/* Copyright 2015 Samsung Electronics Co., Ltd. * * 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 "lit-literal-storage.h" #include "ecma-helpers.h" #include "lit-literal.h" /** * Literal storage * As our libc library doesn't call constructors of static variables, lit_storage is initialized * in lit_init function by placement new operator. */ lit_literal_storage_t lit_storage; /** * Get pointer to the previous record inside the literal storage * * @return pointer to the previous record of NULL if this is the first record ('prev' field in the header) */ rcs_record_t * lit_charset_record_t::get_prev () const { rcs_record_iterator_t it ((rcs_recordset_t *)&lit_storage, (rcs_record_t *)this); it.skip (RCS_DYN_STORAGE_LENGTH_UNIT); cpointer_t cpointer; cpointer.packed_value = it.read (); return cpointer_t::decompress (cpointer); } /* lit_charset_record_t::get_prev */ /** * Set the pointer to the previous record inside the literal storage (sets 'prev' field in the header) */ void lit_charset_record_t::set_prev (rcs_record_t *prev_rec_p) /**< pointer to the record to set as previous */ { rcs_record_iterator_t it ((rcs_recordset_t *)&lit_storage, (rcs_record_t *)this); it.skip (RCS_DYN_STORAGE_LENGTH_UNIT); it.write (cpointer_t::compress (prev_rec_p).packed_value); } /* lit_charset_record_t::set_prev */ /** * Set the charset of the record */ void lit_charset_record_t::set_charset (const ecma_char_t *str, /**< buffer containing characters to set */ size_t size) /**< size of the buffer in bytes */ { JERRY_ASSERT (header_size () + size == get_size () - get_alignment_bytes_count ()); rcs_record_iterator_t it ((rcs_recordset_t *)&lit_storage, (rcs_record_t *)this); it.skip (header_size ()); for (size_t i = 0; i < get_length (); ++i) { it.write (str[i]); it.skip (); } } /* lit_charset_record_t::set_charset */ /** * Get the characters which are stored to the record * * @return number of code units written to the buffer */ ecma_length_t lit_charset_record_t::get_charset (ecma_char_t *buff, /**< output buffer */ size_t size) /**< size of the output buffer in bytes */ { JERRY_ASSERT (buff && size >= sizeof (ecma_char_t)); rcs_record_iterator_t it ((rcs_recordset_t *)&lit_storage, (rcs_record_t *)this); it.skip (header_size ()); ecma_length_t len = get_length (); size_t i; for (i = 0; i < len && size > sizeof (ecma_char_t); ++i) { buff[i] = it.read (); it.skip (); size -= sizeof (ecma_char_t); } return (ecma_length_t) i; } /* lit_charset_record_t::get_charset */ /** * Compares characters from the record to the string * * @return 0 if strings are equal * -1 if str2 is greater * 1 if str2 is less */ int lit_charset_record_t::compare_zt (const ecma_char_t *str_to_compare_with, /**< buffer with string to compare */ size_t length) /**< length of the string in buffer str2 */ { size_t i; if (get_length () == 0) { if (str_to_compare_with != NULL) { return -1; } else { return 0; } } if (str_to_compare_with == NULL) { return 1; } rcs_record_iterator_t it_this (&lit_storage, this); it_this.skip (header_size ()); for (i = 0; i < get_length () && i < length; i++) { ecma_char_t chr = it_this.read (); if (chr > str_to_compare_with[i]) { return 1; } else if (chr < str_to_compare_with[i]) { return -1; } it_this.skip (); } if (i < length) { return -1; } return 0; } /* lit_charset_record_t::compare_zt */ /** * Compares two lit_charset_record_t records for equality * * @return true if strings inside records are equal * false otherwise */ bool lit_charset_record_t::equal (lit_charset_record_t *rec) /**< charset record to compare with */ { if (get_length () != rec->get_length ()) { return false; } rcs_record_iterator_t it_this (&lit_storage, this); rcs_record_iterator_t it_record (&lit_storage, rec); it_this.skip (header_size ()); it_record.skip (rec->header_size ()); for (ecma_length_t i = 0; i < get_length (); i++) { if (it_this.read () != it_record.read ()) { return false; } it_this.skip (); it_record.skip (); } return true; } /* lit_charset_record_t::equal */ /** * Compares this lit_charset_record_t records with zero-terminated string for equality * * @return true if compared instances are equal * false otherwise */ bool lit_charset_record_t::equal_zt (const ecma_char_t *str) /**< zero-terminated string */ { return equal_non_zt (str, ecma_zt_string_length (str)); } /* lit_charset_record_t::equal_zt */ /** * Compare this lit_charset_record_t record with string (which could contain '\0' characters) for equality * * @return true if compared instances are equal * false otherwise */ bool lit_charset_record_t::equal_non_zt (const ecma_char_t *str, /**< string to compare with */ ecma_length_t len) /**< length of the string */ { rcs_record_iterator_t it_this (&lit_storage, this); it_this.skip (header_size ()); for (ecma_length_t i = 0; i < get_length () && i < len; i++) { if (it_this.read () != str[i]) { return false; } it_this.skip (); } return get_length () == len; } /* lit_charset_record_t::equal_non_zt */ /** * Create charset record in the literal storage * * @return pointer to the created record */ lit_charset_record_t * lit_literal_storage_t::create_charset_record (const ecma_char_t *str, /**< string to be placed in the record */ size_t buf_size) /**< size in bytes of the buffer which holds the * string */ { const size_t alignment = lit_charset_record_t::size (buf_size) - (lit_charset_record_t::header_size () + buf_size); lit_charset_record_t *ret = alloc_record (LIT_STR, buf_size); ret->set_alignment_bytes_count (alignment); ret->set_charset (str, buf_size); ret->set_hash (ecma_chars_buffer_calc_hash_last_chars (str, ret->get_length ())); return ret; } /* lit_literal_storage_t::create_charset_record */ /** * Create magic string record in the literal storage * * @return pointer to the created record */ lit_magic_record_t * lit_literal_storage_t::create_magic_record (lit_magic_string_id_t id) /**< id of a magic string */ { lit_magic_record_t *ret = alloc_record (LIT_MAGIC_STR); ret->set_magic_str_id (id); return ret; } /* lit_literal_storage_t::create_magic_record */ /** * Create external magic string record in the literal storage * * @return pointer to the created record */ lit_magic_record_t * lit_literal_storage_t::create_magic_record_ex (lit_magic_string_ex_id_t id) /**< id of a magic string */ { lit_magic_record_t *ret = alloc_record (LIT_MAGIC_STR_EX); ret->set_magic_str_id (id); return ret; } /* lit_literal_storage_t::create_magic_record_ex */ /** * Create number record in the literal storage * * @return pointer to the created record */ lit_number_record_t * lit_literal_storage_t::create_number_record (ecma_number_t num) /**< number */ { lit_number_record_t *ret = alloc_record (LIT_NUMBER); rcs_record_iterator_t it_this (this, ret); it_this.skip (ret->header_size ()); it_this.write (num); return ret; } /* lit_literal_storage_t::create_number_record */ /** * Dump the contents of the literal storage */ void lit_literal_storage_t::dump () { printf ("LITERALS:\n"); for (rcs_record_t *rec_p = lit_storage.get_first (); rec_p != NULL; rec_p = lit_storage.get_next (rec_p)) { printf ("%p ", rec_p); printf ("[%3zu] ", get_record_size (rec_p)); switch (rec_p->get_type ()) { case LIT_STR: { lit_charset_record_t *lit_p = static_cast (rec_p); rcs_record_iterator_t it_this (this, rec_p); it_this.skip (lit_charset_record_t::header_size ()); for (size_t i = 0; i < lit_p->get_length (); ++i) { printf ("%c", it_this.read ()); it_this.skip (); } printf (" : STRING"); break; } case LIT_MAGIC_STR: { lit_magic_string_id_t id = lit_magic_record_get_magic_str_id (rec_p); printf ("%s : MAGIC STRING", lit_get_magic_string_zt (id)); printf (" [id=%d] ", id); break; } case LIT_MAGIC_STR_EX: { lit_magic_string_ex_id_t id = lit_magic_record_ex_get_magic_str_id (rec_p); printf ("%s : EXT MAGIC STRING", lit_get_magic_string_ex_zt (id)); printf (" [id=%d] ", id); break; } case LIT_NUMBER: { lit_number_record_t *lit_p = static_cast (rec_p); if (ecma_number_is_nan (lit_p->get_number ())) { printf ("%s : NUMBER", "NaN"); } else { ecma_char_t buff[ECMA_MAX_CHARS_IN_STRINGIFIED_NUMBER]; ecma_number_to_zt_string (lit_p->get_number (), buff, ECMA_MAX_CHARS_IN_STRINGIFIED_NUMBER); printf ("%s : NUMBER", buff); } break; } default: { printf (" : EMPTY RECORD"); } } printf ("\n"); } } /* lit_literal_storage_t::dump */ /** * Get previous record in the literal storage * * @return pointer to the previous record relative to rec_p, or NULL if rec_p is the first record in the storage */ rcs_record_t * lit_literal_storage_t::get_prev (rcs_record_t *rec_p) /**< record, relative to which previous should be found */ { switch (rec_p->get_type ()) { case LIT_STR: { return (static_cast (rec_p))->get_prev (); } case LIT_MAGIC_STR: case LIT_MAGIC_STR_EX: { return (static_cast (rec_p))->get_prev (); } case LIT_NUMBER: { return (static_cast (rec_p))->get_prev (); } default: { JERRY_ASSERT (rec_p->get_type () < _first_type_id); return rcs_recordset_t::get_prev (rec_p); } } } /* lit_literal_storage_t::get_prev */ /** * Set pointer to the previous record */ void lit_literal_storage_t::set_prev (rcs_record_t *rec_p, /**< record to modify */ rcs_record_t *prev_rec_p) /**< record which should be set as previous */ { switch (rec_p->get_type ()) { case LIT_STR: { return (static_cast (rec_p))->set_prev (prev_rec_p); } case LIT_MAGIC_STR: case LIT_MAGIC_STR_EX: { return (static_cast (rec_p))->set_prev (prev_rec_p); } case LIT_NUMBER: { return (static_cast (rec_p))->set_prev (prev_rec_p); } default: { JERRY_ASSERT (rec_p->get_type () < _first_type_id); return rcs_recordset_t::set_prev (rec_p, prev_rec_p); } } } /* lit_literal_storage_t::set_prev */ /** * Get size of a record * * @return size of a record in bytes */ size_t lit_literal_storage_t::get_record_size (rcs_record_t* rec_p) /**< pointer to a record */ { switch (rec_p->get_type ()) { case LIT_STR: { return (static_cast (rec_p))->get_size (); } case LIT_MAGIC_STR: case LIT_MAGIC_STR_EX: { return lit_magic_record_t::size (); } case LIT_NUMBER: { return lit_number_record_t::size (); } default: { JERRY_ASSERT (rec_p->get_type () < _first_type_id); return rcs_recordset_t::get_record_size (rec_p); } } } /* lit_literal_storage_t::get_record_size */ template void rcs_record_iterator_t::skip (); template void rcs_record_iterator_t::skip (); template void rcs_record_iterator_t::skip (); template void rcs_record_iterator_t::write (ecma_char_t); template ecma_char_t rcs_record_iterator_t::read (); template void rcs_record_iterator_t::write (ecma_number_t); template ecma_number_t rcs_record_iterator_t::read (); template void rcs_record_iterator_t::write (uint16_t); template uint16_t rcs_record_iterator_t::read (); template lit_magic_string_id_t lit_magic_record_t::get_magic_str_id() const; template lit_magic_string_ex_id_t lit_magic_record_t::get_magic_str_id() const; template void lit_magic_record_t::set_magic_str_id(lit_magic_string_id_t); template void lit_magic_record_t::set_magic_str_id(lit_magic_string_ex_id_t); template lit_charset_record_t *rcs_recordset_t::alloc_record (rcs_record_t::type_t type, size_t size); template lit_magic_record_t *rcs_recordset_t::alloc_record (rcs_record_t::type_t type); template lit_number_record_t *rcs_recordset_t::alloc_record (rcs_record_t::type_t type);