linux-x86/include/llvm/CodeGen/GCMetadata.h - platform/prebuilts/android-emulator-build/mesa-deps - Git at Google

 //===-- GCMetadata.h - Garbage collector metadata ---------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares the GCFunctionInfo and GCModuleInfo classes, which are
 // used as a communication channel from the target code generator to the target
 // garbage collectors. This interface allows code generators and garbage
 // collectors to be developed independently.
 //
 // The GCFunctionInfo class logs the data necessary to build a type accurate
 // stack map. The code generator outputs:
 //
 //   - Safe points as specified by the GCStrategy's NeededSafePoints.
 //   - Stack offsets for GC roots, as specified by calls to llvm.gcroot
 //
 // As a refinement, liveness analysis calculates the set of live roots at each
 // safe point. Liveness analysis is not presently performed by the code
 // generator, so all roots are assumed live.
 //
 // GCModuleInfo simply collects GCFunctionInfo instances for each Function as
 // they are compiled. This accretion is necessary for collectors which must emit
 // a stack map for the compilation unit as a whole. Therefore, GCFunctionInfo
 // outlives the MachineFunction from which it is derived and must not refer to
 // any code generator data structures.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CODEGEN_GCMETADATA_H
 #define LLVM_CODEGEN_GCMETADATA_H

 #include "llvm/ADT/DenseMap.h"
 #include "llvm/ADT/StringMap.h"
 #include "llvm/IR/DebugLoc.h"
 #include "llvm/Pass.h"

 #include <memory>

 namespace llvm {
   class AsmPrinter;
   class GCStrategy;
   class Constant;
   class MCSymbol;

   namespace GC {
     /// PointKind - The type of a collector-safe point.
     ///
     enum PointKind {
       Loop,    ///< Instr is a loop (backwards branch).
       Return,  ///< Instr is a return instruction.
       PreCall, ///< Instr is a call instruction.
       PostCall ///< Instr is the return address of a call.
     };
   }

   /// GCPoint - Metadata for a collector-safe point in machine code.
   ///
   struct GCPoint {
     GC::PointKind Kind; ///< The kind of the safe point.
     MCSymbol *Label;    ///< A label.
     DebugLoc Loc;

     GCPoint(GC::PointKind K, MCSymbol *L, DebugLoc DL)
         : Kind(K), Label(L), Loc(DL) {}
   };

   /// GCRoot - Metadata for a pointer to an object managed by the garbage
   /// collector.
   struct GCRoot {
     int Num;            ///< Usually a frame index.
     int StackOffset;    ///< Offset from the stack pointer.
     const Constant *Metadata; ///< Metadata straight from the call
                               ///< to llvm.gcroot.

     GCRoot(int N, const Constant *MD) : Num(N), StackOffset(-1), Metadata(MD) {}
   };


   /// GCFunctionInfo - Garbage collection metadata for a single function.
   ///
   class GCFunctionInfo {
   public:
     typedef std::vector<GCPoint>::iterator iterator;
     typedef std::vector<GCRoot>::iterator roots_iterator;
     typedef std::vector<GCRoot>::const_iterator live_iterator;

   private:
     const Function &F;
     GCStrategy &S;
     uint64_t FrameSize;
     std::vector<GCRoot> Roots;
     std::vector<GCPoint> SafePoints;

     // FIXME: Liveness. A 2D BitVector, perhaps?
     //
     //   BitVector Liveness;
     //
     //   bool islive(int point, int root) =
     //     Liveness[point * SafePoints.size() + root]
     //
     // The bit vector is the more compact representation where >3.2% of roots
     // are live per safe point (1.5% on 64-bit hosts).

   public:
     GCFunctionInfo(const Function &F, GCStrategy &S);
     ~GCFunctionInfo();

     /// getFunction - Return the function to which this metadata applies.
     ///
     const Function &getFunction() const { return F; }

     /// getStrategy - Return the GC strategy for the function.
     ///
     GCStrategy &getStrategy() { return S; }

     /// addStackRoot - Registers a root that lives on the stack. Num is the
     ///                stack object ID for the alloca (if the code generator is
     //                 using  MachineFrameInfo).
     void addStackRoot(int Num, const Constant *Metadata) {
       Roots.push_back(GCRoot(Num, Metadata));
     }

     /// removeStackRoot - Removes a root.
     roots_iterator removeStackRoot(roots_iterator position) {
       return Roots.erase(position);
     }

     /// addSafePoint - Notes the existence of a safe point. Num is the ID of the
     /// label just prior to the safe point (if the code generator is using
     /// MachineModuleInfo).
     void addSafePoint(GC::PointKind Kind, MCSymbol *Label, DebugLoc DL) {
       SafePoints.push_back(GCPoint(Kind, Label, DL));
     }

     /// getFrameSize/setFrameSize - Records the function's frame size.
     ///
     uint64_t getFrameSize() const { return FrameSize; }
     void setFrameSize(uint64_t S) { FrameSize = S; }

     /// begin/end - Iterators for safe points.
     ///
     iterator begin() { return SafePoints.begin(); }
     iterator end()   { return SafePoints.end();   }
     size_t size() const { return SafePoints.size(); }

     /// roots_begin/roots_end - Iterators for all roots in the function.
     ///
     roots_iterator roots_begin() { return Roots.begin(); }
     roots_iterator roots_end  () { return Roots.end();   }
     size_t roots_size() const { return Roots.size(); }

     /// live_begin/live_end - Iterators for live roots at a given safe point.
     ///
     live_iterator live_begin(const iterator &p) { return roots_begin(); }
     live_iterator live_end  (const iterator &p) { return roots_end();   }
     size_t live_size(const iterator &p) const { return roots_size(); }
   };


   /// GCModuleInfo - Garbage collection metadata for a whole module.
   ///
   class GCModuleInfo : public ImmutablePass {
     typedef StringMap<GCStrategy*> strategy_map_type;
     typedef std::vector<std::unique_ptr<GCStrategy>> list_type;
     typedef DenseMap<const Function*,GCFunctionInfo*> finfo_map_type;

     strategy_map_type StrategyMap;
     list_type StrategyList;
     finfo_map_type FInfoMap;

     GCStrategy *getOrCreateStrategy(const Module *M, const std::string &Name);

   public:
     typedef list_type::const_iterator iterator;

     static char ID;

     GCModuleInfo();

     /// clear - Resets the pass. Any pass, which uses GCModuleInfo, should
     /// call it in doFinalization().
     ///
     void clear();

     /// begin/end - Iterators for used strategies.
     ///
     iterator begin() const { return StrategyList.begin(); }
     iterator end()   const { return StrategyList.end();   }

     /// get - Look up function metadata.
     ///
     GCFunctionInfo &getFunctionInfo(const Function &F);
   };

 }

 #endif
	//===-- GCMetadata.h - Garbage collector metadata ---------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares the GCFunctionInfo and GCModuleInfo classes, which are
	// used as a communication channel from the target code generator to the target
	// garbage collectors. This interface allows code generators and garbage
	// collectors to be developed independently.
	//
	// The GCFunctionInfo class logs the data necessary to build a type accurate
	// stack map. The code generator outputs:
	//
	// - Safe points as specified by the GCStrategy's NeededSafePoints.
	// - Stack offsets for GC roots, as specified by calls to llvm.gcroot
	//
	// As a refinement, liveness analysis calculates the set of live roots at each
	// safe point. Liveness analysis is not presently performed by the code
	// generator, so all roots are assumed live.
	//
	// GCModuleInfo simply collects GCFunctionInfo instances for each Function as
	// they are compiled. This accretion is necessary for collectors which must emit
	// a stack map for the compilation unit as a whole. Therefore, GCFunctionInfo
	// outlives the MachineFunction from which it is derived and must not refer to
	// any code generator data structures.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CODEGEN_GCMETADATA_H
	#define LLVM_CODEGEN_GCMETADATA_H

	#include "llvm/ADT/DenseMap.h"
	#include "llvm/ADT/StringMap.h"
	#include "llvm/IR/DebugLoc.h"
	#include "llvm/Pass.h"

	#include <memory>

	namespace llvm {
	class AsmPrinter;
	class GCStrategy;
	class Constant;
	class MCSymbol;

	namespace GC {
	/// PointKind - The type of a collector-safe point.
	///
	enum PointKind {
	Loop, ///< Instr is a loop (backwards branch).
	Return, ///< Instr is a return instruction.
	PreCall, ///< Instr is a call instruction.
	PostCall ///< Instr is the return address of a call.
	};
	}

	/// GCPoint - Metadata for a collector-safe point in machine code.
	///
	struct GCPoint {
	GC::PointKind Kind; ///< The kind of the safe point.
	MCSymbol *Label; ///< A label.
	DebugLoc Loc;

	GCPoint(GC::PointKind K, MCSymbol *L, DebugLoc DL)
	: Kind(K), Label(L), Loc(DL) {}
	};

	/// GCRoot - Metadata for a pointer to an object managed by the garbage
	/// collector.
	struct GCRoot {
	int Num; ///< Usually a frame index.
	int StackOffset; ///< Offset from the stack pointer.
	const Constant *Metadata; ///< Metadata straight from the call
	///< to llvm.gcroot.

	GCRoot(int N, const Constant *MD) : Num(N), StackOffset(-1), Metadata(MD) {}
	};


	/// GCFunctionInfo - Garbage collection metadata for a single function.
	///
	class GCFunctionInfo {
	public:
	typedef std::vector<GCPoint>::iterator iterator;
	typedef std::vector<GCRoot>::iterator roots_iterator;
	typedef std::vector<GCRoot>::const_iterator live_iterator;

	private:
	const Function &F;
	GCStrategy &S;
	uint64_t FrameSize;
	std::vector<GCRoot> Roots;
	std::vector<GCPoint> SafePoints;

	// FIXME: Liveness. A 2D BitVector, perhaps?
	//
	// BitVector Liveness;
	//
	// bool islive(int point, int root) =
	// Liveness[point * SafePoints.size() + root]
	//
	// The bit vector is the more compact representation where >3.2% of roots
	// are live per safe point (1.5% on 64-bit hosts).

	public:
	GCFunctionInfo(const Function &F, GCStrategy &S);
	~GCFunctionInfo();

	/// getFunction - Return the function to which this metadata applies.
	///
	const Function &getFunction() const { return F; }

	/// getStrategy - Return the GC strategy for the function.
	///
	GCStrategy &getStrategy() { return S; }

	/// addStackRoot - Registers a root that lives on the stack. Num is the
	/// stack object ID for the alloca (if the code generator is
	// using MachineFrameInfo).
	void addStackRoot(int Num, const Constant *Metadata) {
	Roots.push_back(GCRoot(Num, Metadata));
	}

	/// removeStackRoot - Removes a root.
	roots_iterator removeStackRoot(roots_iterator position) {
	return Roots.erase(position);
	}

	/// addSafePoint - Notes the existence of a safe point. Num is the ID of the
	/// label just prior to the safe point (if the code generator is using
	/// MachineModuleInfo).
	void addSafePoint(GC::PointKind Kind, MCSymbol *Label, DebugLoc DL) {
	SafePoints.push_back(GCPoint(Kind, Label, DL));
	}

	/// getFrameSize/setFrameSize - Records the function's frame size.
	///
	uint64_t getFrameSize() const { return FrameSize; }
	void setFrameSize(uint64_t S) { FrameSize = S; }

	/// begin/end - Iterators for safe points.
	///
	iterator begin() { return SafePoints.begin(); }
	iterator end() { return SafePoints.end(); }
	size_t size() const { return SafePoints.size(); }

	/// roots_begin/roots_end - Iterators for all roots in the function.
	///
	roots_iterator roots_begin() { return Roots.begin(); }
	roots_iterator roots_end () { return Roots.end(); }
	size_t roots_size() const { return Roots.size(); }

	/// live_begin/live_end - Iterators for live roots at a given safe point.
	///
	live_iterator live_begin(const iterator &p) { return roots_begin(); }
	live_iterator live_end (const iterator &p) { return roots_end(); }
	size_t live_size(const iterator &p) const { return roots_size(); }
	};


	/// GCModuleInfo - Garbage collection metadata for a whole module.
	///
	class GCModuleInfo : public ImmutablePass {
	typedef StringMap<GCStrategy*> strategy_map_type;
	typedef std::vector<std::unique_ptr<GCStrategy>> list_type;
	typedef DenseMap<const Function,GCFunctionInfo> finfo_map_type;

	strategy_map_type StrategyMap;
	list_type StrategyList;
	finfo_map_type FInfoMap;

	GCStrategy getOrCreateStrategy(const Module M, const std::string &Name);

	public:
	typedef list_type::const_iterator iterator;

	static char ID;

	GCModuleInfo();

	/// clear - Resets the pass. Any pass, which uses GCModuleInfo, should
	/// call it in doFinalization().
	///
	void clear();

	/// begin/end - Iterators for used strategies.
	///
	iterator begin() const { return StrategyList.begin(); }
	iterator end() const { return StrategyList.end(); }

	/// get - Look up function metadata.
	///
	GCFunctionInfo &getFunctionInfo(const Function &F);
	};

	}

	#endif