def __init__(self, app):
"""
constructor
- initialize UI elements
- connect UI elements to callback
"""
super(WidgetResult, self).__init__()
self.ui = Ui_widgetResult()
self.ui.setupUi(self)
# create canvas
self.canvas = QgsMapCanvas(self.ui.widget_map)
self.canvas.setGeometry(
0, # x
self.ui.widget_map_menu_l.x() +
self.ui.widget_map_menu_l.height(), # y
self.ui.widget_map.width() - 2 * UI_PADDING, # width
self.ui.widget_map.width() - 2 * UI_PADDING # height
)
self.canvas.setCanvasColor(Qt.white)
self.canvas.enableAntiAliasing(True)
self.canvas.mapRenderer().setProjectionsEnabled(True)
self.canvas.mapRenderer().setDestinationCrs(
QgsCoordinateReferenceSystem(
4326, QgsCoordinateReferenceSystem.PostgisCrsId))
self.canvas.zoomNextStatusChanged.connect(self.checkRendering)
self.canvas.xyCoordinates.connect(self.currentLocation)
self.registry = QgsMapLayerRegistry.instance()
self.map_layers = [None] * len(self.LAYER_NAMES)
self.map_layer_renderer = [None] * len(self.LAYER_NAMES)
for idx, str_style in enumerate(self.LAYER_STYLES):
rdoc = QDomDocument("renderer")
rdoc.setContent(str_style)
self.map_layer_renderer[idx] = QgsFeatureRendererV2.load(
rdoc.firstChild().toElement())
# populate export list
self.ui.cb_export_format.clear()
for export_format in self.EXPORT_FORMATS.keys():
self.ui.cb_export_format.addItem(export_format)
# style object required for QgsRendererV2PropertiesDialog
self.style = QgsStyleV2()
# create the map tools
self.toolPan = QgsMapToolPan(self.canvas)
self.toolZoomIn = QgsMapToolZoom(self.canvas, False) # false = in
self.toolZoomOut = QgsMapToolZoom(self.canvas, True) # true = out
self.toolInfo = QgsMapToolEmitPoint(self.canvas)
self.toolInfo.canvasClicked.connect(self.showInfo)
self.canvas.setMapTool(self.toolPan)
# additional
self.dlgResultDetail = DialogResult()
self.dlgResultDetail.setModal(True)
# set link to application main controller
self.app = app
# reset project
self._project = None
# default export setting
self.export_format = ExportTypes.Shapefile
# connect slots (ui event)
self.ui.btn_zoom_full.clicked.connect(self.mapZoomFull)
self.ui.btn_zoom_in.clicked.connect(self.mapZoomIn)
self.ui.btn_zoom_out.clicked.connect(self.mapZoomOut)
self.ui.btn_stop.clicked.connect(self.stopRendering)
self.ui.btn_zoom_layer.clicked.connect(self.mapZoomLayer)
self.ui.btn_pan.clicked.connect(self.mapPan)
self.ui.btn_theme.clicked.connect(self.mapEditTheme)
self.ui.btn_info.clicked.connect(self.mapIdentify)
self.ui.btn_zoom_to_feature.clicked.connect(self.searchFeature)
self.ui.cb_export_format.currentIndexChanged[str].connect(
self.exportFormatChanged)
self.ui.btn_export.clicked.connect(self.exportData)
self.ui.btn_export_select_path.clicked.connect(self.selectExportFile)
def __init__(self, app):
"""
constructor
- initialize UI elements
- connect UI elements to callback
"""
super(WidgetResult, self).__init__()
self.ui = Ui_widgetResult()
self.ui.setupUi(self)
# create canvas
self.canvas = QgsMapCanvas(self.ui.widget_map)
self.canvas.setGeometry(
0, # x
self.ui.widget_map_menu_l.x()+self.ui.widget_map_menu_l.height(), # y
self.ui.widget_map.width() - 2*UI_PADDING, # width
self.ui.widget_map.width() - 2*UI_PADDING # height
)
self.canvas.setCanvasColor(Qt.white)
self.canvas.enableAntiAliasing(True)
self.canvas.mapRenderer().setProjectionsEnabled(True)
self.canvas.mapRenderer().setDestinationCrs(QgsCoordinateReferenceSystem(4326, QgsCoordinateReferenceSystem.PostgisCrsId))
self.canvas.zoomNextStatusChanged.connect(self.checkRendering)
self.canvas.xyCoordinates.connect(self.currentLocation)
self.registry = QgsMapLayerRegistry.instance()
self.map_layers = [None] * len(self.LAYER_NAMES)
self.map_layer_renderer = [None] * len(self.LAYER_NAMES)
for idx, str_style in enumerate(self.LAYER_STYLES):
rdoc = QDomDocument("renderer")
rdoc.setContent(str_style)
self.map_layer_renderer[idx] = QgsFeatureRendererV2.load(rdoc.firstChild().toElement())
# populate export list
self.ui.cb_export_format.clear()
for export_format in self.EXPORT_FORMATS.keys():
self.ui.cb_export_format.addItem(export_format)
# style object required for QgsRendererV2PropertiesDialog
self.style = QgsStyleV2()
# create the map tools
self.toolPan = QgsMapToolPan(self.canvas)
self.toolZoomIn = QgsMapToolZoom(self.canvas, False) # false = in
self.toolZoomOut = QgsMapToolZoom(self.canvas, True) # true = out
self.toolInfo = QgsMapToolEmitPoint(self.canvas)
self.toolInfo.canvasClicked.connect(self.showInfo)
self.canvas.setMapTool(self.toolPan)
# additional
self.dlgResultDetail = DialogResult()
self.dlgResultDetail.setModal(True)
# set link to application main controller
self.app = app
# reset project
self._project = None
# default export setting
self.export_format = ExportTypes.Shapefile
# connect slots (ui event)
self.ui.btn_zoom_full.clicked.connect(self.mapZoomFull)
self.ui.btn_zoom_in.clicked.connect(self.mapZoomIn)
self.ui.btn_zoom_out.clicked.connect(self.mapZoomOut)
self.ui.btn_stop.clicked.connect(self.stopRendering)
self.ui.btn_zoom_layer.clicked.connect(self.mapZoomLayer)
self.ui.btn_pan.clicked.connect(self.mapPan)
self.ui.btn_theme.clicked.connect(self.mapEditTheme)
self.ui.btn_info.clicked.connect(self.mapIdentify)
self.ui.btn_zoom_to_feature.clicked.connect(self.searchFeature)
self.ui.cb_export_format.currentIndexChanged[str].connect(self.exportFormatChanged)
self.ui.btn_export.clicked.connect(self.exportData)
self.ui.btn_export_select_path.clicked.connect(self.selectExportFile)
class WidgetResult(Ui_widgetResult, QWidget):
"""
Widget (Panel) for result review
"""
''' buffer around clicked point for point in polygon query '''
SEARCH_BUFFER = 20.0
''' supported export formats '''
EXPORT_FORMATS = {
get_ui_string("app.extension.shapefile"):
ExportTypes.Shapefile,
#get_ui_string("app.extension.kml"):ExportTypes.KML,
#get_ui_string("app.extension.nrml"):ExportTypes.NRML,
get_ui_string("app.extension.csv"):
ExportTypes.CSV,
}
''' enumeration of Layer to be previewed '''
EXPOSURE, SURVEY, POP_GRID, FOOTPRINT, ZONES = range(5)
''' name for Layer to be previewed '''
LAYER_NAMES = [
get_ui_string("widget.result.layer.exposure"),
get_ui_string("widget.result.layer.survey"),
get_ui_string("widget.result.layer.popgrid"),
get_ui_string("widget.result.layer.footprint"),
get_ui_string("widget.result.layer.zones"),
]
LAYER_STYLES = [
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleLine" locked="0"><prop k="capstyle" v="square"/><prop k="color" v="0,0,0,255"/><prop k="customdash" v="5;2"/><prop k="joinstyle" v="bevel"/><prop k="offset" v="0"/><prop k="penstyle" v="solid"/><prop k="use_custom_dash" v="0"/><prop k="width" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="marker" name="0"><layer pass="******" class="SimpleMarker" locked="0"><prop k="angle" v="0"/><prop k="color" v="0,0,255,255"/><prop k="color_border" v="0,0,255,255"/><prop k="name" v="circle"/><prop k="offset" v="0,0"/><prop k="size" v="2"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="marker" name="0"><layer pass="******" class="SimpleMarker" locked="0"><prop k="angle" v="0"/><prop k="color" v="0,255,0,255"/><prop k="color_border" v="0,255,0,255"/><prop k="name" v="rectangle"/><prop k="offset" v="0,0"/><prop k="size" v="4"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleFill" locked="0"><prop k="color" v="170,250,170,255"/><prop k="color_border" v="0,0,0,255"/><prop k="offset" v="0,0"/><prop k="style" v="solid"/><prop k="style_border" v="solid"/><prop k="width_border" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleFill" locked="0"><prop k="color" v="211,211,158,200"/><prop k="color_border" v="0,0,0,255"/><prop k="offset" v="0,0"/><prop k="style" v="solid"/><prop k="style_border" v="solid"/><prop k="width_border" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
]
# constructor / destructor
###############################
def __init__(self, app):
"""
constructor
- initialize UI elements
- connect UI elements to callback
"""
super(WidgetResult, self).__init__()
self.ui = Ui_widgetResult()
self.ui.setupUi(self)
# create canvas
self.canvas = QgsMapCanvas(self.ui.widget_map)
self.canvas.setGeometry(
0, # x
self.ui.widget_map_menu_l.x() +
self.ui.widget_map_menu_l.height(), # y
self.ui.widget_map.width() - 2 * UI_PADDING, # width
self.ui.widget_map.width() - 2 * UI_PADDING # height
)
self.canvas.setCanvasColor(Qt.white)
self.canvas.enableAntiAliasing(True)
self.canvas.mapRenderer().setProjectionsEnabled(True)
self.canvas.mapRenderer().setDestinationCrs(
QgsCoordinateReferenceSystem(
4326, QgsCoordinateReferenceSystem.PostgisCrsId))
self.canvas.zoomNextStatusChanged.connect(self.checkRendering)
self.canvas.xyCoordinates.connect(self.currentLocation)
self.registry = QgsMapLayerRegistry.instance()
self.map_layers = [None] * len(self.LAYER_NAMES)
self.map_layer_renderer = [None] * len(self.LAYER_NAMES)
for idx, str_style in enumerate(self.LAYER_STYLES):
rdoc = QDomDocument("renderer")
rdoc.setContent(str_style)
self.map_layer_renderer[idx] = QgsFeatureRendererV2.load(
rdoc.firstChild().toElement())
# populate export list
self.ui.cb_export_format.clear()
for export_format in self.EXPORT_FORMATS.keys():
self.ui.cb_export_format.addItem(export_format)
# style object required for QgsRendererV2PropertiesDialog
self.style = QgsStyleV2()
# create the map tools
self.toolPan = QgsMapToolPan(self.canvas)
self.toolZoomIn = QgsMapToolZoom(self.canvas, False) # false = in
self.toolZoomOut = QgsMapToolZoom(self.canvas, True) # true = out
self.toolInfo = QgsMapToolEmitPoint(self.canvas)
self.toolInfo.canvasClicked.connect(self.showInfo)
self.canvas.setMapTool(self.toolPan)
# additional
self.dlgResultDetail = DialogResult()
self.dlgResultDetail.setModal(True)
# set link to application main controller
self.app = app
# reset project
self._project = None
# default export setting
self.export_format = ExportTypes.Shapefile
# connect slots (ui event)
self.ui.btn_zoom_full.clicked.connect(self.mapZoomFull)
self.ui.btn_zoom_in.clicked.connect(self.mapZoomIn)
self.ui.btn_zoom_out.clicked.connect(self.mapZoomOut)
self.ui.btn_stop.clicked.connect(self.stopRendering)
self.ui.btn_zoom_layer.clicked.connect(self.mapZoomLayer)
self.ui.btn_pan.clicked.connect(self.mapPan)
self.ui.btn_theme.clicked.connect(self.mapEditTheme)
self.ui.btn_info.clicked.connect(self.mapIdentify)
self.ui.btn_zoom_to_feature.clicked.connect(self.searchFeature)
self.ui.cb_export_format.currentIndexChanged[str].connect(
self.exportFormatChanged)
self.ui.btn_export.clicked.connect(self.exportData)
self.ui.btn_export_select_path.clicked.connect(self.selectExportFile)
@pyqtSlot(QgsPoint)
def currentLocation(self, point):
self.app.updateMapLocation(point.x(), point.y())
#self.canvas.mouseMoveEvent(mouseEvent)
# UI event handling calls (Qt slots)
###############################
@pyqtSlot(QObject)
def resizeEvent(self, event):
""" handle window resize """
# find left coordinate for right side panels
x_right_side = self.width() - self.ui.widget_export.width(
) - UI_PADDING
# adjust right side panels
self.ui.widget_export.move(x_right_side, self.ui.widget_map.y() + 30)
self.ui.widget_dq_test.move(
x_right_side,
self.ui.widget_export.y() + self.ui.widget_export.height() +
UI_PADDING)
# adjust map panel (left side)
self.ui.widget_map.resize(x_right_side - UI_PADDING,
self.height() - 2 * UI_PADDING)
# adjust map canvas within the map panel
map_top = self.ui.widget_map_menu_l.x(
) + self.ui.widget_map_menu_l.height() + UI_PADDING
self.canvas.resize(
x_right_side - UI_PADDING, # same width as self.ui.widget_map
self.ui.widget_map.height() - map_top - 2 * UI_PADDING) # height
# adjust map menu
self.ui.widget_map_menu_r.move(
self.ui.widget_map.width() -
self.ui.widget_map_menu_r.width(), # right align with map panel
0)
# logo
self.ui.lb_gem_logo.move(self.width() - self.ui.lb_gem_logo.width(),
self.ui.lb_gem_logo.y())
@logUICall
@pyqtSlot()
def mapPan(self):
""" event handler for btn_pan - pan map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolPan)
@logUICall
@pyqtSlot()
def mapZoomIn(self):
""" event handler for btn_zoom_in - zoom in on map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolZoomIn)
@logUICall
@pyqtSlot()
def mapZoomOut(self):
""" event handler for btn_zoom_out - zoom out on map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolZoomOut)
@logUICall
@pyqtSlot()
def mapZoomFull(self):
""" event handler for btn_zoom_full - zoom to full map """
self.canvas.zoomToFullExtent()
def checkRendering(self, changed):
self.canvas.setRenderFlag(True)
@logUICall
@pyqtSlot()
def stopRendering(self):
self.canvas.setRenderFlag(False)
@logUICall
@pyqtSlot()
def mapZoomLayer(self):
self.canvas.unsetMapTool(self.toolInfo)
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
self.zoomToLayer(
self.map_layers[self.LAYER_NAMES.index(cur_layer_name)])
@logUICall
@pyqtSlot()
def mapEditTheme(self):
""" event handler for btn_edit - identify item on map """
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
# build layer render property Dialog for selected layer
dlg_render = QDialog()
dlg_render.setWindowTitle(
get_ui_string('widget.result.renderer.settings'))
dlg_render.setModal(True)
dlg_render.setFixedSize(530, 370)
dlg_render.renderer = QgsRendererV2PropertiesDialog(
self.map_layers[cur_layer_idx], self.style, True)
dlg_render.renderer.setParent(dlg_render)
dlg_render.renderer.setGeometry(QRect(10, 10, 510, 325))
dlg_render.buttonBox = QDialogButtonBox(dlg_render)
dlg_render.buttonBox.setGeometry(QRect(10, 335, 510, 25))
dlg_render.buttonBox.setStandardButtons(QDialogButtonBox.Cancel
| QDialogButtonBox.Ok)
dlg_render.buttonBox.accepted.connect(dlg_render.accept)
dlg_render.buttonBox.accepted.connect(dlg_render.renderer.onOK)
dlg_render.buttonBox.rejected.connect(dlg_render.reject)
dlg_render.setVisible(True)
# get user input and update renderer
answer = dlg_render.exec_()
if answer == QDialog.Accepted:
self.map_layer_renderer[cur_layer_idx] = None
self.map_layer_renderer[cur_layer_idx] = self.map_layers[
cur_layer_idx].rendererV2().clone()
self.canvas.refresh()
dlg_render.destroy()
del dlg_render
except Exception as err:
# thematic is not-critical, allow continue on exception
logUICall.log(str(err), logUICall.WARNING)
@logUICall
@pyqtSlot()
def searchFeature(self):
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
layer = self.map_layers[cur_layer_idx]
fields = []
for fidx in layer.dataProvider().fields():
fields.append(layer.dataProvider().fields()[fidx].name())
dlg_search = DialogSearchFeature(fields)
answer = dlg_search.exec_()
if answer == QDialog.Accepted:
extent = self.findFeatureExtentByAttribute(
layer, dlg_search.attribute, dlg_search.value)
if extent is not None:
self.zoomToExtent(extent)
else:
logUICall.log(get_ui_string("widget.result.info.notfound"),
logUICall.WARNING)
dlg_search.destroy()
except Exception as err:
# thematic is not-critical, allow continue on exception
logUICall.log(str(err), logUICall.WARNING)
@logUICall
@pyqtSlot()
def mapIdentify(self):
"""
event handler for btn_info
This only enables map querying, method connected to canvasClicked signal does
the actual point-polygon query
"""
self.canvas.setMapTool(self.toolInfo)
@logUICall
@pyqtSlot()
def selectExportFile(self):
"""
event handler for btn_export_select_path
- open save file dialog box to select file name for export
"""
filename = QFileDialog.getSaveFileName(
self, get_ui_string("widget.result.export.file.open"), ".",
self.ui.cb_export_format.currentText())
if not filename.isNull():
self.ui.txt_export_select_path.setText(filename)
@logUICall
@pyqtSlot(str)
def exportFormatChanged(self, selected_val):
"""
event handler for cb_export_format
- update selected file after format change
"""
self.ui.txt_export_select_path.setText("")
self.export_format = self.EXPORT_FORMATS[str(selected_val)]
@logUICall
@pyqtSlot()
def exportData(self):
"""
event handler for btn_export
- do export data
"""
export_path = str(self.ui.txt_export_select_path.text())
if export_path == "":
logUICall.log(get_ui_string("app.error.path.is.null"),
logUICall.WARNING)
return
self.app.exportResults(self.export_format, export_path)
@logUICall
@pyqtSlot(QPoint, QObject)
def showInfo(self, point, mouseButton):
"""
event handler for toolInfo
@see QGIS tutorial for detail
point-polygon search on currently selected layer
"""
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
cur_layer = self.map_layers[cur_layer_idx]
# if layer is not in same projection as map canvas
# need to project query point
if cur_layer.crs() != self.canvas.mapRenderer().destinationCrs():
transform = QgsCoordinateTransform(
self.canvas.mapRenderer().destinationCrs(),
cur_layer.crs())
point = transform.transform(point)
# do query
provider = cur_layer.dataProvider()
provider.rewind()
feature = QgsFeature()
colonIndexes = provider.attributeIndexes()
# search using point as center of rectangle polygon
search_buffer_x = self.canvas.extent().width(
) * self.SEARCH_BUFFER / self.canvas.width()
search_buffer_y = self.canvas.extent().height(
) * self.SEARCH_BUFFER / self.canvas.height()
provider.select(
colonIndexes,
QgsRectangle(point.x() - search_buffer_x,
point.y() - search_buffer_y,
point.x() + search_buffer_x,
point.y() + search_buffer_y), True)
# get selected and display in result detail dialog box
selected = []
while provider.nextFeature(feature):
# for polygons, only show geometry containing query point
if cur_layer.geometryType() == QGis.Polygon:
if feature.geometry(
) is not None and not feature.geometry().contains(point):
continue
selected.append(feature.attributeMap())
if len(selected) > 0:
# display result if exists
if cur_layer_idx == self.EXPOSURE:
self.dlgResultDetail.showExposureData(
provider.fields(), selected)
else:
self.dlgResultDetail.showInfoData(provider.fields(),
selected)
self.dlgResultDetail.exec_()
else:
logUICall.log(get_ui_string("widget.result.info.notfound"),
logUICall.WARNING)
except Exception as err:
# point-in-polygon search is not critical, continue on error
logUICall.log(str(err), logUICall.WARNING)
# public methods
###############################
def set_project(self, project):
''' set project to preview. force refresh view on set'''
self._project = project
if project is None:
return
self.refreshView()
self.canvas.zoomToFullExtent()
logUICall.log("Project preview initialized sucessfully",
logUICall.INFO)
def get_project(self):
return self._project
# property access to project
project = property(get_project, set_project)
def refreshView(self):
''' reload all QGIS layers in currently defined project '''
if self._project is None:
return
# display layers if exists
if self._project.fp_file is not None and exists(self._project.fp_file):
if self.map_layers[self.FOOTPRINT] is None or self.map_layers[
self.FOOTPRINT].source() != self._project.fp_file:
self.showDataLayer(
self.FOOTPRINT,
load_shapefile(self._project.fp_file, 'footprint'))
else:
self.removeDataLayer(self.FOOTPRINT)
if self._project.zone_file is not None and exists(
self._project.zone_file):
if self.map_layers[self.ZONES] is None or self.map_layers[
self.ZONES].source() != self._project.zone_file:
self.showDataLayer(
self.ZONES, load_shapefile(self._project.zone_file,
'zones'))
else:
self.removeDataLayer(self.ZONES)
if self._project.survey_file is not None and exists(
self._project.survey_file):
if getattr(self._project, 'survey', None) is None:
self._project.load_survey()
self.showDataLayer(self.SURVEY, self._project.survey)
else:
self.removeDataLayer(self.SURVEY)
if self._project.popgrid_file is not None and exists(
self._project.popgrid_file):
if getattr(self._project, 'popgrid', None) is None:
self.showDataLayer(
self.POP_GRID,
load_shapefile(self._project.popgrid_file, 'popgrid'))
else:
self.removeDataLayer(self.POP_GRID)
# set export options
for idx, export_format in enumerate(self.EXPORT_FORMATS.values()):
if export_format == self._project.export_type:
self.ui.cb_export_format.setCurrentIndex(idx)
self.ui.txt_export_select_path.setText(self._project.export_path)
# refreshResult contains refresh call to update all layers currently loaded
self.refreshResult()
def refreshResult(self):
''' reload result QGIS layer and data quality reports in currently defined project '''
exposure = getattr(self._project, 'exposure', None)
if exposure is not None:
self.showDataLayer(self.EXPOSURE, exposure)
has_result = True
else:
self.removeDataLayer(self.EXPOSURE)
has_result = False
if has_result:
# build quality report
report_lines = []
if self._project.operator_options.has_key("proc.extrapolation"):
proc_option = self._project.operator_options[
"proc.extrapolation"]
if proc_option == ExtrapolateOptions.RandomWalk:
proc_method = get_ui_string(
"widget.result.dq.method",
get_ui_string("dlg.options.ep.random"))
elif proc_option == ExtrapolateOptions.Fraction:
proc_method = get_ui_string(
"widget.result.dq.method",
get_ui_string("dlg.options.ep.fraction"))
elif proc_option == ExtrapolateOptions.FractionRounded:
proc_method = get_ui_string(
"widget.result.dq.method",
get_ui_string("dlg.options.ep.fraction.rounded"))
else:
proc_method = get_ui_string(
"widget.result.dq.method",
get_ui_string("dlg.options.ep.random"))
report_lines.append(proc_method)
report_lines.append('')
# total tests
report_lines.append(
get_ui_string('widget.result.dq.total_tests',
len(self._project.quality_reports.keys())))
report_lines.append('')
# detail for each test
for key, report in self._project.quality_reports.iteritems():
report_lines.append(
get_ui_string('widget.result.dq.tests.%s' % key))
for title, value in report.iteritems():
report_lines.append(
get_ui_string(
'widget.result.dq.tests.%s.%s' % (key, title),
value))
report_lines.append('')
self.ui.txt_dq_test_details.setText("\n".join(report_lines))
self.ui.btn_export.setEnabled(has_result)
self.ui.widget_dq_test.setVisible(has_result)
self.ui.txt_export_select_path.setEnabled(has_result)
self.ui.btn_export_select_path.setEnabled(has_result)
self.ui.cb_export_format.setEnabled(has_result)
# this call refresh all layers currently loaded
self.refreshLayers()
@logUICall
def closeResult(self):
''' remove from map result QGIS layer and reset quality report display '''
self.canvas.setLayerSet(
[]
) # call necessary to remove all layers to avoid disconnect errors
self.removeDataLayer(self.EXPOSURE)
self.refreshLayers()
self.ui.txt_dq_test_details.setText("")
@logUICall
def closeAll(self):
''' remove from map all QGIS layer in currently defined project '''
self.ui.cb_layer_selector.clear()
try:
self.canvas.setLayerSet(
[]
) # call necessary to remove all layers to avoid disconnect errors
for i in range(5):
self.removeDataLayer(i)
self.ui.txt_dq_test_details.setText("")
self.refreshLayers()
except:
pass # exception will is thrown when registry is empty
# internal helper methods
###############################
def showDataLayer(self, index, layer):
""" display given QGIS layer on map """
try:
# add to QGIS registry and refresh view
if self.map_layers[index] is not None:
self.removeDataLayer(index)
self.map_layers[index] = layer
self.registry.addMapLayer(layer)
layer.setRendererV2(self.map_layer_renderer[index])
except:
pass
def removeDataLayer(self, index):
""" remove from map the layer identified with index """
layer = self.map_layers[index]
self.map_layers[index] = None
if layer is not None:
try:
self.registry.removeMapLayer(layer.getLayerID(), False)
del layer
except:
pass # do nothing if it fails. probably already deleted
def findFeatureExtentByAttribute(self, layer, field, value):
"""
find extent of all objects in QGIS layer matching condition "field=value"
"""
fidx = layer_field_index(layer, field)
if fidx == -1:
return None
xmin, xmax, ymin, ymax = 180, -180, 90, -90
extent = QgsRectangle(xmin, ymin, xmax, ymax)
need_transform = layer.crs() != self.canvas.mapRenderer(
).destinationCrs()
if need_transform:
transform = QgsCoordinateTransform(
layer.crs(),
self.canvas.mapRenderer().destinationCrs())
for feature in layer_features(layer):
if str(value) == feature.attributeMap()[fidx].toString():
f_extent = feature.geometry().boundingBox()
if need_transform:
f_extent = transform.transform(f_extent)
xmin = min(f_extent.xMinimum(), xmin)
xmax = max(f_extent.xMaximum(), xmax)
ymin = min(f_extent.yMinimum(), ymin)
ymax = max(f_extent.yMaximum(), ymax)
extent.set(xmin, ymin, xmax, ymax)
return extent
def zoomToLayer(self, layer):
""" zoom canvas to extent of given layer """
try:
lyr_extent = layer.extent()
if layer.crs() != self.canvas.mapRenderer().destinationCrs():
transform = QgsCoordinateTransform(
layer.crs(),
self.canvas.mapRenderer().destinationCrs())
lyr_extent = transform.transform(lyr_extent)
self.zoomToExtent(lyr_extent)
except:
pass
def zoomToExtent(self, extent):
""" zoom canvas to given extent """
try:
self.canvas.setExtent(extent)
self.canvas.zoomByFactor(1.1)
except:
self.mapZoomFull()
def refreshLayers(self):
""" refresh all layers in canvas """
# add each layer according to order
layerSet = []
self.ui.cb_layer_selector.clear()
for idx, lyr in enumerate(self.map_layers):
if lyr is not None:
layerSet.append(QgsMapCanvasLayer(lyr))
self.ui.cb_layer_selector.addItem(self.LAYER_NAMES[idx])
if len(layerSet) > 0:
self.canvas.setLayerSet(layerSet)
class WidgetResult(Ui_widgetResult, QWidget):
"""
Widget (Panel) for result review
"""
''' buffer around clicked point for point in polygon query '''
SEARCH_BUFFER = 20.0
''' supported export formats '''
EXPORT_FORMATS = {
get_ui_string("app.extension.shapefile"):ExportTypes.Shapefile,
#get_ui_string("app.extension.kml"):ExportTypes.KML,
#get_ui_string("app.extension.nrml"):ExportTypes.NRML,
get_ui_string("app.extension.csv"):ExportTypes.CSV,
};
''' enumeration of Layer to be previewed '''
EXPOSURE, SURVEY, POP_GRID, FOOTPRINT, ZONES = range(5);
''' name for Layer to be previewed '''
LAYER_NAMES = [
get_ui_string("widget.result.layer.exposure"),
get_ui_string("widget.result.layer.survey"),
get_ui_string("widget.result.layer.popgrid"),
get_ui_string("widget.result.layer.footprint"),
get_ui_string("widget.result.layer.zones"),
];
LAYER_STYLES = [
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleLine" locked="0"><prop k="capstyle" v="square"/><prop k="color" v="0,0,0,255"/><prop k="customdash" v="5;2"/><prop k="joinstyle" v="bevel"/><prop k="offset" v="0"/><prop k="penstyle" v="solid"/><prop k="use_custom_dash" v="0"/><prop k="width" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="marker" name="0"><layer pass="******" class="SimpleMarker" locked="0"><prop k="angle" v="0"/><prop k="color" v="0,0,255,255"/><prop k="color_border" v="0,0,255,255"/><prop k="name" v="circle"/><prop k="offset" v="0,0"/><prop k="size" v="2"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="marker" name="0"><layer pass="******" class="SimpleMarker" locked="0"><prop k="angle" v="0"/><prop k="color" v="0,255,0,255"/><prop k="color_border" v="0,255,0,255"/><prop k="name" v="rectangle"/><prop k="offset" v="0,0"/><prop k="size" v="4"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleFill" locked="0"><prop k="color" v="170,250,170,255"/><prop k="color_border" v="0,0,0,255"/><prop k="offset" v="0,0"/><prop k="style" v="solid"/><prop k="style_border" v="solid"/><prop k="width_border" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
'<!DOCTYPE renderer><renderer-v2 symbollevels="0" type="singleSymbol"><symbols><symbol outputUnit="MM" alpha="1" type="fill" name="0"><layer pass="******" class="SimpleFill" locked="0"><prop k="color" v="211,211,158,200"/><prop k="color_border" v="0,0,0,255"/><prop k="offset" v="0,0"/><prop k="style" v="solid"/><prop k="style_border" v="solid"/><prop k="width_border" v="0.26"/></layer></symbol></symbols><rotation field=""/><sizescale field=""/></renderer-v2>',
]
# constructor / destructor
###############################
def __init__(self, app):
"""
constructor
- initialize UI elements
- connect UI elements to callback
"""
super(WidgetResult, self).__init__()
self.ui = Ui_widgetResult()
self.ui.setupUi(self)
# create canvas
self.canvas = QgsMapCanvas(self.ui.widget_map)
self.canvas.setGeometry(
0, # x
self.ui.widget_map_menu_l.x()+self.ui.widget_map_menu_l.height(), # y
self.ui.widget_map.width() - 2*UI_PADDING, # width
self.ui.widget_map.width() - 2*UI_PADDING # height
)
self.canvas.setCanvasColor(Qt.white)
self.canvas.enableAntiAliasing(True)
self.canvas.mapRenderer().setProjectionsEnabled(True)
self.canvas.mapRenderer().setDestinationCrs(QgsCoordinateReferenceSystem(4326, QgsCoordinateReferenceSystem.PostgisCrsId))
self.canvas.zoomNextStatusChanged.connect(self.checkRendering)
self.canvas.xyCoordinates.connect(self.currentLocation)
self.registry = QgsMapLayerRegistry.instance()
self.map_layers = [None] * len(self.LAYER_NAMES)
self.map_layer_renderer = [None] * len(self.LAYER_NAMES)
for idx, str_style in enumerate(self.LAYER_STYLES):
rdoc = QDomDocument("renderer")
rdoc.setContent(str_style)
self.map_layer_renderer[idx] = QgsFeatureRendererV2.load(rdoc.firstChild().toElement())
# populate export list
self.ui.cb_export_format.clear()
for export_format in self.EXPORT_FORMATS.keys():
self.ui.cb_export_format.addItem(export_format)
# style object required for QgsRendererV2PropertiesDialog
self.style = QgsStyleV2()
# create the map tools
self.toolPan = QgsMapToolPan(self.canvas)
self.toolZoomIn = QgsMapToolZoom(self.canvas, False) # false = in
self.toolZoomOut = QgsMapToolZoom(self.canvas, True) # true = out
self.toolInfo = QgsMapToolEmitPoint(self.canvas)
self.toolInfo.canvasClicked.connect(self.showInfo)
self.canvas.setMapTool(self.toolPan)
# additional
self.dlgResultDetail = DialogResult()
self.dlgResultDetail.setModal(True)
# set link to application main controller
self.app = app
# reset project
self._project = None
# default export setting
self.export_format = ExportTypes.Shapefile
# connect slots (ui event)
self.ui.btn_zoom_full.clicked.connect(self.mapZoomFull)
self.ui.btn_zoom_in.clicked.connect(self.mapZoomIn)
self.ui.btn_zoom_out.clicked.connect(self.mapZoomOut)
self.ui.btn_stop.clicked.connect(self.stopRendering)
self.ui.btn_zoom_layer.clicked.connect(self.mapZoomLayer)
self.ui.btn_pan.clicked.connect(self.mapPan)
self.ui.btn_theme.clicked.connect(self.mapEditTheme)
self.ui.btn_info.clicked.connect(self.mapIdentify)
self.ui.btn_zoom_to_feature.clicked.connect(self.searchFeature)
self.ui.cb_export_format.currentIndexChanged[str].connect(self.exportFormatChanged)
self.ui.btn_export.clicked.connect(self.exportData)
self.ui.btn_export_select_path.clicked.connect(self.selectExportFile)
@pyqtSlot(QgsPoint)
def currentLocation(self, point):
self.app.updateMapLocation(point.x(),point.y())
#self.canvas.mouseMoveEvent(mouseEvent)
# UI event handling calls (Qt slots)
###############################
@pyqtSlot(QObject)
def resizeEvent(self, event):
""" handle window resize """
# find left coordinate for right side panels
x_right_side = self.width()-self.ui.widget_export.width()-UI_PADDING
# adjust right side panels
self.ui.widget_export.move(x_right_side, self.ui.widget_map.y()+30)
self.ui.widget_dq_test.move(x_right_side, self.ui.widget_export.y()+self.ui.widget_export.height()+UI_PADDING)
# adjust map panel (left side)
self.ui.widget_map.resize(x_right_side-UI_PADDING, self.height()-2*UI_PADDING)
# adjust map canvas within the map panel
map_top = self.ui.widget_map_menu_l.x()+self.ui.widget_map_menu_l.height()+UI_PADDING
self.canvas.resize(
x_right_side-UI_PADDING, # same width as self.ui.widget_map
self.ui.widget_map.height()-map_top-2*UI_PADDING) # height
# adjust map menu
self.ui.widget_map_menu_r.move(
self.ui.widget_map.width()-self.ui.widget_map_menu_r.width(), # right align with map panel
0)
# logo
self.ui.lb_gem_logo.move(self.width()-self.ui.lb_gem_logo.width(), self.ui.lb_gem_logo.y())
@logUICall
@pyqtSlot()
def mapPan(self):
""" event handler for btn_pan - pan map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolPan)
@logUICall
@pyqtSlot()
def mapZoomIn(self):
""" event handler for btn_zoom_in - zoom in on map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolZoomIn)
@logUICall
@pyqtSlot()
def mapZoomOut(self):
""" event handler for btn_zoom_out - zoom out on map """
self.canvas.unsetMapTool(self.toolInfo)
self.canvas.setMapTool(self.toolZoomOut)
@logUICall
@pyqtSlot()
def mapZoomFull(self):
""" event handler for btn_zoom_full - zoom to full map """
self.canvas.zoomToFullExtent()
def checkRendering(self, changed):
self.canvas.setRenderFlag(True)
@logUICall
@pyqtSlot()
def stopRendering(self):
self.canvas.setRenderFlag(False)
@logUICall
@pyqtSlot()
def mapZoomLayer(self):
self.canvas.unsetMapTool(self.toolInfo)
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
self.zoomToLayer(self.map_layers[self.LAYER_NAMES.index(cur_layer_name)])
@logUICall
@pyqtSlot()
def mapEditTheme(self):
""" event handler for btn_edit - identify item on map """
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
# build layer render property Dialog for selected layer
dlg_render = QDialog()
dlg_render.setWindowTitle(get_ui_string('widget.result.renderer.settings'))
dlg_render.setModal(True)
dlg_render.setFixedSize(530, 370)
dlg_render.renderer = QgsRendererV2PropertiesDialog(self.map_layers[cur_layer_idx], self.style, True)
dlg_render.renderer.setParent(dlg_render)
dlg_render.renderer.setGeometry(QRect(10, 10, 510, 325))
dlg_render.buttonBox = QDialogButtonBox(dlg_render)
dlg_render.buttonBox.setGeometry(QRect(10, 335, 510, 25))
dlg_render.buttonBox.setStandardButtons(QDialogButtonBox.Cancel|QDialogButtonBox.Ok)
dlg_render.buttonBox.accepted.connect(dlg_render.accept)
dlg_render.buttonBox.accepted.connect(dlg_render.renderer.onOK)
dlg_render.buttonBox.rejected.connect(dlg_render.reject)
dlg_render.setVisible(True)
# get user input and update renderer
answer = dlg_render.exec_()
if answer == QDialog.Accepted:
self.map_layer_renderer[cur_layer_idx] = None
self.map_layer_renderer[cur_layer_idx] = self.map_layers[cur_layer_idx].rendererV2().clone()
self.canvas.refresh()
dlg_render.destroy()
del dlg_render
except Exception as err:
# thematic is not-critical, allow continue on exception
logUICall.log(str(err), logUICall.WARNING)
@logUICall
@pyqtSlot()
def searchFeature(self):
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
layer = self.map_layers[cur_layer_idx]
fields = []
for fidx in layer.dataProvider().fields():
fields.append(layer.dataProvider().fields()[fidx].name())
dlg_search = DialogSearchFeature(fields)
answer = dlg_search.exec_()
if answer == QDialog.Accepted:
extent = self.findFeatureExtentByAttribute(layer, dlg_search.attribute, dlg_search.value)
if extent is not None:
self.zoomToExtent(extent)
else:
logUICall.log(get_ui_string("widget.result.info.notfound"), logUICall.WARNING)
dlg_search.destroy()
except Exception as err:
# thematic is not-critical, allow continue on exception
logUICall.log(str(err), logUICall.WARNING)
@logUICall
@pyqtSlot()
def mapIdentify(self):
"""
event handler for btn_info
This only enables map querying, method connected to canvasClicked signal does
the actual point-polygon query
"""
self.canvas.setMapTool(self.toolInfo)
@logUICall
@pyqtSlot()
def selectExportFile(self):
"""
event handler for btn_export_select_path
- open save file dialog box to select file name for export
"""
filename = QFileDialog.getSaveFileName(self,
get_ui_string("widget.result.export.file.open"),
".",
self.ui.cb_export_format.currentText())
if not filename.isNull():
self.ui.txt_export_select_path.setText(filename)
@logUICall
@pyqtSlot(str)
def exportFormatChanged(self, selected_val):
"""
event handler for cb_export_format
- update selected file after format change
"""
self.ui.txt_export_select_path.setText("")
self.export_format = self.EXPORT_FORMATS[str(selected_val)]
@logUICall
@pyqtSlot()
def exportData(self):
"""
event handler for btn_export
- do export data
"""
export_path = str(self.ui.txt_export_select_path.text())
if export_path == "":
logUICall.log(get_ui_string("app.error.path.is.null"), logUICall.WARNING)
return
self.app.exportResults(self.export_format, export_path)
@logUICall
@pyqtSlot(QPoint, QObject)
def showInfo(self, point, mouseButton):
"""
event handler for toolInfo
@see QGIS tutorial for detail
point-polygon search on currently selected layer
"""
cur_layer_name = self.ui.cb_layer_selector.currentText()
if cur_layer_name.isEmpty():
return
try:
cur_layer_idx = self.LAYER_NAMES.index(cur_layer_name)
cur_layer = self.map_layers[cur_layer_idx]
# if layer is not in same projection as map canvas
# need to project query point
if cur_layer.crs() != self.canvas.mapRenderer().destinationCrs():
transform = QgsCoordinateTransform(self.canvas.mapRenderer().destinationCrs(), cur_layer.crs())
point = transform.transform(point)
# do query
provider = cur_layer.dataProvider()
provider.rewind()
feature = QgsFeature()
colonIndexes = provider.attributeIndexes()
# search using point as center of rectangle polygon
search_buffer_x = self.canvas.extent().width() * self.SEARCH_BUFFER / self.canvas.width()
search_buffer_y = self.canvas.extent().height() * self.SEARCH_BUFFER / self.canvas.height()
provider.select(colonIndexes,
QgsRectangle(point.x()-search_buffer_x,
point.y()-search_buffer_y,
point.x()+search_buffer_x,
point.y()+search_buffer_y),
True)
# get selected and display in result detail dialog box
selected = []
while provider.nextFeature(feature):
# for polygons, only show geometry containing query point
if cur_layer.geometryType() == QGis.Polygon:
if feature.geometry() is not None and not feature.geometry().contains (point):
continue
selected.append(feature.attributeMap())
if len(selected)>0:
# display result if exists
if cur_layer_idx == self.EXPOSURE:
self.dlgResultDetail.showExposureData(provider.fields(), selected)
else:
self.dlgResultDetail.showInfoData(provider.fields(), selected)
self.dlgResultDetail.exec_()
else:
logUICall.log(get_ui_string("widget.result.info.notfound"), logUICall.WARNING)
except Exception as err:
# point-in-polygon search is not critical, continue on error
logUICall.log(str(err), logUICall.WARNING)
# public methods
###############################
def set_project(self, project):
''' set project to preview. force refresh view on set'''
self._project = project
if project is None:
return
self.refreshView()
self.canvas.zoomToFullExtent()
logUICall.log("Project preview initialized sucessfully", logUICall.INFO)
def get_project(self):
return self._project
# property access to project
project = property(get_project, set_project)
def refreshView(self):
''' reload all QGIS layers in currently defined project '''
if self._project is None:
return
# display layers if exists
if self._project.fp_file is not None and exists(self._project.fp_file):
if self.map_layers[self.FOOTPRINT] is None or self.map_layers[self.FOOTPRINT].source() != self._project.fp_file:
self.showDataLayer(self.FOOTPRINT, load_shapefile(self._project.fp_file, 'footprint'))
else:
self.removeDataLayer(self.FOOTPRINT)
if self._project.zone_file is not None and exists(self._project.zone_file):
if self.map_layers[self.ZONES] is None or self.map_layers[self.ZONES].source() != self._project.zone_file:
self.showDataLayer(self.ZONES, load_shapefile(self._project.zone_file, 'zones'))
else:
self.removeDataLayer(self.ZONES)
if self._project.survey_file is not None and exists(self._project.survey_file):
if getattr(self._project, 'survey', None) is None:
self._project.load_survey()
self.showDataLayer(self.SURVEY, self._project.survey)
else:
self.removeDataLayer(self.SURVEY)
if self._project.popgrid_file is not None and exists(self._project.popgrid_file):
if getattr(self._project, 'popgrid', None) is None:
self.showDataLayer(self.POP_GRID, load_shapefile(self._project.popgrid_file, 'popgrid'))
else:
self.removeDataLayer(self.POP_GRID)
# set export options
for idx, export_format in enumerate(self.EXPORT_FORMATS.values()):
if export_format == self._project.export_type:
self.ui.cb_export_format.setCurrentIndex(idx)
self.ui.txt_export_select_path.setText(self._project.export_path)
# refreshResult contains refresh call to update all layers currently loaded
self.refreshResult()
def refreshResult(self):
''' reload result QGIS layer and data quality reports in currently defined project '''
exposure = getattr(self._project, 'exposure', None)
if exposure is not None:
self.showDataLayer(self.EXPOSURE, exposure)
has_result = True
else:
self.removeDataLayer(self.EXPOSURE)
has_result = False
if has_result:
# build quality report
report_lines = []
if self._project.operator_options.has_key("proc.extrapolation"):
proc_option = self._project.operator_options["proc.extrapolation"]
if proc_option == ExtrapolateOptions.RandomWalk:
proc_method = get_ui_string("widget.result.dq.method", get_ui_string("dlg.options.ep.random"))
elif proc_option == ExtrapolateOptions.Fraction:
proc_method = get_ui_string("widget.result.dq.method", get_ui_string("dlg.options.ep.fraction"))
elif proc_option == ExtrapolateOptions.FractionRounded:
proc_method = get_ui_string("widget.result.dq.method", get_ui_string("dlg.options.ep.fraction.rounded"))
else:
proc_method = get_ui_string("widget.result.dq.method", get_ui_string("dlg.options.ep.random"))
report_lines.append(proc_method)
report_lines.append('')
# total tests
report_lines.append(get_ui_string('widget.result.dq.total_tests', len(self._project.quality_reports.keys())))
report_lines.append('')
# detail for each test
for key, report in self._project.quality_reports.iteritems():
report_lines.append(get_ui_string('widget.result.dq.tests.%s' % key))
for title, value in report.iteritems():
report_lines.append( get_ui_string('widget.result.dq.tests.%s.%s' % (key, title), value) )
report_lines.append('')
self.ui.txt_dq_test_details.setText("\n".join(report_lines))
self.ui.btn_export.setEnabled(has_result)
self.ui.widget_dq_test.setVisible(has_result)
self.ui.txt_export_select_path.setEnabled(has_result)
self.ui.btn_export_select_path.setEnabled(has_result)
self.ui.cb_export_format.setEnabled(has_result)
# this call refresh all layers currently loaded
self.refreshLayers()
@logUICall
def closeResult(self):
''' remove from map result QGIS layer and reset quality report display '''
self.canvas.setLayerSet([]) # call necessary to remove all layers to avoid disconnect errors
self.removeDataLayer(self.EXPOSURE)
self.refreshLayers()
self.ui.txt_dq_test_details.setText("")
@logUICall
def closeAll(self):
''' remove from map all QGIS layer in currently defined project '''
self.ui.cb_layer_selector.clear()
try:
self.canvas.setLayerSet([]) # call necessary to remove all layers to avoid disconnect errors
for i in range(5):
self.removeDataLayer(i)
self.ui.txt_dq_test_details.setText("")
self.refreshLayers()
except:
pass # exception will is thrown when registry is empty
# internal helper methods
###############################
def showDataLayer(self, index, layer):
""" display given QGIS layer on map """
try:
# add to QGIS registry and refresh view
if self.map_layers[index] is not None:
self.removeDataLayer(index)
self.map_layers[index] = layer
self.registry.addMapLayer(layer)
layer.setRendererV2(self.map_layer_renderer[index])
except:
pass
def removeDataLayer(self, index):
""" remove from map the layer identified with index """
layer = self.map_layers[index]
self.map_layers[index] = None
if layer is not None:
try:
self.registry.removeMapLayer(layer.getLayerID(), False)
del layer
except:
pass # do nothing if it fails. probably already deleted
def findFeatureExtentByAttribute(self, layer, field, value):
"""
find extent of all objects in QGIS layer matching condition "field=value"
"""
fidx = layer_field_index(layer, field)
if fidx == -1:
return None
xmin, xmax, ymin, ymax = 180, -180, 90, -90
extent = QgsRectangle(xmin, ymin, xmax, ymax)
need_transform = layer.crs() != self.canvas.mapRenderer().destinationCrs()
if need_transform:
transform = QgsCoordinateTransform(layer.crs(), self.canvas.mapRenderer().destinationCrs())
for feature in layer_features(layer):
if str(value) == feature.attributeMap()[fidx].toString():
f_extent = feature.geometry().boundingBox()
if need_transform:
f_extent = transform.transform(f_extent)
xmin = min(f_extent.xMinimum(), xmin)
xmax = max(f_extent.xMaximum(), xmax)
ymin = min(f_extent.yMinimum(), ymin)
ymax = max(f_extent.yMaximum(), ymax)
extent.set (xmin, ymin, xmax, ymax)
return extent
def zoomToLayer(self, layer):
""" zoom canvas to extent of given layer """
try:
lyr_extent = layer.extent()
if layer.crs() != self.canvas.mapRenderer().destinationCrs():
transform = QgsCoordinateTransform(layer.crs(), self.canvas.mapRenderer().destinationCrs())
lyr_extent = transform.transform(lyr_extent)
self.zoomToExtent(lyr_extent)
except:
pass
def zoomToExtent(self, extent):
""" zoom canvas to given extent """
try:
self.canvas.setExtent(extent)
self.canvas.zoomByFactor(1.1)
except:
self.mapZoomFull()
def refreshLayers(self):
""" refresh all layers in canvas """
# add each layer according to order
layerSet = []
self.ui.cb_layer_selector.clear()
for idx, lyr in enumerate(self.map_layers):
if lyr is not None:
layerSet.append(QgsMapCanvasLayer(lyr))
self.ui.cb_layer_selector.addItem(self.LAYER_NAMES[idx])
if len(layerSet) > 0:
