// Copyright 2021 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 #include "gtest/gtest.h" #include "fuzzers/tint_ast_fuzzer/mt_rng.h" #include "fuzzers/tint_ast_fuzzer/mutations/replace_identifier.h" #include "fuzzers/tint_ast_fuzzer/mutator.h" #include "fuzzers/tint_ast_fuzzer/probability_context.h" #include "fuzzers/tint_ast_fuzzer/node_id_map.h" #include "src/ast/call_statement.h" #include "src/program_builder.h" #include "src/reader/wgsl/parser.h" #include "src/writer/wgsl/generator.h" namespace tint { namespace fuzzers { namespace ast_fuzzer { namespace { TEST(ReplaceIdentifierTest, NotApplicable_Simple) { std::string content = R"( fn main() { let a = 5; let c = 6; let b = a + 5; let d = vec2(1, 2); let e = d.x; } )"; Source::File file("test.wgsl", content); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); const auto& main_fn_stmts = program.AST().Functions()[0]->body()->statements(); const auto* a_var = main_fn_stmts[0]->As()->variable(); ASSERT_NE(a_var, nullptr); const auto* b_var = main_fn_stmts[2]->As()->variable(); ASSERT_NE(b_var, nullptr); const auto* e_var = main_fn_stmts[4]->As()->variable(); ASSERT_NE(e_var, nullptr); auto a_var_id = node_id_map.GetId(a_var); ASSERT_NE(a_var_id, 0); auto b_var_id = node_id_map.GetId(b_var); ASSERT_NE(b_var_id, 0); const auto* sum_expr = b_var->constructor()->As(); ASSERT_NE(sum_expr, nullptr); auto a_ident_id = node_id_map.GetId(sum_expr->lhs()); ASSERT_NE(a_ident_id, 0); auto sum_expr_id = node_id_map.GetId(sum_expr); ASSERT_NE(sum_expr_id, 0); auto e_var_id = node_id_map.GetId(e_var); ASSERT_NE(e_var_id, 0); auto vec_member_access_id = node_id_map.GetId( e_var->constructor()->As()->member()); ASSERT_NE(vec_member_access_id, 0); // use_id is invalid. EXPECT_FALSE(MutationReplaceIdentifier(0, a_var_id) .IsApplicable(program, node_id_map)); // use_id is not an identifier expression. EXPECT_FALSE(MutationReplaceIdentifier(sum_expr_id, a_var_id) .IsApplicable(program, node_id_map)); // use_id is an identifier but not a variable user. EXPECT_FALSE(MutationReplaceIdentifier(vec_member_access_id, a_var_id) .IsApplicable(program, node_id_map)); // replacement_id is invalid. EXPECT_FALSE(MutationReplaceIdentifier(a_ident_id, 0) .IsApplicable(program, node_id_map)); // replacement_id is not a variable. EXPECT_FALSE(MutationReplaceIdentifier(a_ident_id, sum_expr_id) .IsApplicable(program, node_id_map)); // Can't replace a variable with itself. EXPECT_FALSE(MutationReplaceIdentifier(a_ident_id, a_var_id) .IsApplicable(program, node_id_map)); // Replacement is not in scope. EXPECT_FALSE(MutationReplaceIdentifier(a_ident_id, b_var_id) .IsApplicable(program, node_id_map)); EXPECT_FALSE(MutationReplaceIdentifier(a_ident_id, e_var_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, GlobalVarNotInScope) { // Can't use the global variable if it's not in scope. std::string shader = R"( var a: i32; fn f() { a = 3; } var b: i32; )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->lhs()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[1]); ASSERT_NE(replacement_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable1) { // Can't replace `a` with `b` since the store type is wrong (the same storage // class though). std::string shader = R"( var a: i32; var b: u32; fn f() { *&a = 4; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[1]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->lhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable2) { // Can't replace `a` with `b` since the store type is wrong (the storage // class is different though). std::string shader = R"( var a: i32; fn f() { var b: u32; *&a = 4; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->variable()); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->lhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable3) { // Can't replace `a` with `b` since the latter is not a reference (the store // type is the same, though). std::string shader = R"( var a: i32; fn f() { let b = 45; *&a = 4; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->variable()); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->lhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable4) { // Can't replace `a` with `b` since the latter is not a reference (the store // type is the same, though). std::string shader = R"( var a: i32; fn f(b: i32) { *&a = 4; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().Functions()[0]->params()[0]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->lhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable5) { // Can't replace `a` with `b` since the latter has a wrong access mode // (`read` for uniform storage class). std::string shader = R"( [[block]] struct S { a: i32; }; var a: S; [[group(1), binding(1)]] var b: S; fn f() { *&a = S(4); } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[1]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->lhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable6) { // Can't replace `ptr_b` with `a` since the latter is not a pointer. std::string shader = R"( [[block]] struct S { a: i32; }; var a: S; [[group(1), binding(1)]] var b: S; fn f() { let ptr_b = &b; *&a = *ptr_b; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[0]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->rhs() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable8) { // Can't replace `ptr_b` with `c` since the latter has a wrong access mode and // storage class. std::string shader = R"( [[block]] struct S { a: i32; }; var a: S; [[group(1), binding(1)]] var b: S; [[group(1), binding(2)]] var c: S; fn f() { let ptr_b = &b; *&a = *ptr_b; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[2]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->rhs() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable9) { // Can't replace `b` with `e` since the latter is not a reference. std::string shader = R"( [[block]] struct S { a: i32; }; var a: S; let e = 3; [[group(1), binding(1)]] var b: S; fn f() { *&a = *&b; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[1]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->rhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable10) { // Can't replace `b` with `e` since the latter has a wrong access mode. std::string shader = R"( [[block]] struct S { a: i32; }; var a: S; [[group(0), binding(0)]] var e: S; [[group(1), binding(1)]] var b: S; fn f() { *&a = *&b; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[1]); ASSERT_NE(replacement_id, 0); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->rhs() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, Applicable1) { // Can replace `a` with `b` (same storage class). std::string shader = R"( fn f() { var b : vec2; var a = vec2(34u, 45u); (*&a)[1] = 3u; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[2] ->As() ->lhs() ->As() ->array() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[0] ->As() ->variable()); ASSERT_NE(replacement_id, 0); ASSERT_TRUE(MaybeApplyMutation( program, MutationReplaceIdentifier(use_id, replacement_id), node_id_map, &program, &node_id_map, nullptr)); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); writer::wgsl::Generator generator(&program); ASSERT_TRUE(generator.Generate()) << generator.error(); std::string expected_shader = R"(fn f() { var b : vec2; var a = vec2(34u, 45u); (*(&(b)))[1] = 3u; } )"; ASSERT_EQ(expected_shader, generator.result()); } TEST(ReplaceIdentifierTest, Applicable2) { // Can replace `ptr_a` with `b` - the function parameter. std::string shader = R"( fn f(b: ptr>) { var a = vec2(34u, 45u); let ptr_a = &a; (*ptr_a)[1] = 3u; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[2] ->As() ->lhs() ->As() ->array() ->As() ->expr()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST().Functions()[0]->params()[0]); ASSERT_NE(replacement_id, 0); ASSERT_TRUE(MaybeApplyMutation( program, MutationReplaceIdentifier(use_id, replacement_id), node_id_map, &program, &node_id_map, nullptr)); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); writer::wgsl::Generator generator(&program); ASSERT_TRUE(generator.Generate()) << generator.error(); std::string expected_shader = R"(fn f(b : ptr>) { var a = vec2(34u, 45u); let ptr_a = &(a); (*(b))[1] = 3u; } )"; ASSERT_EQ(expected_shader, generator.result()); } TEST(ReplaceIdentifierTest, NotApplicable12) { // Can't replace `a` with `b` (both are references with different storage // class). std::string shader = R"( var b : vec2; fn f() { var a = vec2(34u, 45u); (*&a)[1] = 3u; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->lhs() ->As() ->array() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[0]); ASSERT_NE(replacement_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable13) { // Can't replace `a` with `b` (both are references with different storage // class). std::string shader = R"( var b : vec2; fn f() { var a = vec2(34u, 45u); let c = (*&a)[1]; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[1] ->As() ->variable() ->constructor() ->As() ->array() ->As() ->expr() ->As() ->expr()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST().GlobalVariables()[0]); ASSERT_NE(replacement_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } TEST(ReplaceIdentifierTest, NotApplicable14) { // Can't replace `ptr_a` with `ptr_b` (both are pointers with different // storage class). std::string shader = R"( var b: vec2; fn f() { var a = vec2(34u, 45u); let ptr_a = &a; let ptr_b = &b; let c = (*ptr_a)[1]; } )"; Source::File file("test.wgsl", shader); auto program = reader::wgsl::Parse(&file); ASSERT_TRUE(program.IsValid()) << program.Diagnostics().str(); NodeIdMap node_id_map(program); auto use_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[3] ->As() ->variable() ->constructor() ->As() ->array() ->As() ->expr()); ASSERT_NE(use_id, 0); auto replacement_id = node_id_map.GetId(program.AST() .Functions()[0] ->body() ->statements()[2] ->As() ->variable()); ASSERT_NE(replacement_id, 0); ASSERT_FALSE(MutationReplaceIdentifier(use_id, replacement_id) .IsApplicable(program, node_id_map)); } } // namespace } // namespace ast_fuzzer } // namespace fuzzers } // namespace tint