int testioparams(PV_Init* initObj, int rank) { PV_Arguments * arguments = initObj->getArguments(); arguments->resetState(); // Ignore -r and -c switches arguments->setRestartFlag(false); arguments->setCheckpointReadDir(NULL); initObj->initialize(); HyPerCol * hc = build(initObj, NULL, 0); if (hc == NULL) { fprintf(stderr, "testioparams error: unable to build HyPerCol.\n"); exit(EXIT_FAILURE); } int status = hc->run(); // Needed to generate pv.params file if (status != PV_SUCCESS) { fprintf(stderr, "testioparams error: run to generate pv.params file failed.\n"); exit(EXIT_FAILURE); } const char * paramsfile = hc->getPrintParamsFilename(); std::string paramsfileString = paramsfile; if (paramsfile[0]!='/') { const char * outputPath = hc->getOutputPath(); paramsfileString.insert(0, "/"); paramsfileString.insert(0, outputPath); } delete hc; arguments->setParamsFile(paramsfileString.c_str()); if (rank==0) { printf("%s --testioparams running PetaVision with arguments\n", arguments->getProgramName()); arguments->printState(); } status = rebuildandrun(initObj, NULL, &assertAllZeroes, NULL, 0); return status; }
int testrun(PV_Init * initObj, int rank) { PV_Arguments * arguments = initObj->getArguments(); arguments->resetState(); // Ignore restart flag and checkpoint directory arguments->setRestartFlag(false); arguments->setCheckpointReadDir(NULL); if (rank==0) { printf("%s --testrun running PetaVision with arguments\n", arguments->getProgramName()); arguments->printState(); } int status = rebuildandrun(initObj, NULL, &assertAllZeroes, NULL, 0); return status; }
int generate(PV_Init* initObj, int rank) { PV_Arguments * arguments = initObj->getArguments(); // Remove -r and -c arguments->setRestartFlag(false); arguments->setCheckpointReadDir(NULL); if (rank==0) { printf("%s --generate running PetaVision with arguments\n", arguments->getProgramName()); arguments->printState(); } if (rank==0) { PV_Stream * emptyinfile = PV_fopen("input/correct.pvp", "w", false/*verifyWrites*/); // Data for a CORRECT_PVP_NX-by-CORRECT_PVP_NY layer with CORRECT_PVP_NF features. // Sparse activity with no active neurons so file size doesn't change with number of features int emptydata[] = {80, 20, 2, CORRECT_PVP_NX, CORRECT_PVP_NY, CORRECT_PVP_NF, 1, 0, 4, 2, 1, 1, CORRECT_PVP_NX, CORRECT_PVP_NY, 0, 0, 0, 1, 0, 0, 0, 0, 0}; size_t numwritten = PV_fwrite(emptydata, 23, sizeof(int), emptyinfile); if (numwritten != 23) { fprintf(stderr, "%s error writing placeholder data into input/correct.pvp file.\n", arguments->getProgramName()); } PV_fclose(emptyinfile); } int status = rebuildandrun(initObj, NULL, ©CorrectOutput, NULL, 0); return status; }