/*============================================================================ CMake - Cross Platform Makefile Generator Copyright 2000-2009 Kitware, Inc., Insight Software Consortium Distributed under the OSI-approved BSD License (the "License"); see accompanying file Copyright.txt for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the License for more information. ============================================================================*/ #include "cmCTestMultiProcessHandler.h" #include "cmProcess.h" #include "cmStandardIncludes.h" #include "cmCTest.h" #include "cmSystemTools.h" #include #include #include #include class TestComparator { public: TestComparator(cmCTestMultiProcessHandler* handler) : Handler(handler) {} ~TestComparator() {} // Sorts tests in descending order of cost bool operator() (int index1, int index2) const { return Handler->Properties[index1]->Cost > Handler->Properties[index2]->Cost; } private: cmCTestMultiProcessHandler* Handler; }; cmCTestMultiProcessHandler::cmCTestMultiProcessHandler() { this->ParallelLevel = 1; this->Completed = 0; this->RunningCount = 0; this->StopTimePassed = false; this->HasCycles = false; } cmCTestMultiProcessHandler::~cmCTestMultiProcessHandler() { } // Set the tests void cmCTestMultiProcessHandler::SetTests(TestMap& tests, PropertiesMap& properties) { this->Tests = tests; this->Properties = properties; this->Total = this->Tests.size(); // set test run map to false for all for(TestMap::iterator i = this->Tests.begin(); i != this->Tests.end(); ++i) { this->TestRunningMap[i->first] = false; this->TestFinishMap[i->first] = false; } if(!this->CTest->GetShowOnly()) { this->ReadCostData(); this->HasCycles = !this->CheckCycles(); if(this->HasCycles) { return; } this->CreateTestCostList(); } } // Set the max number of tests that can be run at the same time. void cmCTestMultiProcessHandler::SetParallelLevel(size_t level) { this->ParallelLevel = level < 1 ? 1 : level; } //--------------------------------------------------------- void cmCTestMultiProcessHandler::RunTests() { this->CheckResume(); if(this->HasCycles) { return; } this->TestHandler->SetMaxIndex(this->FindMaxIndex()); this->StartNextTests(); while(this->Tests.size() != 0) { if(this->StopTimePassed) { return; } this->CheckOutput(); this->StartNextTests(); } // let all running tests finish while(this->CheckOutput()) { } this->MarkFinished(); this->UpdateCostData(); } //--------------------------------------------------------- void cmCTestMultiProcessHandler::StartTestProcess(int test) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "test " << test << "\n"); this->TestRunningMap[test] = true; // mark the test as running // now remove the test itself this->EraseTest(test); this->RunningCount += GetProcessorsUsed(test); cmCTestRunTest* testRun = new cmCTestRunTest(this->TestHandler); testRun->SetIndex(test); testRun->SetTestProperties(this->Properties[test]); std::string current_dir = cmSystemTools::GetCurrentWorkingDirectory(); cmSystemTools::ChangeDirectory(this->Properties[test]->Directory); // Lock the resources we'll be using this->LockResources(test); if(testRun->StartTest(this->Total)) { this->RunningTests.insert(testRun); } else if(testRun->IsStopTimePassed()) { this->StopTimePassed = true; delete testRun; return; } else { for(TestMap::iterator j = this->Tests.begin(); j != this->Tests.end(); ++j) { j->second.erase(test); } this->UnlockResources(test); this->Completed++; this->TestFinishMap[test] = true; this->TestRunningMap[test] = false; this->RunningCount -= GetProcessorsUsed(test); testRun->EndTest(this->Completed, this->Total, false); this->Failed->push_back(this->Properties[test]->Name); delete testRun; } cmSystemTools::ChangeDirectory(current_dir); } //--------------------------------------------------------- void cmCTestMultiProcessHandler::LockResources(int index) { this->LockedResources.insert( this->Properties[index]->LockedResources.begin(), this->Properties[index]->LockedResources.end()); } //--------------------------------------------------------- void cmCTestMultiProcessHandler::UnlockResources(int index) { for(std::set::iterator i = this->Properties[index]->LockedResources.begin(); i != this->Properties[index]->LockedResources.end(); ++i) { this->LockedResources.erase(*i); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::EraseTest(int test) { this->Tests.erase(test); this->SortedTests.erase( std::find(this->SortedTests.begin(), this->SortedTests.end(), test)); } //--------------------------------------------------------- inline size_t cmCTestMultiProcessHandler::GetProcessorsUsed(int test) { size_t processors = static_cast(this->Properties[test]->Processors); //If this is set to run serially, it must run alone. //Also, if processors setting is set higher than the -j //setting, we default to using all of the process slots. if(this->Properties[test]->RunSerial || processors > this->ParallelLevel) { processors = this->ParallelLevel; } return processors; } //--------------------------------------------------------- bool cmCTestMultiProcessHandler::StartTest(int test) { //Check for locked resources for(std::set::iterator i = this->Properties[test]->LockedResources.begin(); i != this->Properties[test]->LockedResources.end(); ++i) { if(this->LockedResources.find(*i) != this->LockedResources.end()) { return false; } } // if there are no depends left then run this test if(this->Tests[test].empty()) { this->StartTestProcess(test); return true; } // This test was not able to start because it is waiting // on depends to run return false; } //--------------------------------------------------------- void cmCTestMultiProcessHandler::StartNextTests() { size_t numToStart = 0; if(this->RunningCount < this->ParallelLevel) { numToStart = this->ParallelLevel - this->RunningCount; } if(numToStart == 0) { return; } TestList copy = this->SortedTests; for(TestList::iterator test = copy.begin(); test != copy.end(); ++test) { size_t processors = GetProcessorsUsed(*test); if(processors <= numToStart && this->StartTest(*test)) { if(this->StopTimePassed) { return; } numToStart -= processors; } else if(numToStart == 0) { return; } } } //--------------------------------------------------------- bool cmCTestMultiProcessHandler::CheckOutput() { // no more output we are done if(this->RunningTests.size() == 0) { return false; } std::vector finished; std::string out, err; for(std::set::const_iterator i = this->RunningTests.begin(); i != this->RunningTests.end(); ++i) { cmCTestRunTest* p = *i; if(!p->CheckOutput()) { finished.push_back(p); } } for( std::vector::iterator i = finished.begin(); i != finished.end(); ++i) { this->Completed++; cmCTestRunTest* p = *i; int test = p->GetIndex(); if(p->EndTest(this->Completed, this->Total, true)) { this->Passed->push_back(p->GetTestProperties()->Name); } else { this->Failed->push_back(p->GetTestProperties()->Name); } for(TestMap::iterator j = this->Tests.begin(); j != this->Tests.end(); ++j) { j->second.erase(test); } this->TestFinishMap[test] = true; this->TestRunningMap[test] = false; this->RunningTests.erase(p); this->WriteCheckpoint(test); this->UnlockResources(test); this->RunningCount -= GetProcessorsUsed(test); delete p; } return true; } //--------------------------------------------------------- void cmCTestMultiProcessHandler::UpdateCostData() { std::string fname = this->CTest->GetCostDataFile(); std::string tmpout = fname + ".tmp"; cmsys::ofstream fout; fout.open(tmpout.c_str()); PropertiesMap temp = this->Properties; if(cmSystemTools::FileExists(fname.c_str())) { cmsys::ifstream fin; fin.open(fname.c_str()); std::string line; while(std::getline(fin, line)) { if(line == "---") break; std::vector parts = cmSystemTools::SplitString(line, ' '); //Format: if(parts.size() < 3) break; std::string name = parts[0]; int prev = atoi(parts[1].c_str()); float cost = static_cast(atof(parts[2].c_str())); int index = this->SearchByName(name); if(index == -1) { // This test is not in memory. We just rewrite the entry fout << name << " " << prev << " " << cost << "\n"; } else { // Update with our new average cost fout << name << " " << this->Properties[index]->PreviousRuns << " " << this->Properties[index]->Cost << "\n"; temp.erase(index); } } fin.close(); cmSystemTools::RemoveFile(fname); } // Add all tests not previously listed in the file for(PropertiesMap::iterator i = temp.begin(); i != temp.end(); ++i) { fout << i->second->Name << " " << i->second->PreviousRuns << " " << i->second->Cost << "\n"; } // Write list of failed tests fout << "---\n"; for(std::vector::iterator i = this->Failed->begin(); i != this->Failed->end(); ++i) { fout << i->c_str() << "\n"; } fout.close(); cmSystemTools::RenameFile(tmpout.c_str(), fname.c_str()); } //--------------------------------------------------------- void cmCTestMultiProcessHandler::ReadCostData() { std::string fname = this->CTest->GetCostDataFile(); if(cmSystemTools::FileExists(fname.c_str(), true)) { cmsys::ifstream fin; fin.open(fname.c_str()); std::string line; while(std::getline(fin, line)) { if(line == "---") break; std::vector parts = cmSystemTools::SplitString(line, ' '); // Probably an older version of the file, will be fixed next run if(parts.size() < 3) { fin.close(); return; } std::string name = parts[0]; int prev = atoi(parts[1].c_str()); float cost = static_cast(atof(parts[2].c_str())); int index = this->SearchByName(name); if(index == -1) continue; this->Properties[index]->PreviousRuns = prev; // When not running in parallel mode, don't use cost data if(this->ParallelLevel > 1 && this->Properties[index] && this->Properties[index]->Cost == 0) { this->Properties[index]->Cost = cost; } } // Next part of the file is the failed tests while(std::getline(fin, line)) { if(line != "") { this->LastTestsFailed.push_back(line); } } fin.close(); } } //--------------------------------------------------------- int cmCTestMultiProcessHandler::SearchByName(std::string name) { int index = -1; for(PropertiesMap::iterator i = this->Properties.begin(); i != this->Properties.end(); ++i) { if(i->second->Name == name) { index = i->first; } } return index; } //--------------------------------------------------------- void cmCTestMultiProcessHandler::CreateTestCostList() { if(this->ParallelLevel > 1) { CreateParallelTestCostList(); } else { CreateSerialTestCostList(); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::CreateParallelTestCostList() { TestSet alreadySortedTests; std::list priorityStack; priorityStack.push_back(TestSet()); TestSet &topLevel = priorityStack.back(); // In parallel test runs add previously failed tests to the front // of the cost list and queue other tests for further sorting for(TestMap::const_iterator i = this->Tests.begin(); i != this->Tests.end(); ++i) { if(std::find(this->LastTestsFailed.begin(), this->LastTestsFailed.end(), this->Properties[i->first]->Name) != this->LastTestsFailed.end()) { //If the test failed last time, it should be run first. this->SortedTests.push_back(i->first); alreadySortedTests.insert(i->first); } else { topLevel.insert(i->first); } } // In parallel test runs repeatedly move dependencies of the tests on // the current dependency level to the next level until no // further dependencies exist. while(priorityStack.back().size()) { TestSet &previousSet = priorityStack.back(); priorityStack.push_back(TestSet()); TestSet ¤tSet = priorityStack.back(); for(TestSet::const_iterator i = previousSet.begin(); i != previousSet.end(); ++i) { TestSet const& dependencies = this->Tests[*i]; currentSet.insert(dependencies.begin(), dependencies.end()); } for(TestSet::const_iterator i = currentSet.begin(); i != currentSet.end(); ++i) { previousSet.erase(*i); } } // Remove the empty dependency level priorityStack.pop_back(); // Reverse iterate over the different dependency levels (deepest first). // Sort tests within each level by COST and append them to the cost list. for(std::list::reverse_iterator i = priorityStack.rbegin(); i != priorityStack.rend(); ++i) { TestSet const& currentSet = *i; TestComparator comp(this); TestList sortedCopy; sortedCopy.insert(sortedCopy.end(), currentSet.begin(), currentSet.end()); std::stable_sort(sortedCopy.begin(), sortedCopy.end(), comp); for(TestList::const_iterator j = sortedCopy.begin(); j != sortedCopy.end(); ++j) { if(alreadySortedTests.find(*j) == alreadySortedTests.end()) { this->SortedTests.push_back(*j); alreadySortedTests.insert(*j); } } } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::GetAllTestDependencies( int test, TestList& dependencies) { TestSet const& dependencySet = this->Tests[test]; for(TestSet::const_iterator i = dependencySet.begin(); i != dependencySet.end(); ++i) { GetAllTestDependencies(*i, dependencies); dependencies.push_back(*i); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::CreateSerialTestCostList() { TestList presortedList; for(TestMap::iterator i = this->Tests.begin(); i != this->Tests.end(); ++i) { presortedList.push_back(i->first); } TestComparator comp(this); std::stable_sort(presortedList.begin(), presortedList.end(), comp); TestSet alreadySortedTests; for(TestList::const_iterator i = presortedList.begin(); i != presortedList.end(); ++i) { int test = *i; if(alreadySortedTests.find(test) != alreadySortedTests.end()) { continue; } TestList dependencies; GetAllTestDependencies(test, dependencies); for(TestList::const_iterator j = dependencies.begin(); j != dependencies.end(); ++j) { int testDependency = *j; if(alreadySortedTests.find(testDependency) == alreadySortedTests.end()) { alreadySortedTests.insert(testDependency); this->SortedTests.push_back(testDependency); } } alreadySortedTests.insert(test); this->SortedTests.push_back(test); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::WriteCheckpoint(int index) { std::string fname = this->CTest->GetBinaryDir() + "/Testing/Temporary/CTestCheckpoint.txt"; cmsys::ofstream fout; fout.open(fname.c_str(), std::ios::app); fout << index << "\n"; fout.close(); } //--------------------------------------------------------- void cmCTestMultiProcessHandler::MarkFinished() { std::string fname = this->CTest->GetBinaryDir() + "/Testing/Temporary/CTestCheckpoint.txt"; cmSystemTools::RemoveFile(fname); } //--------------------------------------------------------- //For ShowOnly mode void cmCTestMultiProcessHandler::PrintTestList() { this->TestHandler->SetMaxIndex(this->FindMaxIndex()); int count = 0; for (PropertiesMap::iterator it = this->Properties.begin(); it != this->Properties.end(); ++it) { count++; cmCTestTestHandler::cmCTestTestProperties& p = *it->second; //push working dir std::string current_dir = cmSystemTools::GetCurrentWorkingDirectory(); cmSystemTools::ChangeDirectory(p.Directory); cmCTestRunTest testRun(this->TestHandler); testRun.SetIndex(p.Index); testRun.SetTestProperties(&p); testRun.ComputeArguments(); //logs the command in verbose mode if(p.Labels.size()) //print the labels { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Labels:"); } for(std::vector::iterator label = p.Labels.begin(); label != p.Labels.end(); ++label) { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, " " << *label); } if(p.Labels.size()) //print the labels { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, std::endl); } if (this->TestHandler->MemCheck) { cmCTestLog(this->CTest, HANDLER_OUTPUT, " Memory Check"); } else { cmCTestLog(this->CTest, HANDLER_OUTPUT, " Test"); } cmOStringStream indexStr; indexStr << " #" << p.Index << ":"; cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(3 + getNumWidth(this->TestHandler->GetMaxIndex())) << indexStr.str()); cmCTestLog(this->CTest, HANDLER_OUTPUT, " "); cmCTestLog(this->CTest, HANDLER_OUTPUT, p.Name.c_str() << std::endl); //pop working dir cmSystemTools::ChangeDirectory(current_dir); } cmCTestLog(this->CTest, HANDLER_OUTPUT, std::endl << "Total Tests: " << this->Total << std::endl); } void cmCTestMultiProcessHandler::PrintLabels() { std::set allLabels; for (PropertiesMap::iterator it = this->Properties.begin(); it != this->Properties.end(); ++it) { cmCTestTestHandler::cmCTestTestProperties& p = *it->second; allLabels.insert(p.Labels.begin(), p.Labels.end()); } if(allLabels.size()) { cmCTestLog(this->CTest, HANDLER_OUTPUT, "All Labels:" << std::endl); } else { cmCTestLog(this->CTest, HANDLER_OUTPUT, "No Labels Exist" << std::endl); } for(std::set::iterator label = allLabels.begin(); label != allLabels.end(); ++label) { cmCTestLog(this->CTest, HANDLER_OUTPUT, " " << *label << std::endl); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::CheckResume() { std::string fname = this->CTest->GetBinaryDir() + "/Testing/Temporary/CTestCheckpoint.txt"; if(this->CTest->GetFailover()) { if(cmSystemTools::FileExists(fname.c_str(), true)) { *this->TestHandler->LogFile << "Resuming previously interrupted test set" << std::endl << "----------------------------------------------------------" << std::endl; cmsys::ifstream fin; fin.open(fname.c_str()); std::string line; while(std::getline(fin, line)) { int index = atoi(line.c_str()); this->RemoveTest(index); } fin.close(); } } else if(cmSystemTools::FileExists(fname.c_str(), true)) { cmSystemTools::RemoveFile(fname); } } //--------------------------------------------------------- void cmCTestMultiProcessHandler::RemoveTest(int index) { this->EraseTest(index); this->Properties.erase(index); this->TestRunningMap[index] = false; this->TestFinishMap[index] = true; this->Completed++; } //--------------------------------------------------------- int cmCTestMultiProcessHandler::FindMaxIndex() { int max = 0; cmCTestMultiProcessHandler::TestMap::iterator i = this->Tests.begin(); for(; i != this->Tests.end(); ++i) { if(i->first > max) { max = i->first; } } return max; } //Returns true if no cycles exist in the dependency graph bool cmCTestMultiProcessHandler::CheckCycles() { cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Checking test dependency graph..." << std::endl); for(TestMap::iterator it = this->Tests.begin(); it != this->Tests.end(); ++it) { //DFS from each element to itself int root = it->first; std::set visited; std::stack s; s.push(root); while(!s.empty()) { int test = s.top(); s.pop(); if(visited.insert(test).second) { for(TestSet::iterator d = this->Tests[test].begin(); d != this->Tests[test].end(); ++d) { if(*d == root) { //cycle exists cmCTestLog(this->CTest, ERROR_MESSAGE, "Error: a cycle exists in the test dependency graph " "for the test \"" << this->Properties[root]->Name << "\".\nPlease fix the cycle and run ctest again.\n"); return false; } else { s.push(*d); } } } } } cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, "Checking test dependency graph end" << std::endl); return true; }