#
# ISC License
#
# Copyright (c) 2016, Autonomous Vehicle Systems Lab, University of Colorado at Boulder
#
# Permission to use, copy, modify, and/or distribute this software for any
# purpose with or without fee is hereby granted, provided that the above
# copyright notice and this permission notice appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
# WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
# ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
# OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
#
import inspect
import os
filename = inspect.getframeinfo(inspect.currentframe()).filename
path = os.path.dirname(os.path.abspath(filename))
bskName = 'Basilisk'
splitPath = path.split(bskName)
from Basilisk.utilities import SimulationBaseClass
from Basilisk.utilities import unitTestSupport # general support file with common unit test functions
from Basilisk.architecture import messaging
from Basilisk.simulation import simpleBattery
from Basilisk.utilities import macros
def test_module(show_plots):
# each test method requires a single assert method to be called
[testResults, testMessage] = storage_limits(show_plots)
assert testResults < 1, testMessage
[docs]
def storage_limits(show_plots):
"""
**Validation Test Description**
1. Whether the simpleBattery can add multiple nodes (core base class functionality);
2. That the battery correctly evaluates how much stored power it should have given a pair of five-watt
input messages.
:param show_plots: Not used; no plots to be shown.
:return:
"""
testFailCount = 0 # zero unit test result counter
testMessages = [] # create empty array to store test log messages
unitTaskName = "unitTask" # arbitrary name (don't change)
unitProcessName = "TestProcess" # arbitrary name (don't change)
# Create a sim module as an empty container
unitTestSim = SimulationBaseClass.SimBaseClass()
# Create test thread
testProcessRate = macros.sec2nano(0.1) # update process rate update time
testProc = unitTestSim.CreateNewProcess(unitProcessName)
testProc.addTask(unitTestSim.CreateNewTask(unitTaskName, testProcessRate))
test_battery = simpleBattery.SimpleBattery()
test_battery.storedCharge_Init = 5.
test_battery.storageCapacity = 10. # 10 W-s capacity.
powerMsg1 = messaging.PowerNodeUsageMsgPayload()
powerMsg1.netPower = 5.0
pw1Msg = messaging.PowerNodeUsageMsg().write(powerMsg1)
powerMsg2 = messaging.PowerNodeUsageMsgPayload()
powerMsg2.netPower = 5.0
pw2Msg = messaging.PowerNodeUsageMsg().write(powerMsg2)
# Test the addNodeToStorage method:
test_battery.addPowerNodeToModel(pw1Msg)
test_battery.addPowerNodeToModel(pw2Msg)
unitTestSim.AddModelToTask(unitTaskName, test_battery)
dataLog = test_battery.batPowerOutMsg.recorder()
unitTestSim.AddModelToTask(unitTaskName, dataLog)
unitTestSim.InitializeSimulation()
unitTestSim.ConfigureStopTime(macros.sec2nano(5.0))
unitTestSim.ExecuteSimulation()
storedChargeLog = dataLog.storageLevel
capacityLog = dataLog.storageCapacity
netPowerLog = dataLog.currentNetPower
# Check 1 - is net power equal to 10.?
for ind in range(0,len(netPowerLog)):
currentPower = netPowerLog[ind]
if currentPower !=10.:
testFailCount +=1
testMessages.append("FAILED: SimpleBattery did not correctly log the net power.")
if not unitTestSupport.isDoubleEqualRelative((10.),storedChargeLog[-1], 1e-8):
testFailCount+=1
testMessages.append("FAILED: SimpleBattery did not track integrated power. Returned "+str(storedChargeLog[-1,1])+", expected "+str((10.)))
for ind in range(0,len(storedChargeLog)):
if storedChargeLog[ind] > capacityLog[ind]:
testFailCount +=1
testMessages.append("FAILED: SimpleBattery's stored charge exceeded its capacity.")
if storedChargeLog[ind] < 0.:
testFailCount +=1
testMessages.append("FAILED: SimpleBattery's stored charge was negative.")
return [testFailCount, ''.join(testMessages)]
if __name__ == "__main__":
print(test_module(False))