/* 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 "ecma-alloc.h" #include "ecma-builtins.h" #include "ecma-conversion.h" #include "ecma-eval.h" #include "ecma-exceptions.h" #include "ecma-gc.h" #include "ecma-globals.h" #include "ecma-helpers.h" #include "ecma-try-catch-macro.h" #include "jrt.h" #include "lit-char-helpers.h" #include "lit-magic-strings.h" #include "lit-strings.h" #include "vm.h" #include "jcontext.h" #include "jrt-libc-includes.h" #include "jrt-bit-fields.h" #define ECMA_BUILTINS_INTERNAL #include "ecma-builtins-internal.h" /** * This object has a custom dispatch function. */ #define BUILTIN_CUSTOM_DISPATCH /** * List of built-in routine identifiers. */ enum { ECMA_GLOBAL_ROUTINE_START = ECMA_BUILTIN_ID__COUNT - 1, /* Note: these 5 routine ids must be in this order */ ECMA_GLOBAL_IS_NAN, ECMA_GLOBAL_IS_FINITE, ECMA_GLOBAL_EVAL, ECMA_GLOBAL_PARSE_INT, ECMA_GLOBAL_PARSE_FLOAT, ECMA_GLOBAL_DECODE_URI, ECMA_GLOBAL_DECODE_URI_COMPONENT, ECMA_GLOBAL_ENCODE_URI, ECMA_GLOBAL_ENCODE_URI_COMPONENT, ECMA_GLOBAL_ESCAPE, ECMA_GLOBAL_UNESCAPE, }; #define BUILTIN_INC_HEADER_NAME "ecma-builtin-global.inc.h" #define BUILTIN_UNDERSCORED_ID global #include "ecma-builtin-internal-routines-template.inc.h" /** \addtogroup ecma ECMA * @{ * * \addtogroup ecmabuiltins * @{ * * \addtogroup global ECMA Global object built-in * @{ */ /** * The Global object's 'eval' routine * * See also: * ECMA-262 v5, 15.1.2.1 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_eval (ecma_value_t x) /**< routine's first argument */ { if (JERRY_UNLIKELY (!ecma_is_value_string (x))) { /* step 1 */ return ecma_copy_value (x); } uint32_t parse_opts = vm_is_direct_eval_form_call () ? ECMA_PARSE_DIRECT_EVAL : ECMA_PARSE_NO_OPTS; /* See also: ECMA-262 v5, 10.1.1 */ if (parse_opts && vm_is_strict_mode ()) { JERRY_ASSERT (parse_opts & ECMA_PARSE_DIRECT_EVAL); parse_opts |= ECMA_PARSE_STRICT_MODE; } #if ENABLED (JERRY_ES2015) if (vm_is_direct_eval_form_call ()) { parse_opts |= ECMA_GET_LOCAL_PARSE_OPTS (); } #endif /* ENABLED (JERRY_ES2015) */ /* steps 2 to 8 */ return ecma_op_eval (ecma_get_string_from_value (x), parse_opts); } /* ecma_builtin_global_object_eval */ /** * The Global object's 'isNaN' routine * * See also: * ECMA-262 v5, 15.1.2.4 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_is_nan (ecma_number_t arg_num) /**< routine's first argument */ { return ecma_make_boolean_value (ecma_number_is_nan (arg_num)); } /* ecma_builtin_global_object_is_nan */ /** * The Global object's 'isFinite' routine * * See also: * ECMA-262 v5, 15.1.2.5 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_is_finite (ecma_number_t arg_num) /**< routine's first argument */ { bool is_finite = !(ecma_number_is_nan (arg_num) || ecma_number_is_infinity (arg_num)); return ecma_make_boolean_value (is_finite); } /* ecma_builtin_global_object_is_finite */ /** * Helper function to check whether a character is in a character bitset. * * @return true if the character is in the character bitset. */ static bool ecma_builtin_global_object_character_is_in (uint32_t character, /**< character */ const uint8_t *bitset) /**< character set */ { JERRY_ASSERT (character < 128); return (bitset[character >> 3] & (1u << (character & 0x7))) != 0; } /* ecma_builtin_global_object_character_is_in */ /** * Unescaped URI characters bitset: * One bit for each character between 0 - 127. * Bit is set if the character is in the unescaped URI set. */ static const uint8_t unescaped_uri_set[16] = { 0x0, 0x0, 0x0, 0x0, 0xda, 0xff, 0xff, 0xaf, 0xff, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x47 }; /** * Unescaped URI component characters bitset: * One bit for each character between 0 - 127. * Bit is set if the character is in the unescaped component URI set. */ static const uint8_t unescaped_uri_component_set[16] = { 0x0, 0x0, 0x0, 0x0, 0x82, 0x67, 0xff, 0x3, 0xfe, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x47 }; /** * Format is a percent sign followed by two hex digits. */ #define URI_ENCODED_BYTE_SIZE (3) /** * The Global object's 'decodeURI' and 'decodeURIComponent' routines * * See also: * ECMA-262 v5, 15.1.3.1 * ECMA-262 v5, 15.1.3.2 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_decode_uri_helper (lit_utf8_byte_t *input_start_p, /**< routine's first argument's * string buffer */ lit_utf8_size_t input_size, /**< routine's first argument's * string buffer's size */ const uint8_t *reserved_uri_bitset) /**< reserved characters bitset */ { lit_utf8_byte_t *input_char_p = input_start_p; lit_utf8_byte_t *input_end_p = input_start_p + input_size; lit_utf8_size_t output_size = 0; /* * The URI decoding has two major phases: first we validate the input, * and compute the length of the output, then we decode the input. */ while (input_char_p < input_end_p) { /* * We expect that the input is a valid UTF-8 sequence, * so characters >= 0x80 can be let through. */ if (*input_char_p != '%') { output_size++; input_char_p++; continue; } uint32_t hex_value = lit_char_hex_lookup (input_char_p + 1, input_end_p, 2); if (hex_value == UINT32_MAX) { return ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid hexadecimal value.")); } ecma_char_t decoded_byte = (ecma_char_t) hex_value; input_char_p += URI_ENCODED_BYTE_SIZE; if (decoded_byte <= LIT_UTF8_1_BYTE_CODE_POINT_MAX) { /* * We don't decode those bytes, which are part of reserved_uri_bitset * but not part of unescaped_uri_component_set. */ if (ecma_builtin_global_object_character_is_in (decoded_byte, reserved_uri_bitset) && !ecma_builtin_global_object_character_is_in (decoded_byte, unescaped_uri_component_set)) { output_size += URI_ENCODED_BYTE_SIZE; } else { output_size++; } } else if ((decoded_byte & LIT_UTF8_4_BYTE_MASK) == LIT_UTF8_4_BYTE_MARKER) { output_size += 3; } else { output_size++; } } ecma_value_t ret_value = ECMA_VALUE_EMPTY; JMEM_DEFINE_LOCAL_ARRAY (output_start_p, output_size, lit_utf8_byte_t); input_char_p = input_start_p; lit_utf8_byte_t *output_char_p = output_start_p; while (input_char_p < input_end_p) { /* Input decode. */ if (*input_char_p != '%') { *output_char_p++ = *input_char_p++; continue; } uint32_t hex_value = lit_char_hex_lookup (input_char_p + 1, input_end_p, 2); if (hex_value == UINT32_MAX) { ret_value = ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid hexadecimal value.")); break; } ecma_char_t decoded_byte = (ecma_char_t) hex_value; input_char_p += URI_ENCODED_BYTE_SIZE; if (decoded_byte <= LIT_UTF8_1_BYTE_CODE_POINT_MAX) { if (ecma_builtin_global_object_character_is_in (decoded_byte, reserved_uri_bitset) && !ecma_builtin_global_object_character_is_in (decoded_byte, unescaped_uri_component_set)) { *output_char_p = '%'; output_char_p++; input_char_p -= 2; } else { *output_char_p++ = (lit_utf8_byte_t) decoded_byte; } } else { uint32_t bytes_count; if ((decoded_byte & LIT_UTF8_2_BYTE_MASK) == LIT_UTF8_2_BYTE_MARKER) { bytes_count = 2; } else if ((decoded_byte & LIT_UTF8_3_BYTE_MASK) == LIT_UTF8_3_BYTE_MARKER) { bytes_count = 3; } else if ((decoded_byte & LIT_UTF8_4_BYTE_MASK) == LIT_UTF8_4_BYTE_MARKER) { bytes_count = 4; } else { ret_value = ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid UTF8 character.")); break; } lit_utf8_byte_t octets[LIT_UTF8_MAX_BYTES_IN_CODE_POINT]; octets[0] = (lit_utf8_byte_t) decoded_byte; bool is_valid = true; for (uint32_t i = 1; i < bytes_count; i++) { if (input_char_p >= input_end_p || *input_char_p != '%') { is_valid = false; break; } else { hex_value = lit_char_hex_lookup (input_char_p + 1, input_end_p, 2); if (hex_value == UINT32_MAX || (hex_value & LIT_UTF8_EXTRA_BYTE_MASK) != LIT_UTF8_EXTRA_BYTE_MARKER) { is_valid = false; break; } input_char_p += URI_ENCODED_BYTE_SIZE; octets[i] = (lit_utf8_byte_t) hex_value; } } if (!is_valid || !lit_is_valid_utf8_string (octets, bytes_count)) { ret_value = ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid UTF8 string.")); break; } lit_code_point_t cp; lit_read_code_point_from_utf8 (octets, bytes_count, &cp); if (lit_is_code_point_utf16_high_surrogate (cp) || lit_is_code_point_utf16_low_surrogate (cp)) { ret_value = ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid UTF8 codepoint.")); break; } output_char_p += lit_code_point_to_cesu8 (cp, output_char_p); } } if (ecma_is_value_empty (ret_value)) { JERRY_ASSERT (output_start_p + output_size == output_char_p); if (lit_is_valid_cesu8_string (output_start_p, output_size)) { ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (output_start_p, output_size); ret_value = ecma_make_string_value (output_string_p); } else { ret_value = ecma_raise_uri_error (ECMA_ERR_MSG ("Invalid CESU8 string.")); } } JMEM_FINALIZE_LOCAL_ARRAY (output_start_p); return ret_value; } /* ecma_builtin_global_object_decode_uri_helper */ /** * Helper function to encode byte as hexadecimal values. */ static void ecma_builtin_global_object_byte_to_hex (lit_utf8_byte_t *dest_p, /**< destination pointer */ uint32_t byte) /**< value */ { JERRY_ASSERT (byte < 256); dest_p[0] = LIT_CHAR_PERCENT; ecma_char_t hex_digit = (ecma_char_t) (byte >> 4); dest_p[1] = (lit_utf8_byte_t) ((hex_digit > 9) ? (hex_digit + ('A' - 10)) : (hex_digit + '0')); hex_digit = (lit_utf8_byte_t) (byte & 0xf); dest_p[2] = (lit_utf8_byte_t) ((hex_digit > 9) ? (hex_digit + ('A' - 10)) : (hex_digit + '0')); } /* ecma_builtin_global_object_byte_to_hex */ /** * The Global object's 'encodeURI' and 'encodeURIComponent' routines * * See also: * ECMA-262 v5, 15.1.3.3 * ECMA-262 v5, 15.1.3.4 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_encode_uri_helper (lit_utf8_byte_t *input_start_p, /**< routine's first argument's * string buffer */ lit_utf8_size_t input_size, /**< routine's first argument's * string buffer's size */ const uint8_t *unescaped_uri_bitset_p) /**< unescaped bitset */ { /* * The URI encoding has two major phases: first we validate the input, * and compute the length of the output, then we encode the input. */ lit_utf8_byte_t *input_char_p = input_start_p; const lit_utf8_byte_t *input_end_p = input_start_p + input_size; lit_utf8_size_t output_length = 0; lit_code_point_t cp; ecma_char_t ch; lit_utf8_byte_t octets[LIT_UTF8_MAX_BYTES_IN_CODE_POINT]; memset (octets, LIT_BYTE_NULL, LIT_UTF8_MAX_BYTES_IN_CODE_POINT); while (input_char_p < input_end_p) { /* Input validation, we need to reject stray surrogates. */ input_char_p += lit_read_code_unit_from_utf8 (input_char_p, &ch); if (lit_is_code_point_utf16_low_surrogate (ch)) { return ecma_raise_uri_error (ECMA_ERR_MSG ("Unicode surrogate pair missing.")); } cp = ch; if (lit_is_code_point_utf16_high_surrogate (ch)) { if (input_char_p == input_end_p) { return ecma_raise_uri_error (ECMA_ERR_MSG ("Unicode surrogate pair missing.")); } ecma_char_t next_ch; lit_utf8_size_t read_size = lit_read_code_unit_from_utf8 (input_char_p, &next_ch); if (lit_is_code_point_utf16_low_surrogate (next_ch)) { cp = lit_convert_surrogate_pair_to_code_point (ch, next_ch); input_char_p += read_size; } else { return ecma_raise_uri_error (ECMA_ERR_MSG ("Unicode surrogate pair missing.")); } } lit_utf8_size_t utf_size = lit_code_point_to_utf8 (cp, octets); if (utf_size == 1) { if (ecma_builtin_global_object_character_is_in (octets[0], unescaped_uri_bitset_p)) { output_length++; } else { output_length += URI_ENCODED_BYTE_SIZE; } } else { output_length += utf_size * URI_ENCODED_BYTE_SIZE; } } ecma_value_t ret_value; JMEM_DEFINE_LOCAL_ARRAY (output_start_p, output_length, lit_utf8_byte_t); lit_utf8_byte_t *output_char_p = output_start_p; input_char_p = input_start_p; while (input_char_p < input_end_p) { /* Input decode. */ input_char_p += lit_read_code_unit_from_utf8 (input_char_p, &ch); cp = ch; if (lit_is_code_point_utf16_high_surrogate (ch)) { ecma_char_t next_ch; lit_utf8_size_t read_size = lit_read_code_unit_from_utf8 (input_char_p, &next_ch); if (lit_is_code_point_utf16_low_surrogate (next_ch)) { cp = lit_convert_surrogate_pair_to_code_point (ch, next_ch); input_char_p += read_size; } } lit_utf8_size_t utf_size = lit_code_point_to_utf8 (cp, octets); if (utf_size == 1) { if (ecma_builtin_global_object_character_is_in (octets[0], unescaped_uri_bitset_p)) { *output_char_p++ = octets[0]; } else { ecma_builtin_global_object_byte_to_hex (output_char_p, octets[0]); output_char_p += URI_ENCODED_BYTE_SIZE; } } else { for (uint32_t i = 0; i < utf_size; i++) { ecma_builtin_global_object_byte_to_hex (output_char_p, octets[i]); output_char_p += URI_ENCODED_BYTE_SIZE; } } } JERRY_ASSERT (output_start_p + output_length == output_char_p); ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (output_start_p, output_length); ret_value = ecma_make_string_value (output_string_p); JMEM_FINALIZE_LOCAL_ARRAY (output_start_p); return ret_value; } /* ecma_builtin_global_object_encode_uri_helper */ #if ENABLED (JERRY_BUILTIN_ANNEXB) /** * Maximum value of a byte. */ #define ECMA_ESCAPE_MAXIMUM_BYTE_VALUE (255) /** * Format is a percent sign followed by lowercase u and four hex digits. */ #define ECMA_ESCAPE_ENCODED_UNICODE_CHARACTER_SIZE (6) /** * Escape characters bitset: * One bit for each character between 0 - 127. * Bit is set if the character does not need to be converted to %xx form. * These characters are: a-z A-Z 0-9 @ * _ + - . / */ static const uint8_t ecma_escape_set[16] = { 0x0, 0x0, 0x0, 0x0, 0x0, 0xec, 0xff, 0x3, 0xff, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x7 }; /** * The Global object's 'escape' routine * * See also: * ECMA-262 v5, B.2.1 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_escape (lit_utf8_byte_t *input_start_p, /**< routine's first argument's * string buffer */ lit_utf8_size_t input_size) /**< routine's first argument's * string buffer's size */ { /* * The escape routine has two major phases: first we compute * the length of the output, then we encode the input. */ const lit_utf8_byte_t *input_curr_p = input_start_p; const lit_utf8_byte_t *input_end_p = input_start_p + input_size; lit_utf8_size_t output_length = 0; while (input_curr_p < input_end_p) { ecma_char_t chr = lit_cesu8_read_next (&input_curr_p); if (chr <= LIT_UTF8_1_BYTE_CODE_POINT_MAX) { if (ecma_builtin_global_object_character_is_in ((uint32_t) chr, ecma_escape_set)) { output_length++; } else { output_length += URI_ENCODED_BYTE_SIZE; } } else if (chr > ECMA_ESCAPE_MAXIMUM_BYTE_VALUE) { output_length += ECMA_ESCAPE_ENCODED_UNICODE_CHARACTER_SIZE; } else { output_length += URI_ENCODED_BYTE_SIZE; } } ecma_value_t ret_value; JMEM_DEFINE_LOCAL_ARRAY (output_start_p, output_length, lit_utf8_byte_t); lit_utf8_byte_t *output_char_p = output_start_p; input_curr_p = input_start_p; while (input_curr_p < input_end_p) { ecma_char_t chr = lit_cesu8_read_next (&input_curr_p); if (chr <= LIT_UTF8_1_BYTE_CODE_POINT_MAX) { if (ecma_builtin_global_object_character_is_in ((uint32_t) chr, ecma_escape_set)) { *output_char_p = (lit_utf8_byte_t) chr; output_char_p++; } else { ecma_builtin_global_object_byte_to_hex (output_char_p, (lit_utf8_byte_t) chr); output_char_p += URI_ENCODED_BYTE_SIZE; } } else if (chr > ECMA_ESCAPE_MAXIMUM_BYTE_VALUE) { /* * Although ecma_builtin_global_object_byte_to_hex inserts a percent (%) sign * the follow-up changes overwrites it. We call this function twice to * produce four hexadecimal characters (%uxxxx format). */ ecma_builtin_global_object_byte_to_hex (output_char_p + 3, (lit_utf8_byte_t) (chr & 0xff)); ecma_builtin_global_object_byte_to_hex (output_char_p + 1, (lit_utf8_byte_t) (chr >> JERRY_BITSINBYTE)); output_char_p[0] = LIT_CHAR_PERCENT; output_char_p[1] = LIT_CHAR_LOWERCASE_U; output_char_p += ECMA_ESCAPE_ENCODED_UNICODE_CHARACTER_SIZE; } else { ecma_builtin_global_object_byte_to_hex (output_char_p, (lit_utf8_byte_t) chr); output_char_p += URI_ENCODED_BYTE_SIZE; } } JERRY_ASSERT (output_start_p + output_length == output_char_p); ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (output_start_p, output_length); ret_value = ecma_make_string_value (output_string_p); JMEM_FINALIZE_LOCAL_ARRAY (output_start_p); return ret_value; } /* ecma_builtin_global_object_escape */ /** * The Global object's 'unescape' routine * * See also: * ECMA-262 v5, B.2.2 * * @return ecma value * Returned value must be freed with ecma_free_value. */ static ecma_value_t ecma_builtin_global_object_unescape (lit_utf8_byte_t *input_start_p, /**< routine's first argument's * string buffer */ lit_utf8_size_t input_size) /**< routine's first argument's * string buffer's size */ { const lit_utf8_byte_t *input_curr_p = input_start_p; const lit_utf8_byte_t *input_end_p = input_start_p + input_size; /* 4. */ /* The length of input string is always greater than output string * so we re-use the input string buffer. * The %xx is three byte long, and the maximum encoded value is 0xff, * which maximum encoded length is two byte. Similar to this, the maximum * encoded length of %uxxxx is four byte. */ lit_utf8_byte_t *output_char_p = input_start_p; /* The state of parsing that tells us where we are in an escape pattern. * 0 we are outside of pattern, * 1 found '%', start of pattern, * 2 found first hex digit of '%xy' pattern * 3 found valid '%xy' pattern * 4 found 'u', start of '%uwxyz' pattern * 5-7 found hex digits of '%uwxyz' pattern * 8 found valid '%uwxyz' pattern */ uint8_t status = 0; ecma_char_t hex_digits = 0; /* 5. */ while (input_curr_p < input_end_p) { /* 6. */ ecma_char_t chr = lit_cesu8_read_next (&input_curr_p); /* 7-8. */ if (status == 0 && chr == LIT_CHAR_PERCENT) { /* Found '%' char, start of escape sequence. */ status = 1; } /* 9-10. */ else if (status == 1 && chr == LIT_CHAR_LOWERCASE_U) { /* Found 'u' char after '%'. */ status = 4; } else if (status > 0 && lit_char_is_hex_digit (chr)) { /* Found hexadecimal digit in escape sequence. */ hex_digits = (ecma_char_t) (hex_digits * 16 + (ecma_char_t) lit_char_hex_to_int (chr)); status++; } else { /* Previously found hexadecimal digit in escape sequence but it's not valid '%xy' pattern * so essentially it was only a simple character. */ status = 0; } /* 11-17. Found valid '%uwxyz' or '%xy' escape. */ if (status == 8 || status == 3) { output_char_p -= (status == 3) ? 2 : 5; status = 0; chr = hex_digits; hex_digits = 0; } /* Copying character. */ lit_utf8_size_t lit_size = lit_code_unit_to_utf8 (chr, output_char_p); output_char_p += lit_size; JERRY_ASSERT (output_char_p <= input_curr_p); } lit_utf8_size_t output_length = (lit_utf8_size_t) (output_char_p - input_start_p); ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (input_start_p, output_length); return ecma_make_string_value (output_string_p); } /* ecma_builtin_global_object_unescape */ #endif /* ENABLED (JERRY_BUILTIN_ANNEXB) */ /** * Dispatcher of the built-in's routines * * @return ecma value * Returned value must be freed with ecma_free_value. */ ecma_value_t ecma_builtin_global_dispatch_routine (uint16_t builtin_routine_id, /**< built-in wide routine identifier */ ecma_value_t this_arg, /**< 'this' argument value */ const ecma_value_t arguments_list_p[], /**< list of arguments * passed to routine */ ecma_length_t arguments_number) /**< length of arguments' list */ { JERRY_UNUSED (this_arg); JERRY_UNUSED (arguments_list_p); JERRY_UNUSED (arguments_number); ecma_value_t routine_arg_1 = arguments_list_p[0]; if (builtin_routine_id == ECMA_GLOBAL_EVAL) { return ecma_builtin_global_object_eval (routine_arg_1); } if (builtin_routine_id <= ECMA_GLOBAL_IS_FINITE) { ecma_number_t arg_num; routine_arg_1 = ecma_get_number (routine_arg_1, &arg_num); if (!ecma_is_value_empty (routine_arg_1)) { return routine_arg_1; } if (builtin_routine_id == ECMA_GLOBAL_IS_NAN) { return ecma_builtin_global_object_is_nan (arg_num); } JERRY_ASSERT (builtin_routine_id == ECMA_GLOBAL_IS_FINITE); return ecma_builtin_global_object_is_finite (arg_num); } ecma_string_t *str_p = ecma_op_to_string (routine_arg_1); if (JERRY_UNLIKELY (str_p == NULL)) { return ECMA_VALUE_ERROR; } ecma_value_t ret_value; if (builtin_routine_id <= ECMA_GLOBAL_PARSE_FLOAT) { ECMA_STRING_TO_UTF8_STRING (str_p, string_buff, string_buff_size); if (builtin_routine_id == ECMA_GLOBAL_PARSE_INT) { ret_value = ecma_number_parse_int (string_buff, string_buff_size, arguments_list_p[1]); } else { JERRY_ASSERT (builtin_routine_id == ECMA_GLOBAL_PARSE_FLOAT); ret_value = ecma_number_parse_float (string_buff, string_buff_size); } ECMA_FINALIZE_UTF8_STRING (string_buff, string_buff_size); ecma_deref_ecma_string (str_p); return ret_value; } lit_utf8_size_t input_size = ecma_string_get_size (str_p); JMEM_DEFINE_LOCAL_ARRAY (input_start_p, input_size + 1, lit_utf8_byte_t); ecma_string_to_utf8_bytes (str_p, input_start_p, input_size); input_start_p[input_size] = LIT_BYTE_NULL; switch (builtin_routine_id) { #if ENABLED (JERRY_BUILTIN_ANNEXB) case ECMA_GLOBAL_ESCAPE: { ret_value = ecma_builtin_global_object_escape (input_start_p, input_size); break; } case ECMA_GLOBAL_UNESCAPE: { ret_value = ecma_builtin_global_object_unescape (input_start_p, input_size); break; } #endif /* ENABLED (JERRY_BUILTIN_ANNEXB) */ case ECMA_GLOBAL_DECODE_URI: case ECMA_GLOBAL_DECODE_URI_COMPONENT: { const uint8_t *uri_set = (builtin_routine_id == ECMA_GLOBAL_DECODE_URI ? unescaped_uri_set : unescaped_uri_component_set); ret_value = ecma_builtin_global_object_decode_uri_helper (input_start_p, input_size, uri_set); break; } default: { JERRY_ASSERT (builtin_routine_id == ECMA_GLOBAL_ENCODE_URI || builtin_routine_id == ECMA_GLOBAL_ENCODE_URI_COMPONENT); const uint8_t *uri_set = (builtin_routine_id == ECMA_GLOBAL_ENCODE_URI ? unescaped_uri_set : unescaped_uri_component_set); ret_value = ecma_builtin_global_object_encode_uri_helper (input_start_p, input_size, uri_set); break; } } JMEM_FINALIZE_LOCAL_ARRAY (input_start_p); ecma_deref_ecma_string (str_p); return ret_value; } /* ecma_builtin_global_dispatch_routine */ /** * @} * @} * @} */