示例#1
0
    def test_output_mimetype(self):
        """Test input parsing
        """
        my_process = create_mimetype_process()
        service = Service(processes=[my_process])
        self.assertEqual(len(service.processes.keys()), 1)
        self.assertTrue(service.processes['get_mimetype_process'])

        class FakeRequest():
            def __init__(self, mimetype):
                self.outputs = {'mimetype': {
                    'identifier': 'mimetype',
                    'mimetype': mimetype,
                    'data': 'the data'
                }}

            identifier = 'get_mimetype_process'
            service = 'wps'
            operation = 'execute'
            version = '1.0.0'
            inputs = {}
            raw = False
            store_execute = False
            lineage = False

        # valid mimetype
        request = FakeRequest('text/plain+test')
        response = service.execute('get_mimetype_process', request, 'fakeuuid')
        self.assertEqual(response.outputs['mimetype'].data, 'text/plain+test')

        # non valid mimetype
        request = FakeRequest('text/xml')
        with self.assertRaises(InvalidParameterValue):
            response = service.execute('get_mimetype_process', request, 'fakeuuid')
示例#2
0
    def test_dods(self):
        if not WITH_NC4:
            self.skipTest('netCDF4 not installed')
        my_process = create_complex_nc_process()
        service = Service(processes=[my_process])

        href = "http://test.opendap.org:80/opendap/netcdf/examples/sresa1b_ncar_ccsm3_0_run1_200001.nc"

        """ # Is this how the request should be written ?
        request_doc = WPS.Execute(
            OWS.Identifier('my_opendap_process'),
            WPS.DataInputs(
                WPS.Input(
                    OWS.Identifier('dods'),
                    WPS.Reference(
                        WPS.Body('request body'),
                        {'{http://www.w3.org/1999/xlink}href': href},
                        method='POST'
                    )
                    #WPS.Data(WPS.ComplexData(href=href, mime_type='application/x-ogc-dods'))
                    # This form is not supported yet. Should it be ?
                )
            ),
            version='1.0.0'
        )
        resp = client.post_xml(doc=request_doc)
        assert_response_success(resp)
        """

        class FakeRequest():
            identifier = 'my_opendap_process'
            service = 'wps'
            operation = 'execute'
            version = '1.0.0'
            raw = True,
            inputs = {'dods': [{
                'identifier': 'dods',
                'href': href,
            }]}
            store_execute = False
            lineage = False
            outputs = ['conventions']

        request = FakeRequest()

        resp = service.execute('my_opendap_process', request, 'fakeuuid')
        self.assertEqual(resp.outputs['conventions'].data, u'CF-1.0')
        self.assertEqual(resp.outputs['outdods'].url, href)
        self.assertTrue(resp.outputs['outdods'].as_reference)
        self.assertFalse(resp.outputs['ncraw'].as_reference)
        with open(os.path.join(DATA_DIR, 'netcdf', 'time.nc'), 'rb') as f:
            data = f.read()
        self.assertEqual(resp.outputs['ncraw'].data, data)
示例#3
0
    def test_input_default(self):
        """Test input parsing
        """
        my_process = create_complex_proces()
        service = Service(processes=[my_process])
        self.assertEqual(len(service.processes.keys()), 1)
        self.assertTrue(service.processes['my_complex_process'])

        class FakeRequest():
            identifier = 'complex_process'
            service = 'wps'
            operation='execute'
            version = '1.0.0'
            inputs = {}
            raw = False
            outputs = {}
            store_execute = False
            lineage = False

        request = FakeRequest()
        response = service.execute('my_complex_process', request, 'fakeuuid')
        self.assertEqual(response.outputs['complex'].data, 'DEFAULT COMPLEX DATA')
示例#4
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    def test_input_parser(self):
        """Test input parsing
        """
        my_process = create_complex_proces()
        service = Service(processes=[my_process])
        self.assertEqual(len(service.processes.keys()), 1)
        self.assertTrue(service.processes['my_complex_process'])

        class FakeRequest():
            identifier = 'complex_process'
            service='wps'
            operation='execute'
            version='1.0.0'
            inputs = {'complex': [{
                    'identifier': 'complex',
                    'mimeType': 'text/gml',
                    'data': 'the data'
                }]}
        request = FakeRequest();

        try:
            service.execute('my_complex_process', request, 'fakeuuid')
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, 'mimeType')

        request.inputs['complex'][0]['mimeType'] = 'application/gml'
        parsed_inputs = service.create_complex_inputs(my_process.inputs[0],
                                                      request.inputs['complex'])

        # TODO parse outputs and their validators too

        self.assertEqual(parsed_inputs[0].data_format.validate, emptyvalidator)

        request.inputs['complex'][0]['mimeType'] = 'application/xml+gml'
        try:
            parsed_inputs = service.create_complex_inputs(my_process.inputs[0],
                                                      request.inputs['complex'])
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, 'mimeType')

        try:
            my_process.inputs[0].data_format = Format(mime_type='application/xml+gml')
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, 'mimeType')

        frmt = Format(mime_type='application/xml+gml', validate=validategml)
        self.assertEqual(frmt.validate, validategml)

        my_process.inputs[0].supported_formats = [frmt]
        my_process.inputs[0].data_format = Format(mime_type='application/xml+gml')
        parsed_inputs = service.create_complex_inputs(my_process.inputs[0],
                                              request.inputs['complex'])

        self.assertEqual(parsed_inputs[0].data_format.validate, validategml)
示例#5
0
    def test_input_parser(self):
        """Test input parsing
        """
        my_process = create_complex_proces()
        service = Service(processes=[my_process])
        self.assertEqual(len(service.processes.keys()), 1)
        self.assertTrue(service.processes["my_complex_process"])

        class FakeRequest:
            identifier = "complex_process"
            service = "wps"
            version = "1.0.0"
            inputs = {"complex": [{"identifier": "complex", "mimeType": "text/gml", "data": "the data"}]}

        request = FakeRequest()

        try:
            service.execute("my_complex_process", request, "fakeuuid")
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, "mimeType")

        request.inputs["complex"][0]["mimeType"] = "application/gml"
        parsed_inputs = service.create_complex_inputs(my_process.inputs[0], request.inputs["complex"])

        # TODO parse outputs and their validators too

        self.assertEqual(parsed_inputs[0].data_format.validate, emptyvalidator)

        request.inputs["complex"][0]["mimeType"] = "application/xml+gml"
        try:
            parsed_inputs = service.create_complex_inputs(my_process.inputs[0], request.inputs["complex"])
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, "mimeType")

        try:
            my_process.inputs[0].data_format = Format(mime_type="application/xml+gml")
        except InvalidParameterValue as e:
            self.assertEqual(e.locator, "mimeType")

        frmt = Format(mime_type="application/xml+gml", validate=validategml)
        self.assertEqual(frmt.validate, validategml)

        my_process.inputs[0].supported_formats = [frmt]
        my_process.inputs[0].data_format = Format(mime_type="application/xml+gml")
        parsed_inputs = service.create_complex_inputs(my_process.inputs[0], request.inputs["complex"])

        self.assertEqual(parsed_inputs[0].data_format.validate, validategml)
示例#6
0
    Buffer(),
    Area(),
    Box(),
    TestJson()
]

# For the process list on the home page

process_descriptor = {}
for process in processes:
    abstract = process.abstract
    identifier = process.identifier
    process_descriptor[identifier] = abstract

# This is, how you start PyWPS instance
service = Service(processes, ['pywps.cfg'])


@app.route("/")
def hello():
    server_url = pywps.configuration.get_config_value("server", "url")
    request_url = flask.request.url
    return flask.render_template('home.html',
                                 request_url=request_url,
                                 server_url=server_url,
                                 process_descriptor=process_descriptor)


@app.route('/wps', methods=['GET', 'POST'])
def wps():
示例#7
0
 def setUp(self):
     def hello(request): pass
     def ping(request): pass
     processes = [Process(hello, 'hello', 'Process Hello'), Process(ping, 'ping', 'Process Ping')]
     self.client = client_for(Service(processes=processes))
示例#8
0
 def test_metalink(self):
     client = client_for(Service(processes=[create_metalink_process()]))
     resp = client.get('?Request=Execute&identifier=multiple-outputs')
     assert resp.status_code == 400
def test_wps_blocking():
    client = client_for(Service(processes=[Blocking()], cfgfiles=[".custom.cfg"]))
    resp = client.get(
        service='WPS', request='Execute', version='1.0.0', identifier='blocking')
    print(resp.data)
    assert_response_success(resp)
示例#10
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 def setUp(self):
     self.client = client_for(Service(processes=[]))
示例#11
0
def test_wps_error():
    client = client_for(Service(processes=[ShowError()]))
    datainputs = "message=tomorrow-is-another-day;nice=true"
    client.get(
        "?service=WPS&request=Execute&version=1.0.0&identifier=hello&datainputs={}"
        .format(datainputs))
示例#12
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    def test_GEPS(self):

        client = client_for(
            Service(processes=[HindcastingProcess()], cfgfiles=CFG_FILE))

        # model = 'HMETS'
        # params = '9.5019, 0.2774, 6.3942, 0.6884, 1.2875, 5.4134, 2.3641, 0.0973, 0.0464, 0.1998, 0.0222, -1.0919, ' \
        #         '2.6851, 0.3740, 1.0000, 0.4739, 0.0114, 0.0243, 0.0069, 310.7211, 916.1947'

        params = "0.529, -3.396, 407.29, 1.072, 16.9, 0.947"
        forecast_model = "GEPS"
        region_vector = get_local_testdata("watershed_vector/LSJ_LL.zip")
        pr = json.dumps({
            "pr": {
                "linear_transform": (1.0, 0.0),
                "time_shift": -0.25,
                "deaccumulate": True,
            }
        })
        tas = json.dumps(
            {"tas": {
                "linear_transform": (1.0, 0.0),
                "time_shift": -0.25
            }})
        rvc = get_local_testdata("gr4j_cemaneige/solution.rvc")
        hdate = dt.datetime(2018, 6, 1)

        # Date of the forecast that will be used to determine the members of the climatology-based ESP
        # (same day of year of all other years)
        datainputs = ("gr4jcn={params};"
                      "latitude={latitude};"
                      "longitude={longitude};"
                      "name={name};"
                      "area={area};"
                      "duration={duration};"
                      "elevation={elevation};"
                      "forecast_model={forecast_model};"
                      "region_vector=file@xlink:href=file://{region_vector};"
                      "rain_snow_fraction={rain_snow_fraction};"
                      "nc_spec={pr};"
                      "nc_spec={tas};"
                      "rvc=file@xlink:href=file://{rvc};"
                      "hdate={hdate};".format(
                          params=params,
                          latitude=54.4848,
                          longitude=-123.3659,
                          name="Salmon",
                          area="4250.6",
                          duration=8,
                          elevation="843.0",
                          forecast_model=forecast_model,
                          region_vector=region_vector,
                          rain_snow_fraction="RAINSNOW_DINGMAN",
                          pr=pr,
                          tas=tas,
                          rvc=rvc,
                          hdate=hdate,
                      ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="hindcasting",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        out = get_output(resp.xml)
        assert "hydrograph" in out
        forecast, _ = urlretrieve(out["hydrograph"])
        q_sim = xr.open_dataset(forecast)["q_sim"]
        np.testing.assert_almost_equal(
            q_sim.isel(time=-1).mean(), [12.585823219473196])
        assert "member" in q_sim.dims
示例#13
0
文件: __init__.py 项目: VitoTAP/ADES
def deploy():
    processes.append(DockerRun("newprocess"))
    mywps[0] = Service(processes, ['pywps.cfg'])
示例#14
0
    def test_simple(self):
        client = client_for(
            Service(processes=[OstrichMOHYSEProcess()], cfgfiles=CFG_FILE)
        )

        low_p = "0.01, 0.01, 0.01, -5.00, 0.01, 0.01, 0.01, 0.01, 0.01, 0.01"
        high_p = "20.0, 1.0, 20.0, 5.0, 0.5, 1.0, 1.0, 1.0, 15.0, 15.0"

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "algorithm={algorithm};"
            "max_iterations={max_iterations};"
            "lowerBounds={low_p};"
            "upperBounds={high_p};"
            "start_date={start_date};"
            "duration={duration};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};"
            "random_numbers=file@xlink:href=file://{random_numbers};"
            "random_seed=0".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                algorithm="DDS",
                max_iterations=10,
                low_p=low_p,
                high_p=high_p,
                start_date=dt.datetime(1954, 1, 1),
                duration=208,
                name="Salmon",
                run_name="test",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
                random_numbers=get_local_testdata(
                    "ostrich-gr4j-cemaneige/OstRandomNumbers.txt"
                ),
            )
        )

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="ostrich-mohyse",
            datainputs=datainputs,
        )

        assert_response_success(resp)

        out = get_output(resp.xml)
        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2010 with budget 50 would be NSE=0.5779910)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 0.3826810, 4, err_msg="NSE is not matching expected value"
        )

        # checking correctness of RMSE (full period 1954-2010 would be RMSE=????)
        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 40.7086, 4, err_msg="RMSE is not matching expected value"
        )
示例#15
0
 def setUp(self):
     configuration.get_config_value('server', 'language')
     configuration.CONFIG.set('server', 'language', 'en-US,fr-CA')
     self.client = client_for(
         Service(processes=[
             Process(
                 lambda: None,
                 "pr1",
                 "Process 1",
                 abstract="Process 1",
                 inputs=[
                     LiteralInput('input1',
                                  title='Input name',
                                  abstract='Input abstract',
                                  translations={
                                      "fr-CA": {
                                          "title": "Nom de l'input",
                                          "abstract": "Description"
                                      }
                                  })
                 ],
                 outputs=[
                     LiteralOutput('output1',
                                   title='Output name',
                                   abstract='Output abstract',
                                   translations={
                                       "fr-CA": {
                                           "title": "Nom de l'output",
                                           "abstract": "Description"
                                       }
                                   })
                 ],
                 translations={
                     "fr-CA": {
                         "title": "Processus 1",
                         "abstract": "Processus 1"
                     }
                 },
             ),
             Process(
                 lambda: None,
                 "pr2",
                 "Process 2",
                 abstract="Process 2",
                 inputs=[
                     LiteralInput('input1',
                                  title='Input name',
                                  abstract='Input abstract',
                                  translations={
                                      "fr-CA": {
                                          "abstract": "Description"
                                      }
                                  })
                 ],
                 outputs=[
                     LiteralOutput('output1',
                                   title='Output name',
                                   abstract='Output abstract',
                                   translations={
                                       "fr-CA": {
                                           "abstract": "Description"
                                       }
                                   })
                 ],
                 translations={"fr-CA": {
                     "title": "Processus 2"
                 }},
             ),
         ]))
示例#16
0
def client():
    return client_for(Service(processes=finch.processes.processes, cfgfiles=CFG_FILE))
示例#17
0
 def __init__(self, configuration_file, configuration_url):
     self.service = Service(cfgfiles=[configuration_file])
     self.configuration = ConfigurationGateway(configuration_url)
    def test_GEPS(self):
        client = client_for(
            Service(
                processes=[RealtimeForecastProcess()],
                cfgfiles=CFG_FILE,
            )
        )
        #
        # model = 'HMETS'
        # params = '9.5019, 0.2774, 6.3942, 0.6884, 1.2875, 5.4134, 2.3641, 0.0973, 0.0464, 0.1998, 0.0222, -1.0919, ' \
        #         '2.6851, 0.3740, 1.0000, 0.4739, 0.0114, 0.0243, 0.0069, 310.7211, 916.1947'

        params = "0.529, -3.396, 407.29, 1.072, 16.9, 0.947"
        forecast_model = "GEPS"
        region_vector = get_local_testdata("watershed_vector/LSJ_LL.zip")
        pr = json.dumps(
            {
                "pr": {
                    "scale": 1,
                    "offset": 0,
                    "time_shift": -0.25,
                    "deaccumulate": True,
                }
            }
        )
        tas = json.dumps({"tas": {"scale": 1, "offset": 0, "time_shift": -0.25}})
        rvc = get_local_testdata("gr4j_cemaneige/solution.rvc")

        # Date of the forecast that will be used to determine the members of the climatology-based ESP
        # (same day of year of all other years)
        datainputs = (
            "gr4jcn={params};"
            "latitude={latitude};"
            "longitude={longitude};"
            "name={name};"
            "area={area};"
            "duration={duration};"
            "elevation={elevation};"
            "forecast_model={forecast_model};"
            "region_vector=file@xlink:href=file://{region_vector};"
            "rain_snow_fraction={rain_snow_fraction};"
            "nc_spec={pr};"
            "nc_spec={tas};"
            "rvc=file@xlink:href=file://{rvc};".format(
                params=params,
                latitude=54.4848,
                longitude=-123.3659,
                name="Salmon",
                area="4250.6",
                duration=3,
                elevation="843.0",
                forecast_model=forecast_model,
                region_vector=region_vector,
                rain_snow_fraction="RAINSNOW_DINGMAN",
                pr=pr,
                tas=tas,
                rvc=rvc,
            )
        )

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="realtime-forecast",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        out = get_output(resp.xml)
        assert "hydrograph" in out
示例#19
0
    def test_simple(self):
        client = client_for(
            Service(processes=[OstrichHBVECProcess()], cfgfiles=CFG_FILE))

        lowerBounds = "-3.0, 0.0, 0.0, 0.0, 0.0, 0.3, 0.0, 0.0, 0.01, 0.05, 0.01, \
                      0.0, 0.0, 0.0, 0.0, 0.0, 0.01, 0.0, 0.05, 0.8, 0.8"

        upperBounds = "3.0, 8.0, 8.0, 0.1, 1.0, 1.0, 7.0, 100.0, 1.0, 0.1, 6.0, 5.0, \
                      5.0, 0.2, 1.0, 30.0, 3.0, 2.0, 1.0, 1.5, 1.5"

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "algorithm={algorithm};"
            "max_iterations={max_iterations};"
            "lowerBounds={lowerBounds};"
            "upperBounds={upperBounds};"
            "start_date={start_date};"
            "duration={duration};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};"
            "random_numbers=file@xlink:href=file://{random_numbers};"
            "random_seed=0".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                algorithm="DDS",
                max_iterations=10,
                lowerBounds=lowerBounds,
                upperBounds=upperBounds,
                start_date=dt.datetime(1954, 1, 1),
                duration=208,
                name="Salmon",
                run_name="test",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
                random_numbers=get_local_testdata(
                    "ostrich-gr4j-cemaneige/OstRandomNumbers.txt"),
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="ostrich-hbv-ec",
            datainputs=datainputs,
        )

        assert_response_success(resp)

        out = get_output(resp.xml)
        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # TODO Julie :: values not adjusted yet!!! WPS needs to work first ...

        # checking correctness of NSE (full period 1954-2010 with budget 50 would be NSE=6.034670E-01)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, -0.225991, 4, err_msg="NSE is not matching expected value")

        # checking correctness of RMSE (full period 1954-2010 would be RMSE=????)
        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 57.3687, 4, err_msg="RMSE is not matching expected value")
示例#20
0
    def test_simple(self):
        client = client_for(
            Service(processes=[OstrichGR4JCemaNeigeProcess()],
                    cfgfiles=CFG_FILE))

        lowerBounds = "0.01, -15.0, 10.0, 0.0, 1.0, 0.0"
        upperBounds = "2.5, 10.0, 700.0, 7.0, 30.0, 1."

        # some params in Raven input files are derived from those 21 parameters
        # pdefaults.update({'GR4J_X1_hlf':            pdefaults['GR4J_X1']*1000./2.0})    --> x1 * 1000. / 2.0
        # pdefaults.update({'one_minus_CEMANEIGE_X2': 1.0 - pdefaults['CEMANEIGE_X2']})   --> 1.0 - x6

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "algorithm={algorithm};"
            "max_iterations={max_iterations};"
            "lowerBounds={lowerBounds};"
            "upperBounds={upperBounds};"
            "start_date={start_date};"
            "duration={duration};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};"
            "random_numbers=files@xlink:href=file://{random_numbers};"
            "random_seed=0;".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                algorithm="DDS",
                max_iterations=10,
                lowerBounds=lowerBounds,
                upperBounds=upperBounds,
                start_date=dt.datetime(1954, 1, 1),
                duration=208,
                name="Salmon",
                run_name="test",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
                random_numbers=get_local_testdata(
                    "ostrich-gr4j-cemaneige/OstRandomNumbers.txt"),
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="ostrich-gr4j-cemaneige",
            datainputs=datainputs,
        )

        assert_response_success(resp)

        out = get_output(resp.xml)

        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2010 with budget of 50 would be NSE=0.5779910)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 0.50717, 4, err_msg="NSE is not matching expected value")

        # checking correctness of RMSE (full period 1954-2010 with budget of 50 would be RMSE=????)

        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])

        np.testing.assert_almost_equal(
            diag, 36.373, 4, err_msg="RMSE is not matching expected value")

        assert "rv_config" in out
        rv_config, _ = urlretrieve(out["rv_config"])
        z = zipfile.ZipFile(rv_config)
        assert len(z.filelist) == 7

        assert "hydrograph" in out
示例#21
0
    def test_simple(self):
        client = client_for(
            Service(processes=[RavenHMETSProcess()], cfgfiles=CFG_FILE))

        params = (
            "9.5019, 0.2774, 6.3942, 0.6884, 1.2875, 5.4134, 2.3641, 0.0973, 0.0464, 0.1998, 0.0222, -1.0919, "
            "2.6851, 0.3740, 1.0000, 0.4739, 0.0114, 0.0243, 0.0069, 310.7211, 916.1947"
        )

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "params={params};"
            "start_date={start_date};"
            "end_date={end_date};"
            "init={init};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                params=params,
                start_date=dt.datetime(2000, 1, 1),
                end_date=dt.datetime(2002, 1, 1),
                init="155,455",
                name="Salmon",
                run_name="test-hmets",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="raven-hmets",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        out = get_output(resp.xml)
        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2011 would be NSE=0.636015 as template in Wiki)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, -3.0132, 4, err_msg="NSE is not matching expected value")

        # checking correctness of RMSE (full period 1954-2011 would be RMSE=28.3759 as template in wiki)
        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 71.9223, 4, err_msg="RMSE is not matching expected value")
示例#22
0
文件: __init__.py 项目: VitoTAP/ADES
from flask import Flask
from pywps import Service
from .docker_generic import DockerProcessFiles
from .docker_process import DockerRun
from .deploy_process import DeployProcess
from flask import url_for, redirect

app = Flask(__name__)

deploy = DeployProcess()
processes = [DockerProcessFiles(), deploy]
mywps = [Service(processes, ['pywps.cfg'])]


@app.route('/', methods=['GET'])
def root():
    return redirect(url_for('wps') + "?service=WPS&request=GetCapabilities")


@app.route('/deploy', methods=['GET'])
def deploy():
    processes.append(DockerRun("newprocess"))
    mywps[0] = Service(processes, ['pywps.cfg'])


@app.route('/wps', methods=['GET', 'POST'])
def wps():
    return mywps[0]


if __name__ == '__main__':
示例#23
0
    def test_simple(self):
        client = client_for(
            Service(processes=[
                OstrichMOHYSEProcess(),
            ], cfgfiles=CFG_FILE))

        low_p = '0.01, 0.01, 0.01, -5.00, 0.01, 0.01, 0.01, 0.01'
        high_p = '20.0, 1.0, 20.0, 5.0, 0.5, 1.0, 1.0, 1.0'

        low_h = '0.01, 0.01'
        high_h = '15.0, 15.0'

        datainputs = "ts=files@xlink:href=file://{ts};" \
                     "algorithm={algorithm};" \
                     "max_iterations={max_iterations};" \
                     "lowerBounds={low_p};" \
                     "upperBounds={high_p};" \
                     "hruslowerBounds={low_h};" \
                     "hrusupperBounds={high_h};" \
                     "start_date={start_date};" \
                     "duration={duration};" \
                     "name={name};" \
                     "run_name={run_name};" \
                     "area={area};" \
                     "latitude={latitude};" \
                     "longitude={longitude};" \
                     "elevation={elevation};" \
                     "random_seed=0" \
            .format(ts=TESTDATA['ostrich-mohyse-nc-ts'],
                    algorithm='DDS',
                    max_iterations=10,
                    low_p=low_p,
                    high_p=high_p,
                    low_h=low_h,
                    high_h=high_h,
                    start_date=dt.datetime(1954, 1, 1),
                    duration=208,
                    name='Salmon',
                    run_name='test',
                    area='4250.6',
                    elevation='843.0',
                    latitude=54.4848,
                    longitude=-123.3659,
                    )

        resp = client.get(service='WPS',
                          request='Execute',
                          version='1.0.0',
                          identifier='ostrich-mohyse',
                          datainputs=datainputs)

        assert_response_success(resp)

        out = get_output(resp.xml)
        assert 'diagnostics' in out
        tmp_file, _ = urlretrieve(out['diagnostics'])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2010 with budget 50 would be NSE=0.5779910)
        assert 'DIAG_NASH_SUTCLIFFE' in tmp_content[0]
        idx_diag = tmp_content[0].split(',').index("DIAG_NASH_SUTCLIFFE")
        diag = np.float(tmp_content[1].split(',')[idx_diag])
        np.testing.assert_almost_equal(
            diag, 0.3826810, 4, err_msg='NSE is not matching expected value')

        # checking correctness of RMSE (full period 1954-2010 would be RMSE=????)
        assert 'DIAG_RMSE' in tmp_content[0]
        idx_diag = tmp_content[0].split(',').index("DIAG_RMSE")
        diag = np.float(tmp_content[1].split(',')[idx_diag])
        np.testing.assert_almost_equal(
            diag, 40.7086, 4, err_msg='RMSE is not matching expected value')
示例#24
0
from pywps import Service

from ecocloud_wps_demo.processes.anuclim_daily_extract import ANUClimDailyExtract
from ecocloud_wps_demo.processes.anuclim_daily_extract_netcdf4 import ANUClimDailyExtractNetCDF4
from ecocloud_wps_demo.processes.spatial_subset_geotiff import SpatialSubsetGeotiff
from ecocloud_wps_demo.processes.spatial_subset_netcdf import SpatialSubsetNetcdf
from ecocloud_wps_demo.processes.exploratory_data_box import ExploratoryDataBox
from ecocloud_wps_demo.processes.exploratory_data_histogram import ExploratoryDataHistogram
from ecocloud_wps_demo.processes.exploratory_data_density import ExploratoryDataDensity
from ecocloud_wps_demo.processes.exploratory_data_correlation import ExploratoryDataCorrelation

processes = [
    ANUClimDailyExtract(),
    ANUClimDailyExtractNetCDF4(),
    SpatialSubsetGeotiff(),
    SpatialSubsetNetcdf(),
    ExploratoryDataBox(),
    ExploratoryDataHistogram(),
    ExploratoryDataDensity(),
    ExploratoryDataCorrelation(),
]

service = Service(processes, ['/etc/ecocloud/pywps.cfg'])


@view_config(route_name='wps')
@wsgiapp2
def wps_app(environ, start_response):
    response = service(environ, start_response)
    return response
示例#25
0
 def __init__(self, executor, configuration_file):
     self.service = Service(cfgfiles=[configuration_file])
     self.executor = executor
    def test_hindcast_evaluation_rank_histo(self):
        client = client_for(
            Service(processes=[ClimpredHindcastVerificationProcess()],
                    cfgfiles=CFG_FILE))

        # Prepare the model parameters and forecast details
        model = "GR4JCN"
        params = (0.529, -3.396, 407.29, 1.072, 16.9, 0.947)
        forecast_duration = 3
        ts = get_local_testdata(
            "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc"
        )
        rvc = get_local_testdata("gr4j_cemaneige/solution.rvc")
        # Make the hindcasts for each initialization date. Here we will extract
        # ESP forecasts for a given calendar date for the years in "included_years"
        # as hindcast dates. Each ESP hindcast uses all available data in the ts dataset,
        # so in this case we will have 56/57 members for each hindcast initialization
        # depending on the date that we start on. The "hindcasts" dataset contains
        # all of the flow data from the ESP hindcasts for the initialization dates.
        # The "qobs" dataset contains all qobs in the timeseries: Climpred will
        # sort it all out during its processing. Note that the format of these datasets
        # is tailor-made to be used in climpred, and thus has specific dimension names.
        hcasts, obs = make_ESP_hindcast_dataset(
            model_name=model,
            forecast_date=dt.datetime(1955, 6, 30),
            included_years=list(range(1957, 1959)),
            forecast_duration=forecast_duration,
            ts=ts,
            area="4250.6",
            elevation="843.0",
            latitude=54.4848,
            longitude=-123.3659,
            params=params,
            rvc=str(rvc),
        )

        tmpdir = tempfile.mkdtemp()
        tmpfile_hcst = tmpdir + "/hcst_wps.nc"
        tmpfile_obs = tmpdir + "/qobs_wps.nc"

        hcasts.to_netcdf(tmpfile_hcst)
        obs.to_netcdf(tmpfile_obs)
        metric = "rank_histogram"

        datainputs = ("hindcasts=files@xlink:href=file://{hindcasts};"
                      "observations=files@xlink:href=file://{observations};"
                      "metric={metric}".format(
                          hindcasts=tmpfile_hcst,
                          observations=tmpfile_obs,
                          metric=metric,
                      ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="climpred_hindcast_verification",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        out = get_output(resp.xml)
        metrics, _ = urlretrieve(out["verification_metrics"])
示例#27
0
 def test_post_with_no_inputs(self):
     client = client_for(Service(processes=[create_ultimate_question()]))
     request_doc = WPS.Execute(OWS.Identifier('ultimate_question'))
     resp = client.post_xml(doc=request_doc)
     assert_response_success(resp)
     assert get_output(resp.xml) == {'outvalue': '42'}
示例#28
0
    def test_parallel(self):
        client = client_for(
            Service(processes=[RavenHMETSProcess()], cfgfiles=CFG_FILE))

        params1 = (
            "9.5019, 0.2774, 6.3942, 0.6884, 1.2875, 5.4134, 2.3641, 0.0973, 0.0464, 0.1998, 0.0222, -1.0919, "
            "2.6851, 0.3740, 1.0000, 0.4739, 0.0114, 0.0243, 0.0069, 310.7211, 916.1947"
        )
        params2 = (
            "9.5, 0.3, 6, 0.6, 1.2, 5.4, 2.31, 0.09, 0.04, 0.19, 0.02, -1.09, "
            "2.6, 0.3, 1.0000, 0.4739, 0.0114, 0.0243, 0.0069, 310.7211, 916.1947"
        )
        params3 = (
            "9.5019, 0.2774, 6.3942, 0.6884, 1.2875, 5.4134, 2.3641, 0.0973, 0.0464, 0.1998, 0.0222, -1.0919, "
            "2.0, 0.37, 1.0000, 0.4, 0.01, 0.03, 0.01, 300.0, 920.0")

        # some params in Raven input files are derived from those 21 parameters
        # pdefaults.update({'GR4J_X1_hlf':            pdefaults['GR4J_X1']*1000./2.0})    --> x1 * 1000. / 2.0
        # pdefaults.update({'one_minus_CEMANEIGE_X2': 1.0 - pdefaults['CEMANEIGE_X2']})   --> 1.0 - x6

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "params={params1};"
            "params={params2};"
            "params={params3};"
            "start_date={start_date};"
            "end_date={end_date};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                params1=params1,
                params2=params2,
                params3=params3,
                start_date=dt.datetime(2000, 1, 1),
                end_date=dt.datetime(2002, 1, 1),
                name="Salmon",
                run_name="test",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="raven-hmets",
            datainputs=datainputs,
        )

        assert_response_success(resp)

        tmp_file, _ = urlretrieve(get_output(resp.xml)["hydrograph"])
        ds = xr.open_dataset(tmp_file)

        assert ds.variables["q_sim"].shape[0] == 3
示例#29
0
    def test_simple_alternate_hrus_param(self):
        client = client_for(
            Service(processes=[RavenGR4JCemaNeigeProcess()],
                    cfgfiles=CFG_FILE))

        params = "0.529, -3.396, 407.29, 1.072, 16.9, 0.947"

        # some params in Raven input files are derived from those 21 parameters
        # pdefaults.update({'GR4J_X1_hlf':            pdefaults['GR4J_X1']*1000./2.0})    --> x1 * 1000. / 2.0
        # pdefaults.update({'one_minus_CEMANEIGE_X2': 1.0 - pdefaults['CEMANEIGE_X2']})   --> 1.0 - x6

        salmon_land_hru_1 = dict(area=4250.6,
                                 elevation=843.0,
                                 latitude=54.4848,
                                 longitude=-123.3659)
        hrus = (GR4JCN.LandHRU(**salmon_land_hru_1), )
        hrus = json.dumps(list(map(asdict, hrus)))

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "params={params};"
            "start_date={start_date};"
            "end_date={end_date};"
            "name={name};"
            "run_name={run_name};"
            "hrus={hrus};".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                params=params,
                start_date=dt.datetime(2000, 1, 1),
                end_date=dt.datetime(2002, 1, 1),
                name="Salmon",
                run_name="test",
                hrus=hrus,
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="raven-gr4j-cemaneige",
            datainputs=datainputs,
        )

        assert_response_success(resp)

        out = get_output(resp.xml)
        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2010 would be NSE=0.511214)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, -0.117301, 4, err_msg="NSE is not matching expected value")

        # checking correctness of RMSE (full period 1954-2010 would be RMSE=32.8827)
        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 37.9493, 4, err_msg="RMSE is not matching expected value")

        assert "rv_config" in out
        rv_config, _ = urlretrieve(out["rv_config"])
        z = zipfile.ZipFile(rv_config)
        assert len(z.filelist) == 5
示例#30
0
import flask
from flask_cors import CORS, cross_origin
from pywps import Service
from wps.sayHiWps import SayHiWps

app = flask.Flask(__name__)
cors = CORS(app)
processes = [SayHiWps()]
service = Service(processes=processes, cfgfiles=['wps/pywps.cfg'])


@app.route('/wps/', methods=['GET', 'POST'])
@cross_origin(headers=['Content-Type'])
def wps():
    return service


@app.route('/outputs/<path:filename>')
def outputfile(filename):
    targetfile = os.path.join('outputs', filename)
    if os.path.isfile(targetfile):
        file_ext = os.path.splitext(targetfile)[1]
        with open(targetfile, mode='rb') as f:
            file_bytes = f.read()
        mime_type = None
        if 'xml' in file_ext:
            mime_type = 'text/xml'
        return flask.Response(file_bytes, content_type=mime_type)
    else:
        flask.abort(404)
示例#31
0
    def test_simple(self):
        client = client_for(
            Service(processes=[RavenHBVECProcess()], cfgfiles=CFG_FILE))

        params = (
            "0.05984519, 4.072232, 2.001574, 0.03473693, 0.09985144, 0.5060520, 3.438486, 38.32455, "
            "0.4606565, 0.06303738, 2.277781, 4.873686, 0.5718813, 0.04505643, 0.877607, 18.94145,  "
            "2.036937, 0.4452843, 0.6771759, 1.141608, 1.024278")

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "params={params};"
            "start_date={start_date};"
            "end_date={end_date};"
            "init={init};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                params=params,
                start_date=dt.datetime(2000, 1, 1),
                end_date=dt.datetime(2002, 1, 1),
                init="155,455",
                name="Salmon",
                run_name="test-hbv-ec",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="raven-hbv-ec",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        out = get_output(resp.xml)
        assert "diagnostics" in out
        tmp_file, _ = urlretrieve(out["diagnostics"])
        tmp_content = open(tmp_file).readlines()

        # checking correctness of NSE (full period 1954-2011 would be NSE=0.591707 as template in Wiki)
        assert "DIAG_NASH_SUTCLIFFE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_NASH_SUTCLIFFE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 0.0186633, 4, err_msg="NSE is not matching expected value")

        # checking correctness of RMSE (full period 1954-2011 would be RMSE=30.0535 as template in Wiki)
        assert "DIAG_RMSE" in tmp_content[0]
        idx_diag = tmp_content[0].split(",").index("DIAG_RMSE")
        diag = float(tmp_content[1].split(",")[idx_diag])
        np.testing.assert_almost_equal(
            diag, 35.5654, 3, err_msg="RMSE is not matching expected value")
示例#32
0
    def test_get_with_no_inputs(self):
        client = client_for(Service(processes=[create_ultimate_question()]))
        resp = client.get('?service=wps&version=1.0.0&Request=Execute&identifier=ultimate_question')
        assert_response_success(resp)

        assert get_output(resp.xml) == {'outvalue': '42'}
示例#33
0
    def test_parallel(self):
        client = client_for(
            Service(processes=[RavenHBVECProcess()], cfgfiles=CFG_FILE))

        params1 = (
            "0.05984519, 4.072232, 2.001574, 0.03473693, 0.09985144, 0.5060520, 3.438486, 38.32455, "
            "0.4606565, 0.06303738, 2.277781, 4.873686, 0.5718813, 0.04505643, 0.877607, 18.94145,  "
            "2.036937, 0.4452843, 0.6771759, 1.141608, 1.024278")
        params2 = ("0.05, 4.07, 2.00, 0.03, 0.099, 0.506, 3.43, 38., "
                   "0.47, 0.06, 2.2, 4.87, 0.5, 0.0, 0.8, 18.5,  "
                   "2.0, 0.445, 0.677, 1.14, 1.02")
        params3 = (
            "0.05984519, 4.072232, 2.001574, 0.03473693, 0.09985144, 0.5060520, 3.438486, 38.32455, "
            "0.4606565, 0.06303738, 2.277781, 4.873686, 0.5718813, 0.04505643, 0.877607, 18.94145,  "
            "2.036937, 0.4452843, 0.6771759, 1.141608, 1.024278")

        # NOTE THAT ALL PARAMETERS IN SETS 1 and 3 ARE THE SAME. THEY SHOULD RETURN THE SAME RESULTS.

        datainputs = (
            "ts=files@xlink:href=file://{ts};"
            "params={params1};"
            "params={params2};"
            "params={params3};"
            "start_date={start_date};"
            "end_date={end_date};"
            "name={name};"
            "run_name={run_name};"
            "area={area};"
            "latitude={latitude};"
            "longitude={longitude};"
            "elevation={elevation};".format(
                ts=get_local_testdata(
                    "raven-gr4j-cemaneige/Salmon-River-Near-Prince-George_meteo_daily.nc",
                ),
                params1=params1,
                params2=params2,
                params3=params3,
                start_date=dt.datetime(2000, 1, 1),
                end_date=dt.datetime(2002, 1, 1),
                name="Salmon",
                run_name="test",
                area="4250.6",
                elevation="843.0",
                latitude=54.4848,
                longitude=-123.3659,
            ))

        resp = client.get(
            service="WPS",
            request="Execute",
            version="1.0.0",
            identifier="raven-hbv-ec",
            datainputs=datainputs,
        )

        assert_response_success(resp)
        tmp_file, _ = urlretrieve(get_output(resp.xml)["hydrograph"])
        ds = xr.open_dataset(tmp_file)

        assert ds.variables["q_sim"].shape[0] == 3

        # THIS TEST FAILS. PARAMETERS ARE NOT PASSED IN ORDER...?
        assert all(ds.variables["q_sim"][0, :] == ds.variables["q_sim"][2, :])
示例#34
0
 def test_missing_process_error(self):
     client = client_for(Service(processes=[create_ultimate_question()]))
     resp = client.get('?Request=Execute&identifier=foo')
     assert resp.status_code == 400
示例#35
0
 def describe_process(self, process):
     client = client_for(Service(processes=[process]))
     resp = client.get('?service=wps&version=1.0.0&Request=DescribeProcess&identifier=%s'
                       % process.identifier)
     [result] = get_describe_result(resp)
     return result