mirror of https://github.com/AxioDL/zeus.git
Order-of-operations optimization with degrees/radians conversion
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@ -6,6 +6,7 @@
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#undef M_PI
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#define M_PI 3.14159265358979323846 /* pi */
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#define M_PIF 3.14159265358979323846f /* pi */
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#undef M_PI_2
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#define M_PI_2 1.57079632679489661923 /* pi/2 */
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#undef M_PI_4
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@ -55,10 +56,10 @@ inline T max(T a, T b) { return a > b ? a : b; }
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template<typename T>
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inline T clamp(T a, T val, T b) {return max<T>(a, min<T>(b, val));}
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inline float radToDeg(float rad) {return rad * 180.f / M_PI;}
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inline float degToRad(float deg) {return deg * M_PI / 180.f;}
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inline double radToDeg(double rad) {return rad * 180.0 / M_PI;}
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inline double degToRad(double deg) {return deg * M_PI / 180.0;}
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inline float radToDeg(float rad) {return rad * (180.f / M_PIF);}
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inline float degToRad(float deg) {return deg * (M_PIF / 180.f);}
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inline double radToDeg(double rad) {return rad * (180.0 / M_PI);}
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inline double degToRad(double deg) {return deg * (M_PI / 180.0);}
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CVector3f baryToWorld(const CVector3f& p0, const CVector3f& p1, const CVector3f& p2, const CVector3f& bary);
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@ -11,8 +11,8 @@ const CVector3f CVector3f::skNegOne = CVector3f(-1.0);
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const CVector3f CVector3f::skZero;
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const CVector3f kUpVec(0.0, 0.0, 1.0);
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const CVector3f kRadToDegVec(180.0f / M_PI);
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const CVector3f kDegToRadVec(M_PI / 180.0f);
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const CVector3f kRadToDegVec(180.0f / M_PIF);
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const CVector3f kDegToRadVec(M_PIF / 180.0f);
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float CVector3f::getAngleDiff(const CVector3f& a, const CVector3f& b)
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{
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42
src/Math.cpp
42
src/Math.cpp
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@ -160,7 +160,7 @@ float fastArcCosF(float val)
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* the approximation below won't provide any benefit,
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* and we simply fall back to the standard implementation
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*/
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if (std::fabs(val) >= 0.925000011920929)
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if (std::fabs(val) >= 0.925000011920929f)
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return std::acos(val);
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/* Fast Arc Cosine approximation using Taylor Polynomials
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@ -215,47 +215,47 @@ int ceilingPowerOfTwo(int x)
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float fastCosF(float val)
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{
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if (std::fabs(val) > M_PI)
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if (std::fabs(val) > M_PIF)
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{
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float rVal = float(uint32_t(val));
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val = -((rVal * val) - 6.2831855);
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if (val <= M_PI && val < -M_PI)
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val += 6.2831855;
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val = -((rVal * val) - 6.2831855f);
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if (val <= M_PIF && val < -M_PIF)
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val += 6.2831855f;
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else
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val -= 6.2831855;
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val -= 6.2831855f;
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}
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float sq = val * val;
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float b = sq * sq;
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val = sq + -0.4999803;
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val = (b * val) + 0.041620344;
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val = sq + -0.4999803f;
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val = (b * val) + 0.041620344f;
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b = b * sq;
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val = (b * val) + -0.0013636103;
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val = (b * val) + -0.0013636103f;
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b = b * sq;
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val = (b * val) + 0.000020169435;
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val = (b * val) + 0.000020169435f;
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return val;
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}
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float fastSinF(float val)
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{
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if (std::fabs(val) > M_PI)
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if (std::fabs(val) > M_PIF)
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{
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float rVal = float(uint32_t(val));
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val = -((rVal * val) - 6.2831855);
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if (val <= M_PI && val < -M_PI)
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val += 6.2831855;
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val = -((rVal * val) - 6.2831855f);
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if (val <= M_PIF && val < -M_PIF)
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val += 6.2831855f;
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else
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val -= 6.2831855;
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val -= 6.2831855f;
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}
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float sq = val * val;
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float ret = val * 0.99980587;
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float ret = val * 0.99980587f;
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val = val * sq;
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ret = (val * ret) + -0.16621658;
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ret = (val * ret) + -0.16621658f;
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val = val * sq;
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ret = (val * ret) + 0.0080871079;
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ret = (val * ret) + 0.0080871079f;
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val = val * sq;
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ret = (val * ret) + -0.00015297699;
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ret = (val * ret) + -0.00015297699f;
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return ret;
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}
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@ -263,7 +263,7 @@ float getCatmullRomSplinePoint(float a, float b, float c, float d, float t)
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{
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if (t <= 0.0f)
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return b;
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if (t >= 1.0)
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if (t >= 1.0f)
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return c;
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const float t2 = t * t;
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@ -279,7 +279,7 @@ CVector3f getCatmullRomSplinePoint(const CVector3f& a, const CVector3f& b, const
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{
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if (t <= 0.0f)
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return b;
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if (t >= 1.0)
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if (t >= 1.0f)
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return c;
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const float t2 = t * t;
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