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1ae38466e6
implementation .cpp files for analyses are not being included into gccas and friends because it is linking to the .a file and there is no explicit symbol reference to bring in the .o file. The new IncludeFile hack is the result. llvm-svn: 3436
573 lines
19 KiB
C++
573 lines
19 KiB
C++
//===- Pass.cpp - LLVM Pass Infrastructure Impementation ------------------===//
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//
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// This file implements the LLVM Pass infrastructure. It is primarily
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// responsible with ensuring that passes are executed and batched together
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// optimally.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/PassManager.h"
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#include "PassManagerT.h" // PassManagerT implementation
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#include "llvm/Module.h"
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#include "Support/STLExtras.h"
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#include "Support/TypeInfo.h"
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#include <stdio.h>
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#include <sys/resource.h>
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#include <sys/unistd.h>
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#include <set>
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// IncludeFile - Stub function used to help linking out.
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IncludeFile::IncludeFile(void*) {}
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//===----------------------------------------------------------------------===//
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// AnalysisID Class Implementation
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//
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static std::vector<const PassInfo*> CFGOnlyAnalyses;
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void RegisterPassBase::setPreservesCFG() {
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CFGOnlyAnalyses.push_back(PIObj);
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}
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//===----------------------------------------------------------------------===//
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// AnalysisResolver Class Implementation
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//
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void AnalysisResolver::setAnalysisResolver(Pass *P, AnalysisResolver *AR) {
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assert(P->Resolver == 0 && "Pass already in a PassManager!");
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P->Resolver = AR;
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}
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//===----------------------------------------------------------------------===//
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// AnalysisUsage Class Implementation
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//
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// preservesCFG - This function should be called to by the pass, iff they do
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// not:
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//
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// 1. Add or remove basic blocks from the function
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// 2. Modify terminator instructions in any way.
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//
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// This function annotates the AnalysisUsage info object to say that analyses
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// that only depend on the CFG are preserved by this pass.
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//
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void AnalysisUsage::preservesCFG() {
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// Since this transformation doesn't modify the CFG, it preserves all analyses
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// that only depend on the CFG (like dominators, loop info, etc...)
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//
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Preserved.insert(Preserved.end(),
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CFGOnlyAnalyses.begin(), CFGOnlyAnalyses.end());
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}
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//===----------------------------------------------------------------------===//
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// PassManager implementation - The PassManager class is a simple Pimpl class
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// that wraps the PassManagerT template.
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//
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PassManager::PassManager() : PM(new PassManagerT<Module>()) {}
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PassManager::~PassManager() { delete PM; }
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void PassManager::add(Pass *P) { PM->add(P); }
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bool PassManager::run(Module &M) { return PM->run(M); }
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//===----------------------------------------------------------------------===//
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// TimingInfo Class - This class is used to calculate information about the
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// amount of time each pass takes to execute. This only happens with
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// -time-passes is enabled on the command line.
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//
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static cl::opt<bool>
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EnableTiming("time-passes",
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cl::desc("Time each pass, printing elapsed time for each on exit"));
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static TimeRecord getTimeRecord() {
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static unsigned long PageSize = 0;
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if (PageSize == 0) {
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#ifdef _SC_PAGE_SIZE
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PageSize = sysconf(_SC_PAGE_SIZE);
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#else
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#ifdef _SC_PAGESIZE
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PageSize = sysconf(_SC_PAGESIZE);
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#else
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PageSize = getpagesize();
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#endif
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#endif
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}
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struct rusage RU;
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struct timeval T;
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gettimeofday(&T, 0);
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if (getrusage(RUSAGE_SELF, &RU)) {
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perror("getrusage call failed: -time-passes info incorrect!");
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}
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TimeRecord Result;
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Result.Elapsed = T.tv_sec + T.tv_usec/1000000.0;
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Result.UserTime = RU.ru_utime.tv_sec + RU.ru_utime.tv_usec/1000000.0;
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Result.SystemTime = RU.ru_stime.tv_sec + RU.ru_stime.tv_usec/1000000.0;
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Result.MaxRSS = RU.ru_maxrss*PageSize;
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return Result;
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}
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bool TimeRecord::operator<(const TimeRecord &TR) const {
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// Primary sort key is User+System time
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if (UserTime+SystemTime < TR.UserTime+TR.SystemTime)
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return true;
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if (UserTime+SystemTime > TR.UserTime+TR.SystemTime)
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return false;
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// Secondary sort key is Wall Time
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return Elapsed < TR.Elapsed;
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}
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void TimeRecord::passStart(const TimeRecord &T) {
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Elapsed -= T.Elapsed;
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UserTime -= T.UserTime;
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SystemTime -= T.SystemTime;
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RSSTemp = T.MaxRSS;
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}
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void TimeRecord::passEnd(const TimeRecord &T) {
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Elapsed += T.Elapsed;
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UserTime += T.UserTime;
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SystemTime += T.SystemTime;
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RSSTemp = T.MaxRSS - RSSTemp;
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MaxRSS = std::max(MaxRSS, RSSTemp);
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}
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static void printVal(double Val, double Total) {
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if (Total < 1e-7) // Avoid dividing by zero...
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fprintf(stderr, " ----- ");
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else
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fprintf(stderr, " %7.4f (%5.1f%%)", Val, Val*100/Total);
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}
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void TimeRecord::print(const char *PassName, const TimeRecord &Total) const {
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printVal(UserTime, Total.UserTime);
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printVal(SystemTime, Total.SystemTime);
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printVal(UserTime+SystemTime, Total.UserTime+Total.SystemTime);
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printVal(Elapsed, Total.Elapsed);
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fprintf(stderr, " ");
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if (Total.MaxRSS)
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std::cerr << MaxRSS << "\t";
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std::cerr << PassName << "\n";
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}
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// Create method. If Timing is enabled, this creates and returns a new timing
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// object, otherwise it returns null.
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//
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TimingInfo *TimingInfo::create() {
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return EnableTiming ? new TimingInfo() : 0;
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}
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void TimingInfo::passStarted(Pass *P) {
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TimingData[P].passStart(getTimeRecord());
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}
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void TimingInfo::passEnded(Pass *P) {
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TimingData[P].passEnd(getTimeRecord());
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}
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void TimeRecord::sum(const TimeRecord &TR) {
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Elapsed += TR.Elapsed;
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UserTime += TR.UserTime;
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SystemTime += TR.SystemTime;
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MaxRSS += TR.MaxRSS;
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}
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// TimingDtor - Print out information about timing information
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TimingInfo::~TimingInfo() {
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// Iterate over all of the data, converting it into the dual of the data map,
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// so that the data is sorted by amount of time taken, instead of pointer.
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//
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std::vector<std::pair<TimeRecord, Pass*> > Data;
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TimeRecord Total;
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for (std::map<Pass*, TimeRecord>::iterator I = TimingData.begin(),
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E = TimingData.end(); I != E; ++I)
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// Throw out results for "grouping" pass managers...
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if (!dynamic_cast<AnalysisResolver*>(I->first)) {
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Data.push_back(std::make_pair(I->second, I->first));
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Total.sum(I->second);
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}
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// Sort the data by time as the primary key, in reverse order...
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std::sort(Data.begin(), Data.end(),
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std::greater<std::pair<TimeRecord, Pass*> >());
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// Print out timing header...
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std::cerr << std::string(79, '=') << "\n"
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<< " ... Pass execution timing report ...\n"
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<< std::string(79, '=') << "\n Total Execution Time: "
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<< (Total.UserTime+Total.SystemTime) << " seconds ("
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<< Total.Elapsed << " wall clock)\n\n ---User Time--- "
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<< "--System Time-- --User+System-- ---Wall Time---";
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if (Total.MaxRSS)
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std::cerr << " ---Mem---";
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std::cerr << " --- Pass Name ---\n";
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// Loop through all of the timing data, printing it out...
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for (unsigned i = 0, e = Data.size(); i != e; ++i)
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Data[i].first.print(Data[i].second->getPassName(), Total);
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Total.print("TOTAL", Total);
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}
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void PMDebug::PrintArgumentInformation(const Pass *P) {
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// Print out passes in pass manager...
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if (const AnalysisResolver *PM = dynamic_cast<const AnalysisResolver*>(P)) {
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for (unsigned i = 0, e = PM->getNumContainedPasses(); i != e; ++i)
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PrintArgumentInformation(PM->getContainedPass(i));
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} else { // Normal pass. Print argument information...
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// Print out arguments for registered passes that are _optimizations_
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if (const PassInfo *PI = P->getPassInfo())
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if (PI->getPassType() & PassInfo::Optimization)
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std::cerr << " -" << PI->getPassArgument();
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}
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}
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void PMDebug::PrintPassInformation(unsigned Depth, const char *Action,
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Pass *P, Annotable *V) {
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if (PassDebugging >= Executions) {
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std::cerr << (void*)P << std::string(Depth*2+1, ' ') << Action << " '"
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<< P->getPassName();
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if (V) {
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std::cerr << "' on ";
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if (dynamic_cast<Module*>(V)) {
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std::cerr << "Module\n"; return;
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} else if (Function *F = dynamic_cast<Function*>(V))
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std::cerr << "Function '" << F->getName();
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else if (BasicBlock *BB = dynamic_cast<BasicBlock*>(V))
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std::cerr << "BasicBlock '" << BB->getName();
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else if (Value *Val = dynamic_cast<Value*>(V))
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std::cerr << typeid(*Val).name() << " '" << Val->getName();
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}
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std::cerr << "'...\n";
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}
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}
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void PMDebug::PrintAnalysisSetInfo(unsigned Depth, const char *Msg,
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Pass *P, const std::vector<AnalysisID> &Set){
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if (PassDebugging >= Details && !Set.empty()) {
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std::cerr << (void*)P << std::string(Depth*2+3, ' ') << Msg << " Analyses:";
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for (unsigned i = 0; i != Set.size(); ++i)
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std::cerr << " " << Set[i]->getPassName();
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std::cerr << "\n";
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}
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}
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//===----------------------------------------------------------------------===//
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// Pass Implementation
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//
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void Pass::addToPassManager(PassManagerT<Module> *PM, AnalysisUsage &AU) {
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PM->addPass(this, AU);
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}
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// dumpPassStructure - Implement the -debug-passes=Structure option
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void Pass::dumpPassStructure(unsigned Offset) {
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std::cerr << std::string(Offset*2, ' ') << getPassName() << "\n";
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}
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// getPassName - Use C++ RTTI to get a SOMEWHAT intelligable name for the pass.
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//
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const char *Pass::getPassName() const {
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if (const PassInfo *PI = getPassInfo())
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return PI->getPassName();
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return typeid(*this).name();
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}
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// print - Print out the internal state of the pass. This is called by Analyse
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// to print out the contents of an analysis. Otherwise it is not neccesary to
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// implement this method.
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//
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void Pass::print(std::ostream &O) const {
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O << "Pass::print not implemented for pass: '" << getPassName() << "'!\n";
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}
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// dump - call print(std::cerr);
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void Pass::dump() const {
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print(std::cerr, 0);
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}
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//===----------------------------------------------------------------------===//
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// FunctionPass Implementation
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//
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// run - On a module, we run this pass by initializing, runOnFunction'ing once
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// for every function in the module, then by finalizing.
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//
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bool FunctionPass::run(Module &M) {
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bool Changed = doInitialization(M);
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for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I)
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if (!I->isExternal()) // Passes are not run on external functions!
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Changed |= runOnFunction(*I);
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return Changed | doFinalization(M);
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}
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// run - On a function, we simply initialize, run the function, then finalize.
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//
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bool FunctionPass::run(Function &F) {
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if (F.isExternal()) return false;// Passes are not run on external functions!
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return doInitialization(*F.getParent()) | runOnFunction(F)
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| doFinalization(*F.getParent());
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}
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void FunctionPass::addToPassManager(PassManagerT<Module> *PM,
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AnalysisUsage &AU) {
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PM->addPass(this, AU);
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}
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void FunctionPass::addToPassManager(PassManagerT<Function> *PM,
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AnalysisUsage &AU) {
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PM->addPass(this, AU);
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}
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//===----------------------------------------------------------------------===//
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// BasicBlockPass Implementation
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//
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// To run this pass on a function, we simply call runOnBasicBlock once for each
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// function.
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//
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bool BasicBlockPass::runOnFunction(Function &F) {
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bool Changed = false;
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for (Function::iterator I = F.begin(), E = F.end(); I != E; ++I)
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Changed |= runOnBasicBlock(*I);
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return Changed;
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}
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// To run directly on the basic block, we initialize, runOnBasicBlock, then
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// finalize.
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//
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bool BasicBlockPass::run(BasicBlock &BB) {
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Module &M = *BB.getParent()->getParent();
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return doInitialization(M) | runOnBasicBlock(BB) | doFinalization(M);
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}
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void BasicBlockPass::addToPassManager(PassManagerT<Function> *PM,
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AnalysisUsage &AU) {
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PM->addPass(this, AU);
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}
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void BasicBlockPass::addToPassManager(PassManagerT<BasicBlock> *PM,
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AnalysisUsage &AU) {
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PM->addPass(this, AU);
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}
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//===----------------------------------------------------------------------===//
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// Pass Registration mechanism
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//
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static std::map<TypeInfo, PassInfo*> *PassInfoMap = 0;
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static std::vector<PassRegistrationListener*> *Listeners = 0;
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// getPassInfo - Return the PassInfo data structure that corresponds to this
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// pass...
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const PassInfo *Pass::getPassInfo() const {
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if (PassInfoCache) return PassInfoCache;
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return lookupPassInfo(typeid(*this));
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}
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const PassInfo *Pass::lookupPassInfo(const std::type_info &TI) {
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if (PassInfoMap == 0) return 0;
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std::map<TypeInfo, PassInfo*>::iterator I = PassInfoMap->find(TI);
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return (I != PassInfoMap->end()) ? I->second : 0;
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}
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void RegisterPassBase::registerPass(PassInfo *PI) {
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if (PassInfoMap == 0)
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PassInfoMap = new std::map<TypeInfo, PassInfo*>();
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assert(PassInfoMap->find(PI->getTypeInfo()) == PassInfoMap->end() &&
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"Pass already registered!");
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PIObj = PI;
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PassInfoMap->insert(std::make_pair(TypeInfo(PI->getTypeInfo()), PI));
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// Notify any listeners...
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if (Listeners)
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for (std::vector<PassRegistrationListener*>::iterator
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I = Listeners->begin(), E = Listeners->end(); I != E; ++I)
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(*I)->passRegistered(PI);
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}
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void RegisterPassBase::unregisterPass(PassInfo *PI) {
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assert(PassInfoMap && "Pass registered but not in map!");
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std::map<TypeInfo, PassInfo*>::iterator I =
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PassInfoMap->find(PI->getTypeInfo());
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assert(I != PassInfoMap->end() && "Pass registered but not in map!");
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// Remove pass from the map...
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PassInfoMap->erase(I);
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if (PassInfoMap->empty()) {
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delete PassInfoMap;
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PassInfoMap = 0;
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}
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// Notify any listeners...
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if (Listeners)
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for (std::vector<PassRegistrationListener*>::iterator
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I = Listeners->begin(), E = Listeners->end(); I != E; ++I)
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(*I)->passUnregistered(PI);
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// Delete the PassInfo object itself...
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delete PI;
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}
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//===----------------------------------------------------------------------===//
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// Analysis Group Implementation Code
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//===----------------------------------------------------------------------===//
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struct AnalysisGroupInfo {
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const PassInfo *DefaultImpl;
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std::set<const PassInfo *> Implementations;
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AnalysisGroupInfo() : DefaultImpl(0) {}
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};
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static std::map<const PassInfo *, AnalysisGroupInfo> *AnalysisGroupInfoMap = 0;
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// RegisterAGBase implementation
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//
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RegisterAGBase::RegisterAGBase(const std::type_info &Interface,
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const std::type_info *Pass, bool isDefault)
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: ImplementationInfo(0), isDefaultImplementation(isDefault) {
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InterfaceInfo = const_cast<PassInfo*>(Pass::lookupPassInfo(Interface));
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if (InterfaceInfo == 0) { // First reference to Interface, add it now.
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InterfaceInfo = // Create the new PassInfo for the interface...
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new PassInfo("", "", Interface, PassInfo::AnalysisGroup, 0, 0);
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registerPass(InterfaceInfo);
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PIObj = 0;
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}
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assert(InterfaceInfo->getPassType() == PassInfo::AnalysisGroup &&
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"Trying to join an analysis group that is a normal pass!");
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if (Pass) {
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ImplementationInfo = Pass::lookupPassInfo(*Pass);
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assert(ImplementationInfo &&
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"Must register pass before adding to AnalysisGroup!");
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// Lazily allocate to avoid nasty initialization order dependencies
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if (AnalysisGroupInfoMap == 0)
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AnalysisGroupInfoMap = new std::map<const PassInfo *,AnalysisGroupInfo>();
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AnalysisGroupInfo &AGI = (*AnalysisGroupInfoMap)[InterfaceInfo];
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assert(AGI.Implementations.count(ImplementationInfo) == 0 &&
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"Cannot add a pass to the same analysis group more than once!");
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AGI.Implementations.insert(ImplementationInfo);
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if (isDefault) {
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assert(AGI.DefaultImpl == 0 && InterfaceInfo->getNormalCtor() == 0 &&
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"Default implementation for analysis group already specified!");
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assert(ImplementationInfo->getNormalCtor() &&
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"Cannot specify pass as default if it does not have a default ctor");
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AGI.DefaultImpl = ImplementationInfo;
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InterfaceInfo->setNormalCtor(ImplementationInfo->getNormalCtor());
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}
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}
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}
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void RegisterAGBase::setGroupName(const char *Name) {
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assert(InterfaceInfo->getPassName()[0] == 0 && "Interface Name already set!");
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InterfaceInfo->setPassName(Name);
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}
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RegisterAGBase::~RegisterAGBase() {
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if (ImplementationInfo) {
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assert(AnalysisGroupInfoMap && "Inserted into map, but map doesn't exist?");
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AnalysisGroupInfo &AGI = (*AnalysisGroupInfoMap)[InterfaceInfo];
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assert(AGI.Implementations.count(ImplementationInfo) &&
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"Pass not a member of analysis group?");
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if (AGI.DefaultImpl == ImplementationInfo)
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AGI.DefaultImpl = 0;
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AGI.Implementations.erase(ImplementationInfo);
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// Last member of this analysis group? Unregister PassInfo, delete map entry
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if (AGI.Implementations.empty()) {
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assert(AGI.DefaultImpl == 0 &&
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"Default implementation didn't unregister?");
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AnalysisGroupInfoMap->erase(InterfaceInfo);
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if (AnalysisGroupInfoMap->empty()) { // Delete map if empty
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delete AnalysisGroupInfoMap;
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|
AnalysisGroupInfoMap = 0;
|
|
}
|
|
|
|
unregisterPass(InterfaceInfo);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
// findAnalysisGroupMember - Return an iterator pointing to one of the elements
|
|
// of Map if there is a pass in Map that is a member of the analysis group for
|
|
// the specified AnalysisGroupID.
|
|
//
|
|
static std::map<const PassInfo*, Pass*>::const_iterator
|
|
findAnalysisGroupMember(const PassInfo *AnalysisGroupID,
|
|
const std::map<const PassInfo*, Pass*> &Map) {
|
|
assert(AnalysisGroupID->getPassType() == PassInfo::AnalysisGroup &&
|
|
"AnalysisGroupID is not an analysis group!");
|
|
assert(AnalysisGroupInfoMap && AnalysisGroupInfoMap->count(AnalysisGroupID) &&
|
|
"Analysis Group does not have any registered members!");
|
|
|
|
// Get the set of all known implementations of this analysis group...
|
|
std::set<const PassInfo *> &Impls =
|
|
(*AnalysisGroupInfoMap)[AnalysisGroupID].Implementations;
|
|
|
|
// Scan over available passes, checking to see if any is a valid analysis
|
|
for (std::map<const PassInfo*, Pass*>::const_iterator I = Map.begin(),
|
|
E = Map.end(); I != E; ++I)
|
|
if (Impls.count(I->first)) // This is a valid analysis, return it.
|
|
return I;
|
|
|
|
return Map.end(); // Nothing of use found.
|
|
}
|
|
|
|
|
|
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// PassRegistrationListener implementation
|
|
//
|
|
|
|
// PassRegistrationListener ctor - Add the current object to the list of
|
|
// PassRegistrationListeners...
|
|
PassRegistrationListener::PassRegistrationListener() {
|
|
if (!Listeners) Listeners = new std::vector<PassRegistrationListener*>();
|
|
Listeners->push_back(this);
|
|
}
|
|
|
|
// dtor - Remove object from list of listeners...
|
|
PassRegistrationListener::~PassRegistrationListener() {
|
|
std::vector<PassRegistrationListener*>::iterator I =
|
|
std::find(Listeners->begin(), Listeners->end(), this);
|
|
assert(Listeners && I != Listeners->end() &&
|
|
"PassRegistrationListener not registered!");
|
|
Listeners->erase(I);
|
|
|
|
if (Listeners->empty()) {
|
|
delete Listeners;
|
|
Listeners = 0;
|
|
}
|
|
}
|
|
|
|
// enumeratePasses - Iterate over the registered passes, calling the
|
|
// passEnumerate callback on each PassInfo object.
|
|
//
|
|
void PassRegistrationListener::enumeratePasses() {
|
|
if (PassInfoMap)
|
|
for (std::map<TypeInfo, PassInfo*>::iterator I = PassInfoMap->begin(),
|
|
E = PassInfoMap->end(); I != E; ++I)
|
|
passEnumerate(I->second);
|
|
}
|