// Copyright 2022 The Tint Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "src/tint/transform/expand_compound_assignment.h" #include #include "src/tint/transform/test_helper.h" namespace tint::transform { namespace { using ExpandCompoundAssignmentTest = TransformTest; TEST_F(ExpandCompoundAssignmentTest, ShouldRunEmptyModule) { auto* src = R"()"; EXPECT_FALSE(ShouldRun(src)); } TEST_F(ExpandCompoundAssignmentTest, ShouldRunHasCompoundAssignment) { auto* src = R"( fn foo() { var v : i32; v += 1; } )"; EXPECT_TRUE(ShouldRun(src)); } TEST_F(ExpandCompoundAssignmentTest, ShouldRunHasIncrementDecrement) { auto* src = R"( fn foo() { var v : i32; v++; } )"; EXPECT_TRUE(ShouldRun(src)); } TEST_F(ExpandCompoundAssignmentTest, Basic) { auto* src = R"( fn main() { var v : i32; v += 1; } )"; auto* expect = R"( fn main() { var v : i32; v = (v + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsPointer) { auto* src = R"( fn main() { var v : i32; let p = &v; *p += 1; } )"; auto* expect = R"( fn main() { var v : i32; let p = &(v); let tint_symbol = &(*(p)); *(tint_symbol) = (*(tint_symbol) + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsStructMember) { auto* src = R"( struct S { m : f32, } fn main() { var s : S; s.m += 1.0; } )"; auto* expect = R"( struct S { m : f32, } fn main() { var s : S; s.m = (s.m + 1.0); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsArrayElement) { auto* src = R"( var a : array; fn idx() -> i32 { a[1] = 42; return 1; } fn main() { a[idx()] += 1; } )"; auto* expect = R"( var a : array; fn idx() -> i32 { a[1] = 42; return 1; } fn main() { let tint_symbol = &(a[idx()]); *(tint_symbol) = (*(tint_symbol) + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsVectorComponent_ArrayAccessor) { auto* src = R"( var v : vec4; fn idx() -> i32 { v.y = 42; return 1; } fn main() { v[idx()] += 1; } )"; auto* expect = R"( var v : vec4; fn idx() -> i32 { v.y = 42; return 1; } fn main() { let tint_symbol = &(v); let tint_symbol_1 = idx(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsVectorComponent_MemberAccessor) { auto* src = R"( fn main() { var v : vec4; v.y += 1; } )"; auto* expect = R"( fn main() { var v : vec4; v.y = (v.y + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsMatrixColumn) { auto* src = R"( var m : mat4x4; fn idx() -> i32 { m[0].y = 42.0; return 1; } fn main() { m[idx()] += 1.0; } )"; auto* expect = R"( var m : mat4x4; fn idx() -> i32 { m[0].y = 42.0; return 1; } fn main() { let tint_symbol = &(m[idx()]); *(tint_symbol) = (*(tint_symbol) + 1.0); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsMatrixElement) { auto* src = R"( var m : mat4x4; fn idx1() -> i32 { m[0].y = 42.0; return 1; } fn idx2() -> i32 { m[1].z = 42.0; return 1; } fn main() { m[idx1()][idx2()] += 1.0; } )"; auto* expect = R"( var m : mat4x4; fn idx1() -> i32 { m[0].y = 42.0; return 1; } fn idx2() -> i32 { m[1].z = 42.0; return 1; } fn main() { let tint_symbol = &(m[idx1()]); let tint_symbol_1 = idx2(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1.0); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, LhsMultipleSideEffects) { auto* src = R"( struct S { a : array, 3>, } @group(0) @binding(0) var buffer : array; var p : i32; fn idx1() -> i32 { p += 1; return 3; } fn idx2() -> i32 { p *= 3; return 2; } fn idx3() -> i32 { p -= 2; return 1; } fn main() { buffer[idx1()].a[idx2()][idx3()] += 1.0; } )"; auto* expect = R"( struct S { a : array, 3>, } @group(0) @binding(0) var buffer : array; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn idx3() -> i32 { p = (p - 2); return 1; } fn main() { let tint_symbol = &(buffer[idx1()].a[idx2()]); let tint_symbol_1 = idx3(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1.0); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, ForLoopInit) { auto* src = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { for (a[idx1()][idx2()] += 1; ; ) { break; } } )"; auto* expect = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { let tint_symbol = &(a[idx1()]); let tint_symbol_1 = idx2(); for((*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1); ; ) { break; } } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, ForLoopCont) { auto* src = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { for (; ; a[idx1()][idx2()] += 1) { break; } } )"; auto* expect = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { loop { { break; } continuing { let tint_symbol = &(a[idx1()]); let tint_symbol_1 = idx2(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1); } } } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_I32) { auto* src = R"( fn main() { var v : i32; v++; } )"; auto* expect = R"( fn main() { var v : i32; v = (v + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_U32) { auto* src = R"( fn main() { var v : u32; v++; } )"; auto* expect = R"( fn main() { var v : u32; v = (v + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Decrement_I32) { auto* src = R"( fn main() { var v : i32; v--; } )"; auto* expect = R"( fn main() { var v : i32; v = (v - 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Decrement_U32) { auto* src = R"( fn main() { var v : u32; v--; } )"; auto* expect = R"( fn main() { var v : u32; v = (v - 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_LhsPointer) { auto* src = R"( fn main() { var v : i32; let p = &v; *p++; } )"; auto* expect = R"( fn main() { var v : i32; let p = &(v); let tint_symbol = &(*(p)); *(tint_symbol) = (*(tint_symbol) + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_LhsStructMember) { auto* src = R"( struct S { m : i32, } fn main() { var s : S; s.m++; } )"; auto* expect = R"( struct S { m : i32, } fn main() { var s : S; s.m = (s.m + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_LhsArrayElement) { auto* src = R"( var a : array; fn idx() -> i32 { a[1] = 42; return 1; } fn main() { a[idx()]++; } )"; auto* expect = R"( var a : array; fn idx() -> i32 { a[1] = 42; return 1; } fn main() { let tint_symbol = &(a[idx()]); *(tint_symbol) = (*(tint_symbol) + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_LhsVectorComponent_ArrayAccessor) { auto* src = R"( var v : vec4; fn idx() -> i32 { v.y = 42; return 1; } fn main() { v[idx()]++; } )"; auto* expect = R"( var v : vec4; fn idx() -> i32 { v.y = 42; return 1; } fn main() { let tint_symbol = &(v); let tint_symbol_1 = idx(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_LhsVectorComponent_MemberAccessor) { auto* src = R"( fn main() { var v : vec4; v.y++; } )"; auto* expect = R"( fn main() { var v : vec4; v.y = (v.y + 1); } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } TEST_F(ExpandCompoundAssignmentTest, Increment_ForLoopCont) { auto* src = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { for (; ; a[idx1()][idx2()]++) { break; } } )"; auto* expect = R"( var a : array, 4>; var p : i32; fn idx1() -> i32 { p = (p + 1); return 3; } fn idx2() -> i32 { p = (p * 3); return 2; } fn main() { loop { { break; } continuing { let tint_symbol = &(a[idx1()]); let tint_symbol_1 = idx2(); (*(tint_symbol))[tint_symbol_1] = ((*(tint_symbol))[tint_symbol_1] + 1); } } } )"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } } // namespace } // namespace tint::transform