void CCmdTestWaitForApparcInit::doTestNewLWithGoodDataL() { TCmdErrorSeverity severity = ECmdIgnoreFailure; TInt err = KErrNone; TInt expectedErr = KErrNone; INFO_PRINTF1(_L("Test:doTestNewLWithGoodDataL - Command construction with valid data")); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:01 Test: NewL(RReadStream& aReadStream)")); TRAP(err, iTestCmd = CreateCmdFromStreamL(severity)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity); //validate the values delete iTestCmd; iTestCmd = NULL; INFO_PRINTF1(_L("doTestNewLWithGoodDataL:02 Test: NewL(TCmdErrorSeverity aSeverity)")); severity = ECmdCriticalSeverity; TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(severity)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity); //validate the values delete iTestCmd; iTestCmd = NULL; INFO_PRINTF1(_L("doTestNewLWithGoodDataL:03 Test: NewL(TSsmCommandParameters& aCommandParameters)")); severity = ECmdMediumSeverity; //this severity is same as defined in r_command_valid_data // open reader RResourceReader& reader = LoadResourcesL(KTestRscFileName, R_COMMAND_VALID_DATA); TSsmCommandParameters params(reader, NULL, 0); TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(params)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity); //validate the values delete iTestCmd; iTestCmd = NULL; FreeResources(); #ifdef SYMBIAN_SSM_FLEXIBLE_MERGE INFO_PRINTF1(_L("doTestNewLWithGoodDataL:04 Test: NewL(TCmdErrorSeverity aSeverity, const TUint16 aPriority)")); severity = ECmdCriticalSeverity; TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(severity, KTestPriority)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity, KTestPriority); //validate the values delete iTestCmd; iTestCmd = NULL; INFO_PRINTF1(_L("doTestNewLWithGoodDataL:05 Test: NewL(TSsmCommandParameters& aCommandParameters)")); INFO_PRINTF1(_L("Read priority from rss")); severity = ECmdMediumSeverity; //this severity is same as defined in r_command_valid_data // open reader RResourceReader& reader1 = LoadResourcesL(KTestRscFileName, R_COMMAND_VALID_DATA1); TSsmCommandParameters params1(reader1, NULL, 0); TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(params1)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity, KTestPriority); //validate the values delete iTestCmd; iTestCmd = NULL; FreeResources(); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:06 Test: NewL(TSsmCommandParameters& aCommandParameters)")); INFO_PRINTF1(_L("Default priority for initial version")); severity = ECmdMediumSeverity; //this severity is same as defined in r_command_valid_data // open reader RResourceReader& reader2 = LoadResourcesL(KTestRscFileName, R_COMMAND_VALID_DATA2); TSsmCommandParameters params2(reader2, NULL, 0); TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(params2)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity, KDefaultCommandPriority); //validate the values delete iTestCmd; iTestCmd = NULL; FreeResources(); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:07 Test: NewL(TSsmCommandParameters& aCommandParameters)")); INFO_PRINTF1(_L("negative priority will be interpreted as a very high positive value")); severity = ECmdMediumSeverity; //this severity is same as defined in r_command_valid_data // open reader RResourceReader& reader3 = LoadResourcesL(KTestRscFileName, R_COMMAND_VALID_DATA3); TSsmCommandParameters params3(reader3, NULL, 0); TRAP(err, iTestCmd = CCmdWaitForApparcInit::NewL(params3)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); CompareCommandsDataL(iTestCmd, severity, KNegPriority); //validate the values delete iTestCmd; iTestCmd = NULL; FreeResources(); #endif }
void CCmdTestLoadSup::doTestNewLWithGoodDataL() { TInt err = KErrNone; TInt expectedErr = KErrNone; TCmdErrorSeverity severity = ECmdCriticalSeverity; TSsmExecutionBehaviour executionBehaviour = ESsmWaitForSignal; TUid uid; uid.iUid = 9; TInt32 ordinal = 1; TInt16 retries = 5; TSsmSupInfo info; info.SetL(KFileName, ordinal, uid); INFO_PRINTF1(_L("Test:doTestNewLWithGoodDataL - Command construction with valid data")); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:01 Test: NewL(RReadStream& aReadStream)")); TRAP(err, CallInternalizeDataTestL(severity, executionBehaviour, retries, info)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:02 Test: NewL(TCmdErrorSeverity aSeverity, TSsmExecutionBehaviour aExecutionBehaviour, const TSsmSwp& aSwpInfo)")); TRAP(err, ConstructAndDeleteL(severity, executionBehaviour, retries, info)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); severity = ECmdIgnoreFailure; INFO_PRINTF1(_L("doTestNewLWithGoodDataL:03 Test: NewL(TCmdErrorSeverity aSeverity, TSsmExecutionBehaviour aExecutionBehaviour, const TSsmSwp& aSwpInfo)")); TRAP(err, ConstructAndDeleteL(severity, executionBehaviour, retries, info)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:04 Test: NewL(TSsmCommandParameters& aCommandParameters)")); RResourceReader& reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP1); TSsmCommandParameters params(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); #ifdef SYMBIAN_SSM_FLEXIBLE_MERGE INFO_PRINTF1(_L("doTestNewLWithGoodDataL:05 Test: NewL(TCmdErrorSeverity aSeverity, TSsmExecutionBehaviour aExecutionBehaviour, const TSsmSwp& aSwpInfo, const TUint16 aPriority)")); INFO_PRINTF1(_L("Test NewL with priority")); TRAP(err, ConstructAndDeleteL(severity, executionBehaviour, retries, info, ECmdLoadSupVersionWithPriority, KTestPriority)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:04 Test: NewL(TSsmCommandParameters& aCommandParameters)")); INFO_PRINTF1(_L("Test NewL with priority")); RResourceReader& reader2 = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP15); TSsmCommandParameters params2(reader2, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params2)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestNewLWithGoodDataL:04 Test: NewL(TSsmCommandParameters& aCommandParameters)")); INFO_PRINTF1(_L("Invalid version returns default priority")); RResourceReader& reader3 = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP16); TSsmCommandParameters params3(reader3, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params3)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); #endif }
void CCmdTestLoadSup::doTestResourceReaderWithBadDataL() { TInt err = KErrNone; TInt expectedErr = KErrNotSupported; INFO_PRINTF1(_L("Test:doTestResourceReaderWithBadDataL:01")); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:01: Invalid Type")); RResourceReader& reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP2); TSsmCommandParameters params(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:02: Invalid Version")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP3); TSsmCommandParameters params1(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params1)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:03: Invalid executionBehaviour 1")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP4); TSsmCommandParameters params2(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params2)); expectedErr = KErrArgument; INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:04: Invalid executionBehaviour 2")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP5); TSsmCommandParameters params3(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params3)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:05: Invalid ordinal")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP6); TSsmCommandParameters params4(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params4)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:06: Negative ordinal")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP14); TSsmCommandParameters params5(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params5)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err==expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:07: Missing filename")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP7); TSsmCommandParameters params6(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params6)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); INFO_PRINTF1(_L("doTestResourceReaderWithBadDataL:08: Negative retries")); reader = LoadResourcesL(KRscFileBuffer, R_COMMAND_LOAD_SUP12); TSsmCommandParameters params7(reader, NULL, 0); TRAP(err, ConstructAndDeleteViaReaderL(params7)); INFO_PRINTF3(_L("Test completed with err : %d. expected err : %d"), err, expectedErr); TEST(err == expectedErr); FreeResources(); }
int main(int argc, char **argv) { //*****************************SET PARAMETERS************************************************* Parameters params(argc, argv, 0); Parameters params2(argc, argv, 1); //******************************************************************************************** //**********************READ DATA AND MAKE SOLUTION******************************************* Solution* sol = constructSolution(params); preprocesData(sol); Solution* sol2 = constructSolution(params2); preprocesData(sol2); //********************************************************************************************* //*****************************SET PARAMETERS************************************************* if(sol->getNumberOfProcesses() * sol->getNumberOfMachines() <= 100 * 1000) { params2.delta = params.delta = 40; params2.nmb_iters_bpr = params.nmb_iters_bpr = 300; params2.nmbRanges = params.nmbRanges = 7; params2.rangeLength = params.rangeLength = sol->getNumberOfProcesses() / params.nmbRanges; } else { params2.nmb_iters_bpr = params.nmb_iters_bpr = 100; params2.nmbRanges = params.nmbRanges = 5; params2.rangeLength = params.rangeLength = sol->getNumberOfProcesses() / params.nmbRanges; params2.numberOfBestProcessesToConsiderShiftSwap = params.numberOfBestProcessesToConsiderShiftSwap = 3; params2.nmbLoops = params.nmbLoops = 2; if(sol->getNumberOfProcesses() * sol->getNumberOfMachines() >= 20000 * 2000) params2.nmbLoops = params.nmbLoops = 1; } params2.seedValue = params.seedValue + 1000; //******************************************************************************************** if(sol->getNumberOfProcesses() * sol->getNumberOfMachines() <= 100 * 1000) // A instances solveA(params, sol, params2, sol2); else // B instances solveB(params, sol, params2, sol2); long timeToSleep = params.time_limit - (time(0) - params.programStartTime) - 3; if (timeToSleep < 0) timeToSleep = 0; sleep(timeToSleep); // Read Solutions From Files And Write a better one sol->setOriginalLoadCostWeights(); sol2->setOriginalLoadCostWeights(); //cout << " sol->solutionFilename " << sol->solutionFilename << endl; //cout << " sol2->solutionFilename " << sol2->solutionFilename << endl; //cout << " sol->getCost() " << sol->getCost() << endl; //cout << " sol2->getCost() " << sol2->getCost() << endl; readSolutionFromFile( sol, sol->solutionFilename); readSolutionFromFile(sol2, sol2->solutionFilename); //cout << " after sol->getCost() " << sol->getCost() << endl; //cout << " after sol2->getCost() " << sol2->getCost() << endl; if ((sol->getCost() < sol2->getCost()) && (sol->checkConflict(false))) sol->writeToFile(params.solution_filename); else sol2->writeToFile(params.solution_filename); //remove solution files ostringstream oss1(""); oss1 << "rm " << sol->solutionFilename; system(oss1.str().c_str()); ostringstream oss2(""); oss2 << "rm " << sol2->solutionFilename; system(oss2.str().c_str()); //*****************************************FILES (REMOVE THIS PART)******************************************************** /*fstream fileResults("results", ios::out | ios::app); fileResults << setw(5) << params.seedValue << setw(30) << params.data_filename << setw(20) << sol->getCost() << setw(20) << sol2->getCost() << setw(20) << *(params.best_objective) << setw(15) << time(0) - params.programStartTime << endl; // running times fstream fileRunnungTimes("runnung_times", ios::out | ios::app); fileRunnungTimes << setw(5) << setw(30) << params.data_filename << setw(20) << *(params.best_objective) << setw(20) << time(0) - params.programStartTime << endl; // check solution with official checker ostringstream oss(""); oss << "./checker " << params.data_filename << " " << params.initial_assignment_filename << " " << params.solution_filename; oss << " >> checkerFile "; system(oss.str().c_str()); */ //************************************************************************************************************************* return 0; }