// Copyright 2020 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 "gtest/gtest-spi.h" #include "src/program_builder.h" namespace tint { namespace { struct Node : public Castable { explicit Node(const Source& source, Symbol n) : Base(source), name(n) {} Symbol name; Node* a = nullptr; Node* b = nullptr; Node* c = nullptr; std::vector vec; Node* Clone(CloneContext* ctx) const override { auto* out = ctx->dst->create(ctx->Clone(name)); out->a = ctx->Clone(a); out->b = ctx->Clone(b); out->c = ctx->Clone(c); out->vec = ctx->Clone(vec); return out; } void to_str(const semantic::Info&, std::ostream&, size_t) const override {} }; struct Replaceable : public Castable { explicit Replaceable(const Source& source, Symbol n) : Base(source, n) {} }; struct Replacement : public Castable { explicit Replacement(const Source& source, Symbol n) : Base(source, n) {} }; struct NotANode : public Castable { explicit NotANode(const Source& source) : Base(source) {} NotANode* Clone(CloneContext* ctx) const override { return ctx->dst->create(); } void to_str(const semantic::Info&, std::ostream&, size_t) const override {} }; TEST(CloneContext, Clone) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->a->b = builder.create(builder.Symbols().Register("a->b")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->b->a = original_root->a; // Aliased original_root->b->b = builder.create(builder.Symbols().Register("b->b")); original_root->c = original_root->b; // Aliased Program original(std::move(builder)); // root // ╭──────────────────┼──────────────────╮ // (a) (b) (c) // N <──────┐ N <───────────────┘ // ╭────┼────╮ │ ╭────┼────╮ // (a) (b) (c) │ (a) (b) (c) // N └───┘ N // // N: Node ProgramBuilder cloned; auto* cloned_root = CloneContext(&cloned, &original).Clone(original_root); EXPECT_NE(cloned_root->a, nullptr); EXPECT_EQ(cloned_root->a->a, nullptr); EXPECT_NE(cloned_root->a->b, nullptr); EXPECT_EQ(cloned_root->a->c, nullptr); EXPECT_NE(cloned_root->b, nullptr); EXPECT_NE(cloned_root->b->a, nullptr); EXPECT_NE(cloned_root->b->b, nullptr); EXPECT_EQ(cloned_root->b->c, nullptr); EXPECT_NE(cloned_root->c, nullptr); EXPECT_NE(cloned_root->a, original_root->a); EXPECT_NE(cloned_root->a->b, original_root->a->b); EXPECT_NE(cloned_root->b, original_root->b); EXPECT_NE(cloned_root->b->a, original_root->b->a); EXPECT_NE(cloned_root->b->b, original_root->b->b); EXPECT_NE(cloned_root->c, original_root->c); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root")); EXPECT_EQ(cloned_root->a->name, cloned.Symbols().Get("a")); EXPECT_EQ(cloned_root->a->b->name, cloned.Symbols().Get("a->b")); EXPECT_EQ(cloned_root->b->name, cloned.Symbols().Get("b")); EXPECT_EQ(cloned_root->b->b->name, cloned.Symbols().Get("b->b")); EXPECT_EQ(cloned_root->b->a, cloned_root->a); // Aliased EXPECT_EQ(cloned_root->c, cloned_root->b); // Aliased } TEST(CloneContext, CloneWithReplaceAll_Cloneable) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->a->b = builder.create(builder.Symbols().Register("a->b")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->b->a = original_root->a; // Aliased original_root->c = original_root->b; // Aliased Program original(std::move(builder)); // root // ╭──────────────────┼──────────────────╮ // (a) (b) (c) // N <──────┐ R <───────────────┘ // ╭────┼────╮ │ ╭────┼────╮ // (a) (b) (c) │ (a) (b) (c) // R └───┘ // // N: Node // R: Replaceable ProgramBuilder cloned; CloneContext ctx(&cloned, &original); ctx.ReplaceAll([&](Replaceable* in) { auto out_name = cloned.Symbols().Register( "replacement:" + original.Symbols().NameFor(in->name)); auto b_name = cloned.Symbols().Register( "replacement-child:" + original.Symbols().NameFor(in->name)); auto* out = cloned.create(out_name); out->b = cloned.create(b_name); out->c = ctx.Clone(in->a); return out; }); auto* cloned_root = ctx.Clone(original_root); // root // ╭─────────────────┼──────────────────╮ // (a) (b) (c) // N <──────┐ R <───────────────┘ // ╭────┼────╮ │ ╭────┼────╮ // (a) (b) (c) │ (a) (b) (c) // R │ N | // ╭────┼────╮ └────────────┘ // (a) (b) (c) // N // // N: Node // R: Replacement EXPECT_NE(cloned_root->a, nullptr); EXPECT_EQ(cloned_root->a->a, nullptr); EXPECT_NE(cloned_root->a->b, nullptr); // Replaced EXPECT_EQ(cloned_root->a->b->a, nullptr); // From replacement EXPECT_NE(cloned_root->a->b->b, nullptr); // From replacement EXPECT_EQ(cloned_root->a->b->c, nullptr); // From replacement EXPECT_EQ(cloned_root->a->c, nullptr); EXPECT_NE(cloned_root->b, nullptr); EXPECT_EQ(cloned_root->b->a, nullptr); // From replacement EXPECT_NE(cloned_root->b->b, nullptr); // From replacement EXPECT_NE(cloned_root->b->c, nullptr); // From replacement EXPECT_NE(cloned_root->c, nullptr); EXPECT_NE(cloned_root->a, original_root->a); EXPECT_NE(cloned_root->a->b, original_root->a->b); EXPECT_NE(cloned_root->b, original_root->b); EXPECT_NE(cloned_root->b->a, original_root->b->a); EXPECT_NE(cloned_root->c, original_root->c); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root")); EXPECT_EQ(cloned_root->a->name, cloned.Symbols().Get("a")); EXPECT_EQ(cloned_root->a->b->name, cloned.Symbols().Get("replacement:a->b")); EXPECT_EQ(cloned_root->a->b->b->name, cloned.Symbols().Get("replacement-child:a->b")); EXPECT_EQ(cloned_root->b->name, cloned.Symbols().Get("replacement:b")); EXPECT_EQ(cloned_root->b->b->name, cloned.Symbols().Get("replacement-child:b")); EXPECT_EQ(cloned_root->b->c, cloned_root->a); // Aliased EXPECT_EQ(cloned_root->c, cloned_root->b); // Aliased EXPECT_FALSE(cloned_root->a->Is()); EXPECT_TRUE(cloned_root->a->b->Is()); EXPECT_FALSE(cloned_root->a->b->b->Is()); EXPECT_TRUE(cloned_root->b->Is()); EXPECT_FALSE(cloned_root->b->b->Is()); } TEST(CloneContext, CloneWithReplaceAll_Symbols) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->a->b = builder.create(builder.Symbols().Register("a->b")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->b->a = original_root->a; // Aliased original_root->b->b = builder.create(builder.Symbols().Register("b->b")); original_root->c = original_root->b; // Aliased Program original(std::move(builder)); // root // ╭──────────────────┼──────────────────╮ // (a) (b) (c) // N <──────┐ N <───────────────┘ // ╭────┼────╮ │ ╭────┼────╮ // (a) (b) (c) │ (a) (b) (c) // N └───┘ N // // N: Node ProgramBuilder cloned; auto* cloned_root = CloneContext(&cloned, &original) .ReplaceAll([&](Symbol sym) { auto in = original.Symbols().NameFor(sym); auto out = "transformed<" + in + ">"; return cloned.Symbols().Register(out); }) .Clone(original_root); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("transformed")); EXPECT_EQ(cloned_root->a->name, cloned.Symbols().Get("transformed")); EXPECT_EQ(cloned_root->a->b->name, cloned.Symbols().Get("transformedb>")); EXPECT_EQ(cloned_root->b->name, cloned.Symbols().Get("transformed")); EXPECT_EQ(cloned_root->b->b->name, cloned.Symbols().Get("transformedb>")); } TEST(CloneContext, CloneWithReplace) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->c = builder.create(builder.Symbols().Register("c")); Program original(std::move(builder)); // root // ╭──────────────────┼──────────────────╮ // (a) (b) (c) // Replaced ProgramBuilder cloned; auto* replacement = cloned.create(cloned.Symbols().Register("replacement")); auto* cloned_root = CloneContext(&cloned, &original) .Replace(original_root->b, replacement) .Clone(original_root); EXPECT_NE(cloned_root->a, replacement); EXPECT_EQ(cloned_root->b, replacement); EXPECT_NE(cloned_root->c, replacement); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root")); EXPECT_EQ(cloned_root->a->name, cloned.Symbols().Get("a")); EXPECT_EQ(cloned_root->b->name, cloned.Symbols().Get("replacement")); EXPECT_EQ(cloned_root->c->name, cloned.Symbols().Get("c")); } TEST(CloneContext, CloneWithInsertBefore) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->c = builder.create(builder.Symbols().Register("c")); original_root->vec = {original_root->a, original_root->b, original_root->c}; Program original(std::move(builder)); ProgramBuilder cloned; auto* insertion = cloned.create(cloned.Symbols().Register("insertion")); auto* cloned_root = CloneContext(&cloned, &original) .InsertBefore(original_root->vec, original_root->b, insertion) .Clone(original_root); EXPECT_EQ(cloned_root->vec.size(), 4u); EXPECT_EQ(cloned_root->vec[0], cloned_root->a); EXPECT_EQ(cloned_root->vec[2], cloned_root->b); EXPECT_EQ(cloned_root->vec[3], cloned_root->c); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root")); EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("a")); EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("insertion")); EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("b")); EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c")); } TEST(CloneContext, CloneWithInsertAfter) { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->c = builder.create(builder.Symbols().Register("c")); original_root->vec = {original_root->a, original_root->b, original_root->c}; Program original(std::move(builder)); ProgramBuilder cloned; auto* insertion = cloned.create(cloned.Symbols().Register("insertion")); auto* cloned_root = CloneContext(&cloned, &original) .InsertAfter(original_root->vec, original_root->b, insertion) .Clone(original_root); EXPECT_EQ(cloned_root->vec.size(), 4u); EXPECT_EQ(cloned_root->vec[0], cloned_root->a); EXPECT_EQ(cloned_root->vec[1], cloned_root->b); EXPECT_EQ(cloned_root->vec[3], cloned_root->c); EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root")); EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("a")); EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("b")); EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("insertion")); EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c")); } TEST(CloneContext, CloneWithReplaceAll_SameTypeTwice) { EXPECT_FATAL_FAILURE( { ProgramBuilder cloned; Program original; CloneContext ctx(&cloned, &original); ctx.ReplaceAll([](Node*) { return nullptr; }); ctx.ReplaceAll([](Node*) { return nullptr; }); }, "internal compiler error: ReplaceAll() called with a handler for type " "Node that is already handled by a handler for type Node"); } TEST(CloneContext, CloneWithReplaceAll_BaseThenDerived) { EXPECT_FATAL_FAILURE( { ProgramBuilder cloned; Program original; CloneContext ctx(&cloned, &original); ctx.ReplaceAll([](Node*) { return nullptr; }); ctx.ReplaceAll([](Replaceable*) { return nullptr; }); }, "internal compiler error: ReplaceAll() called with a handler for type " "Replaceable that is already handled by a handler for type Node"); } TEST(CloneContext, CloneWithReplaceAll_DerivedThenBase) { EXPECT_FATAL_FAILURE( { ProgramBuilder cloned; Program original; CloneContext ctx(&cloned, &original); ctx.ReplaceAll([](Replaceable*) { return nullptr; }); ctx.ReplaceAll([](Node*) { return nullptr; }); }, "internal compiler error: ReplaceAll() called with a handler for type " "Node that is already handled by a handler for type Replaceable"); } TEST(CloneContext, CloneWithReplaceAll_SymbolsTwice) { EXPECT_FATAL_FAILURE( { ProgramBuilder cloned; Program original; CloneContext ctx(&cloned, &original); ctx.ReplaceAll([](Symbol s) { return s; }); ctx.ReplaceAll([](Symbol s) { return s; }); }, "internal compiler error: ReplaceAll(const SymbolTransform&) called " "multiple times on the same CloneContext"); } TEST(CloneContext, CloneWithReplace_WithNotANode) { EXPECT_FATAL_FAILURE( { ProgramBuilder builder; auto* original_root = builder.create(builder.Symbols().Register("root")); original_root->a = builder.create(builder.Symbols().Register("a")); original_root->b = builder.create(builder.Symbols().Register("b")); original_root->c = builder.create(builder.Symbols().Register("c")); Program original(std::move(builder)); // root // ╭──────────────────┼──────────────────╮ // (a) (b) (c) // Replaced ProgramBuilder cloned; auto* replacement = cloned.create(); CloneContext ctx(&cloned, &original); ctx.Replace(original_root->b, replacement); ctx.Clone(original_root); }, "internal compiler error"); } } // namespace TINT_INSTANTIATE_TYPEINFO(Node); TINT_INSTANTIATE_TYPEINFO(Replaceable); TINT_INSTANTIATE_TYPEINFO(Replacement); TINT_INSTANTIATE_TYPEINFO(NotANode); } // namespace tint