lib/AST/Interp/ByteCodeExprGen.h - clang - Git at Google

 //===--- ByteCodeExprGen.h - Code generator for expressions -----*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // Defines the constexpr bytecode compiler.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_AST_INTERP_BYTECODEEXPRGEN_H
 #define LLVM_CLANG_AST_INTERP_BYTECODEEXPRGEN_H

 #include "ByteCodeEmitter.h"
 #include "EvalEmitter.h"
 #include "Pointer.h"
 #include "PrimType.h"
 #include "Record.h"
 #include "clang/AST/Decl.h"
 #include "clang/AST/Expr.h"
 #include "clang/AST/StmtVisitor.h"
 #include "llvm/ADT/Optional.h"

 namespace clang {
 class QualType;

 namespace interp {
 class Function;
 class State;

 template <class Emitter> class LocalScope;
 template <class Emitter> class RecordScope;
 template <class Emitter> class VariableScope;
 template <class Emitter> class DeclScope;
 template <class Emitter> class OptionScope;

 /// Compilation context for expressions.
 template <class Emitter>
 class ByteCodeExprGen : public ConstStmtVisitor<ByteCodeExprGen<Emitter>, bool>,
                         public Emitter {
 protected:
   // Emitters for opcodes of various arities.
   using NullaryFn = bool (ByteCodeExprGen::*)(const SourceInfo &);
   using UnaryFn = bool (ByteCodeExprGen::*)(PrimType, const SourceInfo &);
   using BinaryFn = bool (ByteCodeExprGen::*)(PrimType, PrimType,
                                              const SourceInfo &);

   // Aliases for types defined in the emitter.
   using LabelTy = typename Emitter::LabelTy;
   using AddrTy = typename Emitter::AddrTy;

   // Reference to a function generating the pointer of an initialized object.s
   using InitFnRef = std::function<bool()>;

   /// Current compilation context.
   Context &Ctx;
   /// Program to link to.
   Program &P;

 public:
   /// Initializes the compiler and the backend emitter.
   template <typename... Tys>
   ByteCodeExprGen(Context &Ctx, Program &P, Tys &&... Args)
       : Emitter(Ctx, P, Args...), Ctx(Ctx), P(P) {}

   // Expression visitors - result returned on stack.
   bool VisitCastExpr(const CastExpr *E);
   bool VisitIntegerLiteral(const IntegerLiteral *E);
   bool VisitParenExpr(const ParenExpr *E);
   bool VisitBinaryOperator(const BinaryOperator *E);

 protected:
   bool visitExpr(const Expr *E) override;
   bool visitDecl(const VarDecl *VD) override;

 protected:
   /// Emits scope cleanup instructions.
   void emitCleanup();

   /// Returns a record type from a record or pointer type.
   const RecordType *getRecordTy(QualType Ty);

   /// Returns a record from a record or pointer type.
   Record *getRecord(QualType Ty);
   Record *getRecord(const RecordDecl *RD);

   /// Returns the size int bits of an integer.
   unsigned getIntWidth(QualType Ty) {
     auto &ASTContext = Ctx.getASTContext();
     return ASTContext.getIntWidth(Ty);
   }

   /// Returns the value of CHAR_BIT.
   unsigned getCharBit() const {
     auto &ASTContext = Ctx.getASTContext();
     return ASTContext.getTargetInfo().getCharWidth();
   }

   /// Classifies a type.
   llvm::Optional<PrimType> classify(const Expr *E) const {
     return E->isGLValue() ? PT_Ptr : classify(E->getType());
   }
   llvm::Optional<PrimType> classify(QualType Ty) const {
     return Ctx.classify(Ty);
   }

   /// Checks if a pointer needs adjustment.
   bool needsAdjust(QualType Ty) const {
     return true;
   }

   /// Classifies a known primitive type
   PrimType classifyPrim(QualType Ty) const {
     if (auto T = classify(Ty)) {
       return *T;
     }
     llvm_unreachable("not a primitive type");
   }

   /// Evaluates an expression for side effects and discards the result.
   bool discard(const Expr *E);
   /// Evaluates an expression and places result on stack.
   bool visit(const Expr *E);
   /// Compiles an initializer for a local.
   bool visitInitializer(const Expr *E, InitFnRef GenPtr);

   /// Visits an expression and converts it to a boolean.
   bool visitBool(const Expr *E);

   /// Visits an initializer for a local.
   bool visitLocalInitializer(const Expr *Init, unsigned I) {
     return visitInitializer(Init, [this, I, Init] {
       return this->emitGetPtrLocal(I, Init);
     });
   }

   /// Visits an initializer for a global.
   bool visitGlobalInitializer(const Expr *Init, unsigned I) {
     return visitInitializer(Init, [this, I, Init] {
       return this->emitGetPtrGlobal(I, Init);
     });
   }

   /// Visits a delegated initializer.
   bool visitThisInitializer(const Expr *I) {
     return visitInitializer(I, [this, I] { return this->emitThis(I); });
   }

   /// Creates a local primitive value.
   unsigned allocateLocalPrimitive(DeclTy &&Decl, PrimType Ty, bool IsMutable,
                                   bool IsExtended = false);

   /// Allocates a space storing a local given its type.
   llvm::Optional<unsigned> allocateLocal(DeclTy &&Decl,
                                          bool IsExtended = false);

 private:
   friend class VariableScope<Emitter>;
   friend class LocalScope<Emitter>;
   friend class RecordScope<Emitter>;
   friend class DeclScope<Emitter>;
   friend class OptionScope<Emitter>;

   /// Emits a zero initializer.
   bool visitZeroInitializer(PrimType T, const Expr *E);

   enum class DerefKind {
     /// Value is read and pushed to stack.
     Read,
     /// Direct method generates a value which is written. Returns pointer.
     Write,
     /// Direct method receives the value, pushes mutated value. Returns pointer.
     ReadWrite,
   };

   /// Method to directly load a value. If the value can be fetched directly,
   /// the direct handler is called. Otherwise, a pointer is left on the stack
   /// and the indirect handler is expected to operate on that.
   bool dereference(const Expr *LV, DerefKind AK,
                    llvm::function_ref<bool(PrimType)> Direct,
                    llvm::function_ref<bool(PrimType)> Indirect);
   bool dereferenceParam(const Expr *LV, PrimType T, const ParmVarDecl *PD,
                         DerefKind AK,
                         llvm::function_ref<bool(PrimType)> Direct,
                         llvm::function_ref<bool(PrimType)> Indirect);
   bool dereferenceVar(const Expr *LV, PrimType T, const VarDecl *PD,
                       DerefKind AK, llvm::function_ref<bool(PrimType)> Direct,
                       llvm::function_ref<bool(PrimType)> Indirect);

   /// Emits an APInt constant.
   bool emitConst(PrimType T, unsigned NumBits, const llvm::APInt &Value,
                  const Expr *E);

   /// Emits an integer constant.
   template <typename T> bool emitConst(const Expr *E, T Value) {
     QualType Ty = E->getType();
     unsigned NumBits = getIntWidth(Ty);
     APInt WrappedValue(NumBits, Value, std::is_signed<T>::value);
     return emitConst(*Ctx.classify(Ty), NumBits, WrappedValue, E);
   }

   /// Returns a pointer to a variable declaration.
   bool getPtrVarDecl(const VarDecl *VD, const Expr *E);

   /// Returns the index of a global.
   llvm::Optional<unsigned> getGlobalIdx(const VarDecl *VD);

   /// Emits the initialized pointer.
   bool emitInitFn() {
     assert(InitFn && "missing initializer");
     return (*InitFn)();
   }

 protected:
   /// Variable to storage mapping.
   llvm::DenseMap<const ValueDecl *, Scope::Local> Locals;

   /// OpaqueValueExpr to location mapping.
   llvm::DenseMap<const OpaqueValueExpr *, unsigned> OpaqueExprs;

   /// Current scope.
   VariableScope<Emitter> *VarScope = nullptr;

   /// Current argument index.
   llvm::Optional<uint64_t> ArrayIndex;

   /// Flag indicating if return value is to be discarded.
   bool DiscardResult = false;

   /// Expression being initialized.
   llvm::Optional<InitFnRef> InitFn = {};
 };

 extern template class ByteCodeExprGen<ByteCodeEmitter>;
 extern template class ByteCodeExprGen<EvalEmitter>;

 /// Scope chain managing the variable lifetimes.
 template <class Emitter> class VariableScope {
 public:
   virtual ~VariableScope() { Ctx->VarScope = this->Parent; }

   void add(const Scope::Local &Local, bool IsExtended) {
     if (IsExtended)
       this->addExtended(Local);
     else
       this->addLocal(Local);
   }

   virtual void addLocal(const Scope::Local &Local) {
     if (this->Parent)
       this->Parent->addLocal(Local);
   }

   virtual void addExtended(const Scope::Local &Local) {
     if (this->Parent)
       this->Parent->addExtended(Local);
   }

   virtual void emitDestruction() {}

   VariableScope *getParent() { return Parent; }

 protected:
   VariableScope(ByteCodeExprGen<Emitter> *Ctx)
       : Ctx(Ctx), Parent(Ctx->VarScope) {
     Ctx->VarScope = this;
   }

   /// ByteCodeExprGen instance.
   ByteCodeExprGen<Emitter> *Ctx;
   /// Link to the parent scope.
   VariableScope *Parent;
 };

 /// Scope for local variables.
 ///
 /// When the scope is destroyed, instructions are emitted to tear down
 /// all variables declared in this scope.
 template <class Emitter> class LocalScope : public VariableScope<Emitter> {
 public:
   LocalScope(ByteCodeExprGen<Emitter> *Ctx) : VariableScope<Emitter>(Ctx) {}

   ~LocalScope() override { this->emitDestruction(); }

   void addLocal(const Scope::Local &Local) override {
     if (!Idx.hasValue()) {
       Idx = this->Ctx->Descriptors.size();
       this->Ctx->Descriptors.emplace_back();
     }

     this->Ctx->Descriptors[*Idx].emplace_back(Local);
   }

   void emitDestruction() override {
     if (!Idx.hasValue())
       return;
     this->Ctx->emitDestroy(*Idx, SourceInfo{});
   }

 protected:
   /// Index of the scope in the chain.
   Optional<unsigned> Idx;
 };

 /// Scope for storage declared in a compound statement.
 template <class Emitter> class BlockScope final : public LocalScope<Emitter> {
 public:
   BlockScope(ByteCodeExprGen<Emitter> *Ctx) : LocalScope<Emitter>(Ctx) {}

   void addExtended(const Scope::Local &Local) override {
     llvm_unreachable("Cannot create temporaries in full scopes");
   }
 };

 /// Expression scope which tracks potentially lifetime extended
 /// temporaries which are hoisted to the parent scope on exit.
 template <class Emitter> class ExprScope final : public LocalScope<Emitter> {
 public:
   ExprScope(ByteCodeExprGen<Emitter> *Ctx) : LocalScope<Emitter>(Ctx) {}

   void addExtended(const Scope::Local &Local) override {
     this->Parent->addLocal(Local);
   }
 };

 } // namespace interp
 } // namespace clang

 #endif
	//===--- ByteCodeExprGen.h - Code generator for expressions ------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// Defines the constexpr bytecode compiler.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_AST_INTERP_BYTECODEEXPRGEN_H
	#define LLVM_CLANG_AST_INTERP_BYTECODEEXPRGEN_H

	#include "ByteCodeEmitter.h"
	#include "EvalEmitter.h"
	#include "Pointer.h"
	#include "PrimType.h"
	#include "Record.h"
	#include "clang/AST/Decl.h"
	#include "clang/AST/Expr.h"
	#include "clang/AST/StmtVisitor.h"
	#include "llvm/ADT/Optional.h"

	namespace clang {
	class QualType;

	namespace interp {
	class Function;
	class State;

	template <class Emitter> class LocalScope;
	template <class Emitter> class RecordScope;
	template <class Emitter> class VariableScope;
	template <class Emitter> class DeclScope;
	template <class Emitter> class OptionScope;

	/// Compilation context for expressions.
	template <class Emitter>
	class ByteCodeExprGen : public ConstStmtVisitor<ByteCodeExprGen<Emitter>, bool>,
	public Emitter {
	protected:
	// Emitters for opcodes of various arities.
	using NullaryFn = bool (ByteCodeExprGen::*)(const SourceInfo &);
	using UnaryFn = bool (ByteCodeExprGen::*)(PrimType, const SourceInfo &);
	using BinaryFn = bool (ByteCodeExprGen::*)(PrimType, PrimType,
	const SourceInfo &);

	// Aliases for types defined in the emitter.
	using LabelTy = typename Emitter::LabelTy;
	using AddrTy = typename Emitter::AddrTy;

	// Reference to a function generating the pointer of an initialized object.s
	using InitFnRef = std::function<bool()>;

	/// Current compilation context.
	Context &Ctx;
	/// Program to link to.
	Program &P;

	public:
	/// Initializes the compiler and the backend emitter.
	template <typename... Tys>
	ByteCodeExprGen(Context &Ctx, Program &P, Tys &&... Args)
	: Emitter(Ctx, P, Args...), Ctx(Ctx), P(P) {}

	// Expression visitors - result returned on stack.
	bool VisitCastExpr(const CastExpr *E);
	bool VisitIntegerLiteral(const IntegerLiteral *E);
	bool VisitParenExpr(const ParenExpr *E);
	bool VisitBinaryOperator(const BinaryOperator *E);

	protected:
	bool visitExpr(const Expr *E) override;
	bool visitDecl(const VarDecl *VD) override;

	protected:
	/// Emits scope cleanup instructions.
	void emitCleanup();

	/// Returns a record type from a record or pointer type.
	const RecordType *getRecordTy(QualType Ty);

	/// Returns a record from a record or pointer type.
	Record *getRecord(QualType Ty);
	Record getRecord(const RecordDecl RD);

	/// Returns the size int bits of an integer.
	unsigned getIntWidth(QualType Ty) {
	auto &ASTContext = Ctx.getASTContext();
	return ASTContext.getIntWidth(Ty);
	}

	/// Returns the value of CHAR_BIT.
	unsigned getCharBit() const {
	auto &ASTContext = Ctx.getASTContext();
	return ASTContext.getTargetInfo().getCharWidth();
	}

	/// Classifies a type.
	llvm::Optional<PrimType> classify(const Expr *E) const {
	return E->isGLValue() ? PT_Ptr : classify(E->getType());
	}
	llvm::Optional<PrimType> classify(QualType Ty) const {
	return Ctx.classify(Ty);
	}

	/// Checks if a pointer needs adjustment.
	bool needsAdjust(QualType Ty) const {
	return true;
	}

	/// Classifies a known primitive type
	PrimType classifyPrim(QualType Ty) const {
	if (auto T = classify(Ty)) {
	return *T;
	}
	llvm_unreachable("not a primitive type");
	}

	/// Evaluates an expression for side effects and discards the result.
	bool discard(const Expr *E);
	/// Evaluates an expression and places result on stack.
	bool visit(const Expr *E);
	/// Compiles an initializer for a local.
	bool visitInitializer(const Expr *E, InitFnRef GenPtr);

	/// Visits an expression and converts it to a boolean.
	bool visitBool(const Expr *E);

	/// Visits an initializer for a local.
	bool visitLocalInitializer(const Expr *Init, unsigned I) {
	return visitInitializer(Init, [this, I, Init] {
	return this->emitGetPtrLocal(I, Init);
	});
	}

	/// Visits an initializer for a global.
	bool visitGlobalInitializer(const Expr *Init, unsigned I) {
	return visitInitializer(Init, [this, I, Init] {
	return this->emitGetPtrGlobal(I, Init);
	});
	}

	/// Visits a delegated initializer.
	bool visitThisInitializer(const Expr *I) {
	return visitInitializer(I, [this, I] { return this->emitThis(I); });
	}

	/// Creates a local primitive value.
	unsigned allocateLocalPrimitive(DeclTy &&Decl, PrimType Ty, bool IsMutable,
	bool IsExtended = false);

	/// Allocates a space storing a local given its type.
	llvm::Optional<unsigned> allocateLocal(DeclTy &&Decl,
	bool IsExtended = false);

	private:
	friend class VariableScope<Emitter>;
	friend class LocalScope<Emitter>;
	friend class RecordScope<Emitter>;
	friend class DeclScope<Emitter>;
	friend class OptionScope<Emitter>;

	/// Emits a zero initializer.
	bool visitZeroInitializer(PrimType T, const Expr *E);

	enum class DerefKind {
	/// Value is read and pushed to stack.
	Read,
	/// Direct method generates a value which is written. Returns pointer.
	Write,
	/// Direct method receives the value, pushes mutated value. Returns pointer.
	ReadWrite,
	};

	/// Method to directly load a value. If the value can be fetched directly,
	/// the direct handler is called. Otherwise, a pointer is left on the stack
	/// and the indirect handler is expected to operate on that.
	bool dereference(const Expr *LV, DerefKind AK,
	llvm::function_ref<bool(PrimType)> Direct,
	llvm::function_ref<bool(PrimType)> Indirect);
	bool dereferenceParam(const Expr LV, PrimType T, const ParmVarDecl PD,
	DerefKind AK,
	llvm::function_ref<bool(PrimType)> Direct,
	llvm::function_ref<bool(PrimType)> Indirect);
	bool dereferenceVar(const Expr LV, PrimType T, const VarDecl PD,
	DerefKind AK, llvm::function_ref<bool(PrimType)> Direct,
	llvm::function_ref<bool(PrimType)> Indirect);

	/// Emits an APInt constant.
	bool emitConst(PrimType T, unsigned NumBits, const llvm::APInt &Value,
	const Expr *E);

	/// Emits an integer constant.
	template <typename T> bool emitConst(const Expr *E, T Value) {
	QualType Ty = E->getType();
	unsigned NumBits = getIntWidth(Ty);
	APInt WrappedValue(NumBits, Value, std::is_signed<T>::value);
	return emitConst(*Ctx.classify(Ty), NumBits, WrappedValue, E);
	}

	/// Returns a pointer to a variable declaration.
	bool getPtrVarDecl(const VarDecl VD, const Expr E);

	/// Returns the index of a global.
	llvm::Optional<unsigned> getGlobalIdx(const VarDecl *VD);

	/// Emits the initialized pointer.
	bool emitInitFn() {
	assert(InitFn && "missing initializer");
	return (*InitFn)();
	}

	protected:
	/// Variable to storage mapping.
	llvm::DenseMap<const ValueDecl *, Scope::Local> Locals;

	/// OpaqueValueExpr to location mapping.
	llvm::DenseMap<const OpaqueValueExpr *, unsigned> OpaqueExprs;

	/// Current scope.
	VariableScope<Emitter> *VarScope = nullptr;

	/// Current argument index.
	llvm::Optional<uint64_t> ArrayIndex;

	/// Flag indicating if return value is to be discarded.
	bool DiscardResult = false;

	/// Expression being initialized.
	llvm::Optional<InitFnRef> InitFn = {};
	};

	extern template class ByteCodeExprGen<ByteCodeEmitter>;
	extern template class ByteCodeExprGen<EvalEmitter>;

	/// Scope chain managing the variable lifetimes.
	template <class Emitter> class VariableScope {
	public:
	virtual ~VariableScope() { Ctx->VarScope = this->Parent; }

	void add(const Scope::Local &Local, bool IsExtended) {
	if (IsExtended)
	this->addExtended(Local);
	else
	this->addLocal(Local);
	}

	virtual void addLocal(const Scope::Local &Local) {
	if (this->Parent)
	this->Parent->addLocal(Local);
	}

	virtual void addExtended(const Scope::Local &Local) {
	if (this->Parent)
	this->Parent->addExtended(Local);
	}

	virtual void emitDestruction() {}

	VariableScope *getParent() { return Parent; }

	protected:
	VariableScope(ByteCodeExprGen<Emitter> *Ctx)
	: Ctx(Ctx), Parent(Ctx->VarScope) {
	Ctx->VarScope = this;
	}

	/// ByteCodeExprGen instance.
	ByteCodeExprGen<Emitter> *Ctx;
	/// Link to the parent scope.
	VariableScope *Parent;
	};

	/// Scope for local variables.
	///
	/// When the scope is destroyed, instructions are emitted to tear down
	/// all variables declared in this scope.
	template <class Emitter> class LocalScope : public VariableScope<Emitter> {
	public:
	LocalScope(ByteCodeExprGen<Emitter> *Ctx) : VariableScope<Emitter>(Ctx) {}

	~LocalScope() override { this->emitDestruction(); }

	void addLocal(const Scope::Local &Local) override {
	if (!Idx.hasValue()) {
	Idx = this->Ctx->Descriptors.size();
	this->Ctx->Descriptors.emplace_back();
	}

	this->Ctx->Descriptors[*Idx].emplace_back(Local);
	}

	void emitDestruction() override {
	if (!Idx.hasValue())
	return;
	this->Ctx->emitDestroy(*Idx, SourceInfo{});
	}

	protected:
	/// Index of the scope in the chain.
	Optional<unsigned> Idx;
	};

	/// Scope for storage declared in a compound statement.
	template <class Emitter> class BlockScope final : public LocalScope<Emitter> {
	public:
	BlockScope(ByteCodeExprGen<Emitter> *Ctx) : LocalScope<Emitter>(Ctx) {}

	void addExtended(const Scope::Local &Local) override {
	llvm_unreachable("Cannot create temporaries in full scopes");
	}
	};

	/// Expression scope which tracks potentially lifetime extended
	/// temporaries which are hoisted to the parent scope on exit.
	template <class Emitter> class ExprScope final : public LocalScope<Emitter> {
	public:
	ExprScope(ByteCodeExprGen<Emitter> *Ctx) : LocalScope<Emitter>(Ctx) {}

	void addExtended(const Scope::Local &Local) override {
	this->Parent->addLocal(Local);
	}
	};

	} // namespace interp
	} // namespace clang

	#endif