1 2 /* 3 * Copyright 2008 The Android Open Source Project 4 * 5 * Use of this source code is governed by a BSD-style license that can be 6 * found in the LICENSE file. 7 */ 8 9 10 #ifndef SkFloat_DEFINED 11 #define SkFloat_DEFINED 12 13 #include "SkFixed.h" 14 15 class SkFloat { 16 public: SkFloat()17 SkFloat() {} 18 setZero()19 void setZero() { fPacked = 0; } 20 // void setShift(int value, int shift) { fPacked = SetShift(value, shift); } setInt(int value)21 void setInt(int value) { fPacked = SetShift(value, 0); } setFixed(SkFixed value)22 void setFixed(SkFixed value) { fPacked = SetShift(value, -16); } 23 24 // int getShift(int shift) const { return GetShift(fPacked, shift); } getInt()25 int getInt() const { return GetShift(fPacked, 0); } getFixed()26 SkFixed getFixed() const { return GetShift(fPacked, -16); } 27 abs()28 void abs() { fPacked = Abs(fPacked); } negate()29 void negate() { fPacked = Neg(fPacked); } 30 shiftLeft(int bits)31 void shiftLeft(int bits) { fPacked = Shift(fPacked, bits); } setShiftLeft(const SkFloat & a,int bits)32 void setShiftLeft(const SkFloat& a, int bits) { fPacked = Shift(a.fPacked, bits); } 33 shiftRight(int bits)34 void shiftRight(int bits) { fPacked = Shift(fPacked, -bits); } setShiftRight(const SkFloat & a,int bits)35 void setShiftRight(const SkFloat& a, int bits) { fPacked = Shift(a.fPacked, -bits); } 36 add(const SkFloat & a)37 void add(const SkFloat& a) { fPacked = Add(fPacked, a.fPacked); } setAdd(const SkFloat & a,const SkFloat & b)38 void setAdd(const SkFloat& a, const SkFloat& b) { fPacked = Add(a.fPacked, b.fPacked); } 39 sub(const SkFloat & a)40 void sub(const SkFloat& a) { fPacked = Add(fPacked, Neg(a.fPacked)); } setSub(const SkFloat & a,const SkFloat & b)41 void setSub(const SkFloat& a, const SkFloat& b) { fPacked = Add(a.fPacked, Neg(b.fPacked)); } 42 mul(const SkFloat & a)43 void mul(const SkFloat& a) { fPacked = Mul(fPacked, a.fPacked); } setMul(const SkFloat & a,const SkFloat & b)44 void setMul(const SkFloat& a, const SkFloat& b) { fPacked = Mul(a.fPacked, b.fPacked); } 45 div(const SkFloat & a)46 void div(const SkFloat& a) { fPacked = Div(fPacked, a.fPacked); } setDiv(const SkFloat & a,const SkFloat & b)47 void setDiv(const SkFloat& a, const SkFloat& b) { fPacked = Div(a.fPacked, b.fPacked); } 48 sqrt()49 void sqrt() { fPacked = Sqrt(fPacked); } setSqrt(const SkFloat & a)50 void setSqrt(const SkFloat& a) { fPacked = Sqrt(a.fPacked); } cubeRoot()51 void cubeRoot() { fPacked = CubeRoot(fPacked); } setCubeRoot(const SkFloat & a)52 void setCubeRoot(const SkFloat& a) { fPacked = CubeRoot(a.fPacked); } 53 54 friend bool operator==(const SkFloat& a, const SkFloat& b) { return a.fPacked == b.fPacked; } 55 friend bool operator!=(const SkFloat& a, const SkFloat& b) { return a.fPacked != b.fPacked; } 56 friend bool operator<(const SkFloat& a, const SkFloat& b) { return Cmp(a.fPacked, b.fPacked) < 0; } 57 friend bool operator<=(const SkFloat& a, const SkFloat& b) { return Cmp(a.fPacked, b.fPacked) <= 0; } 58 friend bool operator>(const SkFloat& a, const SkFloat& b) { return Cmp(a.fPacked, b.fPacked) > 0; } 59 friend bool operator>=(const SkFloat& a, const SkFloat& b) { return Cmp(a.fPacked, b.fPacked) >= 0; } 60 61 #ifdef SK_DEBUG 62 static void UnitTest(); 63 64 void assertEquals(float f, int tolerance = 0) 65 { 66 union { 67 float fFloat; 68 int32_t fPacked; 69 } tmp; 70 71 tmp.fFloat = f; 72 int d = tmp.fPacked - fPacked; 73 SkASSERT(SkAbs32(d) <= tolerance); 74 } getFloat()75 float getFloat() const 76 { 77 union { 78 float fFloat; 79 int32_t fPacked; 80 } tmp; 81 82 tmp.fPacked = fPacked; 83 return tmp.fFloat; 84 } 85 #endif 86 87 private: 88 int32_t fPacked; 89 90 public: 91 static int GetShift(int32_t packed, int shift); 92 static int32_t SetShift(int value, int shift); 93 static int32_t Neg(int32_t); Abs(int32_t packed)94 static int32_t Abs(int32_t packed) { return (uint32_t)(packed << 1) >> 1; } 95 static int32_t Shift(int32_t, int bits); 96 static int32_t Add(int32_t, int32_t); 97 static int32_t Mul(int32_t, int32_t); 98 static int32_t MulInt(int32_t, int); 99 static int32_t Div(int32_t, int32_t); 100 static int32_t DivInt(int32_t, int); 101 static int32_t Invert(int32_t); 102 static int32_t Sqrt(int32_t); 103 static int32_t CubeRoot(int32_t); 104 static int Cmp(int32_t, int32_t); 105 }; 106 107 #endif 108