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268 lines
8.2 KiB
C
268 lines
8.2 KiB
C
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/*
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* Copyright 2006 The Android Open Source Project
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkFixed_DEFINED
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#define SkFixed_DEFINED
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#include "SkTypes.h"
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/** \file SkFixed.h
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Types and macros for 16.16 fixed point
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*/
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/** 32 bit signed integer used to represent fractions values with 16 bits to the right of the decimal point
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*/
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typedef int32_t SkFixed;
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#define SK_Fixed1 (1 << 16)
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#define SK_FixedHalf (1 << 15)
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#define SK_FixedMax (0x7FFFFFFF)
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#define SK_FixedMin (-SK_FixedMax)
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#define SK_FixedNaN ((int) 0x80000000)
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#define SK_FixedPI (0x3243F)
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#define SK_FixedSqrt2 (92682)
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#define SK_FixedTanPIOver8 (0x6A0A)
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#define SK_FixedRoot2Over2 (0xB505)
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#ifdef SK_CAN_USE_FLOAT
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#define SkFixedToFloat(x) ((x) * 1.5258789e-5f)
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#if 1
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#define SkFloatToFixed(x) ((SkFixed)((x) * SK_Fixed1))
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#else
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// pins over/under flows to max/min int32 (slower than just a cast)
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static inline SkFixed SkFloatToFixed(float x) {
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int64_t n = x * SK_Fixed1;
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return (SkFixed)n;
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}
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#endif
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#define SkFixedToDouble(x) ((x) * 1.5258789e-5)
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#define SkDoubleToFixed(x) ((SkFixed)((x) * SK_Fixed1))
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#endif
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/** 32 bit signed integer used to represent fractions values with 30 bits to the right of the decimal point
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*/
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typedef int32_t SkFract;
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#define SK_Fract1 (1 << 30)
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#define Sk_FracHalf (1 << 29)
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#define SK_FractPIOver180 (0x11DF46A)
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#ifdef SK_CAN_USE_FLOAT
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#define SkFractToFloat(x) ((float)(x) * 0.00000000093132257f)
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#define SkFloatToFract(x) ((SkFract)((x) * SK_Fract1))
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#endif
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/** Converts an integer to a SkFixed, asserting that the result does not overflow
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a 32 bit signed integer
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*/
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#ifdef SK_DEBUG
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inline SkFixed SkIntToFixed(int n)
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{
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SkASSERT(n >= -32768 && n <= 32767);
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return n << 16;
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}
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#else
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// force the cast to SkFixed to ensure that the answer is signed (like the debug version)
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#define SkIntToFixed(n) (SkFixed)((n) << 16)
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#endif
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/** Converts a SkFixed to a SkFract, asserting that the result does not overflow
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a 32 bit signed integer
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*/
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#ifdef SK_DEBUG
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inline SkFract SkFixedToFract(SkFixed x)
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{
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SkASSERT(x >= (-2 << 16) && x <= (2 << 16) - 1);
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return x << 14;
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}
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#else
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#define SkFixedToFract(x) ((x) << 14)
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#endif
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/** Returns the signed fraction of a SkFixed
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*/
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inline SkFixed SkFixedFraction(SkFixed x)
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{
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SkFixed mask = x >> 31 << 16;
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return (x & 0xFFFF) | mask;
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}
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/** Converts a SkFract to a SkFixed
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*/
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#define SkFractToFixed(x) ((x) >> 14)
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#define SkFixedRoundToInt(x) (((x) + SK_FixedHalf) >> 16)
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#define SkFixedCeilToInt(x) (((x) + SK_Fixed1 - 1) >> 16)
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#define SkFixedFloorToInt(x) ((x) >> 16)
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#define SkFixedRoundToFixed(x) (((x) + SK_FixedHalf) & 0xFFFF0000)
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#define SkFixedCeilToFixed(x) (((x) + SK_Fixed1 - 1) & 0xFFFF0000)
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#define SkFixedFloorToFixed(x) ((x) & 0xFFFF0000)
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// DEPRECATED
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#define SkFixedFloor(x) SkFixedFloorToInt(x)
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#define SkFixedCeil(x) SkFixedCeilToInt(x)
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#define SkFixedRound(x) SkFixedRoundToInt(x)
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#define SkFixedAbs(x) SkAbs32(x)
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#define SkFixedAve(a, b) (((a) + (b)) >> 1)
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SkFixed SkFixedMul_portable(SkFixed, SkFixed);
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SkFract SkFractMul_portable(SkFract, SkFract);
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inline SkFixed SkFixedSquare_portable(SkFixed value)
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{
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uint32_t a = SkAbs32(value);
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uint32_t ah = a >> 16;
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uint32_t al = a & 0xFFFF;
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SkFixed result = ah * a + al * ah + (al * al >> 16);
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if (result >= 0)
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return result;
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else // Overflow.
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return SK_FixedMax;
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}
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#define SkFixedDiv(numer, denom) SkDivBits(numer, denom, 16)
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SkFixed SkFixedDivInt(int32_t numer, int32_t denom);
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SkFixed SkFixedMod(SkFixed numer, SkFixed denom);
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#define SkFixedInvert(n) SkDivBits(SK_Fixed1, n, 16)
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SkFixed SkFixedFastInvert(SkFixed n);
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#define SkFixedSqrt(n) SkSqrtBits(n, 23)
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SkFixed SkFixedMean(SkFixed a, SkFixed b); //*< returns sqrt(x*y)
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int SkFixedMulCommon(SkFixed, int , int bias); // internal used by SkFixedMulFloor, SkFixedMulCeil, SkFixedMulRound
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#define SkFractDiv(numer, denom) SkDivBits(numer, denom, 30)
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#define SkFractSqrt(n) SkSqrtBits(n, 30)
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SkFixed SkFixedSinCos(SkFixed radians, SkFixed* cosValueOrNull);
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#define SkFixedSin(radians) SkFixedSinCos(radians, NULL)
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inline SkFixed SkFixedCos(SkFixed radians)
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{
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SkFixed cosValue;
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(void)SkFixedSinCos(radians, &cosValue);
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return cosValue;
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}
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SkFixed SkFixedTan(SkFixed radians);
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SkFixed SkFixedASin(SkFixed);
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SkFixed SkFixedACos(SkFixed);
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SkFixed SkFixedATan2(SkFixed y, SkFixed x);
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SkFixed SkFixedExp(SkFixed);
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SkFixed SkFixedLog(SkFixed);
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#define SK_FixedNearlyZero (SK_Fixed1 >> 12)
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inline bool SkFixedNearlyZero(SkFixed x, SkFixed tolerance = SK_FixedNearlyZero)
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{
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SkASSERT(tolerance > 0);
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return SkAbs32(x) < tolerance;
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////
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// Now look for ASM overrides for our portable versions (should consider putting this in its own file)
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#ifdef SkLONGLONG
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inline SkFixed SkFixedMul_longlong(SkFixed a, SkFixed b)
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{
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return (SkFixed)((SkLONGLONG)a * b >> 16);
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}
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inline SkFract SkFractMul_longlong(SkFract a, SkFract b)
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{
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return (SkFixed)((SkLONGLONG)a * b >> 30);
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}
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inline SkFixed SkFixedSquare_longlong(SkFixed value)
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{
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return (SkFixed)((SkLONGLONG)value * value >> 16);
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}
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#define SkFixedMul(a,b) SkFixedMul_longlong(a,b)
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#define SkFractMul(a,b) SkFractMul_longlong(a,b)
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#define SkFixedSquare(a) SkFixedSquare_longlong(a)
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#endif
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#if defined(__arm__) && !defined(__thumb__)
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/* This guy does not handle NaN or other obscurities, but is faster than
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than (int)(x*65536) when we only have software floats
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*/
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inline SkFixed SkFloatToFixed_arm(float x)
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{
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register int32_t y, z;
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asm("movs %1, %3, lsl #1 \n"
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"mov %2, #0x8E \n"
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"sub %1, %2, %1, lsr #24 \n"
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"mov %2, %3, lsl #8 \n"
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"orr %2, %2, #0x80000000 \n"
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"mov %1, %2, lsr %1 \n"
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"rsbcs %1, %1, #0 \n"
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: "=r"(x), "=&r"(y), "=&r"(z)
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: "r"(x)
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: "cc"
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);
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return y;
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}
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inline SkFixed SkFixedMul_arm(SkFixed x, SkFixed y)
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{
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register int32_t t;
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asm("smull %0, %2, %1, %3 \n"
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"mov %0, %0, lsr #16 \n"
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"orr %0, %0, %2, lsl #16 \n"
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: "=r"(x), "=&r"(y), "=r"(t)
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: "r"(x), "1"(y)
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:
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);
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return x;
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}
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inline SkFixed SkFixedMulAdd_arm(SkFixed x, SkFixed y, SkFixed a)
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{
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register int32_t t;
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asm("smull %0, %3, %1, %4 \n"
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"add %0, %2, %0, lsr #16 \n"
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"add %0, %0, %3, lsl #16 \n"
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: "=r"(x), "=&r"(y), "=&r"(a), "=r"(t)
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: "%r"(x), "1"(y), "2"(a)
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:
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);
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return x;
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}
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inline SkFixed SkFractMul_arm(SkFixed x, SkFixed y)
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{
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register int32_t t;
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asm("smull %0, %2, %1, %3 \n"
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"mov %0, %0, lsr #30 \n"
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"orr %0, %0, %2, lsl #2 \n"
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: "=r"(x), "=&r"(y), "=r"(t)
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: "r"(x), "1"(y)
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:
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);
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return x;
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}
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#undef SkFixedMul
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#undef SkFractMul
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#define SkFixedMul(x, y) SkFixedMul_arm(x, y)
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#define SkFractMul(x, y) SkFractMul_arm(x, y)
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#define SkFixedMulAdd(x, y, a) SkFixedMulAdd_arm(x, y, a)
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#undef SkFloatToFixed
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#define SkFloatToFixed(x) SkFloatToFixed_arm(x)
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#endif
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/////////////////////// Now define our macros to the portable versions if they weren't overridden
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#ifndef SkFixedSquare
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#define SkFixedSquare(x) SkFixedSquare_portable(x)
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#endif
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#ifndef SkFixedMul
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#define SkFixedMul(x, y) SkFixedMul_portable(x, y)
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#endif
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#ifndef SkFractMul
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#define SkFractMul(x, y) SkFractMul_portable(x, y)
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#endif
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#ifndef SkFixedMulAdd
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#define SkFixedMulAdd(x, y, a) (SkFixedMul(x, y) + (a))
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#endif
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#endif
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