/* Copyright (C) 2010 Wildfire Games. * This file is part of 0 A.D. * * 0 A.D. is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * 0 A.D. is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with 0 A.D. If not, see . */ #include "lib/self_test.h" #include "maths/Fixed.h" #include "maths/MathUtil.h" class TestFixed : public CxxTest::TestSuite { public: void test_basic() { fixed a = fixed::FromInt(12345); TS_ASSERT_EQUALS((a + a).ToDouble(), 24690); TS_ASSERT_EQUALS((a - a).ToDouble(), 0); TS_ASSERT_EQUALS((-a).ToDouble(), -12345); TS_ASSERT_EQUALS((a / a).ToDouble(), 1); TS_ASSERT_EQUALS((a / 823).ToDouble(), 15); TS_ASSERT_EQUALS((a * 2).ToDouble(), 24690); } void test_FromInt() { fixed a = fixed::FromInt(123); TS_ASSERT_EQUALS(a.ToFloat(), 123.0f); TS_ASSERT_EQUALS(a.ToDouble(), 123.0); TS_ASSERT_EQUALS(a.ToInt_RoundToZero(), 123); } void test_FromFloat() { fixed a = fixed::FromFloat(123.125f); TS_ASSERT_EQUALS(a.ToFloat(), 123.125f); TS_ASSERT_EQUALS(a.ToDouble(), 123.125); fixed b = fixed::FromFloat(-123.125f); TS_ASSERT_EQUALS(b.ToFloat(), -123.125f); TS_ASSERT_EQUALS(b.ToDouble(), -123.125); fixed c = fixed::FromFloat(std::numeric_limits::infinity()); TS_ASSERT_EQUALS(c.GetInternalValue(), (i32)0); fixed d = fixed::FromFloat(-std::numeric_limits::infinity()); TS_ASSERT_EQUALS(d.GetInternalValue(), (i32)0); fixed e = fixed::FromFloat(std::numeric_limits::quiet_NaN()); TS_ASSERT_EQUALS(e.GetInternalValue(), (i32)0); } void test_FromDouble() { fixed a = fixed::FromDouble(123.125); TS_ASSERT_EQUALS(a.ToFloat(), 123.125f); TS_ASSERT_EQUALS(a.ToDouble(), 123.125); fixed b = fixed::FromDouble(-123.125); TS_ASSERT_EQUALS(b.ToFloat(), -123.125f); TS_ASSERT_EQUALS(b.ToDouble(), -123.125); fixed c = fixed::FromDouble(std::numeric_limits::infinity()); TS_ASSERT_EQUALS(c.GetInternalValue(), (i32)0); fixed d = fixed::FromDouble(-std::numeric_limits::infinity()); TS_ASSERT_EQUALS(d.GetInternalValue(), (i32)0); fixed e = fixed::FromDouble(std::numeric_limits::quiet_NaN()); TS_ASSERT_EQUALS(e.GetInternalValue(), (i32)0); } void test_FromFloat_Rounding() { double eps = pow(2.0, -16.0); TS_ASSERT_EQUALS(fixed::FromFloat(eps).ToDouble(), eps); TS_ASSERT_EQUALS(fixed::FromFloat(eps * 0.5625).ToDouble(), eps); TS_ASSERT_EQUALS(fixed::FromFloat(eps * 0.5).ToDouble(), eps); TS_ASSERT_EQUALS(fixed::FromFloat(eps * 0.4375).ToDouble(), 0.0); TS_ASSERT_EQUALS(fixed::FromFloat(-eps).ToDouble(), -eps); TS_ASSERT_EQUALS(fixed::FromFloat(-eps * 0.5625).ToDouble(), -eps); TS_ASSERT_EQUALS(fixed::FromFloat(-eps * 0.5).ToDouble(), -eps); TS_ASSERT_EQUALS(fixed::FromFloat(-eps * 0.4375).ToDouble(), 0.0); } void test_FromString() { TS_ASSERT_EQUALS(fixed::FromString("").ToDouble(), 0.0); TS_ASSERT_EQUALS(fixed::FromString("123").ToDouble(), 123.0); TS_ASSERT_EQUALS(fixed::FromString("+123").ToDouble(), 123.0); TS_ASSERT_EQUALS(fixed::FromString("-123").ToDouble(), -123.0); TS_ASSERT_EQUALS(fixed::FromString("123.5").ToDouble(), 123.5); TS_ASSERT_EQUALS(fixed::FromString("-123.5").ToDouble(), -123.5); TS_ASSERT_EQUALS(fixed::FromString(".5").ToDouble(), 0.5); TS_ASSERT_EQUALS(fixed::FromString("5.").ToDouble(), 5.0); TS_ASSERT_EQUALS(fixed::FromString("254.391").GetInternalValue(), 16671768); TS_ASSERT_EQUALS(fixed::FromString("123x456").ToDouble(), 123.0); TS_ASSERT_EQUALS(fixed::FromString("1.00002").ToDouble(), 1.0 + 1.0/65536.0); TS_ASSERT_EQUALS(fixed::FromString("1.0000200000000000000000").ToDouble(), 1.0 + 1.0/65536.0); TS_ASSERT_EQUALS(fixed::FromString("1.000009").ToDouble(), 1.0); TS_ASSERT_EQUALS(fixed::FromString("0.9999999999999999999999").ToDouble(), 1.0 - 1.0/65536.0); // TODO: could test more large/small numbers, errors, etc } void test_ToString() { #define T(n, str) { fixed f = fixed::FromDouble(n); TS_ASSERT_STR_EQUALS(f.ToString(), str); TS_ASSERT_EQUALS(fixed::FromString(f.ToString()), f); } T(1.0, "1"); T(-1.0, "-1"); T(10000.0, "10000"); T(1.25, "1.25"); T(-1.25, "-1.25"); T(0.5, "0.5"); T(1.0/65536.0, "0.00002"); T(2.0/65536.0, "0.00004"); T(250367.0/65536.0, "3.8203"); T(32768.0 - 1.0/65536.0, "32767.99999"); T(-32768.0 + 1.0/65536.0, "-32767.99999"); #undef T for (int i = 0; i < 65536; ++i) { fixed f = fixed::FromDouble(i / 65536.0); TS_ASSERT_EQUALS(fixed::FromString(f.ToString()), f); } } void test_RoundToZero() { TS_ASSERT_EQUALS(fixed::FromFloat(10.f).ToInt_RoundToZero(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.1f).ToInt_RoundToZero(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.5f).ToInt_RoundToZero(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.99f).ToInt_RoundToZero(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(0.1f).ToInt_RoundToZero(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(0.0f).ToInt_RoundToZero(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.1f).ToInt_RoundToZero(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.99f).ToInt_RoundToZero(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-1.0f).ToInt_RoundToZero(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-2.0f).ToInt_RoundToZero(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.5f).ToInt_RoundToZero(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.99f).ToInt_RoundToZero(), -2); } void test_RoundToInfinity() { TS_ASSERT_EQUALS(fixed::FromFloat(10.f).ToInt_RoundToInfinity(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.1f).ToInt_RoundToInfinity(), 11); TS_ASSERT_EQUALS(fixed::FromFloat(10.5f).ToInt_RoundToInfinity(), 11); TS_ASSERT_EQUALS(fixed::FromFloat(10.99f).ToInt_RoundToInfinity(), 11); TS_ASSERT_EQUALS(fixed::FromFloat(0.1f).ToInt_RoundToInfinity(), 1); TS_ASSERT_EQUALS(fixed::FromFloat(0.0f).ToInt_RoundToInfinity(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.1f).ToInt_RoundToInfinity(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.99f).ToInt_RoundToInfinity(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-1.0f).ToInt_RoundToInfinity(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-2.0f).ToInt_RoundToInfinity(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.5f).ToInt_RoundToInfinity(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.99f).ToInt_RoundToInfinity(), -2); } void test_RoundToNegInfinity() { TS_ASSERT_EQUALS(fixed::FromFloat(10.f).ToInt_RoundToNegInfinity(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.1f).ToInt_RoundToNegInfinity(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.5f).ToInt_RoundToNegInfinity(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.99f).ToInt_RoundToNegInfinity(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(0.1f).ToInt_RoundToNegInfinity(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(0.0f).ToInt_RoundToNegInfinity(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.1f).ToInt_RoundToNegInfinity(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-0.99f).ToInt_RoundToNegInfinity(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-1.0f).ToInt_RoundToNegInfinity(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-2.0f).ToInt_RoundToNegInfinity(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.5f).ToInt_RoundToNegInfinity(), -3); TS_ASSERT_EQUALS(fixed::FromFloat(-2.99f).ToInt_RoundToNegInfinity(), -3); } void test_RoundToNearest() { TS_ASSERT_EQUALS(fixed::FromFloat(10.f).ToInt_RoundToNearest(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.1f).ToInt_RoundToNearest(), 10); TS_ASSERT_EQUALS(fixed::FromFloat(10.5f).ToInt_RoundToNearest(), 11); TS_ASSERT_EQUALS(fixed::FromFloat(10.99f).ToInt_RoundToNearest(), 11); TS_ASSERT_EQUALS(fixed::FromFloat(0.1f).ToInt_RoundToNearest(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(0.0f).ToInt_RoundToNearest(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.1f).ToInt_RoundToNearest(), 0); TS_ASSERT_EQUALS(fixed::FromFloat(-0.99f).ToInt_RoundToNearest(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-1.0f).ToInt_RoundToNearest(), -1); TS_ASSERT_EQUALS(fixed::FromFloat(-2.0f).ToInt_RoundToNearest(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.5f).ToInt_RoundToNearest(), -2); TS_ASSERT_EQUALS(fixed::FromFloat(-2.99f).ToInt_RoundToNearest(), -3); } // TODO: test all the arithmetic operators void test_Mod() { TS_ASSERT_EQUALS(fixed::FromInt(0) % fixed::FromInt(4), fixed::FromInt(0)); TS_ASSERT_EQUALS(fixed::FromInt(0) % fixed::FromInt(-4), fixed::FromInt(0)); TS_ASSERT_EQUALS(fixed::FromInt(5) % fixed::FromInt(4), fixed::FromInt(1)); TS_ASSERT_EQUALS(fixed::FromInt(5) % fixed::FromInt(-4), fixed::FromInt(-3)); TS_ASSERT_EQUALS(fixed::FromInt(-5) % fixed::FromInt(4), fixed::FromInt(3)); TS_ASSERT_EQUALS(fixed::FromInt(-5) % fixed::FromInt(-4), fixed::FromInt(-1)); TS_ASSERT_EQUALS((fixed::FromDouble(5.5) % fixed::FromInt(4)).ToDouble(), 1.5); TS_ASSERT_EQUALS((fixed::FromDouble(1.75) % fixed::FromDouble(0.5)).ToDouble(), 0.25); } void test_Sqrt() { TS_ASSERT_EQUALS(fixed::FromDouble(1.0).Sqrt().ToDouble(), 1.0); TS_ASSERT_DELTA(fixed::FromDouble(2.0).Sqrt().ToDouble(), sqrt(2.0), 1.0/65536.0); TS_ASSERT_EQUALS(fixed::FromDouble(32400.0).Sqrt().ToDouble(), 180.0); TS_ASSERT_EQUALS(fixed::FromDouble(0.0625).Sqrt().ToDouble(), 0.25); TS_ASSERT_EQUALS(fixed::FromDouble(-1.0).Sqrt().ToDouble(), 0.0); TS_ASSERT_EQUALS(fixed::FromDouble(0.0).Sqrt().ToDouble(), 0.0); } void test_Atan2() { // Special cases from atan2 man page: TS_ASSERT_DELTA(atan2_approx(fixed::FromInt(0), fixed::FromInt(-1)).ToDouble(), M_PI, 0.01); TS_ASSERT_EQUALS(atan2_approx(fixed::FromInt(0), fixed::FromInt(+1)).ToDouble(), 0); TS_ASSERT_DELTA(atan2_approx(fixed::FromInt(-1), fixed::FromInt(0)).ToDouble(), -M_PI_2, 0.01); TS_ASSERT_DELTA(atan2_approx(fixed::FromInt(+1), fixed::FromInt(0)).ToDouble(), +M_PI_2, 0.01); TS_ASSERT_EQUALS(atan2_approx(fixed::FromInt(0), fixed::FromInt(0)).ToDouble(), 0); // Test that it approximately matches libc's atan2 #define T(y, x) TS_ASSERT_DELTA(atan2_approx(fixed::FromDouble(y), fixed::FromDouble(x)).ToDouble(), atan2((double)(y), (double)(x)), 0.072) // Quadrants T(1, 1); T(-1, 1); T(1, -1); T(-1, -1); // Scale T(10, 10); T(100, 100); T(1000, 1000); T(10000, 10000); // Some arbitrary cases T(2, 1); T(3, 1); T(4, 1); T(10, 1); T(1000, 1); T(1, 2); T(1, 3); T(1, 4); T(1, 10); T(1, 1000); // The highest-error region for (double x = 2.0; x < 4.0; x += 0.01) { T(1, x); } #undef T } void test_SinCos() { fixed s, c; sincos_approx(fixed::FromInt(0), s, c); TS_ASSERT_EQUALS(s, fixed::FromInt(0)); TS_ASSERT_EQUALS(c, fixed::FromInt(1)); sincos_approx(fixed::Pi(), s, c); TS_ASSERT_DELTA(s.ToDouble(), 0.0, 0.00005); TS_ASSERT_EQUALS(c, fixed::FromInt(-1)); sincos_approx(fixed::FromDouble(M_PI*2.0), s, c); TS_ASSERT_DELTA(s.ToDouble(), 0.0, 0.0001); TS_ASSERT_DELTA(c.ToDouble(), 1.0, 0.0001); sincos_approx(fixed::FromDouble(M_PI*100.0), s, c); TS_ASSERT_DELTA(s.ToDouble(), 0.0, 0.004); TS_ASSERT_DELTA(c.ToDouble(), 1.0, 0.004); sincos_approx(fixed::FromDouble(M_PI*-100.0), s, c); TS_ASSERT_DELTA(s.ToDouble(), 0.0, 0.004); TS_ASSERT_DELTA(c.ToDouble(), 1.0, 0.004); /* for (double a = 0.0; a < 6.28; a += 0.1) { sincos_approx(fixed::FromDouble(a), s, c); printf("%f: sin = %f / %f; cos = %f / %f\n", a, s.ToDouble(), sin(a), c.ToDouble(), cos(a)); } */ double err = 0.0; for (double a = -6.28; a < 6.28; a += 0.001) { sincos_approx(fixed::FromDouble(a), s, c); err = std::max(err, fabs(sin(a) - s.ToDouble())); err = std::max(err, fabs(cos(a) - c.ToDouble())); } // printf("### Max error %f = %f/2^16\n", err, err*65536.0); TS_ASSERT_LESS_THAN(err, 0.00046); } };