONFIGURABLE | JERRY_PROP_IS_CONFIGURABLE_DEFINED;
const uint16_t enumerable_mask = JERRY_PROP_IS_ENUMERABLE | JERRY_PROP_IS_ENUMERABLE_DEFINED;
const uint16_t writable_mask = JERRY_PROP_IS_WRITABLE | JERRY_PROP_IS_WRITABLE_DEFINED;
if ((prop_desc_p->flags & configurable_mask) == JERRY_PROP_IS_CONFIGURABLE
|| (prop_desc_p->flags & enumerable_mask) == JERRY_PROP_IS_ENUMERABLE
|| (prop_desc_p->flags & writable_mask) == JERRY_PROP_IS_WRITABLE)
{
prop_desc.value = ECMA_VALUE_ERROR;
return prop_desc;
}
prop_desc.flags |= (uint16_t) (prop_desc_p->flags | JERRY_PROP_SHOULD_THROW);
return prop_desc;
} /* jerry_property_descriptor_to_ecma */
/** Helper function to return false value or error depending on the given flag.
*
* @return value marked with error flag - if is_throw is true
* false value - otherwise
*/
static jerry_value_t
jerry_type_error_or_false (const char *msg_p, /**< message */
uint16_t flags) /**< property descriptor flags */
{
if (!(flags & JERRY_PROP_SHOULD_THROW))
{
return ECMA_VALUE_FALSE;
}
return jerry_throw (ecma_raise_type_error (msg_p));
} /* jerry_type_error_or_false */
/**
* 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
* false value - if the property cannot be defined and JERRY_PROP_SHOULD_THROW is not set
* 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_prop_name (prop_name_val))
{
return jerry_type_error_or_false (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p), prop_desc_p->flags);
}
if (prop_desc_p->flags & (JERRY_PROP_IS_WRITABLE_DEFINED | JERRY_PROP_IS_VALUE_DEFINED)
&& prop_desc_p->flags & (JERRY_PROP_IS_GET_DEFINED | JERRY_PROP_IS_SET_DEFINED))
{
return jerry_type_error_or_false (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p), prop_desc_p->flags);
}
ecma_property_descriptor_t prop_desc = jerry_property_descriptor_to_ecma (prop_desc_p);
if (ECMA_IS_VALUE_ERROR (prop_desc.value))
{
return jerry_type_error_or_false (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p), prop_desc_p->flags);
}
return jerry_return (ecma_op_object_define_own_property (ecma_get_object_from_value (obj_val),
ecma_get_prop_name_from_value (prop_name_val),
&prop_desc));
} /* 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
*/
jerry_value_t
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_prop_name (prop_name_val))
{
return ECMA_VALUE_FALSE;
}
ecma_property_descriptor_t prop_desc;
ecma_value_t status = ecma_op_object_get_own_property_descriptor (ecma_get_object_from_value (obj_val),
ecma_get_prop_name_from_value (prop_name_val),
&prop_desc);
#if JERRY_BUILTIN_PROXY
if (ECMA_IS_VALUE_ERROR (status))
{
return jerry_throw (status);
}
#endif /* JERRY_BUILTIN_PROXY */
if (!ecma_is_value_true (status))
{
return ECMA_VALUE_FALSE;
}
/* The flags are always filled in the returned descriptor. */
JERRY_ASSERT (
(prop_desc.flags & JERRY_PROP_IS_CONFIGURABLE_DEFINED) && (prop_desc.flags & JERRY_PROP_IS_ENUMERABLE_DEFINED)
&& ((prop_desc.flags & JERRY_PROP_IS_WRITABLE_DEFINED) || !(prop_desc.flags & JERRY_PROP_IS_VALUE_DEFINED)));
prop_desc_p->flags = prop_desc.flags;
prop_desc_p->value = ECMA_VALUE_UNDEFINED;
prop_desc_p->getter = ECMA_VALUE_UNDEFINED;
prop_desc_p->setter = ECMA_VALUE_UNDEFINED;
if (prop_desc_p->flags & JERRY_PROP_IS_VALUE_DEFINED)
{
prop_desc_p->value = prop_desc.value;
}
if (prop_desc_p->flags & JERRY_PROP_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_VALUE_NULL;
}
}
if (prop_desc_p->flags & JERRY_PROP_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_VALUE_NULL;
}
}
return ECMA_VALUE_TRUE;
} /* jerry_get_own_property_descriptor */
/**
* Free fields of property descriptor (setter, getter and value).
*/
void
jerry_property_descriptor_free (const jerry_property_descriptor_t *prop_desc_p) /**< property descriptor */
{
if (prop_desc_p->flags & JERRY_PROP_IS_VALUE_DEFINED)
{
jerry_release_value (prop_desc_p->value);
}
if (prop_desc_p->flags & JERRY_PROP_IS_GET_DEFINED)
{
jerry_release_value (prop_desc_p->getter);
}
if (prop_desc_p->flags & JERRY_PROP_IS_SET_DEFINED)
{
jerry_release_value (prop_desc_p->setter);
}
} /* jerry_property_descriptor_free */
/**
* 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 (ecma_is_value_error_reference (this_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
for (jerry_size_t i = 0; i < args_count; i++)
{
if (ecma_is_value_error_reference (args_p[i]))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
}
return jerry_return (ecma_op_function_validated_call (func_obj_val, this_val, args_p, args_count));
} /* 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))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
for (jerry_size_t i = 0; i < args_count; i++)
{
if (ecma_is_value_error_reference (args_p[i]))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
}
return jerry_return (ecma_op_function_construct (ecma_get_object_from_value (func_obj_val),
ecma_get_object_from_value (func_obj_val),
args_p,
args_count));
} /* 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 jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_collection_t *prop_names =
ecma_op_object_get_enumerable_property_names (ecma_get_object_from_value (obj_val), ECMA_ENUMERABLE_PROPERTY_KEYS);
#if JERRY_BUILTIN_PROXY
if (JERRY_UNLIKELY (prop_names == NULL))
{
return ECMA_VALUE_ERROR;
}
#endif /* JERRY_BUILTIN_PROXY */
return ecma_op_new_array_object_from_collection (prop_names, false);
} /* jerry_get_object_keys */
/**
* Get the prototype of the specified object
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @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 jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
#if JERRY_BUILTIN_PROXY
if (ECMA_OBJECT_IS_PROXY (obj_p))
{
return jerry_return (ecma_proxy_object_get_prototype_of (obj_p));
}
#endif /* JERRY_BUILTIN_PROXY */
if (obj_p->u2.prototype_cp == JMEM_CP_NULL)
{
return ECMA_VALUE_NULL;
}
ecma_object_t *proto_obj_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, obj_p->u2.prototype_cp);
ecma_ref_object (proto_obj_p);
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_reference (proto_obj_val)
|| (!ecma_is_value_object (proto_obj_val) && !ecma_is_value_null (proto_obj_val)))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
#if JERRY_BUILTIN_PROXY
if (ECMA_OBJECT_IS_PROXY (obj_p))
{
return jerry_return (ecma_proxy_object_set_prototype_of (obj_p, proto_obj_val));
}
#endif /* JERRY_BUILTIN_PROXY */
return ecma_op_ordinary_object_set_prototype_of (obj_p, proto_obj_val);
} /* jerry_set_prototype */
/**
* Utility to check if a given object can be used for the foreach api calls.
*
* Some objects/classes uses extra internal objects to correctly store data.
* These extre object should never be exposed externally to the API user.
*
* @returns true - if the user can access the object in the callback.
* false - if the object is an internal object which should no be accessed by the user.
*/
static bool
jerry_object_is_valid_foreach (ecma_object_t *object_p) /**< object to test */
{
if (ecma_is_lexical_environment (object_p))
{
return false;
}
ecma_object_type_t object_type = ecma_get_object_type (object_p);
if (object_type == ECMA_OBJECT_TYPE_CLASS)
{
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
switch (ext_object_p->u.cls.type)
{
/* An object's internal property object should not be iterable by foreach. */
case ECMA_OBJECT_CLASS_INTERNAL_OBJECT:
{
return false;
}
}
}
return true;
} /* jerry_object_is_valid_foreach */
/**
* Traverse objects.
*
* @return true - traversal was interrupted by the callback.
* false - otherwise - traversal visited all objects.
*/
bool
jerry_objects_foreach (jerry_objects_foreach_t foreach_p, /**< function pointer of the iterator function */
void *user_data_p) /**< pointer to user data */
{
jerry_assert_api_available ();
JERRY_ASSERT (foreach_p != NULL);
jmem_cpointer_t iter_cp = JERRY_CONTEXT (ecma_gc_objects_cp);
while (iter_cp != JMEM_CP_NULL)
{
ecma_object_t *iter_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, iter_cp);
if (jerry_object_is_valid_foreach (iter_p) && !foreach_p (ecma_make_object_value (iter_p), user_data_p))
{
return true;
}
iter_cp = iter_p->gc_next_cp;
}
return false;
} /* jerry_objects_foreach */
/**
* Traverse objects having a given native type info.
*
* @return true - traversal was interrupted by the callback.
* false - otherwise - traversal visited all objects.
*/
bool
jerry_objects_foreach_by_native_info (const jerry_object_native_info_t *native_info_p, /**< the type info
* of the native pointer */
jerry_objects_foreach_by_native_info_t foreach_p, /**< function to apply for
* each matching object */
void *user_data_p) /**< pointer to user data */
{
jerry_assert_api_available ();
JERRY_ASSERT (native_info_p != NULL);
JERRY_ASSERT (foreach_p != NULL);
ecma_native_pointer_t *native_pointer_p;
jmem_cpointer_t iter_cp = JERRY_CONTEXT (ecma_gc_objects_cp);
while (iter_cp != JMEM_CP_NULL)
{
ecma_object_t *iter_p = ECMA_GET_NON_NULL_POINTER (ecma_object_t, iter_cp);
if (jerry_object_is_valid_foreach (iter_p))
{
native_pointer_p = ecma_get_native_pointer_value (iter_p, (void *) native_info_p);
if (native_pointer_p && !foreach_p (ecma_make_object_value (iter_p), native_pointer_p->native_p, user_data_p))
{
return true;
}
}
iter_cp = iter_p->gc_next_cp;
}
return false;
} /* jerry_objects_foreach_by_native_info */
/**
* Get native pointer and its type information, associated with the given native type info.
*
* Note:
* If native pointer is present, its type information is returned in out_native_pointer_p
*
* @return true - if there is an associated pointer,
* false - otherwise
*/
bool
jerry_get_object_native_pointer (const jerry_value_t obj_val, /**< object to get native pointer from */
void **out_native_pointer_p, /**< [out] native pointer */
const jerry_object_native_info_t *native_info_p) /**< the type info
* of the native pointer */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val))
{
return false;
}
ecma_native_pointer_t *native_pointer_p;
native_pointer_p = ecma_get_native_pointer_value (ecma_get_object_from_value (obj_val), (void *) native_info_p);
if (native_pointer_p == NULL)
{
return false;
}
if (out_native_pointer_p != NULL)
{
*out_native_pointer_p = native_pointer_p->native_p;
}
return true;
} /* jerry_get_object_native_pointer */
/**
* Set native pointer and an optional type info for the specified object.
*
*
* Note:
* If native pointer was already set for the object, its value is updated.
*
* Note:
* If a non-NULL free callback is specified in the native type info,
* it will be called by the garbage collector when the object is freed.
* Referred values by this method must have at least 1 reference. (Correct API usage satisfies this condition)
* The type info always overwrites the previous value, so passing
* a NULL value deletes the current type info.
*/
void
jerry_set_object_native_pointer (const jerry_value_t obj_val, /**< object to set native pointer in */
void *native_pointer_p, /**< native pointer */
const jerry_object_native_info_t *native_info_p) /**< object's native type info */
{
jerry_assert_api_available ();
if (ecma_is_value_object (obj_val))
{
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
ecma_create_native_pointer_property (object_p, native_pointer_p, native_info_p);
}
} /* jerry_set_object_native_pointer */
/**
* Delete the previously set native pointer by the native type info from the specified object.
*
* Note:
* If the specified object has no matching native pointer for the given native type info
* the function has no effect.
*
* Note:
* This operation cannot throw an exception.
*
* @return true - if the native pointer has been deleted succesfully
* false - otherwise
*/
bool
jerry_delete_object_native_pointer (const jerry_value_t obj_val, /**< object to delete native pointer from */
const jerry_object_native_info_t *native_info_p) /**< object's native type info */
{
jerry_assert_api_available ();
if (ecma_is_value_object (obj_val))
{
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
return ecma_delete_native_pointer_property (object_p, (void *) native_info_p);
}
return false;
} /* jerry_delete_object_native_pointer */
/**
* Initialize the references stored in a buffer pointed by a native pointer.
* The references are initialized to undefined.
*/
void
jerry_native_pointer_init_references (void *native_pointer_p, /**< a valid non-NULL pointer to a native buffer */
const jerry_object_native_info_t *native_info_p) /**< the type info of
* the native pointer */
{
jerry_assert_api_available ();
if (native_pointer_p == NULL || native_info_p == NULL)
{
return;
}
ecma_value_t *value_p = (ecma_value_t *) (((uint8_t *) native_pointer_p) + native_info_p->offset_of_references);
ecma_value_t *end_p = value_p + native_info_p->number_of_references;
while (value_p < end_p)
{
*value_p++ = ECMA_VALUE_UNDEFINED;
}
} /* jerry_native_pointer_init_references */
/**
* Release the value references after a buffer pointed by a native pointer
* is not attached to an object anymore. All references are set to undefined
* similar to jerry_native_pointer_init_references.
*/
void
jerry_native_pointer_release_references (void *native_pointer_p, /**< a valid non-NULL pointer to a native buffer */
const jerry_object_native_info_t *native_info_p) /**< the type info of
* the native pointer */
{
jerry_assert_api_available ();
if (native_pointer_p == NULL || native_info_p == NULL)
{
return;
}
ecma_value_t *value_p = (ecma_value_t *) (((uint8_t *) native_pointer_p) + native_info_p->offset_of_references);
ecma_value_t *end_p = value_p + native_info_p->number_of_references;
while (value_p < end_p)
{
ecma_free_value_if_not_object (*value_p);
*value_p++ = ECMA_VALUE_UNDEFINED;
}
} /* jerry_native_pointer_release_references */
/**
* Updates a value reference inside the area specified by the number_of_references and
* offset_of_references fields in its corresponding jerry_object_native_info_t data.
* The area must be part of a buffer which is currently assigned to an object.
*
* Note:
* Error references are not supported, they are replaced by undefined values.
*/
void
jerry_native_pointer_set_reference (jerry_value_t *reference_p, /**< a valid non-NULL pointer to
* a reference in a native buffer. */
jerry_value_t value) /**< new value of the reference */
{
jerry_assert_api_available ();
if (reference_p == NULL)
{
return;
}
if (ecma_is_value_error_reference (value))
{
value = ECMA_VALUE_UNDEFINED;
}
ecma_free_value_if_not_object (*reference_p);
*reference_p = ecma_copy_value_if_not_object (value);
} /* jerry_native_pointer_set_reference */
/**
* 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 ();
if (!ecma_is_value_object (obj_val))
{
return false;
}
ecma_object_t *object_p = ecma_get_object_from_value (obj_val);
ecma_collection_t *names_p = ecma_op_object_enumerate (object_p);
#if JERRY_BUILTIN_PROXY
if (names_p == NULL)
{
// TODO: Due to Proxies the return value must be changed to jerry_value_t on next release
jcontext_release_exception ();
return false;
}
#endif /* JERRY_BUILTIN_PROXY */
ecma_value_t *buffer_p = names_p->buffer_p;
ecma_value_t property_value = ECMA_VALUE_EMPTY;
bool continuous = true;
for (uint32_t i = 0; continuous && (i < names_p->item_count); i++)
{
ecma_string_t *property_name_p = ecma_get_string_from_value (buffer_p[i]);
property_value = ecma_op_object_get (object_p, property_name_p);
if (ECMA_IS_VALUE_ERROR (property_value))
{
break;
}
continuous = foreach_p (buffer_p[i], property_value, user_data_p);
ecma_free_value (property_value);
}
ecma_collection_free (names_p);
if (!ECMA_IS_VALUE_ERROR (property_value))
{
return true;
}
jcontext_release_exception ();
return false;
} /* jerry_foreach_object_property */
/**
* Gets the property keys for the given object using the selected filters.
*
* @return array containing the filtered property keys in successful operation
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_object_get_property_names (const jerry_value_t obj_val, /**< object */
jerry_property_filter_t filter) /**< property filter options */
{
jerry_assert_api_available ();
if (!ecma_is_value_object (obj_val))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *obj_p = ecma_get_object_from_value (obj_val);
ecma_object_t *obj_iter_p = obj_p;
ecma_collection_t *result_p = ecma_new_collection ();
ecma_ref_object (obj_iter_p);
while (true)
{
/* Step 1. Get Object.[[OwnKeys]] */
ecma_collection_t *prop_names_p = ecma_op_object_own_property_keys (obj_iter_p, filter);
#if JERRY_BUILTIN_PROXY
if (prop_names_p == NULL)
{
ecma_deref_object (obj_iter_p);
return jerry_throw (ECMA_VALUE_ERROR);
}
#endif /* JERRY_BUILTIN_PROXY */
for (uint32_t i = 0; i < prop_names_p->item_count; i++)
{
ecma_value_t key = prop_names_p->buffer_p[i];
ecma_string_t *key_p = ecma_get_prop_name_from_value (key);
uint32_t index = ecma_string_get_array_index (key_p);
/* Step 2. Filter by key type */
if (filter
& (JERRY_PROPERTY_FILTER_EXCLUDE_STRINGS | JERRY_PROPERTY_FILTER_EXCLUDE_SYMBOLS
| JERRY_PROPERTY_FILTER_EXCLUDE_INTEGER_INDICES))
{
if (ecma_is_value_symbol (key))
{
if (filter & JERRY_PROPERTY_FILTER_EXCLUDE_SYMBOLS)
{
continue;
}
}
else if (index != ECMA_STRING_NOT_ARRAY_INDEX)
{
if ((filter & JERRY_PROPERTY_FILTER_EXCLUDE_INTEGER_INDICES)
|| ((filter & JERRY_PROPERTY_FILTER_EXCLUDE_STRINGS)
&& !(filter & JERRY_PROPERTY_FILTER_INTEGER_INDICES_AS_NUMBER)))
{
continue;
}
}
else if (filter & JERRY_PROPERTY_FILTER_EXCLUDE_STRINGS)
{
continue;
}
}
/* Step 3. Filter property attributes */
if (filter
& (JERRY_PROPERTY_FILTER_EXCLUDE_NON_CONFIGURABLE | JERRY_PROPERTY_FILTER_EXCLUDE_NON_ENUMERABLE
| JERRY_PROPERTY_FILTER_EXCLUDE_NON_WRITABLE))
{
ecma_property_descriptor_t prop_desc;
ecma_value_t status = ecma_op_object_get_own_property_descriptor (obj_iter_p, key_p, &prop_desc);
#if JERRY_BUILTIN_PROXY
if (ECMA_IS_VALUE_ERROR (status))
{
ecma_collection_free (prop_names_p);
ecma_collection_free (result_p);
ecma_deref_object (obj_iter_p);
return jerry_throw (ECMA_VALUE_ERROR);
}
#endif /* JERRY_BUILTIN_PROXY */
JERRY_ASSERT (ecma_is_value_true (status));
uint16_t flags = prop_desc.flags;
ecma_free_property_descriptor (&prop_desc);
if ((!(flags & JERRY_PROP_IS_CONFIGURABLE) && (filter & JERRY_PROPERTY_FILTER_EXCLUDE_NON_CONFIGURABLE))
|| (!(flags & JERRY_PROP_IS_ENUMERABLE) && (filter & JERRY_PROPERTY_FILTER_EXCLUDE_NON_ENUMERABLE))
|| (!(flags & JERRY_PROP_IS_WRITABLE) && (filter & JERRY_PROPERTY_FILTER_EXCLUDE_NON_WRITABLE)))
{
continue;
}
}
if (index != ECMA_STRING_NOT_ARRAY_INDEX && (filter & JERRY_PROPERTY_FILTER_INTEGER_INDICES_AS_NUMBER))
{
ecma_deref_ecma_string (key_p);
key = ecma_make_uint32_value (index);
}
else
{
ecma_ref_ecma_string (key_p);
}
if ((filter & JERRY_PROPERTY_FILTER_TRAVERSE_PROTOTYPE_CHAIN) && obj_iter_p != obj_p)
{
uint32_t duplicate_idx = 0;
while (duplicate_idx < result_p->item_count)
{
ecma_value_t value = result_p->buffer_p[duplicate_idx];
JERRY_ASSERT (ecma_is_value_prop_name (value) || ecma_is_value_number (value));
if (JERRY_UNLIKELY (ecma_is_value_number (value)))
{
if (ecma_get_number_from_value (value) == ecma_get_number_from_value (key))
{
break;
}
}
else if (ecma_compare_ecma_strings (ecma_get_prop_name_from_value (value), key_p))
{
break;
}
duplicate_idx++;
}
if (duplicate_idx == result_p->item_count)
{
ecma_collection_push_back (result_p, key);
}
}
else
{
ecma_collection_push_back (result_p, key);
}
}
ecma_collection_free (prop_names_p);
/* Step 4: Traverse prototype chain */
if ((filter & JERRY_PROPERTY_FILTER_TRAVERSE_PROTOTYPE_CHAIN) != JERRY_PROPERTY_FILTER_TRAVERSE_PROTOTYPE_CHAIN)
{
break;
}
ecma_object_t *proto_p = ecma_op_object_get_prototype_of (obj_iter_p);
if (proto_p == NULL)
{
break;
}
ecma_deref_object (obj_iter_p);
if (JERRY_UNLIKELY (proto_p == ECMA_OBJECT_POINTER_ERROR))
{
ecma_collection_free (result_p);
return jerry_throw (ECMA_VALUE_ERROR);
}
obj_iter_p = proto_p;
}
ecma_deref_object (obj_iter_p);
return ecma_op_new_array_object_from_collection (result_p, false);
} /* jerry_object_get_property_names */
/**
* FromPropertyDescriptor abstract operation.
*
* @return new jerry_value_t - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_from_property_descriptor (const jerry_property_descriptor_t *src_prop_desc_p) /**< property descriptor */
{
jerry_assert_api_available ();
ecma_property_descriptor_t prop_desc = jerry_property_descriptor_to_ecma (src_prop_desc_p);
if (ECMA_IS_VALUE_ERROR (prop_desc.value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_object_t *desc_obj_p = ecma_op_from_property_descriptor (&prop_desc);
return ecma_make_object_value (desc_obj_p);
} /* jerry_from_property_descriptor */
/**
* ToPropertyDescriptor abstract operation.
*
* @return true - if the conversion is successful
* thrown error - otherwise
*/
jerry_value_t
jerry_to_property_descriptor (jerry_value_t obj_value, /**< object value */
jerry_property_descriptor_t *out_prop_desc_p) /**< [out] filled property descriptor
* if return value is true,
* unmodified otherwise */
{
jerry_assert_api_available ();
ecma_property_descriptor_t prop_desc;
jerry_value_t result = ecma_op_to_property_descriptor (obj_value, &prop_desc);
if (ECMA_IS_VALUE_ERROR (result))
{
return jerry_throw (result);
}
JERRY_ASSERT (result == ECMA_VALUE_EMPTY);
*out_prop_desc_p = jerry_property_descriptor_from_ecma (&prop_desc);
return ECMA_VALUE_TRUE;
} /* jerry_to_property_descriptor */
/**
* Resolve or reject the promise with an argument.
*
* @return undefined value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_resolve_or_reject_promise (jerry_value_t promise, /**< the promise value */
jerry_value_t argument, /**< the argument */
bool is_resolve) /**< whether the promise should be resolved or rejected */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (!ecma_is_value_object (promise) || !ecma_is_promise (ecma_get_object_from_value (promise)))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
if (ecma_is_value_error_reference (argument))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
if (is_resolve)
{
return ecma_fulfill_promise_with_checks (promise, argument);
}
return ecma_reject_promise_with_checks (promise, argument);
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (promise);
JERRY_UNUSED (argument);
JERRY_UNUSED (is_resolve);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_promise_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_resolve_or_reject_promise */
/**
* Get the result of a promise.
*
* @return - Promise result
* - Type error if the promise support was not enabled or the input was not a promise object
*/
jerry_value_t
jerry_get_promise_result (const jerry_value_t promise) /**< promise object to get the result from */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (!jerry_value_is_promise (promise))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
return ecma_promise_get_result (ecma_get_object_from_value (promise));
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (promise);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_promise_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_get_promise_result */
/**
* Get the state of a promise object.
*
* @return - the state of the promise (one of the jerry_promise_state_t enum values)
* - JERRY_PROMISE_STATE_NONE is only returned if the input is not a promise object
* or the promise support was not enabled.
*/
jerry_promise_state_t
jerry_get_promise_state (const jerry_value_t promise) /**< promise object to get the state from */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (!jerry_value_is_promise (promise))
{
return JERRY_PROMISE_STATE_NONE;
}
uint16_t flags = ecma_promise_get_flags (ecma_get_object_from_value (promise));
flags &= (ECMA_PROMISE_IS_PENDING | ECMA_PROMISE_IS_FULFILLED);
return (flags ? flags : JERRY_PROMISE_STATE_REJECTED);
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (promise);
return JERRY_PROMISE_STATE_NONE;
#endif /* JERRY_ESNEXT */
} /* jerry_get_promise_state */
/**
* Sets a callback for tracking Promise and async operations.
*
* Note:
* the previous callback is overwritten
*/
void
jerry_promise_set_callback (jerry_promise_event_filter_t filters, /**< combination of event filters */
jerry_promise_callback_t callback, /**< notification callback */
void *user_p) /**< user pointer passed to the callback */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT && JERRY_PROMISE_CALLBACK
if (filters == JERRY_PROMISE_EVENT_FILTER_DISABLE || callback == NULL)
{
JERRY_CONTEXT (promise_callback_filters) = JERRY_PROMISE_EVENT_FILTER_DISABLE;
return;
}
JERRY_CONTEXT (promise_callback_filters) = (uint32_t) filters;
JERRY_CONTEXT (promise_callback) = callback;
JERRY_CONTEXT (promise_callback_user_p) = user_p;
#else /* !JERRY_ESNEXT && !JERRY_PROMISE_CALLBACK */
JERRY_UNUSED (filters);
JERRY_UNUSED (callback);
JERRY_UNUSED (user_p);
#endif /* JERRY_ESNEXT && JERRY_PROMISE_CALLBACK */
} /* jerry_promise_set_callback */
/**
* Get the well-knwon symbol represented by the given `symbol` enum value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return undefined value - if invalid well-known symbol was requested
* well-known symbol value - otherwise
*/
jerry_value_t
jerry_get_well_known_symbol (jerry_well_known_symbol_t symbol) /**< jerry_well_known_symbol_t enum value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
lit_magic_string_id_t id = (lit_magic_string_id_t) (LIT_GLOBAL_SYMBOL__FIRST + symbol);
if (!LIT_IS_GLOBAL_SYMBOL (id))
{
return ECMA_VALUE_UNDEFINED;
}
return ecma_make_symbol_value (ecma_op_get_global_symbol (id));
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (symbol);
return ECMA_VALUE_UNDEFINED;
#endif /* JERRY_ESNEXT */
} /* jerry_get_well_known_symbol */
/**
* Returns the description internal property of a symbol.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return string or undefined value containing the symbol's description - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_get_symbol_description (const jerry_value_t symbol) /**< symbol value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (!ecma_is_value_symbol (symbol))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
/* Note: This operation cannot throw an error */
return ecma_copy_value (ecma_get_symbol_description (ecma_get_symbol_from_value (symbol)));
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (symbol);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_symbol_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_get_symbol_description */
/**
* Call the SymbolDescriptiveString ecma builtin operation on the symbol value.
*
* Note:
* returned value must be freed with jerry_release_value, when it is no longer needed.
*
* @return string value containing the symbol's descriptive string - if success
* thrown error - otherwise
*/
jerry_value_t
jerry_get_symbol_descriptive_string (const jerry_value_t symbol) /**< symbol value */
{
jerry_assert_api_available ();
#if JERRY_ESNEXT
if (!ecma_is_value_symbol (symbol))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
/* Note: This operation cannot throw an error */
return ecma_get_symbol_descriptive_string (symbol);
#else /* !JERRY_ESNEXT */
JERRY_UNUSED (symbol);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_symbol_not_supported_p)));
#endif /* JERRY_ESNEXT */
} /* jerry_get_symbol_descriptive_string */
/**
* Get the number of uint64 digits of a BigInt value
*
* @return number of uint64 digits
*/
uint32_t
jerry_get_bigint_size_in_digits (jerry_value_t value) /**< BigInt value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_BIGINT
if (!ecma_is_value_bigint (value))
{
return 0;
}
return ecma_bigint_get_size_in_digits (value);
#else /* !JERRY_BUILTIN_BIGINT */
JERRY_UNUSED (value);
return 0;
#endif /* JERRY_BUILTIN_BIGINT */
} /* jerry_get_bigint_size_in_digits */
/**
* Get the uint64 digits of a BigInt value (lowest digit first)
*/
void
jerry_get_bigint_digits (jerry_value_t value, /**< BigInt value */
uint64_t *digits_p, /**< [out] buffer for digits */
uint32_t size, /**< buffer size in digits */
bool *sign_p) /**< [out] sign of BigInt */
{
#if JERRY_BUILTIN_BIGINT
if (!ecma_is_value_bigint (value))
{
if (sign_p != NULL)
{
*sign_p = false;
}
memset (digits_p, 0, size * sizeof (uint64_t));
}
ecma_bigint_get_digits_and_sign (value, digits_p, size, sign_p);
#else /* !JERRY_BUILTIN_BIGINT */
JERRY_UNUSED (value);
if (sign_p != NULL)
{
*sign_p = false;
}
memset (digits_p, 0, size * sizeof (uint64_t));
#endif /* JERRY_BUILTIN_BIGINT */
} /* jerry_get_bigint_digits */
/**
* Get the target object of a Proxy object
*
* @return type error - if proxy_value is not a Proxy object
* target object - otherwise
*/
jerry_value_t
jerry_get_proxy_target (jerry_value_t proxy_value) /**< proxy value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_PROXY
if (ecma_is_value_object (proxy_value))
{
ecma_object_t *object_p = ecma_get_object_from_value (proxy_value);
if (ECMA_OBJECT_IS_PROXY (object_p))
{
ecma_proxy_object_t *proxy_object_p = (ecma_proxy_object_t *) object_p;
if (!ecma_is_value_null (proxy_object_p->target))
{
ecma_ref_object (ecma_get_object_from_value (proxy_object_p->target));
}
return proxy_object_p->target;
}
}
#else /* !JERRY_BUILTIN_PROXY */
JERRY_UNUSED (proxy_value);
#endif /* JERRY_BUILTIN_PROXY */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_argument_is_not_a_proxy)));
} /* jerry_get_proxy_target */
/**
* Get the handler object of a Proxy object
*
* @return type error - if proxy_value is not a Proxy object
* handler object - otherwise
*/
jerry_value_t
jerry_get_proxy_handler (jerry_value_t proxy_value) /**< proxy value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_PROXY
if (ecma_is_value_object (proxy_value))
{
ecma_object_t *object_p = ecma_get_object_from_value (proxy_value);
if (ECMA_OBJECT_IS_PROXY (object_p))
{
ecma_proxy_object_t *proxy_object_p = (ecma_proxy_object_t *) object_p;
if (!ecma_is_value_null (proxy_object_p->handler))
{
ecma_ref_object (ecma_get_object_from_value (proxy_object_p->handler));
}
return proxy_object_p->handler;
}
}
#else /* !JERRY_BUILTIN_PROXY */
JERRY_UNUSED (proxy_value);
#endif /* JERRY_BUILTIN_PROXY */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_argument_is_not_a_proxy)));
} /* jerry_get_proxy_handler */
/**
* Validate UTF-8 string
*
* @return true - if UTF-8 string is well-formed
* false - otherwise
*/
bool
jerry_is_valid_utf8_string (const jerry_char_t *utf8_buf_p, /**< UTF-8 string */
jerry_size_t buf_size) /**< string size */
{
return lit_is_valid_utf8_string ((lit_utf8_byte_t *) utf8_buf_p, (lit_utf8_size_t) buf_size, true);
} /* jerry_is_valid_utf8_string */
/**
* Validate CESU-8 string
*
* @return true - if CESU-8 string is well-formed
* false - otherwise
*/
bool
jerry_is_valid_cesu8_string (const jerry_char_t *cesu8_buf_p, /**< CESU-8 string */
jerry_size_t buf_size) /**< string size */
{
return lit_is_valid_cesu8_string ((lit_utf8_byte_t *) cesu8_buf_p, (lit_utf8_size_t) buf_size);
} /* jerry_is_valid_cesu8_string */
/**
* Allocate memory on the engine's heap.
*
* Note:
* This function may take away memory from the executed JavaScript code.
* If any other dynamic memory allocation API is available (e.g., libc
* malloc), it should be used instead.
*
* @return allocated memory on success
* NULL otherwise
*/
void *
jerry_heap_alloc (size_t size) /**< size of the memory block */
{
jerry_assert_api_available ();
return jmem_heap_alloc_block_null_on_error (size);
} /* jerry_heap_alloc */
/**
* Free memory allocated on the engine's heap.
*/
void
jerry_heap_free (void *mem_p, /**< value returned by jerry_heap_alloc */
size_t size) /**< same size as passed to jerry_heap_alloc */
{
jerry_assert_api_available ();
jmem_heap_free_block (mem_p, size);
} /* jerry_heap_free */
/**
* Create an external engine context.
*
* @return the pointer to the context.
*/
jerry_context_t *
jerry_create_context (uint32_t heap_size, /**< the size of heap */
jerry_context_alloc_t alloc, /**< the alloc function */
void *cb_data_p) /**< the cb_data for alloc function */
{
JERRY_UNUSED (heap_size);
#if JERRY_EXTERNAL_CONTEXT
size_t total_size = sizeof (jerry_context_t) + JMEM_ALIGNMENT;
#if !JERRY_SYSTEM_ALLOCATOR
heap_size = JERRY_ALIGNUP (heap_size, JMEM_ALIGNMENT);
/* Minimum heap size is 1Kbyte. */
if (heap_size < 1024)
{
return NULL;
}
total_size += heap_size;
#endif /* !JERRY_SYSTEM_ALLOCATOR */
total_size = JERRY_ALIGNUP (total_size, JMEM_ALIGNMENT);
jerry_context_t *context_p = (jerry_context_t *) alloc (total_size, cb_data_p);
if (context_p == NULL)
{
return NULL;
}
memset (context_p, 0, total_size);
uintptr_t context_ptr = ((uintptr_t) context_p) + sizeof (jerry_context_t);
context_ptr = JERRY_ALIGNUP (context_ptr, (uintptr_t) JMEM_ALIGNMENT);
uint8_t *byte_p = (uint8_t *) context_ptr;
#if !JERRY_SYSTEM_ALLOCATOR
context_p->heap_p = (jmem_heap_t *) byte_p;
context_p->heap_size = heap_size;
byte_p += heap_size;
#endif /* !JERRY_SYSTEM_ALLOCATOR */
JERRY_ASSERT (byte_p <= ((uint8_t *) context_p) + total_size);
JERRY_UNUSED (byte_p);
return context_p;
#else /* !JERRY_EXTERNAL_CONTEXT */
JERRY_UNUSED (alloc);
JERRY_UNUSED (cb_data_p);
return NULL;
#endif /* JERRY_EXTERNAL_CONTEXT */
} /* jerry_create_context */
/**
* When JERRY_VM_EXEC_STOP is enabled, the callback passed to this function
* is periodically called with the user_p argument. If frequency is greater
* than 1, the callback is only called at every frequency ticks.
*/
void
jerry_set_vm_exec_stop_callback (jerry_vm_exec_stop_callback_t stop_cb, /**< periodically called user function */
void *user_p, /**< pointer passed to the function */
uint32_t frequency) /**< frequency of the function call */
{
#if JERRY_VM_EXEC_STOP
if (frequency == 0)
{
frequency = 1;
}
JERRY_CONTEXT (vm_exec_stop_frequency) = frequency;
JERRY_CONTEXT (vm_exec_stop_counter) = frequency;
JERRY_CONTEXT (vm_exec_stop_cb) = stop_cb;
JERRY_CONTEXT (vm_exec_stop_user_p) = user_p;
#else /* !JERRY_VM_EXEC_STOP */
JERRY_UNUSED (stop_cb);
JERRY_UNUSED (user_p);
JERRY_UNUSED (frequency);
#endif /* JERRY_VM_EXEC_STOP */
} /* jerry_set_vm_exec_stop_callback */
/**
* Get backtrace. The backtrace is an array of strings where
* each string contains the position of the corresponding frame.
* The array length is zero if the backtrace is not available.
*
* @return array value
*/
jerry_value_t
jerry_get_backtrace (uint32_t max_depth) /**< depth limit of the backtrace */
{
return vm_get_backtrace (max_depth);
} /* jerry_get_backtrace */
/**
* Low-level function to capture each backtrace frame.
* The captured frame data is passed to a callback function.
*/
void
jerry_backtrace_capture (jerry_backtrace_callback_t callback, /**< callback function */
void *user_p) /**< user pointer passed to the callback function */
{
jerry_backtrace_frame_t frame;
vm_frame_ctx_t *context_p = JERRY_CONTEXT (vm_top_context_p);
while (context_p != NULL)
{
frame.context_p = context_p;
frame.frame_type = JERRY_BACKTRACE_FRAME_JS;
if (!callback (&frame, user_p))
{
return;
}
context_p = context_p->prev_context_p;
}
} /* jerry_backtrace_capture */
/**
* Returns with the type of the backtrace frame.
*
* @return frame type listed in jerry_backtrace_frame_types_t
*/
jerry_backtrace_frame_types_t
jerry_backtrace_get_frame_type (jerry_backtrace_frame_t *frame_p) /**< frame pointer */
{
return (jerry_backtrace_frame_types_t) frame_p->frame_type;
} /* jerry_backtrace_get_frame_type */
/**
* Initialize and return with the location private field of a backtrace frame.
*
* @return pointer to the location private field - if the location is available,
* NULL - otherwise
*/
const jerry_backtrace_location_t *
jerry_backtrace_get_location (jerry_backtrace_frame_t *frame_p) /**< frame pointer */
{
JERRY_UNUSED (frame_p);
#if JERRY_LINE_INFO
if (frame_p->frame_type == JERRY_BACKTRACE_FRAME_JS)
{
vm_frame_ctx_t *context_p = frame_p->context_p;
const ecma_compiled_code_t *bytecode_header_p = context_p->shared_p->bytecode_header_p;
if (!(bytecode_header_p->status_flags & CBC_CODE_FLAGS_HAS_LINE_INFO))
{
return NULL;
}
frame_p->location.resource_name = ecma_get_resource_name (bytecode_header_p);
ecma_line_info_get (ecma_compiled_code_get_line_info (bytecode_header_p),
(uint32_t) (context_p->byte_code_p - context_p->byte_code_start_p),
&frame_p->location);
return &frame_p->location;
}
#endif /* JERRY_LINE_INFO */
return NULL;
} /* jerry_backtrace_get_location */
/**
* Initialize and return with the called function private field of a backtrace frame.
* The backtrace frame is created for running the code bound to this function.
*
* @return pointer to the called function - if the function is available,
* NULL - otherwise
*/
const jerry_value_t *
jerry_backtrace_get_function (jerry_backtrace_frame_t *frame_p) /**< frame pointer */
{
if (frame_p->frame_type == JERRY_BACKTRACE_FRAME_JS)
{
vm_frame_ctx_t *context_p = frame_p->context_p;
if (context_p->shared_p->function_object_p != NULL)
{
frame_p->function = ecma_make_object_value (context_p->shared_p->function_object_p);
return &frame_p->function;
}
}
return NULL;
} /* jerry_backtrace_get_function */
/**
* Initialize and return with the 'this' binding private field of a backtrace frame.
* The 'this' binding is a hidden value passed to the called function. As for arrow
* functions, the 'this' binding is assigned at function creation.
*
* @return pointer to the 'this' binding - if the binding is available,
* NULL - otherwise
*/
const jerry_value_t *
jerry_backtrace_get_this (jerry_backtrace_frame_t *frame_p) /**< frame pointer */
{
if (frame_p->frame_type == JERRY_BACKTRACE_FRAME_JS)
{
frame_p->this_binding = frame_p->context_p->this_binding;
return &frame_p->this_binding;
}
return NULL;
} /* jerry_backtrace_get_this */
/**
* Returns true, if the code bound to the backtrace frame is strict mode code.
*
* @return true - if strict mode code is bound to the frame,
* false - otherwise
*/
bool
jerry_backtrace_is_strict (jerry_backtrace_frame_t *frame_p) /**< frame pointer */
{
return (frame_p->frame_type == JERRY_BACKTRACE_FRAME_JS
&& (frame_p->context_p->status_flags & VM_FRAME_CTX_IS_STRICT) != 0);
} /* jerry_backtrace_is_strict */
/**
* Get the resource name (usually a file name) of the currently executed script or the given function object
*
* Note: returned value must be freed with jerry_release_value, when it is no longer needed
*
* @return JS string constructed from
* - the currently executed function object's resource name, if the given value is undefined
* - resource name of the function object, if the given value is a function object
* - "<anonymous>", otherwise
*/
jerry_value_t
jerry_get_resource_name (const jerry_value_t value) /**< jerry api value */
{
#if JERRY_RESOURCE_NAME
if (ecma_is_value_undefined (value) && JERRY_CONTEXT (vm_top_context_p) != NULL)
{
return ecma_copy_value (ecma_get_resource_name (JERRY_CONTEXT (vm_top_context_p)->shared_p->bytecode_header_p));
}
ecma_value_t script_value = ecma_script_get_from_value (value);
if (script_value == JMEM_CP_NULL)
{
return ecma_make_magic_string_value (LIT_MAGIC_STRING_RESOURCE_ANON);
}
const cbc_script_t *script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
return ecma_copy_value (script_p->resource_name);
#else /* !JERRY_RESOURCE_NAME */
JERRY_UNUSED (value);
return ecma_make_magic_string_value (LIT_MAGIC_STRING_RESOURCE_ANON);
#endif /* JERRY_RESOURCE_NAME */
} /* jerry_get_resource_name */
/**
* Returns the user value assigned to a script / module / function.
*
* Note:
* This value is usually set by the parser when
* the JERRY_PARSE_HAS_USER_VALUE flag is passed.
*
* @return user value
*/
jerry_value_t
jerry_get_user_value (const jerry_value_t value) /**< jerry api value */
{
ecma_value_t script_value = ecma_script_get_from_value (value);
if (script_value == JMEM_CP_NULL)
{
return ECMA_VALUE_UNDEFINED;
}
const cbc_script_t *script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
if (!(script_p->refs_and_type & CBC_SCRIPT_HAS_USER_VALUE))
{
return ECMA_VALUE_UNDEFINED;
}
return ecma_copy_value (CBC_SCRIPT_GET_USER_VALUE (script_p));
} /* jerry_get_user_value */
/**
* Checks whether an ECMAScript code is compiled by eval
* like (eval, new Function, jerry_eval, etc.) command.
*
* @return true, if code is compiled by eval like command
* false, otherwise
*/
bool
jerry_is_eval_code (const jerry_value_t value) /**< jerry api value */
{
ecma_value_t script_value = ecma_script_get_from_value (value);
if (script_value == JMEM_CP_NULL)
{
return false;
}
const cbc_script_t *script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
return (script_p->refs_and_type & CBC_SCRIPT_IS_EVAL_CODE) != 0;
} /* jerry_is_eval_code */
/**
* Returns a newly created source info structure corresponding to the passed script/module/function.
*
* @return a newly created source info, if at least one field is available, NULL otherwise
*/
jerry_source_info_t *
jerry_get_source_info (const jerry_value_t value) /**< jerry api value */
{
jerry_assert_api_available ();
#if JERRY_FUNCTION_TO_STRING
if (!ecma_is_value_object (value))
{
return NULL;
}
jerry_source_info_t source_info;
source_info.enabled_fields = 0;
source_info.source_code = ECMA_VALUE_UNDEFINED;
source_info.function_arguments = ECMA_VALUE_UNDEFINED;
source_info.source_range_start = 0;
source_info.source_range_length = 0;
ecma_object_t *object_p = ecma_get_object_from_value (value);
cbc_script_t *script_p = NULL;
while (true)
{
switch (ecma_get_object_type (object_p))
{
case ECMA_OBJECT_TYPE_CLASS:
{
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
const ecma_compiled_code_t *bytecode_p = NULL;
if (ext_object_p->u.cls.type == ECMA_OBJECT_CLASS_SCRIPT)
{
bytecode_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_compiled_code_t, ext_object_p->u.cls.u3.value);
}
#if JERRY_MODULE_SYSTEM
else if (ext_object_p->u.cls.type == ECMA_OBJECT_CLASS_MODULE)
{
ecma_module_t *module_p = (ecma_module_t *) object_p;
if (!(module_p->header.u.cls.u2.module_flags & ECMA_MODULE_IS_NATIVE))
{
bytecode_p = module_p->u.compiled_code_p;
}
}
#endif /* JERRY_MODULE_SYSTEM */
if (bytecode_p == NULL)
{
return NULL;
}
ecma_value_t script_value = ((cbc_uint8_arguments_t *) bytecode_p)->script_value;
script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
break;
}
case ECMA_OBJECT_TYPE_FUNCTION:
{
const ecma_compiled_code_t *bytecode_p;
bytecode_p = ecma_op_function_get_compiled_code ((ecma_extended_object_t *) object_p);
ecma_value_t script_value = ((cbc_uint8_arguments_t *) bytecode_p)->script_value;
script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
if (bytecode_p->status_flags & CBC_CODE_FLAGS_HAS_EXTENDED_INFO)
{
uint8_t *extended_info_p = ecma_compiled_code_resolve_extended_info (bytecode_p);
uint8_t extended_info = *extended_info_p;
#if JERRY_ESNEXT
if (extended_info & CBC_EXTENDED_CODE_FLAGS_HAS_ARGUMENT_LENGTH)
{
ecma_extended_info_decode_vlq (&extended_info_p);
}
#endif /* JERRY_ESNEXT */
if (extended_info & CBC_EXTENDED_CODE_FLAGS_SOURCE_CODE_IN_ARGUMENTS)
{
ecma_value_t function_arguments = CBC_SCRIPT_GET_FUNCTION_ARGUMENTS (script_p, script_p->refs_and_type);
ecma_ref_ecma_string (ecma_get_string_from_value (function_arguments));
source_info.enabled_fields |= JERRY_SOURCE_INFO_HAS_SOURCE_CODE;
source_info.source_code = function_arguments;
script_p = NULL;
}
source_info.enabled_fields |= JERRY_SOURCE_INFO_HAS_SOURCE_RANGE;
source_info.source_range_start = ecma_extended_info_decode_vlq (&extended_info_p);
source_info.source_range_length = ecma_extended_info_decode_vlq (&extended_info_p);
}
JERRY_ASSERT (script_p != NULL || (source_info.enabled_fields & JERRY_SOURCE_INFO_HAS_SOURCE_CODE));
if (source_info.enabled_fields == 0 && (script_p->refs_and_type & CBC_SCRIPT_HAS_FUNCTION_ARGUMENTS))
{
ecma_value_t function_arguments = CBC_SCRIPT_GET_FUNCTION_ARGUMENTS (script_p, script_p->refs_and_type);
ecma_ref_ecma_string (ecma_get_string_from_value (function_arguments));
source_info.enabled_fields |= JERRY_SOURCE_INFO_HAS_FUNCTION_ARGUMENTS;
source_info.function_arguments = function_arguments;
}
break;
}
case ECMA_OBJECT_TYPE_BOUND_FUNCTION:
{
ecma_extended_object_t *ext_object_p = (ecma_extended_object_t *) object_p;
object_p =
ECMA_GET_NON_NULL_POINTER_FROM_POINTER_TAG (ecma_object_t, ext_object_p->u.bound_function.target_function);
continue;
}
#if JERRY_ESNEXT
case ECMA_OBJECT_TYPE_CONSTRUCTOR_FUNCTION:
{
ecma_value_t script_value = ((ecma_extended_object_t *) object_p)->u.constructor_function.script_value;
script_p = ECMA_GET_INTERNAL_VALUE_POINTER (cbc_script_t, script_value);
break;
}
#endif /* JERRY_ESNEXT */
default:
{
return NULL;
}
}
break;
}
jerry_source_info_t *source_info_p = jmem_heap_alloc_block_null_on_error (sizeof (jerry_source_info_t));
if (source_info_p == NULL)
{
return NULL;
}
if (script_p != NULL)
{
ecma_ref_ecma_string (ecma_get_string_from_value (script_p->source_code));
source_info.enabled_fields |= JERRY_SOURCE_INFO_HAS_SOURCE_CODE;
source_info.source_code = script_p->source_code;
}
JERRY_ASSERT (source_info.enabled_fields != 0);
*source_info_p = source_info;
return source_info_p;
#else /* !JERRY_FUNCTION_TO_STRING */
JERRY_UNUSED (value);
return NULL;
#endif /* JERRY_FUNCTION_TO_STRING */
} /* jerry_get_source_info */
/**
* Frees the the source info structure returned by jerry_get_source_info.
*/
void
jerry_free_source_info (jerry_source_info_t *source_info_p) /**< source info block */
{
jerry_assert_api_available ();
#if JERRY_FUNCTION_TO_STRING
if (source_info_p != NULL)
{
ecma_free_value (source_info_p->source_code);
ecma_free_value (source_info_p->function_arguments);
jmem_heap_free_block (source_info_p, sizeof (jerry_source_info_t));
}
#else /* !JERRY_FUNCTION_TO_STRING */
JERRY_UNUSED (source_info_p);
#endif /* JERRY_FUNCTION_TO_STRING */
} /* jerry_free_source_info */
/**
* Replaces the currently active realm with another realm.
*
* The replacement should be temporary, and the original realm must be
* restored after the tasks are completed. During the replacement, the
* realm must be referenced by the application (i.e. the gc must not
* reclaim it). This is also true to the returned previously active
* realm, so there is no need to free the value after the restoration.
*
* @return previous realm value - if the passed value is a realm
* exception - otherwise
*/
jerry_value_t
jerry_set_realm (jerry_value_t realm_value) /**< jerry api value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_REALMS
if (ecma_is_value_object (realm_value))
{
ecma_object_t *object_p = ecma_get_object_from_value (realm_value);
if (ecma_builtin_is_global (object_p))
{
ecma_global_object_t *previous_global_object_p = JERRY_CONTEXT (global_object_p);
JERRY_CONTEXT (global_object_p) = (ecma_global_object_t *) object_p;
return ecma_make_object_value ((ecma_object_t *) previous_global_object_p);
}
}
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Passed argument is not a realm")));
#else /* !JERRY_BUILTIN_REALMS */
JERRY_UNUSED (realm_value);
return jerry_throw (ecma_raise_reference_error (ECMA_ERR_MSG ("Realm is not available")));
#endif /* JERRY_BUILTIN_REALMS */
} /* jerry_set_realm */
/**
* Gets the 'this' binding of a realm
*
* @return type error - if realm_value is not a realm
* this value - otherwise
*/
jerry_value_t
jerry_realm_get_this (jerry_value_t realm_value) /**< realm value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_REALMS
if (ecma_is_value_object (realm_value))
{
ecma_object_t *object_p = ecma_get_object_from_value (realm_value);
if (ecma_builtin_is_global (object_p))
{
ecma_global_object_t *global_object_p = (ecma_global_object_t *) object_p;
ecma_ref_object (ecma_get_object_from_value (global_object_p->this_binding));
return global_object_p->this_binding;
}
}
#else /* !JERRY_BUILTIN_REALMS */
ecma_object_t *global_object_p = ecma_builtin_get_global ();
if (realm_value == ecma_make_object_value (global_object_p))
{
ecma_ref_object (global_object_p);
return realm_value;
}
#endif /* JERRY_BUILTIN_REALMS */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Passed argument is not a realm")));
} /* jerry_realm_get_this */
/**
* Sets the 'this' binding of a realm
*
* This function must be called before executing any script on the realm.
* Otherwise the operation is undefined.
*
* @return type error - if realm_value is not a realm or this_value is not object
* true - otherwise
*/
jerry_value_t
jerry_realm_set_this (jerry_value_t realm_value, /**< realm value */
jerry_value_t this_value) /**< this value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_REALMS
if (!ecma_is_value_object (this_value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Second argument must be an object")));
}
if (ecma_is_value_object (realm_value))
{
ecma_object_t *object_p = ecma_get_object_from_value (realm_value);
if (ecma_builtin_is_global (object_p))
{
ecma_global_object_t *global_object_p = (ecma_global_object_t *) object_p;
global_object_p->this_binding = this_value;
ecma_object_t *global_lex_env_p = ecma_create_object_lex_env (NULL, ecma_get_object_from_value (this_value));
ECMA_SET_NON_NULL_POINTER (global_object_p->global_env_cp, global_lex_env_p);
#if JERRY_ESNEXT
global_object_p->global_scope_cp = global_object_p->global_env_cp;
#endif /* JERRY_ESNEXT */
ecma_deref_object (global_lex_env_p);
return ECMA_VALUE_TRUE;
}
}
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("First argument is not a realm")));
#else /* !JERRY_BUILTIN_REALMS */
JERRY_UNUSED (realm_value);
JERRY_UNUSED (this_value);
return jerry_throw (ecma_raise_reference_error (ECMA_ERR_MSG ("Realm is not available")));
#endif /* JERRY_BUILTIN_REALMS */
} /* jerry_realm_set_this */
/**
* Check if the given value is an ArrayBuffer object.
*
* @return true - if it is an ArrayBuffer object
* false - otherwise
*/
bool
jerry_value_is_arraybuffer (const jerry_value_t value) /**< value to check if it is an ArrayBuffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
return ecma_is_arraybuffer (value);
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_value_is_arraybuffer */
/**
* Creates an ArrayBuffer object with the given length (size).
*
* Notes:
* * the length is specified in bytes.
* * returned value must be freed with jerry_release_value, when it is no longer needed.
* * if the typed arrays are disabled this will return a TypeError.
*
* @return value of the constructed ArrayBuffer object
*/
jerry_value_t
jerry_create_arraybuffer (const jerry_length_t size) /**< size of the backing store allocated
* for the array buffer in bytes */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
return jerry_return (ecma_make_object_value (ecma_arraybuffer_new_object (size)));
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (size);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_create_arraybuffer */
/**
* Creates an ArrayBuffer object with user specified buffer.
*
* Notes:
* * the size is specified in bytes.
* * the buffer passed should be at least the specified bytes big.
* * if the typed arrays are disabled this will return a TypeError.
* * if the size is zero or buffer_p is a null pointer this will return an empty ArrayBuffer.
*
* @return value of the newly constructed array buffer object
*/
jerry_value_t
jerry_create_arraybuffer_external (const jerry_length_t size, /**< size of the buffer in bytes */
uint8_t *buffer_p, /**< the backing store used by the array buffer object */
void *arraybuffer_user_p) /**< user pointer assigned to the array buffer object */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
ecma_object_t *arraybuffer_p;
if (JERRY_UNLIKELY (size == 0))
{
arraybuffer_p = ecma_arraybuffer_new_object (0);
}
else
{
arraybuffer_p = ecma_arraybuffer_create_object_with_buffer (ECMA_OBJECT_CLASS_ARRAY_BUFFER, size);
ecma_arraybuffer_pointer_t *arraybuffer_pointer_p = (ecma_arraybuffer_pointer_t *) arraybuffer_p;
arraybuffer_pointer_p->arraybuffer_user_p = arraybuffer_user_p;
if (buffer_p != NULL)
{
arraybuffer_pointer_p->extended_object.u.cls.u1.array_buffer_flags |= ECMA_ARRAYBUFFER_ALLOCATED;
arraybuffer_pointer_p->buffer_p = buffer_p;
}
}
return jerry_return (ecma_make_object_value (arraybuffer_p));
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (size);
JERRY_UNUSED (buffer_p);
JERRY_UNUSED (arraybuffer_user_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_create_arraybuffer_external */
/**
* Check if the given value is a SharedArrayBuffer object.
*
* @return true - if it is a SharedArrayBuffer object
* false - otherwise
*/
bool
jerry_value_is_shared_arraybuffer (const jerry_value_t value) /**< value to check if it is a SharedArrayBuffer */
{
jerry_assert_api_available ();
return ecma_is_shared_arraybuffer (value);
} /* jerry_value_is_shared_arraybuffer */
/**
* Creates a SharedArrayBuffer object with the given length (size).
*
* Notes:
* * the length is specified in bytes.
* * returned value must be freed with jerry_release_value, when it is no longer needed.
* * if the typed arrays are disabled this will return a TypeError.
*
* @return value of the constructed SharedArrayBuffer object
*/
jerry_value_t
jerry_create_shared_arraybuffer (const jerry_length_t size) /**< size of the backing store allocated
* for the shared array buffer in bytes */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_SHAREDARRAYBUFFER
return jerry_return (ecma_make_object_value (ecma_shared_arraybuffer_new_object (size)));
#else /* !JERRY_BUILTIN_SHAREDARRAYBUFFER */
JERRY_UNUSED (size);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_shared_arraybuffer_not_supported_p)));
#endif /* JERRY_BUILTIN_SHAREDARRAYBUFFER */
} /* jerry_create_shared_arraybuffer */
/**
* Creates a SharedArrayBuffer object with user specified buffer.
*
* Notes:
* * the size is specified in bytes.
* * the buffer passed should be at least the specified bytes big.
* * if the typed arrays are disabled this will return a TypeError.
* * if the size is zero or buffer_p is a null pointer this will return an empty SharedArrayBuffer.
*
* @return value of the newly constructed shared array buffer object
*/
jerry_value_t
jerry_create_shared_arraybuffer_external (const jerry_length_t size, /**< size of the buffer in bytes */
uint8_t *buffer_p, /**< the backing store used by the
* shared array buffer object */
void *arraybuffer_user_p) /**< user pointer assigned to the
* shared array buffer object */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_SHAREDARRAYBUFFER
ecma_object_t *shared_arraybuffer_p;
if (JERRY_UNLIKELY (size == 0))
{
shared_arraybuffer_p = ecma_shared_arraybuffer_new_object (0);
}
else
{
shared_arraybuffer_p = ecma_arraybuffer_create_object_with_buffer (ECMA_OBJECT_CLASS_SHARED_ARRAY_BUFFER, size);
ecma_arraybuffer_pointer_t *shared_arraybuffer_pointer_p = (ecma_arraybuffer_pointer_t *) shared_arraybuffer_p;
shared_arraybuffer_pointer_p->arraybuffer_user_p = arraybuffer_user_p;
if (buffer_p != NULL)
{
shared_arraybuffer_pointer_p->extended_object.u.cls.u1.array_buffer_flags |= ECMA_ARRAYBUFFER_ALLOCATED;
shared_arraybuffer_pointer_p->buffer_p = buffer_p;
}
}
return jerry_return (ecma_make_object_value (shared_arraybuffer_p));
#else /* !JERRY_BUILTIN_SHAREDARRAYBUFFER */
JERRY_UNUSED (size);
JERRY_UNUSED (buffer_p);
JERRY_UNUSED (arraybuffer_user_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_shared_arraybuffer_not_supported_p)));
#endif /* JERRY_BUILTIN_SHAREDARRAYBUFFER */
} /* jerry_create_shared_arraybuffer_external */
#if JERRY_BUILTIN_TYPEDARRAY
/**
* Allocate a backing store for an array buffer, ignores allocation fails.
*
* @return true on success,
* false otherwise
*/
static bool
jerry_arraybuffer_allocate_buffer_no_throw (ecma_object_t *arraybuffer_p) /**< ArrayBuffer object */
{
JERRY_ASSERT (!(ECMA_ARRAYBUFFER_GET_FLAGS (arraybuffer_p) & ECMA_ARRAYBUFFER_ALLOCATED));
if (ECMA_ARRAYBUFFER_GET_FLAGS (arraybuffer_p) & ECMA_ARRAYBUFFER_DETACHED)
{
return false;
}
return ecma_arraybuffer_allocate_buffer (arraybuffer_p) != NULL;
} /* jerry_arraybuffer_allocate_buffer_no_throw */
#endif /* JERRY_BUILTIN_TYPEDARRAY */
/**
* Copy bytes into the ArrayBuffer or SharedArrayBuffer from a buffer.
*
* Note:
* * returns 0, if the passed object is not an ArrayBuffer or SharedArrayBuffer
*
* @return number of bytes copied into the ArrayBuffer or SharedArrayBuffer.
*/
jerry_length_t
jerry_arraybuffer_write (const jerry_value_t value, /**< target ArrayBuffer or SharedArrayBuffer */
jerry_length_t offset, /**< start offset of the ArrayBuffer */
const uint8_t *buf_p, /**< buffer to copy from */
jerry_length_t buf_size) /**< number of bytes to copy from the buffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!(ecma_is_arraybuffer (value) || ecma_is_shared_arraybuffer (value)))
{
return 0;
}
ecma_object_t *arraybuffer_p = ecma_get_object_from_value (value);
if (!(ECMA_ARRAYBUFFER_GET_FLAGS (arraybuffer_p) & ECMA_ARRAYBUFFER_ALLOCATED)
&& !jerry_arraybuffer_allocate_buffer_no_throw (arraybuffer_p))
{
return 0;
}
jerry_length_t length = ecma_arraybuffer_get_length (arraybuffer_p);
if (offset >= length)
{
return 0;
}
jerry_length_t copy_count = JERRY_MIN (length - offset, buf_size);
if (copy_count > 0)
{
lit_utf8_byte_t *buffer_p = ecma_arraybuffer_get_buffer (arraybuffer_p);
memcpy ((void *) (buffer_p + offset), (void *) buf_p, copy_count);
}
return copy_count;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
JERRY_UNUSED (offset);
JERRY_UNUSED (buf_p);
JERRY_UNUSED (buf_size);
return 0;
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_arraybuffer_write */
/**
* Copy bytes from a buffer into an ArrayBuffer or SharedArrayBuffer.
*
* Note:
* * if the object passed is not an ArrayBuffer or SharedArrayBuffer will return 0.
*
* @return number of bytes read from the ArrayBuffer.
*/
jerry_length_t
jerry_arraybuffer_read (const jerry_value_t value, /**< ArrayBuffer or SharedArrayBuffer to read from */
jerry_length_t offset, /**< start offset of the ArrayBuffer or SharedArrayBuffer */
uint8_t *buf_p, /**< destination buffer to copy to */
jerry_length_t buf_size) /**< number of bytes to copy into the buffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!(ecma_is_arraybuffer (value) || ecma_is_shared_arraybuffer (value)))
{
return 0;
}
ecma_object_t *arraybuffer_p = ecma_get_object_from_value (value);
if (!(ECMA_ARRAYBUFFER_GET_FLAGS (arraybuffer_p) & ECMA_ARRAYBUFFER_ALLOCATED)
&& !jerry_arraybuffer_allocate_buffer_no_throw (arraybuffer_p))
{
return 0;
}
jerry_length_t length = ecma_arraybuffer_get_length (arraybuffer_p);
if (offset >= length)
{
return 0;
}
jerry_length_t copy_count = JERRY_MIN (length - offset, buf_size);
if (copy_count > 0)
{
lit_utf8_byte_t *buffer_p = ecma_arraybuffer_get_buffer (arraybuffer_p);
memcpy ((void *) buf_p, (void *) (buffer_p + offset), copy_count);
}
return copy_count;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
JERRY_UNUSED (offset);
JERRY_UNUSED (buf_p);
JERRY_UNUSED (buf_size);
return 0;
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_arraybuffer_read */
/**
* Get the length (size) of the ArrayBuffer or SharedArrayBuffer in bytes.
*
* Note:
* This is the 'byteLength' property of an ArrayBuffer or SharedArrayBuffer.
*
* @return the length of the ArrayBuffer in bytes.
*/
jerry_length_t
jerry_get_arraybuffer_byte_length (const jerry_value_t value) /**< ArrayBuffer or SharedArrayBuffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_arraybuffer (value) || ecma_is_shared_arraybuffer (value))
{
ecma_object_t *arraybuffer_p = ecma_get_object_from_value (value);
return ecma_arraybuffer_get_length (arraybuffer_p);
}
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return 0;
} /* jerry_get_arraybuffer_byte_length */
/**
* Get a pointer for the start of the ArrayBuffer.
*
* Note:
* * This is a high-risk operation as the bounds are not checked
* when accessing the pointer elements.
*
* @return pointer to the back-buffer of the ArrayBuffer.
* pointer is NULL if:
* - the parameter is not an ArrayBuffer
* - an external ArrayBuffer has been detached
*/
uint8_t *
jerry_get_arraybuffer_pointer (const jerry_value_t array_buffer) /**< Array Buffer to use */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!(ecma_is_arraybuffer (array_buffer) || ecma_is_shared_arraybuffer (array_buffer)))
{
return NULL;
}
ecma_object_t *arraybuffer_p = ecma_get_object_from_value (array_buffer);
if (!(ECMA_ARRAYBUFFER_GET_FLAGS (arraybuffer_p) & ECMA_ARRAYBUFFER_ALLOCATED)
&& !jerry_arraybuffer_allocate_buffer_no_throw (arraybuffer_p))
{
return NULL;
}
return (uint8_t *) ecma_arraybuffer_get_buffer (arraybuffer_p);
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (array_buffer);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return NULL;
} /* jerry_get_arraybuffer_pointer */
/**
* Get if the ArrayBuffer is detachable.
*
* @return boolean value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_is_arraybuffer_detachable (const jerry_value_t value) /**< ArrayBuffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_arraybuffer (value))
{
ecma_object_t *buffer_p = ecma_get_object_from_value (value);
return ecma_make_boolean_value (!ecma_arraybuffer_is_detached (buffer_p));
}
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Expected an ArrayBuffer")));
} /* jerry_is_arraybuffer_detachable */
/**
* Detach the underlying data block from ArrayBuffer and set its bytelength to 0.
*
* Note: if the ArrayBuffer has a separate data buffer, the free callback set by
* jerry_arraybuffer_set_allocation_callbacks is called for this buffer
*
* @return null value - if success
* value marked with error flag - otherwise
*/
jerry_value_t
jerry_detach_arraybuffer (const jerry_value_t value) /**< ArrayBuffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_arraybuffer (value))
{
ecma_object_t *buffer_p = ecma_get_object_from_value (value);
if (ecma_arraybuffer_detach (buffer_p))
{
return ECMA_VALUE_NULL;
}
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("ArrayBuffer has already been detached")));
}
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Expected an ArrayBuffer")));
} /* jerry_detach_arraybuffer */
/**
* Checks whether a buffer is currently allocated for an array buffer or typed array.
*
* @return true, if a buffer is allocated for an array buffer or typed array
* false, otherwise
*/
bool
jerry_arraybuffer_has_buffer (const jerry_value_t value) /**< array buffer or typed array value */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!ecma_is_value_object (value))
{
return false;
}
ecma_object_t *object_p = ecma_get_object_from_value (value);
if (ecma_object_is_typedarray (object_p))
{
object_p = ecma_typedarray_get_arraybuffer (object_p);
}
else if (!(ecma_object_class_is (object_p, ECMA_OBJECT_CLASS_ARRAY_BUFFER)
|| ecma_object_is_shared_arraybuffer (object_p)))
{
return false;
}
return (ECMA_ARRAYBUFFER_GET_FLAGS (object_p) & ECMA_ARRAYBUFFER_ALLOCATED) != 0;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_arraybuffer_has_buffer */
/**
* Array buffers which size is less or equal than the limit passed to this function are allocated in
* a single memory block. The allocator callbacks set by jerry_arraybuffer_set_allocation_callbacks
* are not called for these array buffers. The default limit is 256 bytes.
*/
void
jerry_arraybuffer_set_compact_allocation_limit (const jerry_length_t allocation_limit) /**< maximum size of
* compact allocation */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
JERRY_CONTEXT (arraybuffer_compact_allocation_limit) = allocation_limit;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (allocation_limit);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_arraybuffer_set_compact_allocation_limit */
/**
* Set callbacks for allocating and freeing backing stores for array buffer objects.
*/
void
jerry_arraybuffer_set_allocator_callbacks (jerry_arraybuffer_allocate_t allocate_callback, /**< callback for allocating
* array buffer memory */
jerry_arraybuffer_free_t free_callback, /**< callback for freeing
* array buffer memory */
void *user_p) /**< user pointer passed to the callbacks */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
JERRY_CONTEXT (arraybuffer_allocate_callback) = allocate_callback;
JERRY_CONTEXT (arraybuffer_free_callback) = free_callback;
JERRY_CONTEXT (arraybuffer_allocate_callback_user_p) = user_p;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (allocate_callback);
JERRY_UNUSED (free_callback);
JERRY_UNUSED (user_p);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_arraybuffer_set_allocator_callbacks */
/**
* DataView related functions
*/
/**
* Creates a DataView object with the given ArrayBuffer, ByteOffset and ByteLength arguments.
*
* Notes:
* * returned value must be freed with jerry_release_value, when it is no longer needed.
* * if the DataView bulitin is disabled this will return a TypeError.
*
* @return value of the constructed DataView object - if success
* created error - otherwise
*/
jerry_value_t
jerry_create_dataview (const jerry_value_t array_buffer, /**< arraybuffer to create DataView from */
const jerry_length_t byte_offset, /**< offset in bytes, to the first byte in the buffer */
const jerry_length_t byte_length) /**< number of elements in the byte array */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_DATAVIEW
if (ecma_is_value_error_reference (array_buffer))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_value_t arguments_p[3] = { array_buffer,
ecma_make_uint32_value (byte_offset),
ecma_make_uint32_value (byte_length) };
ecma_object_t *old_new_target_p = JERRY_CONTEXT (current_new_target_p);
if (old_new_target_p == NULL)
{
JERRY_CONTEXT (current_new_target_p) = ecma_builtin_get (ECMA_BUILTIN_ID_DATAVIEW);
}
ecma_value_t dataview_value = ecma_op_dataview_create (arguments_p, 3);
JERRY_CONTEXT (current_new_target_p) = old_new_target_p;
return jerry_return (dataview_value);
#else /* !JERRY_BUILTIN_DATAVIEW */
JERRY_UNUSED (array_buffer);
JERRY_UNUSED (byte_offset);
JERRY_UNUSED (byte_length);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_data_view_not_supported_p)));
#endif /* JERRY_BUILTIN_DATAVIEW */
} /* jerry_create_dataview */
/**
* Check if the given value is a DataView object.
*
* @return true - if it is a DataView object
* false - otherwise
*/
bool
jerry_value_is_dataview (const jerry_value_t value) /**< value to check if it is a DataView object */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_DATAVIEW
return ecma_is_dataview (value);
#else /* !JERRY_BUILTIN_DATAVIEW */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_DATAVIEW */
} /* jerry_value_is_dataview */
/**
* Get the underlying ArrayBuffer from a DataView.
*
* Additionally the byteLength and byteOffset properties are also returned
* which were specified when the DataView was created.
*
* Note:
* the returned value must be freed with a jerry_release_value call
*
* @return ArrayBuffer of a DataView
* TypeError if the object is not a DataView.
*/
jerry_value_t
jerry_get_dataview_buffer (const jerry_value_t value, /**< DataView to get the arraybuffer from */
jerry_length_t *byte_offset, /**< [out] byteOffset property */
jerry_length_t *byte_length) /**< [out] byteLength property */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_DATAVIEW
if (ecma_is_value_error_reference (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
ecma_dataview_object_t *dataview_p = ecma_op_dataview_get_object (value);
if (JERRY_UNLIKELY (dataview_p == NULL))
{
return ecma_create_error_reference_from_context ();
}
if (byte_offset != NULL)
{
*byte_offset = dataview_p->byte_offset;
}
if (byte_length != NULL)
{
*byte_length = dataview_p->header.u.cls.u3.length;
}
ecma_object_t *arraybuffer_p = dataview_p->buffer_p;
ecma_ref_object (arraybuffer_p);
return ecma_make_object_value (arraybuffer_p);
#else /* !JERRY_BUILTIN_DATAVIEW */
JERRY_UNUSED (value);
JERRY_UNUSED (byte_offset);
JERRY_UNUSED (byte_length);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_data_view_not_supported_p)));
#endif /* JERRY_BUILTIN_DATAVIEW */
} /* jerry_get_dataview_buffer */
/**
* TypedArray related functions
*/
/**
* Check if the given value is a TypedArray object.
*
* @return true - if it is a TypedArray object
* false - otherwise
*/
bool
jerry_value_is_typedarray (jerry_value_t value) /**< value to check if it is a TypedArray */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
return ecma_is_typedarray (value);
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
return false;
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_value_is_typedarray */
#if JERRY_BUILTIN_TYPEDARRAY
/**
* TypedArray mapping type
*/
typedef struct
{
jerry_typedarray_type_t api_type; /**< api type */
ecma_builtin_id_t prototype_id; /**< prototype ID */
ecma_typedarray_type_t id; /**< typedArray ID */
uint8_t element_size_shift; /**< element size shift */
} jerry_typedarray_mapping_t;
/**
* List of TypedArray mappings
*/
static jerry_typedarray_mapping_t jerry_typedarray_mappings[] = {
#define TYPEDARRAY_ENTRY(NAME, LIT_NAME, SIZE_SHIFT) \
{ \
JERRY_TYPEDARRAY_##NAME, ECMA_BUILTIN_ID_##NAME##ARRAY_PROTOTYPE, ECMA_##LIT_NAME##_ARRAY, SIZE_SHIFT \
}
TYPEDARRAY_ENTRY (UINT8, UINT8, 0), TYPEDARRAY_ENTRY (UINT8CLAMPED, UINT8_CLAMPED, 0),
TYPEDARRAY_ENTRY (INT8, INT8, 0), TYPEDARRAY_ENTRY (UINT16, UINT16, 1),
TYPEDARRAY_ENTRY (INT16, INT16, 1), TYPEDARRAY_ENTRY (UINT32, UINT32, 2),
TYPEDARRAY_ENTRY (INT32, INT32, 2), TYPEDARRAY_ENTRY (FLOAT32, FLOAT32, 2),
#if JERRY_NUMBER_TYPE_FLOAT64
TYPEDARRAY_ENTRY (FLOAT64, FLOAT64, 3),
#endif /* JERRY_NUMBER_TYPE_FLOAT64 */
#if JERRY_BUILTIN_BIGINT
TYPEDARRAY_ENTRY (BIGINT64, BIGINT64, 3), TYPEDARRAY_ENTRY (BIGUINT64, BIGUINT64, 3),
#endif /* JERRY_BUILTIN_BIGINT */
#undef TYPEDARRAY_ENTRY
};
/**
* Helper function to get the TypedArray prototype, typedArray id, and element size shift
* information.
*
* @return true - if the TypedArray information was found
* false - if there is no such TypedArray type
*/
static bool
jerry_typedarray_find_by_type (jerry_typedarray_type_t type_name, /**< type of the TypedArray */
ecma_builtin_id_t *prototype_id, /**< [out] found prototype object id */
ecma_typedarray_type_t *id, /**< [out] found typedArray id */
uint8_t *element_size_shift) /**< [out] found element size shift value */
{
JERRY_ASSERT (prototype_id != NULL);
JERRY_ASSERT (id != NULL);
JERRY_ASSERT (element_size_shift != NULL);
for (uint32_t i = 0; i < sizeof (jerry_typedarray_mappings) / sizeof (jerry_typedarray_mappings[0]); i++)
{
if (type_name == jerry_typedarray_mappings[i].api_type)
{
*prototype_id = jerry_typedarray_mappings[i].prototype_id;
*id = jerry_typedarray_mappings[i].id;
*element_size_shift = jerry_typedarray_mappings[i].element_size_shift;
return true;
}
}
return false;
} /* jerry_typedarray_find_by_type */
#endif /* JERRY_BUILTIN_TYPEDARRAY */
/**
* Create a TypedArray object with a given type and length.
*
* Notes:
* * returns TypeError if an incorrect type (type_name) is specified.
* * byteOffset property will be set to 0.
* * byteLength property will be a multiple of the length parameter (based on the type).
*
* @return - new TypedArray object
*/
jerry_value_t
jerry_create_typedarray (jerry_typedarray_type_t type_name, /**< type of TypedArray to create */
jerry_length_t length) /**< element count of the new TypedArray */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
ecma_builtin_id_t prototype_id = 0;
ecma_typedarray_type_t id = 0;
uint8_t element_size_shift = 0;
if (!jerry_typedarray_find_by_type (type_name, &prototype_id, &id, &element_size_shift))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Incorrect type for TypedArray")));
}
ecma_object_t *prototype_obj_p = ecma_builtin_get (prototype_id);
ecma_value_t array_value =
ecma_typedarray_create_object_with_length (length, NULL, prototype_obj_p, element_size_shift, id);
JERRY_ASSERT (!ECMA_IS_VALUE_ERROR (array_value));
return array_value;
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (type_name);
JERRY_UNUSED (length);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_create_typedarray */
/**
* Create a TypedArray object using the given arraybuffer and size information.
*
* Notes:
* * returns TypeError if an incorrect type (type_name) is specified.
* * this is the 'new %TypedArray%(arraybuffer, byteOffset, length)' equivalent call.
*
* @return - new TypedArray object
*/
jerry_value_t
jerry_create_typedarray_for_arraybuffer_sz (jerry_typedarray_type_t type_name, /**< type of TypedArray to create */
const jerry_value_t arraybuffer, /**< ArrayBuffer to use */
jerry_length_t byte_offset, /**< offset for the ArrayBuffer */
jerry_length_t length) /**< number of elements to use from ArrayBuffer */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_value_error_reference (arraybuffer))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
ecma_builtin_id_t prototype_id = 0;
ecma_typedarray_type_t id = 0;
uint8_t element_size_shift = 0;
if (!jerry_typedarray_find_by_type (type_name, &prototype_id, &id, &element_size_shift))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Incorrect type for TypedArray")));
}
if (!ecma_is_arraybuffer (arraybuffer))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Argument is not an ArrayBuffer")));
}
ecma_object_t *prototype_obj_p = ecma_builtin_get (prototype_id);
ecma_value_t arguments_p[3] = { arraybuffer, ecma_make_uint32_value (byte_offset), ecma_make_uint32_value (length) };
ecma_value_t array_value = ecma_op_create_typedarray (arguments_p, 3, prototype_obj_p, element_size_shift, id);
ecma_free_value (arguments_p[1]);
ecma_free_value (arguments_p[2]);
return jerry_return (array_value);
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (type_name);
JERRY_UNUSED (arraybuffer);
JERRY_UNUSED (byte_offset);
JERRY_UNUSED (length);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_create_typedarray_for_arraybuffer_sz */
/**
* Create a TypedArray object using the given arraybuffer and size information.
*
* Notes:
* * returns TypeError if an incorrect type (type_name) is specified.
* * this is the 'new %TypedArray%(arraybuffer)' equivalent call.
*
* @return - new TypedArray object
*/
jerry_value_t
jerry_create_typedarray_for_arraybuffer (jerry_typedarray_type_t type_name, /**< type of TypedArray to create */
const jerry_value_t arraybuffer) /**< ArrayBuffer to use */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_value_error_reference (arraybuffer))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
jerry_length_t byteLength = jerry_get_arraybuffer_byte_length (arraybuffer);
return jerry_create_typedarray_for_arraybuffer_sz (type_name, arraybuffer, 0, byteLength);
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (type_name);
JERRY_UNUSED (arraybuffer);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_create_typedarray_for_arraybuffer */
/**
* Get the type of the TypedArray.
*
* @return - type of the TypedArray
* - JERRY_TYPEDARRAY_INVALID if the argument is not a TypedArray
*/
jerry_typedarray_type_t
jerry_get_typedarray_type (jerry_value_t value) /**< object to get the TypedArray type */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!ecma_is_typedarray (value))
{
return JERRY_TYPEDARRAY_INVALID;
}
ecma_object_t *array_p = ecma_get_object_from_value (value);
ecma_typedarray_type_t class_type = ecma_get_typedarray_id (array_p);
for (uint32_t i = 0; i < sizeof (jerry_typedarray_mappings) / sizeof (jerry_typedarray_mappings[0]); i++)
{
if (class_type == jerry_typedarray_mappings[i].id)
{
return jerry_typedarray_mappings[i].api_type;
}
}
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return JERRY_TYPEDARRAY_INVALID;
} /* jerry_get_typedarray_type */
/**
* Get the element count of the TypedArray.
*
* @return length of the TypedArray.
*/
jerry_length_t
jerry_get_typedarray_length (jerry_value_t value) /**< TypedArray to query */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (ecma_is_typedarray (value))
{
ecma_object_t *array_p = ecma_get_object_from_value (value);
return ecma_typedarray_get_length (array_p);
}
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_TYPEDARRAY */
return 0;
} /* jerry_get_typedarray_length */
/**
* Get the underlying ArrayBuffer from a TypedArray.
*
* Additionally the byteLength and byteOffset properties are also returned
* which were specified when the TypedArray was created.
*
* Note:
* the returned value must be freed with a jerry_release_value call
*
* @return ArrayBuffer of a TypedArray
* TypeError if the object is not a TypedArray.
*/
jerry_value_t
jerry_get_typedarray_buffer (jerry_value_t value, /**< TypedArray to get the arraybuffer from */
jerry_length_t *byte_offset, /**< [out] byteOffset property */
jerry_length_t *byte_length) /**< [out] byteLength property */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_TYPEDARRAY
if (!ecma_is_typedarray (value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Object is not a TypedArray")));
}
ecma_object_t *array_p = ecma_get_object_from_value (value);
uint8_t shift = ecma_typedarray_get_element_size_shift (array_p);
if (byte_length != NULL)
{
*byte_length = (jerry_length_t) (ecma_typedarray_get_length (array_p) << shift);
}
if (byte_offset != NULL)
{
*byte_offset = (jerry_length_t) ecma_typedarray_get_offset (array_p);
}
ecma_object_t *arraybuffer_p = ecma_typedarray_get_arraybuffer (array_p);
ecma_ref_object (arraybuffer_p);
return jerry_return (ecma_make_object_value (arraybuffer_p));
#else /* !JERRY_BUILTIN_TYPEDARRAY */
JERRY_UNUSED (value);
JERRY_UNUSED (byte_length);
JERRY_UNUSED (byte_offset);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_typed_array_not_supported_p)));
#endif /* JERRY_BUILTIN_TYPEDARRAY */
} /* jerry_get_typedarray_buffer */
/**
* Parse the given JSON string to create a jerry_value_t.
*
* The behaviour is equivalent with the "JSON.parse(string)" JS call.
*
* Note:
* The returned value must be freed with jerry_release_value.
*
* @return - jerry_value_t containing a JavaScript value.
* - Error value if there was problems during the parse.
*/
jerry_value_t
jerry_json_parse (const jerry_char_t *string_p, /**< json string */
jerry_size_t string_size) /**< json string size */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_JSON
ecma_value_t ret_value = ecma_builtin_json_parse_buffer (string_p, string_size);
if (ecma_is_value_undefined (ret_value))
{
ret_value = jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG ("JSON string parse error")));
}
return jerry_return (ret_value);
#else /* !JERRY_BUILTIN_JSON */
JERRY_UNUSED (string_p);
JERRY_UNUSED (string_size);
return jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG (ecma_error_json_not_supported_p)));
#endif /* JERRY_BUILTIN_JSON */
} /* jerry_json_parse */
/**
* Create a JSON string from a JavaScript value.
*
* The behaviour is equivalent with the "JSON.stringify(input_value)" JS call.
*
* Note:
* The returned value must be freed with jerry_release_value,
*
* @return - jerry_value_t containing a JSON string.
* - Error value if there was a problem during the stringification.
*/
jerry_value_t
jerry_json_stringify (const jerry_value_t input_value) /**< a value to stringify */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_JSON
if (ecma_is_value_error_reference (input_value))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
ecma_value_t ret_value = ecma_builtin_json_stringify_no_opts (input_value);
if (ecma_is_value_undefined (ret_value))
{
ret_value = jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG ("JSON stringify error")));
}
return jerry_return (ret_value);
#else /* JERRY_BUILTIN_JSON */
JERRY_UNUSED (input_value);
return jerry_throw (ecma_raise_syntax_error (ECMA_ERR_MSG (ecma_error_json_not_supported_p)));
#endif /* JERRY_BUILTIN_JSON */
} /* jerry_json_stringify */
/**
* Create a container type specified in jerry_container_type_t.
* The container can be created with a list of arguments, which will be passed to the container constructor to be
* inserted to the container.
*
* Note:
* The returned value must be freed with jerry_release_value
* @return jerry_value_t representing a container with the given type.
*/
jerry_value_t
jerry_create_container (jerry_container_type_t container_type, /**< Type of the container */
const jerry_value_t *arguments_list_p, /**< arguments list */
jerry_length_t arguments_list_len) /**< Length of arguments list */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_CONTAINER
for (jerry_length_t i = 0; i < arguments_list_len; i++)
{
if (ecma_is_value_error_reference (arguments_list_p[i]))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_value_msg_p)));
}
}
lit_magic_string_id_t lit_id;
ecma_builtin_id_t proto_id;
ecma_builtin_id_t ctor_id;
switch (container_type)
{
case JERRY_CONTAINER_TYPE_MAP:
{
lit_id = LIT_MAGIC_STRING_MAP_UL;
proto_id = ECMA_BUILTIN_ID_MAP_PROTOTYPE;
ctor_id = ECMA_BUILTIN_ID_MAP;
break;
}
case JERRY_CONTAINER_TYPE_SET:
{
lit_id = LIT_MAGIC_STRING_SET_UL;
proto_id = ECMA_BUILTIN_ID_SET_PROTOTYPE;
ctor_id = ECMA_BUILTIN_ID_SET;
break;
}
case JERRY_CONTAINER_TYPE_WEAKMAP:
{
lit_id = LIT_MAGIC_STRING_WEAKMAP_UL;
proto_id = ECMA_BUILTIN_ID_WEAKMAP_PROTOTYPE;
ctor_id = ECMA_BUILTIN_ID_WEAKMAP;
break;
}
case JERRY_CONTAINER_TYPE_WEAKSET:
{
lit_id = LIT_MAGIC_STRING_WEAKSET_UL;
proto_id = ECMA_BUILTIN_ID_WEAKSET_PROTOTYPE;
ctor_id = ECMA_BUILTIN_ID_WEAKSET;
break;
}
default:
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Invalid container type")));
}
}
ecma_object_t *old_new_target_p = JERRY_CONTEXT (current_new_target_p);
if (old_new_target_p == NULL)
{
JERRY_CONTEXT (current_new_target_p) = ecma_builtin_get (ctor_id);
}
ecma_value_t container_value = ecma_op_container_create (arguments_list_p, arguments_list_len, lit_id, proto_id);
JERRY_CONTEXT (current_new_target_p) = old_new_target_p;
return container_value;
#else /* !JERRY_BUILTIN_CONTAINER */
JERRY_UNUSED (arguments_list_p);
JERRY_UNUSED (arguments_list_len);
JERRY_UNUSED (container_type);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_container_not_supported_p)));
#endif /* JERRY_BUILTIN_CONTAINER */
} /* jerry_create_container */
/**
* Get the type of the given container object.
*
* @return Corresponding type to the given container object.
*/
jerry_container_type_t
jerry_get_container_type (const jerry_value_t value) /**< the container object */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_CONTAINER
if (ecma_is_value_object (value))
{
ecma_object_t *obj_p = ecma_get_object_from_value (value);
if (ecma_object_class_is (obj_p, ECMA_OBJECT_CLASS_CONTAINER))
{
switch (((ecma_extended_object_t *) obj_p)->u.cls.u2.container_id)
{
case LIT_MAGIC_STRING_MAP_UL:
{
return JERRY_CONTAINER_TYPE_MAP;
}
case LIT_MAGIC_STRING_SET_UL:
{
return JERRY_CONTAINER_TYPE_SET;
}
case LIT_MAGIC_STRING_WEAKMAP_UL:
{
return JERRY_CONTAINER_TYPE_WEAKMAP;
}
case LIT_MAGIC_STRING_WEAKSET_UL:
{
return JERRY_CONTAINER_TYPE_WEAKSET;
}
default:
{
return JERRY_CONTAINER_TYPE_INVALID;
}
}
}
}
#else /* !JERRY_BUILTIN_CONTAINER */
JERRY_UNUSED (value);
#endif /* JERRY_BUILTIN_CONTAINER */
return JERRY_CONTAINER_TYPE_INVALID;
} /* jerry_get_container_type */
/**
* Return a new array containing elements from a Container or a Container Iterator.
* Sets the boolean input value to `true` if the container object has key/value pairs.
*
* Note:
* the returned value must be freed with a jerry_release_value call
*
* @return an array of items for maps/sets or their iterators, error otherwise
*/
jerry_value_t
jerry_get_array_from_container (jerry_value_t value, /**< the container or iterator object */
bool *is_key_value_p) /**< [out] is key-value structure */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_CONTAINER
const char *container_needed = ECMA_ERR_MSG ("Value is not a Container or Iterator");
if (!ecma_is_value_object (value))
{
return jerry_throw (ecma_raise_type_error (container_needed));
}
ecma_object_t *obj_p = ecma_get_object_from_value (value);
if (ecma_get_object_type (obj_p) != ECMA_OBJECT_TYPE_CLASS)
{
return jerry_throw (ecma_raise_type_error (container_needed));
}
ecma_extended_object_t *ext_obj_p = (ecma_extended_object_t *) obj_p;
uint32_t entry_count;
uint8_t entry_size;
uint32_t index = 0;
uint8_t iterator_kind = ECMA_ITERATOR__COUNT;
ecma_value_t *start_p;
*is_key_value_p = false;
if (ext_obj_p->u.cls.type == ECMA_OBJECT_CLASS_MAP_ITERATOR
|| ext_obj_p->u.cls.type == ECMA_OBJECT_CLASS_SET_ITERATOR)
{
ecma_value_t iterated_value = ext_obj_p->u.cls.u3.iterated_value;
if (ecma_is_value_empty (iterated_value))
{
return ecma_op_new_array_object_from_collection (ecma_new_collection (), false);
}
ecma_extended_object_t *map_object_p = (ecma_extended_object_t *) (ecma_get_object_from_value (iterated_value));
ecma_collection_t *container_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_collection_t, map_object_p->u.cls.u3.value);
entry_count = ECMA_CONTAINER_ENTRY_COUNT (container_p);
index = ext_obj_p->u.cls.u2.iterator_index;
entry_size = ecma_op_container_entry_size (map_object_p->u.cls.u2.container_id);
start_p = ECMA_CONTAINER_START (container_p);
iterator_kind = ext_obj_p->u.cls.u1.iterator_kind;
}
else if (jerry_get_container_type (value) != JERRY_CONTAINER_TYPE_INVALID)
{
ecma_collection_t *container_p = ECMA_GET_INTERNAL_VALUE_POINTER (ecma_collection_t, ext_obj_p->u.cls.u3.value);
entry_count = ECMA_CONTAINER_ENTRY_COUNT (container_p);
entry_size = ecma_op_container_entry_size (ext_obj_p->u.cls.u2.container_id);
index = 0;
iterator_kind = ECMA_ITERATOR_KEYS;
start_p = ECMA_CONTAINER_START (container_p);
if (ext_obj_p->u.cls.u2.container_id == LIT_MAGIC_STRING_MAP_UL
|| ext_obj_p->u.cls.u2.container_id == LIT_MAGIC_STRING_WEAKMAP_UL)
{
iterator_kind = ECMA_ITERATOR_ENTRIES;
}
}
else
{
return jerry_throw (ecma_raise_type_error (container_needed));
}
*is_key_value_p = (iterator_kind == ECMA_ITERATOR_ENTRIES);
ecma_collection_t *collection_buffer = ecma_new_collection ();
for (uint32_t i = index; i < entry_count; i += entry_size)
{
ecma_value_t *entry_p = start_p + i;
if (ecma_is_value_empty (*entry_p))
{
continue;
}
if (iterator_kind != ECMA_ITERATOR_VALUES)
{
ecma_collection_push_back (collection_buffer, ecma_copy_value_if_not_object (entry_p[0]));
}
if (iterator_kind != ECMA_ITERATOR_KEYS)
{
ecma_collection_push_back (collection_buffer, ecma_copy_value_if_not_object (entry_p[1]));
}
}
return ecma_op_new_array_object_from_collection (collection_buffer, false);
#else /* !JERRY_BUILTIN_CONTAINER */
JERRY_UNUSED (value);
JERRY_UNUSED (is_key_value_p);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_container_not_supported_p)));
#endif /* JERRY_BUILTIN_CONTAINER */
} /* jerry_get_array_from_container */
/**
* Perform container operation on the given operands (add, get, set, has, delete, size, clear).
*
* @return error - if argument is invalid or operation is unsuccessful or unsupported
* result of the container operation - otherwise.
*/
jerry_value_t
jerry_container_operation (jerry_container_operation_t operation, /**< container operation */
jerry_value_t container, /**< container */
jerry_value_t *arguments, /**< list of arguments */
uint32_t arguments_number) /**< number of arguments */
{
jerry_assert_api_available ();
#if JERRY_BUILTIN_CONTAINER
if (!ecma_is_value_object (container))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Container is not an object.")));
}
ecma_object_t *obj_p = ecma_get_object_from_value (container);
if (ecma_get_object_type (obj_p) != ECMA_OBJECT_TYPE_CLASS)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Container is not a container object.")));
}
uint16_t type = ((ecma_extended_object_t *) obj_p)->u.cls.u2.container_id;
ecma_extended_object_t *container_object_p = ecma_op_container_get_object (container, type);
if (container_object_p == NULL)
{
return ecma_create_error_reference_from_context ();
}
switch (operation)
{
case JERRY_CONTAINER_OP_ADD:
case JERRY_CONTAINER_OP_DELETE:
case JERRY_CONTAINER_OP_GET:
case JERRY_CONTAINER_OP_HAS:
{
if (arguments_number != 1 || ecma_is_value_error_reference (arguments[0]))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
break;
}
case JERRY_CONTAINER_OP_SET:
{
if (arguments_number != 2 || ecma_is_value_error_reference (arguments[0])
|| ecma_is_value_error_reference (arguments[1]))
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
break;
}
case JERRY_CONTAINER_OP_CLEAR:
case JERRY_CONTAINER_OP_SIZE:
{
if (arguments_number != 0)
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
break;
}
default:
{
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_wrong_args_msg_p)));
}
}
jerry_value_t result;
const char *incorrect_type_call = ECMA_ERR_MSG ("Operator called on incorrect container type");
switch (operation)
{
case JERRY_CONTAINER_OP_ADD:
{
if (type == LIT_MAGIC_STRING_MAP_UL || type == LIT_MAGIC_STRING_WEAKMAP_UL)
{
return jerry_throw (ecma_raise_type_error (incorrect_type_call));
}
result = ecma_op_container_set (container_object_p, arguments[0], arguments[0], type);
break;
}
case JERRY_CONTAINER_OP_GET:
{
if (type == LIT_MAGIC_STRING_SET_UL || type == LIT_MAGIC_STRING_WEAKSET_UL)
{
return jerry_throw (ecma_raise_type_error (incorrect_type_call));
}
result = ecma_op_container_get (container_object_p, arguments[0], type);
break;
}
case JERRY_CONTAINER_OP_SET:
{
if (type == LIT_MAGIC_STRING_SET_UL || type == LIT_MAGIC_STRING_WEAKSET_UL)
{
return jerry_throw (ecma_raise_type_error (incorrect_type_call));
}
result = ecma_op_container_set (container_object_p, arguments[0], arguments[1], type);
break;
}
case JERRY_CONTAINER_OP_HAS:
{
result = ecma_op_container_has (container_object_p, arguments[0], type);
break;
}
case JERRY_CONTAINER_OP_DELETE:
{
if (type == LIT_MAGIC_STRING_WEAKMAP_UL || type == LIT_MAGIC_STRING_WEAKSET_UL)
{
result = ecma_op_container_delete_weak (container_object_p, arguments[0], type);
break;
}
result = ecma_op_container_delete (container_object_p, arguments[0], type);
break;
}
case JERRY_CONTAINER_OP_SIZE:
{
result = ecma_op_container_size (container_object_p);
break;
}
case JERRY_CONTAINER_OP_CLEAR:
{
if (type == LIT_MAGIC_STRING_WEAKSET_UL || type == LIT_MAGIC_STRING_WEAKMAP_UL)
{
return jerry_throw (ecma_raise_type_error (incorrect_type_call));
}
result = ecma_op_container_clear (container_object_p);
break;
}
default:
{
result = jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG ("Unsupported container operation")));
break;
}
}
return jerry_return (result);
#else /* !JERRY_BUILTIN_CONTAINER */
JERRY_UNUSED (operation);
JERRY_UNUSED (container);
JERRY_UNUSED (arguments);
JERRY_UNUSED (arguments_number);
return jerry_throw (ecma_raise_type_error (ECMA_ERR_MSG (ecma_error_container_not_supported_p)));
#endif /* JERRY_BUILTIN_CONTAINER */
} /* jerry_container_operation */
/**
* @}
*/
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