/* EINA - EFL data type library
* Copyright (C) 2007-2008 Jorge Luis Zapata Muga
* Copyright (C) 2009 Cedric BAIL
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library;
* if not, see .
*/
#ifndef EINA_FP_H_
# define EINA_FP_H_
/**
* @addtogroup Eina_Fp_Group Fp
*
* @brief Floating point numbers data type management.
*/
/**
* @addtogroup Eina_Data_Types_Group Data Types
*
* @{
*/
/**
* @defgroup Eina_Fp_Group Fp
*
* @{
*/
#include "eina_types.h"
#ifdef _MSC_VER
typedef unsigned __int64 uint64_t;
typedef signed __int64 int64_t;
typedef signed int int32_t;
#else
# include
#endif
/**
* @def EINA_F32P32_PI
* @brief Yields the 32-bit PI constant
*/
#define EINA_F32P32_PI 0x00000003243f6a89
/**
* @typedef Eina_F32p32
* Type for floating point number where the size of the integer part is 32-bit
* and the size of the decimal part is 32-bit
*/
typedef int64_t Eina_F32p32;
/**
* @typedef Eina_F16p16
* Type for floating point number where the size of the integer part is 16-bit
* and the size of the decimal part is 16-bit
*/
typedef int32_t Eina_F16p16;
/**
* @typedef Eina_F8p24
* Type for floating point number where the size of the integer part is 8-bit
* and the size of the decimal part is 24bits
*/
typedef int32_t Eina_F8p24;
/**
* @brief Creates a new Eina_F32p32 floating point number from standard 32-bit
* integer
*
* @param[in] v 32-bit integer value to convert
* @return The value converted into Eina_F32p32 format
*/
static inline Eina_F32p32 eina_f32p32_int_from(int32_t v);
/**
* @brief Creates a new standard 32-bit integer from Eina_F32p32 floating point
* number
*
* @param[in] v Eina_F32p32 value to convert
* @return The value converted into 32-bit integer
*/
static inline int32_t eina_f32p32_int_to(Eina_F32p32 v);
/**
* @brief Creates a new Eina_F32p32 floating point number from standard double
*
* @param[in] v Double value to convert
* @return The value converted into Eina_F32p32 format
*/
static inline Eina_F32p32 eina_f32p32_double_from(double v);
/**
* @brief Creates a new standard double from Eina_F32p32 floating point
* number
*
* @param[in] v Eina_F32p32 value to convert
* @return The value converted into double
*/
static inline double eina_f32p32_double_to(Eina_F32p32 v);
/**
* @brief Calculates the sum of two Eina_F32p32 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The sum result of the two numbers @p a + @p b
*/
static inline Eina_F32p32 eina_f32p32_add(Eina_F32p32 a, Eina_F32p32 b);
/**
* @brief Calculates the subtraction of two Eina_F32p32 floating point numbers
*
* @param[in] a The first number
* @param[in] b The subtracted number
* @return The subtraction result of the two numbers @p a - @p b
*/
static inline Eina_F32p32 eina_f32p32_sub(Eina_F32p32 a, Eina_F32p32 b);
/**
* @brief Calculates the multiplication of two Eina_F32p32 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The multiplication result of the two numbers @p a * @p b
*
* To prevent overflow during multiplication we need to reduce the precision of
* the fraction part Shift both values to only contain 16 bit of the fraction
* part (rounded). After multiplication we again have a value with a 32-bit
* fraction part.
*/
static inline Eina_F32p32 eina_f32p32_mul(Eina_F32p32 a, Eina_F32p32 b);
/**
* @brief Calculates the scale multiplication of one Eina_F32p32 floating point
* number with an integer
*
* @param[in] a The Eina_F32p32 number
* @param[in] b The integer value
* @return The multiplication result of the two numbers @p a * @p b
*/
static inline Eina_F32p32 eina_f32p32_scale(Eina_F32p32 a, int b);
/**
* @brief Calculates the division of two Eina_F32p32 floating point numbers
*
* @param[in] a The numerator number
* @param[in] b The denominator number
* @return The division result of the two numbers @p a / @p b
*/
static inline Eina_F32p32 eina_f32p32_div(Eina_F32p32 a, Eina_F32p32 b);
/**
* @brief Calculates the square root of an Eina_F32p32 floating point number
*
* @param[in] a The number to calculate the square root from
* @return The square root result for the number @p a
*/
static inline Eina_F32p32 eina_f32p32_sqrt(Eina_F32p32 a);
/**
* @brief Gets the absolute value of the integer part of and Eina_F32p32 floating
* point number
*
* @param[in] v The floating point number
* @return The positive integer part of the number @p v
*/
static inline unsigned int eina_f32p32_fracc_get(Eina_F32p32 v);
/**
* @brief Gets the absolute value of an Eina_F32p32 floating point number
*
* @param[in] a The floating point number
* @return The absolute value for the number @p a
* @warning Has known issues on 64-bit architecture, prefer
* eina_f32p32_fracc_get() instead
*/
#define eina_fp32p32_llabs(a) ((a < 0) ? -(a) : (a))
/**
* @brief Calculates the cosine of a floating point number
*
* @param[in] a The angle in radians to calculate the cosine from.
* @return The cosine of the angle @p a
*/
EAPI Eina_F32p32 eina_f32p32_cos(Eina_F32p32 a);
/**
* @brief Calculates the sine of a floating point number
*
* @param[in] a The angle in radians to calculate the sine from.
* @return The cosine of the angle @p a
*/
EAPI Eina_F32p32 eina_f32p32_sin(Eina_F32p32 a);
/**
* @def EINA_F16P16_ONE
*
* Yields the maximum 16-bit unsigned integer size (= 65536)
*/
#define EINA_F16P16_ONE (1 << 16)
/**
* @def EINA_F16P16_HALF
*
* Yields the maximum 16-bit signed integer size (= 32768)
*/
#define EINA_F16P16_HALF (1 << 15)
/**
* @brief Creates a new Eina_F16p316 floating point number from standard 32-bit
* integer
*
* @param[in] v 32-bit integer value to convert
* @return The value converted into Eina_F16p16 format
*/
static inline Eina_F16p16 eina_f16p16_int_from(int32_t v);
/**
* @brief Creates a new standard 32-bit integer from Eina_F16p16 floating point
* number
*
* @param[in] v Eina_F16p16 value to convert
* @return The value converted into 32-bit integer
*/
static inline int32_t eina_f16p16_int_to(Eina_F16p16 v);
/**
* @brief Creates a new Eina_F16p16 floating point number from standard double
*
* @param[in] v Double value to convert
* @return The value converted into Eina_F16p16 format
*/
static inline Eina_F16p16 eina_f16p16_double_from(double v);
/**
* @brief Creates a new standard double from Eina_F16p16 floating point
* number
*
* @param[in] v Eina_F16p16 value to convert
* @return The value converted into double
*/
static inline double eina_f16p16_double_to(Eina_F16p16 v);
/**
* @brief Creates a new Eina_F16p16 floating point number from standard float
*
* @param[in] v Float value to convert
* @return The value converted into Eina_F16p16 format
*/
static inline Eina_F16p16 eina_f16p16_float_from(float v);
/**
* @brief Creates a new standard float from Eina_F16p16 floating point
* number
*
* @param[in] v Eina_F16p16 value to convert
* @return The value converted into float
*/
static inline float eina_f16p16_float_to(Eina_F16p16 v);
/**
* @brief Calculates the sum of two Eina_F16p16 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The sum result of the two numbers @p a + @p b
*/
static inline Eina_F16p16 eina_f16p16_add(Eina_F16p16 a, Eina_F16p16 b);
/**
* @brief Calculates the subtraction of two Eina_F16p16 floating point numbers
*
* @param[in] a The first number
* @param[in] b The subtracted number
* @return The subtraction result of the two numbers @p a - @p b
*/
static inline Eina_F16p16 eina_f16p16_sub(Eina_F16p16 a, Eina_F16p16 b);
/**
* @brief Calculates the multiplication of two Eina_F16p16 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The multiplication result of the two numbers @p a * @p b
*/
static inline Eina_F16p16 eina_f16p16_mul(Eina_F16p16 a, Eina_F16p16 b);
/**
* @brief Calculates the scale multiplication of one Eina_F16p16 floating point
* number with an integer
*
* @param[in] a The Eina_F16p16 number
* @param[in] b The integer value
* @return The multiplication result of the two numbers @p a * @p b
*/
static inline Eina_F16p16 eina_f16p16_scale(Eina_F16p16 a, int b);
/**
* @brief Calculates the division of two Eina_F16p16 floating point numbers
*
* @param[in] a The numerator number
* @param[in] b The denominator number
* @return The division result of the two numbers @p a / @p b
*/
static inline Eina_F16p16 eina_f16p16_div(Eina_F16p16 a, Eina_F16p16 b);
/**
* @brief Calculates the square root of an Eina_F16p16 floating point number
*
* @param[in] a The number to calculate the square root from
* @return The square root result for the number @p a
*/
static inline Eina_F16p16 eina_f16p16_sqrt(Eina_F16p16 a);
/**
* @brief Gets the absolute value of the integer part of and Eina_F16p16 floating
* point number
*
* @param[in] v The floating point number
* @return The positive integer part of the number @p v
*/
static inline unsigned int eina_f16p16_fracc_get(Eina_F16p16 v);
/**
* @brief Creates a new Eina_F16p316 floating point number from standard 32-bit
* integer
*
* @param[in] v 32-bit integer value to convert
* @return The value converted into Eina_F8p24 format
*/
static inline Eina_F8p24 eina_f8p24_int_from(int32_t v);
/**
* @brief Creates a new standard 32-bit integer from Eina_F8p24 floating point
* number
*
* @param[in] v Eina_F8p24 value to convert
* @return The value converted into 32-bit integer
*/
static inline int32_t eina_f8p24_int_to(Eina_F8p24 v);
/**
* @brief Creates a new Eina_F8p24 floating point number from standard float
*
* @param[in] v Float value to convert
* @return The value converted into Eina_F8p24 format
*/
static inline Eina_F8p24 eina_f8p24_float_from(float v);
/**
* @brief Create a new standard float from Eina_F8p24 floating point number
*
* @param[in] v Eina_F8p24 value to convert
* @return The value converted into float
*/
static inline float eina_f8p24_float_to(Eina_F8p24 v);
/**
* @brief Calculates the sum of two Eina_F8p24 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The sum result of the two numbers @p a + @p b
*/
static inline Eina_F8p24 eina_f8p24_add(Eina_F8p24 a, Eina_F8p24 b);
/**
* @brief Calculates the subtraction of two Eina_F8p24 floating point numbers
*
* @param[in] a The first number
* @param[in] b The subtracted number
* @return The subtraction result of the two numbers @p a - @p b
*/
static inline Eina_F8p24 eina_f8p24_sub(Eina_F8p24 a, Eina_F8p24 b);
/**
* @brief Calculates the multiplication of two Eina_F8p24 floating point numbers
*
* @param[in] a The first number
* @param[in] b The second number
* @return The multiplication result of the two numbers @p a * @p b
*/
static inline Eina_F8p24 eina_f8p24_mul(Eina_F8p24 a, Eina_F8p24 b);
/**
* @brief Calculates the scale multiplication of one Eina_F8p24 floating point
* number with an integer
*
* @param[in] a The Eina_F16p16 number
* @param[in] b The integer value
* @return The multiplication result of the two numbers @p a * @p b
*/
static inline Eina_F8p24 eina_f8p24_scale(Eina_F8p24 a, int b);
/**
* @brief Calculates the division of two Eina_F8p24 floating point numbers
*
* @param[in] a The numerator number
* @param[in] b The denominator number
* @return The division result of the two numbers @p a / @p b
*/
static inline Eina_F8p24 eina_f8p24_div(Eina_F8p24 a, Eina_F8p24 b);
/**
* @brief Calculates the square root of an Eina_F8p24 floating point number
*
* @param[in] a The number to calculate the square root from
* @return The square root result for the number @p a
*/
static inline Eina_F8p24 eina_f8p24_sqrt(Eina_F8p24 a);
/**
* @brief Gets the absolute value of the integer part of and Eina_F8p24 floating
* point number
*
* @param[in] v The floating point number
* @return The positive integer part of the number @p v
*/
static inline unsigned int eina_f8p24_fracc_get(Eina_F8p24 v);
/**
* @brief Converts an Eina_F16p16 floating point number into Eina_F32p32 format
*
* @param[in] a The Eina_F16p16 floating point number
* @return The converted Eina_F32p32 floating point number
*/
static inline Eina_F32p32 eina_f16p16_to_f32p32(Eina_F16p16 a);
/**
* @brief Converts an Eina_F8p24 floating point number into Eina_F32p32 format
*
* @param[in] a The Eina_F8p24 floating point number
* @return The converted Eina_F32p32 floating point number
*/
static inline Eina_F32p32 eina_f8p24_to_f32p32(Eina_F8p24 a);
/**
* @brief Converts an Eina_F32p32 floating point number into Eina_F16p16 format
*
* @param[in] a The Eina_F32p32 floating point number
* @return The converted Eina_F16p16 floating point number
*/
static inline Eina_F16p16 eina_f32p32_to_f16p16(Eina_F32p32 a);
/**
* @brief Converts an Eina_F8p24 floating point number into Eina_F16p16 format
*
* @param[in] a The Eina_F8p24 floating point number
* @return The converted Eina_F16p16 floating point number
*/
static inline Eina_F16p16 eina_f8p24_to_f16p16(Eina_F8p24 a);
/**
* @brief Converts an Eina_F32p32 floating point number into Eina_F8p24 format
*
* @param[in] a The Eina_F32p32 floating point number
* @return The converted Eina_F8p16 floating point number
*/
static inline Eina_F8p24 eina_f32p32_to_f8p24(Eina_F32p32 a);
/**
* @brief Converts an Eina_F16p16 floating point number into Eina_F8p16 format
*
* @param[in] a The Eina_F16p16 floating point number
* @return The converted Eina_F8p16 floating point number
*/
static inline Eina_F8p24 eina_f16p16_to_f8p24(Eina_F16p16 a);
#include "eina_inline_f32p32.x"
#include "eina_inline_f16p16.x"
#include "eina_inline_f8p24.x"
#include "eina_inline_fp.x"
/**
* @}
*/
/**
* @}
*/
#endif