WebAssembly.cpp source code [clang/lib/CodeGen/Targets/WebAssembly.cpp]

1	//===- WebAssembly.cpp ----------------------------------------------------===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8
9	#include "ABIInfoImpl.h"
10	#include "TargetInfo.h"
11
12	using namespace clang;
13	using namespace clang::CodeGen;
14
15	//===----------------------------------------------------------------------===//
16	// WebAssembly ABI Implementation
17	//
18	// This is a very simple ABI that relies a lot on DefaultABIInfo.
19	//===----------------------------------------------------------------------===//
20
21	class WebAssemblyABIInfo final : public ABIInfo {
22	DefaultABIInfo defaultInfo;
23	WebAssemblyABIKind Kind;
24
25	public:
26	explicit WebAssemblyABIInfo(CodeGen::CodeGenTypes &CGT,
27	WebAssemblyABIKind Kind)
28	: ABIInfo (CGT), defaultInfo (CGT), Kind(Kind) {}
29
30	private:
31	ABIArgInfo classifyReturnType(QualType RetTy) const;
32	ABIArgInfo classifyArgumentType(QualType Ty) const;
33
34	// DefaultABIInfo's classifyReturnType and classifyArgumentType are
35	// non-virtual, but computeInfo and EmitVAArg are virtual, so we
36	// overload them.
37	void computeInfo(CGFunctionInfo &FI) const override {
38	if (!getCXXABI().classifyReturnType(FI))
39	FI.getReturnInfo() = classifyReturnType(RetTy: FI.getReturnType());
40	for (auto &Arg : FI.arguments())
41	Arg.info = classifyArgumentType(Ty: Arg.type);
42	}
43
44	Address EmitVAArg(CodeGenFunction &CGF, Address VAListAddr,
45	QualType Ty) const override;
46	};
47
48	class WebAssemblyTargetCodeGenInfo final : public TargetCodeGenInfo {
49	public:
50	explicit WebAssemblyTargetCodeGenInfo(CodeGen::CodeGenTypes &CGT,
51	WebAssemblyABIKind K)
52	: TargetCodeGenInfo (std::make_unique<WebAssemblyABIInfo>(args&: CGT, args&: K)) {
53	SwiftInfo =
54	std::make_unique<SwiftABIInfo>(args&: CGT, /SwiftErrorInRegister=/args: false);
55	}
56
57	void setTargetAttributes(const Decl D, llvm::GlobalValue GV,
58	CodeGen::CodeGenModule &CGM) const override {
59	TargetCodeGenInfo::setTargetAttributes(D, GV, M&: CGM);
60	if (const auto *FD = dyn_cast_or_null<FunctionDecl>(Val: D)) {
61	if (const auto *Attr = FD->getAttr<WebAssemblyImportModuleAttr>()) {
62	llvm::Function *Fn = cast<llvm::Function>(Val: GV);
63	llvm::AttrBuilder B(GV->getContext());
64	B.addAttribute("wasm-import-module", Attr->getImportModule());
65	Fn->addFnAttrs(Attrs: B);
66	}
67	if (const auto *Attr = FD->getAttr<WebAssemblyImportNameAttr>()) {
68	llvm::Function *Fn = cast<llvm::Function>(Val: GV);
69	llvm::AttrBuilder B(GV->getContext());
70	B.addAttribute("wasm-import-name", Attr->getImportName());
71	Fn->addFnAttrs(Attrs: B);
72	}
73	if (const auto *Attr = FD->getAttr<WebAssemblyExportNameAttr>()) {
74	llvm::Function *Fn = cast<llvm::Function>(Val: GV);
75	llvm::AttrBuilder B(GV->getContext());
76	B.addAttribute("wasm-export-name", Attr->getExportName());
77	Fn->addFnAttrs(Attrs: B);
78	}
79	}
80
81	if (auto *FD = dyn_cast_or_null<FunctionDecl>(Val: D)) {
82	llvm::Function *Fn = cast<llvm::Function>(Val: GV);
83	if (!FD->doesThisDeclarationHaveABody() && !FD->hasPrototype())
84	Fn->addFnAttr(Kind: "no-prototype");
85	}
86	}
87
88	/// Return the WebAssembly externref reference type.
89	virtual llvm::Type getWasmExternrefReferenceType() const* override {
90	return llvm::Type::getWasm_ExternrefTy(C&: getABIInfo().getVMContext());
91	}
92	/// Return the WebAssembly funcref reference type.
93	virtual llvm::Type getWasmFuncrefReferenceType() const* override {
94	return llvm::Type::getWasm_FuncrefTy(C&: getABIInfo().getVMContext());
95	}
96	};
97
98	/// Classify argument of given type \p Ty.
99	ABIArgInfo WebAssemblyABIInfo::classifyArgumentType(QualType Ty) const {
100	Ty = useFirstFieldIfTransparentUnion(Ty);
101
102	if (isAggregateTypeForABI(T: Ty)) {
103	// Records with non-trivial destructors/copy-constructors should not be
104	// passed by value.
105	if (auto RAA = getRecordArgABI(T: Ty, CXXABI&: getCXXABI()))
106	return getNaturalAlignIndirect(Ty, ByVal: RAA == CGCXXABI::RAA_DirectInMemory);
107	// Ignore empty structs/unions.
108	if (isEmptyRecord(Context&: getContext(), T: Ty, AllowArrays: true))
109	return ABIArgInfo::getIgnore();
110	// Lower single-element structs to just pass a regular value. TODO: We
111	// could do reasonable-size multiple-element structs too, using getExpand(),
112	// though watch out for things like bitfields.
113	if (const Type *SeltTy = isSingleElementStruct(T: Ty, Context&: getContext()))
114	return ABIArgInfo::getDirect(T: CGT.ConvertType(T: QualType (SeltTy, `0`)));
115	// For the experimental multivalue ABI, fully expand all other aggregates
116	if (Kind == WebAssemblyABIKind::ExperimentalMV) {
117	const RecordType *RT = Ty ->getAs<RecordType>();
118	assert(RT);
119	bool HasBitField = false;
120	for (auto *Field : RT->getDecl()->fields()) {
121	if (Field->isBitField()) {
122	HasBitField = true;
123	break;
124	}
125	}
126	if (!HasBitField)
127	return ABIArgInfo::getExpand();
128	}
129	}
130
131	// Otherwise just do the default thing.
132	return defaultInfo.classifyArgumentType(RetTy: Ty);
133	}
134
135	ABIArgInfo WebAssemblyABIInfo::classifyReturnType(QualType RetTy) const {
136	if (isAggregateTypeForABI(T: RetTy)) {
137	// Records with non-trivial destructors/copy-constructors should not be
138	// returned by value.
139	if (!getRecordArgABI(T: RetTy, CXXABI&: getCXXABI())) {
140	// Ignore empty structs/unions.
141	if (isEmptyRecord(Context&: getContext(), T: RetTy, AllowArrays: true))
142	return ABIArgInfo::getIgnore();
143	// Lower single-element structs to just return a regular value. TODO: We
144	// could do reasonable-size multiple-element structs too, using
145	// ABIArgInfo::getDirect().
146	if (const Type *SeltTy = isSingleElementStruct(T: RetTy, Context&: getContext()))
147	return ABIArgInfo::getDirect(T: CGT.ConvertType(T: QualType (SeltTy, `0`)));
148	// For the experimental multivalue ABI, return all other aggregates
149	if (Kind == WebAssemblyABIKind::ExperimentalMV)
150	return ABIArgInfo::getDirect();
151	}
152	}
153
154	// Otherwise just do the default thing.
155	return defaultInfo.classifyReturnType(RetTy);
156	}
157
158	Address WebAssemblyABIInfo::EmitVAArg(CodeGenFunction &CGF, Address VAListAddr,
159	QualType Ty) const {
160	bool IsIndirect = isAggregateTypeForABI(T: Ty) &&
161	!isEmptyRecord(Context&: getContext(), T: Ty, AllowArrays: true) &&
162	!isSingleElementStruct(T: Ty, Context&: getContext());
163	return emitVoidPtrVAArg(CGF, VAListAddr, ValueTy: Ty, IsIndirect,
164	ValueInfo: getContext().getTypeInfoInChars(T: Ty),
165	SlotSizeAndAlign: CharUnits::fromQuantity(Quantity: `4`),
166	/AllowHigherAlign=/true);
167	}
168
169	std::unique_ptr<TargetCodeGenInfo>
170	CodeGen::createWebAssemblyTargetCodeGenInfo(CodeGenModule &CGM,
171	WebAssemblyABIKind K) {
172	return std::make_unique<WebAssemblyTargetCodeGenInfo>(args&: CGM.getTypes(), args&: K);
173	}
174

source code of clang/lib/CodeGen/Targets/WebAssembly.cpp