mirror of
https://github.com/c64scene-ar/llvm-6502.git
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a84c681637
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@11166 91177308-0d34-0410-b5e6-96231b3b80d8
448 lines
15 KiB
C++
448 lines
15 KiB
C++
//===- IPModRef.cpp - Compute IP Mod/Ref information ------------*- C++ -*-===//
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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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// See high-level comments in include/llvm/Analysis/IPModRef.h
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/IPModRef.h"
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#include "llvm/Analysis/DataStructure.h"
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#include "llvm/Analysis/DSGraph.h"
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#include "llvm/Module.h"
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#include "llvm/Function.h"
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#include "llvm/iMemory.h"
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#include "llvm/iOther.h"
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#include "Support/Statistic.h"
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#include "Support/STLExtras.h"
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#include "Support/StringExtras.h"
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#include <vector>
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namespace llvm {
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//----------------------------------------------------------------------------
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// Private constants and data
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//----------------------------------------------------------------------------
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static RegisterAnalysis<IPModRef>
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Z("ipmodref", "Interprocedural mod/ref analysis");
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//----------------------------------------------------------------------------
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// class ModRefInfo
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//----------------------------------------------------------------------------
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void ModRefInfo::print(std::ostream &O,
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const std::string& sprefix) const
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{
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O << sprefix << "Modified nodes = " << modNodeSet;
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O << sprefix << "Referenced nodes = " << refNodeSet;
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}
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void ModRefInfo::dump() const
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{
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print(std::cerr);
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}
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//----------------------------------------------------------------------------
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// class FunctionModRefInfo
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//----------------------------------------------------------------------------
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// This constructor computes a node numbering for the TD graph.
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//
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FunctionModRefInfo::FunctionModRefInfo(const Function& func,
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IPModRef& ipmro,
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DSGraph* tdgClone)
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: F(func), IPModRefObj(ipmro),
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funcTDGraph(tdgClone),
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funcModRefInfo(tdgClone->getGraphSize())
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{
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unsigned i = 0;
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for (DSGraph::node_iterator NI = funcTDGraph->node_begin(),
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E = funcTDGraph->node_end(); NI != E; ++NI)
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NodeIds[*NI] = i++;
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}
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FunctionModRefInfo::~FunctionModRefInfo()
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{
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for(std::map<const Instruction*, ModRefInfo*>::iterator
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I=callSiteModRefInfo.begin(), E=callSiteModRefInfo.end(); I != E; ++I)
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delete(I->second);
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// Empty map just to make problems easier to track down
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callSiteModRefInfo.clear();
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delete funcTDGraph;
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}
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unsigned FunctionModRefInfo::getNodeId(const Value* value) const {
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return getNodeId(funcTDGraph->getNodeForValue(const_cast<Value*>(value))
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.getNode());
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}
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// Compute Mod/Ref bit vectors for the entire function.
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// These are simply copies of the Read/Write flags from the nodes of
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// the top-down DS graph.
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//
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void FunctionModRefInfo::computeModRef(const Function &func)
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{
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// Mark all nodes in the graph that are marked MOD as being mod
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// and all those marked REF as being ref.
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unsigned i = 0;
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for (DSGraph::node_iterator NI = funcTDGraph->node_begin(),
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E = funcTDGraph->node_end(); NI != E; ++NI, ++i) {
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if ((*NI)->isModified()) funcModRefInfo.setNodeIsMod(i);
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if ((*NI)->isRead()) funcModRefInfo.setNodeIsRef(i);
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}
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// Compute the Mod/Ref info for all call sites within the function.
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// The call sites are recorded in the TD graph.
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const std::vector<DSCallSite>& callSites = funcTDGraph->getFunctionCalls();
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for (unsigned i = 0, N = callSites.size(); i < N; ++i)
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computeModRef(callSites[i].getCallSite());
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}
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// ResolveCallSiteModRefInfo - This method performs the following actions:
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//
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// 1. It clones the top-down graph for the current function
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// 2. It clears all of the mod/ref bits in the cloned graph
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// 3. It then merges the bottom-up graph(s) for the specified call-site into
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// the clone (bringing new mod/ref bits).
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// 4. It returns the clone, and a mapping of nodes from the original TDGraph to
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// the cloned graph with Mod/Ref info for the callsite.
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//
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// NOTE: Because this clones a dsgraph and returns it, the caller is responsible
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// for deleting the returned graph!
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// NOTE: This method may return a null pointer if it is unable to determine the
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// requested information (because the call site calls an external
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// function or we cannot determine the complete set of functions invoked).
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//
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DSGraph* FunctionModRefInfo::ResolveCallSiteModRefInfo(CallSite CS,
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hash_map<const DSNode*, DSNodeHandle> &NodeMap)
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{
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// Step #0: Quick check if we are going to fail anyway: avoid
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// all the graph cloning and map copying in steps #1 and #2.
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//
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if (const Function *F = CS.getCalledFunction()) {
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if (F->isExternal())
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return 0; // We cannot compute Mod/Ref info for this callsite...
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} else {
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// Eventually, should check here if any callee is external.
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// For now we are not handling this case anyway.
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std::cerr << "IP Mod/Ref indirect call not implemented yet: "
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<< "Being conservative\n";
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return 0; // We cannot compute Mod/Ref info for this callsite...
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}
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// Step #1: Clone the top-down graph...
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DSGraph *Result = new DSGraph(*funcTDGraph, NodeMap);
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// Step #2: Clear Mod/Ref information...
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Result->maskNodeTypes(~(DSNode::Modified | DSNode::Read));
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// Step #3: clone the bottom up graphs for the callees into the caller graph
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if (Function *F = CS.getCalledFunction())
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{
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assert(!F->isExternal());
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// Build up a DSCallSite for our invocation point here...
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// If the call returns a value, make sure to merge the nodes...
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DSNodeHandle RetVal;
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if (DS::isPointerType(CS.getInstruction()->getType()))
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RetVal = Result->getNodeForValue(CS.getInstruction());
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// Populate the arguments list...
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std::vector<DSNodeHandle> Args;
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for (CallSite::arg_iterator I = CS.arg_begin(), E = CS.arg_end();
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I != E; ++I)
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if (DS::isPointerType((*I)->getType()))
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Args.push_back(Result->getNodeForValue(*I));
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// Build the call site...
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DSCallSite NCS(CS, RetVal, F, Args);
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// Perform the merging now of the graph for the callee, which will
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// come with mod/ref bits set...
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Result->mergeInGraph(NCS, *F, IPModRefObj.getBUDSGraph(*F),
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DSGraph::StripAllocaBit
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| DSGraph::DontCloneCallNodes
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| DSGraph::DontCloneAuxCallNodes);
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}
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else
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assert(0 && "See error message");
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// Remove dead nodes aggressively to match the caller's original graph.
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Result->removeDeadNodes(DSGraph::KeepUnreachableGlobals);
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// Step #4: Return the clone + the mapping (by ref)
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return Result;
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}
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// Compute Mod/Ref bit vectors for a single call site.
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// These are copies of the Read/Write flags from the nodes of
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// the graph produced by clearing all flags in the caller's TD graph
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// and then inlining the callee's BU graph into the caller's TD graph.
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//
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void
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FunctionModRefInfo::computeModRef(CallSite CS)
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{
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// Allocate the mod/ref info for the call site. Bits automatically cleared.
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ModRefInfo* callModRefInfo = new ModRefInfo(funcTDGraph->getGraphSize());
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callSiteModRefInfo[CS.getInstruction()] = callModRefInfo;
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// Get a copy of the graph for the callee with the callee inlined
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hash_map<const DSNode*, DSNodeHandle> NodeMap;
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DSGraph* csgp = ResolveCallSiteModRefInfo(CS, NodeMap);
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if (!csgp)
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{ // Callee's side effects are unknown: mark all nodes Mod and Ref.
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// Eventually this should only mark nodes visible to the callee, i.e.,
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// exclude stack variables not reachable from any outgoing argument
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// or any global.
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callModRefInfo->getModSet().set();
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callModRefInfo->getRefSet().set();
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return;
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}
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// For all nodes in the graph, extract the mod/ref information
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for (DSGraph::node_iterator NI = funcTDGraph->node_begin(),
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E = funcTDGraph->node_end(); NI != E; ++NI) {
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DSNode* csgNode = NodeMap[*NI].getNode();
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assert(csgNode && "Inlined and original graphs do not correspond!");
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if (csgNode->isModified())
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callModRefInfo->setNodeIsMod(getNodeId(*NI));
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if (csgNode->isRead())
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callModRefInfo->setNodeIsRef(getNodeId(*NI));
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}
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// Drop nodemap before we delete the graph...
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NodeMap.clear();
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delete csgp;
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}
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class DSGraphPrintHelper {
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const DSGraph& tdGraph;
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std::vector<std::vector<const Value*> > knownValues; // identifiable objects
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public:
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/*ctor*/ DSGraphPrintHelper(const FunctionModRefInfo& fmrInfo)
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: tdGraph(fmrInfo.getFuncGraph())
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{
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knownValues.resize(tdGraph.getGraphSize());
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// For every identifiable value, save Value pointer in knownValues[i]
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for (hash_map<Value*, DSNodeHandle>::const_iterator
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I = tdGraph.getScalarMap().begin(),
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E = tdGraph.getScalarMap().end(); I != E; ++I)
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if (isa<GlobalValue>(I->first) ||
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isa<Argument>(I->first) ||
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isa<LoadInst>(I->first) ||
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isa<AllocaInst>(I->first) ||
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isa<MallocInst>(I->first))
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{
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unsigned nodeId = fmrInfo.getNodeId(I->second.getNode());
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knownValues[nodeId].push_back(I->first);
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}
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}
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void printValuesInBitVec(std::ostream &O, const BitSetVector& bv) const
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{
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assert(bv.size() == knownValues.size());
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if (bv.none())
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{ // No bits are set: just say so and return
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O << "\tNONE.\n";
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return;
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}
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if (bv.all())
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{ // All bits are set: just say so and return
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O << "\tALL GRAPH NODES.\n";
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return;
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}
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for (unsigned i=0, N=bv.size(); i < N; ++i)
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if (bv.test(i))
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{
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O << "\tNode# " << i << " : ";
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if (! knownValues[i].empty())
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for (unsigned j=0, NV=knownValues[i].size(); j < NV; j++)
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{
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const Value* V = knownValues[i][j];
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if (isa<GlobalValue>(V)) O << "(Global) ";
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else if (isa<Argument>(V)) O << "(Target of FormalParm) ";
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else if (isa<LoadInst>(V)) O << "(Target of LoadInst ) ";
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else if (isa<AllocaInst>(V)) O << "(Target of AllocaInst) ";
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else if (isa<MallocInst>(V)) O << "(Target of MallocInst) ";
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if (V->hasName()) O << V->getName();
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else if (isa<Instruction>(V)) O << *V;
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else O << "(Value*) 0x" << (void*) V;
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O << std::string((j < NV-1)? "; " : "\n");
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}
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#if 0
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else
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tdGraph.getNodes()[i]->print(O, /*graph*/ NULL);
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#endif
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}
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}
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};
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// Print the results of the pass.
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// Currently this just prints bit-vectors and is not very readable.
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//
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void FunctionModRefInfo::print(std::ostream &O) const
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{
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DSGraphPrintHelper DPH(*this);
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O << "========== Mod/ref information for function "
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<< F.getName() << "========== \n\n";
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// First: Print Globals and Locals modified anywhere in the function.
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//
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O << " -----Mod/Ref in the body of function " << F.getName()<< ":\n";
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O << " --Objects modified in the function body:\n";
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DPH.printValuesInBitVec(O, funcModRefInfo.getModSet());
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O << " --Objects referenced in the function body:\n";
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DPH.printValuesInBitVec(O, funcModRefInfo.getRefSet());
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O << " --Mod and Ref vectors for the nodes listed above:\n";
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funcModRefInfo.print(O, "\t");
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O << "\n";
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// Second: Print Globals and Locals modified at each call site in function
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//
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for (std::map<const Instruction *, ModRefInfo*>::const_iterator
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CI = callSiteModRefInfo.begin(), CE = callSiteModRefInfo.end();
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CI != CE; ++CI)
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{
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O << " ----Mod/Ref information for call site\n" << CI->first;
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O << " --Objects modified at call site:\n";
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DPH.printValuesInBitVec(O, CI->second->getModSet());
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O << " --Objects referenced at call site:\n";
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DPH.printValuesInBitVec(O, CI->second->getRefSet());
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O << " --Mod and Ref vectors for the nodes listed above:\n";
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CI->second->print(O, "\t");
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O << "\n";
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}
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O << "\n";
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}
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void FunctionModRefInfo::dump() const
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{
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print(std::cerr);
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}
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//----------------------------------------------------------------------------
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// class IPModRef: An interprocedural pass that computes IP Mod/Ref info.
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//----------------------------------------------------------------------------
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// Free the FunctionModRefInfo objects cached in funcToModRefInfoMap.
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//
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void IPModRef::releaseMemory()
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{
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for(std::map<const Function*, FunctionModRefInfo*>::iterator
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I=funcToModRefInfoMap.begin(), E=funcToModRefInfoMap.end(); I != E; ++I)
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delete(I->second);
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// Clear map so memory is not re-released if we are called again
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funcToModRefInfoMap.clear();
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}
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// Run the "interprocedural" pass on each function. This needs to do
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// NO real interprocedural work because all that has been done the
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// data structure analysis.
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//
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bool IPModRef::run(Module &theModule)
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{
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M = &theModule;
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for (Module::const_iterator FI = M->begin(), FE = M->end(); FI != FE; ++FI)
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if (! FI->isExternal())
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getFuncInfo(*FI, /*computeIfMissing*/ true);
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return true;
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}
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FunctionModRefInfo& IPModRef::getFuncInfo(const Function& func,
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bool computeIfMissing)
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{
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FunctionModRefInfo*& funcInfo = funcToModRefInfoMap[&func];
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assert (funcInfo != NULL || computeIfMissing);
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if (funcInfo == NULL)
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{ // Create a new FunctionModRefInfo object.
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// Clone the top-down graph and remove any dead nodes first, because
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// otherwise original and merged graphs will not match.
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// The memory for this graph clone will be freed by FunctionModRefInfo.
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DSGraph* funcTDGraph =
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new DSGraph(getAnalysis<TDDataStructures>().getDSGraph(func));
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funcTDGraph->removeDeadNodes(DSGraph::KeepUnreachableGlobals);
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funcInfo = new FunctionModRefInfo(func, *this, funcTDGraph); //auto-insert
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funcInfo->computeModRef(func); // computes the mod/ref info
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}
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return *funcInfo;
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}
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/// getBUDSGraph - This method returns the BU data structure graph for F through
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/// the use of the BUDataStructures object.
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///
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const DSGraph &IPModRef::getBUDSGraph(const Function &F) {
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return getAnalysis<BUDataStructures>().getDSGraph(F);
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}
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// getAnalysisUsage - This pass requires top-down data structure graphs.
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// It modifies nothing.
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//
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void IPModRef::getAnalysisUsage(AnalysisUsage &AU) const {
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AU.setPreservesAll();
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AU.addRequired<LocalDataStructures>();
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AU.addRequired<BUDataStructures>();
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AU.addRequired<TDDataStructures>();
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}
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void IPModRef::print(std::ostream &O) const
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{
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O << "\nRESULTS OF INTERPROCEDURAL MOD/REF ANALYSIS:\n\n";
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for (std::map<const Function*, FunctionModRefInfo*>::const_iterator
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mapI = funcToModRefInfoMap.begin(), mapE = funcToModRefInfoMap.end();
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mapI != mapE; ++mapI)
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mapI->second->print(O);
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O << "\n";
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}
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void IPModRef::dump() const
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{
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print(std::cerr);
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}
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} // End llvm namespace
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