// // FloatLib.c // // // Created by Slice on 20.06.2018. // #include "FloatLib.h" //#define memcpy(dest,source,count) CopyMem(dest,(void*)source,(UINTN)(count)) //#define fabsf(x) ((x >= 0.0f)?x:(-x)) #define fabsf(x) FabsF(x) //we will assume sqrt(abs(x)) float SqrtF(float X) { /* struct FloatInt { union { INT32 i; float f; } fi; }; */ if (X == 0.0f) { return 0.0f; } else if (X < 0.0f) { X = -X; } // struct FloatInt Y; float Yf; Yf = X * 0.3f; // Y.i = Y.i >> 1; // dirty hack - first iteration //do six iterations Yf = Yf * 0.5f + X / (Yf * 2.0f); Yf = Yf * 0.5f + X / (Yf * 2.0f); Yf = Yf * 0.5f + X / (Yf * 2.0f); Yf = Yf * 0.5f + X / (Yf * 2.0f); Yf = Yf * 0.5f + X / (Yf * 2.0f); Yf = Yf * 0.5f + X / (Yf * 2.0f); return Yf; } float CosF(float X); //we know sin is odd float SinF(float X) { INTN Period; float X2; float Sign = 1.0f; if (X < 0.0f) { X = -X; Sign = -1.0f; } Period = (INTN)(X / PI2); X = X - Period * PI2; if (X > PI) { X = X - PI; Sign *= -1.0f; } if (X > PI5) { X = PI - X; } if (X > PI * 0.25f) { return (Sign*CosF(PI5 - X)); } X2 = X * X; return (Sign*(X - X2 * X / 6.0f + X2 * X2 * X / 120.0f)); } //we know cos is even float CosF(float X) { INTN Period; float Sign = 1.0f; float X2; if (X < 0.0f) { X = -X; } Period = (INTN)(X / PI2); X = X - Period * PI2; if (X > PI) { X = PI - X; Sign = -1.0f; } if (X > PI5) { X = PI - X; Sign *= -1.0f; } if (X > PI * 0.25f) { return (Sign*SinF(PI5 - X)); } X2 = X * X; return (Sign * (1.0f - X2 * 0.5f + X2 * X2 / 24.0f)); } float TanF(float X) { float Y = CosF(X); if (Y == 0.0f) { Y = 1.0e-37f; } return SinF(X)/Y; } float PowF(float x, INTN n) { float Data = x; if (n > 0) { while (n > 0) { Data *= 10.0f; n--; } } else { while (n < 0) { Data *= 0.1f; n++; } } return Data; } float CeilF(float X) { INT32 I = (INT32)X; return (float)(++I); } float FloorF(float X) { INT32 I = (INT32)X; return (float)I; } float ModF(float X, float Y) { INT32 I = (INT32)(X / Y); return (X - (float)I * Y); } float AcosF(float X) { float X2 = X * X; float res = 0.f, Y = 0.f; INTN Sign = 0; if (X2 < 0.3f) { Y = X * (1.0f + X2 / 6.0f + X2 * X2 * (3.0f / 40.0f)); return (PI5 - Y); } else if (X2 >= 1.0f) { return 0.0f; } else { if (X < 0) { X = -X; Sign = 1; } Y = 1.0f - X; //for X ~ 1 X2 = Y * (2.0f + Y * (1.0f / 3.0f + Y * (4.0f / 45.0f + Y / 35.0f))); //Dwight, form.508 res = SqrtF(X2); if (Sign) { res = PI - res; } } return res; } float AtanF(float X) //assume 0.0 < X < 1.0 { float Eps = 1.0e-8f; int i = 1; float X2 = X * X; float D = X; float Y = 0.f; float sign = 1.0f; if (X > 0.5f) { //make here arctg(1-x) X = 1.0f - D; X2 = X * X; Y = PI4 - X * 0.5f - X2 * 0.25f - X * X2 * 0.25f * ( 1.f / 3.f - X2 * (0.1f + X / 12.f + X2 / 28.f)); } else { // Y = X * (1 - X2 * ( 1.0f / 3.0f - X2 * (1.0f / 5.0f - X2 * ( 1.0f / 7.0f)))); for (i = 1; i < 50; i += 2) { Y += (D * sign / i); D *= X2; if (D < Eps) { break; } sign = - sign; } } return Y; } float Atan2F(float Y, float X) //result -pi..+pi { float sign = (((X >= 0.0f) && (Y < 0.0f)) || ((X < 0.0f) && (Y >= 0.0f)))?-1.0f:1.0f; float PP = 0.f; float res = 0.f; //1,1 = pi4 1,-1=pi34 -1,-1=-pi34 -1,1=-pi4 if (X < 0.f) { PP = PI; } X = (X >= 0.0f)?X:(-X); Y = (Y >= 0.0f)?Y:(-Y); if (Y < X) { res = AtanF(Y / X); } else if (X == 0.0f) { res = PI5; } else { res = (PI5 - AtanF(X / Y)); } return sign * (res - PP); } /* RETURN_STATUS EFIAPI AsciiStrDecimalToUintnS ( IN CONST CHAR8 *String, OUT CHAR8 **EndPointer, OPTIONAL OUT UINTN *Data ); */ RETURN_STATUS AsciiStrToFloat(IN CONST CHAR8 *String, OUT CHAR8 **EndPointer, OPTIONAL OUT float *Data) { UINTN Temp = 0; INTN Sign = 1; float Mantissa, Ftemp; CHAR8* TmpStr = NULL; RETURN_STATUS Status = RETURN_SUCCESS; if (EndPointer != NULL) { *EndPointer = (CHAR8 *) String; } // // Ignore the pad spaces (space or tab) // while ((*String == ' ') || (*String == '\t')) { String++; } if (*String == '-') { Sign = -1; String++; } else if (*String == '+') { String++; } Status = AsciiStrDecimalToUintnS(String, &TmpStr, &Temp); Mantissa = (float)Temp; String = TmpStr; if (*String == '.') { String++; Temp = 0; Status = AsciiStrDecimalToUintnS(String, &TmpStr, &Temp); Ftemp = (float)Temp; while (String != TmpStr) { if (*String == '\0') { break; } Ftemp *= 0.1f; String++; } Mantissa += Ftemp; } if ((*String == 'E') || (*String == 'e')){ INTN ExpSign = 1; String++; if (*String == '-') { ExpSign = -1; String++; } else if (*String == '+') { String++; } Temp = 0; Status = AsciiStrDecimalToUintnS(String, &TmpStr, &Temp); if (Status == RETURN_SUCCESS) { Ftemp = PowF(10.0f, ExpSign * Temp); Mantissa *= Ftemp; } } *Data = (Sign > 0)?Mantissa:-Mantissa; if (EndPointer != NULL) { *EndPointer = (CHAR8 *) TmpStr; } return RETURN_SUCCESS; } /* //Slice - this is my replacement for standard qsort(void* Array, int Num, size_t Size, int (*compare)(void* a, void* b)) usage qsort(Array, Num, sizeof(*Array), compare); where for example int compare(void *a, void* b) { if (*(float*)a > *(float*)b) return 1; if (*(float*)a < *(float*)b) return -1; return -0; } */ #if 0 VOID QuickSort(VOID* Array, INTN Low, INTN High, INTN Size, INTN (*compare)(CONST VOID* a, CONST VOID* b)) { INTN i = Low, j = High; VOID *Med, *Temp; Med = Array + ((Low + High) / 2) * Size; // Central element, just pointer Temp = (__typeof__(Temp))AllocatePool(Size); // Sort around center while (i <= j) { while (compare((const void*)(Array+i*Size), (const void*)Med) == -1) i++; while (compare((const void*)(Array+j*Size), (const void*)Med) == 1) j--; // Change if (i <= j) { memcpy(Temp, Array+i*Size, Size); memcpy(Array+i*Size, Array+j*Size, Size); memcpy(Array+j*Size, Temp, Size); i++; j--; } } FreePool(Temp); // Recursion if (j > Low) QuickSort(Array, Low, j, Size, compare); if (High > i) QuickSort(Array, i, High, Size, compare); } // ////S must be allocated before use //VOID AsciiSPrintFloat(CHAR8* S, INTN N, CHAR8* F, float X) //{ // INTN I, Fract; // float D; // if (!S) { // return; // } // // I = (INTN)X; // D = (float)I; // Fract = fabsf((X - D) * 1000000.0f); // snprintf(S, N, "%D.%06D", I, (INTN)Fract); //} #endif // //CHAR16* P__oolPrintFloat(float X) //{ // INTN I, Fract; // CHAR8 S = ' '; // float D; // I = (INTN)X; // D = (float)I; // if (I == 0 && X < 0) { // S = '-'; // } // Fract = (INTN)fabsf((X - D) * 1000000.0f); // return P__oolPrint(L"%c%d.%06d", S, I, Fract); //} static UINT32 seed = 12345; float rndf() //expected 0..1 { // UINT16 Rand = 0; // AsmRdRand16(&Rand); //it's a pity panic // return (float)Rand / 65536.f; seed = seed * 214013 + 2531011; float x = (float)seed / 4294967296.0f; return x; } int dither(float x, int level) { if (!level) { return (int)x; } int i = (int)(x) * level; //5.1 * 4 = 20.4, 5.8 * 4 = 23.2|i=20 float dx = x * level - (float)(i); //0.4, 3.2 i /= level; if (dx > rndf() * level) { i += (int)((0.9999f+rndf())*level); //because rndf has mean value 0.5, but (int)rnd=0 } return i; } //there is #if 0 BOOLEAN EFIAPI AsmRdRand16 ( OUT UINT16 *Rand ); #endif