// Part of the Carbon Language project, under the Apache License v2.0 with LLVM // Exceptions. See /LICENSE for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception #include "toolchain/lowering/lowering_context.h" #include "common/vlog.h" #include "toolchain/semantics/semantics_ir.h" #include "toolchain/semantics/semantics_node_kind.h" namespace Carbon { LoweringContext::LoweringContext(llvm::LLVMContext& llvm_context, llvm::StringRef module_name, const SemanticsIR& semantics_ir, llvm::raw_ostream* vlog_stream) : llvm_context_(&llvm_context), llvm_module_(std::make_unique(module_name, llvm_context)), builder_(llvm_context), semantics_ir_(&semantics_ir), vlog_stream_(vlog_stream), nodes_(semantics_ir_->nodes_size(), nullptr), callables_(semantics_ir_->callables_size(), nullptr) { CARBON_CHECK(!semantics_ir.has_errors()) << "Generating LLVM IR from invalid SemanticsIR is unsupported."; auto types = semantics_ir_->types(); types_.resize_for_overwrite(types.size()); for (int i = 0; i < static_cast(types.size()); ++i) { types_[i] = BuildType(types[i]); } } auto LoweringContext::Run() -> std::unique_ptr { CARBON_CHECK(llvm_module_) << "Run can only be called once."; LowerBlock(semantics_ir_->top_node_block_id()); while (!todo_blocks_.empty()) { auto [llvm_block, block_id] = todo_blocks_.pop_back_val(); builder_.SetInsertPoint(llvm_block); LowerBlock(block_id); } return std::move(llvm_module_); } auto LoweringContext::LowerBlock(SemanticsNodeBlockId block_id) -> void { CARBON_VLOG() << "Lowering " << block_id << "\n"; for (const auto& node_id : semantics_ir_->GetNodeBlock(block_id)) { auto node = semantics_ir_->GetNode(node_id); CARBON_VLOG() << "Lowering " << node_id << ": " << node << "\n"; switch (node.kind()) { #define CARBON_SEMANTICS_NODE_KIND(Name) \ case SemanticsNodeKind::Name: \ LoweringHandle##Name(*this, node_id, node); \ break; #include "toolchain/semantics/semantics_node_kind.def" } } } auto LoweringContext::BuildType(SemanticsNodeId node_id) -> llvm::Type* { switch (node_id.index) { case SemanticsBuiltinKind::EmptyTupleType.AsInt(): // Represent empty types as empty structs. // TODO: Investigate special-casing handling of these so that they can be // collectively replaced with LLVM's void, particularly around function // returns. LLVM doesn't allow declaring variables with a void type, so // that may require significant special casing. return llvm::StructType::create( *llvm_context_, llvm::ArrayRef(), SemanticsBuiltinKind::FromInt(node_id.index).name()); case SemanticsBuiltinKind::FloatingPointType.AsInt(): // TODO: Handle different sizes. return builder_.getDoubleTy(); case SemanticsBuiltinKind::IntegerType.AsInt(): // TODO: Handle different sizes. return builder_.getInt32Ty(); } auto node = semantics_ir_->GetNode(node_id); switch (node.kind()) { case SemanticsNodeKind::StructType: { auto refs = semantics_ir_->GetNodeBlock(node.GetAsStructType()); llvm::SmallVector subtypes; subtypes.reserve(refs.size()); for (auto ref_id : refs) { auto type_id = semantics_ir_->GetNode(ref_id).type_id(); // TODO: Handle recursive types. The restriction for builtins prevents // recursion while still letting them cache. CARBON_CHECK(type_id.index < SemanticsBuiltinKind::ValidCount) << type_id; subtypes.push_back(GetType(type_id)); } return llvm::StructType::create(*llvm_context_, subtypes, "StructLiteralType"); } default: { CARBON_FATAL() << "Cannot use node as type: " << node_id; } } } auto LoweringContext::GetNodeLoaded(SemanticsNodeId node_id) -> llvm::Value* { auto* value = GetNode(node_id); if (llvm::isa(value)) { auto* load_type = GetType(semantics_ir().GetNode(node_id).type_id()); return builder().CreateLoad(load_type, value); } else { // No load is needed. return value; } } } // namespace Carbon