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0d4f76637d
i.e., enumerates all data and control dependences for the function. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@4958 91177308-0d34-0410-b5e6-96231b3b80d8
309 lines
12 KiB
C++
309 lines
12 KiB
C++
//===- PgmDependenceGraph.h - Enumerate the PDG for a function --*- C++ -*-===//
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//
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// The Program Dependence Graph (PDG) for a single function represents all
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// data and control dependences for the function. This file provides an
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// iterator to enumerate all these dependences. In particular, it enumerates:
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//
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// -- Data dependences on memory locations, computed using the
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// MemoryDepAnalysis pass;
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// -- Data dependences on SSA registers, directly from Def-Use edges of Values;
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// -- Control dependences, computed using postdominance frontiers
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// (NOT YET IMPLEMENTED).
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//
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// Note that this file does not create an explicit dependence graph --
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// it only provides an iterator to traverse the PDG conceptually.
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// The MemoryDepAnalysis does build an explicit graph, which is used internally
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// here. That graph could be augmented with the other dependences above if
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// desired, but for most uses there will be little need to do that.
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//
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// Key Classes:
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//
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// enum PDGIteratorFlags -- Specify which dependences to enumerate.
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//
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// class PDGIterator -- The PDG iterator. This is essentially like a
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// pointer to class Dependence, but doesn't explicitly
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// construct a Dependence object for each dependence.
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//
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// class PgmDependenceGraph -- Interface to obtain PDGIterators for each
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// instruction.
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_PGMDEPENDENCEGRAPH_H
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#define LLVM_ANALYSIS_PGMDEPENDENCEGRAPH_H
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#include "llvm/Analysis/DependenceGraph.h"
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#include "llvm/Analysis/MemoryDepAnalysis.h"
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/* #include "llvm/Analysis/PostDominators.h" -- see below */
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#include "llvm/Instruction.h"
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#include "llvm/Value.h"
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#include "llvm/Pass.h"
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#include "Support/NonCopyable.h"
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#include <iterator>
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class Instruction;
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class Function;
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class DSGraph;
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class DependenceGraph;
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class PgmDependenceGraph;
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///---------------------------------------------------------------------------
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/// enum PDGIteratorFlags
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///
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/// These bit flags specify which dependences incident on a statement are to be
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/// enumerated: Memory deps, SSA deps, Control deps, or any combination thereof.
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///---------------------------------------------------------------------------
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enum PDGIteratorFlags {
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MemoryDeps = 0x1, // load/store/call deps
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SSADeps = 0x2, // SSA deps (true)
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ControlDeps = /* 0x4*/ 0x0, // control dependences
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AllDataDeps = MemoryDeps | SSADeps, // shorthand for data deps
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AllDeps = MemoryDeps | SSADeps | ControlDeps // shorthand for all three
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};
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///---------------------------------------------------------------------------
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/// struct DepIterState
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///
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/// This data type is primarily an internal implementation detail.
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/// It are exposed here only to give inlinable access to field dep,
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/// which is the representation for the current dependence pointed to by
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/// a PgmDependenceGraph::iterator.
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///---------------------------------------------------------------------------
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class DepIterState {
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private:
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typedef char IterStateFlags;
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static const IterStateFlags NoFlag, MemDone, SSADone, AllDone, FirstTimeFlag;
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public:
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DepGraphNode* depNode; // the node being enumerated
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DependenceGraph::iterator memDepIter; // pointer to current memory dep
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Instruction::op_iterator ssaInEdgeIter; // pointer to current SSA in-dep
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Value::use_iterator ssaOutEdgeIter; // pointer to current SSA out-dep
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DependenceGraph* memDepGraph; // the core dependence graph
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Dependence dep; // the "current" dependence
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PDGIteratorFlags depFlags:8; // which deps are we enumerating?
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IterStateFlags iterFlags:8; // marking where the iter stands
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/*ctor*/ DepIterState (DependenceGraph* _memDepGraph,
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Instruction& I,
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bool incomingDeps,
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PDGIteratorFlags whichDeps);
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bool operator==(const DepIterState& S) {
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assert(memDepGraph == S.memDepGraph &&
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"Incompatible iterators! This is a probable sign of something BAD.");
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return (iterFlags == S.iterFlags &&
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dep == S.dep && depFlags == S.depFlags && depNode == S.depNode &&
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memDepIter == S.memDepIter && ssaInEdgeIter == S.ssaInEdgeIter &&
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ssaOutEdgeIter == S.ssaOutEdgeIter);
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}
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// Is the iteration completely done?
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//
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bool done () const { return iterFlags & AllDone; }
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// Bump this iterator logically by 1 (to next dependence) and reset the
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// dep field to represent the new dependence if there is one.
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// Set done = true otherwise.
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//
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void Next ();
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// Find the first memory dependence for the current Mem In/Out iterators.
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// Sets dep to that dependence and returns true if one is found.
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// Returns false and leaves dep unchanged otherwise.
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//
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bool SetFirstMemoryDep();
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// Find the next valid data dependence for the current SSA In/Out iterators.
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// A valid data dependence is one that is to/from an Instruction.
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// E.g., an SSA edge from a formal parameter is not a valid dependence.
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// Sets dep to that dependence and returns true if a valid one is found.
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// Returns false and leaves dep unchanged otherwise.
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//
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bool SetFirstSSADep ();
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};
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///---------------------------------------------------------------------------
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/// The dependence iterator class. This class represents a pointer to
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/// a single dependence in the program dependence graph. It is essentially
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/// like a pointer to an object of class Dependence but it is much more
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/// efficient to retrieve information about the dependence directly rather
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/// than constructing the equivalent Dependence object (since that object
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/// is normally not constructed for SSA def-use dependences).
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///---------------------------------------------------------------------------
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class PDGIterator: public forward_iterator<Dependence, ptrdiff_t>
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{
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DepIterState* istate;
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#if 0
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/*copy*/ PDGIterator (const PDGIterator& I); // do not implement!
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PDGIterator& operator= (const PDGIterator& I); // do not implement!
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/*copy*/ PDGIterator (PDGIterator& I) : istate(I.istate) {
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I.istate = NULL; // ensure this is not deleted twice.
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}
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#endif
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friend class PgmDependenceGraph;
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public:
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typedef PDGIterator _Self;
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/*ctor*/ PDGIterator (DepIterState* _istate) : istate(_istate) { }
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/*dtor*/ ~PDGIterator () { delete istate; }
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/*copy*/ PDGIterator (const PDGIterator& I)
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: istate(new DepIterState(*I.istate)) { }
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PDGIterator& operator= (const PDGIterator& I) {
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if (istate) delete istate;
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istate = new DepIterState(*I.istate);
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return *this;
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}
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// Check if the iteration is complete
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//
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bool fini() const { return !istate || istate->done(); }
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// Retrieve the underlying Dependence. Returns NULL if fini().
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//
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Dependence* operator*() const { return fini() ? NULL : &istate->dep; }
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Dependence* operator->() const { assert(!fini()); return &istate->dep; }
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// Increment the iterator
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//
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_Self& operator++() { if (!fini()) istate->Next(); return *this;}
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_Self& operator++(int); // do not implement!
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// Equality comparison: a "null" state should compare equal to done
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// This is efficient for comparing with "end" or with itself, but could
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// be quite inefficient for other cases.
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//
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bool operator==(const PDGIterator& I) const {
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if (I.istate == NULL) // most common case: iter == end()
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return (istate == NULL || istate->done());
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if (istate == NULL)
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return (I.istate == NULL || I.istate->done());
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return (*istate == *I.istate);
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}
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bool operator!=(const PDGIterator& I) const {
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return ! (*this == I);
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}
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};
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///---------------------------------------------------------------------------
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/// class PgmDependenceGraph:
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///
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/// This pass enumerates dependences incident on each instruction in a function.
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/// It can be made a FunctionPass once a Pass (such as Parallelize) is
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/// allowed to use a FunctionPass such as this one.
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///---------------------------------------------------------------------------
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class PgmDependenceGraph: public Pass {
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/// Information about the function being analyzed.
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///
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DependenceGraph* memDepGraph;
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// print helper function.
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void printOutgoingSSADeps(Instruction& I, std::ostream &O);
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// MakeIterator --
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// The first version creates and initializes an iterator as specified.
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// The second version creates a null iterator representing end-of-iteration.
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//
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PDGIterator MakeIterator (Instruction& I,
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bool incomingDeps,
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PDGIteratorFlags whichDeps);
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PDGIterator MakeIterator () { return PDGIterator(NULL); }
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friend class PDGIterator;
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friend class DepIterState;
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public:
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typedef PDGIterator iterator;
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/* typedef PDGIterator<const Dependence> const iterator; */
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public:
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PgmDependenceGraph() : memDepGraph(NULL) { }
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~PgmDependenceGraph() { }
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/// Iterators to enumerate the program dependence graph for a function.
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/// Note that this does not provide "end" iterators to check for completion.
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/// Instead, just use iterator::fini() or iterator::operator*() == NULL
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//
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iterator inDepBegin(Instruction& I, PDGIteratorFlags whichDeps = AllDeps) {
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return MakeIterator(I, /*inDeps*/ true, whichDeps);
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}
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iterator inDepEnd (Instruction& I, PDGIteratorFlags whichDeps = AllDeps) {
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return MakeIterator();
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}
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iterator outDepBegin(Instruction& I, PDGIteratorFlags whichDeps = AllDeps) {
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return MakeIterator(I, /*inDeps*/ false, whichDeps);
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}
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iterator outDepEnd (Instruction& I, PDGIteratorFlags whichDeps = AllDeps) {
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return MakeIterator();
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}
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///------------------------------------------------------------------------
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/// TEMPORARY FUNCTIONS TO MAKE THIS A MODULE PASS ---
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/// These functions will go away once this class becomes a FunctionPass.
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/// Driver function to compute dependence graphs for every function.
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///
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bool run(Module& M) { return true; }
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/// getGraph() -- Retrieve the pgm dependence graph for a function.
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/// This is temporary and will go away once this is a FunctionPass.
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/// At that point, this class itself will be the PgmDependenceGraph you want.
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///
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PgmDependenceGraph& getGraph(Function& F) {
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Visiting(F);
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return *this;
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}
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private:
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void Visiting(Function& F) {
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memDepGraph = &getAnalysis<MemoryDepAnalysis>().getGraph(F);
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}
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public:
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///----END TEMPORARY FUNCTIONS---------------------------------------------
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/// This initializes the program dependence graph iterator for a function.
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///
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bool runOnFunction(Function& func) {
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Visiting(func);
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return true;
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}
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/// getAnalysisUsage - This does not modify anything.
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/// It uses the Memory Dependence Analysis pass.
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/// It needs to use the PostDominanceFrontier pass, but cannot because
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/// that is a FunctionPass. This means control dependence are not emumerated.
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///
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void getAnalysisUsage(AnalysisUsage &AU) const {
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AU.setPreservesAll();
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AU.addRequired<MemoryDepAnalysis>();
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/* AU.addRequired<PostDominanceFrontier>(); */
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}
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/// Debugging support methods
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///
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void print(std::ostream &O) const;
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void dump() const;
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};
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//===----------------------------------------------------------------------===//
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#endif
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