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// Copyright 2020 The Dawn & Tint Authors
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <string>
#include <unordered_set>
#include <utility>
#include "gtest/gtest-spi.h"
#include "src/tint/lang/wgsl/program/clone_context.h"
#include "src/tint/lang/wgsl/program/program_builder.h"
#include "src/tint/lang/wgsl/resolver/resolve.h"
namespace tint::program {
namespace {
struct Allocator {
template <typename T, typename... ARGS>
T* Create(ARGS&&... args) {
return alloc.Create<T>(this, std::forward<ARGS>(args)...);
}
private:
BlockAllocator<ast::Node> alloc;
};
struct Node : public Castable<Node, ast::Node> {
Node(Allocator* alloc,
Symbol n,
const Node* node_a = nullptr,
const Node* node_b = nullptr,
const Node* node_c = nullptr)
: Base(GenerationID{}, ast::NodeID{}, Source{}),
allocator(alloc),
name(n),
a(node_a),
b(node_b),
c(node_c) {}
Node(Node&&) = delete;
Allocator* const allocator;
Symbol name;
const Node* a = nullptr;
const Node* b = nullptr;
const Node* c = nullptr;
Vector<const Node*, 8> vec;
Node* Clone(ast::CloneContext& ctx) const override {
auto* out = allocator->Create<Node>(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;
}
};
struct Replaceable : public Castable<Replaceable, Node> {
Replaceable(Allocator* alloc,
Symbol n,
const Node* node_a = nullptr,
const Node* node_b = nullptr,
const Node* node_c = nullptr)
: Base(alloc, n, node_a, node_b, node_c) {}
};
struct Replacement : public Castable<Replacement, Replaceable> {
Replacement(Allocator* alloc, Symbol n) : Base(alloc, n) {}
};
struct IDNode : public Castable<IDNode, ast::Node> {
IDNode(Allocator* alloc, GenerationID program_id, GenerationID cid)
: Base(program_id, ast::NodeID{}, Source{}), allocator(alloc), cloned_id(cid) {}
Allocator* const allocator;
const GenerationID cloned_id;
IDNode* Clone(ast::CloneContext&) const override {
return allocator->Create<IDNode>(cloned_id, cloned_id);
}
};
using ProgramCloneContextNodeTest = ::testing::Test;
TEST_F(ProgramCloneContextNodeTest, Clone) {
Allocator alloc;
ProgramBuilder builder;
Node* original_root;
{
auto* a_b = alloc.Create<Node>(builder.Symbols().New("a->b"));
auto* a = alloc.Create<Node>(builder.Symbols().New("a"), nullptr, a_b);
auto* b_a = a; // Aliased
auto* b_b = alloc.Create<Node>(builder.Symbols().New("b->b"));
auto* b = alloc.Create<Node>(builder.Symbols().New("b"), b_a, b_b);
auto* c = b; // Aliased
original_root = alloc.Create<Node>(builder.Symbols().New("root"), a, b, c);
}
Program original(resolver::Resolve(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_NE(cloned_root->b->a, cloned_root->a); // De-aliased
EXPECT_NE(cloned_root->c, cloned_root->b); // De-aliased
EXPECT_EQ(cloned_root->b->a->name, cloned_root->a->name);
EXPECT_EQ(cloned_root->c->name, cloned_root->b->name);
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceAll_Node) {
Allocator alloc;
ProgramBuilder builder;
Node* original_root;
{
auto* a_b = alloc.Create<Replaceable>(builder.Symbols().New("a->b"));
auto* a = alloc.Create<Node>(builder.Symbols().New("a"), nullptr, a_b);
auto* b_a = a; // Aliased
auto* b = alloc.Create<Replaceable>(builder.Symbols().New("b"), b_a, nullptr);
auto* c = b; // Aliased
original_root = alloc.Create<Node>(builder.Symbols().New("root"), a, b, c);
}
Program original(resolver::Resolve(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([&](const Replaceable* in) {
auto out_name = cloned.Symbols().Register("replacement:" + in->name.Name());
auto b_name = cloned.Symbols().Register("replacement-child:" + in->name.Name());
auto* out = alloc.Create<Replacement>(out_name);
out->b = alloc.Create<Node>(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_NE(cloned_root->b->c, cloned_root->a); // De-aliased
EXPECT_NE(cloned_root->c, cloned_root->b); // De-aliased
EXPECT_EQ(cloned_root->b->c->name, cloned_root->a->name);
EXPECT_EQ(cloned_root->c->name, cloned_root->b->name);
EXPECT_FALSE(Is<Replacement>(cloned_root->a));
EXPECT_TRUE(Is<Replacement>(cloned_root->a->b));
EXPECT_FALSE(Is<Replacement>(cloned_root->a->b->b));
EXPECT_TRUE(Is<Replacement>(cloned_root->b));
EXPECT_FALSE(Is<Replacement>(cloned_root->b->b));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceAll_Symbols) {
Allocator alloc;
ProgramBuilder builder;
Node* original_root;
{
auto* a_b = alloc.Create<Node>(builder.Symbols().New("a->b"));
auto* a = alloc.Create<Node>(builder.Symbols().New("a"), nullptr, a_b);
auto* b_a = a; // Aliased
auto* b_b = alloc.Create<Node>(builder.Symbols().New("b->b"));
auto* b = alloc.Create<Node>(builder.Symbols().New("b"), b_a, b_b);
auto* c = b; // Aliased
original_root = alloc.Create<Node>(builder.Symbols().New("root"), a, b, c);
}
Program original(resolver::Resolve(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, false)
.ReplaceAll([&](Symbol sym) {
auto in = sym.Name();
auto out = "transformed<" + in + ">";
return cloned.Symbols().New(out);
})
.Clone(original_root);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("transformed<root>"));
EXPECT_EQ(cloned_root->a->name, cloned.Symbols().Get("transformed<a>"));
EXPECT_EQ(cloned_root->a->b->name, cloned.Symbols().Get("transformed<a->b>"));
EXPECT_EQ(cloned_root->b->name, cloned.Symbols().Get("transformed<b>"));
EXPECT_EQ(cloned_root->b->b->name, cloned.Symbols().Get("transformed<b->b>"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithoutTransform) {
Allocator a;
ProgramBuilder builder;
auto* original_node = a.Create<Node>(builder.Symbols().New("root"));
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([&](const Node*) {
return a.Create<Replacement>(builder.Symbols().New("<unexpected-node>"));
});
auto* cloned_node = ctx.CloneWithoutTransform(original_node);
EXPECT_NE(cloned_node, original_node);
EXPECT_EQ(cloned_node->name, cloned.Symbols().Get("root"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplacePointer) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().New("root"));
original_root->a = a.Create<Node>(builder.Symbols().New("a"));
original_root->b = a.Create<Node>(builder.Symbols().New("b"));
original_root->c = a.Create<Node>(builder.Symbols().New("c"));
Program original(resolver::Resolve(builder));
// root
// ╭──────────────────┼──────────────────╮
// (a) (b) (c)
// Replaced
ProgramBuilder cloned;
auto* replacement = a.Create<Node>(cloned.Symbols().New("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_F(ProgramCloneContextNodeTest, CloneWithRepeatedImmediateReplacePointer) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().New("root"));
original_root->a = a.Create<Node>(builder.Symbols().New("a"));
original_root->b = a.Create<Node>(builder.Symbols().New("b"));
original_root->c = a.Create<Node>(builder.Symbols().New("c"));
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
// Demonstrate that ctx.Replace() can be called multiple times to update the replacement of a
// node.
auto* replacement_x =
a.Create<Node>(cloned.Symbols().New("replacement_x"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, replacement_x);
auto* replacement_y =
a.Create<Node>(cloned.Symbols().New("replacement_y"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, replacement_y);
auto* replacement_z =
a.Create<Node>(cloned.Symbols().New("replacement_z"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, replacement_z);
auto* cloned_root = ctx.Clone(original_root);
EXPECT_NE(cloned_root->a, replacement_z);
EXPECT_EQ(cloned_root->b, replacement_z);
EXPECT_NE(cloned_root->c, replacement_z);
EXPECT_EQ(replacement_z->a, replacement_y);
EXPECT_EQ(replacement_y->a, replacement_x);
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceFunction) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().New("root"));
original_root->a = a.Create<Node>(builder.Symbols().New("a"));
original_root->b = a.Create<Node>(builder.Symbols().New("b"));
original_root->c = a.Create<Node>(builder.Symbols().New("c"));
Program original(resolver::Resolve(builder));
// root
// ╭──────────────────┼──────────────────╮
// (a) (b) (c)
// Replaced
ProgramBuilder cloned;
auto* replacement = a.Create<Node>(cloned.Symbols().New("replacement"));
auto* cloned_root = CloneContext(&cloned, &original)
.Replace(original_root->b, [=] { return 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_F(ProgramCloneContextNodeTest, CloneWithRepeatedImmediateReplaceFunction) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().New("root"));
original_root->a = a.Create<Node>(builder.Symbols().New("a"));
original_root->b = a.Create<Node>(builder.Symbols().New("b"));
original_root->c = a.Create<Node>(builder.Symbols().New("c"));
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
// Demonstrate that ctx.Replace() can be called multiple times to update the replacement of a
// node.
Node* replacement_x =
a.Create<Node>(cloned.Symbols().New("replacement_x"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, [&] { return replacement_x; });
Node* replacement_y =
a.Create<Node>(cloned.Symbols().New("replacement_y"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, [&] { return replacement_y; });
Node* replacement_z =
a.Create<Node>(cloned.Symbols().New("replacement_z"), ctx.Clone(original_root->b));
ctx.Replace(original_root->b, [&] { return replacement_z; });
auto* cloned_root = ctx.Clone(original_root);
EXPECT_NE(cloned_root->a, replacement_z);
EXPECT_EQ(cloned_root->b, replacement_z);
EXPECT_NE(cloned_root->c, replacement_z);
EXPECT_EQ(replacement_z->a, replacement_y);
EXPECT_EQ(replacement_y->a, replacement_x);
}
TEST_F(ProgramCloneContextNodeTest, CloneWithRemove) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root = CloneContext(&cloned, &original)
.Remove(original_root->vec, original_root->vec[1])
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 2u);
EXPECT_NE(cloned_root->vec[0], cloned_root->a);
EXPECT_NE(cloned_root->vec[1], 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("c"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFront) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertFront(original_root->vec, insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
EXPECT_NE(cloned_root->vec[0], cloned_root->a);
EXPECT_NE(cloned_root->vec[1], cloned_root->b);
EXPECT_NE(cloned_root->vec[2], cloned_root->c);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("a"));
EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("b"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFrontFunction) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertFront(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
EXPECT_NE(cloned_root->vec[0], cloned_root->a);
EXPECT_NE(cloned_root->vec[1], cloned_root->b);
EXPECT_NE(cloned_root->vec[2], cloned_root->c);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("a"));
EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("b"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFront_Empty) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertFront(original_root->vec, insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 1u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFront_Empty_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertFront(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 1u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBack) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertBack(original_root->vec, insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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("c"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBack_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBack(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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("c"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBack_Empty) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertBack(original_root->vec, insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 1u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBack_Empty_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBack(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 1u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFrontAndBack_Empty) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion_back = a.Create<Node>(cloned.Symbols().New("insertion_back"));
auto* insertion_front = a.Create<Node>(cloned.Symbols().New("insertion_front"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertBack(original_root->vec, insertion_back)
.InsertFront(original_root->vec, insertion_front)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 2u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion_front"));
EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("insertion_back"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertFrontAndBack_Empty_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec.Clear();
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBack(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion_back")); })
.InsertFront(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion_front")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 2u);
EXPECT_EQ(cloned_root->name, cloned.Symbols().Get("root"));
EXPECT_EQ(cloned_root->vec[0]->name, cloned.Symbols().Get("insertion_front"));
EXPECT_EQ(cloned_root->vec[1]->name, cloned.Symbols().Get("insertion_back"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBefore) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertBefore(original_root->vec, original_root->vec[1], insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertBefore_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBefore(original_root->vec, original_root->vec[1],
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertAfter) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
auto* cloned_root = CloneContext(&cloned, &original)
.InsertAfter(original_root->vec, original_root->vec[1], insertion)
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertAfter_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertAfter(original_root->vec, original_root->vec[1],
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); })
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertAfterInVectorNodeClone) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Replaceable>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([&](const Replaceable* r) {
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
ctx.InsertAfter(original_root->vec, r, insertion);
return nullptr;
});
auto* cloned_root = ctx.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertAfterInVectorNodeClone_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Replaceable>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([&](const Replaceable* r) {
ctx.InsertAfter(original_root->vec, r,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); });
return nullptr;
});
auto* cloned_root = ctx.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_F(ProgramCloneContextNodeTest, CloneWithInsertBackInVectorNodeClone) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Replaceable>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([&](const Replaceable* /*r*/) {
auto* insertion = a.Create<Node>(cloned.Symbols().New("insertion"));
ctx.InsertBack(original_root->vec, insertion);
return nullptr;
});
auto* cloned_root = ctx.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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("c"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBackInVectorNodeClone_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Replaceable>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([&](const Replaceable* /*r*/) {
ctx.InsertBack(original_root->vec,
[&] { return a.Create<Node>(cloned.Symbols().New("insertion")); });
return nullptr;
});
auto* cloned_root = ctx.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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("c"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("insertion"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBeforeAndAfterRemoved) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* insertion_before = a.Create<Node>(cloned.Symbols().New("insertion_before"));
auto* insertion_after = a.Create<Node>(cloned.Symbols().New("insertion_after"));
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBefore(original_root->vec, original_root->vec[1], insertion_before)
.InsertAfter(original_root->vec, original_root->vec[1], insertion_after)
.Remove(original_root->vec, original_root->vec[1])
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_before"));
EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("insertion_after"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithInsertBeforeAndAfterRemoved_Function) {
Allocator a;
ProgramBuilder builder;
auto* original_root = a.Create<Node>(builder.Symbols().Register("root"));
original_root->vec = {
a.Create<Node>(builder.Symbols().Register("a")),
a.Create<Node>(builder.Symbols().Register("b")),
a.Create<Node>(builder.Symbols().Register("c")),
};
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
auto* cloned_root =
CloneContext(&cloned, &original)
.InsertBefore(original_root->vec, original_root->vec[1],
[&] { return a.Create<Node>(cloned.Symbols().New("insertion_before")); })
.InsertAfter(original_root->vec, original_root->vec[1],
[&] { return a.Create<Node>(cloned.Symbols().New("insertion_after")); })
.Remove(original_root->vec, original_root->vec[1])
.Clone(original_root);
EXPECT_EQ(cloned_root->vec.Length(), 4u);
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_before"));
EXPECT_EQ(cloned_root->vec[2]->name, cloned.Symbols().Get("insertion_after"));
EXPECT_EQ(cloned_root->vec[3]->name, cloned.Symbols().Get("c"));
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceAll_SameTypeTwice) {
std::string node_name = TypeInfo::Of<Node>().name;
EXPECT_FATAL_FAILURE(
{
ProgramBuilder cloned;
Program original;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([](const Node*) { return nullptr; });
ctx.ReplaceAll([](const Node*) { return nullptr; });
},
"internal compiler error: ReplaceAll() called with a handler for type " + node_name +
" that is already handled by a handler for type " + node_name);
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceAll_BaseThenDerived) {
std::string node_name = TypeInfo::Of<Node>().name;
std::string replaceable_name = TypeInfo::Of<Replaceable>().name;
EXPECT_FATAL_FAILURE(
{
ProgramBuilder cloned;
Program original;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([](const Node*) { return nullptr; });
ctx.ReplaceAll([](const Replaceable*) { return nullptr; });
},
"internal compiler error: ReplaceAll() called with a handler for type " + replaceable_name +
" that is already handled by a handler for type " + node_name);
}
TEST_F(ProgramCloneContextNodeTest, CloneWithReplaceAll_DerivedThenBase) {
std::string node_name = TypeInfo::Of<Node>().name;
std::string replaceable_name = TypeInfo::Of<Replaceable>().name;
EXPECT_FATAL_FAILURE(
{
ProgramBuilder cloned;
Program original;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([](const Replaceable*) { return nullptr; });
ctx.ReplaceAll([](const Node*) { return nullptr; });
},
"internal compiler error: ReplaceAll() called with a handler for type " + node_name +
" that is already handled by a handler for type " + replaceable_name);
}
using ProgramCloneContextTest = ::testing::Test;
TEST_F(ProgramCloneContextTest, CloneWithReplaceAll_SymbolsTwice) {
EXPECT_FATAL_FAILURE(
{
ProgramBuilder cloned;
Program original;
CloneContext ctx(&cloned, &original);
ctx.ReplaceAll([](const Symbol s) { return s; });
ctx.ReplaceAll([](const Symbol s) { return s; });
},
"internal compiler error: ReplaceAll(const SymbolTransform&) called "
"multiple times on the same CloneContext");
}
TEST_F(ProgramCloneContextTest, CloneNewUnnamedSymbols) {
ProgramBuilder builder;
Symbol old_a = builder.Symbols().New();
Symbol old_b = builder.Symbols().New();
Symbol old_c = builder.Symbols().New();
EXPECT_EQ(old_a.Name(), "tint_symbol");
EXPECT_EQ(old_b.Name(), "tint_symbol_1");
EXPECT_EQ(old_c.Name(), "tint_symbol_2");
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original, false);
Symbol new_x = cloned.Symbols().New();
Symbol new_a = ctx.Clone(old_a);
Symbol new_y = cloned.Symbols().New();
Symbol new_b = ctx.Clone(old_b);
Symbol new_z = cloned.Symbols().New();
Symbol new_c = ctx.Clone(old_c);
EXPECT_EQ(new_x.Name(), "tint_symbol");
EXPECT_EQ(new_a.Name(), "tint_symbol_1");
EXPECT_EQ(new_y.Name(), "tint_symbol_2");
EXPECT_EQ(new_b.Name(), "tint_symbol_1_1");
EXPECT_EQ(new_z.Name(), "tint_symbol_3");
EXPECT_EQ(new_c.Name(), "tint_symbol_2_1");
}
TEST_F(ProgramCloneContextTest, CloneNewSymbols) {
ProgramBuilder builder;
Symbol old_a = builder.Symbols().New("a");
Symbol old_b = builder.Symbols().New("b");
Symbol old_c = builder.Symbols().New("c");
EXPECT_EQ(old_a.Name(), "a");
EXPECT_EQ(old_b.Name(), "b");
EXPECT_EQ(old_c.Name(), "c");
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original, false);
Symbol new_x = cloned.Symbols().New("a");
Symbol new_a = ctx.Clone(old_a);
Symbol new_y = cloned.Symbols().New("b");
Symbol new_b = ctx.Clone(old_b);
Symbol new_z = cloned.Symbols().New("c");
Symbol new_c = ctx.Clone(old_c);
EXPECT_EQ(new_x.Name(), "a");
EXPECT_EQ(new_a.Name(), "a_1");
EXPECT_EQ(new_y.Name(), "b");
EXPECT_EQ(new_b.Name(), "b_1");
EXPECT_EQ(new_z.Name(), "c");
EXPECT_EQ(new_c.Name(), "c_1");
}
TEST_F(ProgramCloneContextTest, CloneNewSymbols_AfterCloneSymbols) {
ProgramBuilder builder;
Symbol old_a = builder.Symbols().New("a");
Symbol old_b = builder.Symbols().New("b");
Symbol old_c = builder.Symbols().New("c");
EXPECT_EQ(old_a.Name(), "a");
EXPECT_EQ(old_b.Name(), "b");
EXPECT_EQ(old_c.Name(), "c");
Program original(resolver::Resolve(builder));
ProgramBuilder cloned;
CloneContext ctx(&cloned, &original);
Symbol new_x = cloned.Symbols().New("a");
Symbol new_a = ctx.Clone(old_a);
Symbol new_y = cloned.Symbols().New("b");
Symbol new_b = ctx.Clone(old_b);
Symbol new_z = cloned.Symbols().New("c");
Symbol new_c = ctx.Clone(old_c);
EXPECT_EQ(new_x.Name(), "a_1");
EXPECT_EQ(new_a.Name(), "a");
EXPECT_EQ(new_y.Name(), "b_1");
EXPECT_EQ(new_b.Name(), "b");
EXPECT_EQ(new_z.Name(), "c_1");
EXPECT_EQ(new_c.Name(), "c");
}
TEST_F(ProgramCloneContextTest, GenerationIDs) {
ProgramBuilder dst;
Program src(ProgramBuilder{});
CloneContext ctx(&dst, &src);
Allocator allocator;
auto* cloned = ctx.Clone(allocator.Create<IDNode>(src.ID(), dst.ID()));
EXPECT_EQ(cloned->generation_id, dst.ID());
}
TEST_F(ProgramCloneContextTest, GenerationIDs_Clone_ObjectNotOwnedBySrc) {
EXPECT_FATAL_FAILURE(
{
ProgramBuilder dst;
Program src(ProgramBuilder{});
CloneContext ctx(&dst, &src);
Allocator allocator;
ctx.Clone(allocator.Create<IDNode>(GenerationID::New(), dst.ID()));
},
R"(internal compiler error: TINT_ASSERT_GENERATION_IDS_EQUAL_IF_VALID(src_id, object))");
}
TEST_F(ProgramCloneContextTest, GenerationIDs_Clone_ObjectNotOwnedByDst) {
EXPECT_FATAL_FAILURE(
{
ProgramBuilder dst;
Program src(ProgramBuilder{});
CloneContext ctx(&dst, &src);
Allocator allocator;
ctx.Clone(allocator.Create<IDNode>(src.ID(), GenerationID::New()));
},
R"(internal compiler error: TINT_ASSERT_GENERATION_IDS_EQUAL_IF_VALID(dst, out))");
}
} // namespace
} // namespace tint::program
TINT_INSTANTIATE_TYPEINFO(tint::program::Node);
TINT_INSTANTIATE_TYPEINFO(tint::program::Replaceable);
TINT_INSTANTIATE_TYPEINFO(tint::program::Replacement);
TINT_INSTANTIATE_TYPEINFO(tint::program::IDNode);