/* Copyright 2014-2015 Samsung Electronics Co., Ltd. * Copyright 2015 University of Szeged * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "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-magic-strings.h" #include "vm.h" #include "jrt-libc-includes.h" #define ECMA_BUILTINS_INTERNAL #include "ecma-builtins-internal.h" #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 completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_eval (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t x) /**< routine's first argument */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); bool is_direct_eval = vm_is_direct_eval_form_call (); /* See also: ECMA-262 v5, 10.1.1 */ bool is_called_from_strict_mode_code; if (is_direct_eval) { is_called_from_strict_mode_code = vm_is_strict_mode (); } else { is_called_from_strict_mode_code = false; } if (!ecma_is_value_string (x)) { /* step 1 */ ret_value = ecma_make_normal_completion_value (ecma_copy_value (x, true)); } else { /* steps 2 to 8 */ ret_value = ecma_op_eval (ecma_get_string_from_value (x), is_direct_eval, is_called_from_strict_mode_code); } return ret_value; } /* ecma_builtin_global_object_eval */ /** * The Global object's 'parseInt' routine * * See also: * ECMA-262 v5, 15.1.2.2 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_parse_int (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t string, /**< routine's first argument */ ecma_value_t radix) /**< routine's second argument */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); /* 1. */ ECMA_TRY_CATCH (string_var, ecma_op_to_string (string), ret_value); ecma_string_t *number_str_p = ecma_get_string_from_value (string_var); ecma_length_t str_size = ecma_string_get_length (number_str_p); MEM_DEFINE_LOCAL_ARRAY (utf8_string_buff, str_size + 1, lit_utf8_byte_t); ssize_t bytes_copied = ecma_string_to_utf8_string (number_str_p, utf8_string_buff, (ssize_t) str_size); JERRY_ASSERT (bytes_copied >= 0); utf8_string_buff[str_size] = LIT_BYTE_NULL; /* 2. Remove leading whitespace. */ ecma_length_t start = str_size; ecma_length_t end = str_size; for (ecma_length_t i = 0; i < end; i++) { if (!(isspace (utf8_string_buff[i]))) { start = i; break; } } /* 3. */ int sign = 1; /* 4. */ if (utf8_string_buff[start] == '-') { sign = -1; } /* 5. */ if (utf8_string_buff[start] == '-' || utf8_string_buff[start] == '+') { start++; } /* 6. */ ECMA_OP_TO_NUMBER_TRY_CATCH (radix_num, radix, ret_value); int32_t rad = ecma_number_to_int32 (radix_num); /* 7.*/ bool strip_prefix = true; /* 8. */ if (rad != 0) { /* 8.a */ if (rad < 2 || rad > 36) { ecma_number_t *ret_num_p = ecma_alloc_number (); *ret_num_p = ecma_number_make_nan (); ret_value = ecma_make_normal_completion_value (ecma_make_number_value (ret_num_p)); } /* 8.b */ else if (rad != 16) { strip_prefix = false; } } /* 9. */ else { rad = 10; } if (ecma_is_completion_value_empty (ret_value)) { /* 10. */ if (strip_prefix) { if (end - start >= 2 && utf8_string_buff[start] == '0' && (utf8_string_buff[start + 1] == 'x' || utf8_string_buff[start + 1] == 'X')) { start += 2; rad = 16; } } /* 11. Check if characters are in [0, Radix - 1]. We also convert them to number values in the process. */ for (lit_utf8_size_t i = start; i < end; i++) { if ((utf8_string_buff[i]) >= 'a' && utf8_string_buff[i] <= 'z') { utf8_string_buff[i] = (lit_utf8_byte_t) (utf8_string_buff[i] - 'a' + 10); } else if (utf8_string_buff[i] >= 'A' && utf8_string_buff[i] <= 'Z') { utf8_string_buff[i] = (lit_utf8_byte_t) (utf8_string_buff[i] - 'A' + 10); } else if (isdigit (utf8_string_buff[i])) { utf8_string_buff[i] = (lit_utf8_byte_t) (utf8_string_buff[i] - '0'); } else { /* Not a valid number char, set value to radix so it fails to pass as a valid character. */ utf8_string_buff[i] = (lit_utf8_byte_t) rad; } if (!(utf8_string_buff[i] < rad)) { end = i; break; } } /* 12. */ if (end - start == 0) { ecma_number_t *ret_num_p = ecma_alloc_number (); *ret_num_p = ecma_number_make_nan (); ret_value = ecma_make_normal_completion_value (ecma_make_number_value (ret_num_p)); } } if (ecma_is_completion_value_empty (ret_value)) { ecma_number_t *value_p = ecma_alloc_number (); *value_p = 0; ecma_number_t multiplier = 1.0f; /* 13. and 14. */ for (int32_t i = (int32_t) end - 1; i >= (int32_t) start; i--) { *value_p += (ecma_number_t) utf8_string_buff[i] * multiplier; multiplier *= (ecma_number_t) rad; } /* 15. */ if (sign < 0) { *value_p *= (ecma_number_t) sign; } ret_value = ecma_make_normal_completion_value (ecma_make_number_value (value_p)); } ECMA_OP_TO_NUMBER_FINALIZE (radix_num); MEM_FINALIZE_LOCAL_ARRAY (utf8_string_buff); ECMA_FINALIZE (string_var); return ret_value; } /* ecma_builtin_global_object_parse_int */ /** * The Global object's 'parseFloat' routine * * See also: * ECMA-262 v5, 15.1.2.3 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_parse_float (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t string) /**< routine's first argument */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); /* 1. */ ECMA_TRY_CATCH (string_var, ecma_op_to_string (string), ret_value); ecma_string_t *number_str_p = ecma_get_string_from_value (string_var); lit_utf8_size_t str_size = ecma_string_get_size (number_str_p); MEM_DEFINE_LOCAL_ARRAY (utf8_string_buff, str_size + 1, lit_utf8_byte_t); ssize_t bytes_copied = ecma_string_to_utf8_string (number_str_p, utf8_string_buff, (ssize_t) str_size); JERRY_ASSERT (bytes_copied >= 0); utf8_string_buff[str_size] = LIT_BYTE_NULL; /* 2. Find first non whitespace char. */ lit_utf8_size_t start = 0; for (lit_utf8_size_t i = 0; i < str_size; i++) { if (!isspace (utf8_string_buff[i])) { start = i; break; } } bool sign = false; /* Check if sign is present. */ if (utf8_string_buff[start] == '-') { sign = true; start++; } else if (utf8_string_buff[start] == '+') { start++; } ecma_number_t *ret_num_p = ecma_alloc_number (); /* Check if string is equal to "Infinity". */ const lit_utf8_byte_t *infinity_utf8_str_p = lit_get_magic_string_utf8 (LIT_MAGIC_STRING_INFINITY_UL); for (lit_utf8_size_t i = 0; infinity_utf8_str_p[i] == utf8_string_buff[start + i]; i++) { if (infinity_utf8_str_p[i + 1] == 0) { *ret_num_p = ecma_number_make_infinity (sign); ret_value = ecma_make_normal_completion_value (ecma_make_number_value (ret_num_p)); break; } } if (ecma_is_completion_value_empty (ret_value)) { lit_utf8_size_t current = start; lit_utf8_size_t end = str_size; bool has_whole_part = false; bool has_fraction_part = false; if (isdigit (utf8_string_buff[current])) { has_whole_part = true; /* Check digits of whole part. */ for (lit_utf8_size_t i = current; i < str_size; i++, current++) { if (!isdigit (utf8_string_buff[current])) { break; } } } end = current; /* Check decimal point. */ if (utf8_string_buff[current] == '.') { current++; if (isdigit (utf8_string_buff[current])) { has_fraction_part = true; /* Check digits of fractional part. */ for (lit_utf8_size_t i = current; i < str_size; i++, current++) { if (!isdigit (utf8_string_buff[current])) { break; } } end = current; } } /* Check exponent. */ if ((utf8_string_buff[current] == 'e' || utf8_string_buff[current] == 'E') && (has_whole_part || has_fraction_part)) { current++; /* Check sign of exponent. */ if (utf8_string_buff[current] == '-' || utf8_string_buff[current] == '+') { current++; } if (isdigit (utf8_string_buff[current])) { /* Check digits of exponent part. */ for (lit_utf8_size_t i = current; i < str_size; i++, current++) { if (!isdigit (utf8_string_buff[current])) { break; } } end = current; } } if (start == end) { *ret_num_p = ecma_number_make_nan (); ret_value = ecma_make_normal_completion_value (ecma_make_number_value (ret_num_p)); } else { /* 5. */ *ret_num_p = ecma_utf8_string_to_number (utf8_string_buff + start, end - start); if (sign) { *ret_num_p *= -1; } ret_value = ecma_make_normal_completion_value (ecma_make_number_value (ret_num_p)); } } MEM_FINALIZE_LOCAL_ARRAY (utf8_string_buff); ECMA_FINALIZE (string_var); return ret_value; } /* ecma_builtin_global_object_parse_float */ /** * The Global object's 'isNaN' routine * * See also: * ECMA-262 v5, 15.1.2.4 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_is_nan (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t arg) /**< routine's first argument */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value); bool is_nan = ecma_number_is_nan (arg_num); ret_value = ecma_make_simple_completion_value (is_nan ? ECMA_SIMPLE_VALUE_TRUE : ECMA_SIMPLE_VALUE_FALSE); ECMA_OP_TO_NUMBER_FINALIZE (arg_num); return ret_value; } /* ecma_builtin_global_object_is_nan */ /** * The Global object's 'isFinite' routine * * See also: * ECMA-262 v5, 15.1.2.5 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_is_finite (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t arg) /**< routine's first argument */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value); bool is_finite = !(ecma_number_is_nan (arg_num) || ecma_number_is_infinity (arg_num)); ret_value = ecma_make_simple_completion_value (is_finite ? ECMA_SIMPLE_VALUE_TRUE : ECMA_SIMPLE_VALUE_FALSE); ECMA_OP_TO_NUMBER_FINALIZE (arg_num); return ret_value; } /* 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 */ uint8_t *bitset) /**< character set */ { JERRY_ASSERT (character < 128); return (bitset[character >> 3] & (1 << (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 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 uint8_t unescaped_uri_component_set[16] = { 0x0, 0x0, 0x0, 0x0, 0x82, 0x67, 0xff, 0x3, 0xfe, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x47 }; #define ECMA_BUILTIN_HEX_TO_BYTE_ERROR 0x100 /** * Helper function to decode a hexadecimal byte from a string. * * @return the decoded byte value * It returns with ECMA_BUILTIN_HEX_TO_BYTE_ERROR if a parse error is occured. */ static uint32_t ecma_builtin_global_object_hex_to_byte (lit_utf8_byte_t *source_p) /**< source string */ { uint32_t decoded_byte = 0; /* * Zero terminated string, so length check is not needed. */ if (*source_p != '%') { return ECMA_BUILTIN_HEX_TO_BYTE_ERROR; } for (lit_utf8_size_t i = 0; i < 2; i++) { source_p++; decoded_byte <<= 4; if (*source_p >= '0' && *source_p <= '9') { decoded_byte |= (uint32_t) (*source_p - '0'); } else if (*source_p >= 'a' && *source_p <= 'f') { decoded_byte |= (uint32_t) (*source_p - ('a' - 10)); } else if (*source_p >= 'A' && *source_p <= 'F') { decoded_byte |= (uint32_t) (*source_p - ('A' - 10)); } else { return ECMA_BUILTIN_HEX_TO_BYTE_ERROR; } } return decoded_byte; } /* ecma_builtin_global_object_hex_to_byte */ /** * Helper function to decode URI. * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_decode_uri_helper (ecma_value_t uri __attr_unused___, /**< uri argument */ uint8_t *reserved_uri_bitset) /**< reserved characters bitset */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); ECMA_TRY_CATCH (string, ecma_op_to_string (uri), ret_value); JERRY_ASSERT (ecma_is_value_string (string)); ecma_string_t *input_string_p = ecma_get_string_from_value (string); lit_utf8_size_t input_size = ecma_string_get_size (input_string_p); MEM_DEFINE_LOCAL_ARRAY (input_start_p, input_size, lit_utf8_byte_t); ecma_string_to_utf8_string (input_string_p, input_start_p, (ssize_t) (input_size)); 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) { /* Input validation. */ if (*input_char_p != '%') { output_size++; input_char_p++; continue; } uint32_t decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p); if (decoded_byte == ECMA_BUILTIN_HEX_TO_BYTE_ERROR) { ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI)); break; } input_char_p += 3; if (decoded_byte <= 0x7f) { /* * 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 += 3; } else { output_size++; } } else if (decoded_byte < 0xc0 || decoded_byte >= 0xf8) { /* * Invalid UTF-8 starting bytes: * 10xx xxxx - UTF continuation byte * 1111 1xxx - maximum length is 4 bytes */ ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI)); break; } else { uint32_t count; uint32_t min; uint32_t character; if (decoded_byte < 0xe0) { count = 1; min = 0x80; character = decoded_byte & 0x1f; } else if (decoded_byte < 0xf0) { count = 2; min = 0x800; character = decoded_byte & 0x0f; } else { count = 3; min = 0x1000; character = decoded_byte & 0x07; } output_size += (count + 1); do { decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p); if (decoded_byte == ECMA_BUILTIN_HEX_TO_BYTE_ERROR || (decoded_byte & 0xc0) != 0x80) { break; } character = (character << 6) + (decoded_byte & 0x3f); input_char_p += 3; } while (--count > 0); if (count != 0 /* * Explanation of the character < min check: according to * the UTF standard, each character must be encoded * with the minimum amount of bytes. We need to reject * those characters, which does not satisfy this condition. */ || character < min /* * Not allowed character ranges. */ || character > 0x10ffff || (character >= 0xd800 && character <= 0xdfff)) { ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI)); break; } } } if (ecma_is_completion_value_empty (ret_value)) { MEM_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; output_char_p++; input_char_p++; continue; } uint32_t decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p); input_char_p += 3; if (decoded_byte <= 0x7f) { 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; output_char_p++; } } else { uint32_t count; uint32_t character; /* The validator already checked this before. */ JERRY_ASSERT (decoded_byte >= 0xc0 && decoded_byte < 0xf8); if (decoded_byte < 0xe0) { count = 1; character = decoded_byte & 0x1f; } else if (decoded_byte < 0xf0) { count = 2; character = decoded_byte & 0x0f; } else { count = 3; character = decoded_byte & 0x07; } do { decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p); JERRY_ASSERT (decoded_byte != ECMA_BUILTIN_HEX_TO_BYTE_ERROR && (decoded_byte & 0xc0) == 0x80); character = (character << 6) + (decoded_byte & 0x3f); input_char_p += 3; } while (--count > 0); output_char_p += lit_code_point_to_utf8 (character, output_char_p); } } JERRY_ASSERT (output_start_p + output_size == output_char_p); ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (output_start_p, output_size); ret_value = ecma_make_normal_completion_value (ecma_make_string_value (output_string_p)); MEM_FINALIZE_LOCAL_ARRAY (output_start_p); } MEM_FINALIZE_LOCAL_ARRAY (input_start_p); ECMA_FINALIZE (string); return ret_value; } /* ecma_builtin_global_object_decode_uri_helper */ /** * The Global object's 'decodeURI' routine * * See also: * ECMA-262 v5, 15.1.3.1 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_decode_uri (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t encoded_uri) /**< routine's first argument */ { return ecma_builtin_global_object_decode_uri_helper (encoded_uri, unescaped_uri_set); } /* ecma_builtin_global_object_decode_uri */ /** * The Global object's 'decodeURIComponent' routine * * See also: * ECMA-262 v5, 15.1.3.2 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_decode_uri_component (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t encoded_uri_component) /**< routine's * first argument */ { return ecma_builtin_global_object_decode_uri_helper (encoded_uri_component, unescaped_uri_component_set); } /* ecma_builtin_global_object_decode_uri_component */ /** * 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] = '%'; 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 */ /** * Helper function to encode URI. * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_encode_uri_helper (ecma_value_t uri, /**< uri argument */ uint8_t* unescaped_uri_bitset) /**< unescaped bitset */ { ecma_completion_value_t ret_value = ecma_make_empty_completion_value (); ECMA_TRY_CATCH (string, ecma_op_to_string (uri), ret_value); JERRY_ASSERT (ecma_is_value_string (string)); ecma_string_t *input_string_p = ecma_get_string_from_value (string); lit_utf8_size_t input_size = ecma_string_get_size (input_string_p); MEM_DEFINE_LOCAL_ARRAY (input_start_p, input_size + 1, lit_utf8_byte_t); input_start_p[input_size] = LIT_BYTE_NULL; ecma_string_to_utf8_string (input_string_p, input_start_p, (ssize_t) (input_size)); /* * 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_iterator_t iter = lit_utf8_iterator_create (input_start_p, input_size); lit_utf8_size_t output_length = 1; while (!lit_utf8_iterator_is_eos (&iter)) { /* Input validation. */ lit_code_point_t character = lit_utf8_iterator_read_next (&iter); if (character <= 0x7f) { if (ecma_builtin_global_object_character_is_in (character, unescaped_uri_bitset)) { output_length++; } else { output_length += 3; } } else if (character <= 0x7ff) { output_length += 6; } else if (character <= 0xffff) { if (character >= 0xd800 && character <= 0xdfff) { ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI)); break; } else { output_length += 9; } } else if (character <= 0x10ffff) { output_length += 12; } else { ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI)); break; } } if (ecma_is_completion_value_empty (ret_value)) { MEM_DEFINE_LOCAL_ARRAY (output_start_p, output_length, lit_utf8_byte_t); lit_utf8_iterator_t iter = lit_utf8_iterator_create (input_start_p, input_size); lit_utf8_byte_t *output_char_p = output_start_p; while (!lit_utf8_iterator_is_eos (&iter)) { /* Input decode. */ lit_code_point_t character = lit_utf8_iterator_read_next (&iter); if (character <= 0x7f) { if (ecma_builtin_global_object_character_is_in (character, unescaped_uri_bitset)) { *output_char_p++ = (lit_utf8_byte_t) character; } else { ecma_builtin_global_object_byte_to_hex (output_char_p, character); output_char_p += 3; } } else if (character <= 0x7ff) { ecma_builtin_global_object_byte_to_hex (output_char_p, 0xc0 | (character >> 6)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f)); output_char_p += 3; } else if (character <= 0xffff) { ecma_builtin_global_object_byte_to_hex (output_char_p, 0xe0 | (character >> 12)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 6) & 0x3f)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f)); output_char_p += 3; } else { ecma_builtin_global_object_byte_to_hex (output_char_p, 0xf0 | (character >> 18)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 12) & 0x3f)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 6) & 0x3f)); output_char_p += 3; ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f)); output_char_p += 3; } } *output_char_p = '\0'; JERRY_ASSERT (output_start_p + output_length == output_char_p + 1); ecma_string_t *output_string_p = ecma_new_ecma_string_from_utf8 (output_start_p, output_length - 1); ret_value = ecma_make_normal_completion_value (ecma_make_string_value (output_string_p)); MEM_FINALIZE_LOCAL_ARRAY (output_start_p); } MEM_FINALIZE_LOCAL_ARRAY (input_start_p); ECMA_FINALIZE (string); return ret_value; } /* ecma_builtin_global_object_encode_uri_helper */ /** * The Global object's 'encodeURI' routine * * See also: * ECMA-262 v5, 15.1.3.3 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_encode_uri (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t uri) /**< routine's first argument */ { return ecma_builtin_global_object_encode_uri_helper (uri, unescaped_uri_set); } /* ecma_builtin_global_object_encode_uri */ /** * The Global object's 'encodeURIComponent' routine * * See also: * ECMA-262 v5, 15.1.3.4 * * @return completion value * Returned value must be freed with ecma_free_completion_value. */ static ecma_completion_value_t ecma_builtin_global_object_encode_uri_component (ecma_value_t this_arg __attr_unused___, /**< this argument */ ecma_value_t uri_component) /**< routine's first argument */ { return ecma_builtin_global_object_encode_uri_helper (uri_component, unescaped_uri_component_set); } /* ecma_builtin_global_object_encode_uri_component */ /** * @} * @} * @} */