def main(): result = run(processes) print("Avg Waiting Time: {}".format(result['avg_waiting_time'])) print("Avg Turnaround Time: {}".format(result['avg_turnaround_time'])) print("Avg Response Time: {}".format(result['avg_response_time'])) table.plot(result['processes']) graph.plot_gantt(result)
def main(): """ **Demo** - This function runs sample (random) testcase with 7 process to demonstrate the app - Plots the gantt chart for each algorithm - Plots the comparision graph for different algorithms **to Run Demo:** - unzip the project. - In the project base directory - configure Python virtual Environment. - create virtual env : ``python3 -m venv env`` - switch to environment. - Linux : ``source env/bin/activate`` - Win : run the `activate` script in cmd at ``env/sources/activate`` and then change back to the root directory. - install dependencies - ``pip install -e .`` - in the project root directory run ``python main.py`` """ rs_fcfs = fcfs.run(processes) rs_sjf = sjf.run(processes) rs_pr = priority.run(processes) rs_prp = priority_preemptive.run(processes) rs_srtf = srtf.run(processes) rs_rr = rr.run(processes) print('\n FCFS') table.plot(rs_fcfs['processes']) graph.plot_gantt(rs_fcfs) print('\n SJF') table.plot(rs_sjf['processes']) graph.plot_gantt(rs_sjf) print('\n PR') table.plot(rs_pr['processes']) graph.plot_gantt(rs_pr) print('\n PRP') table.plot(rs_prp['processes']) graph.plot_gantt(rs_prp) print('\n SRTF') table.plot(rs_srtf['processes']) graph.plot_gantt(rs_srtf) print('\n RR') table.plot(rs_rr['processes']) graph.plot_gantt(rs_rr) graph.plot_comparision([rs_fcfs, rs_sjf, rs_srtf, rs_pr, rs_prp, rs_rr])