def test_external_if_statement(solver, use_llvm):
model_ = model.Model(IfSystem('m_system', EqTest('tm1'),EqTest('tm2'),EqTest('tm3')), use_llvm=use_llvm)
s = simulation.Simulation(model_, solver_type=solver, t_start=0, t_stop=1.0, num=1, num_inner=1)
s.solve()
expected = 7
assert s.model.historian_df['m_system.tm1.test_nm.Y'][1] == expected
assert s.model.historian_df['m_system.tm2.test_nm.Y'][1] == expected
assert s.model.historian_df['m_system.tm3.test_nm.Y'][1] == expected
def test_external_if_statement(solver, use_llvm):
model_ = model.Model(IfSystem('if_system', IfTest('tm1')), use_llvm=use_llvm,
imports=[("external_import_else_if", "h_test")])
s = simulation.Simulation(model_, solver_type=solver, t_start=0, t_stop=10.0, num=10, num_inner=10)
s.solve()
expected_ti1 = 106
expected_ti4 = 1
assert s.model.historian_df['if_system.tm1.test_nm.T_i1'][1] == expected_ti1
assert s.model.historian_df['if_system.tm1.test_nm.T_i4'][1] == expected_ti4
def test_external_mapping(solver, use_llvm):
model_ = model.Model(DynamicDataSystem('system'),
imports=[("external_data_functions", "h_test")],
use_llvm=use_llvm)
s = simulation.Simulation(model_,
solver_type=solver,
t_start=0,
t_stop=10.0,
num=10,
num_inner=10)
s.solve()
expected = 106.0
assert s.model.historian_df['system.tm1.test_nm.T_i1'][1] == expected
def test_external_if_statement_if_else_executed(solver, use_llvm):
model_ = model.Model(IfSystem('if_system2', IfTest3('tm1')),
use_llvm=use_llvm)
s = simulation.Simulation(model_,
solver_type=solver,
t_start=0,
t_stop=10.0,
num=10,
num_inner=10)
s.solve()
expected_ti4 = 1
assert s.model.historian_df['if_system2.tm1.test_nm.T_i4'][
1] == expected_ti4
def test_simple_set_model(solver, use_llvm):
n = 100
subsystem = SimpleSystem('system', k=.1, n=n, x0=[0] * n)
s = simulation.Simulation(model.Model(subsystem, use_llvm=use_llvm),
t_start=0,
t_stop=1,
num=100,
num_inner=100,
max_step=1,
solver_type=solver)
# Solve and plot
s.solve()
for i in range(n):
assert approx(s.model.historian_df['system.SET_simples.simple'+ str(i) +'.mechanics.x'][100], rel=0.01) ==\
s.model.historian_df['system.SET_simples.simple' + str(i) + '.mechanics.k'][100]
("Dew Point Temperature {C}", InterpolationType.PIESEWISE),
'system.tm0.test_nm.T2':
('Dry Bulb Temperature {C}', InterpolationType.LINEAR)
}
external_mappings.append(
ExternalMappingElement(malmo_sturup_data_frame,
index_to_timestep_mapping,
index_to_timestep_mapping_start,
time_multiplier, dataframe_aliases))
history_file = "test.csv"
if os.path.exists(history_file):
os.remove(history_file)
histr = LocalHistorian(history_file, 1000)
# histr = InMemoryHistorian()
model = model.Model(StaticDataSystem('system', n=1),
external_mappings=external_mappings,
data_loader=LocalDataLoader(chunksize=None),
historian=histr)
s = simulation.Simulation(model,
t_start=0,
t_stop=10000.0,
num=10000,
num_inner=100,
max_step=.1)
# Solve and plot
tic = time()
s.solve()
toc = time()
historian_df = pandas.read_csv(history_file)
# historian_df =s.model.historian_df
print('Execution time: ', toc - tic)
def test_external_if_statement_cycle_dependancy(solver, use_llvm):
model_ = model.Model(IfSystem('if_system3', IfTest4('tm1')), use_llvm=use_llvm)
s = simulation.Simulation(model_, solver_type=solver, t_start=0, t_stop=10.0, num=10, num_inner=10)
s.solve()
tag="conductors",
structure=ItemsStructure.SET)
#def test_mapping():
if __name__ == '__main__':
from numerous.engine import model, simulation
from time import time
import numpy as np
n = 2
T0 = [150, 50]
subsystem = ThermalSystem('system', n=n, T0=T0)
# Define simulation
n = 100
s = simulation.Simulation(model.Model(subsystem),
t_start=0,
t_stop=500.0,
num=n,
num_inner=1,
max_step=1000)
# Solve and plot
time_ = np.logspace(0, 4, n)
s.reset()
t_last = 0
tic = time()
for t_ in time_:
#print('time: ',t_)
stop = s.step(t_ - t_last)
self.register_items([spc3, te])
if __name__ == "__main__":
from numerous.engine import model, simulation
from time import time
from matplotlib import pyplot as plt
subsystem = OscillatorSystem('system',
k=0.01,
c=0.001,
a=0,
n=2,
x0=[1, 2, 3])
# Define simulation
s = simulation.Simulation(model.Model(subsystem, use_llvm=False),
t_start=0,
t_stop=500.0,
num=1000,
num_inner=100,
max_step=1)
# Solve and plot
tic = time()
s.solve()
toc = time()
print('Execution time: ', toc - tic)
s.model.historian_df[[
'system.SET_oscillators.oscillator0.mechanics.x',
'system.SET_oscillators.oscillator1.mechanics.x'
]].plot()