Exemplo n.º 1
0
    def change_i18n(self, new_lang):
        """Change internationalisation for the plugin.

        Override the system locale  and then see if we can get a valid
        translation file for whatever locale is effectively being used.

        """
        #os.environ["LANG"] = str(new_lang)
        root = os.path.abspath(os.path.join(os.path.dirname(__file__), os.pardir))
        translation_path = os.path.join(
            root, self.name, I18N_FOLDER,
            self.name+"_" + str(new_lang) + ".qm")
        if os.path.exists(translation_path):
            self.translator = QTranslator()
            result = self.translator.load(translation_path)
            if not result:
                error(
                    "Translation file {} for lang {} was not loaded properly,"
                    + "falling back to English".format(translation_path, new_lang)
                    )
                return
            if qVersion() > "4.3.3":
                QCoreApplication.installTranslator(self.translator)
            else:
                self.translator = None
                warn("Translation not supported for Qt <= {}".format(qVersion()))
        else:
            if new_lang != "en":
                warn("Translation failed for lang {}, falling back to English".format(new_lang))
Exemplo n.º 2
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'geosudRefToa_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = geosudRefToaDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Geosud Toa Reflectance')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'geosudRefToa')
        self.toolbar.setObjectName(u'geosudRefToa')
        
        #KO_QGis Info Bar
        self.bar = QgsMessageBar()
        self.bar.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Fixed)
        self.dlg.glInfo.addWidget(self.bar, 0,0,1,1)

        #KO_Connect
        self.dlg.pbLoadImg.clicked.connect(self.displayDirFile)
        self.dlg.pbMetadata.clicked.connect(self.displayDirMetadata)
        self.dlg.pbLucky.clicked.connect(self.autoLoadMetadata)
        self.dlg.pbGetParam.clicked.connect(self.displayMetadata)
        self.dlg.cbOutput.clicked.connect(self.activeOutputDir)
        self.dlg.pbOutput.clicked.connect(self.outputDir)
        self.dlg.pbConvert.clicked.connect(self.processToa)
        self.dlg.pbAbout.clicked.connect(self.helpFile)
        self.dlg.pbClear.clicked.connect(self.clearHistory)

        #KO_Disabled
        self.dlg.pbOutput.setEnabled(False)
        self.dlg.cbOutput.setEnabled(False)
        self.dlg.pbConvert.setEnabled(False)
        self.dlg.leOutput.setEnabled(False)

        #KO_Checked
        self.dlg.rbRefNorm.setChecked(True)
Exemplo n.º 3
0
    def __init__(self):#, iface):
        # initialize plugin directory
        self._dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')#[0:2]
        locale_path = os.path.join(
            self._dir,
            'i18n',
            'CUDARaster_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = CUDARasterDialog()
        self.dlg2 = CUDARasterDialogCrash()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&CUDA Raster')

        self.dlg.input_line.clear()
        self.dlg.input_button.clicked.connect(self.select_input_file)
        
        self.dlg.output_line.clear()
        self.dlg.output_button.clicked.connect(self.select_output_folder)

        self.dlg.slope_check.setChecked(False)
        self.dlg.aspect_check.setChecked(False)
        self.dlg.hillshade_check.setChecked(False)
Exemplo n.º 4
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            '{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.plugin_name = self.tr('&Menu Builder')
        # reference to plugin actions
        self.actions = []
        # used to store active menus
        self.menus = []

        # Create the dialog (after translation) and keep reference
        self.dlg = MenuBuilderDialog(self)
Exemplo n.º 5
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'segreg_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = segregDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Segreg')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'segreg')
        self.toolbar.setObjectName(u'segreg')
    def __init__(self, iface):
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ARPAP_SpatialReport_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ARPAP_SpatialReportDialog(iface = self.iface)
        
        #QObject.connect(self.dlg.testButton, SIGNAL('pressed()'),self.test)
        #QObject.connect(self.dlg.browseConfigFileOutputButton, SIGNAL('clicked()'),self.outConfigFile)
        #QObject.connect(self.dlg.browseConfigFileInputButton, SIGNAL('clicked()'),self.inConfigFile)
        QObject.connect(self.dlg.runButton, SIGNAL('clicked()'),self.runAlgorithm)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&ARPAP SpatialReport')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'ARPAP_SpatialReport')
        self.toolbar.setObjectName(u'ARPAP_SpatialReport')
    def __init__(self, iface):
        """Constructor.
        
        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value("locale/userLocale", "en")[0:2] 
        if not locale in ['en','nl'] : locale = 'en'

        locale_path = os.path.join(
            self.plugin_dir, 'i18n', '{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)
        
        # Create the dialog (after translation) and keep reference
        self.vmmQryDlg = vmmQryDialog(self.iface, self.iface.mainWindow() )
        self.settingsDlg = settingsDlg(self.iface, self.iface.mainWindow())

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Spatial Subset Query tool')
        self.toolbar = self.iface.addToolBar(u'vmmQry')
        self.toolbar.setObjectName(u'vmmQry')
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            '{}_{}.qm'.format(DelimitationToolbox.__modname__, locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.dock = None
Exemplo n.º 9
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        pluginPath = QFileInfo(os.path.realpath(__file__)).path()
        # initialize locale using the QGIS locale
        locale = QSettings().value("locale/userLocale")[0:2]
        if QFileInfo(pluginPath).exists():
            locale_path = os.path.join(pluginPath, "i18n", "{}.qm".format(locale))
        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)
            if qVersion() > "4.3.3":
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = histogramDialog(self.iface)

        # Declare instance attributes
        self.menu = self.tr(u"&Histogram")
Exemplo n.º 10
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'RCMRD_LandDegr_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = RCMRD_LandDegrDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&RCRMD: land degradation')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'RCMRD: land degradation')
        self.toolbar.setObjectName(u'RCMRD: land degradation')

        # Declare user instance variables
        self.roiDefinitions = None
        self.roiDefinitions = [{"name":"IGAD", "roiXY":[21.8094, -4.6775, 51.417, 22.227]},
            {"name":"Djibouti", "roiXY":[41.749110148,10.929824931, 43.418711785,12.707912502]},
            {"name":"Eritrea", "roiXY":[36.423647095,12.360021871, 43.123871290,18.004828192]},
            {"name":"Ethiopia", "roiXY":[32.989799845,3.403333435, 47.979169149,14.879532166]},
            {"name":"Kenya", "roiXY":[33.890468384,-4.677504165, 41.885019165,5.030375823]},
            {"name":"Sudan", "roiXY":[42.647246541,7.996515605, 48.93911199991,11.498928127]},
            {"name":"South Sudan", "roiXY":[24.121555623,3.490201518, 35.920835409,12.216154684]},
            {"name":"Somali Land", "roiXY":[42.647246541,7.996515605, 48.93911199991,11.498928127]},
            {"name":"Somalia", "roiXY":[40.965385376,-1.69628316498, 51.417037811,11.989118646]},
            {"name":"Uganda", "roiXY":[29.548459513,-1.475205994, 35.006472615,4.219691875]}]
        
        #self.selectedRoi = None
        self.raster_list = [] # list all files open in QGis, contains file objects
        self.dictReproj = None # dictionary: 'input filename' -> reprojected filename
        self.clipLayer = None # store the clipping vector layer

        self.listIDInputs={} # dictionary: key -> layer name. See keys definition in the code ('VGT', 'RFE', ...)
        self.listIDWeightsPotential={}
        self.listIDWeightsActual={}
        
        SettingsOrganisation='RCMRD_QGIS'
        SettingsApplication='RCMRD_LandDegr'
Exemplo n.º 11
0
    def __init__(self, iface):
        """Constructor.
        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        self.canvas = self.iface.mapCanvas()

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        print self.plugin_dir
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ArcheoTool_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)
Exemplo n.º 12
0
    def __init__(self, iface):
        try:
            debug()
        except:
            print 'Debugger not enabled'
        # save reference to the QGIS interface
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = \
            QFileInfo(QgsApplication.qgisUserDbFilePath()).path() + \
            "/python/plugins/qchainage"
        # initialize locale
        locale_path = ""
        locale = QSettings().value("locale/userLocale")[0:2]

        if QFileInfo(self.plugin_dir).exists():
            locale_path = self.plugin_dir + "/i18n/qchainage_" + locale + ".qm"

        if QFileInfo(locale_path).exists():
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)
Exemplo n.º 13
0
    def __init__(self, iface):
        """Inizialize the plug in

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface

        #set preferences
        self.prefs = prefs.RadarPrefs()
        self.prefs.set_prefs()

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'Marsis_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

#        self.iface = iface
        self.marsis_menu = None
Exemplo n.º 14
0
    def __init__(self, iface):
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(QFile.decodeName(__file__))
        # initialize locale
        settings = QSettings()
        locale = settings.value("locale/userLocale", "")[0:2]
        localePath = os.path.join(self.plugin_dir, 'i18n', '{0}.qm'.format(locale))

        if os.path.exists(localePath):
            self.translator = QTranslator()
            self.translator.load(localePath)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        self.pluginName = self.tr("TileLayerPlugin")
        self.downloadTimeout = int(settings.value("/TileLayerPlugin/timeout", 30, type=int))
        self.navigationMessagesEnabled = int(settings.value("/TileLayerPlugin/naviMsg", Qt.Checked, type=int))
        self.crs3857 = None
        self.layers = {}

        # register plugin layer type
        self.tileLayerType = TileLayerType(self)
        QgsPluginLayerRegistry.instance().addPluginLayerType(self.tileLayerType)

        # connect signal-slot
        QgsMapLayerRegistry.instance().layerRemoved.connect(self.layerRemoved)
Exemplo n.º 15
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    def __init__(self, iface):
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'featureLoader_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        self.wkbText = {0:"GeometryUnknown", 1:"Point", 2:"LineString", 3:"Polygon", 4:"MultiPoint", 5:"MultiLineString",
                        6:"MultiPolygon", 7:"NoGeometry", 8:"Point25D", 9:"LineString25D", 10:"Polygon25D",
                        11:"MultiPoint25D", 12:"MultiLineString25D", 13:"MultiPolygon25D", 100:"NoGeometry"}

        #sometime qgis cannot return geometry type truly. this bug is handling in here
        self.geometryText = {0:"Point", 1:"LineString", 2:"Polygon", 3:"GeometryUnknown", 4:"NoGeometry"}

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Feature Loader')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'featureLoader')
        self.toolbar.setObjectName(u'featureLoader')
Exemplo n.º 16
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    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value("locale/userLocale")[0:2]
        locale_path = os.path.join(self.plugin_dir, "i18n", "AttributeSplit_{}.qm".format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > "4.3.3":
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = AttributeSplitDialog(iface)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u"&Attribute Split")
        self.toolbar = self.iface.addToolBar(u"AttributeSplit")
        self.toolbar.setObjectName(u"AttributeSplit")
    def __init__(self, iface):

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ProbabilisticMapAlgebraTool_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ProbabilisticMapAlgebraToolDialog(self.iface)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Probabilistic Map Algebra Tool')
        self.toolbar = self.iface.addToolBar(u'ProbabilisticMapAlgebraTool')
        self.toolbar.setObjectName(u'ProbabilisticMapAlgebraTool')
Exemplo n.º 18
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def generateVersionInfo(linesep = '\n'):
    """
    Module function to generate a string with various version infos.
    
    @param linesep string to be used to separate lines (string)
    @return string with version infos (string)
    """
    try:
        import sipconfig
        sip_version_str = sipconfig.Configuration().sip_version_str
    except ImportError:
        sip_version_str = "sip version not available"
    
    info =  "Version Numbers:%s  Python %s%s" % \
        (linesep, sys.version.split()[0], linesep)
    if KdeQt.isKDEAvailable():
        info += "  KDE %s%s  PyKDE %s%s" % \
            (str(KdeQt.kdeVersionString()), linesep, 
             str(KdeQt.pyKdeVersionString()), linesep)
    info += "  Qt %s%s  PyQt4 %s%s" % \
        (str(qVersion()), linesep, str(PYQT_VERSION_STR), linesep)
    info += "  sip %s%s  QScintilla %s%s" % \
        (str(sip_version_str), linesep, str(QSCINTILLA_VERSION_STR), linesep)
    info += "  %s %s%s" % \
        (Program, Version, linesep * 2)
    info += "Platform: %s%s%s%s" % \
        (sys.platform, linesep, sys.version, linesep)
    
    return info
Exemplo n.º 19
0
	def aboutHtml(self):
		import sys
		from PyQt4.QtCore import qVersion, PYQT_VERSION_STR
		import sipconfig
		from PyQt4 import QtWebKit
		from Tc2Lib.gocr import gocr

		p = '<html><head>'
		p += '<LINK REL=StyleSheet HREF="default.css" TYPE="text/css" MEDIA=screen>'
		p += '</head><body>'

		p += '<div class="textBox">'
		p += '<div class="headerBox">About TableCrab</div>'
		p += '<ul>'
		p += '<li>%s: %s' % (Tc2Config.ApplicationName, Tc2Config.Version)
		p += '<li>Author: %s' % Tc2Config.Author
		p += '<li>Mail: [email protected]'
		p += '</ul>'

		p += '<ul>'
		p += '<li>Python: %s.%s.%s' % sys.version_info[:3]
		p += '<li>Sip: %s\n' % sipconfig.Configuration().sip_version_str
		p += '<li>Qt: %s' % qVersion()
		p += '<li>PyQt: %s' % PYQT_VERSION_STR
		p += '<li>WebKit: %s\n' % QtWebKit.qWebKitVersion()
		p += '<li>Gocr: %s\n' % gocr.version()

		p += '</ul>'
		p += '</div>'
		p += '</body></html>'
		return p
Exemplo n.º 20
0
    def __init__(self, iface):

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'TwitterLocation_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&TwitterLocation')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'TwitterLocation')
        self.toolbar.setObjectName(u'TwitterLocation')
Exemplo n.º 21
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        self.dlg = None
        # Save reference to the QGIS interface
        self.iface = iface
        self.canvas = iface.mapCanvas()
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'OSRM_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Routing with OSRM')

        self.toolbar = self.iface.addToolBar(u'Routing with OSRM')
        self.toolbar.setObjectName(u'Routing with OSRM')
Exemplo n.º 22
0
    def __init__(self, iface):

        self.iface = iface
        self.plugin_dir = dirname(__file__)
        # initialize locale
        locale = QSettings().value("locale/userLocale")[0:2]
        locale_path = join(
            self.plugin_dir,
            'i18n',
            'GeoHealth_{}.qm'.format(locale))

        if exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                # noinspection PyCallByClass,PyTypeChecker,PyArgumentList
                QCoreApplication.installTranslator(self.translator)

        self.plugin_menu = None
        self.geohealth_menu = None
        self.main_action = None
        self.xy_action = None
        self.blur_action = None
        self.incidence_action = None
        self.density_action = None
        self.histogram_action = None

        # Add to processing
        self.provider = Provider()
        Processing.addProvider(self.provider, True)
    def __init__(self, iface):
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'MahalanobisDistance_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = MahalanobisDistanceDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Mahalanobis Distance')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'Mahalanobis Distance')
        self.toolbar.setObjectName(u'Mahalanobis Distance')

        # signals and slots
        self.dlg.addBtn.clicked.connect(self.add_layer)
        self.dlg.removeBtn.clicked.connect(self.remove_layer)
        self.dlg.outputBtn.clicked.connect(self.output)
        self.dlg.buttonBox.accepted.connect(self.calculate)
        self.dlg.buttonBox.rejected.connect(self.dlg.close)
Exemplo n.º 24
0
    def __init__(self, iface):
        """Constructor."""
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ApexQuality_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Apex Quality Assessment')

        self.spectralTool = SpectralTool(self.iface.mapCanvas())
        self.path = os.path.dirname(os.path.realpath(__file__))
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        self.canvas = self.iface.mapCanvas()

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale

        locale = QSettings().value("locale/userLocale")[0:2]
        locale_path = os.path.join(self.plugin_dir, "i18n", "smart-editing-tools_{}.qm".format(locale))
        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > "4.3.3":
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.name = self.tr(u"&Smart editing tools")
        self.menu = self.iface.vectorMenu().addMenu(QIcon(":/plugins/smart-editing-tools/icon.png"), self.name)
        self.toolbar = self.iface.addToolBar(u"Smart_editing_tools")
        self.toolbar.setObjectName(u"Smart_editing_tools")
        self.oldTool = None
        self.disconnection = None
Exemplo n.º 26
0
    def collectVersions(self):
        csw = Misc.Switcher(0, "#ffffff", "#eeeeee")
        buf = ['<table><tr bgcolor="#dddddd"><th>Component/Library</th><th>Version</th></tr>']
        buf.append('<tr bgcolor="%s"><td>SimuVis4</td><td>%s</td></tr>' % (csw(), Globals.version_string))
        buf.append('<tr bgcolor="%s"><td>Python</td><td>%s | %s</td></tr>' % \
            (csw(), '.'.join([str(i) for i in sys.version_info]), sys.version))
        buf.append('<tr bgcolor="%s"><td>PyQt</td><td>%s | %s</td></tr>' % (csw(), PYQT_VERSION_STR, PYQT_VERSION))
        buf.append('<tr bgcolor="%s"><td>Qt</td><td>%s</td></tr>' % (csw(), qVersion()))

        if sys.modules.has_key('vtk'):
            v = sys.modules['vtk'].vtkVersion.GetVTKVersion()
            vl = sys.modules['vtk'].vtkVersion.GetVTKSourceVersion()
            buf.append('<tr bgcolor="%s"><td>Vtk</td><td>%s | %s</td></tr>' % (csw(), v, vl))

        if sys.modules.has_key('OpenGL'):
            v = sys.modules['OpenGL'].__version__
            buf.append('<tr bgcolor="%s"><td>PyOpenGL</td><td>%s</td></tr>' % (csw(), v))

        for p in Globals.mainWin.plugInManager.plugIns.values():
            buf.append('<tr bgcolor="%s"><td>PlugIn: %s</td><td>%s</td></tr>' % (csw(), p.name, p.version))

        if sys.platform == 'linux2':
            n = QCoreApplication.translate('AboutDlg', 'Operating System')
            d = getLinuxDistro()
            k = os.popen('uname -o -s -r', 'r').readlines()[0]
            buf.append('<tr bgcolor="%s"><td>%s</td><td>%s (%s)</td></tr>' % (csw(), n, d, k))

        if sys.platform == 'win32':
            n = QCoreApplication.translate('AboutDlg', 'Operating System')
            v, vs = getWindowsVersion()
            buf.append('<tr bgcolor="%s"><td>%s</td><td>%s</td></tr>' % (csw(), n, vs))

        buf.append('</table>')
        self.VersionView.setHtml('\n'.join(buf))
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'metriquePhenologique_{}.qm'.format(locale))
        
        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = metriquePhenologiqueDialog()
        QApplication.restoreOverrideCursor()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&pretraitement et pheno')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'metriquePhenologique')
        self.toolbar.setObjectName(u'metriquePhenologique')
		
        self.dlg.pushButton_cheminNDVI.clicked.connect(self.accesRepertoireNdvi)
        self.dlg.pushButton_cheminDOY.clicked.connect(self.accesRepertoireDoy)
        self.dlg.pushButton_cheminOut.clicked.connect(self.accesCheminSave)
        self.dlg.pushButton_cheminNDVI_metrique.clicked.connect(self.accesRepertoireNdviMetrique)
        self.dlg.pushButton_cheminNDVI_metrique_fichier.clicked.connect(self.accesFichierNdviMetriqueMultiannuelle)
        self.dlg.pushButton_cheminOut_metrique.clicked.connect(self.accesCheminSaveMetrique)
        self.dlg.pushButton_cheminZoneEtudes.clicked.connect(self.accesZoneEtudes)
        
        self.dlg.pushButton_execution.clicked.connect(self.active_progressbar,1)
        self.dlg.pushButton_execution.clicked.connect(self.validation)
        
        self.dlg.pushButton_execution_metrique.clicked.connect(self.active_progressbar_metrique,1)
        self.dlg.pushButton_execution_metrique.clicked.connect(self.validationMetrique)
        
        self.dlg.radioButton_DOY.clicked.connect(self.selectionDOY)
        self.dlg.radioButton_NDVI.clicked.connect(self.selectionNDVI)
        self.dlg.radioButton_default.clicked.connect(self.selectionDefault)
        self.dlg.radioButton_seuil.clicked.connect(self.selectionSeuil)
        
        self.dlg.MOD13Q1.currentChanged[int].connect(self.choixTab)
        #permet de réaliser une tache en fonction de l'option de pretraitement choisie
        self.dlg.outilPretraitement.currentChanged[int].connect(self.choix)
Exemplo n.º 28
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value("locale/userLocale")[0:2]
        locale_path = os.path.join(self.plugin_dir, "i18n", "LidarProcessor_{}.qm".format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > "4.3.3":
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = LidarProcessorDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u"&LiDAR Processor")
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u"LidarProcessor")
        self.toolbar.setObjectName(u"LidarProcessor")

        # Button Calls

        # Select Input Button
        self.dlg.inputDir.clear()
        self.dlg.inputDirButton.clicked.connect(self.select_input_file)

        # Select Output Button
        self.dlg.outputDir.clear()
        self.dlg.outputDirButton.clicked.connect(self.select_output_file)

        # Select Lastools Directory Button
        self.dlg.lastoolDir.clear()
        self.dlg.lastoolDirButton.clicked.connect(self.select_lastool_file)

        # Start Processing Button
        self.dlg.startProc.clicked.connect(self.proc_start)

        # To make the Status box uneditable by the user
        self.dlg.statusBox.setReadOnly(True)

        # Set Resolution Button for DEM FIles
        self.dlg.setres.clicked.connect(self.enablespin)
        count = 0

        self.dlg.closeButton.clicked.connect(self.closeplugin)
Exemplo n.º 29
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ZRisk_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ZRiskDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&ZRisk')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'ZRisk')
        self.toolbar.setObjectName(u'ZRisk')

        #Definisanje signala i slotova:

        #Detektovanje da li su lejeri u ulaznim poljima promenjeni
        QObject.connect(self.dlg.mMapLayerComboBoxHazard, QtCore.SIGNAL("currentIndexChanged(const QString&)"), self.layerChanged)
        QObject.connect(self.dlg.mMapLayerComboBoxPovredljivost, QtCore.SIGNAL("currentIndexChanged(const QString&)"), self.layerChanged)
        QObject.connect(self.dlg.mMapLayerComboBoxZgrade, QtCore.SIGNAL("currentIndexChanged(const QString&)"), self.layerChanged)
        
        #Detektovanje promena u ulalaznim poljima:
        QObject.connect(self.dlg.mFieldComboBoxHPGA, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxZPGA, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxOstecenje, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxLJudi, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxStanari, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxKljudi, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        QObject.connect(self.dlg.mFieldComboBoxKpovred, QtCore.SIGNAL("fieldChanged(const QString &)"), self.fieldChanged)
        
        #Glavni signal i dugme OK
        QObject.connect(self.dlg.pushButtonOK, QtCore.SIGNAL('clicked()'), self.sracunaj)
        #Dugme Odustani
        QObject.connect(self.dlg.pushButtonOdustani, QtCore.SIGNAL('clicked()'), self.close)
        #Detektovanje promene da li se raspolaze PGA podacima
        QObject.connect(self.dlg.radioButton, QtCore.SIGNAL('clicked()'), self.kliknuto)
Exemplo n.º 30
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)

        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'UniumPlugin_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&UniumPlugin')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.pluginToolBar() #self.iface.addToolBar(u'UniumPlugin')
        self.toolbar.setObjectName(u'UniumPlugin')

        #print "** INITIALIZING UniumPlugin"

        self.pluginIsActive = False
        self.dockwidget = None
        
        # initialize dict for saving data about importing sml
        self.sml_data = {}
        
        # initialize layers data
        self.categories = {}
        self.layers = {}
        self.src_info = {}
        self.selected_id = u''
        self.selected_files = []
        self.mercator = QgsCoordinateReferenceSystem()
        mercatorWKT = u'PROJCS["WGS 84 / Pseudo-Mercator",GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0,AUTHORITY["EPSG","8901"]],UNIT["degree",0.0174532925199433,AUTHORITY["EPSG","9122"]],AUTHORITY["EPSG","4326"]],PROJECTION["Mercator_1SP"],PARAMETER["central_meridian",0],PARAMETER["scale_factor",1],PARAMETER["false_easting",0],PARAMETER["false_northing",0],UNIT["metre",1,AUTHORITY["EPSG","9001"]],AXIS["X",EAST],AXIS["Y",NORTH],EXTENSION["PROJ4","+proj=merc +a=6378137 +b=6378137 +lat_ts=0.0 +lon_0=0.0 +x_0=0.0 +y_0=0 +k=1.0 +units=m +nadgrids=@null +wktext  +no_defs"],AUTHORITY["EPSG","3857"]]'
        mercatorProj4 = u'+proj=merc +a=6378137 +b=6378137 +lat_ts=0.0 +lon_0=0.0 +x_0=0.0 +y_0=0 +k=1.0 +units=m +nadgrids=@null +wktext  +no_defs'
        #self.mercator.createFromProj4()
        self.mercator.createFromWkt(mercatorWKT)

        # default configuration
        self.default_config = """{"files_folder": "",
Exemplo n.º 31
0
    def __init__(self, iface):
        """Constructor.
	
        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        #############################################
        #Deixa o Canvas do QGIS manuseável, não tenho muita certeza ainda
        self.iface = iface

        #QgsMapTool.__init__(self, iface.mapCanvas())
        self.canvas = self.iface.mapCanvas()
        #QgsMapToolEmitPoint.__init__(self.canvas)
        self.clickTool = QgsMapToolEmitPoint(self.canvas)
        #############################################

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'BrasilIDF_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = BrasilIDFDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Brasil IDF')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'BrasilIDF')
        self.toolbar.setObjectName(u'BrasilIDF')

        #======================================================================#

        #Limpa o texto que ja foi escrito e conecta ao select_output_file1
        self.dlg.caminhoTexto.clear()
        self.dlg.botaoTexto.clicked.connect(self.select_output_file)

        #DURACAO - Pega o clique do botão rodar e conecta ao run
        self.dlg.rodarDuracao.clicked.connect(self.run)

        #BLOCOS_ALTERNADOS - Pega o clique do botão rodar e conecta ao run1
        self.dlg.rodarBlocos.clicked.connect(self.run1)

        #CURVA_I-D-F - Pega o clique do botão rodar e conecta ao run2
        self.dlg.rodarIDF.clicked.connect(self.run2)

        #CURVA_P-D-F - Pega o clique do botão rodar e conecta ao run3
        self.dlg.rodarPDF.clicked.connect(self.run3)

        #Pega o clique do botão fechar e conect a função fechar
        self.dlg.fechar.clicked.connect(self.fechar)
Exemplo n.º 32
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'ExportToHE_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ExportToHEDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Export to HE')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'ExportToHE')
        self.toolbar.setObjectName(u'ExportToHE')

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 08.02.2017)

        logger.info('\n\nQKan_ExportHE initialisiert...')

        # --------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), 'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)

        # --------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, 'qkan.json')
        if os.path.exists(self.configfil):
            with codecs.open(self.configfil, 'r', 'utf-8') as fileconfig:
                self.config = json.loads(fileconfig.read().replace('\\', '/'))
        else:
            self.config['database_HE'] = ''
            # Vorlagedatenbank nur für den Fall, dass der Anwender keine eigene Vorlage erstellen will
            self.config['dbtemplate_HE'] = os.path.join(
                os.path.dirname(__file__), "templates", "itwh.idbf")
            self.config['database_QKan'] = ''
            with codecs.open(self.configfil, 'w', 'utf-8') as fileconfig:
                fileconfig.write(json.dumps(self.config))

        # Standard für Suchverzeichnis festlegen
        project = QgsProject.instance()
        self.default_dir = os.path.dirname(project.fileName())

        if 'database_QKan' in self.config:
            database_QKan = self.config['database_QKan']
        else:
            database_QKan = ''
        self.dlg.tf_QKanDB.setText(database_QKan)
        self.dlg.pb_selectQKanDB.clicked.connect(self.selectFile_QKanDB)

        if 'database_HE' in self.config:
            database_HE = self.config['database_HE']
        else:
            database_HE = ''
        self.dlg.tf_heDB_dest.setText(database_HE)
        self.dlg.pb_selectHeDB_dest.clicked.connect(self.selectFile_HeDB_dest)

        if 'dbtemplate_HE' in self.config:
            dbtemplate_HE = self.config['dbtemplate_HE']
        else:
            dbtemplate_HE = ''
        self.dlg.tf_heDB_template.setText(dbtemplate_HE)
        self.dlg.pb_selectHeDB_template.clicked.connect(
            self.selectFile_HeDB_template)

        if 'datenbanktyp' in self.config:
            datenbanktyp = self.config['datenbanktyp']
        else:
            datenbanktyp = 'spatialite'
            pass  # Es gibt noch keine Wahlmöglichkeit

        self.dlg.pb_exportall.clicked.connect(self.exportall)
        self.dlg.pb_modifyall.clicked.connect(self.modifyall)
        self.dlg.pb_initall.clicked.connect(self.initall)
        self.dlg.pb_exportnone.clicked.connect(self.exportnone)
        self.dlg.pb_modifynone.clicked.connect(self.modifynone)
        self.dlg.pb_initnone.clicked.connect(self.initnone)

        # Auswahl der zu exportierenden Tabellen ----------------------------------------------

        # Eigene Funktion für die zahlreichen Checkboxen

        def cb_set(name, cbox, default):
            if name in self.config:
                checked = self.config[name]
            else:
                checked = default
            cbox.setChecked(checked)
            return checked

        export_schaechte = cb_set('export_schaechte',
                                  self.dlg.cb_export_schaechte, True)
        export_auslaesse = cb_set('export_auslaesse',
                                  self.dlg.cb_export_auslaesse, True)
        export_speicher = cb_set('export_speicher',
                                 self.dlg.cb_export_speicher, True)
        export_haltungen = cb_set('export_haltungen',
                                  self.dlg.cb_export_haltungen, True)
        export_pumpen = cb_set('export_pumpen', self.dlg.cb_export_pumpen,
                               False)
        export_wehre = cb_set('export_wehre', self.dlg.cb_export_wehre, False)
        export_flaechenrw = cb_set('export_flaechenrw',
                                   self.dlg.cb_export_flaechenrw, True)
        export_flaechensw = cb_set('export_flaechensw',
                                   self.dlg.cb_export_flaechensw, True)
        export_abflussparameter = cb_set('export_abflussparameter',
                                         self.dlg.cb_export_abflussparameter,
                                         True)
        export_regenschreiber = cb_set('export_regenschreiber',
                                       self.dlg.cb_export_regenschreiber,
                                       False)
        export_rohrprofile = cb_set('export_rohrprofile',
                                    self.dlg.cb_export_rohrprofile, False)
        export_speicherkennlinien = cb_set(
            'export_speicherkennlinien', self.dlg.cb_export_speicherkennlinien,
            False)
        export_bodenklassen = cb_set('export_bodenklassen',
                                     self.dlg.cb_export_bodenklassen, False)

        modify_schaechte = cb_set('modify_schaechte',
                                  self.dlg.cb_modify_schaechte, False)
        modify_auslaesse = cb_set('modify_auslaesse',
                                  self.dlg.cb_modify_auslaesse, False)
        modify_speicher = cb_set('modify_speicher',
                                 self.dlg.cb_modify_speicher, False)
        modify_haltungen = cb_set('modify_haltungen',
                                  self.dlg.cb_modify_haltungen, False)
        modify_pumpen = cb_set('modify_pumpen', self.dlg.cb_modify_pumpen,
                               False)
        modify_wehre = cb_set('modify_wehre', self.dlg.cb_modify_wehre, False)
        modify_flaechenrw = cb_set('modify_flaechenrw',
                                   self.dlg.cb_modify_flaechenrw, False)
        modify_flaechensw = cb_set('modify_flaechensw',
                                   self.dlg.cb_modify_flaechensw, False)
        modify_abflussparameter = cb_set('modify_abflussparameter',
                                         self.dlg.cb_modify_abflussparameter,
                                         False)
        modify_regenschreiber = cb_set('modify_regenschreiber',
                                       self.dlg.cb_modify_regenschreiber,
                                       False)
        modify_rohrprofile = cb_set('modify_rohrprofile',
                                    self.dlg.cb_modify_rohrprofile, False)
        modify_speicherkennlinien = cb_set(
            'modify_speicherkennlinien', self.dlg.cb_modify_speicherkennlinien,
            False)
        modify_bodenklassen = cb_set('modify_bodenklassen',
                                     self.dlg.cb_modify_bodenklassen, False)

        init_schaechte = cb_set('init_schaechte', self.dlg.cb_init_schaechte,
                                False)
        init_auslaesse = cb_set('init_auslaesse', self.dlg.cb_init_auslaesse,
                                False)
        init_speicher = cb_set('init_speicher', self.dlg.cb_init_speicher,
                               False)
        init_haltungen = cb_set('init_haltungen', self.dlg.cb_init_haltungen,
                                False)
        init_pumpen = cb_set('init_pumpen', self.dlg.cb_init_pumpen, False)
        init_wehre = cb_set('init_wehre', self.dlg.cb_init_wehre, False)
        init_flaechenrw = cb_set('init_flaechenrw',
                                 self.dlg.cb_init_flaechenrw, False)
        init_flaechensw = cb_set('init_flaechensw',
                                 self.dlg.cb_init_flaechensw, False)
        init_abflussparameter = cb_set('init_abflussparameter',
                                       self.dlg.cb_init_abflussparameter,
                                       False)
        init_regenschreiber = cb_set('init_regenschreiber',
                                     self.dlg.cb_init_regenschreiber, False)
        init_rohrprofile = cb_set('init_rohrprofile',
                                  self.dlg.cb_init_rohrprofile, False)
        init_speicherkennlinien = cb_set('init_speicherkennlinien',
                                         self.dlg.cb_init_speicherkennlinien,
                                         False)
        init_bodenklassen = cb_set('init_bodenklassen',
                                   self.dlg.cb_init_bodenklassen, False)

        export_difftezg = cb_set('export_difftezg',
                                 self.dlg.cb_export_difftezg, True)
        export_verschneidung = cb_set('export_verschneidung',
                                      self.dlg.cb_export_verschneidung, True)
Exemplo n.º 33
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'TECView_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&SRH2D_TECViewer')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'TECView')
        self.toolbar.setObjectName(u'TECView')
        self.all_Attrs = list()
        self.dlg = TECViewDialog()

        self.dlg.fileListWidget.clear()
        self.dlg.attributeList.clear()
        self.dlg.progressBar.setVisible(False)

        # - Button Connections  - #
        self.dlg.selectProjFolder.clicked.connect(self.selectProjFolder)
        self.dlg.geoRefBtn.clicked.connect(self.selectCrs)
        self.dlg.addFileBtn.clicked.connect(self.selectTECFile)
        self.dlg.deleteFileBtn.clicked.connect(self.removeTECfile)
        self.dlg.fileListWidget.itemSelectionChanged.connect(self.showAttr)
        self.dlg.cancelLoadBtn.clicked.connect(lambda: self.dlg.done(0))
        self.dlg.attributeList.clicked.connect(self.selectToShow)
        self.dlg.loadTECBtn.clicked.connect(self.loadTECfiles)
        self.dlg.callSettingsBtn.clicked.connect(self.runSettings)
        self.dlg.fileListWidget.customContextMenuRequested.connect(
            self.subMenuOnFileList)
        self.animation = makeAnimation(self.iface)

        self.profiler = profilePlot(self.iface)
        self.contourPlot = contourPlot(self.iface)
        self.makeKml = kmlExport(self.iface)
        self.vecPlot = vecPlot(self.iface)
        self.settings = QSettings('ManySplendid', 'SRH2D_TEC_Viewer')
        try:
            self.systemCRS = self.settings.value('crs')
        except (AttributeError):
            self.settings.setValue('crs', 3826)
            crsType = QgsCoordinateReferenceSystem.InternalCrsId
            self.systemCRS = QgsCoordinateReferenceSystem(3826, crsType)
Exemplo n.º 34
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'ImportFromHE_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg_he = ImportFromHEDialog()
        self.dlg_lz = ResultsFromHEDialog()

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 09.10.2016)

        # --------------------------------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), 'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)
        # --------------------------------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, 'qkan.json')
        if os.path.exists(self.configfil):
            with open(self.configfil, 'r') as fileconfig:
                self.config = json.loads(fileconfig.read())

        # Standard für Suchverzeichnis festlegen
        project = QgsProject.instance()
        self.default_dir = os.path.dirname(project.fileName())

        # Formularereignisse run_import()
        self.dlg_he.pb_selectqkanDB.clicked.connect(self.selectFile_qkanDBHE)
        self.dlg_he.pb_selectHeDB.clicked.connect(self.selectFile_HeDB)
        self.dlg_he.pb_selectKBS.clicked.connect(self.selectKBS)
        self.dlg_he.pb_selectProjectFile.clicked.connect(
            self.selectProjectFile)

        # Formularereignisse run_results()

        self.dlg_lz.pb_selectqmlfile.clicked.connect(self.selectqmlfileResults)

        # Klick auf eine Option zum Layerstil aktiviert/deaktiviert das Textfeld und die Schaltfläche
        self.dlg_lz.pb_selectHeDB.clicked.connect(self.selectFile_HeErgDB)
        self.dlg_lz.rb_userqml.clicked.connect(self.enable_tf_qmlfile)
        self.dlg_lz.rb_uebh.clicked.connect(self.disable_tf_qmlfile)
        self.dlg_lz.rb_uebvol.clicked.connect(self.disable_tf_qmlfile)
        self.dlg_lz.rb_none.clicked.connect(self.disable_tf_qmlfile)
Exemplo n.º 35
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'SuewsSimple_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = SuewsSimpleDialog()
        self.dlg.pushButtonIMPcalcBuild.clicked.connect(self.IMCP)
        self.dlg.pushButtonIMPcalcVeg.clicked.connect(self.IMCP)
        self.dlg.pushButtonLCFPcalc.clicked.connect(self.LCFP)
        self.dlg.pushButtonImport_IMPB.clicked.connect(self.import_file_IMPB)
        self.dlg.pushButtonImport_IMPV.clicked.connect(self.import_file_IMPV)
        self.dlg.pushButtonImport_LCFP.clicked.connect(self.import_file_LCFP)
        self.dlg.defaultButton.clicked.connect(self.set_default_settings)
        self.dlg.helpButton.clicked.connect(self.help)
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.pushButtonImport.clicked.connect(self.met_file)
        self.dlg.pushButtonImportInitial.clicked.connect(self.import_initial)
        self.dlg.pushButtonExportInitial.clicked.connect(self.export_initial)

        self.fileDialog = QFileDialog()
        self.fileDialog.setNameFilter("(*Point_isotropic.txt)")

        self.fileDialogInit = QFileDialog()
        self.fileDialogInit.setNameFilter("(*.nml)")

        self.fileDialogMet = QFileDialog()
        self.fileDialogMet.setNameFilter("(*.txt)")

        self.fileDialogOut = QFileDialog()
        self.fileDialogOut.setFileMode(4)
        self.fileDialogOut.setAcceptMode(1)
        self.folderPathOut = None
        self.folderPath = None

        self.ret = 0

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Suews Simple')
        # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'SuewsSimple')
        # self.toolbar.setObjectName(u'SuewsSimple')

        self.model_dir = os.path.normpath(self.plugin_dir + os.sep +
                                          os.pardir + os.sep + 'suewsmodel')
Exemplo n.º 36
0
Arquivo: kNN.py Projeto: m6ev/kNN
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'kNN_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Declare instance attributes
        self.dlg = kNNDialog()
        self.actions = []
        self.menu = self.tr(u'&kNN')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'kNN')
        self.toolbar.setObjectName(u'kNN')

        ###########Clears line###########
        self.dlg.save_lineEdit.clear()
        ###########Launches event when button clicked###########
        self.dlg.save_browse.clicked.connect(self.select_output_file)
        ###########Launches event when item in dropdown menu is changed###########
        self.dlg.multiband_dropdown.currentIndexChanged.connect(
            self.updatebands)
        # self.dlg.mask_dropdown.currentIndexChanged.connect(self.upadtemask)
        self.dlg.mask_dropdown.currentIndexChanged.connect(self.updateMASK)

        self.dlg.SHP_dropdown.currentIndexChanged.connect(self.updateSHP)
        self.dlg.list_select_descriptors.itemClicked.connect(
            self.updateDescriptors)
        self.dlg.list_select_tobe_classified.itemClicked.connect(
            self.updateToBeClassified)
        self.dlg.list_select_bands.itemClicked.connect(
            self.updateSelectedBands)
        ###########Disable save path editing###########
        self.dlg.save_lineEdit.setEnabled(False)
        ###########Set default tab (Basic not advanced)###########
        self.dlg.tabWidget.setCurrentIndex(0)
        ###Set default values for check boxes###
        self.dlg.FeatureWghtLine.setEnabled(False)
        self.dlg.Geo_dist_spinBox.setEnabled(False)
        self.dlg.mask_checkbox.setEnabled(True)
        ###Call update Feature Wght and GeoDistance on state change###
        self.dlg.FeatureWghtLine_checkBox.stateChanged.connect(
            self.updateFeatureWghtLine)
        self.dlg.Geo_Dist_Checkbox.stateChanged.connect(self.updateGeoDistance)
Exemplo n.º 37
0
    def __init__(self, iface):
        """Constructor.

        Args:
            iface (QgsInterface): An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        """

        # Save reference to the QGIS interface
        self.iface = iface

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)

        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n', 'pat_plugin_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        self.actions = []

        # Look for the existing menu
        self.menuPrecAg = self.iface.mainWindow().findChild(QMenu, 'm{}Menu'.format(PLUGIN_SHORT))

        # If the menu does not exist, create it!
        if not self.menuPrecAg:
            self.menuPrecAg = QMenu('{}'.format(PLUGIN_SHORT), self.iface.mainWindow().menuBar())
            self.menuPrecAg.setObjectName('m{}Menu'.format(PLUGIN_SHORT))
            actions = self.iface.mainWindow().menuBar().actions()
            lastAction = actions[-1]
            self.iface.mainWindow().menuBar().insertMenu(lastAction, self.menuPrecAg)

        # create a toolbar
        self.toolbar = self.iface.addToolBar(u'{} Toolbar'.format(PLUGIN_SHORT))
        self.toolbar.setObjectName(u'm{}ToolBar'.format(PLUGIN_SHORT))

        # Load Defaults settings for First time...
        for eaKey in ['BASE_IN_FOLDER', 'BASE_OUT_FOLDER']:
            sFolder = read_setting(PLUGIN_NAME + '/' + eaKey)
            if sFolder is None or not os.path.exists(sFolder):
                sFolder = os.path.join(os.path.expanduser('~'), PLUGIN_NAME)

                if not os.path.exists(sFolder):
                    os.mkdir(sFolder)

                write_setting(PLUGIN_NAME + '/' + eaKey, os.path.join(os.path.expanduser('~'), PLUGIN_NAME))

        self.DEBUG = config.get_debug_mode()
        self.vesper_queue = []
        self.vesper_queue_showing = False
        self.processVesper = None
        self.vesper_exe = check_vesper_dependency(iface)

        if not os.path.exists(TEMPDIR):
            os.mkdir(TEMPDIR)
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'PeregrineFalcon_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = PeregrineFalconDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Peregrine Falcon')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'PeregrineFalcon')
        self.toolbar.setObjectName(u'PeregrineFalcon')

        ##################################################################################################################
        ##################################################################################################################

        # Initialisation des variables
        self.input_wetland = ""
        self.input_water = ""
        self.input_dem = ""
        self.plugin_name = "PeregrineFalcon"

        # Initialisation de la progress bar
        self.initialize_progress_bar()

        # Gérer les évènements des boutons
        self.dlg.demPushButton.clicked.connect(self.select_dem_file)
        self.dlg.waterPushButton.clicked.connect(self.select_water_file)
        self.dlg.wetLandPushButton.clicked.connect(self.select_wetland_file)
        self.dlg.outPushButton.clicked.connect(self.select_output_folder)
        self.dlg.helpPushButton.clicked.connect(self.show_help)

        # Gérer les évènements des LineEdits
        self.dlg.demLineEdit.editingFinished.connect(self.write_dem_srs)
        self.dlg.waterLineEdit.editingFinished.connect(self.write_water_srs)
        self.dlg.wetLandLineEdit.editingFinished.connect(
            self.write_wetland_srs)

        # Gérer les évènements des Sliders
        self.dlg.slopeAreaSlider.valueChanged.connect(
            self.show_slope_area_value)
        self.dlg.waterAreaSlider.valueChanged.connect(
            self.show_water_area_value)
        self.dlg.slopeDegSlider.valueChanged.connect(self.show_slope_deg_value)
        self.dlg.wetLandAreaSlider.valueChanged.connect(
            self.show_wet_land_value)

        # Régler les valeurs minimum et maximum des Sliders
        self.dlg.slopeAreaSlider.setMinimum(2)
        self.dlg.slopeAreaSlider.setMaximum(1000)

        self.dlg.slopeDegSlider.setMinimum(20)
        self.dlg.slopeDegSlider.setMaximum(90)

        self.dlg.waterAreaSlider.setMinimum(2)
        self.dlg.waterAreaSlider.setMaximum(1000)

        self.dlg.wetLandAreaSlider.setMinimum(2)
        self.dlg.wetLandAreaSlider.setMaximum(1000)

        # Initialiser des valeurs par défaut pour les paramètres
        self.dlg.slopeAreaSlider.setValue(5)
        self.dlg.waterAreaSlider.setValue(5)
        self.dlg.wetLandAreaSlider.setValue(5)
        self.dlg.slopeDegSlider.setValue(40)

        # Initialisation des classes de communication et de validation
        self.communications = communications(self.iface, self.progress,
                                             self.progressMessageBar,
                                             self.plugin_name)
        self.validate = validation(self.iface, self.communications,
                                   self.plugin_name)

        ################################# VALEURS TEMPORAIRES POUR DEBUG ##############################################
        # self.dlg.demLineEdit.setText(r"/home/prototron/.qgis2/python/plugins/qgis-plugin-peregrine-falcon/in_data/dem_highres_2.tif")
        # self.dlg.waterLineEdit.setText(r"/home/prototron/.qgis2/python/plugins/qgis-plugin-peregrine-falcon/in_data/waterbody_2.shp")
        # self.dlg.outLineEdit.setText(r'/home/prototron/.qgis2/python/plugins/qgis-plugin-peregrine-falcon/out_data/')
        # self.dlg.wetLandLineEdit.setText(r'/home/prototron/.qgis2/python/plugins/qgis-plugin-peregrine-falcon/in_data/saturated_soil_2.shp')

        # self.dlg.demLineEdit.setText(r"C:\Users\Myriam\Documents\S5 - H2016\GMQ580\qgis-plugin-peregrine-falcon\in_data\proj\dem_highres_proj.tif")
        # self.dlg.waterLineEdit.setText(r"C:\Users\Myriam\Documents\S5 - H2016\GMQ580\qgis-plugin-peregrine-falcon\in_data\proj\waterbody_3.shp")
        # self.dlg.outLineEdit.setText(r'C:\Users\Myriam\Documents\S5 - H2016\GMQ580\qgis-plugin-peregrine-falcon\out_data')
        # self.dlg.wetLandLineEdit.setText(r'C:\Users\Myriam\Documents\S5 - H2016\GMQ580\qgis-plugin-peregrine-falcon\in_data\proj\saturated_soil_2.shp')

        self.dlg.demLineEdit.setText(
            r"C:\OSGeo4W64\apps\qgis\python\plugins\qgis-plugin-peregrine-falcon\in_data\proj\dem_highres_proj.tif"
        )
        self.dlg.waterLineEdit.setText(
            r"C:\OSGeo4W64\apps\qgis\python\plugins\qgis-plugin-peregrine-falcon\in_data\proj\waterbody_3.shp"
        )
        self.dlg.outLineEdit.setText(r'C:\TEMP')
        self.dlg.wetLandLineEdit.setText(
            r'C:\OSGeo4W64\apps\qgis\python\plugins\qgis-plugin-peregrine-falcon\in_data\proj\saturated_soil_2.shp'
        )
Exemplo n.º 39
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'DataPlot_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = DataPlotDialog()

        # Add data to plotTypeCombo
        self.plot_types = {
            'pie': self.tr('Pie chart'),
            'box': self.tr('Box plot'),
            'histogram': self.tr('Histogram'),
            'bar': self.tr('Bar Chart'),
            'distribution': self.tr('Distribution plot'),
            'scatter': self.tr('Scatter plot'),
            'scatter3d': self.tr('Scatter plot 3D')
        }
        self.dlg.plotTypeCombo.clear()
        for k, v in self.plot_types.items():
            self.dlg.plotTypeCombo.addItem(v, k)

        self.plot_types_widgets = {
            self.dlg.LayerCombo: ['all'],
            self.dlg.LayerCombo_label: ['all'],
            self.dlg.expFieldX: ['all'],
            self.dlg.expFieldY: ['all'],
            self.dlg.legendCheck: ['all'],
            self.dlg.plotTitle: ['all'],
            self.dlg.alpha: ['all'],
            self.dlg.alpha_label: ['all'],
            self.dlg.alphaBox: ['all'],
            self.dlg.colorButton: ['all_but_pie'],
            self.dlg.colorButton_label: ['all_but_pie'],
            self.dlg.xAxisCheck: ['all_but_pie'],
            self.dlg.xAxisText: ['all_but_pie'],
            self.dlg.yAxisCheck: ['all_but_pie'],
            self.dlg.yAxisText: ['all_but_pie'],
            self.dlg.colorButton2: ['bar', 'box'],
            self.dlg.colorButton2_label: ['bar', 'box'],
            self.dlg.widthBox: ['bar', 'box'],
            self.dlg.widthBox_label: ['bar', 'box'],
            self.dlg.barCombo: ['bar'],
            self.dlg.barCombo_label: ['bar'],
            self.dlg.orientationCombo: ['bar'],
            self.dlg.orientationCombo_label: ['bar'],
            self.dlg.histCombo: ['histogram'],
            self.dlg.outlierCombo: ['box'],
            self.dlg.outlierCombo_label: ['box'],
            self.dlg.statCombo: ['box'],
            self.dlg.statCombo_label: ['box'],
            self.dlg.rugCheck: ['distribution'],
            self.dlg.histCheck: ['distribution'],
            self.dlg.curveCheck: ['distribution'],
            self.dlg.binSize: ['distribution'],
            self.dlg.curveCombo: ['distribution'],
            self.dlg.regressionCheck: ['scatter'],
            self.dlg.equationCheck: ['scatter'],
            self.dlg.rangeCheck: ['scatter'],
            self.dlg.logXCheck: ['scatter'],
            self.dlg.logYCheck: ['scatter'],
            self.dlg.symbolCombo: ['scatter', 'scatter3d'],
            self.dlg.symbolCombo_label: ['scatter', 'scatter3d'],
            self.dlg.Size: ['scatter', 'scatter3d'],
            self.dlg.Size_label: ['scatter', 'scatter3d'],
            self.dlg.dataDefined: ['scatter'],
            self.dlg.expFieldZ: ['scatter3d'],
            self.dlg.expFieldZ_label: ['scatter3d'],
            self.dlg.dataDefined: ['scatter3d'],
            self.dlg.zAxisCheck: ['scatter3d'],
            self.dlg.zAxisText: ['scatter3d']
        }

        # Add data to vertical/horizontal combo
        self.orientations = {
            'v': self.tr('Vertical'),
            'h': self.tr('Horizontal')
        }
        self.dlg.orientationCombo.clear()
        for k, v in self.orientations.items():
            self.dlg.orientationCombo.addItem(v, k)

        # Add data to symbol type combo
        self.symbolType = {
            'markers': self.tr('Points'),
            'lines': self.tr('Lines'),
            'markers+lines': self.tr('Points and Lines')
        }
        self.dlg.symbolCombo.clear()
        for k, v in self.symbolType.items():
            self.dlg.symbolCombo.addItem(v, k)

        # Add data to vertical/horizontal combo
        self.figureTypes = {
            'classic': self.tr(u'Classic'),
            'subplots': self.tr(u'Subplots with shared axis')
        }

        # Add data for the showing statistics type (box plot only)
        self.statType = {
            True: self.tr('Mean'),
            'sd': self.tr('Standard Deviation'),
            False: self.tr('No Statistics')
        }
        self.dlg.statCombo.clear()
        for k, v in self.statType.items():
            self.dlg.statCombo.addItem(v, k)

        # Add data for the showing outliers (box plot only)
        self.outlierType = {
            False: self.tr('No Outliers'),
            'all': self.tr('Show All Outliers'),
            'suspectedoutliers': self.tr('Only Suspected Outliers'),
            'outliers': self.tr('Outliers')
        }
        self.dlg.outlierCombo.clear()
        for k, v in self.outlierType.items():
            self.dlg.outlierCombo.addItem(v, k)

        # Add overlaying mode for bars
        self.overlaying = {
            'overlay': self.tr('Overlay'),
            'stack': self.tr('Stacked')
        }
        self.dlg.histCombo.clear()
        for k, v in self.overlaying.items():
            self.dlg.histCombo.addItem(v, k)

        #
        self.dlg.figureTypeCombo.clear()
        for k, v in self.figureTypes.items():
            self.dlg.figureTypeCombo.addItem(v, k)

        self.dataPlotTraces = {}
        self.dataPlotFigures = []

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Data Plot')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'DataPlot')
        self.toolbar.setObjectName(u'DataPlot')
Exemplo n.º 40
0
    def __init__(self, iface):

        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'WATCHData_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        # connections to buttons

        self.dlg = WATCHDataDialog()
        self.dlg.cmdSelectPoint.clicked.connect(self.select_point)
        self.dlg.cmdRunDownload.clicked.connect(self.download)
        self.dlg.cmdChooseLQFResults.clicked.connect(self.folderAH)
        self.dlg.cmdRunRefine.clicked.connect(self.refine)
        self.dlg.pushButtonHelp.clicked.connect(self.help)

        # Disable refiner buttons to start with (no downloaded data to refine!)
        self.dlg.cmdChooseLQFResults.setEnabled(False)
        self.dlg.cmdRunRefine.setEnabled(False)

        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)

        self.dlg.progressBar.setRange(0,100)
        self.dlg.progressBar.setValue(0)

        self.watch_vars =  ['Tair',
                                 'Wind',
                                 'LWdown',
                                 'PSurf',
                                 'Qair',
                                 'Rainf',
                                 'Snowf',
                                 'SWdown']
        # Parameters for downloader
        self.lat = None
        self.lon = None
        self.start_date = None
        self.end_date = None
        self.save_downloaded_file = None

        # Parameters for refiner
        self.site_height = None
        self.utc_offset = None
        self.rainy_hours = None
        self.save_refined_file = None
        self.lqf_path = None

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&WATCH data')
        # TODO: We are going to let the user set this up in a future iteration

        # get reference to the canvas
        self.canvas = self.iface.mapCanvas()
        self.degree = 5.0
        self.point = None
        self.pointx = None
        self.pointy = None

        # #g pin tool
        self.pointTool = QgsMapToolEmitPoint(self.canvas)
        self.pointTool.canvasClicked.connect(self.create_point)

        text_file = os.path.join(os.path.dirname(os.path.realpath(__file__)), 'WFDEIDownloader/WFDEI-land-long-lat-height.txt')
        gzip_file = os.path.join(os.path.dirname(os.path.realpath(__file__)), 'WFDEIDownloader/WFDEI-land-long-lat-height.txt.gz')
        try:
            a = open(text_file)
        except IOError,e:
            try:
                import gzip
                with gzip.open(gzip_file, 'rb') as zipFile:
                    a = zipFile.read()
                with open(text_file, 'wb') as outFile:
                    outFile.write(a)
            except Exception, e:
                QMessageBox.critical(None, 'ha', str(e))
                raise Exception('Could not locate mappings textfile, nor decompress its zipped copy')
Exemplo n.º 41
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'importdyna_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ImportFromDynaDialog()

        # # Declare instance attributes
        # self.actions = []
        # self.menu = self.tr(u'&QKan Import aus DYNA-Datei')
        # # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'ImportFromDyna')
        # self.toolbar.setObjectName(u'ImportFromDyna')

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 09.10.2016)

        logger.info(u'\n\nQKan_ImportDyna initialisiert...')

        # --------------------------------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), u'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)

        # --------------------------------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, u'qkan.json')
        if os.path.exists(self.configfil):
            with open(self.configfil, 'r') as fileconfig:
                self.config = json.loads(fileconfig.read())
        else:
            self.config = {'epsg': '25832'}  # Projektionssystem
            self.config['database_QKan'] = ''
            self.config['dynafile'] = ''
            self.config['projectfile'] = ''
            with open(self.configfil, 'w') as fileconfig:
                fileconfig.write(json.dumps(self.config))

        # Standard für Suchverzeichnis festlegen
        project = QgsProject.instance()
        self.default_dir = os.path.dirname(project.fileName())

        if 'database_QKan' in self.config:
            database_QKan = self.config['database_QKan']
        else:
            database_QKan = ''
        self.dlg.tf_qkanDB.setText(database_QKan)
        self.dlg.pb_selectqkanDB.clicked.connect(self.selectFile_qkanDB)

        if 'dynafile' in self.config:
            dynafile = self.config['dynafile']
        else:
            dynafile = ''
        self.dlg.tf_dynaFile.setText(dynafile)
        self.dlg.pb_selectDynaFile.clicked.connect(self.select_dynaFile)

        if 'epsg' in self.config:
            self.epsg = self.config['epsg']
        else:
            self.epsg = '25832'
        self.dlg.tf_epsg.setText(self.epsg)
        self.dlg.pb_selectKBS.clicked.connect(self.selectKBS)

        if 'projectfile' in self.config:
            projectfile = self.config['projectfile']
        else:
            projectfile = ''
        self.dlg.tf_projectFile.setText(projectfile)
        self.dlg.pb_selectProjectFile.clicked.connect(self.selectProjectFile)

        if 'check_inittab' in self.config:
            check_inittab = self.config['check_inittab']
        else:
            check_inittab = True
        self.dlg.cb_import_tabinit.setChecked(check_inittab)
Exemplo n.º 42
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir, 'i18n',
            'LandCoverFractionGrid_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = LandCoverFractionGridDialog()
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.helpButton.clicked.connect(self.help)
        self.dlg.progressBar.setValue(0)

        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)  # Save

        for i in range(1, 25):
            if 360 % i == 0:
                self.dlg.degreeBox.addItem(str(i))
        self.dlg.degreeBox.setCurrentIndex(4)

        self.folderPath = 'None'
        self.degree = 5.0
        self.dsm = None
        self.dem = None
        self.scale = None
        self.steps = 0

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Land Cover Fraction Grid')
        # self.toolbar = self.iface.addToolBar(u'LandCoverFractionGrid')
        # self.toolbar.setObjectName(u'LandCoverFractionGrid')

        # self.layerComboManagerPolygrid = VectorLayerCombo(self.dlg.comboBox_Polygrid)
        # fieldgen = VectorLayerCombo(self.dlg.comboBox_Polygrid, initLayer="", options={"geomType": QGis.Polygon})
        self.layerComboManagerPolygrid = QgsMapLayerComboBox(
            self.dlg.widget_Polygrid)
        self.layerComboManagerPolygrid.setCurrentIndex(-1)
        self.layerComboManagerPolygrid.setFilters(
            QgsMapLayerProxyModel.PolygonLayer)
        self.layerComboManagerPolygrid.setFixedWidth(175)
        self.layerComboManagerPolyField = QgsFieldComboBox(
            self.dlg.widget_Field)
        self.layerComboManagerPolyField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPolygrid.layerChanged.connect(
            self.layerComboManagerPolyField.setLayer)
        # self.layerComboManagerPolyField = FieldCombo(self.dlg.comboBox_Field, fieldgen) #, options={"fieldType":QGis.Float32}

        # self.layerComboManagerLCgrid = RasterLayerCombo(self.dlg.comboBox_lcgrid)
        # RasterLayerCombo(self.dlg.comboBox_lcgrid, initLayer="")
        self.layerComboManagerLCgrid = QgsMapLayerComboBox(
            self.dlg.widget_lcgrid)
        self.layerComboManagerLCgrid.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerLCgrid.setFixedWidth(175)
        self.layerComboManagerLCgrid.setCurrentIndex(-1)

        if not (os.path.isdir(self.plugin_dir + '/data')):
            os.mkdir(self.plugin_dir + '/data')
Exemplo n.º 43
0
    def __init__(self, iface):

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'FootprintModel_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = FootprintModelDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Footprint model')
        # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'FootprintModel')
        # self.toolbar.setObjectName(u'FootprintModel')

        # get reference to the canvas
        self.canvas = self.iface.mapCanvas()
        self.poiLayer = None
        self.polyLayer = None
        self.folderPath = 'None'
        self.degree = 5.0
        self.point = None
        self.pointx = None
        self.pointy = None
        self.provider = None

        # #g pin tool
        self.pointTool = QgsMapToolEmitPoint(self.canvas)
        self.pointTool.canvasClicked.connect(self.create_point)
        self.dlg.pushButtonImport.clicked.connect(self.import_file)
        self.dlg.runButton.clicked.connect(self.start_process)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.selectpoint.clicked.connect(self.select_point)
        # self.dlg.generateArea.clicked.connect(self.generate_area)
        self.dlg.helpButton.clicked.connect(self.help)
        self.dlg.progressBar.setValue(0)
        self.dlg.checkBoxOnlyBuilding.toggled.connect(self.text_enable)
        self.dlg.comboBoxFPM.currentIndexChanged.connect(self.bl_enable)

        self.fileDialogOpen = QFileDialog()
        self.filePath = None
        self.data = None
        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)

        # self.layerComboManagerPoint = VectorLayerCombo(self.dlg.comboBox_Point)
        # fieldgen = VectorLayerCombo(self.dlg.comboBox_Point, initLayer="", options={"geomType": QGis.Point})
        self.layerComboManagerPoint = QgsMapLayerComboBox(
            self.dlg.widgetPointLayer)
        self.layerComboManagerPoint.setCurrentIndex(-1)
        self.layerComboManagerPoint.setFilters(
            QgsMapLayerProxyModel.PointLayer)
        self.layerComboManagerPoint.setFixedWidth(175)
        # self.layerComboManagerPointField = FieldCombo(self.dlg.comboBox_Field, fieldgen, initField="")
        # self.layerComboManagerDSMbuildground = RasterLayerCombo(self.dlg.comboBox_DSMbuildground)
        # RasterLayerCombo(self.dlg.comboBox_DSMbuildground, initLayer="")
        # self.layerComboManagerDEM = RasterLayerCombo(self.dlg.comboBox_DEM)
        # RasterLayerCombo(self.dlg.comboBox_DEM, initLayer="")
        # self.layerComboManagerDSMbuild = RasterLayerCombo(self.dlg.comboBox_DSMbuild)
        # RasterLayerCombo(self.dlg.comboBox_DSMbuild, initLayer="")
        # self.layerComboManagerVEGDSM = RasterLayerCombo(self.dlg.comboBox_vegdsm)
        # RasterLayerCombo(self.dlg.comboBox_vegdsm, initLayer="")

        self.layerComboManagerDSMbuildground = QgsMapLayerComboBox(
            self.dlg.widgetDSMbuildground)
        self.layerComboManagerDSMbuildground.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDSMbuildground.setFixedWidth(175)
        self.layerComboManagerDSMbuildground.setCurrentIndex(-1)
        self.layerComboManagerDEM = QgsMapLayerComboBox(self.dlg.widgetDEM)
        self.layerComboManagerDEM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDEM.setFixedWidth(175)
        self.layerComboManagerDEM.setCurrentIndex(-1)
        self.layerComboManagerDSMbuild = QgsMapLayerComboBox(
            self.dlg.widgetDSMbuild)
        self.layerComboManagerDSMbuild.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDSMbuild.setFixedWidth(175)
        self.layerComboManagerDSMbuild.setCurrentIndex(-1)
        self.layerComboManagerVEGDSM = QgsMapLayerComboBox(
            self.dlg.widgetVegDSM)
        self.layerComboManagerVEGDSM.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerVEGDSM.setFixedWidth(175)
        self.layerComboManagerVEGDSM.setCurrentIndex(-1)

        if not (os.path.isdir(self.plugin_dir + '/data')):
            os.mkdir(self.plugin_dir + '/data')
Exemplo n.º 44
0
            logger.error("Unable to find '%s'" % newArgs[0])
            print >> sys.stderr, "Error - Unable to find '%s' for -x/--xvfb option" % newArgs[
                0]
            sys.exit(1)

    # Prepare outout ("1" means STDOUT)
    if options.output is None:
        options.output = sys.stdout
    else:
        options.output = open(options.output, "w")

    # Revert url quote sanitization. QUrl will encode the url later on.
    options.url = options.url.replace('%22', '"')

    logger.debug("Version %s, Python %s, Qt %s", VERSION, sys.version,
                 qVersion())

    # Technically, this is a QtGui application, because QWebPage requires it
    # to be. But because we will have no user interaction, and rendering can
    # not start before 'app.exec_()' is called, we have to trigger our "main"
    # by a timer event.
    def __main_qt():
        # Render the page.
        # If this method times out or loading failed, a
        # RuntimeException is thrown
        try:
            # Initialize WebkitRenderer object
            renderer = WebkitRenderer()
            renderer.logger = logger
            renderer.width = options.geometry[0]
            renderer.height = options.geometry[1]
Exemplo n.º 45
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Path to plugin directory
        self.plugin_directory = os.path.dirname(os.path.realpath(__file__))
        # Path to config json file
        self.config_file = os.path.join(self.plugin_directory, CONFIG_FILE)
        # Config loaded
        self.is_config_local_loaded = False
        self.is_config_remote_loaded = False
        self.remote_config = {}
        self.local_config = {}

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'RasterIndexExtract_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = RasterIndexExtractDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Raster Index Extract')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'RasterIndexExtract')
        self.toolbar.setObjectName(u'RasterIndexExtract')

        # Connect Run and Cancel buttons
        self.dlg.pbRun.clicked.connect(self.runExtract)
        self.dlg.pbCancel.clicked.connect(self.cancel)

        # Clear editLine for source and destination path and connect select_source_directory and select_destination_directory to buttons
        self.dlg.leSrcPath.clear()
        self.dlg.pbChooseSrcPath.clicked.connect(self.select_source_directory)
        self.dlg.leDstPath.clear()
        self.dlg.pbChooseDstPath.clicked.connect(
            self.select_destination_directory)

        # Connect radio buttons for remote source
        self.dlg.rb_locale.toggled.connect(self.rb_locale_clicked)
        self.dlg.rb_remote.toggled.connect(self.rb_remote_clicked)

        self.dlg.cb_remote.activated[str].connect(self.select_source_remote)

        self.dlg.cbIndexLayers.activated[str].connect(self.load_cb_index_layer)
Exemplo n.º 46
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'RCMRD_LandDegr_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = RCMRD_LandDegrDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&RCRMD: land degradation')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'RCMRD: land degradation')
        self.toolbar.setObjectName(u'RCMRD: land degradation')

        # Declare user instance variables
        self.roiDefinitions = None
        self.roiDefinitions = [{
            "name": "IGAD",
            "roiXY": [21.8094, -4.6775, 51.417, 22.227]
        }, {
            "name":
            "Djibouti",
            "roiXY": [41.749110148, 10.929824931, 43.418711785, 12.707912502]
        }, {
            "name":
            "Eritrea",
            "roiXY": [36.423647095, 12.360021871, 43.123871290, 18.004828192]
        }, {
            "name":
            "Ethiopia",
            "roiXY": [32.989799845, 3.403333435, 47.979169149, 14.879532166]
        }, {
            "name":
            "Kenya",
            "roiXY": [33.890468384, -4.677504165, 41.885019165, 5.030375823]
        }, {
            "name":
            "Sudan",
            "roiXY": [42.647246541, 7.996515605, 48.93911199991, 11.498928127]
        }, {
            "name":
            "South Sudan",
            "roiXY": [24.121555623, 3.490201518, 35.920835409, 12.216154684]
        }, {
            "name":
            "Somali Land",
            "roiXY": [42.647246541, 7.996515605, 48.93911199991, 11.498928127]
        }, {
            "name":
            "Somalia",
            "roiXY":
            [40.965385376, -1.69628316498, 51.417037811, 11.989118646]
        }, {
            "name":
            "Uganda",
            "roiXY": [29.548459513, -1.475205994, 35.006472615, 4.219691875]
        }]

        #self.selectedRoi = None
        self.raster_list = [
        ]  # list all files open in QGis, contains file objects
        self.dictReproj = None  # dictionary: 'input filename' -> reprojected filename
        self.clipLayer = None  # store the clipping vector layer

        self.listIDInputs = {
        }  # dictionary: key -> layer name. See keys definition in the code ('VGT', 'RFE', ...)
        self.listIDWeightsPotential = {}
        self.listIDWeightsActual = {}

        SettingsOrganisation = 'RCMRD_QGIS'
        SettingsApplication = 'RCMRD_LandDegr'
Exemplo n.º 47
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'TreeGenerator_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = TreeGeneratorDialog()
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.helpButton.clicked.connect(self.help)

        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Tree Generator')
        # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'TreeGenerator')
        # self.toolbar.setObjectName(u'TreeGenerator')

        # self.layerComboManagerPoint = VectorLayerCombo(self.dlg.comboBox_pointlayer)
        # fieldgen = VectorLayerCombo(self.dlg.comboBox_pointlayer, initLayer="", options={"geomType": QGis.Point})
        # self.layerComboManagerTreeTypeField = FieldCombo(self.dlg.comboBox_ttype, fieldgen, initField="")
        # self.layerComboManagerTotalHeightField = FieldCombo(self.dlg.comboBox_totalheight, fieldgen, initField="")
        # self.layerComboManagerTrunkHeightField = FieldCombo(self.dlg.comboBox_trunkheight, fieldgen, initField="")
        # self.layerComboManagerDiameterField = FieldCombo(self.dlg.comboBox_diameter, fieldgen, initField="")
        self.layerComboManagerPoint = QgsMapLayerComboBox(self.dlg.widgetPointLayer)
        self.layerComboManagerPoint.setCurrentIndex(-1)
        self.layerComboManagerPoint.setFilters(QgsMapLayerProxyModel.PointLayer)
        self.layerComboManagerPoint.setFixedWidth(175)
        self.layerComboManagerTreeTypeField = QgsFieldComboBox(self.dlg.widgetTreeType)
        self.layerComboManagerTreeTypeField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPoint.layerChanged.connect(self.layerComboManagerTreeTypeField.setLayer)
        self.layerComboManagerTotalHeightField = QgsFieldComboBox(self.dlg.widgetTotalHeight)
        self.layerComboManagerTotalHeightField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPoint.layerChanged.connect(self.layerComboManagerTotalHeightField.setLayer)
        self.layerComboManagerTrunkHeightField = QgsFieldComboBox(self.dlg.widgetTrunkHeight)
        self.layerComboManagerTrunkHeightField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPoint.layerChanged.connect(self.layerComboManagerTrunkHeightField.setLayer)
        self.layerComboManagerDiameterField = QgsFieldComboBox(self.dlg.widgetDiameter)
        self.layerComboManagerDiameterField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPoint.layerChanged.connect(self.layerComboManagerDiameterField.setLayer)

        # self.layerComboManagerDSM = RasterLayerCombo(self.dlg.comboBox_DSM)
        # RasterLayerCombo(self.dlg.comboBox_DSM, initLayer="")
        # self.layerComboManagerDEM = RasterLayerCombo(self.dlg.comboBox_DEM)
        # RasterLayerCombo(self.dlg.comboBox_DEM, initLayer="")
        # self.layerComboManagerBuild = RasterLayerCombo(self.dlg.comboBox_Build)
        # RasterLayerCombo(self.dlg.comboBox_Build, initLayer="")
        # self.layerComboManagerCDSM = RasterLayerCombo(self.dlg.comboBox_CDSM)
        # RasterLayerCombo(self.dlg.comboBox_CDSM, initLayer="")
        # self.layerComboManagerTDSM = RasterLayerCombo(self.dlg.comboBox_TDSM)
        # RasterLayerCombo(self.dlg.comboBox_TDSM, initLayer="")
        self.layerComboManagerDSM = QgsMapLayerComboBox(self.dlg.widgetDSM)
        self.layerComboManagerDSM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDSM.setFixedWidth(175)
        self.layerComboManagerDSM.setCurrentIndex(-1)
        self.layerComboManagerDEM = QgsMapLayerComboBox(self.dlg.widgetDEM)
        self.layerComboManagerDEM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDEM.setFixedWidth(175)
        self.layerComboManagerDEM.setCurrentIndex(-1)
        self.layerComboManagerBuild = QgsMapLayerComboBox(self.dlg.widgetBuild)
        self.layerComboManagerBuild.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerBuild.setFixedWidth(175)
        self.layerComboManagerBuild.setCurrentIndex(-1)
        self.layerComboManagerCDSM = QgsMapLayerComboBox(self.dlg.widgetCDSM)
        self.layerComboManagerCDSM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerCDSM.setFixedWidth(175)
        self.layerComboManagerCDSM.setCurrentIndex(-1)
        self.layerComboManagerTDSM = QgsMapLayerComboBox(self.dlg.widgetTDSM)
        self.layerComboManagerTDSM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerTDSM.setFixedWidth(175)
        self.layerComboManagerTDSM.setCurrentIndex(-1)
Exemplo n.º 48
0
    def __init__(self, iface):
        """!@brief Constructor.

        param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        type iface: QgsInterface
        
        declare all fields to fill, such as output raster, columns to find from a shp...
        """
        QDialog.__init__(self)
        sender = self.sender()
        """
        """  # Save reference to the QGIS interface
        self.iface = iface
        legendInterface = self.iface.legendInterface()

        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'HistoricalMap_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = HistoricalMapDialog()
        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Historical Map')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'HistoricalMap')
        self.toolbar.setObjectName(u'HistoricalMap')

        ## Init to choose file (to load or to save)
        self.dlg.outRaster.clear()
        self.dlg.selectRaster.clicked.connect(self.select_output_file)
        self.dlg.outModel.clear()
        self.dlg.selectModel.clicked.connect(self.select_output_file)
        self.dlg.outMatrix.clear()
        self.dlg.selectMatrix.clicked.connect(self.select_output_file)

        self.dlg.btnFilter.clicked.connect(self.runFilter)
        self.dlg.btnTrain.clicked.connect(self.runTrain)
        self.dlg.btnClassify.clicked.connect(self.runClassify)
        self.dlg.inModel.clear()
        self.dlg.selectModelStep3.clicked.connect(self.select_load_file)
        self.dlg.outShp.clear()
        self.dlg.selectOutShp.clicked.connect(self.select_output_file)

        ## init fields

        self.dlg.inTraining.currentIndexChanged[int].connect(
            self.onChangedLayer)

        ## By default field list is empty, so we fill with current layer
        ## if no currentLayer, no filling, or it will crash Qgis
        self.dlg.inField.clear()
        if self.dlg.inField.currentText(
        ) == '' and self.dlg.inTraining.currentLayer(
        ) and self.dlg.inTraining.currentLayer() != 'NoneType':
            activeLayer = self.dlg.inTraining.currentLayer()
            provider = activeLayer.dataProvider()
            fields = provider.fields()
            listFieldNames = [field.name() for field in fields]
            self.dlg.inField.addItems(listFieldNames)

        ## hide/show nfolds spinbox
        self.dlg.nFolds.hide()
Exemplo n.º 49
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'SEBE_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = SEBEDialog()
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.pushButtonHelp.clicked.connect(self.help)
        # self.dlg.shadowCheckBox.stateChanged.connect(self.checkbox_changed)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.pushButtonImport.clicked.connect(self.read_metdata)
        self.dlg.pushButtonSaveIrradiance.clicked.connect(self.save_radmat)
        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)
        self.fileDialogFile = QFileDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&SEBE - Solar Energy on Building Envelopes')
        # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'SEBE')
        # self.toolbar.setObjectName(u'SEBE')

        # self.layerComboManagerDSM = RasterLayerCombo(self.dlg.comboBox_dsm)
        # RasterLayerCombo(self.dlg.comboBox_dsm, initLayer="")
        # self.layerComboManagerVEGDSM = RasterLayerCombo(self.dlg.comboBox_vegdsm)
        # RasterLayerCombo(self.dlg.comboBox_vegdsm, initLayer="")
        # self.layerComboManagerVEGDSM2 = RasterLayerCombo(self.dlg.comboBox_vegdsm2)
        # RasterLayerCombo(self.dlg.comboBox_vegdsm2, initLayer="")
        # self.layerComboManagerWH = RasterLayerCombo(self.dlg.comboBox_wallheight)
        # RasterLayerCombo(self.dlg.comboBox_wallheight, initLayer="")
        # self.layerComboManagerWA = RasterLayerCombo(self.dlg.comboBox_wallaspect)
        # RasterLayerCombo(self.dlg.comboBox_wallaspect, initLayer="")

        self.layerComboManagerDSM = QgsMapLayerComboBox(self.dlg.widgetDSM)
        self.layerComboManagerDSM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDSM.setFixedWidth(175)
        self.layerComboManagerDSM.setCurrentIndex(-1)
        self.layerComboManagerVEGDSM = QgsMapLayerComboBox(self.dlg.widgetCDSM)
        self.layerComboManagerVEGDSM.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerVEGDSM.setFixedWidth(175)
        self.layerComboManagerVEGDSM.setCurrentIndex(-1)
        self.layerComboManagerVEGDSM2 = QgsMapLayerComboBox(
            self.dlg.widgetTDSM)
        self.layerComboManagerVEGDSM2.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerVEGDSM2.setFixedWidth(175)
        self.layerComboManagerVEGDSM2.setCurrentIndex(-1)
        self.layerComboManagerWH = QgsMapLayerComboBox(self.dlg.widgetWH)
        self.layerComboManagerWH.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerWH.setFixedWidth(175)
        self.layerComboManagerWH.setCurrentIndex(-1)
        self.layerComboManagerWA = QgsMapLayerComboBox(self.dlg.widgetWA)
        self.layerComboManagerWA.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerWA.setFixedWidth(175)
        self.layerComboManagerWA.setCurrentIndex(-1)

        self.folderPath = None
        self.usevegdem = 0
        self.scale = None
        self.gdal_dsm = None
        self.dsm = None
        self.vegdsm = None
        self.vegdsm2 = None
        self.usevegdem = None
        self.folderPathMetdata = None
        self.metdata = None
        self.radmatfile = None

        self.thread = None
        self.worker = None
        self.steps = 0
Exemplo n.º 50
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'DigitalConnectorPlugin_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        ##### Windows configuration
        # check for JAVA in Program Files
        if platform.system() == 'Windows':
            java_path = None
            # Look in both Program Files and Program Files x86
            for i in os.listdir('C:\\Program Files'):
                if 'Java' in i:
                    java_path_temp = 'C:\\Program Files\\' + i 
                    for k in os.listdir(java_path_temp):
                        if 'jdk' in k:
                            java_path_temp = java_path_temp + '\\'  + k + '\\bin'
                    java_path = java_path_temp
                else:
                    pass

            if java_path != None:
                pass
            else:
                for j in  os.listdir('C:\\Program Files (x86)'):
                    if 'Java' in j:
                        java_path_temp = 'C:\\Program Files (x86)\\' + j 
                        for k in os.listdir(java_path_temp):
                            if 'jdk' in k:
                                java_path_temp = java_path_temp + '\\'  + k + '\\bin'
                        java_path = java_path_temp
                    else:
                        pass
            # ERROR cannot find Java installation
            if java_path == None:
                self.iface.messageBar().pushMessage("Error", "No Java installation found in Program Files. Please install Java", level=QgsMessageBar.CRITICAL)

            # Add missing PATHs for windows
            current_execs = os.environ['PATH']
            if not 'Java' in current_execs:
                os.environ['PATH'] += ';' + java_path

        #####




        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Digital Connector Plugin')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'DigitalConnectorPlugin')
        self.toolbar.setObjectName(u'DigitalConnectorPlugin')

        # Edit recipe dialog class
        self.dialog_instance = EditRecipe()

        # Create the dialog (after translation) and keep reference
        self.dlg = DigitalConnectorPluginDialog()

        # Add button functionalities
        self.dlg.lineEdit.clear()
        self.dlg.pushButton.clicked.connect(self.select_dc_directory)
        self.dlg.pushButton_2.clicked.connect(self.visualise_recipe)
        self.dlg.pushButton_3.clicked.connect(self.edit_recipe)

        # Add DC icon
        img_path = self.resolve('dc_logo.png')
        print img_path
        self.dlg.label_3.setPixmap(QPixmap(img_path))
Exemplo n.º 51
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        self.templatepath = os.path.join(pluginDirectory('qkan'), u"database/templates")

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'ExportToKP_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = ExportToKPDialog()

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 08.02.2017)

        logger.info('\n\nQKan_ExportKP initialisiert...')

        # --------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), 'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)

        # --------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, 'qkan.json')
        if os.path.exists(self.configfil):
            with open(self.configfil, 'r') as fileconfig:
                self.config = json.loads(fileconfig.read())
        else:
            self.config['dynafile'] = ''
            # Vorlagedatenbank nur für den Fall, dass der Anwender keine eigene Vorlage erstellen will
            self.config['template_dyna'] = os.path.join(os.path.dirname(__file__), "templates", "dyna.ein")
            self.config['database_QKan'] = ''
            with open(self.configfil, 'w') as fileconfig:
                fileconfig.write(json.dumps(self.config))

        # Standard für Suchverzeichnis festlegen
        project = QgsProject.instance()
        self.default_dir = os.path.dirname(project.fileName())

        # Formularereignisse anbinden ----------------------------------------------

        self.dlg.pb_select_KP_dest.clicked.connect(self.selectFile_kpDB_dest)
        self.dlg.pb_select_KP_template.clicked.connect(self.selectFile_kpDB_template)
        self.dlg.lw_teilgebiete.itemClicked.connect(self.lw_teilgebieteClick)
        self.dlg.cb_selActive.stateChanged.connect(self.selActiveClick)
        self.dlg.button_box.helpRequested.connect(self.helpClick)
        self.dlg.pb_selectQKanDB.clicked.connect(self.selectFile_QKanDB)
Exemplo n.º 52
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'Flaechenzuordnungen_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlgpr = QgsadaptDialog()
        self.dlgop = QKanOptionsDialog()
        self.dlgro = RunoffParamsDialog()

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 12.06.2017)

        logger.info(u'\n\nQKan_Tools initialisiert...')

        # --------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), 'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)

        # --------------------------------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, 'qkan.json')
        if os.path.exists(self.configfil):
            with open(self.configfil, 'r') as fileconfig:
                self.config = json.loads(fileconfig.read())
        else:
            self.config = {'epsg': '25832'}  # Projektionssystem
            with open(self.configfil, 'w') as fileconfig:
                fileconfig.write(json.dumps(self.config))

        # Formularereignisse anbinden ----------------------------------------------

        # Formular dlgpr
        self.dlgpr.pb_selectProjectFile.clicked.connect(self.dlgpr_selectFileProjectfile)
        self.dlgpr.pb_selectQKanDB.clicked.connect(self.dlgpr_selectFile_qkanDB)
        self.dlgpr.pb_selectProjectTemplate.clicked.connect(self.dlgpr_selectFileProjectTemplate)

        # Formular dlgop
        self.dlgop.pb_fangradiusDefault.clicked.connect(self.dlgop_fangradiusDefault)
        self.dlgop.pb_mindestflaecheDefault.clicked.connect(self.dlgop_mindestflaecheDefault)
        self.dlgop.pb_max_loopsDefault.clicked.connect(self.dlgop_maxLoopsDefault)
        self.dlgop.pb_selectKBS.clicked.connect(self.dlgop_selectKBS)

        # Formular dlgro
        self.dlgro.lw_teilgebiete.itemClicked.connect(self.dlgro_lwTeilgebieteClick)
        self.dlgro.lw_abflussparameter.itemClicked.connect(self.dlgro_lwAbflussparamsClick)
        self.dlgro.cb_selTgbActive.stateChanged.connect(self.dlgro_selTgbActiveClick)
        self.dlgro.cb_selParActive.stateChanged.connect(self.dlgro_selParActiveClick)
        self.dlgro.button_box.helpRequested.connect(self.dlgro_helpClick)
        self.dlgro.pb_selectQKanDB.clicked.connect(self.dlgro_selectFile_qkanDB)
Exemplo n.º 53
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Estes atributos sao fornecidos no momento de criacao da estancia
        # Save reference to the QGIS interface
        self.iface = iface
        self.featFinder = None
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)

        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]

        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'Remotwatch_{}.qm'.format(locale))
        #print "epdro",locale_path
        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = RemotwatchDialog()

        # Declare instance attributes
        self.actions = []

        self.menu = self.tr(u'&RemotWatch')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'Remotwatch')
        self.toolbar.setObjectName(u'Remotwatch')

        self.dlg.lineEdit.clear()
        self.dlg.pushButton.clicked.connect(self.select_output_file)
        #self.dlg.pushButtontsp.clicked.connect(self.open_graph)

        #############################################
        # Aqui chama a localizao das funcoes se algum checkbox for ativado
        # Se o .checkBoxLOS for ativado vai executar o que está na funcao
        # self.changeActivelos
        # Event  handler
        #self.dlg.nomedowidget,o que vai deterar ,nome do metodo que vai chamar
        #################################################
        global loscheck
        global heighcheck
        global cohercheck

        cohercheck = 0
        heighcheck = 0
        loscheck = 0

        QObject.connect(self.dlg.checkBoxLOS, SIGNAL("stateChanged(int)"),
                        self.changeActivelos)
        QObject.connect(self.dlg.checkBox_HEI, SIGNAL("stateChanged(int)"),
                        self.changeActivehei)
        QObject.connect(self.dlg.checkBox_COHE, SIGNAL("stateChanged(int)"),
                        self.changeActivecohe)
        QObject.connect(self.dlg.checkBox_RHEIG, SIGNAL("stateChanged(int)"),
                        self.changeActiverhei)
        QObject.connect(self.dlg.checkBoxTEMP, SIGNAL("stateChanged(int)"),
                        self.changeActivetemp)
        ###mouse no ponto

        #QObject.connect(self.dlg.clickTool, SIGNAL("canvasClicked(const QgsPoint &, Qt::MouseButton)"), self.selectFeature):

        ################################
        # Tudo o que diga respeito ao mapa
        ################################
        # Store reference to the map canvas

        self.canvas = self.iface.mapCanvas()
        # Create the map tool using the canvas reference
        #self.pointTool = QgsMapToolEmitPoint(self.canvas)
        #        self.pointEmitter = QgsMapToolEmitPoint(self.iface.mapCanvas()) # barriginha
        #        QObject.connect( self.pointEmitter, SIGNAL("canvasClicked(const QgsPoint, Qt::MouseButton)"), self.selectNow)
        #        self.iface.mapCanvas().setMapTool( self.pointEmitter )

        #result = QObject.connect(self.clickTool, SIGNAL("canvasClicked(const QgsPoint &, Qt::MouseButton)"), self.selectFeature)
        # connect signal that the canvas was clicked
        #self.pointTool.canvasClicked.connect(self.display_point)

        #self.dlg.Slidercoherence = QSlider()
        #self.dlg.Slidercoherence.setOrientation(Qt.Horizontal)
        #self.label = QLabel('Slider at position 0')
        #self.dlg.addWidget(self.label)
        #self.dlg.addWidget(self.slider)

        # Valor por defeito da coerencia
        self.dlg.labelcoherence.setText('0.0')

        # O que acontece se mover o slidder da coerencia
        self.dlg.Slidercoherence.valueChanged.connect(self.slider_moved)
Exemplo n.º 54
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """

        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'PacSafe_{}.qm'.format(locale))

        splash_pix = QPixmap('splash.png')
        splash = QSplashScreen(splash_pix, Qt.WindowStaysOnTopHint)
        splash.setMask(splash_pix.mask())
        splash.show()
        QApplication.processEvents()

        start = time.time()
        while time.time() - start <= 1:
            time.sleep(0.001)
            QApplication.processEvents()

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = PacSafeDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&PacSafe')
        # TODO: We are going to let the user set this up in a future iteration
        self.toolbar = self.iface.addToolBar(u'PacSafe')
        self.toolbar.setObjectName(u'PacSafe')

        # Load projects dynamically:
        if os.path.exists(os.path.join(os.getcwd(), 'data')):
            self.dataPath = os.path.join(os.getcwd(), 'data')
            LOGGER.info("Setting data path to {0}".format(self.dataPath))
        else:
            self.dataPath = None

        # Set a globally-accessible list of countries for which we have
        # projects & data available. The two-letter abbreviation must match
        # the name of the sub-directory in the project/data folders.
        self.countryList = {"Fiji": "FJ", "Tonga": "TO"}

        for c in sorted(self.countryList.keys()):
            self.dlg.countryListWidget.addItem(c)

        cl = self.dlg.countryListWidget
        self.updateProjectList(1)
        cl.currentIndexChanged.connect(self.updateProjectList)

        #event signals/slots
        btnDataFolder = self.dlg.btnDataFolder
        btnDataFolder.clicked.connect(self.selectDataFolder)

        btnProject = self.dlg.btnProject
        btnProject.clicked.connect(self.openProject)

        btnRemote = self.dlg.btnRemote
        btnRemote.clicked.connect(self.openRemote)

        btnHelp = self.dlg.btnHelp
        btnHelp.clicked.connect(self.help)

        btnClose = self.dlg.btnClose
        btnClose.clicked.connect(self.dlg.close)
Exemplo n.º 55
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'LandCoverFractionGrid_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = LCZ_testDialog()
        self.dlg.radioButton_2.toggled.connect(self.LCZ_selection)
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.closeButton.clicked.connect(self.close)
        self.dlg.pushButtonSelect.clicked.connect(self.folder_path)
        self.dlg.helpButton.clicked.connect(self.help)
        self.dlg.tableWidget.setEnabled(False)
        self.dlg.checkBox.toggled.connect(self.text_enable)
        self.dlg.radioButton.toggled.connect(self.allclass)
        self.dlg.colorButton.clicked.connect(self.color)
        self.dlg.progressBar.setValue(0)
        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)  # Save
        if self.dlg.radioButton_2.isChecked():
            self.dlg.pushButton_2.clicked.connect(self.updatetable)
        if self.dlg.radioButton.isChecked():
            self.dlg.pushButton_2.clicked.connect(self.updatetable2)
#        self.dlg.pushButton_2.clicked.connect(self.bla)

        # self.layerComboManagerPolygrid = VectorLayerCombo(self.dlg.comboBox_2)
        # fieldgen = VectorLayerCombo(self.dlg.comboBox_2, initLayer="", options={"geomType": QGis.Polygon})
        # self.layerComboManagerPolyField = FieldCombo(self.dlg.comboBox_31, fieldgen) #, options={"fieldType":QGis.Float32}
        self.layerComboManagerPolygrid = QgsMapLayerComboBox(self.dlg.widgetPolyLayer)
        self.layerComboManagerPolygrid.setCurrentIndex(-1)
        self.layerComboManagerPolygrid.setFilters(QgsMapLayerProxyModel.PolygonLayer)
        self.layerComboManagerPolygrid.setFixedWidth(175)
        self.layerComboManagerPolyField = QgsFieldComboBox(self.dlg.widgetField)
        self.layerComboManagerPolyField.setFilters(QgsFieldProxyModel.Numeric)
        self.layerComboManagerPolygrid.layerChanged.connect(self.layerComboManagerPolyField.setLayer)

        # self.layerComboManagerLCgrid = RasterLayerCombo(self.dlg.comboBox)
        # RasterLayerCombo(self.dlg.comboBox, initLayer="")
        self.layerComboManagerLCgrid = QgsMapLayerComboBox(self.dlg.widgetLC)
        self.layerComboManagerLCgrid.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerLCgrid.setFixedWidth(175)
        self.layerComboManagerLCgrid.setCurrentIndex(-1)

        self.urbanchoices = ['100% grass','100% decidious trees','100% evergreen trees','100% bare soil','100% water','50% grass, 25% dec. trees, 25% ev. trees','Each 20%']
        self.treechoices = ['100% evergreen', '100% decidious', '50% evergreen, 50% decidious','30% evergreen, 70% decidious','70% evergreen, 30% decidious']
        self.LCZs = [1., 2., 3., 4., 5., 6., 7., 8., 9., 10., 101., 102., 103.]
        self.heightfr = ['No trees', '0 - 5m', '5 - 10m', '10 - 15m', '15 - 20m', '> 20m']
        
        self.folderPath = 'None'
        self.steps = 0

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&LCZ_converter')
        self.toolbar = self.iface.addToolBar(u'LCZ_test')
        self.toolbar.setObjectName(u'LCZ_test')

        if not (os.path.isdir(self.plugin_dir + '/data')):
            os.mkdir(self.plugin_dir + '/data')
Exemplo n.º 56
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir, 'i18n',
            'SkyViewFactorCalculator_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = SkyViewFactorCalculatorDialog()
        self.dlg.runButton.clicked.connect(self.start_progress)
        self.dlg.pushButtonHelp.clicked.connect(self.help)
        self.dlg.pushButtonSave.clicked.connect(self.folder_path)
        self.dlg.checkBoxUseVeg.toggled.connect(self.text_enable)
        self.dlg.checkBoxTrunkExist.toggled.connect(self.text_enable2)
        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(4)
        self.fileDialog.setAcceptMode(1)

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&Sky View Factor Calculator')
        # TODO: We are going to let the user set this up in a future iteration
        # self.toolbar = self.iface.addToolBar(u'SkyViewFactorCalculator')
        # self.toolbar.setObjectName(u'SkyViewFactorCalculator')

        # self.layerComboManagerDSM = RasterLayerCombo(self.dlg.comboBox_dsm)
        # RasterLayerCombo(self.dlg.comboBox_dsm, initLayer="")
        # self.layerComboManagerVEGDSM = RasterLayerCombo(self.dlg.comboBox_vegdsm)
        # RasterLayerCombo(self.dlg.comboBox_vegdsm, inityLayer="")
        # self.layerComboManagerVEGDSM2 = RasterLayerCombo(self.dlg.comboBox_vegdsm2)
        # RasterLayerCombo(self.dlg.comboBox_vegdsm2, initLayer="")
        self.layerComboManagerDSM = QgsMapLayerComboBox(self.dlg.widget_dsm)
        self.layerComboManagerDSM.setFilters(QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerDSM.setFixedWidth(200)
        self.layerComboManagerDSM.setCurrentIndex(-1)
        self.layerComboManagerVEGDSM = QgsMapLayerComboBox(
            self.dlg.widget_vegdsm)
        self.layerComboManagerVEGDSM.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerVEGDSM.setFixedWidth(200)
        self.layerComboManagerVEGDSM.setCurrentIndex(-1)
        self.layerComboManagerVEGDSM2 = QgsMapLayerComboBox(
            self.dlg.widget_vegdsm2)
        self.layerComboManagerVEGDSM2.setFilters(
            QgsMapLayerProxyModel.RasterLayer)
        self.layerComboManagerVEGDSM2.setFixedWidth(200)
        self.layerComboManagerVEGDSM2.setCurrentIndex(-1)

        self.thread = None
        self.worker = None
        self.vegthread = None
        self.vegworker = None
        self.svftotal = None
        self.folderPath = None
        self.usevegdem = None
        self.vegdsm = None
        self.vegdsm2 = None
        self.svfbu = None
        self.dsm = None
        self.scale = None
        self.steps = 0
Exemplo n.º 57
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(
            self.plugin_dir,
            'i18n',
            'Flaechenzuordnungen_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg_at = AssigntgebDialog()
        self.dlg_cl = CreatelineflDialog()
        self.dlg_sw = CreatelineswDialog()
        self.dlg_ul = UpdateLinksDialog()
        self.dlg_mg = ManagegroupsDialog()

        # Anfang Eigene Funktionen -------------------------------------------------
        # (jh, 12.06.2017)

        logger.info(u'\n\nQKan_LinkFlaechen initialisiert...')

        # --------------------------------------------------------------------------
        # Pfad zum Arbeitsverzeichnis sicherstellen
        wordir = os.path.join(site.getuserbase(), 'qkan')

        if not os.path.isdir(wordir):
            os.makedirs(wordir)

        # --------------------------------------------------------------------------------------------------
        # Konfigurationsdatei qkan.json lesen
        #

        self.configfil = os.path.join(wordir, 'qkan.json')
        if os.path.exists(self.configfil):
            with open(self.configfil, 'r') as fileconfig:
                self.config = json.loads(fileconfig.read())
        else:
            self.config = {'epsg': '25832'}                     # Projektionssystem
            self.config['autokorrektur'] = False
            self.config['suchradius'] = u'50'
            self.config['mindestflaeche'] = u'0.5'
            self.config['bezug_abstand'] = 'kante'
            with open(self.configfil, 'w') as fileconfig:
                fileconfig.write(json.dumps(self.config))

        # Formularereignisse anbinden ----------------------------------------------

        # Dialog dlg_cl
        self.dlg_cl.lw_flaechen_abflussparam.itemClicked.connect(self.cl_lw_flaechen_abflussparamClick)
        self.dlg_cl.lw_hal_entw.itemClicked.connect(self.cl_lw_hal_entwClick)
        self.dlg_cl.lw_teilgebiete.itemClicked.connect(self.cl_lw_teilgebieteClick)
        self.dlg_cl.cb_selFlActive.stateChanged.connect(self.cl_selFlActiveClick)
        self.dlg_cl.cb_selHalActive.stateChanged.connect(self.cl_selHalActiveClick)
        self.dlg_cl.cb_selTgbActive.stateChanged.connect(self.cl_selTgbActiveClick)
        self.dlg_cl.button_box.helpRequested.connect(self.cl_helpClick)

        # Dialog dlg_sw
        self.dlg_sw.lw_hal_entw.itemClicked.connect(self.sw_lw_hal_entwClick)
        self.dlg_sw.lw_teilgebiete.itemClicked.connect(self.sw_lw_teilgebieteClick)
        self.dlg_sw.cb_selHalActive.stateChanged.connect(self.sw_selHalActiveClick)
        self.dlg_sw.cb_selTgbActive.stateChanged.connect(self.sw_selTgbActiveClick)
        self.dlg_sw.button_box.helpRequested.connect(self.sw_helpClick)

        # Dialog dlg_at
        self.dlg_at.rb_within.clicked.connect(self.select_within)
        self.dlg_at.rb_overlaps.clicked.connect(self.select_overlaps)

        # Dialog dlg_mg
        self.dlg_mg.lw_gruppen.itemClicked.connect(self.listGroupAttr)
        self.dlg_mg.pb_storegroup.clicked.connect(self.storegrouptgb)
        self.dlg_mg.pb_reloadgroup.clicked.connect(self.reloadgrouptgb)
Exemplo n.º 58
0
    def __init__(self, iface):
        self.iface = iface
        self.plugin_dir = os.path.dirname(__file__)
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'geobricks_trmm_qgis_{}.qm'.format(locale))
        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)
            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)
        self.layout = QVBoxLayout()
        self.username = QLineEdit()
        self.username.setPlaceholderText(
            self.tr('e.g. [email protected]'))
        self.password = QLineEdit()
        self.password.setEchoMode(QLineEdit.Password)
        self.password.setPlaceholderText(
            self.tr('e.g. [email protected]'))
        self.download_folder = QLineEdit()
        try:
            if self.last_download_folder is not None:
                self.download_folder.setText(self.last_download_folder)
        except:
            self.last_download_folder = None
        self.frequency = QComboBox()
        self.frequency.addItem(self.tr('Daily Sum'), 'SUM')
        self.frequency.addItem(self.tr('Daily Average'), 'AVG')
        self.frequency.addItem(self.tr('None'), 'NONE')
        self.from_date = QCalendarWidget()
        self.to_date = QCalendarWidget()
        self.bar = QgsMessageBar()
        self.lbl_0 = QLabel('<b>' + self.tr('Username') + '</b>')
        self.lbl_1 = QLabel('<b>' + self.tr('Password') + '</b>')
        self.lbl_2 = QLabel('<b>' + self.tr('Aggregation') + '</b>')
        self.from_date_label = QLabel(
            '<b>' + self.tr('From Date') + '</b>: ' +
            QDate(2015, 7, 31).toString('MMMM d, yyyy'))
        self.to_date_label = QLabel(
            '<b>' + self.tr('To Date') + '</b>: ' +
            QDate(2015, 7, 31).toString('MMMM d, yyyy'))
        self.lbl_5 = QLabel('<b>' + self.tr('Download Folder') + '</b>')
        self.lbl_6 = QLabel('<i style="color: blue;">' +
                            self.tr('Create an account') + '</i>')
        self.lbl_7 = QLabel('<b>' + self.tr('Data availability') + '</b>: ' +
                            self.tr('from January 1st 1998 to July 31st 2015'))
        self.palette = QPalette()
        self.from_date_widget = QWidget()
        self.from_date_widget_layout = QVBoxLayout()
        self.dates_widget = QWidget()
        self.dates_widget_layout = QHBoxLayout()
        self.username_widget = QWidget()
        self.username_layout = QVBoxLayout()
        self.password_widget = QWidget()
        self.password_layout = QVBoxLayout()
        self.progressBar = QProgressBar()
        self.progress_label = QLabel('<b>' + self.tr('Progress') + '</b>')
        self.login_widget = QWidget()
        self.login_layout = QHBoxLayout()
        self.download_folder_widget = QWidget()
        self.download_folder_layout = QHBoxLayout()
        self.download_folder_button = QPushButton(self.tr('...'))
        self.download_button = QPushButton(self.tr('Start Download'))
        self.close_button = QPushButton(self.tr('Close Window'))
        self.add_to_canvas = QCheckBox(self.tr('Add output layer to canvas'))
        self.add_to_canvas.setChecked(True)
        self.to_date_widget = QWidget()
        self.to_date_widget_layout = QVBoxLayout()
        self.spacing = 16

        self.dlg = GeobricksTRMMDialog()
        self.actions = []
        self.menu = self.tr('Download Data')
        self.toolbar = self.iface.addToolBar(self.tr('TRMM Data Downloader'))
        self.toolbar.setObjectName('TRMMDataDownloader')
        self.is_rendered = False
Exemplo n.º 59
0
    def __init__(self, iface):
        """Constructor.

        :param iface: An interface instance that will be passed to this class
            which provides the hook by which you can manipulate the QGIS
            application at run time.
        :type iface: QgsInterface
        """
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value('locale/userLocale')[0:2]
        locale_path = os.path.join(self.plugin_dir, 'i18n',
                                   'UMEP_{}.qm'.format(locale))

        if os.path.exists(locale_path):
            self.translator = QTranslator()
            self.translator.load(locale_path)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.dlg = UMEPDialog()

        # Declare instance attributes
        self.actions = []
        self.menu = self.tr(u'&UMEP')
        # TODO: We are going to let the user set this up in a future iteration
        #self.toolbar = self.iface.addToolBar(u'UMEP')
        #self.toolbar.setObjectName(u'UMEP')

        # Main menu
        self.UMEP_Menu = QMenu("UMEP")

        # First-order sub-menus
        self.Pre_Menu = QMenu("Pre-Processor")
        self.UMEP_Menu.addMenu(self.Pre_Menu)
        self.Pro_Menu = QMenu("Processor")
        self.UMEP_Menu.addMenu(self.Pro_Menu)
        self.Pos_Menu = QMenu("Post-Processor")
        self.UMEP_Menu.addMenu(self.Pos_Menu)
        self.About_Menu = QMenu("Help")
        self.UMEP_Menu.addMenu(self.About_Menu)

        # Sub-menus and actions to Pre-processor
        self.MD_Menu = QMenu("Meteorological Data")
        self.Pre_Menu.addMenu(self.MD_Menu)
        self.SP_Menu = QMenu("Spatial Data")
        self.Pre_Menu.addMenu(self.SP_Menu)
        self.UG_Menu = QMenu("Urban Geometry")
        self.Pre_Menu.addMenu(self.UG_Menu)
        self.ULC_Menu = QMenu("Urban Land Cover")
        self.Pre_Menu.addMenu(self.ULC_Menu)
        self.SM_Menu = QMenu("Urban Morphology")
        self.Pre_Menu.addMenu(self.SM_Menu)
        self.SUEWSPrepare_Action = QAction("SUEWS Prepare",
                                           self.iface.mainWindow())
        self.Pre_Menu.addAction(self.SUEWSPrepare_Action)
        self.SUEWSPrepare_Action.triggered.connect(self.SUEWS_Prepare)

        # Sub-actions to Surface Morphology
        self.IMCP_Action = QAction("Morphometric Calculator (Point)",
                                   self.iface.mainWindow())
        self.SM_Menu.addAction(self.IMCP_Action)
        self.IMCP_Action.triggered.connect(self.IMCP)
        self.IMCG_Action = QAction("Morphometric Calculator (Grid)",
                                   self.iface.mainWindow())
        self.SM_Menu.addAction(self.IMCG_Action)
        self.IMCG_Action.triggered.connect(self.IMCG)
        self.FP_Action = QAction("Source Area Model (Point)",
                                 self.iface.mainWindow())
        self.SM_Menu.addAction(self.FP_Action)
        self.FP_Action.triggered.connect(self.FP)

        # Sub-actions to Meteorological Data Preparation
        self.PED_Action = QAction("Prepare Existing Data",
                                  self.iface.mainWindow())
        self.MD_Menu.addAction(self.PED_Action)
        self.PED_Action.triggered.connect(self.PED)
        self.PFD_Action = QAction("Download data (WATCH)",
                                  self.iface.mainWindow())
        self.MD_Menu.addAction(self.PFD_Action)
        self.PFD_Action.triggered.connect(self.WA)

        # Sub-actions to Spatial Data Preparation
        self.SDD_Action = QAction("Spatial Data Downloader",
                                  self.iface.mainWindow())
        self.SP_Menu.addAction(self.SDD_Action)
        self.SDD_Action.triggered.connect(self.UD)
        self.DSMGenerator_Action = QAction("DSM Generator",
                                           self.iface.mainWindow())
        self.SP_Menu.addAction(self.DSMGenerator_Action)
        self.DSMGenerator_Action.triggered.connect(self.DSMG)
        self.TreeGenerator_Action = QAction("Tree Generator",
                                            self.iface.mainWindow())
        self.SP_Menu.addAction(self.TreeGenerator_Action)
        self.TreeGenerator_Action.triggered.connect(self.TG)
        self.WC_Action = QAction("LCZ Converter", self.iface.mainWindow())
        self.SP_Menu.addAction(self.WC_Action)
        self.WC_Action.triggered.connect(self.WC)

        # Sub-actions to Urban Geometry
        self.SVF_Action = QAction("Sky View Factor", self.iface.mainWindow())
        self.UG_Menu.addAction(self.SVF_Action)
        self.SVF_Action.triggered.connect(self.SVF)
        # self.HW_Action = QAction("Height/Width Ratio", self.iface.mainWindow())
        # self.UG_Menu.addAction(self.HW_Action)
        # self.HW_Action.setEnabled(False)
        self.WH_Action = QAction("Wall Height and Aspect",
                                 self.iface.mainWindow())
        self.UG_Menu.addAction(self.WH_Action)
        self.WH_Action.triggered.connect(self.WH)

        # Sub-actions to Urban Land Cover
        self.ULCUEBRC_Action = QAction("Land Cover Reclassifier",
                                       self.iface.mainWindow())
        self.ULC_Menu.addAction(self.ULCUEBRC_Action)
        self.ULCUEBRC_Action.triggered.connect(self.LCRC)
        self.ULCUEBP_Action = QAction("Land Cover Fraction (Point)",
                                      self.iface.mainWindow())
        self.ULC_Menu.addAction(self.ULCUEBP_Action)
        self.ULCUEBP_Action.triggered.connect(self.LCP)
        self.ULCUEBG_Action = QAction("Land Cover Fraction (Grid)",
                                      self.iface.mainWindow())
        self.ULC_Menu.addAction(self.ULCUEBG_Action)
        self.ULCUEBG_Action.triggered.connect(self.LCG)

        # Sub-menus to Processor
        self.OTC_Menu = QMenu("Outdoor Thermal Comfort")
        self.Pro_Menu.addMenu(self.OTC_Menu)
        self.UEB_Menu = QMenu("Urban Energy Balance")
        self.Pro_Menu.addMenu(self.UEB_Menu)
        self.SUN_Menu = QMenu("Solar radiation")
        self.Pro_Menu.addMenu(self.SUN_Menu)
        # self.NUHI_Action = QAction("Nocturnal Urban Heat Island", self.iface.mainWindow())
        # self.Pro_Menu.addAction(self.NUHI_Action)

        # Sub-menus to Outdoor Thermal Comfort
        self.PET_Action = QAction("Comfort Index (PET/UCTI)",
                                  self.iface.mainWindow())
        self.OTC_Menu.addAction(self.PET_Action)
        self.PET_Action.setEnabled(False)
        self.MRT_Action = QAction("Mean Radiant Temperature (SOLWEIG)",
                                  self.iface.mainWindow())
        self.OTC_Menu.addAction(self.MRT_Action)
        self.MRT_Action.triggered.connect(self.SO)
        self.PWS_Action = QAction("Pedestrian Wind Speed",
                                  self.iface.mainWindow())
        self.OTC_Menu.addAction(self.PWS_Action)
        self.PWS_Action.setEnabled(False)
        self.EF_Action = QAction("Extreme Finder", self.iface.mainWindow())
        self.OTC_Menu.addAction(self.EF_Action)
        self.EF_Action.triggered.connect(self.EF)

        # Sub-menus to Urban Energy Balance
        self.QFL_Action = QAction("Antropogenic heat - GQf (Greater Qf)",
                                  self.iface.mainWindow())
        self.UEB_Menu.addAction(self.QFL_Action)
        self.QFL_Action.triggered.connect(self.GF)
        self.QF_Action = QAction("Antropogenic heat - LQf (LUCY)",
                                 self.iface.mainWindow())
        self.UEB_Menu.addAction(self.QF_Action)
        self.QF_Action.triggered.connect(self.LF)
        self.SUEWSSIMPLE_Action = QAction(
            "Urban Energy Balance (SUEWS, Simple)", self.iface.mainWindow())
        self.UEB_Menu.addAction(self.SUEWSSIMPLE_Action)
        self.SUEWSSIMPLE_Action.triggered.connect(self.SUEWS_simple)
        self.SUEWS_Action = QAction(
            "Urban Energy Balance (SUEWS/BLUEWS, Advanced)",
            self.iface.mainWindow())
        self.UEB_Menu.addAction(self.SUEWS_Action)
        self.SUEWS_Action.triggered.connect(self.SUEWS_advanced)
        # self.LUMPS_Action = QAction("Urban Energy Balance (LUMPS)", self.iface.mainWindow())
        # self.UEB_Menu.addAction(self.LUMPS_Action)
        # self.LUMPS_Action.setEnabled(False)
        # self.CBL_Action = QAction("UEB + CBL (BLUEWS/BLUMPS)", self.iface.mainWindow())
        # self.UEB_Menu.addAction(self.CBL_Action)
        # self.CBL_Action.setEnabled(False)

        # Sub-menus to Solar radiation
        self.SEBE_Action = QAction("Solar Energy on Building Envelopes (SEBE)",
                                   self.iface.mainWindow())
        self.SUN_Menu.addAction(self.SEBE_Action)
        self.SEBE_Action.triggered.connect(self.SE)
        self.DSP_Action = QAction("Daily Shadow Pattern",
                                  self.iface.mainWindow())
        self.SUN_Menu.addAction(self.DSP_Action)
        self.DSP_Action.triggered.connect(self.SH)

        # Sub-menus to Post-processing
        self.SUNpos_Menu = QMenu("Solar Radiation")
        self.Pos_Menu.addMenu(self.SUNpos_Menu)
        self.OTCpos_Menu = QMenu("Outdoor Thermal Comfort")
        self.Pos_Menu.addMenu(self.OTCpos_Menu)
        self.UEBpos_Menu = QMenu("Urban Energy Balance")
        self.Pos_Menu.addMenu(self.UEBpos_Menu)
        self.BSS_Action = QAction("Benchmarking System",
                                  self.iface.mainWindow())
        self.Pos_Menu.addAction(self.BSS_Action)
        self.BSS_Action.triggered.connect(self.BSS)

        # Sub-menus to Solar radiation, post processing
        self.SEBEv_Action = QAction("SEBE (Visualisation)",
                                    self.iface.mainWindow())
        self.SUNpos_Menu.addAction(self.SEBEv_Action)
        self.SEBEv_Action.triggered.connect(self.SEv)

        # Sub-menus to Outdoor thermal comfort, post processing
        self.SOLWEIGa_Action = QAction("SOLWEIG Analyzer",
                                       self.iface.mainWindow())
        self.OTCpos_Menu.addAction(self.SOLWEIGa_Action)
        self.SOLWEIGa_Action.triggered.connect(self.SOv)

        # Sub-menus to Urban Energy Balance, post processing
        self.SUEWSa_Action = QAction("SUEWS Analyzer", self.iface.mainWindow())
        self.UEBpos_Menu.addAction(self.SUEWSa_Action)
        self.SUEWSa_Action.triggered.connect(self.SUv)

        # Sub-menus to About
        self.About_Action = QAction("About", self.iface.mainWindow())
        self.About_Menu.addAction(self.About_Action)
        self.Manual_Action = QAction("UMEP on the web",
                                     self.iface.mainWindow())
        self.About_Menu.addAction(self.Manual_Action)
        self.Manual_Action.triggered.connect(self.help)

        # Icons
        self.SUEWSPrepare_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/SuewsLogo.png"))
        self.SUEWSSIMPLE_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/SuewsLogo.png"))
        self.SUEWS_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/SuewsLogo.png"))
        self.SVF_Action.setIcon(QIcon(self.plugin_dir + "/Icons/icon_svf.png"))
        self.IMCG_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/ImageMorphIcon.png"))
        self.IMCP_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/ImageMorphIconPoint.png"))
        self.DSP_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/ShadowIcon.png"))
        self.ULCUEBG_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/LandCoverFractionGridIcon.png"))
        self.ULCUEBP_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/LandCoverFractionPointIcon.png"))
        self.ULCUEBRC_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/LandCoverReclassifierIcon.png"))
        self.WH_Action.setIcon(QIcon(self.plugin_dir + "/Icons/WallsIcon.png"))
        self.SEBE_Action.setIcon(QIcon(self.plugin_dir +
                                       "/Icons/sebeIcon.png"))
        self.SEBEv_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/sebeIcon.png"))
        self.FP_Action.setIcon(QIcon(self.plugin_dir + "/Icons/FootPrint.png"))
        self.About_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_umep.png"))
        self.Manual_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_umep.png"))
        self.PED_Action.setIcon(QIcon(self.plugin_dir + "/Icons/metdata.png"))
        self.PFD_Action.setIcon(QIcon(self.plugin_dir + "/Icons/watch.png"))
        self.MRT_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_solweig.png"))
        self.SOLWEIGa_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_solweig.png"))
        self.SUEWSa_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/SuewsLogo.png"))
        self.TreeGenerator_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_tree.png"))
        self.DSMGenerator_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/DSMGeneratorIcon.png"))
        self.EF_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_extreme.png"))
        self.WC_Action.setIcon(QIcon(self.plugin_dir + "/Icons/LCZ_icon.png"))
        self.SDD_Action.setIcon(
            QIcon(self.plugin_dir + "/Icons/icon_spatialdownloader.png"))
        self.QFL_Action.setIcon(QIcon(self.plugin_dir + "/Icons/icon_GQF.png"))
        self.QF_Action.setIcon(QIcon(self.plugin_dir + "/Icons/icon_LQF.png"))
        self.BSS_Action.setIcon(QIcon(self.plugin_dir + "/Icons/icon_BSS.png"))

        self.iface.mainWindow().menuBar().insertMenu(
            self.iface.firstRightStandardMenu().menuAction(), self.UMEP_Menu)
        self.dlgAbout = UMEPDialogAbout()
Exemplo n.º 60
0
    def __init__(self, iface):
        # Save reference to the QGIS interface
        self.iface = iface
        # initialize plugin directory
        self.plugin_dir = os.path.dirname(__file__)
        # initialize locale
        locale = QSettings().value("locale/userLocale")[0:2]
        localePath = os.path.join(self.plugin_dir, 'i18n',
                                  'sun_{}.qm'.format(locale))

        if os.path.exists(localePath):
            self.translator = QTranslator()
            self.translator.load(localePath)

            if qVersion() > '4.3.3':
                QCoreApplication.installTranslator(self.translator)

        # Create the dialog (after translation) and keep reference
        self.visDlg = VisualizerDialog()

        self.polyLayer = None
        self.dir_path = None
        self.layer = None
        self.point1 = None
        self.point2 = None
        self.gl_widget = None
        self.max_energy = 0
        self.energy_array = None
        self.asc_array = None

        self.ncols = None
        self.nrows = None
        self.xllcorner = None
        self.yllcorner = None
        self.cellsize = None

        self.roofground_file = 'Energyyearroof.tif'
        self.veg_file = 'Vegetationdata.txt'
        self.wall_file = 'Energyyearwall.txt'
        self.height_file = 'dsm.tif'

        self.fileDialog = QFileDialog()
        self.fileDialog.setFileMode(2)
        self.fileDialog.setAcceptMode(0)

        #Create a reference to the map canvas
        self.canvas = self.iface.mapCanvas()

        #Create tools
        self.areaTool = AreaTool(self.canvas)

        self.thread = None
        self.worker = None
        self.steps = 0

        self.areaTool.areaComplete.connect(self.display_area)

        self.visDlg.pushButtonSelect.clicked.connect(self.area)
        self.visDlg.pushButtonDirectory.clicked.connect(self.path_directory)
        self.visDlg.pushButtonVisualize.clicked.connect(self.visualize)
        self.visDlg.helpButton.clicked.connect(self.help)