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https://github.com/RPCS3/llvm-mirror.git
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487b119dc9
present in the module. llvm-svn: 97232
300 lines
9.9 KiB
C++
300 lines
9.9 KiB
C++
//===-- PIC16Cloner.cpp - PIC16 LLVM Cloner for shared functions -*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains code to clone all functions that are shared between
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// the main line code (ML) and interrupt line code (IL). It clones all such
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// shared functions and their automatic global vars by adding the .IL suffix.
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//
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// This pass is supposed to be run on the linked .bc module.
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// It traveses the module call graph twice. Once starting from the main function
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// and marking each reached function as "ML". Again, starting from the ISR
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// and cloning any reachable function that was marked as "ML". After cloning
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// the function, it remaps all the call sites in IL functions to call the
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// cloned functions.
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/CallGraph.h"
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#include "llvm/Pass.h"
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#include "llvm/Module.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/Transforms/Utils/Cloning.h"
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#include "PIC16Cloner.h"
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#include "../PIC16ABINames.h"
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#include <vector>
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using namespace llvm;
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using std::vector;
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using std::string;
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using std::map;
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namespace llvm {
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char PIC16Cloner::ID = 0;
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ModulePass *createPIC16ClonerPass() { return new PIC16Cloner(); }
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}
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// We currently intend to run these passes in opt, which does not have any
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// diagnostic support. So use these functions for now. In future
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// we will probably write our own driver tool.
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//
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void PIC16Cloner::reportError(string ErrorString) {
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errs() << "ERROR : " << ErrorString << "\n";
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exit(1);
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}
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void PIC16Cloner::
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reportError (string ErrorString, vector<string> &Values) {
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unsigned ValCount = Values.size();
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string TargetString;
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for (unsigned i=0; i<ValCount; ++i) {
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TargetString = "%";
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TargetString += ((char)i + '0');
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ErrorString.replace(ErrorString.find(TargetString), TargetString.length(),
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Values[i]);
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}
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errs() << "ERROR : " << ErrorString << "\n";
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exit(1);
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}
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// Entry point
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//
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bool PIC16Cloner::runOnModule(Module &M) {
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CallGraph &CG = getAnalysis<CallGraph>();
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// Search for the "main" and "ISR" functions.
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CallGraphNode *mainCGN = NULL, *isrCGN = NULL;
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for (CallGraph::iterator it = CG.begin() ; it != CG.end(); it++)
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{
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// External calling node doesn't have any function associated with it.
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if (! it->first)
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continue;
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if (it->first->getName().str() == "main") {
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mainCGN = it->second;
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}
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if (PAN::isISR(it->first->getSection())) {
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isrCGN = it->second;
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}
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// Don't search further if we've found both.
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if (mainCGN && isrCGN)
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break;
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}
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// We have nothing to do if any of the main or ISR is missing.
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if (! mainCGN || ! isrCGN) return false;
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// Time for some diagnostics.
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// See if the main itself is interrupt function then report an error.
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if (PAN::isISR(mainCGN->getFunction()->getSection())) {
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reportError("Function 'main' can't be interrupt function");
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}
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// Mark all reachable functions from main as ML.
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markCallGraph(mainCGN, "ML");
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// And then all the functions reachable from ISR will be cloned.
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cloneSharedFunctions(isrCGN);
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return true;
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}
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// Mark all reachable functions from the given node, with the given mark.
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//
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void PIC16Cloner::markCallGraph(CallGraphNode *CGN, string StringMark) {
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// Mark the top node first.
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Function *thisF = CGN->getFunction();
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thisF->setSection(StringMark);
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// Mark all the called functions
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for(CallGraphNode::iterator cgn_it = CGN->begin();
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cgn_it != CGN->end(); ++cgn_it) {
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Function *CalledF = cgn_it->second->getFunction();
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// If calling an external function then CallGraphNode
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// will not be associated with any function.
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if (! CalledF)
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continue;
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// Issue diagnostic if interrupt function is being called.
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if (PAN::isISR(CalledF->getSection())) {
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vector<string> Values;
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Values.push_back(CalledF->getName().str());
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reportError("Interrupt function (%0) can't be called", Values);
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}
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// Has already been mark
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if (CalledF->getSection().find(StringMark) != string::npos) {
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// Should we do anything here?
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} else {
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// Mark now
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CalledF->setSection(StringMark);
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}
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// Before going any further mark all the called function by current
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// function.
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markCallGraph(cgn_it->second ,StringMark);
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} // end of loop of all called functions.
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}
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// For PIC16, automatic variables of a function are emitted as globals.
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// Clone the auto variables of a function and put them in ValueMap,
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// this ValueMap will be used while
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// Cloning the code of function itself.
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//
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void PIC16Cloner::CloneAutos(Function *F) {
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// We'll need to update module's globals list as well. So keep a reference
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// handy.
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Module *M = F->getParent();
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Module::GlobalListType &Globals = M->getGlobalList();
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// Clear the leftovers in ValueMap by any previous cloning.
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ValueMap.clear();
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// Find the auto globls for this function and clone them, and put them
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// in ValueMap.
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std::string FnName = F->getName().str();
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std::string VarName, ClonedVarName;
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for (Module::global_iterator I = M->global_begin(), E = M->global_end();
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I != E; ++I) {
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VarName = I->getName().str();
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if (PAN::isLocalToFunc(FnName, VarName)) {
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// Auto variable for current function found. Clone it.
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GlobalVariable *GV = I;
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const Type *InitTy = GV->getInitializer()->getType();
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GlobalVariable *ClonedGV =
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new GlobalVariable(InitTy, false, GV->getLinkage(),
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GV->getInitializer());
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ClonedGV->setName(PAN::getCloneVarName(FnName, VarName));
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// Add these new globals to module's globals list.
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Globals.push_back(ClonedGV);
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// Update ValueMap.
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ValueMap[GV] = ClonedGV;
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}
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}
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}
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// Clone all functions that are reachable from ISR and are already
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// marked as ML.
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//
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void PIC16Cloner::cloneSharedFunctions(CallGraphNode *CGN) {
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// Check all the called functions from ISR.
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for(CallGraphNode::iterator cgn_it = CGN->begin();
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cgn_it != CGN->end(); ++cgn_it) {
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Function *CalledF = cgn_it->second->getFunction();
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// If calling an external function then CallGraphNode
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// will not be associated with any function.
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if (!CalledF)
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continue;
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// Issue diagnostic if interrupt function is being called.
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if (PAN::isISR(CalledF->getSection())) {
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vector<string> Values;
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Values.push_back(CalledF->getName().str());
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reportError("Interrupt function (%0) can't be called", Values);
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}
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if (CalledF->getSection().find("ML") != string::npos) {
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// Function is alternatively marked. It should be a shared one.
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// Create IL copy. Passing called function as first argument
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// and the caller as the second argument.
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// Before making IL copy, first ensure that this function has a
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// body. If the function does have a body. It can't be cloned.
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// Such a case may occur when the function has been declarated
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// in the C source code but its body exists in assembly file.
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if (!CalledF->isDeclaration()) {
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Function *cf = cloneFunction(CalledF);
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remapAllSites(CGN->getFunction(), CalledF, cf);
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} else {
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// It is called only from ISR. Still mark it as we need this info
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// in code gen while calling intrinsics.Function is not marked.
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CalledF->setSection("IL");
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}
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}
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// Before going any further clone all the shared function reachaable
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// by current function.
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cloneSharedFunctions(cgn_it->second);
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} // end of loop of all called functions.
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}
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// Clone the given function and return it.
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// Note: it uses the ValueMap member of the class, which is already populated
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// by cloneAutos by the time we reach here.
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// FIXME: Should we just pass ValueMap's ref as a parameter here? rather
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// than keeping the ValueMap as a member.
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Function *
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PIC16Cloner::cloneFunction(Function *OrgF) {
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Function *ClonedF;
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// See if we already cloned it. Return that.
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cloned_map_iterator cm_it = ClonedFunctionMap.find(OrgF);
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if(cm_it != ClonedFunctionMap.end()) {
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ClonedF = cm_it->second;
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return ClonedF;
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}
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// Clone does not exist.
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// First clone the autos, and populate ValueMap.
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CloneAutos(OrgF);
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// Now create the clone.
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ClonedF = CloneFunction(OrgF, ValueMap);
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// The new function should be for interrupt line. Therefore should have
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// the name suffixed with IL and section attribute marked with IL.
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ClonedF->setName(PAN::getCloneFnName(OrgF->getName()));
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ClonedF->setSection("IL");
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// Add the newly created function to the module.
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OrgF->getParent()->getFunctionList().push_back(ClonedF);
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// Update the ClonedFunctionMap to record this cloning activity.
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ClonedFunctionMap[OrgF] = ClonedF;
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return ClonedF;
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}
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// Remap the call sites of shared functions, that are in IL.
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// Change the IL call site of a shared function to its clone.
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//
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void PIC16Cloner::
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remapAllSites(Function *Caller, Function *OrgF, Function *Clone) {
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// First find the caller to update. If the caller itself is cloned
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// then use the cloned caller. Otherwise use it.
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cloned_map_iterator cm_it = ClonedFunctionMap.find(Caller);
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if (cm_it != ClonedFunctionMap.end())
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Caller = cm_it->second;
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// For the lack of a better call site finding mechanism, iterate over
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// all insns to find the uses of original fn.
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for (Function::iterator BI = Caller->begin(); BI != Caller->end(); ++BI) {
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BasicBlock &BB = *BI;
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for (BasicBlock::iterator II = BB.begin(); II != BB.end(); ++II) {
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if (II->getNumOperands() > 0 && II->getOperand(0) == OrgF)
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II->setOperand(0, Clone);
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}
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}
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}
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