diff --git a/wled00/wled_math.h b/wled00/wled_math.h index 8629ea096..a13c95d56 100644 --- a/wled00/wled_math.h +++ b/wled00/wled_math.h @@ -15,10 +15,10 @@ #define modd(x, y) ((x) - (int)((x) / (y)) * (y)) -float cos_t(float x) +float cos_t(float phi) { - x = modd(x, TWO_PI); - char sign = 1; + float x = modd(phi, TWO_PI); + int8_t sign = 1; if (x > PI) { x -= PI; @@ -28,7 +28,7 @@ float cos_t(float x) float res = sign * (1 - ((xx) / (2)) + ((xx * xx) / (24)) - ((xx * xx * xx) / (720)) + ((xx * xx * xx * xx) / (40320)) - ((xx * xx * xx * xx * xx) / (3628800)) + ((xx * xx * xx * xx * xx * xx) / (479001600))); #ifdef WLED_DEBUG_MATH - Serial.printf("cos: %f,%f\n",res,cos(x)); + Serial.printf("cos: %f,%f,%f,(%f)\n",phi,res,cos(x),res-cos(x)); #endif return res; } @@ -36,7 +36,7 @@ float cos_t(float x) float sin_t(float x) { float res = cos_t(HALF_PI - x); #ifdef WLED_DEBUG_MATH - Serial.printf("sin: %f,%f\n",res,sin(x)); + Serial.printf("sin: %f,%f,%f,(%f)\n",x,res,sin(x),res-sin(x)); #endif return res; } @@ -46,7 +46,7 @@ float tan_t(float x) { if (c==0.0) return 0; float res = sin_t(x) / c; #ifdef WLED_DEBUG_MATH - Serial.printf("tan: %f,%f\n",res,tan(x)); + Serial.printf("tan: %f,%f,%f,(%f)\n",x,res,tan(x),res-tan(x)); #endif return res; } @@ -67,7 +67,7 @@ float acos_t(float x) { ret = ret - 2 * negate * ret; float res = negate * PI + ret; #ifdef WLED_DEBUG_MATH - Serial.printf("acos,%f,%f,%f\n",x,res,acos(x)); + Serial.printf("acos: %f,%f,%f,(%f)\n",x,res,acos(x),res-acos(x)); #endif return res; } @@ -75,7 +75,7 @@ float acos_t(float x) { float asin_t(float x) { float res = HALF_PI - acos_t(x); #ifdef WLED_DEBUG_MATH - Serial.printf("asin,%f,%f,%f\n",x,res,asin(x)); + Serial.printf("asin: %f,%f,%f,(%f)\n",x,res,asin(x),res-asin(x)); #endif return res; } @@ -121,7 +121,7 @@ float floor_t(float x) { int val = x; if (neg) val--; #ifdef WLED_DEBUG_MATH - Serial.printf("floor: %f,%f\n",val,floor(x)); + Serial.printf("floor: %f,%f,%f\n",x,(float)val,floor(x)); #endif return val; } @@ -130,7 +130,7 @@ float fmod_t(float num, float denom) { int tquot = num / denom; float res = num - tquot * denom; #ifdef WLED_DEBUG_MATH - Serial.printf("fmod: %f,%f\n",res,fmod(num,denom)); + Serial.printf("fmod: %f,%f,(%f)\n",res,fmod(num,denom),res-fmod(num,denom)); #endif return res; }