src/IceLiveness.h - platform/external/swiftshader - Gitiles

 //===- subzero/src/IceLiveness.h - Liveness analysis ------------*- C++ -*-===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// This file declares the Liveness and LivenessNode classes,
 /// which are used for liveness analysis.  The node-specific
 /// information tracked for each Variable includes whether it is
 /// live on entry, whether it is live on exit, the instruction number
 /// that starts its live range, and the instruction number that ends
 /// its live range.  At the Cfg level, the actual live intervals are
 /// recorded.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICELIVENESS_H
 #define SUBZERO_SRC_ICELIVENESS_H

 #include "IceCfgNode.h"
 #include "IceDefs.h"
 #include "IceTypes.h"

 namespace Ice {

 class Liveness {
   Liveness() = delete;
   Liveness(const Liveness &) = delete;
   Liveness &operator=(const Liveness &) = delete;

   class LivenessNode {
     LivenessNode &operator=(const LivenessNode &) = delete;

   public:
     LivenessNode() = default;
     LivenessNode(const LivenessNode &) = default;
     /// NumLocals is the number of Variables local to this block.
     SizeT NumLocals = 0;
     /// NumNonDeadPhis tracks the number of Phi instructions that
     /// Inst::liveness() identified as tentatively live.  If
     /// NumNonDeadPhis changes from the last liveness pass, then liveness
     /// has not yet converged.
     SizeT NumNonDeadPhis = 0;
     // LiveToVarMap maps a liveness bitvector index to a Variable.  This
     // is generally just for printing/dumping.  The index should be less
     // than NumLocals + Liveness::NumGlobals.
     std::vector<Variable *> LiveToVarMap;
     // LiveIn and LiveOut track the in- and out-liveness of the global
     // variables.  The size of each vector is
     // LivenessNode::NumGlobals.
     LivenessBV LiveIn, LiveOut;
     // LiveBegin and LiveEnd track the instruction numbers of the start
     // and end of each variable's live range within this block.  The
     // index/key of each element is less than NumLocals +
     // Liveness::NumGlobals.
     LiveBeginEndMap LiveBegin, LiveEnd;
   };

 public:
   Liveness(Cfg *Func, LivenessMode Mode) : Func(Func), Mode(Mode) {}
   void init();
   Cfg *getFunc() const { return Func; }
   LivenessMode getMode() const { return Mode; }
   Variable *getVariable(SizeT LiveIndex, const CfgNode *Node) const;
   SizeT getLiveIndex(SizeT VarIndex) const { return VarToLiveMap[VarIndex]; }
   SizeT getNumGlobalVars() const { return NumGlobals; }
   SizeT getNumVarsInNode(const CfgNode *Node) const {
     return NumGlobals + Nodes[Node->getIndex()].NumLocals;
   }
   SizeT &getNumNonDeadPhis(const CfgNode *Node) {
     return Nodes[Node->getIndex()].NumNonDeadPhis;
   }
   LivenessBV &getLiveIn(const CfgNode *Node) {
     SizeT Index = Node->getIndex();
     resize(Index);
     return Nodes[Index].LiveIn;
   }
   LivenessBV &getLiveOut(const CfgNode *Node) {
     SizeT Index = Node->getIndex();
     resize(Index);
     return Nodes[Index].LiveOut;
   }
   LiveBeginEndMap *getLiveBegin(const CfgNode *Node) {
     SizeT Index = Node->getIndex();
     resize(Index);
     return &Nodes[Index].LiveBegin;
   }
   LiveBeginEndMap *getLiveEnd(const CfgNode *Node) {
     SizeT Index = Node->getIndex();
     resize(Index);
     return &Nodes[Index].LiveEnd;
   }

 private:
   /// Resize Nodes so that Nodes[Index] is valid.
   void resize(SizeT Index) {
     if (Index >= Nodes.size())
       Nodes.resize(Index + 1);
   }
   Cfg *Func;
   LivenessMode Mode;
   SizeT NumGlobals = 0;
   /// Size of Nodes is Cfg::Nodes.size().
   std::vector<LivenessNode> Nodes;
   /// VarToLiveMap maps a Variable's Variable::Number to its live index
   /// within its basic block.
   std::vector<SizeT> VarToLiveMap;
   /// LiveToVarMap is analogous to LivenessNode::LiveToVarMap, but for
   /// non-local variables.
   std::vector<Variable *> LiveToVarMap;
 };

 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICELIVENESS_H
	//===- subzero/src/IceLiveness.h - Liveness analysis ------------- C++ --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// This file declares the Liveness and LivenessNode classes,
	/// which are used for liveness analysis. The node-specific
	/// information tracked for each Variable includes whether it is
	/// live on entry, whether it is live on exit, the instruction number
	/// that starts its live range, and the instruction number that ends
	/// its live range. At the Cfg level, the actual live intervals are
	/// recorded.
	///
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICELIVENESS_H
	#define SUBZERO_SRC_ICELIVENESS_H

	#include "IceCfgNode.h"
	#include "IceDefs.h"
	#include "IceTypes.h"

	namespace Ice {

	class Liveness {
	Liveness() = delete;
	Liveness(const Liveness &) = delete;
	Liveness &operator=(const Liveness &) = delete;

	class LivenessNode {
	LivenessNode &operator=(const LivenessNode &) = delete;

	public:
	LivenessNode() = default;
	LivenessNode(const LivenessNode &) = default;
	/// NumLocals is the number of Variables local to this block.
	SizeT NumLocals = 0;
	/// NumNonDeadPhis tracks the number of Phi instructions that
	/// Inst::liveness() identified as tentatively live. If
	/// NumNonDeadPhis changes from the last liveness pass, then liveness
	/// has not yet converged.
	SizeT NumNonDeadPhis = 0;
	// LiveToVarMap maps a liveness bitvector index to a Variable. This
	// is generally just for printing/dumping. The index should be less
	// than NumLocals + Liveness::NumGlobals.
	std::vector<Variable *> LiveToVarMap;
	// LiveIn and LiveOut track the in- and out-liveness of the global
	// variables. The size of each vector is
	// LivenessNode::NumGlobals.
	LivenessBV LiveIn, LiveOut;
	// LiveBegin and LiveEnd track the instruction numbers of the start
	// and end of each variable's live range within this block. The
	// index/key of each element is less than NumLocals +
	// Liveness::NumGlobals.
	LiveBeginEndMap LiveBegin, LiveEnd;
	};

	public:
	Liveness(Cfg *Func, LivenessMode Mode) : Func(Func), Mode(Mode) {}
	void init();
	Cfg *getFunc() const { return Func; }
	LivenessMode getMode() const { return Mode; }
	Variable getVariable(SizeT LiveIndex, const CfgNode Node) const;
	SizeT getLiveIndex(SizeT VarIndex) const { return VarToLiveMap[VarIndex]; }
	SizeT getNumGlobalVars() const { return NumGlobals; }
	SizeT getNumVarsInNode(const CfgNode *Node) const {
	return NumGlobals + Nodes[Node->getIndex()].NumLocals;
	}
	SizeT &getNumNonDeadPhis(const CfgNode *Node) {
	return Nodes[Node->getIndex()].NumNonDeadPhis;
	}
	LivenessBV &getLiveIn(const CfgNode *Node) {
	SizeT Index = Node->getIndex();
	resize(Index);
	return Nodes[Index].LiveIn;
	}
	LivenessBV &getLiveOut(const CfgNode *Node) {
	SizeT Index = Node->getIndex();
	resize(Index);
	return Nodes[Index].LiveOut;
	}
	LiveBeginEndMap getLiveBegin(const CfgNode Node) {
	SizeT Index = Node->getIndex();
	resize(Index);
	return &Nodes[Index].LiveBegin;
	}
	LiveBeginEndMap getLiveEnd(const CfgNode Node) {
	SizeT Index = Node->getIndex();
	resize(Index);
	return &Nodes[Index].LiveEnd;
	}

	private:
	/// Resize Nodes so that Nodes[Index] is valid.
	void resize(SizeT Index) {
	if (Index >= Nodes.size())
	Nodes.resize(Index + 1);
	}
	Cfg *Func;
	LivenessMode Mode;
	SizeT NumGlobals = 0;
	/// Size of Nodes is Cfg::Nodes.size().
	std::vector<LivenessNode> Nodes;
	/// VarToLiveMap maps a Variable's Variable::Number to its live index
	/// within its basic block.
	std::vector<SizeT> VarToLiveMap;
	/// LiveToVarMap is analogous to LivenessNode::LiveToVarMap, but for
	/// non-local variables.
	std::vector<Variable *> LiveToVarMap;
	};

	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICELIVENESS_H