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300 lines
9.8 KiB
C
300 lines
9.8 KiB
C
#ifndef __libfixmath_fix16_h__
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#define __libfixmath_fix16_h__
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/* These options may let the optimizer to remove some calls to the functions.
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* Refer to http://gcc.gnu.org/onlinedocs/gcc/Function-Attributes.html
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*/
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#ifndef FIXMATH_FUNC_ATTRS
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# ifdef __GNUC__
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# if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6)
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# define FIXMATH_FUNC_ATTRS __attribute__((leaf, nothrow, const))
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# else
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# define FIXMATH_FUNC_ATTRS __attribute__((nothrow, const))
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# endif
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# else
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# define FIXMATH_FUNC_ATTRS
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# endif
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#endif
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#include <stdint.h>
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typedef int32_t fix16_t;
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static const fix16_t FIX16_MAX = 0x7FFFFFFF; /*!< the maximum value of fix16_t */
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static const fix16_t FIX16_MIN = 0x80000000; /*!< the minimum value of fix16_t */
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static const fix16_t FIX16_OVERFLOW = 0x80000000; /*!< the value used to indicate overflows when FIXMATH_NO_OVERFLOW is not specified */
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static const fix16_t fix16_one = 0x00010000; /*!< fix16_t value of 1 */
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/* Conversion functions between fix16_t and float/integer.
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* These are inlined to allow compiler to optimize away constant numbers
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*/
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static inline constexpr fix16_t fix16_from_int(int a) { return a * fix16_one; }
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static inline constexpr float fix16_to_float(fix16_t a) { return (float)a / fix16_one; }
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static inline constexpr double fix16_to_dbl(fix16_t a) { return (double)a / fix16_one; }
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static inline constexpr int fix16_to_int(fix16_t a)
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{
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#ifdef FIXMATH_NO_ROUNDING
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return (a >> 16);
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#else
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if (a >= 0)
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return (a + (fix16_one >> 1)) / fix16_one;
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return (a - (fix16_one >> 1)) / fix16_one;
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#endif
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}
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static inline fix16_t fix16_from_float(float a)
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{
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float temp = a * fix16_one;
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#ifndef FIXMATH_NO_ROUNDING
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temp += (temp >= 0) ? 0.5f : -0.5f;
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#endif
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return (fix16_t)temp;
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}
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static inline fix16_t fix16_from_dbl(double a)
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{
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double temp = a * fix16_one;
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#ifndef FIXMATH_NO_ROUNDING
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temp += (temp >= 0) ? 0.5f : -0.5f;
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#endif
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return (fix16_t)temp;
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}
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/* Macro for defining fix16_t constant values.
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The functions above can't be used from e.g. global variable initializers,
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and their names are quite long also. This macro is useful for constants
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springled alongside code, e.g. F16(1.234).
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Note that the argument is evaluated multiple times, and also otherwise
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you should only use this for constant values. For runtime-conversions,
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use the functions above.
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*/
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#define F16(x) ((fix16_t)(((x) >= 0) ? ((x) * 65536.0 + 0.5) : ((x) * 65536.0 - 0.5)))
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static inline constexpr fix16_t fix16_abs(fix16_t x)
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{ return (x < 0 ? -x : x); }
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static inline constexpr fix16_t fix16_floor(fix16_t x)
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{ return (x & 0xFFFF0000UL); }
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static inline constexpr fix16_t fix16_ceil(fix16_t x)
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{ return (x & 0xFFFF0000UL) + ((x & 0x0000FFFFUL) ? fix16_one : 0); }
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static inline constexpr fix16_t fix16_min(fix16_t x, fix16_t y)
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{ return (x < y ? x : y); }
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static inline constexpr fix16_t fix16_max(fix16_t x, fix16_t y)
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{ return (x > y ? x : y); }
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static inline constexpr fix16_t fix16_clamp(fix16_t x, fix16_t lo, fix16_t hi)
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{ return fix16_min(fix16_max(x, lo), hi); }
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/* Subtraction and addition with (optional) overflow detection. */
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#ifdef FIXMATH_NO_OVERFLOW
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static inline constexpr fix16_t fix16_add(fix16_t inArg0, fix16_t inArg1) { return (inArg0 + inArg1); }
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static inline constexpr fix16_t fix16_sub(fix16_t inArg0, fix16_t inArg1) { return (inArg0 - inArg1); }
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#else
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extern fix16_t fix16_add(fix16_t a, fix16_t b) FIXMATH_FUNC_ATTRS;
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extern fix16_t fix16_sub(fix16_t a, fix16_t b) FIXMATH_FUNC_ATTRS;
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/* Saturating arithmetic */
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extern fix16_t fix16_sadd(fix16_t a, fix16_t b) FIXMATH_FUNC_ATTRS;
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extern fix16_t fix16_ssub(fix16_t a, fix16_t b) FIXMATH_FUNC_ATTRS;
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#endif
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/*! Multiplies the two given fix16_t's and returns the result.
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*/
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extern fix16_t fix16_mul(fix16_t inArg0, fix16_t inArg1) FIXMATH_FUNC_ATTRS;
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/*! Divides the first given fix16_t by the second and returns the result.
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*/
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extern fix16_t fix16_div(fix16_t a, fix16_t b) FIXMATH_FUNC_ATTRS;
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#ifndef FIXMATH_NO_OVERFLOW
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/*! Performs a saturated multiplication (overflow-protected) of the two given fix16_t's and returns the result.
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*/
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extern fix16_t fix16_smul(fix16_t inArg0, fix16_t inArg1) FIXMATH_FUNC_ATTRS;
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/*! Performs a saturated division (overflow-protected) of the first fix16_t by the second and returns the result.
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*/
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extern fix16_t fix16_sdiv(fix16_t inArg0, fix16_t inArg1) FIXMATH_FUNC_ATTRS;
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#endif
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/*! Divides the first given fix16_t by the second and returns the remainder.
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*/
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static inline fix16_t fix16_mod(fix16_t x, fix16_t y) { return x %= y; }
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/*! Returns the linear interpolation: (inArg0 * (1 - inFract)) + (inArg1 * inFract)
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*/
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extern fix16_t fix16_lerp8(fix16_t inArg0, fix16_t inArg1, uint8_t inFract) FIXMATH_FUNC_ATTRS;
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extern fix16_t fix16_lerp16(fix16_t inArg0, fix16_t inArg1, uint16_t inFract) FIXMATH_FUNC_ATTRS;
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extern fix16_t fix16_lerp32(fix16_t inArg0, fix16_t inArg1, uint32_t inFract) FIXMATH_FUNC_ATTRS;
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/*! Returns the sine of the given fix16_t.
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*/
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extern fix16_t fix16_sin_parabola(fix16_t inAngle) FIXMATH_FUNC_ATTRS;
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/*! Returns the sine of the given fix16_t.
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*/
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extern fix16_t fix16_sin(fix16_t inAngle) FIXMATH_FUNC_ATTRS;
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/*! Returns the cosine of the given fix16_t.
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*/
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extern fix16_t fix16_cos(fix16_t inAngle) FIXMATH_FUNC_ATTRS;
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/*! Returns the tangent of the given fix16_t.
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*/
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extern fix16_t fix16_tan(fix16_t inAngle) FIXMATH_FUNC_ATTRS;
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/*! Returns the arcsine of the given fix16_t.
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*/
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extern fix16_t fix16_asin(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the arccosine of the given fix16_t.
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*/
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extern fix16_t fix16_acos(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the arctangent of the given fix16_t.
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*/
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extern fix16_t fix16_atan(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the arctangent of inY/inX.
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*/
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extern fix16_t fix16_atan2(fix16_t inY, fix16_t inX) FIXMATH_FUNC_ATTRS;
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static const fix16_t fix16_rad_to_deg_mult = 3754936;
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static inline fix16_t fix16_rad_to_deg(fix16_t radians)
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{ return fix16_mul(radians, fix16_rad_to_deg_mult); }
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static const fix16_t fix16_deg_to_rad_mult = 1144;
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static inline fix16_t fix16_deg_to_rad(fix16_t degrees)
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{ return fix16_mul(degrees, fix16_deg_to_rad_mult); }
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/*! Returns the square root of the given fix16_t.
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*/
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extern fix16_t fix16_sqrt(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the square of the given fix16_t.
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*/
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static inline fix16_t fix16_sq(fix16_t x)
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{ return fix16_mul(x, x); }
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/*! Returns the exponent (e^) of the given fix16_t.
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*/
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extern fix16_t fix16_exp(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the natural logarithm of the given fix16_t.
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*/
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extern fix16_t fix16_log(fix16_t inValue) FIXMATH_FUNC_ATTRS;
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/*! Returns the base 2 logarithm of the given fix16_t.
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*/
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extern fix16_t fix16_log2(fix16_t x) FIXMATH_FUNC_ATTRS;
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/*! Returns the saturated base 2 logarithm of the given fix16_t.
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*/
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extern fix16_t fix16_slog2(fix16_t x) FIXMATH_FUNC_ATTRS;
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/*! Convert fix16_t value to a string.
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* Required buffer length for largest values is 13 bytes.
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*/
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extern void fix16_to_str(fix16_t value, char *buf, int decimals);
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/*! Convert string to a fix16_t value
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* Ignores spaces at beginning and end. Returns fix16_overflow if
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* value is too large or there were garbage characters.
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*/
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extern fix16_t fix16_from_str(const char *buf);
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/** Helper macro for F16C. Replace token with its number of characters/digits. */
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#define FIXMATH_TOKLEN(token) ( sizeof( #token ) - 1 )
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/** Helper macro for F16C. Handles pow(10, n) for n from 0 to 8. */
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#define FIXMATH_CONSTANT_POW10(times) ( \
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(times == 0) ? 1ULL \
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: (times == 1) ? 10ULL \
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: (times == 2) ? 100ULL \
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: (times == 3) ? 1000ULL \
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: (times == 4) ? 10000ULL \
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: (times == 5) ? 100000ULL \
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: (times == 6) ? 1000000ULL \
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: (times == 7) ? 10000000ULL \
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: 100000000ULL \
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)
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/** Helper macro for F16C, the type uint64_t is only used at compile time and
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* shouldn't be visible in the generated code.
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*
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* @note We do not use fix16_one instead of 65536ULL, because the
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* "use of a const variable in a constant expression is nonstandard in C".
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*/
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#define FIXMATH_CONVERT_MANTISSA(m) \
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( (unsigned) \
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( \
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( \
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( \
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(uint64_t)( ( ( 1 ## m ## ULL ) - FIXMATH_CONSTANT_POW10(FIXMATH_TOKLEN(m)) ) * FIXMATH_CONSTANT_POW10(5 - FIXMATH_TOKLEN(m)) ) \
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* 100000ULL * 65536ULL \
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) \
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+ 5000000000ULL /* rounding: + 0.5 */ \
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) \
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/ \
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10000000000LL \
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) \
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)
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#define FIXMATH_COMBINE_I_M(i, m) \
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( \
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( \
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( i ) \
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<< 16 \
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) \
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| \
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( \
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FIXMATH_CONVERT_MANTISSA(m) \
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& 0xFFFF \
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) \
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)
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/** Create int16_t (Q16.16) constant from separate integer and mantissa part.
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*
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* Only tested on 32-bit ARM Cortex-M0 / x86 Intel.
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*
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* This macro is needed when compiling with options like "--fpu=none",
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* which forbid all and every use of float and related types and
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* would thus make it impossible to have fix16_t constants.
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*
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* Just replace uses of F16() with F16C() like this:
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* F16(123.1234) becomes F16C(123,1234)
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*
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* @warning Specification of any value outside the mentioned intervals
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* WILL result in undefined behavior!
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*
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* @note Regardless of the specified minimum and maximum values for i and m below,
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* the total value of the number represented by i and m MUST be in the interval
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* ]-32768.00000:32767.99999[ else usage with this macro will yield undefined behavior.
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*
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* @param i Signed integer constant with a value in the interval ]-32768:32767[.
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* @param m Positive integer constant in the interval ]0:99999[ (fractional part/mantissa).
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*/
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#define F16C(i, m) \
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( (fix16_t) \
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( \
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(( #i[0] ) == '-') \
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? -FIXMATH_COMBINE_I_M((unsigned)( ( (i) * -1) ), m) \
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: FIXMATH_COMBINE_I_M((unsigned)i, m) \
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) \
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)
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#endif
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