/* Copyright 2014 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 "opcodes.h" #include "opcodes-ecma-support.h" #include "ecma-number-arithmetic.h" #include "jerry-libc.h" /** * Number arithmetic operations. */ typedef enum { number_arithmetic_addition, /**< addition */ number_arithmetic_substraction, /**< substraction */ number_arithmetic_multiplication, /**< multiplication */ number_arithmetic_division, /**< division */ number_arithmetic_remainder, /**< remainder calculation */ } number_arithmetic_op; /** * Perform ECMA number arithmetic operation. * * The algorithm of the operation is following: * leftNum = ToNumber (leftValue); * rightNum = ToNumber (rightValue); * result = leftNum ArithmeticOp rightNum; * * @return completion value * Returned value must be freed with ecma_free_completion_value */ static ecma_completion_value_t do_number_arithmetic (int_data_t *int_data, /**< interpreter context */ idx_t dst_var_idx, /**< destination variable identifier */ number_arithmetic_op op, /**< number arithmetic operation */ ecma_value_t left_value, /**< left value */ ecma_value_t right_value) /** right value */ { ecma_completion_value_t ret_value; ECMA_TRY_CATCH (num_left_value, ecma_op_to_number (left_value), ret_value); ECMA_TRY_CATCH (num_right_value, ecma_op_to_number (right_value), ret_value); ecma_number_t *left_p, *right_p, *res_p; left_p = ecma_get_number_from_completion_value (num_left_value); right_p = ecma_get_number_from_completion_value (num_right_value); res_p = ecma_alloc_number (); switch (op) { case number_arithmetic_addition: { *res_p = ecma_number_add (*left_p, *right_p); break; } case number_arithmetic_substraction: { *res_p = ecma_number_substract (*left_p, *right_p); break; } case number_arithmetic_multiplication: { *res_p = ecma_number_multiply (*left_p, *right_p); break; } case number_arithmetic_division: { *res_p = ecma_number_divide (*left_p, *right_p); break; } case number_arithmetic_remainder: { *res_p = ecma_op_number_remainder (*left_p, *right_p); break; } } ret_value = set_variable_value (int_data, dst_var_idx, ecma_make_number_value (res_p)); ecma_dealloc_number (res_p); ECMA_FINALIZE (num_right_value); ECMA_FINALIZE (num_left_value); return ret_value; } /* do_number_arithmetic */ /** * 'Addition' opcode handler. * * See also: ECMA-262 v5, 11.6.1 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_addition (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.addition.dst; const idx_t left_var_idx = opdata.data.addition.var_left; const idx_t right_var_idx = opdata.data.addition.var_right; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (left_value, get_variable_value (int_data, left_var_idx, false), ret_value); ECMA_TRY_CATCH (right_value, get_variable_value (int_data, right_var_idx, false), ret_value); ECMA_TRY_CATCH (prim_left_value, ecma_op_to_primitive (ecma_get_completion_value_value (left_value), ECMA_PREFERRED_TYPE_NO), ret_value); ECMA_TRY_CATCH (prim_right_value, ecma_op_to_primitive (ecma_get_completion_value_value (right_value), ECMA_PREFERRED_TYPE_NO), ret_value); if (ecma_is_value_string (ecma_get_completion_value_value (prim_left_value)) || ecma_is_value_string (ecma_get_completion_value_value (prim_right_value))) { ECMA_TRY_CATCH (str_left_value, ecma_op_to_string (ecma_get_completion_value_value (prim_left_value)), ret_value); ECMA_TRY_CATCH (str_right_value, ecma_op_to_string (ecma_get_completion_value_value (prim_right_value)), ret_value); ecma_string_t *string1_p = ecma_get_string_from_completion_value (str_left_value); ecma_string_t *string2_p = ecma_get_string_from_completion_value (str_right_value); ecma_string_t *concat_str_p = ecma_concat_ecma_strings (string1_p, string2_p); ret_value = set_variable_value (int_data, dst_var_idx, ecma_make_string_value (concat_str_p)); ecma_deref_ecma_string (concat_str_p); ECMA_FINALIZE (str_right_value); ECMA_FINALIZE (str_left_value); } else { ret_value = do_number_arithmetic (int_data, dst_var_idx, number_arithmetic_addition, ecma_get_completion_value_value (prim_left_value), ecma_get_completion_value_value (prim_right_value)); } ECMA_FINALIZE (prim_right_value); ECMA_FINALIZE (prim_left_value); ECMA_FINALIZE (right_value); ECMA_FINALIZE (left_value); return ret_value; } /* opfunc_addition */ /** * 'Substraction' opcode handler. * * See also: ECMA-262 v5, 11.6.2 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_substraction (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.substraction.dst; const idx_t left_var_idx = opdata.data.substraction.var_left; const idx_t right_var_idx = opdata.data.substraction.var_right; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (left_value, get_variable_value (int_data, left_var_idx, false), ret_value); ECMA_TRY_CATCH (right_value, get_variable_value (int_data, right_var_idx, false), ret_value); ret_value = do_number_arithmetic (int_data, dst_var_idx, number_arithmetic_substraction, ecma_get_completion_value_value (left_value), ecma_get_completion_value_value (right_value)); ECMA_FINALIZE (right_value); ECMA_FINALIZE (left_value); return ret_value; } /* opfunc_substraction */ /** * 'Multiplication' opcode handler. * * See also: ECMA-262 v5, 11.5, 11.5.1 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_multiplication (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.multiplication.dst; const idx_t left_var_idx = opdata.data.multiplication.var_left; const idx_t right_var_idx = opdata.data.multiplication.var_right; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (left_value, get_variable_value (int_data, left_var_idx, false), ret_value); ECMA_TRY_CATCH (right_value, get_variable_value (int_data, right_var_idx, false), ret_value); ret_value = do_number_arithmetic (int_data, dst_var_idx, number_arithmetic_multiplication, ecma_get_completion_value_value (left_value), ecma_get_completion_value_value (right_value)); ECMA_FINALIZE (right_value); ECMA_FINALIZE (left_value); return ret_value; } /* opfunc_multiplication */ /** * 'Division' opcode handler. * * See also: ECMA-262 v5, 11.5, 11.5.2 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_division (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.division.dst; const idx_t left_var_idx = opdata.data.division.var_left; const idx_t right_var_idx = opdata.data.division.var_right; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (left_value, get_variable_value (int_data, left_var_idx, false), ret_value); ECMA_TRY_CATCH (right_value, get_variable_value (int_data, right_var_idx, false), ret_value); ret_value = do_number_arithmetic (int_data, dst_var_idx, number_arithmetic_division, ecma_get_completion_value_value (left_value), ecma_get_completion_value_value (right_value)); ECMA_FINALIZE (right_value); ECMA_FINALIZE (left_value); return ret_value; } /* opfunc_division */ /** * 'Remainder calculation' opcode handler. * * See also: ECMA-262 v5, 11.5, 11.5.3 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_remainder (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.remainder.dst; const idx_t left_var_idx = opdata.data.remainder.var_left; const idx_t right_var_idx = opdata.data.remainder.var_right; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (left_value, get_variable_value (int_data, left_var_idx, false), ret_value); ECMA_TRY_CATCH (right_value, get_variable_value (int_data, right_var_idx, false), ret_value); ret_value = do_number_arithmetic (int_data, dst_var_idx, number_arithmetic_remainder, ecma_get_completion_value_value (left_value), ecma_get_completion_value_value (right_value)); ECMA_FINALIZE (right_value); ECMA_FINALIZE (left_value); return ret_value; } /* opfunc_remainder */ /** * 'Unary "+"' opcode handler. * * See also: ECMA-262 v5, 11.4, 11.4.6 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_unary_plus (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.remainder.dst; const idx_t var_idx = opdata.data.remainder.var_left; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (var_value, get_variable_value (int_data, var_idx, false), ret_value); ECMA_TRY_CATCH (num_value, ecma_op_to_number (ecma_get_completion_value_value (var_value)), ret_value); ecma_number_t *var_p = ecma_get_number_from_completion_value (num_value); ret_value = set_variable_value (int_data, dst_var_idx, ecma_make_number_value (var_p)); ECMA_FINALIZE (num_value); ECMA_FINALIZE (var_value); return ret_value; } /* opfunc_unary_plus */ /** * 'Unary "-"' opcode handler. * * See also: ECMA-262 v5, 11.4, 11.4.7 * * @return completion value * Returned value must be freed with ecma_free_completion_value */ ecma_completion_value_t opfunc_unary_minus (opcode_t opdata, /**< operation data */ int_data_t *int_data) /**< interpreter context */ { const idx_t dst_var_idx = opdata.data.remainder.dst; const idx_t var_idx = opdata.data.remainder.var_left; int_data->pos++; ecma_completion_value_t ret_value; ECMA_TRY_CATCH (var_value, get_variable_value (int_data, var_idx, false), ret_value); ECMA_TRY_CATCH (num_value, ecma_op_to_number (ecma_get_completion_value_value (var_value)), ret_value); ecma_number_t *var_p, *res_p; var_p = ecma_get_number_from_completion_value (num_value); res_p = ecma_alloc_number (); *res_p = ecma_number_negate (*var_p); ret_value = set_variable_value (int_data, dst_var_idx, ecma_make_number_value (res_p)); ecma_dealloc_number (res_p); ECMA_FINALIZE (num_value); ECMA_FINALIZE (var_value); return ret_value; } /* opfunc_unary_minus */