def test_translate_simulate(self):
        '''
        Tests the :mod:`buildingspy.simulate.Simulator.translate` and
        the :mod:`buildingspy.simulate.Simulator.simulate_translated`
        method.
        '''
        import numpy as np

        from buildingspy.io.outputfile import Reader

        s = Simulator("MyModelicaLibrary.MyModel",
                      "dymola",
                      packagePath=self._packagePath)
        s.addModelModifier(
            "redeclare Modelica.Blocks.Sources.Step source(offset=-0.1, height=1.1, startTime=0.5)"
        )
        s.setStartTime(-1)
        s.setStopTime(5)
        s.setTimeOut(600)
        s.setTolerance(1e-4)
        s.setSolver("dassl")
        s.setNumberOfIntervals(50)
        s.setResultFile("myResults")
        s.translate()
        s.simulate_translated()

        # Read the result and test their validity
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(1.0, r.max('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        np.testing.assert_allclose(0.725, r.mean('source.y'))
        np.testing.assert_allclose(0.725 * 6, r.integral('source.y'))
        # Delete output files
        s.deleteOutputFiles()
        s.deleteLogFiles()

        # Make another simulation, but now the start time is at -2, and the height is 2.1
        s.setStartTime(-2)
        s.addParameters({'source.height': 2.1})
        s.simulate_translated()
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(2.0, r.max('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        np.testing.assert_allclose(1.25, r.mean('source.y'))
        np.testing.assert_allclose(7 * 1.25, r.integral('source.y'))

        # clean up translate temporary dir
        s.deleteOutputFiles()
        s.deleteLogFiles()
        s.deleteTranslateDirectory()
    def test_translate_simulate(self):
        """
        Tests the :mod:`buildingspy.simulate.Simulator.translate` and
        the :mod:`buildingspy.simulate.Simulator.simulate_translated`
        method.
        """
        import numpy as np

        from buildingspy.io.outputfile import Reader

        s = Simulator("MyModelicaLibrary.MyModel", "dymola", packagePath=self._packagePath)
        s.addModelModifier(
            "redeclare Modelica.Blocks.Sources.Step source(offset=-0.1, height=1.1, startTime=0.5)")
        s.setStartTime(-1)
        s.setStopTime(5)
        s.setTimeOut(600)
        s.setTolerance(1e-4)
        s.setSolver("dassl")
        s.setNumberOfIntervals(50)
        s.setResultFile("myResults")
        s.translate()
        s.simulate_translated()

        # Read the result and test their validity
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(1.0, r.max('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        np.testing.assert_allclose(0.725, r.mean('source.y'))
        np.testing.assert_allclose(0.725 * 6, r.integral('source.y'))
        # Delete output files
        s.deleteOutputFiles()
        s.deleteLogFiles()

        # Make another simulation, but now the start time is at -2, and the height is 2.1
        s.setStartTime(-2)
        s.addParameters({'source.height': 2.1})
        s.simulate_translated()
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(2.0, r.max('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        np.testing.assert_allclose(1.25, r.mean('source.y'))
        np.testing.assert_allclose(7 * 1.25, r.integral('source.y'))

        # clean up translate temporary dir
        s.deleteOutputFiles()
        s.deleteLogFiles()
        s.deleteTranslateDirectory()
예제 #3
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def ReadMat(dirname, matFileName, readVar, pipeList, modellist):#, lifetime, upv_File, co2_rate_file, co2_pricing_file, startYear):
    # read the MAT_Result File of the Modelica Simulation
    TA_data = []
    for case in os.listdir(dirname):
        if 'case' in case:
            matFile = dirname + "/" + case + "/" + matFileName
            r = Reader(matFile, "dymola")
            data = {'name': case}
            for v in readVar:
                if v[1] == 'max':
                    data.update({v[2]: r.max(v[0])})
                elif v[1] == 'min':
                    data.update({v[2]: r.min(v[0])})
                elif v[1] == 'integral':
                    data.update({v[2]: r.integral(v[0])})
            # if pipe is active, add its pipe length to the total pipe length
            pipeLength = 0
            for pipe in pipeList:
                data.update({pipe.name: r.max((pipe.name + ".active"))})
                if data[pipe.name] == 1:
                    pipeLength += r.max((pipe.name + ".length"))
                    pipeDiameter = r.max((pipe.name + ".diameter"))
            data.update({'Total_Pipe_Length': pipeLength})
            for m in modellist:
                data.update({m.name: r.max((m.name + ".connected"))})
            TA_data.append(data)
    return TA_data
예제 #4
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    def test_addMethods(self):
        """
        Tests the various add methods.
        """
        import numpy as np

        from buildingspy.io.outputfile import Reader

        s = Simulator("MyModelicaLibrary.MyModel",
                      packagePath=self._packagePath)
        s.addModelModifier(
            "redeclare Modelica.Blocks.Sources.Step source(offset=-0.1, height=1.1, startTime=0.5)"
        )
        s.setStartTime(-1)
        s.setStopTime(5)
        s.setTimeOut(600)
        s.setTolerance(1e-8)
        s.setSolver("Radau5ODE")
        s.setNumberOfIntervals(50)
        s.setResultFile("myResults")
        s.simulate()
        # Read the result and test their validity
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(1.0, r.max('source.y'))
        np.testing.assert_allclose(0.725, r.mean('source.y'))
        np.testing.assert_allclose(0.725 * 6, r.integral('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        # Delete output files
        s.deleteOutputFiles()
    def test_addMethods(self):
        '''
        Tests the various add methods.
        '''
        import numpy as np

        from buildingspy.io.outputfile import Reader

        s = Simulator("MyModelicaLibrary.MyModel",
                      "dymola",
                      packagePath=self._packagePath)
        s.addPreProcessingStatement("Advanced.StoreProtectedVariables:= true;")
        s.addPostProcessingStatement(
            "Advanced.StoreProtectedVariables:= false;")
        s.addModelModifier(
            "redeclare Modelica.Blocks.Sources.Step source(offset=-0.1, height=1.1, startTime=0.5)"
        )
        s.setStartTime(-1)
        s.setStopTime(5)
        s.setTimeOut(600)
        s.setTolerance(1e-4)
        s.setSolver("dassl")
        s.setNumberOfIntervals(50)
        s.setResultFile("myResults")
        s.exitSimulator(True)
        # s.deleteOutputFiles()
        s.showGUI(False)
        #        s.printModelAndTime()
        s.showProgressBar(False)
        s.simulate()
        # Read the result and test their validity
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r = Reader(resultFile, "dymola")
        np.testing.assert_allclose(1.0, r.max('source.y'))
        np.testing.assert_allclose(0.725, r.mean('source.y'))
        np.testing.assert_allclose(0.725 * 6, r.integral('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        # Delete output files
        s.deleteOutputFiles()
        s.deleteLogFiles()
    def test_addMethods(self):
        '''
        Tests the various add methods.
        '''
        import os
        import numpy as np

        from buildingspy.io.outputfile import Reader

        
        s = Simulator("MyModelicaLibrary.MyModel", "dymola")
        s.addPreProcessingStatement("Advanced.StoreProtectedVariables:= true;")
        s.addPostProcessingStatement("Advanced.StoreProtectedVariables:= false;")
        s.addModelModifier('redeclare Modelica.Blocks.Sources.Step source(offset=-0.1, height=1.1, startTime=0.5)')
        s.setStartTime(-1)
        s.setStopTime(5)
        s.setTimeOut(600)
        s.setTolerance(1e-4)
        s.setSolver("dassl")
        s.setNumberOfIntervals(50)
        s.setResultFile("myResults")
        s.exitSimulator(True)
        s.deleteOutputFiles()
        s.showGUI(False)
#        s.printModelAndTime()
        s.showProgressBar(False)
        s.simulate()
        # Read the result and test their validity
        outDir = s.getOutputDirectory()
        resultFile = os.path.abspath(os.path.join(outDir, "myResults.mat"))
        r=Reader(resultFile, "dymola")
        np.testing.assert_allclose(1.0, r.max('source.y'))
        np.testing.assert_allclose(0.725, r.mean('source.y'))
        np.testing.assert_allclose(0.725*6, r.integral('source.y'))
        np.testing.assert_allclose(-0.1, r.min('source.y'))
        # Delete output files
        s.deleteOutputFiles()
        s.deleteLogFiles()
def ReadMat(dirname, matFileName, resultVar, pipeList, modellist):
    TA_data = []
    for case in os.listdir(dirname):
        if 'case' in case:
            matFile = dirname + "/" + case + "/" + matFileName
            r = Reader(matFile, "dymola")
            data = {'name': case}
            for v in resultVar:
                if v[1] == 'max':
                    data.update({v[0]: r.max(v[0])})
                elif v[1] == 'min':
                    data.update({v[0]: r.min(v[0])})
                elif v[1] == 'integral':
                    data.update({v[0]: r.integral(v[0])})
            pipeLength = 0
            for pipe in pipeList:
                data.update({pipe.name: r.max((pipe.name + ".active"))})
                if data[pipe.name] == 1:
                    pipeLength += r.max((pipe.name + ".length"))
            data.update({'Total_Pipe_Length': pipeLength})
            for m in modellist:
                data.update({m.name: r.max((m.name + ".connected"))})
            TA_data.append(data)
    return TA_data