def single_run(
seed: int,
stations_number: int,
simulation_time: int,
skip_results: bool,
cw_min: int,
cw_max: int,
r_limit: int,
payload_size: int,
mcs_value: int,
):
results = dict()
backoffs = {key: {stations_number: 0} for key in range(cw_max + 1)}
dcfsimpy.run_simulation(
stations_number,
seed,
simulation_time,
skip_results,
dcfsimpy.Config(payload_size, cw_min, cw_max, r_limit, mcs_value),
backoffs,
results,
)
if not skip_results:
dcfsimpy.save_results(results, backoffs, "single_run")
def run_changing_mcs(
runs: int,
seed: int,
stations_number: int,
simulation_time: int,
skip_results: bool,
cw_min: int,
cw_max: int,
r_limit: int,
payload_size: int,
):
results = dict()
backoffs = {key: {stations_number: 0} for key in range(cw_max + 1)}
for _ in range(runs):
threads = [
threading.Thread(
target=dcfsimpy.run_simulation,
args=(
stations_number,
seed * _,
simulation_time,
skip_results,
dcfsimpy.Config(payload_size, cw_min, cw_max, r_limit,
mcs_value),
backoffs,
results,
),
) for mcs_value in range(0, 8)
]
__start_threads(threads)
if not skip_results:
path = dcfsimpy.save_results(results, backoffs, "run_changing_mcs")
dcfsimpy.show_results_changing_mcs(path)
def run_changing_cw(
runs: int,
seed: int,
stations_start: int,
stations_end: int,
stations_step: int,
simulation_time: int,
skip_results: bool,
cw_min_start: int,
cw_min_stop: int,
cw_max: int,
r_limit: int,
payload_size: int,
mcs_value: int,
):
# config = dcfsimpy.Config(payload_size, cw_min, cw_max, r_limit)
results = dict()
backoffs = {
key: {i: 0
for i in range(stations_start, stations_end + 1)}
for key in range(cw_max + 1)
}
for cw_min in [
pow(2, x) - 1 for x in range(int((cw_min_start + 1) /
2), int((cw_min_stop + 1) / 2))
]:
for _ in range(runs):
threads = [
threading.Thread(
target=dcfsimpy.run_simulation,
args=(
n,
seed * _,
simulation_time,
skip_results,
dcfsimpy.Config(payload_size, cw_min, cw_max, r_limit,
mcs_value),
backoffs,
results,
),
)
for n in range(stations_start, stations_end + 1, stations_step)
]
__start_threads(threads)
if not skip_results:
path = dcfsimpy.save_results(results, backoffs, "run_changing_cw")
dcfsimpy.show_results_changing_cw(path)
def run_changing_stations(
runs: int,
seed: int,
stations_start: int,
stations_end: int,
simulation_time: int,
skip_results: bool,
cw_min: int,
cw_max: int,
r_limit: int,
payload_size: int,
mcs_value: int,
skip_results_show: bool,
):
config = dcfsimpy.Config(payload_size, cw_min, cw_max, r_limit, mcs_value)
results = dict()
backoffs = {
key: {i: 0
for i in range(stations_start, stations_end + 1)}
for key in range(cw_max + 1)
}
for _ in range(runs):
threads = [
threading.Thread(
target=dcfsimpy.run_simulation,
args=(
n,
seed * _,
simulation_time,
skip_results,
config,
backoffs,
results,
),
) for n in range(stations_start, stations_end + 1)
]
__start_threads(threads)
if not skip_results:
path = dcfsimpy.save_results(results, backoffs,
"run_changing_stations")
if not skip_results_show:
dcfsimpy.show_results_changing_stations(path)