//===- TestPoly3D.cpp - Poly3D unit tests------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "llvm/Support/TypeSize.h" #include "gtest/gtest.h" using namespace llvm; class Poly3D; namespace llvm { template <> struct LinearPolyBaseTypeTraits { using ScalarTy = int64_t; static const unsigned Dimensions = 3; }; } using Poly3DBase = LinearPolyBase; class Poly3D : public Poly3DBase { public: using ScalarTy = Poly3DBase::ScalarTy; Poly3D(ScalarTy x, ScalarTy y, ScalarTy z) : Poly3DBase({x, y, z}) {} Poly3D(const Poly3DBase &Convert) : Poly3DBase(Convert) {} }; TEST(LinearPolyBase, Poly3D_isZero) { EXPECT_TRUE(Poly3D(0, 0, 0).isZero()); EXPECT_TRUE(Poly3D(0, 0, 1).isNonZero()); EXPECT_TRUE(Poly3D(0, 0, 1)); } TEST(LinearPolyBase, Poly3D_Equality) { EXPECT_EQ(Poly3D(1, 2, 3), Poly3D(1, 2, 3)); EXPECT_NE(Poly3D(1, 2, 3), Poly3D(1, 2, 4)); } TEST(LinearPolyBase, Poly3D_GetValue) { EXPECT_EQ(Poly3D(1, 2, 3).getValue(0), 1); EXPECT_EQ(Poly3D(1, 2, 3).getValue(1), 2); EXPECT_EQ(Poly3D(1, 2, 3).getValue(2), 3); } TEST(LinearPolyBase, Poly3D_Add) { // Test operator+ EXPECT_EQ(Poly3D(42, 0, 0) + Poly3D(0, 42, 0) + Poly3D(0, 0, 42), Poly3D(42, 42, 42)); // Test operator+= Poly3D X(42, 0, 0); X += Poly3D(0, 42, 0); X += Poly3D(0, 0, 42); EXPECT_EQ(X, Poly3D(42, 42, 42)); } TEST(LinearPolyBase, Poly3D_Sub) { // Test operator- EXPECT_EQ(Poly3D(42, 42, 42) - Poly3D(42, 0, 0) - Poly3D(0, 42, 0) - Poly3D(0, 0, 42), Poly3D(0, 0, 0)); // Test operator-= Poly3D X(42, 42, 42); X -= Poly3D(42, 0, 0); X -= Poly3D(0, 42, 0); X -= Poly3D(0, 0, 42); EXPECT_EQ(X, Poly3D(0, 0, 0)); } TEST(LinearPolyBase, Poly3D_Scale) { // Test operator* EXPECT_EQ(Poly3D(1, 2, 4) * 2, Poly3D(2, 4, 8)); EXPECT_EQ(Poly3D(1, 2, 4) * -2, Poly3D(-2, -4, -8)); } TEST(LinearPolyBase, Poly3D_Invert) { // Test operator- EXPECT_EQ(-Poly3D(2, 4, 8), Poly3D(-2, -4, -8)); } class Univariate3D; namespace llvm { template <> struct LinearPolyBaseTypeTraits { using ScalarTy = int64_t; static const unsigned Dimensions = 3; }; } using Univariate3DBase = UnivariateLinearPolyBase; class Univariate3D : public Univariate3DBase { public: using ScalarTy = Univariate3DBase::ScalarTy; Univariate3D(ScalarTy x, unsigned Dim) : Univariate3DBase(x, Dim) {} Univariate3D(const Univariate3DBase &Convert) : Univariate3DBase(Convert) {} }; TEST(UnivariateLinearPolyBase, Univariate3D_isZero) { EXPECT_TRUE(Univariate3D(0, 0).isZero()); EXPECT_TRUE(Univariate3D(0, 1).isZero()); EXPECT_TRUE(Univariate3D(0, 2).isZero()); EXPECT_TRUE(Univariate3D(1, 0).isNonZero()); EXPECT_TRUE(Univariate3D(1, 1).isNonZero()); EXPECT_TRUE(Univariate3D(1, 2).isNonZero()); EXPECT_TRUE(Univariate3D(1, 0)); } TEST(UnivariateLinearPolyBase, Univariate3D_Equality) { EXPECT_EQ(Univariate3D(1, 0), Univariate3D(1, 0)); EXPECT_NE(Univariate3D(1, 0), Univariate3D(1, 2)); EXPECT_NE(Univariate3D(1, 0), Univariate3D(1, 1)); EXPECT_NE(Univariate3D(1, 0), Univariate3D(2, 0)); EXPECT_NE(Univariate3D(1, 0), Univariate3D(0, 0)); } TEST(UnivariateLinearPolyBase, Univariate3D_GetValue) { EXPECT_EQ(Univariate3D(42, 0).getValue(0), 42); EXPECT_EQ(Univariate3D(42, 0).getValue(1), 0); EXPECT_EQ(Univariate3D(42, 0).getValue(2), 0); EXPECT_EQ(Univariate3D(42, 1).getValue(0), 0); EXPECT_EQ(Univariate3D(42, 1).getValue(1), 42); EXPECT_EQ(Univariate3D(42, 1).getValue(2), 0); EXPECT_EQ(Univariate3D(42, 0).getValue(), 42); EXPECT_EQ(Univariate3D(42, 1).getValue(), 42); } TEST(UnivariateLinearPolyBase, Univariate3D_Add) { // Test operator+ EXPECT_EQ(Univariate3D(42, 0) + Univariate3D(42, 0), Univariate3D(84, 0)); EXPECT_EQ(Univariate3D(42, 1) + Univariate3D(42, 1), Univariate3D(84, 1)); EXPECT_DEBUG_DEATH(Univariate3D(42, 0) + Univariate3D(42, 1), "Invalid dimensions"); // Test operator+= Univariate3D X(42, 0); X += Univariate3D(42, 0); EXPECT_EQ(X, Univariate3D(84, 0)); // Test 'getWithIncrement' method EXPECT_EQ(Univariate3D(42, 0).getWithIncrement(1), Univariate3D(43, 0)); EXPECT_EQ(Univariate3D(42, 1).getWithIncrement(2), Univariate3D(44, 1)); EXPECT_EQ(Univariate3D(42, 2).getWithIncrement(3), Univariate3D(45, 2)); } TEST(UnivariateLinearPolyBase, Univariate3D_Sub) { // Test operator+ EXPECT_EQ(Univariate3D(84, 0) - Univariate3D(42, 0), Univariate3D(42, 0)); EXPECT_EQ(Univariate3D(84, 1) - Univariate3D(42, 1), Univariate3D(42, 1)); EXPECT_DEBUG_DEATH(Univariate3D(84, 0) - Univariate3D(42, 1), "Invalid dimensions"); // Test operator+= Univariate3D X(84, 0); X -= Univariate3D(42, 0); EXPECT_EQ(X, Univariate3D(42, 0)); // Test 'getWithDecrement' method EXPECT_EQ(Univariate3D(43, 0).getWithDecrement(1), Univariate3D(42, 0)); EXPECT_EQ(Univariate3D(44, 1).getWithDecrement(2), Univariate3D(42, 1)); EXPECT_EQ(Univariate3D(45, 2).getWithDecrement(3), Univariate3D(42, 2)); } TEST(UnivariateLinearPolyBase, Univariate3D_Scale) { // Test operator* EXPECT_EQ(Univariate3D(4, 0) * 2, Univariate3D(8, 0)); EXPECT_EQ(Univariate3D(4, 1) * -2, Univariate3D(-8, 1)); } TEST(UnivariateLinearPolyBase, Univariate3D_Invert) { // Test operator- EXPECT_EQ(-Univariate3D(4, 0), Univariate3D(-4, 0)); EXPECT_EQ(-Univariate3D(4, 1), Univariate3D(-4, 1)); }