mirror of
https://github.com/ZDoom/Raze.git
synced 2024-12-24 03:00:53 +00:00
111dbd7a7d
mainly TAngle overhaul and needed code adjustments.
161 lines
No EOL
3.2 KiB
C++
161 lines
No EOL
3.2 KiB
C++
#ifndef __CMATH_H
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#define __CMATH_H
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#include "xs_Float.h"
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#define USE_CUSTOM_MATH // we want repreducably reliable results, even at the cost of performance
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#define USE_FAST_MATH // use faster table-based sin and cos variants with limited precision (sufficient for Doom gameplay)
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extern"C"
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{
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double c_asin(double);
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double c_acos(double);
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double c_atan(double);
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double c_atan2(double, double);
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double c_sin(double);
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double c_cos(double);
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double c_tan(double);
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double c_cot(double);
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double c_sqrt(double);
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double c_sinh(double);
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double c_cosh(double);
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double c_tanh(double);
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double c_exp(double);
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double c_log(double);
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double c_log10(double);
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double c_pow(double, double);
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}
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// This uses a sine table with linear interpolation
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// For in-game calculations this is precise enough
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// and this code is more than 10x faster than the
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// Cephes sin and cos function.
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struct FFastTrig
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{
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static const int TBLPERIOD = 8192;
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static const int BITSHIFT = 19;
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static const int REMAINDER = (1 << BITSHIFT) - 1;
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float sinetable[2049];
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double sinq1(unsigned);
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public:
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FFastTrig();
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double sin(unsigned);
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double cos(unsigned);
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};
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extern FFastTrig fasttrig;
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// This must use xs_Float to guarantee proper integer wraparound.
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#define DEG2BAM(f) ((unsigned)xs_CRoundToInt((f) * (0x40000000/90.)))
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#define RAD2BAM(f) ((unsigned)xs_CRoundToInt((f) * (0x80000000/3.14159265358979323846)))
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inline double fastcosbam(unsigned int v)
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{
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return fasttrig.cos(v);
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}
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inline double fastsinbam(unsigned int v)
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{
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return fasttrig.sin(v);
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}
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inline double fastcosdeg(double v)
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{
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return fasttrig.cos(DEG2BAM(v));
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}
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inline double fastsindeg(double v)
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{
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return fasttrig.sin(DEG2BAM(v));
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}
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inline double fastcos(double v)
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{
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return fasttrig.cos(RAD2BAM(v));
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}
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inline double fastsin(double v)
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{
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return fasttrig.sin(RAD2BAM(v));
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}
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// these are supposed to be local to this file.
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#undef DEG2BAM
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#undef RAD2BAM
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inline double sindeg(double v)
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{
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#ifdef USE_CUSTOM_MATH
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return c_sin(v * (3.14159265358979323846 / 180.));
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#else
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return sin(v * (3.14159265358979323846 / 180.));
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#endif
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}
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inline double cosdeg(double v)
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{
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#ifdef USE_CUSTOM_MATH
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return c_cos(v * (3.14159265358979323846 / 180.));
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#else
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return cos(v * (3.14159265358979323846 / 180.));
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#endif
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}
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#ifndef USE_CUSTOM_MATH
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#define g_asin asin
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#define g_acos acos
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#define g_atan atan
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#define g_atan2 atan2
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#define g_sin sin
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#define g_cos cos
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#define g_sindeg sindeg
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#define g_cosdeg cosdeg
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#define g_tan tan
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#define g_cot cot
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#define g_sqrt sqrt
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#define g_sinh sinh
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#define g_cosh cosh
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#define g_tanh tanh
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#define g_exp exp
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#define g_log log
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#define g_log10 log10
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#define g_pow pow
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#else
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#define g_asin c_asin
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#define g_acos c_acos
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#define g_atan c_atan
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#define g_atan2 c_atan2
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#ifndef USE_FAST_MATH
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#define g_sindeg sindeg
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#define g_cosdeg cosdeg
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#define g_sin c_sin
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#define g_cos c_cos
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#else
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#define g_sindeg fastsindeg
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#define g_cosdeg fastcosdeg
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#define g_sinbam fastsinbam
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#define g_cosbam fastcosbam
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#define g_sin fastsin
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#define g_cos fastcos
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#endif
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#define g_tan c_tan
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#define g_cot c_cot
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#define g_sqrt c_sqrt
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#define g_sinh c_sinh
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#define g_cosh c_cosh
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#define g_tanh c_tanh
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#define g_exp c_exp
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#define g_log c_log
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#define g_log10 c_log10
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#define g_pow c_pow
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#endif
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#endif |