/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkCordic.h" #include "SkMath.h" #include "Sk64.h" // 0x20000000 equals pi / 4 const int32_t kATanDegrees[] = { 0x20000000, 0x12E4051D, 0x9FB385B, 0x51111D4, 0x28B0D43, 0x145D7E1, 0xA2F61E, 0x517C55, 0x28BE53, 0x145F2E, 0xA2F98, 0x517CC, 0x28BE6, 0x145F3, 0xA2F9, 0x517C, 0x28BE, 0x145F, 0xA2F, 0x517, 0x28B, 0x145, 0xA2, 0x51, 0x28, 0x14, 0xA, 0x5, 0x2, 0x1 }; const int32_t kFixedInvGain1 = 0x18bde0bb; // 0.607252935 static void SkCircularRotation(int32_t* x0, int32_t* y0, int32_t* z0) { int32_t t = 0; int32_t x = *x0; int32_t y = *y0; int32_t z = *z0; const int32_t* tanPtr = kATanDegrees; do { int32_t x1 = y >> t; int32_t y1 = x >> t; int32_t tan = *tanPtr++; if (z >= 0) { x -= x1; y += y1; z -= tan; } else { x += x1; y -= y1; z += tan; } } while (++t < 16); // 30); *x0 = x; *y0 = y; *z0 = z; } SkFixed SkCordicSinCos(SkFixed radians, SkFixed* cosp) { int32_t scaledRadians = radians * 0x28be; // scale radians to 65536 / PI() int quadrant = scaledRadians >> 30; quadrant += 1; if (quadrant & 2) scaledRadians = -scaledRadians + 0x80000000; /* |a| <= 90 degrees as a 1.31 number */ SkFixed sin = 0; SkFixed cos = kFixedInvGain1; SkCircularRotation(&cos, &sin, &scaledRadians); Sk64 scaled; scaled.setMul(sin, 0x6488d); sin = scaled.fHi; scaled.setMul(cos, 0x6488d); if (quadrant & 2) scaled.fHi = - scaled.fHi; *cosp = scaled.fHi; return sin; } SkFixed SkCordicTan(SkFixed a) { int32_t cos; int32_t sin = SkCordicSinCos(a, &cos); return SkFixedDiv(sin, cos); } static int32_t SkCircularVector(int32_t* y0, int32_t* x0, int32_t vecMode) { int32_t x = *x0; int32_t y = *y0; int32_t z = 0; int32_t t = 0; const int32_t* tanPtr = kATanDegrees; do { int32_t x1 = y >> t; int32_t y1 = x >> t; int32_t tan = *tanPtr++; if (y < vecMode) { x -= x1; y += y1; z -= tan; } else { x += x1; y -= y1; z += tan; } } while (++t < 16); // 30 Sk64 scaled; scaled.setMul(z, 0x6488d); // scale back into the SkScalar space (0x100000000/0x28be) return scaled.fHi; } SkFixed SkCordicASin(SkFixed a) { int32_t sign = SkExtractSign(a); int32_t z = SkFixedAbs(a); if (z >= SK_Fixed1) return SkApplySign(SK_FixedPI>>1, sign); int32_t x = kFixedInvGain1; int32_t y = 0; z *= 0x28be; z = SkCircularVector(&y, &x, z); z = SkApplySign(z, ~sign); return z; } SkFixed SkCordicACos(SkFixed a) { int32_t z = SkCordicASin(a); z = (SK_FixedPI>>1) - z; return z; } SkFixed SkCordicATan2(SkFixed y, SkFixed x) { if ((x | y) == 0) return 0; int32_t xsign = SkExtractSign(x); x = SkFixedAbs(x); int32_t result = SkCircularVector(&y, &x, 0); if (xsign) { int32_t rsign = SkExtractSign(result); if (y == 0) rsign = 0; SkFixed pi = SkApplySign(SK_FixedPI, rsign); result = pi - result; } return result; } const int32_t kATanHDegrees[] = { 0x1661788D, 0xA680D61, 0x51EA6FC, 0x28CBFDD, 0x1460E34, 0xA2FCE8, 0x517D2E, 0x28BE6E, 0x145F32, 0xA2F98, 0x517CC, 0x28BE6, 0x145F3, 0xA2F9, 0x517C, 0x28BE, 0x145F, 0xA2F, 0x517, 0x28B, 0x145, 0xA2, 0x51, 0x28, 0x14, 0xA, 0x5, 0x2, 0x1 }; const int32_t kFixedInvGain2 = 0x31330AAA; // 1.207534495 static void SkHyperbolic(int32_t* x0, int32_t* y0, int32_t* z0, int mode) { int32_t t = 1; int32_t x = *x0; int32_t y = *y0; int32_t z = *z0; const int32_t* tanPtr = kATanHDegrees; int k = -3; do { int32_t x1 = y >> t; int32_t y1 = x >> t; int32_t tan = *tanPtr++; int count = 2 + (k >> 31); if (++k == 1) k = -2; do { if (((y >> 31) & mode) | ~((z >> 31) | mode)) { x += x1; y += y1; z -= tan; } else { x -= x1; y -= y1; z += tan; } } while (--count); } while (++t < 30); *x0 = x; *y0 = y; *z0 = z; } SkFixed SkCordicLog(SkFixed a) { a *= 0x28be; int32_t x = a + 0x28BE60DB; // 1.0 int32_t y = a - 0x28BE60DB; int32_t z = 0; SkHyperbolic(&x, &y, &z, -1); Sk64 scaled; scaled.setMul(z, 0x6488d); z = scaled.fHi; return z << 1; } SkFixed SkCordicExp(SkFixed a) { int32_t cosh = kFixedInvGain2; int32_t sinh = 0; SkHyperbolic(&cosh, &sinh, &a, 0); return cosh + sinh; } #ifdef SK_DEBUG #ifdef SK_CAN_USE_FLOAT #include "SkFloatingPoint.h" #endif void SkCordic_UnitTest() { #if defined(SK_SUPPORT_UNITTEST) && defined(SK_CAN_USE_FLOAT) float val; for (float angle = -720; angle < 720; angle += 30) { float radian = angle * 3.1415925358f / 180.0f; SkFixed f_angle = (int) (radian * 65536.0f); // sincos float sine = sinf(radian); float cosine = cosf(radian); SkFixed f_cosine; SkFixed f_sine = SkCordicSinCos(f_angle, &f_cosine); float sine2 = (float) f_sine / 65536.0f; float cosine2 = (float) f_cosine / 65536.0f; float error = fabsf(sine - sine2); if (error > 0.001) SkDebugf("sin error : angle = %g ; sin = %g ; cordic = %g\n", angle, sine, sine2); error = fabsf(cosine - cosine2); if (error > 0.001) SkDebugf("cos error : angle = %g ; cos = %g ; cordic = %g\n", angle, cosine, cosine2); // tan float _tan = tanf(radian); SkFixed f_tan = SkCordicTan(f_angle); float tan2 = (float) f_tan / 65536.0f; error = fabsf(_tan - tan2); if (error > 0.05 && fabsf(_tan) < 1e6) SkDebugf("tan error : angle = %g ; tan = %g ; cordic = %g\n", angle, _tan, tan2); } for (val = -1; val <= 1; val += .1f) { SkFixed f_val = (int) (val * 65536.0f); // asin float arcsine = asinf(val); SkFixed f_arcsine = SkCordicASin(f_val); float arcsine2 = (float) f_arcsine / 65536.0f; float error = fabsf(arcsine - arcsine2); if (error > 0.001) SkDebugf("asin error : val = %g ; asin = %g ; cordic = %g\n", val, arcsine, arcsine2); } #if 1 for (val = -1; val <= 1; val += .1f) { #else val = .5; { #endif SkFixed f_val = (int) (val * 65536.0f); // acos float arccos = acosf(val); SkFixed f_arccos = SkCordicACos(f_val); float arccos2 = (float) f_arccos / 65536.0f; float error = fabsf(arccos - arccos2); if (error > 0.001) SkDebugf("acos error : val = %g ; acos = %g ; cordic = %g\n", val, arccos, arccos2); } // atan2 #if 1 for (val = -1000; val <= 1000; val += 500.f) { for (float val2 = -1000; val2 <= 1000; val2 += 500.f) { #else val = 0; { float val2 = -1000; { #endif SkFixed f_val = (int) (val * 65536.0f); SkFixed f_val2 = (int) (val2 * 65536.0f); float arctan = atan2f(val, val2); SkFixed f_arctan = SkCordicATan2(f_val, f_val2); float arctan2 = (float) f_arctan / 65536.0f; float error = fabsf(arctan - arctan2); if (error > 0.001) SkDebugf("atan2 error : val = %g ; val2 = %g ; atan2 = %g ; cordic = %g\n", val, val2, arctan, arctan2); } } // log #if 1 for (val = 0.125f; val <= 8.f; val *= 2.0f) { #else val = .5; { #endif SkFixed f_val = (int) (val * 65536.0f); // acos float log = logf(val); SkFixed f_log = SkCordicLog(f_val); float log2 = (float) f_log / 65536.0f; float error = fabsf(log - log2); if (error > 0.001) SkDebugf("log error : val = %g ; log = %g ; cordic = %g\n", val, log, log2); } // exp #endif } #endif