585 lines
21 KiB
C++
585 lines
21 KiB
C++
// Copyright 2020 The Tint Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef SRC_CLONE_CONTEXT_H_
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#define SRC_CLONE_CONTEXT_H_
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#include <algorithm>
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#include <functional>
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#include <unordered_map>
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#include <unordered_set>
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#include <utility>
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#include <vector>
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#include "src/castable.h"
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#include "src/debug.h"
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#include "src/symbol.h"
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#include "src/traits.h"
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namespace tint {
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// Forward declarations
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class CloneContext;
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class Program;
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class ProgramBuilder;
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namespace ast {
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class FunctionList;
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class Node;
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} // namespace ast
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ProgramID ProgramIDOf(const Program*);
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ProgramID ProgramIDOf(const ast::Node*);
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/// Cloneable is the base class for all objects that can be cloned
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class Cloneable : public Castable<Cloneable> {
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public:
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/// Performs a deep clone of this object using the CloneContext `ctx`.
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/// @param ctx the clone context
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/// @return the newly cloned object
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virtual Cloneable* Clone(CloneContext* ctx) const = 0;
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};
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/// @returns an invalid ProgramID
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inline ProgramID ProgramIDOf(const Cloneable*) {
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return ProgramID();
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}
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/// CloneContext holds the state used while cloning AST nodes.
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class CloneContext {
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/// ParamTypeIsPtrOf<F, T>::value is true iff the first parameter of
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/// F is a pointer of (or derives from) type T.
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template <typename F, typename T>
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using ParamTypeIsPtrOf = traits::IsTypeOrDerived<
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typename std::remove_pointer<traits::ParamTypeT<F, 0>>::type,
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T>;
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public:
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/// SymbolTransform is a function that takes a symbol and returns a new
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/// symbol.
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using SymbolTransform = std::function<Symbol(Symbol)>;
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/// Constructor for cloning objects from `from` into `to`.
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/// @param to the target ProgramBuilder to clone into
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/// @param from the source Program to clone from
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/// @param auto_clone_symbols clone all symbols in `from` before returning
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CloneContext(ProgramBuilder* to,
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Program const* from,
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bool auto_clone_symbols = true);
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/// Constructor for cloning objects from and to the ProgramBuilder `builder`.
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/// @param builder the ProgramBuilder
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explicit CloneContext(ProgramBuilder* builder);
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/// Destructor
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~CloneContext();
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/// Clones the Node or sem::Type `a` into the ProgramBuilder #dst if `a` is
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/// not null. If `a` is null, then Clone() returns null.
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///
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/// Clone() may use a function registered with ReplaceAll() to create a
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/// transformed version of the object. See ReplaceAll() for more information.
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///
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/// If the CloneContext is cloning from a Program to a ProgramBuilder, then
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/// the Node or sem::Type `a` must be owned by the Program #src.
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///
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/// @param a the `Node` or `sem::Type` to clone
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/// @return the cloned node
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template <typename T>
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T* Clone(T* a) {
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// If the input is nullptr, there's nothing to clone - just return nullptr.
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if (a == nullptr) {
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return nullptr;
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}
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if (src) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, a);
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}
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// Was Replace() called for this object?
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auto it = replacements_.find(a);
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if (it != replacements_.end()) {
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auto* replacement = it->second();
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, replacement);
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return CheckedCast<T>(replacement);
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}
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Cloneable* cloned = nullptr;
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// Attempt to clone using the registered replacer functions.
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auto& typeinfo = a->TypeInfo();
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for (auto& transform : transforms_) {
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if (!typeinfo.Is(*transform.typeinfo)) {
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continue;
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}
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cloned = transform.function(a);
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break;
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}
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if (!cloned) {
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// No transform for this type, or the transform returned nullptr.
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// Clone with T::Clone().
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cloned = a->Clone(this);
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}
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auto* out = CheckedCast<T>(cloned);
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, out);
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return out;
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}
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/// Clones the Node or sem::Type `a` into the ProgramBuilder #dst if `a` is
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/// not null. If `a` is null, then Clone() returns null.
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///
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/// Unlike Clone(), this method does not invoke or use any transformations
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/// registered by ReplaceAll().
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///
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/// If the CloneContext is cloning from a Program to a ProgramBuilder, then
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/// the Node or sem::Type `a` must be owned by the Program #src.
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///
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/// @param a the `Node` or `sem::Type` to clone
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/// @return the cloned node
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template <typename T>
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T* CloneWithoutTransform(T* a) {
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// If the input is nullptr, there's nothing to clone - just return nullptr.
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if (a == nullptr) {
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return nullptr;
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}
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if (src) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, a);
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}
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auto* c = a->Clone(this);
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return CheckedCast<T>(c);
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}
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/// Clones the Source `s` into #dst
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/// TODO(bclayton) - Currently this 'clone' is a shallow copy. If/when
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/// `Source.File`s are owned by the Program this should make a copy of the
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/// file.
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/// @param s the `Source` to clone
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/// @return the cloned source
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Source Clone(const Source& s) const { return s; }
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/// Clones the Symbol `s` into #dst
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///
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/// The Symbol `s` must be owned by the Program #src.
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///
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/// @param s the Symbol to clone
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/// @return the cloned source
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Symbol Clone(Symbol s);
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/// Clones each of the elements of the vector `v` into the ProgramBuilder
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/// #dst.
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///
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/// All the elements of the vector `v` must be owned by the Program #src.
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///
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/// @param v the vector to clone
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/// @return the cloned vector
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template <typename T>
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std::vector<T> Clone(const std::vector<T>& v) {
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std::vector<T> out;
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out.reserve(v.size());
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for (auto& el : v) {
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out.emplace_back(Clone(el));
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}
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return out;
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}
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/// Clones each of the elements of the vector `v` using the ProgramBuilder
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/// #dst, inserting any additional elements into the list that were registered
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/// with calls to InsertBefore().
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///
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/// All the elements of the vector `v` must be owned by the Program #src.
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///
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/// @param v the vector to clone
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/// @return the cloned vector
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template <typename T>
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std::vector<T*> Clone(const std::vector<T*>& v) {
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std::vector<T*> out;
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Clone(out, v);
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return out;
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}
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/// Clones each of the elements of the vector `from` into the vector `to`,
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/// inserting any additional elements into the list that were registered with
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/// calls to InsertBefore().
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///
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/// All the elements of the vector `from` must be owned by the Program #src.
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///
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/// @param from the vector to clone
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/// @param to the cloned result
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template <typename T>
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void Clone(std::vector<T*>& to, const std::vector<T*>& from) {
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to.reserve(from.size());
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auto list_transform_it = list_transforms_.find(&from);
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if (list_transform_it != list_transforms_.end()) {
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const auto& transforms = list_transform_it->second;
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for (auto* o : transforms.insert_front_) {
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to.emplace_back(CheckedCast<T>(o));
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}
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for (auto& el : from) {
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auto insert_before_it = transforms.insert_before_.find(el);
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if (insert_before_it != transforms.insert_before_.end()) {
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for (auto insert : insert_before_it->second) {
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to.emplace_back(CheckedCast<T>(insert));
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}
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}
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if (transforms.remove_.count(el) == 0) {
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to.emplace_back(Clone(el));
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}
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auto insert_after_it = transforms.insert_after_.find(el);
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if (insert_after_it != transforms.insert_after_.end()) {
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for (auto insert : insert_after_it->second) {
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to.emplace_back(CheckedCast<T>(insert));
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}
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}
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}
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for (auto* o : transforms.insert_back_) {
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to.emplace_back(CheckedCast<T>(o));
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}
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} else {
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for (auto& el : from) {
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to.emplace_back(Clone(el));
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}
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}
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}
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/// Clones each of the elements of the vector `v` into the ProgramBuilder
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/// #dst.
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///
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/// All the elements of the vector `v` must be owned by the Program #src.
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///
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/// @param v the vector to clone
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/// @return the cloned vector
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ast::FunctionList Clone(const ast::FunctionList& v);
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/// ReplaceAll() registers `replacer` to be called whenever the Clone() method
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/// is called with a Cloneable type that matches (or derives from) the type of
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/// the single parameter of `replacer`.
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/// The returned Cloneable of `replacer` will be used as the replacement for
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/// all references to the object that's being cloned. This returned Cloneable
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/// must be owned by the Program #dst.
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///
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/// `replacer` must be function-like with the signature: `T* (T*)`
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/// where `T` is a type deriving from Cloneable.
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///
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/// If `replacer` returns a nullptr then Clone() will call `T::Clone()` to
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/// clone the object.
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///
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/// Example:
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///
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/// ```
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/// // Replace all ast::UintLiterals with the number 42
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/// CloneCtx ctx(&out, in);
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/// ctx.ReplaceAll([&] (ast::UintLiteral* l) {
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/// return ctx->dst->create<ast::UintLiteral>(
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/// ctx->Clone(l->source()),
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/// ctx->Clone(l->type()),
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/// 42);
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/// });
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/// ctx.Clone();
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/// ```
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///
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/// @warning a single handler can only be registered for any given type.
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/// Attempting to register two handlers for the same type will result in an
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/// ICE.
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/// @warning The replacement object must be of the correct type for all
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/// references of the original object. A type mismatch will result in an
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/// assertion in debug builds, and undefined behavior in release builds.
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/// @param replacer a function or function-like object with the signature
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/// `T* (T*)`, where `T` derives from Cloneable
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/// @returns this CloneContext so calls can be chained
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template <typename F>
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traits::EnableIf<ParamTypeIsPtrOf<F, Cloneable>::value, CloneContext>&
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ReplaceAll(F&& replacer) {
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using TPtr = traits::ParamTypeT<F, 0>;
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using T = typename std::remove_pointer<TPtr>::type;
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for (auto& transform : transforms_) {
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if (transform.typeinfo->Is(TypeInfo::Of<T>()) ||
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TypeInfo::Of<T>().Is(*transform.typeinfo)) {
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TINT_ICE(Clone, Diagnostics())
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<< "ReplaceAll() called with a handler for type "
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<< TypeInfo::Of<T>().name
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<< " that is already handled by a handler for type "
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<< transform.typeinfo->name;
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return *this;
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}
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}
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CloneableTransform transform;
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transform.typeinfo = &TypeInfo::Of<T>();
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transform.function = [=](Cloneable* in) { return replacer(in->As<T>()); };
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transforms_.emplace_back(std::move(transform));
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return *this;
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}
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/// ReplaceAll() registers `replacer` to be called whenever the Clone() method
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/// is called with a Symbol.
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/// The returned symbol of `replacer` will be used as the replacement for
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/// all references to the symbol that's being cloned. This returned Symbol
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/// must be owned by the Program #dst.
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/// @param replacer a function the signature `Symbol(Symbol)`.
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/// @warning a SymbolTransform can only be registered once. Attempting to
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/// register a SymbolTransform more than once will result in an ICE.
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/// @returns this CloneContext so calls can be chained
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CloneContext& ReplaceAll(const SymbolTransform& replacer) {
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if (symbol_transform_) {
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TINT_ICE(Clone, Diagnostics())
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<< "ReplaceAll(const SymbolTransform&) called "
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"multiple times on the same CloneContext";
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return *this;
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}
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symbol_transform_ = replacer;
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return *this;
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}
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/// Replace replaces all occurrences of `what` in #src with the pointer `with`
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/// in #dst when calling Clone().
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/// [DEPRECATED]: This function cannot handle nested replacements. Use the
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/// overload of Replace() that take a function for the `WITH` argument.
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/// @param what a pointer to the object in #src that will be replaced with
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/// `with`
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/// @param with a pointer to the replacement object owned by #dst that will be
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/// used as a replacement for `what`
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/// @warning The replacement object must be of the correct type for all
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/// references of the original object. A type mismatch will result in an
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/// assertion in debug builds, and undefined behavior in release builds.
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/// @returns this CloneContext so calls can be chained
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template <typename WHAT,
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typename WITH,
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typename = traits::EnableIfIsType<WITH, Cloneable>>
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CloneContext& Replace(WHAT* what, WITH* with) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, what);
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, with);
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replacements_[what] = [with]() -> Cloneable* { return with; };
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return *this;
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}
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/// Replace replaces all occurrences of `what` in #src with the result of the
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/// function `with` in #dst when calling Clone(). `with` will be called each
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/// time `what` is cloned by this context. If `what` is not cloned, then
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/// `with` may never be called.
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/// @param what a pointer to the object in #src that will be replaced with
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/// `with`
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/// @param with a function that takes no arguments and returns a pointer to
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/// the replacement object owned by #dst. The returned pointer will be used as
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/// a replacement for `what`.
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/// @warning The replacement object must be of the correct type for all
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/// references of the original object. A type mismatch will result in an
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/// assertion in debug builds, and undefined behavior in release builds.
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/// @returns this CloneContext so calls can be chained
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template <typename WHAT, typename WITH, typename = std::result_of_t<WITH()>>
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CloneContext& Replace(WHAT* what, WITH&& with) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, what);
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replacements_[what] = with;
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return *this;
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}
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/// Removes `object` from the cloned copy of `vector`.
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/// @param vector the vector in #src
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/// @param object a pointer to the object in #src that will be omitted from
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/// the cloned vector.
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/// @returns this CloneContext so calls can be chained
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template <typename T, typename OBJECT>
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CloneContext& Remove(const std::vector<T>& vector, OBJECT* object) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, object);
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if (std::find(vector.begin(), vector.end(), object) == vector.end()) {
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TINT_ICE(Clone, Diagnostics())
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<< "CloneContext::Remove() vector does not contain object";
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return *this;
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}
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list_transforms_[&vector].remove_.emplace(object);
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return *this;
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}
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/// Inserts `object` before any other objects of `vector`, when it is cloned.
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/// @param vector the vector in #src
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/// @param object a pointer to the object in #dst that will be inserted at the
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/// front of the vector
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/// @returns this CloneContext so calls can be chained
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template <typename T, typename OBJECT>
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CloneContext& InsertFront(const std::vector<T>& vector, OBJECT* object) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, object);
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auto& transforms = list_transforms_[&vector];
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auto& list = transforms.insert_front_;
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list.emplace_back(object);
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return *this;
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}
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/// Inserts `object` after any other objects of `vector`, when it is cloned.
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/// @param vector the vector in #src
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/// @param object a pointer to the object in #dst that will be inserted at the
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/// end of the vector
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/// @returns this CloneContext so calls can be chained
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template <typename T, typename OBJECT>
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CloneContext& InsertBack(const std::vector<T>& vector, OBJECT* object) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, object);
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auto& transforms = list_transforms_[&vector];
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auto& list = transforms.insert_back_;
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list.emplace_back(object);
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return *this;
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}
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/// Inserts `object` before `before` whenever `vector` is cloned.
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/// @param vector the vector in #src
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/// @param before a pointer to the object in #src
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/// @param object a pointer to the object in #dst that will be inserted before
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/// any occurrence of the clone of `before`
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/// @returns this CloneContext so calls can be chained
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template <typename T, typename BEFORE, typename OBJECT>
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CloneContext& InsertBefore(const std::vector<T>& vector,
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const BEFORE* before,
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OBJECT* object) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, before);
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, object);
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if (std::find(vector.begin(), vector.end(), before) == vector.end()) {
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TINT_ICE(Clone, Diagnostics())
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<< "CloneContext::InsertBefore() vector does not contain before";
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return *this;
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}
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auto& transforms = list_transforms_[&vector];
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auto& list = transforms.insert_before_[before];
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list.emplace_back(object);
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return *this;
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}
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/// Inserts `object` after `after` whenever `vector` is cloned.
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/// @param vector the vector in #src
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/// @param after a pointer to the object in #src
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/// @param object a pointer to the object in #dst that will be inserted after
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/// any occurrence of the clone of `after`
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/// @returns this CloneContext so calls can be chained
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template <typename T, typename AFTER, typename OBJECT>
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CloneContext& InsertAfter(const std::vector<T>& vector,
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const AFTER* after,
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OBJECT* object) {
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, src, after);
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TINT_ASSERT_PROGRAM_IDS_EQUAL_IF_VALID(Clone, dst, object);
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if (std::find(vector.begin(), vector.end(), after) == vector.end()) {
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TINT_ICE(Clone, Diagnostics())
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<< "CloneContext::InsertAfter() vector does not contain after";
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return *this;
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}
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auto& transforms = list_transforms_[&vector];
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auto& list = transforms.insert_after_[after];
|
|
list.emplace_back(object);
|
|
return *this;
|
|
}
|
|
|
|
/// Clone performs the clone of the Program's AST nodes, types and symbols
|
|
/// from #src to #dst. Semantic nodes are not cloned, as these will be rebuilt
|
|
/// when the ProgramBuilder #dst builds its Program.
|
|
void Clone();
|
|
|
|
/// The target ProgramBuilder to clone into.
|
|
ProgramBuilder* const dst;
|
|
|
|
/// The source Program to clone from.
|
|
Program const* const src;
|
|
|
|
private:
|
|
struct CloneableTransform {
|
|
/// Constructor
|
|
CloneableTransform();
|
|
/// Copy constructor
|
|
/// @param other the CloneableTransform to copy
|
|
CloneableTransform(const CloneableTransform& other);
|
|
/// Destructor
|
|
~CloneableTransform();
|
|
|
|
// TypeInfo of the Cloneable that the transform operates on
|
|
const TypeInfo* typeinfo;
|
|
std::function<Cloneable*(Cloneable*)> function;
|
|
};
|
|
|
|
CloneContext(const CloneContext&) = delete;
|
|
CloneContext& operator=(const CloneContext&) = delete;
|
|
|
|
/// Cast `obj` from type `FROM` to type `TO`, returning the cast object.
|
|
/// Reports an internal compiler error if the cast failed.
|
|
template <typename TO, typename FROM>
|
|
TO* CheckedCast(FROM* obj) {
|
|
if (obj == nullptr) {
|
|
return nullptr;
|
|
}
|
|
if (TO* cast = obj->template As<TO>()) {
|
|
return cast;
|
|
}
|
|
TINT_ICE(Clone, Diagnostics())
|
|
<< "Cloned object was not of the expected type\n"
|
|
<< "got: " << obj->TypeInfo().name << "\n"
|
|
<< "expected: " << TypeInfo::Of<TO>().name;
|
|
return nullptr;
|
|
}
|
|
|
|
/// @returns the diagnostic list of #dst
|
|
diag::List& Diagnostics() const;
|
|
|
|
/// A vector of Cloneable*
|
|
using CloneableList = std::vector<Cloneable*>;
|
|
|
|
// Transformations to be applied to a list (vector)
|
|
struct ListTransforms {
|
|
/// Constructor
|
|
ListTransforms();
|
|
/// Destructor
|
|
~ListTransforms();
|
|
|
|
/// A map of object in #src to omit when cloned into #dst.
|
|
std::unordered_set<const Cloneable*> remove_;
|
|
|
|
/// A list of objects in #dst to insert before any others when the vector is
|
|
/// cloned.
|
|
CloneableList insert_front_;
|
|
|
|
/// A list of objects in #dst to insert befor after any others when the
|
|
/// vector is cloned.
|
|
CloneableList insert_back_;
|
|
|
|
/// A map of object in #src to the list of cloned objects in #dst.
|
|
/// Clone(const std::vector<T*>& v) will use this to insert the map-value
|
|
/// list into the target vector before cloning and inserting the map-key.
|
|
std::unordered_map<const Cloneable*, CloneableList> insert_before_;
|
|
|
|
/// A map of object in #src to the list of cloned objects in #dst.
|
|
/// Clone(const std::vector<T*>& v) will use this to insert the map-value
|
|
/// list into the target vector after cloning and inserting the map-key.
|
|
std::unordered_map<const Cloneable*, CloneableList> insert_after_;
|
|
};
|
|
|
|
/// A map of object in #src to functions that create their replacement in
|
|
/// #dst
|
|
std::unordered_map<const Cloneable*, std::function<Cloneable*()>>
|
|
replacements_;
|
|
|
|
/// A map of symbol in #src to their cloned equivalent in #dst
|
|
std::unordered_map<Symbol, Symbol> cloned_symbols_;
|
|
|
|
/// Cloneable transform functions registered with ReplaceAll()
|
|
std::vector<CloneableTransform> transforms_;
|
|
|
|
/// Map of std::vector pointer to transforms for that list
|
|
std::unordered_map<const void*, ListTransforms> list_transforms_;
|
|
|
|
/// Symbol transform registered with ReplaceAll()
|
|
SymbolTransform symbol_transform_;
|
|
};
|
|
|
|
} // namespace tint
|
|
|
|
#endif // SRC_CLONE_CONTEXT_H_
|