def test_include_branches():
net = nw.gas_versatility()
mg = top.create_nxgraph(net,
include_pipes=False,
include_valves=False,
include_pumps=False)
assert len(mg.nodes()) == len(net.junction)
assert len(mg.edges()) == 0
mg = top.create_nxgraph(net,
include_pipes=True,
include_valves=False,
include_pumps=False)
assert len(mg.nodes()) == len(net.junction)
assert len(mg.edges()) == len(net.pipe)
mg = top.create_nxgraph(net,
include_pipes=True,
include_valves=True,
include_pumps=False)
assert len(mg.nodes()) == len(net.junction)
assert len(mg.edges()) == len(net.pipe) + len(net.valve)
mg = top.create_nxgraph(net,
include_pipes=True,
include_valves=True,
include_pumps=True)
assert len(mg.nodes()) == len(net.junction)
assert len(mg.edges()) == len(net.pipe) + len(net.valve) + len(net.pump)
def test_time_series_default_ow():
"""
:return:
:rtype:
"""
net = nw.gas_versatility()
net = _preparte_grid(net)
time_steps = range(25)
ow = get_default_output_writer_ppipe(net, time_steps)
run_timeseries_ppipe(net, time_steps, output_writer=ow)
_compare_results(ow)
def test_time_series():
"""
:return:
:rtype:
"""
net = nw.gas_versatility()
net = _preparte_grid(net)
time_steps = range(25)
ow = _output_writer(net, time_steps) # , path=os.path.join(ppipe.pp_dir, 'results'))
run_timeseries_ppipe(net, time_steps, output_writer=ow)
_compare_results(ow)
def test_time_series_default_ow():
"""
:return:
:rtype:
"""
net = nw.gas_versatility()
_prepare_grid(net)
time_steps = range(25)
init_default_outputwriter(net, time_steps)
run_timeseries(net, time_steps)
ow = net.output_writer.iat[0, 0]
_compare_results(ow)
def test_time_series():
"""
:return:
:rtype:
"""
net = nw.gas_versatility()
_prepare_grid(net)
time_steps = range(25)
# _output_writer(net, time_steps) # , path=os.path.join(ppipe.pp_dir, 'results'))
_output_writer(net, time_steps, ow_path=tempfile.gettempdir())
run_timeseries(net, time_steps)
ow = net.output_writer.iat[0, 0]
_compare_results(ow)