third_party/subzero/src/IceCfgNode.h - SwiftShader - Git at Google

 //===- subzero/src/IceCfgNode.h - Control flow graph node -------*- C++ -*-===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// \brief Declares the CfgNode class, which represents a single basic block as
 /// its instruction list, in-edge list, and out-edge list.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICECFGNODE_H
 #define SUBZERO_SRC_ICECFGNODE_H

 #include "IceDefs.h"
 #include "IceInst.h" // InstList traits
 #include "IceStringPool.h"

 namespace Ice {

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

 public:
   static CfgNode *create(Cfg *Func, SizeT Number) {
     return new (Func->allocate<CfgNode>()) CfgNode(Func, Number);
   }

   Cfg *getCfg() const { return Func; }

   /// Access the label number and name for this node.
   SizeT getIndex() const { return Number; }
   void resetIndex(SizeT NewNumber) { Number = NewNumber; }
   std::string getName() const {
     if (Name.hasStdString())
       return Name.toString();
     return "__" + std::to_string(NumberOrig);
   }
   void setName(const std::string &NewName) {
     if (NewName.empty())
       return;
     Name = NodeString::createWithString(Func, NewName);
   }
   std::string getAsmName() const {
     return ".L" + Func->getFunctionName() + "$" + getName();
   }

   void incrementLoopNestDepth() { ++LoopNestDepth; }
   void setLoopNestDepth(SizeT NewDepth) { LoopNestDepth = NewDepth; }
   SizeT getLoopNestDepth() const { return LoopNestDepth; }

   /// The HasReturn flag indicates that this node contains a return instruction
   /// and therefore needs an epilog.
   void setHasReturn() { HasReturn = true; }
   bool getHasReturn() const { return HasReturn; }

   void setNeedsPlacement(bool Value) { NeedsPlacement = Value; }
   bool needsPlacement() const { return NeedsPlacement; }

   void setNeedsAlignment() { NeedsAlignment = true; }
   bool needsAlignment() const { return NeedsAlignment; }

   /// \name Access predecessor and successor edge lists.
   /// @{
   const NodeList &getInEdges() const { return InEdges; }
   const NodeList &getOutEdges() const { return OutEdges; }
   /// @}

   /// \name Manage the instruction list.
   /// @{
   InstList &getInsts() { return Insts; }
   PhiList &getPhis() { return Phis; }
   const InstList &getInsts() const { return Insts; }
   const PhiList &getPhis() const { return Phis; }
   void appendInst(Inst *Instr);
   void renumberInstructions();
   /// Rough and generally conservative estimate of the number of instructions in
   /// the block. It is updated when an instruction is added, but not when
   /// deleted. It is recomputed during renumberInstructions().
   InstNumberT getInstCountEstimate() const { return InstCountEstimate; }
   /// @}

   /// \name Manage predecessors and successors.
   /// @{

   /// Add a predecessor edge to the InEdges list for each of this node's
   /// successors.
   void computePredecessors();
   void computeSuccessors();
   CfgNode *splitIncomingEdge(CfgNode *Pred, SizeT InEdgeIndex);
   /// @}

   void enforcePhiConsistency();
   void placePhiLoads();
   void placePhiStores();
   void deletePhis();
   void advancedPhiLowering();
   void doAddressOpt();
   void doNopInsertion(RandomNumberGenerator &RNG);
   void genCode();
   void livenessLightweight();
   bool liveness(Liveness *Liveness);
   void livenessAddIntervals(Liveness *Liveness, InstNumberT FirstInstNum,
                             InstNumberT LastInstNum);
   void contractIfEmpty();
   void doBranchOpt(const CfgNode *NextNode);
   void emit(Cfg *Func) const;
   void emitIAS(Cfg *Func) const;
   void dump(Cfg *Func) const;

   void profileExecutionCount(VariableDeclaration *Var);

   void addOutEdge(CfgNode *Out) { OutEdges.push_back(Out); }
   void addInEdge(CfgNode *In) { InEdges.push_back(In); }
   void replaceInEdge(CfgNode *Old, CfgNode *New);
   void removeAllOutEdges() { OutEdges.clear(); }
   void removeInEdge(CfgNode *In);

   bool hasSingleOutEdge() const {
     return (getOutEdges().size() == 1 || getOutEdges()[0] == getOutEdges()[1]);
   }
   CfgNode *shortCircuit();

 private:
   CfgNode(Cfg *Func, SizeT Number)
       : Func(Func), Number(Number), NumberOrig(Number),
         Name(NodeString::createWithoutString(Func)) {}
   bool livenessValidateIntervals(Liveness *Liveness) const;
   Cfg *const Func;
   SizeT Number;           /// invariant: Func->Nodes[Number]==this
   const SizeT NumberOrig; /// used for name auto-generation
   NodeString Name;
   SizeT LoopNestDepth = 0; /// the loop nest depth of this node
   bool HasReturn = false;  /// does this block need an epilog?
   bool NeedsPlacement = false;
   bool NeedsAlignment = false;       /// is sandboxing required?
   InstNumberT InstCountEstimate = 0; /// rough instruction count estimate
   NodeList InEdges;                  /// in no particular order
   NodeList OutEdges;                 /// in no particular order
   PhiList Phis;                      /// unordered set of phi instructions
   InstList Insts;                    /// ordered list of non-phi instructions
 };

 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICECFGNODE_H
	//===- subzero/src/IceCfgNode.h - Control flow graph node -------- C++ --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// \brief Declares the CfgNode class, which represents a single basic block as
	/// its instruction list, in-edge list, and out-edge list.
	///
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICECFGNODE_H
	#define SUBZERO_SRC_ICECFGNODE_H

	#include "IceDefs.h"
	#include "IceInst.h" // InstList traits
	#include "IceStringPool.h"

	namespace Ice {

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

	public:
	static CfgNode create(Cfg Func, SizeT Number) {
	return new (Func->allocate<CfgNode>()) CfgNode(Func, Number);
	}

	Cfg *getCfg() const { return Func; }

	/// Access the label number and name for this node.
	SizeT getIndex() const { return Number; }
	void resetIndex(SizeT NewNumber) { Number = NewNumber; }
	std::string getName() const {
	if (Name.hasStdString())
	return Name.toString();
	return "__" + std::to_string(NumberOrig);
	}
	void setName(const std::string &NewName) {
	if (NewName.empty())
	return;
	Name = NodeString::createWithString(Func, NewName);
	}
	std::string getAsmName() const {
	return ".L" + Func->getFunctionName() + "$" + getName();
	}

	void incrementLoopNestDepth() { ++LoopNestDepth; }
	void setLoopNestDepth(SizeT NewDepth) { LoopNestDepth = NewDepth; }
	SizeT getLoopNestDepth() const { return LoopNestDepth; }

	/// The HasReturn flag indicates that this node contains a return instruction
	/// and therefore needs an epilog.
	void setHasReturn() { HasReturn = true; }
	bool getHasReturn() const { return HasReturn; }

	void setNeedsPlacement(bool Value) { NeedsPlacement = Value; }
	bool needsPlacement() const { return NeedsPlacement; }

	void setNeedsAlignment() { NeedsAlignment = true; }
	bool needsAlignment() const { return NeedsAlignment; }

	/// \name Access predecessor and successor edge lists.
	/// @{
	const NodeList &getInEdges() const { return InEdges; }
	const NodeList &getOutEdges() const { return OutEdges; }
	/// @}

	/// \name Manage the instruction list.
	/// @{
	InstList &getInsts() { return Insts; }
	PhiList &getPhis() { return Phis; }
	const InstList &getInsts() const { return Insts; }
	const PhiList &getPhis() const { return Phis; }
	void appendInst(Inst *Instr);
	void renumberInstructions();
	/// Rough and generally conservative estimate of the number of instructions in
	/// the block. It is updated when an instruction is added, but not when
	/// deleted. It is recomputed during renumberInstructions().
	InstNumberT getInstCountEstimate() const { return InstCountEstimate; }
	/// @}

	/// \name Manage predecessors and successors.
	/// @{

	/// Add a predecessor edge to the InEdges list for each of this node's
	/// successors.
	void computePredecessors();
	void computeSuccessors();
	CfgNode splitIncomingEdge(CfgNode Pred, SizeT InEdgeIndex);
	/// @}

	void enforcePhiConsistency();
	void placePhiLoads();
	void placePhiStores();
	void deletePhis();
	void advancedPhiLowering();
	void doAddressOpt();
	void doNopInsertion(RandomNumberGenerator &RNG);
	void genCode();
	void livenessLightweight();
	bool liveness(Liveness *Liveness);
	void livenessAddIntervals(Liveness *Liveness, InstNumberT FirstInstNum,
	InstNumberT LastInstNum);
	void contractIfEmpty();
	void doBranchOpt(const CfgNode *NextNode);
	void emit(Cfg *Func) const;
	void emitIAS(Cfg *Func) const;
	void dump(Cfg *Func) const;

	void profileExecutionCount(VariableDeclaration *Var);

	void addOutEdge(CfgNode *Out) { OutEdges.push_back(Out); }
	void addInEdge(CfgNode *In) { InEdges.push_back(In); }
	void replaceInEdge(CfgNode Old, CfgNode New);
	void removeAllOutEdges() { OutEdges.clear(); }
	void removeInEdge(CfgNode *In);

	bool hasSingleOutEdge() const {
	return (getOutEdges().size() == 1 \|\| getOutEdges()[0] == getOutEdges()[1]);
	}
	CfgNode *shortCircuit();

	private:
	CfgNode(Cfg *Func, SizeT Number)
	: Func(Func), Number(Number), NumberOrig(Number),
	Name(NodeString::createWithoutString(Func)) {}
	bool livenessValidateIntervals(Liveness *Liveness) const;
	Cfg *const Func;
	SizeT Number; /// invariant: Func->Nodes[Number]==this
	const SizeT NumberOrig; /// used for name auto-generation
	NodeString Name;
	SizeT LoopNestDepth = 0; /// the loop nest depth of this node
	bool HasReturn = false; /// does this block need an epilog?
	bool NeedsPlacement = false;
	bool NeedsAlignment = false; /// is sandboxing required?
	InstNumberT InstCountEstimate = 0; /// rough instruction count estimate
	NodeList InEdges; /// in no particular order
	NodeList OutEdges; /// in no particular order
	PhiList Phis; /// unordered set of phi instructions
	InstList Insts; /// ordered list of non-phi instructions
	};

	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICECFGNODE_H