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batchmode_c++.cpp
/* Copyright 2022, Gurobi Optimization, LLC */ // This example reads a MIP model from a file, solves it in batch mode, // and prints the JSON solution string. // // You will need a Cluster Manager license for this example to work. #include <ctime> #if defined (WIN32) || defined (WIN64) || defined(_WIN32) || defined (_WIN64) #include <Windows.h> #define sleep(n) Sleep(1000*n) #else #include <unistd.h> #endif #include "gurobi_c++.h" using namespace std; // Set-up the environment for batch mode optimization. // // The function configures and start an environment to be used for batch // optimization. void setupbatchenv(GRBEnv* env) { env->set(GRB_StringParam_LogFile, "batchmode.log"); env->set(GRB_StringParam_CSManager, "http://localhost:61080"); env->set(GRB_StringParam_UserName, "gurobi"); env->set(GRB_StringParam_ServerPassword, "pass"); env->set(GRB_IntParam_CSBatchMode, 1); // No network communication happened up to this point. This will happen // now that we call the start() method. env->start(); } // Print batch job error information, if any void printbatcherrorinfo(GRBBatch &batch) { if (batch.get(GRB_IntAttr_BatchErrorCode) == 0) return; cerr << "Batch ID " << batch.get(GRB_StringAttr_BatchID) << ": Error code " << batch.get(GRB_IntAttr_BatchErrorCode) << " (" << batch.get(GRB_StringAttr_BatchErrorMessage) << ")" << endl; } // Create a batch request for given problem file string newbatchrequest(char* filename) { GRBEnv* env = NULL; GRBModel* model = NULL; GRBVar* v = NULL; string batchID; try { // Start environment, create Model object from file env = new GRBEnv(true); setupbatchenv(env); model = new GRBModel(*env, filename); // Set some parameters; switch on detailed JSON information model->set(GRB_DoubleParam_MIPGap, 0.01); model->set(GRB_IntParam_JSONSolDetail, 1); // Define tags for some variables in order to access their values later int numvars = model->get(GRB_IntAttr_NumVars); v = model->getVars(); if (numvars > 10) numvars = 10; for (int j = 0; j < numvars; j++) { char vtag[64]; sprintf(vtag, "Variable %d", j); v[j].set(GRB_StringAttr_VTag, string(vtag)); } // submit batch request batchID = model->optimizeBatch(); } catch (...) { // Free local resources delete[] v; delete model; delete env; // Let the exception propagate throw; } // Free local resources delete[] v; delete model; delete env; return batchID; } // Wait for the final status of the batch. // Initially the status of a batch is "submitted"; the status will change // once the batch has been processed (by a compute server). void waitforfinalstatus(string batchID) { // Wait no longer than one hour time_t maxwaittime = 3600; GRBEnv* env = NULL; GRBBatch* batch = NULL; try { // Setup and start environment, create local Batch handle object env = new GRBEnv(true); setupbatchenv(env); batch = new GRBBatch(*env, batchID); time_t starttime = time(NULL); int BatchStatus = batch->get(GRB_IntAttr_BatchStatus); while (BatchStatus == GRB_BATCH_SUBMITTED) { // Abort this batch if it is taking too long time_t curtime = time(NULL); if (curtime - starttime > maxwaittime) { batch->abort(); break; } // Wait for two seconds sleep(2); // Update the resident attribute cache of the Batch object with the // latest values from the cluster manager. batch->update(); BatchStatus = batch->get(GRB_IntAttr_BatchStatus); // If the batch failed, we try again if (BatchStatus == GRB_BATCH_FAILED) batch->retry(); } } catch (...) { // Print information about error status of the job that // processed the batch printbatcherrorinfo(*batch); // Free local resources delete batch; delete env; // let the exception propagate throw; } // Free local resources delete batch; delete env; } void printfinalreport(string batchID) { GRBEnv* env = NULL; GRBBatch* batch = NULL; try { // Setup and starts environment, create local Batch handle object env = new GRBEnv(true); setupbatchenv(env); batch = new GRBBatch(*env, batchID); int BatchStatus = batch->get(GRB_IntAttr_BatchStatus); if (BatchStatus == GRB_BATCH_CREATED) cout << "Batch status is 'CREATED'" << endl; else if (BatchStatus == GRB_BATCH_SUBMITTED) cout << "Batch is 'SUBMITTED" << endl; else if (BatchStatus == GRB_BATCH_ABORTED) cout << "Batch is 'ABORTED'" << endl; else if (BatchStatus == GRB_BATCH_FAILED) cout << "Batch is 'FAILED'" << endl; else if (BatchStatus == GRB_BATCH_COMPLETED) { cout << "Batch is 'COMPLETED'" << endl; // Pretty printing the general solution information cout << "JSON solution:" << batch->getJSONSolution() << endl; // Write the full JSON solution string to a file batch->writeJSONSolution("batch-sol.json.gz"); } else { // Should not happen cout << "Batch has unknown BatchStatus" << endl; } } catch (...) { // Free local resources delete batch; delete env; // let the exception propagate throw; } // Free local resources delete batch; delete env; } // Instruct cluster manager to remove all data relating to this BatchID void batchdiscard(string batchID) { GRBEnv* env = NULL; GRBBatch* batch = NULL; try { // Setup and start environment, create local Batch handle object env = new GRBEnv(true); setupbatchenv(env); batch = new GRBBatch(*env, batchID); // Remove batch request from manager batch->discard(); } catch (...) { // Free local resources even delete batch; delete env; // let the exception propagate throw; } // Free local resources delete batch; delete env; } // Solve a given model using batch optimization int main(int argc, char** argv) { // Ensure we have an input file if (argc != 2) { cout << "Usage: " << argv[0] << " filename" << endl; return 0; } try { // Submit new batch request string batchID = newbatchrequest(argv[1]); // Wait for final status waitforfinalstatus(batchID); // Report final status info printfinalreport(batchID); // Remove batch request from manager batchdiscard(batchID); cout << "Batch optimization OK" << endl; } catch (GRBException e) { cout << "Error code = " << e.getErrorCode() << endl; cout << e.getMessage() << endl; } catch (...) { cout << "Exception during optimization" << endl; } return 0; }