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https://github.com/c64scene-ar/llvm-6502.git
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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@9310 91177308-0d34-0410-b5e6-96231b3b80d8
321 lines
13 KiB
C++
321 lines
13 KiB
C++
//===-- FunctionLiveVarInfo.cpp - Live Variable Analysis for a Function ---===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This is the interface to function level live variable information that is
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// provided by live variable analysis.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CodeGen/FunctionLiveVarInfo.h"
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#include "llvm/CodeGen/MachineInstr.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/Target/TargetMachine.h"
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#include "llvm/Target/TargetInstrInfo.h"
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#include "llvm/Support/CFG.h"
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#include "Support/PostOrderIterator.h"
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#include "Support/SetOperations.h"
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#include "Support/CommandLine.h"
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#include "BBLiveVar.h"
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static RegisterAnalysis<FunctionLiveVarInfo>
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X("livevar", "Live Variable Analysis");
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LiveVarDebugLevel_t DEBUG_LV;
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static cl::opt<LiveVarDebugLevel_t, true>
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DEBUG_LV_opt("dlivevar", cl::Hidden, cl::location(DEBUG_LV),
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cl::desc("enable live-variable debugging information"),
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cl::values(
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clEnumValN(LV_DEBUG_None , "n", "disable debug output"),
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clEnumValN(LV_DEBUG_Normal , "y", "enable debug output"),
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clEnumValN(LV_DEBUG_Instr, "i", "print live-var sets before/after "
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"every machine instrn"),
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clEnumValN(LV_DEBUG_Verbose, "v", "print def, use sets for every instrn also"),
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0));
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//-----------------------------------------------------------------------------
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// Accessor Functions
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//-----------------------------------------------------------------------------
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// gets OutSet of a BB
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const ValueSet &FunctionLiveVarInfo::getOutSetOfBB(const BasicBlock *BB) const {
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return BBLiveVarInfo.find(BB)->second->getOutSet();
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}
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ValueSet &FunctionLiveVarInfo::getOutSetOfBB(const BasicBlock *BB) {
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return BBLiveVarInfo[BB]->getOutSet();
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}
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// gets InSet of a BB
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const ValueSet &FunctionLiveVarInfo::getInSetOfBB(const BasicBlock *BB) const {
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return BBLiveVarInfo.find(BB)->second->getInSet();
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}
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ValueSet &FunctionLiveVarInfo::getInSetOfBB(const BasicBlock *BB) {
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return BBLiveVarInfo[BB]->getInSet();
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}
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//-----------------------------------------------------------------------------
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// Performs live var analysis for a function
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//-----------------------------------------------------------------------------
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bool FunctionLiveVarInfo::runOnFunction(Function &F) {
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M = &F;
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if (DEBUG_LV) std::cerr << "Analysing live variables ...\n";
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// create and initialize all the BBLiveVars of the CFG
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constructBBs(M);
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unsigned int iter=0;
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while (doSingleBackwardPass(M, iter++))
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; // Iterate until we are done.
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if (DEBUG_LV) std::cerr << "Live Variable Analysis complete!\n";
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return false;
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}
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//-----------------------------------------------------------------------------
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// constructs BBLiveVars and init Def and In sets
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//-----------------------------------------------------------------------------
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void FunctionLiveVarInfo::constructBBs(const Function *F) {
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unsigned POId = 0; // Reverse Depth-first Order ID
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std::map<const BasicBlock*, unsigned> PONumbering;
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for (po_iterator<const Function*> BBI = po_begin(M), BBE = po_end(M);
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BBI != BBE; ++BBI)
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PONumbering[*BBI] = POId++;
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MachineFunction &MF = MachineFunction::get(F);
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for (MachineFunction::iterator I = MF.begin(), E = MF.end(); I != E; ++I) {
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const BasicBlock &BB = *I->getBasicBlock(); // get the current BB
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if (DEBUG_LV) std::cerr << " For BB " << RAV(BB) << ":\n";
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BBLiveVar *LVBB;
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std::map<const BasicBlock*, unsigned>::iterator POI = PONumbering.find(&BB);
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if (POI != PONumbering.end()) {
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// create a new BBLiveVar
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LVBB = new BBLiveVar(BB, *I, POId);
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} else {
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// The PO iterator does not discover unreachable blocks, but the random
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// iterator later may access these blocks. We must make sure to
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// initialize unreachable blocks as well. However, LV info is not correct
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// for those blocks (they are not analyzed)
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//
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LVBB = new BBLiveVar(BB, *I, ++POId);
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}
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BBLiveVarInfo[&BB] = LVBB;
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if (DEBUG_LV)
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LVBB->printAllSets();
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}
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}
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//-----------------------------------------------------------------------------
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// do one backward pass over the CFG (for iterative analysis)
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//-----------------------------------------------------------------------------
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bool FunctionLiveVarInfo::doSingleBackwardPass(const Function *M,
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unsigned iter) {
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if (DEBUG_LV) std::cerr << "\n After Backward Pass " << iter << "...\n";
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bool NeedAnotherIteration = false;
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for (po_iterator<const Function*> BBI = po_begin(M), BBE = po_end(M);
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BBI != BBE; ++BBI) {
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BBLiveVar *LVBB = BBLiveVarInfo[*BBI];
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assert(LVBB && "BasicBlock information not set for block!");
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if (DEBUG_LV) std::cerr << " For BB " << (*BBI)->getName() << ":\n";
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// InSets are initialized to "GenSet". Recompute only if OutSet changed.
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if(LVBB->isOutSetChanged())
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LVBB->applyTransferFunc(); // apply the Tran Func to calc InSet
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// OutSets are initialized to EMPTY. Recompute on first iter or if InSet
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// changed.
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if (iter == 0 || LVBB->isInSetChanged()) // to calc Outsets of preds
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NeedAnotherIteration |= LVBB->applyFlowFunc(BBLiveVarInfo);
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if (DEBUG_LV) LVBB->printInOutSets();
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}
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// true if we need to reiterate over the CFG
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return NeedAnotherIteration;
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}
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void FunctionLiveVarInfo::releaseMemory() {
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// First remove all BBLiveVars created in constructBBs().
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if (M) {
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for (Function::const_iterator I = M->begin(), E = M->end(); I != E; ++I)
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delete BBLiveVarInfo[I];
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BBLiveVarInfo.clear();
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}
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M = 0;
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// Then delete all objects of type ValueSet created in calcLiveVarSetsForBB
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// and entered into MInst2LVSetBI and MInst2LVSetAI (these are caches
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// to return ValueSet's before/after a machine instruction quickly).
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// We do not need to free up ValueSets in MInst2LVSetAI because it holds
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// pointers to the same sets as in MInst2LVSetBI (for all instructions
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// except the last one in a BB) or in BBLiveVar (for the last instruction).
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//
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for (hash_map<const MachineInstr*, ValueSet*>::iterator
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MI = MInst2LVSetBI.begin(),
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ME = MInst2LVSetBI.end(); MI != ME; ++MI)
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delete MI->second; // delete all ValueSets in MInst2LVSetBI
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MInst2LVSetBI.clear();
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MInst2LVSetAI.clear();
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}
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//-----------------------------------------------------------------------------
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// Following functions will give the LiveVar info for any machine instr in
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// a function. It should be called after a call to analyze().
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//
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// These functions calculate live var info for all the machine instrs in a
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// BB when LVInfo for one inst is requested. Hence, this function is useful
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// when live var info is required for many (or all) instructions in a basic
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// block. Also, the arguments to this function does not require specific
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// iterators.
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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// Gives live variable information before a machine instruction
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//-----------------------------------------------------------------------------
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const ValueSet &
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FunctionLiveVarInfo::getLiveVarSetBeforeMInst(const MachineInstr *MI,
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const BasicBlock *BB) {
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ValueSet* &LVSet = MInst2LVSetBI[MI]; // ref. to map entry
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if (LVSet == NULL && BB != NULL) { // if not found and BB provided
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calcLiveVarSetsForBB(BB); // calc LVSet for all instrs in BB
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assert(LVSet != NULL);
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}
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return *LVSet;
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}
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//-----------------------------------------------------------------------------
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// Gives live variable information after a machine instruction
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//-----------------------------------------------------------------------------
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const ValueSet &
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FunctionLiveVarInfo::getLiveVarSetAfterMInst(const MachineInstr *MI,
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const BasicBlock *BB) {
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ValueSet* &LVSet = MInst2LVSetAI[MI]; // ref. to map entry
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if (LVSet == NULL && BB != NULL) { // if not found and BB provided
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calcLiveVarSetsForBB(BB); // calc LVSet for all instrs in BB
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assert(LVSet != NULL);
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}
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return *LVSet;
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}
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// This function applies a machine instr to a live var set (accepts OutSet) and
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// makes necessary changes to it (produces InSet). Note that two for loops are
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// used to first kill all defs and then to add all uses. This is because there
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// can be instructions like Val = Val + 1 since we allow multiple defs to a
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// machine instruction operand.
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//
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static void applyTranferFuncForMInst(ValueSet &LVS, const MachineInstr *MInst) {
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for (MachineInstr::const_val_op_iterator OpI = MInst->begin(),
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OpE = MInst->end(); OpI != OpE; ++OpI) {
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if (OpI.isDefOnly() || OpI.isDefAndUse()) // kill if this operand is a def
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LVS.erase(*OpI); // this definition kills any uses
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}
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// do for implicit operands as well
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for (unsigned i=0; i < MInst->getNumImplicitRefs(); ++i) {
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if (MInst->getImplicitOp(i).opIsDefOnly() ||
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MInst->getImplicitOp(i).opIsDefAndUse())
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LVS.erase(MInst->getImplicitRef(i));
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}
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for (MachineInstr::const_val_op_iterator OpI = MInst->begin(),
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OpE = MInst->end(); OpI != OpE; ++OpI) {
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if (!isa<BasicBlock>(*OpI)) // don't process labels
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// add only if this operand is a use
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if (!OpI.isDefOnly() || OpI.isDefAndUse() )
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LVS.insert(*OpI); // An operand is a use - so add to use set
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}
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// do for implicit operands as well
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for (unsigned i = 0, e = MInst->getNumImplicitRefs(); i != e; ++i)
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if (MInst->getImplicitOp(i).opIsUse() ||
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MInst->getImplicitOp(i).opIsDefAndUse())
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LVS.insert(MInst->getImplicitRef(i));
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}
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//-----------------------------------------------------------------------------
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// This method calculates the live variable information for all the
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// instructions in a basic block and enter the newly constructed live
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// variable sets into a the caches (MInst2LVSetAI, MInst2LVSetBI)
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//-----------------------------------------------------------------------------
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void FunctionLiveVarInfo::calcLiveVarSetsForBB(const BasicBlock *BB) {
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BBLiveVar *BBLV = BBLiveVarInfo[BB];
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assert(BBLV && "BBLiveVar annotation doesn't exist?");
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const MachineBasicBlock &MIVec = BBLV->getMachineBasicBlock();
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const MachineFunction &MF = MachineFunction::get(M);
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const TargetMachine &TM = MF.getTarget();
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if (DEBUG_LV >= LV_DEBUG_Instr)
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std::cerr << "\n======For BB " << BB->getName()
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<< ": Live var sets for instructions======\n";
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ValueSet *SetAI = &getOutSetOfBB(BB); // init SetAI with OutSet
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ValueSet CurSet(*SetAI); // CurSet now contains OutSet
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// iterate over all the machine instructions in BB
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for (MachineBasicBlock::const_reverse_iterator MII = MIVec.rbegin(),
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MIE = MIVec.rend(); MII != MIE; ++MII) {
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// MI is cur machine inst
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const MachineInstr *MI = *MII;
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MInst2LVSetAI[MI] = SetAI; // record in After Inst map
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applyTranferFuncForMInst(CurSet, MI); // apply the transfer Func
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ValueSet *NewSet = new ValueSet(CurSet); // create a new set with a copy
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// of the set after T/F
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MInst2LVSetBI[MI] = NewSet; // record in Before Inst map
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// If the current machine instruction has delay slots, mark values
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// used by this instruction as live before and after each delay slot
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// instruction (After(MI) is the same as Before(MI+1) except for last MI).
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if (unsigned DS = TM.getInstrInfo().getNumDelaySlots(MI->getOpCode())) {
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MachineBasicBlock::const_iterator fwdMII = MII.base(); // ptr to *next* MI
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for (unsigned i = 0; i < DS; ++i, ++fwdMII) {
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assert(fwdMII != MIVec.end() && "Missing instruction in delay slot?");
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MachineInstr* DelaySlotMI = *fwdMII;
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if (! TM.getInstrInfo().isNop(DelaySlotMI->getOpCode())) {
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set_union(*MInst2LVSetBI[DelaySlotMI], *NewSet);
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if (i+1 == DS)
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set_union(*MInst2LVSetAI[DelaySlotMI], *NewSet);
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}
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}
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}
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if (DEBUG_LV >= LV_DEBUG_Instr) {
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std::cerr << "\nLive var sets before/after instruction " << *MI;
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std::cerr << " Before: "; printSet(*NewSet); std::cerr << "\n";
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std::cerr << " After : "; printSet(*SetAI); std::cerr << "\n";
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}
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// SetAI will be used in the next iteration
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SetAI = NewSet;
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}
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}
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