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jerryscript/jerry-core/ecma/builtin-objects/ecma-builtin-math.c
Tilmann Scheller 0511091e8a Streamline copyright notices across the codebase. (#1473) 
Since the project is now hosted at the JS Foundation we can move to unified copyright notices for the project.

Starting with this commit all future contributions to the project should only carry the following copyright notice (except for third-party code which requires copyright information to be preserved):

"Copyright JS Foundation and other contributors, http://js.foundation" (without the quotes)

This avoids cluttering the codebase with contributor-specific copyright notices which have a higher maintenance overhead and tend to get outdated quickly. Also dropping the year from the copyright notices helps to avoid yearly code changes just to update the copyright notices.

Note that each contributor still retains full copyright ownership of his/her contributions and the respective authorship is tracked very accurately via Git.

JerryScript-DCO-1.0-Signed-off-by: Tilmann Scheller t.scheller@samsung.com
2016-12-08 06:39:11 +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 <math.h>
#include "ecma-alloc.h"
#include "ecma-builtins.h"
#include "ecma-conversion.h"
#include "ecma-exceptions.h"
#include "ecma-gc.h"
#include "ecma-globals.h"
#include "ecma-helpers.h"
#include "ecma-number-arithmetic.h"
#include "ecma-objects.h"
#include "ecma-objects-general.h"
#include "ecma-try-catch-macro.h"
#include "jrt.h"
#include "jrt-libc-includes.h"
#ifndef CONFIG_DISABLE_MATH_BUILTIN
#define ECMA_BUILTINS_INTERNAL
#include "ecma-builtins-internal.h"
#define BUILTIN_INC_HEADER_NAME "ecma-builtin-math.inc.h"
#define BUILTIN_UNDERSCORED_ID math
#include "ecma-builtin-internal-routines-template.inc.h"
/** \addtogroup ecma ECMA
* @{
*
* \addtogroup ecmabuiltins
* @{
*
* \addtogroup object ECMA Object object built-in
* @{
*/
/**
* The Math object's 'abs' routine
*
* See also:
* ECMA-262 v5, 15.8.2.1
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_abs (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (fabs (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_abs */
/**
* The Math object's 'acos' routine
*
* See also:
* ECMA-262 v5, 15.8.2.2
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_acos (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (acos (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_acos */
/**
* The Math object's 'asin' routine
*
* See also:
* ECMA-262 v5, 15.8.2.3
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_asin (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (asin (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_asin */
/**
* The Math object's 'atan' routine
*
* See also:
* ECMA-262 v5, 15.8.2.4
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_atan (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (atan (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_atan */
/**
* The Math object's 'atan2' routine
*
* See also:
* ECMA-262 v5, 15.8.2.5
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_atan2 (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg1, /**< first routine's argument */
ecma_value_t arg2) /**< second routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (x, arg1, ret_value);
ECMA_OP_TO_NUMBER_TRY_CATCH (y, arg2, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (atan2 (x, y)));
ECMA_OP_TO_NUMBER_FINALIZE (y);
ECMA_OP_TO_NUMBER_FINALIZE (x);
return ret_value;
} /* ecma_builtin_math_object_atan2 */
/**
* The Math object's 'ceil' routine
*
* See also:
* ECMA-262 v5, 15.8.2.6
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_ceil (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (ceil (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_ceil */
/**
* The Math object's 'cos' routine
*
* See also:
* ECMA-262 v5, 15.8.2.7
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_cos (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (cos (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_cos */
/**
* The Math object's 'exp' routine
*
* See also:
* ECMA-262 v5, 15.8.2.8
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_exp (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (exp (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_exp */
/**
* The Math object's 'floor' routine
*
* See also:
* ECMA-262 v5, 15.8.2.9
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_floor (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (floor (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_floor */
/**
* The Math object's 'log' routine
*
* See also:
* ECMA-262 v5, 15.8.2.10
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_log (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (log (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_log */
/**
* The Math object's 'max' routine
*
* See also:
* ECMA-262 v5, 15.8.2.11
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_max (ecma_value_t this_arg, /**< 'this' argument */
const ecma_value_t args[], /**< arguments list */
ecma_length_t args_number) /**< number of arguments */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ecma_number_t ret_num = ecma_number_make_infinity (true);
bool is_NaN = false;
for (ecma_length_t arg_index = 0;
arg_index < args_number && ecma_is_value_empty (ret_value);
arg_index++)
{
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, args[arg_index], ret_value);
if (!is_NaN)
{
if (unlikely (ecma_number_is_nan (arg_num)))
{
ret_num = arg_num;
is_NaN = true;
}
else if (ecma_number_is_zero (arg_num) /* both numbers are zeroes */
&& ecma_number_is_zero (ret_num))
{
if (!ecma_number_is_negative (arg_num))
{
ret_num = arg_num;
}
}
else if (ecma_number_is_infinity (arg_num))
{
if (!ecma_number_is_negative (arg_num))
{
ret_num = arg_num;
}
}
else if (ecma_number_is_infinity (ret_num))
{
if (ecma_number_is_negative (ret_num))
{
ret_num = arg_num;
}
}
else
{
JERRY_ASSERT (!ecma_number_is_nan (arg_num)
&& !ecma_number_is_infinity (arg_num));
JERRY_ASSERT (!ecma_number_is_nan (ret_num)
&& !ecma_number_is_infinity (ret_num));
if (arg_num > ret_num)
{
ret_num = arg_num;
}
}
}
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
}
if (ecma_is_value_empty (ret_value))
{
ret_value = ecma_make_number_value (ret_num);
}
return ret_value;
} /* ecma_builtin_math_object_max */
/**
* The Math object's 'min' routine
*
* See also:
* ECMA-262 v5, 15.8.2.12
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_min (ecma_value_t this_arg, /**< 'this' argument */
const ecma_value_t args[], /**< arguments list */
ecma_length_t args_number) /**< number of arguments */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ecma_number_t ret_num = ecma_number_make_infinity (false);
bool is_NaN = false;
for (ecma_length_t arg_index = 0;
arg_index < args_number && ecma_is_value_empty (ret_value);
arg_index++)
{
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, args[arg_index], ret_value);
if (!is_NaN)
{
if (unlikely (ecma_number_is_nan (arg_num)))
{
ret_num = arg_num;
is_NaN = true;
}
else if (ecma_number_is_zero (arg_num) /* both numbers are zeroes */
&& ecma_number_is_zero (ret_num))
{
if (ecma_number_is_negative (arg_num))
{
ret_num = arg_num;
}
}
else if (ecma_number_is_infinity (arg_num))
{
if (ecma_number_is_negative (arg_num))
{
ret_num = arg_num;
}
}
else if (ecma_number_is_infinity (ret_num))
{
if (!ecma_number_is_negative (ret_num))
{
ret_num = arg_num;
}
}
else
{
JERRY_ASSERT (!ecma_number_is_nan (arg_num)
&& !ecma_number_is_infinity (arg_num));
JERRY_ASSERT (!ecma_number_is_nan (ret_num)
&& !ecma_number_is_infinity (ret_num));
if (arg_num < ret_num)
{
ret_num = arg_num;
}
}
}
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
}
if (ecma_is_value_empty (ret_value))
{
ret_value = ecma_make_number_value (ret_num);
}
return ret_value;
} /* ecma_builtin_math_object_min */
/**
* The Math object's 'pow' routine
*
* See also:
* ECMA-262 v5, 15.8.2.13
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_pow (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg1, /**< first routine's argument */
ecma_value_t arg2) /**< second routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (x, arg1, ret_value);
ECMA_OP_TO_NUMBER_TRY_CATCH (y, arg2, ret_value);
if (ecma_number_is_nan (y) ||
(ecma_number_is_infinity (y) && (x == 1.0 || x == -1.0)))
{
/* Handle differences between ES5.1 and ISO C standards for pow. */
ret_value = ecma_make_number_value (ecma_number_make_nan ());
}
else
{
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (pow (x, y)));
}
ECMA_OP_TO_NUMBER_FINALIZE (y);
ECMA_OP_TO_NUMBER_FINALIZE (x);
return ret_value;
} /* ecma_builtin_math_object_pow */
/**
* The Math object's 'random' routine
*
* See also:
* ECMA-262 v5, 15.8.2.14
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_random (ecma_value_t this_arg) /**< 'this' argument */
{
JERRY_UNUSED (this_arg);
const ecma_number_t rand_max = (ecma_number_t) RAND_MAX;
const ecma_number_t rand_max_min_1 = (ecma_number_t) (RAND_MAX - 1);
return ecma_make_number_value (((ecma_number_t) rand ()) / rand_max * rand_max_min_1 / rand_max);
} /* ecma_builtin_math_object_random */
/**
* The Math object's 'round' routine
*
* See also:
* ECMA-262 v5, 15.8.2.15
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_round (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ecma_number_t num = ECMA_NUMBER_ZERO;
if (ecma_number_is_nan (arg_num)
|| ecma_number_is_zero (arg_num)
|| ecma_number_is_infinity (arg_num))
{
num = arg_num;
}
else if (ecma_number_is_negative (arg_num)
&& arg_num >= -ECMA_NUMBER_HALF)
{
num = ecma_number_negate (ECMA_NUMBER_ZERO);
}
else
{
const ecma_number_t up_half = arg_num + ECMA_NUMBER_HALF;
const ecma_number_t down_half = arg_num - ECMA_NUMBER_HALF;
const ecma_number_t up_rounded = up_half - ecma_op_number_remainder (up_half, ECMA_NUMBER_ONE);
const ecma_number_t down_rounded = down_half - ecma_op_number_remainder (down_half, ECMA_NUMBER_ONE);
if (up_rounded - arg_num <= arg_num - down_rounded)
{
num = up_rounded;
}
else
{
num = down_rounded;
}
}
ret_value = ecma_make_number_value (num);
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_round */
/**
* The Math object's 'sin' routine
*
* See also:
* ECMA-262 v5, 15.8.2.16
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_sin (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (sin (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_sin */
/**
* The Math object's 'sqrt' routine
*
* See also:
* ECMA-262 v5, 15.8.2.17
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_sqrt (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (sqrt (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_sqrt */
/**
* The Math object's 'tan' routine
*
* See also:
* ECMA-262 v5, 15.8.2.18
*
* @return ecma value
* Returned value must be freed with ecma_free_value.
*/
static ecma_value_t
ecma_builtin_math_object_tan (ecma_value_t this_arg, /**< 'this' argument */
ecma_value_t arg) /**< routine's argument */
{
JERRY_UNUSED (this_arg);
ecma_value_t ret_value = ecma_make_simple_value (ECMA_SIMPLE_VALUE_EMPTY);
ECMA_OP_TO_NUMBER_TRY_CATCH (arg_num, arg, ret_value);
ret_value = ecma_make_number_value (DOUBLE_TO_ECMA_NUMBER_T (tan (arg_num)));
ECMA_OP_TO_NUMBER_FINALIZE (arg_num);
return ret_value;
} /* ecma_builtin_math_object_tan */
/**
* @}
* @}
* @}
*/
#endif /* !CONFIG_DISABLE_MATH_BUILTIN */
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