| // Copyright 2021 The Tint Authors. |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #include "src/tint/ast/transform/localize_struct_array_assignment.h" |
| |
| #include <unordered_map> |
| #include <utility> |
| |
| #include "src/tint/ast/assignment_statement.h" |
| #include "src/tint/ast/transform/simplify_pointers.h" |
| #include "src/tint/ast/traverse_expressions.h" |
| #include "src/tint/program_builder.h" |
| #include "src/tint/sem/member_accessor_expression.h" |
| #include "src/tint/sem/statement.h" |
| #include "src/tint/sem/value_expression.h" |
| #include "src/tint/sem/variable.h" |
| #include "src/tint/type/reference.h" |
| #include "src/tint/utils/scoped_assignment.h" |
| |
| TINT_INSTANTIATE_TYPEINFO(tint::ast::transform::LocalizeStructArrayAssignment); |
| |
| namespace tint::ast::transform { |
| |
| /// PIMPL state for the transform |
| struct LocalizeStructArrayAssignment::State { |
| /// Constructor |
| /// @param program the source program |
| explicit State(const Program* program) : src(program) {} |
| |
| /// Runs the transform |
| /// @returns the new program or SkipTransform if the transform is not required |
| ApplyResult Run() { |
| struct Shared { |
| bool process_nested_nodes = false; |
| utils::Vector<const Statement*, 4> insert_before_stmts; |
| utils::Vector<const Statement*, 4> insert_after_stmts; |
| } s; |
| |
| bool made_changes = false; |
| |
| for (auto* node : ctx.src->ASTNodes().Objects()) { |
| if (auto* assign_stmt = node->As<AssignmentStatement>()) { |
| // Process if it's an assignment statement to a dynamically indexed array |
| // within a struct on a function or private storage variable. This |
| // specific use-case is what FXC fails to compile with: |
| // error X3500: array reference cannot be used as an l-value; not natively |
| // addressable |
| if (!ContainsStructArrayIndex(assign_stmt->lhs)) { |
| continue; |
| } |
| auto og = GetOriginatingTypeAndAddressSpace(assign_stmt); |
| if (!(og.first->Is<type::Struct>() && |
| (og.second == builtin::AddressSpace::kFunction || |
| og.second == builtin::AddressSpace::kPrivate))) { |
| continue; |
| } |
| |
| ctx.Replace(assign_stmt, [&, assign_stmt] { |
| // Reset shared state for this assignment statement |
| s = Shared{}; |
| |
| const Expression* new_lhs = nullptr; |
| { |
| TINT_SCOPED_ASSIGNMENT(s.process_nested_nodes, true); |
| new_lhs = ctx.Clone(assign_stmt->lhs); |
| } |
| |
| auto* new_assign_stmt = b.Assign(new_lhs, ctx.Clone(assign_stmt->rhs)); |
| |
| // Combine insert_before_stmts + new_assign_stmt + insert_after_stmts into |
| // a block and return it |
| auto stmts = std::move(s.insert_before_stmts); |
| stmts.Reserve(1 + s.insert_after_stmts.Length()); |
| stmts.Push(new_assign_stmt); |
| for (auto* stmt : s.insert_after_stmts) { |
| stmts.Push(stmt); |
| } |
| |
| return b.Block(std::move(stmts)); |
| }); |
| |
| made_changes = true; |
| } |
| } |
| |
| if (!made_changes) { |
| return SkipTransform; |
| } |
| |
| ctx.ReplaceAll([&](const IndexAccessorExpression* index_access) -> const Expression* { |
| if (!s.process_nested_nodes) { |
| return nullptr; |
| } |
| |
| // Indexing a member access expr? |
| auto* mem_access = index_access->object->As<MemberAccessorExpression>(); |
| if (!mem_access) { |
| return nullptr; |
| } |
| |
| // Process any nested IndexAccessorExpressions |
| mem_access = ctx.Clone(mem_access); |
| |
| // Store the address of the member access into a let as we need to read |
| // the value twice e.g. let tint_symbol = &(s.a1); |
| auto mem_access_ptr = b.Sym(); |
| s.insert_before_stmts.Push(b.Decl(b.Let(mem_access_ptr, b.AddressOf(mem_access)))); |
| |
| // Disable further transforms when cloning |
| TINT_SCOPED_ASSIGNMENT(s.process_nested_nodes, false); |
| |
| // Copy entire array out of struct into local temp var |
| // e.g. var tint_symbol_1 = *(tint_symbol); |
| auto tmp_var = b.Sym(); |
| s.insert_before_stmts.Push(b.Decl(b.Var(tmp_var, b.Deref(mem_access_ptr)))); |
| |
| // Replace input index_access with a clone of itself, but with its |
| // .object replaced by the new temp var. This is returned from this |
| // function to modify the original assignment statement. e.g. |
| // tint_symbol_1[uniforms.i] |
| auto* new_index_access = b.IndexAccessor(tmp_var, ctx.Clone(index_access->index)); |
| |
| // Assign temp var back to array |
| // e.g. *(tint_symbol) = tint_symbol_1; |
| auto* assign_rhs_to_temp = b.Assign(b.Deref(mem_access_ptr), tmp_var); |
| { |
| utils::Vector<const Statement*, 8> stmts{assign_rhs_to_temp}; |
| for (auto* stmt : s.insert_after_stmts) { |
| stmts.Push(stmt); |
| } |
| s.insert_after_stmts = std::move(stmts); |
| } |
| |
| return new_index_access; |
| }); |
| |
| ctx.Clone(); |
| return Program(std::move(b)); |
| } |
| |
| private: |
| /// The source program |
| const Program* const src; |
| /// The target program builder |
| ProgramBuilder b; |
| /// The clone context |
| CloneContext ctx = {&b, src, /* auto_clone_symbols */ true}; |
| |
| /// Returns true if `expr` contains an index accessor expression to a |
| /// structure member of array type. |
| bool ContainsStructArrayIndex(const Expression* expr) { |
| bool result = false; |
| TraverseExpressions(expr, b.Diagnostics(), [&](const IndexAccessorExpression* ia) { |
| // Indexing using a runtime value? |
| auto* idx_sem = src->Sem().GetVal(ia->index); |
| if (!idx_sem->ConstantValue()) { |
| // Indexing a member access expr? |
| if (auto* ma = ia->object->As<MemberAccessorExpression>()) { |
| // That accesses an array? |
| if (src->TypeOf(ma)->UnwrapRef()->Is<type::Array>()) { |
| result = true; |
| return TraverseAction::Stop; |
| } |
| } |
| } |
| return TraverseAction::Descend; |
| }); |
| |
| return result; |
| } |
| |
| // Returns the type and address space of the originating variable of the lhs |
| // of the assignment statement. |
| // See https://www.w3.org/TR/WGSL/#originating-variable-section |
| std::pair<const type::Type*, builtin::AddressSpace> GetOriginatingTypeAndAddressSpace( |
| const AssignmentStatement* assign_stmt) { |
| auto* root_ident = src->Sem().GetVal(assign_stmt->lhs)->RootIdentifier(); |
| if (TINT_UNLIKELY(!root_ident)) { |
| TINT_ICE(Transform, b.Diagnostics()) |
| << "Unable to determine originating variable for lhs of assignment " |
| "statement"; |
| return {}; |
| } |
| |
| return Switch( |
| root_ident->Type(), // |
| [&](const type::Reference* ref) { |
| return std::make_pair(ref->StoreType(), ref->AddressSpace()); |
| }, |
| [&](const type::Pointer* ptr) { |
| return std::make_pair(ptr->StoreType(), ptr->AddressSpace()); |
| }, |
| [&](Default) { |
| TINT_ICE(Transform, b.Diagnostics()) |
| << "Expecting to find variable of type pointer or reference on lhs " |
| "of assignment statement"; |
| return std::pair<const type::Type*, builtin::AddressSpace>{}; |
| }); |
| } |
| }; |
| |
| LocalizeStructArrayAssignment::LocalizeStructArrayAssignment() = default; |
| |
| LocalizeStructArrayAssignment::~LocalizeStructArrayAssignment() = default; |
| |
| Transform::ApplyResult LocalizeStructArrayAssignment::Apply(const Program* src, |
| const DataMap&, |
| DataMap&) const { |
| return State{src}.Run(); |
| } |
| |
| } // namespace tint::ast::transform |