def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(
QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
locale = QSettings().value("locale/userLocale")
self.myLocale = locale[0:2]
if QFileInfo(self.syn_atlas_plugin_dir).exists():
localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
if QFileInfo(localePath).exists():
self.translator = QTranslator()
self.translator.load(localePath)
if qVersion() > '4.3.3':
QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
#locale = QSettings().value("locale/userLocale").toString()
#self.myLocale = locale[0:2]
#if QFileInfo(self.syn_atlas_plugin_dir).exists():
# localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
#if QFileInfo(localePath).exists():
# self.translator = QTranslator()
# self.translator.load(localePath)
# if qVersion() > '4.3.3':
# QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
class SynoptiquesAtlas:
def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(
QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
locale = QSettings().value("locale/userLocale")
self.myLocale = locale[0:2]
if QFileInfo(self.syn_atlas_plugin_dir).exists():
localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
if QFileInfo(localePath).exists():
self.translator = QTranslator()
self.translator.load(localePath)
if qVersion() > '4.3.3':
QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
def initGui(self):
# Create action that will start plugin configuration
self.action = QAction(QIcon(":/plugins/synoptiquesatlas/icon.png"), \
QCoreApplication.translate("synoptiquesatlas", "&Grids for Atlas"), self.iface.mainWindow())
# Create action for about dialog
self.action_about = QAction("A&bout...", self.iface.mainWindow())
# Create action for help dialog
self.action_help = QAction(
QIcon(":/plugins/synoptiquesatlas/about.png"),
QCoreApplication.translate("synoptiquesatlas", "&Help..."),
self.iface.mainWindow())
# connect the action to the run method
QObject.connect(self.action, SIGNAL("triggered()"), self.run)
# connect about action to about dialog
QObject.connect(self.action_about, SIGNAL("triggered()"),
self.showAbout)
# connect help action to help dialog
QObject.connect(self.action_help, SIGNAL("triggered()"), self.showHelp)
# connect signals
QObject.connect(self.dlg.ui.btnCreerSyno, SIGNAL("clicked()"),
self.creerSyno)
# composer changed, update maps
QObject.connect(self.dlg.ui.cbbComp,
SIGNAL('currentIndexChanged(int)'), self.updateMaps)
# refresh inLayer box
QObject.connect(self.dlg.ui.cbbInLayer,
SIGNAL('currentIndexChanged(int)'), self.onLayerChange)
# browse button
QObject.connect(self.dlg.ui.btnBrowse, SIGNAL('clicked()'),
self.updateOutputDir)
# refresh template button
QObject.connect(self.dlg.ui.btnUpdate, SIGNAL('clicked()'),
self.updateComposers)
# show composer
QObject.connect(self.dlg.ui.btnShow, SIGNAL('clicked()'),
self.showComposer)
# show about dialog
QObject.connect(self.dlg.ui.aboutButton, SIGNAL('clicked()'),
self.showAbout)
# show help dialog
QObject.connect(self.dlg.ui.helpButton, SIGNAL('clicked()'),
self.showHelp)
# Add toolbar button and menu item
self.iface.addToolBarIcon(self.action)
self.iface.addPluginToMenu("&Grids for Atlas", self.action)
# Add about menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_about)
# add help menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_help)
def updateBoxes(self):
self.updateLayers()
self.updateComposers()
self.updateMaps()
def updateLayers(self):
self.dlg.ui.cbbInLayer.clear()
for layer in self.iface.mapCanvas().layers():
self.dlg.ui.cbbInLayer.addItem(layer.name(), layer)
# (c) Carson Farmer / fTools
def getVectorLayerByName(self, myName):
layermap = QgsMapLayerRegistry.instance().mapLayers()
for name, layer in layermap.iteritems():
if layer.type() == QgsMapLayer.VectorLayer and layer.name(
) == myName:
if layer.isValid():
return layer
else:
return None
def onLayerChange(self):
self.cLayer = self.getVectorLayerByName(
self.dlg.ui.cbbInLayer.currentText())
def updateComposers(self):
self.dlg.ui.cbbComp.clear()
compos = self.iface.activeComposers()
for cv in compos:
self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), cv)
self.composer = self.dlg.ui.cbbComp.itemData(
self.dlg.ui.cbbComp.currentIndex())
def updateMaps(self):
self.dlg.ui.cbbMap.clear()
if self.dlg.ui.cbbComp.currentIndex() != -1:
self.composer = self.dlg.ui.cbbComp.itemData(
self.dlg.ui.cbbComp.currentIndex())
for item in self.composer.composition().items():
if item.type() == QgsComposerItem.ComposerMap:
self.dlg.ui.cbbMap.addItem(
QCoreApplication.translate("synoptiquesatlas", "Map ")
+ "%s" % item.id(), item.id)
def showComposer(self):
self.composer.composerWindow().show()
self.composer.composerWindow().activate()
def updateOutputDir(self):
self.dlg.ui.lieOutDir.setText(QFileDialog.getExistingDirectory(self.dlg, \
QCoreApplication.translate("synoptiquesatlas", "Choose output directory")))
def unload(self):
# Remove the plugin menu item and icon
self.iface.removePluginMenu("&Grids for Atlas", self.action)
self.iface.removeToolBarIcon(self.action)
# Remove about menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_about)
# Remove help menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_help)
def creerSyno(self):
if os.path.exists(self.dlg.ui.lieOutDir.text()):
self.gridSynopt = self.dlg.ui.chkGrille.isChecked()
self.dynSynopt = self.dlg.ui.chkDyn.isChecked()
if self.gridSynopt or self.dynSynopt:
compos = self.iface.activeComposers()
if compos:
cview = compos[self.dlg.ui.cbbComp.currentIndex()]
cmap = self.dlg.ui.cbbMap.itemData(
self.dlg.ui.cbbMap.currentIndex())
self.mapItem = cview.composition().getComposerMapById(
cmap())
self.ladderHeight = self.mapItem.extent().height()
self.ladderWidth = self.mapItem.extent().width()
if self.cLayer:
if self.cLayer.type() == 0:
self.crs = self.cLayer.crs()
self.URIcrs = "crs=" + self.crs.toWkt()
self.doBuffer()
self.extent = self.bcLayer.extent()
self.orig_ladders_list = []
self.sLayer = self.addSynoFeatures(
self.orig_ladders_list)
self.synopt_shape_path = self.dlg.ui.lieOutDir.text(
) + QCoreApplication.translate(
"synoptiquesatlas", "/classic_grid.shp")
self.createPhysLayerFromList(
self.synopt_shape_path, self.orig_ladders_list)
if self.gridSynopt:
self.sLayer = self.loadQgsVectorLayer(self.synopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","classic grid"))
else:
self.sLayer = QgsVectorLayer(
self.synopt_shape_path,
QCoreApplication.translate(
"synoptiquesatlas", "classic grid"),
"ogr")
# TODO
# Manage symbology
#if not hasattr(self.sLayer, 'isUsingRendererV2'):
# QMessageBox.information(self.iface.mainWindow(),"Info", \
# "La symbologie ne peut etre affichee vous utilisez une version ancienne de QGIS")
#elif layer.isUsingRendererV2():
# new symbology - subclass of QgsFeatureRendererV2 class
# rendererV2 = layer.rendererV2()
# Grid layer was created, access to the second stage
if self.dynSynopt:
self.finalSynopt_shape_path = self.dlg.ui.lieOutDir.text(
) + QCoreApplication.translate(
"synoptiquesatlas", "/dyn_grid.shp")
self.intersect(self.bcLayer, self.sLayer)
self.createIntersectionLayer()
self.new_ladders_list = []
self.sLayer2 = self.centroidsToNewSyno(
self.new_ladders_list)
self.parseSyno()
self.final_ladders_list = []
self.sLayer3 = self.centroidsToNewSyno(
self.final_ladders_list)
self.createPhysLayerFromList(
self.finalSynopt_shape_path,
self.final_ladders_list)
self.sLayer3 = self.loadQgsVectorLayer(self.finalSynopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","dynamic grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Coverage layer is not vector type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a coverage layer to generate grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a print composer, if none is active you have to create it"))
else:
QMessageBox.information(
self.iface.mainWindow(), "Info",
QCoreApplication.translate("synoptiquesatlas",
"Choose a grid type"))
else:
QMessageBox.information(
self.iface.mainWindow(), "Info",
QCoreApplication.translate(
"synoptiquesatlas",
"Please enter an existant directory name"))
def doBuffer(self):
maxDim = max(self.ladderHeight, self.ladderWidth)
ratio = 1000. / 2970
bufferLength = maxDim * ratio
self.bcLayer = QgsVectorLayer("Polygon?" + self.URIcrs, "buffer_layer",
"memory")
pr = self.bcLayer.dataProvider()
pr.addAttributes([QgsField("ID_BUFFER", QVariant.Int)])
provider_perimetre = self.cLayer.dataProvider()
iter = provider_perimetre.getFeatures()
i = 0
for feature in iter:
fet = QgsFeature()
fet.setGeometry(feature.geometry().buffer(bufferLength, 50))
fet.setFeatureId(i)
pr.addFeatures([fet])
i = i + 1
self.bcLayer.updateExtents()
def addSynoFeatures(self, ladder_list):
layer = QgsVectorLayer("Polygon?" + self.URIcrs, "grid_layer",
"memory")
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int)])
# Initial settings
provider_perimetre = self.cLayer.dataProvider()
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
yMax = self.extent.yMaximum()
yMin = yMax - ladderHeight
widthSum = 0
heightSum = 0
# Build columns
while heightSum < self.extent.height():
widthSum = 0
xMin = self.extent.xMinimum()
xMax = xMin + ladderWidth
# Build lines
while widthSum < self.extent.width():
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
request = QgsFeatureRequest()
request.setFilterRect(ladder)
for f in provider_perimetre.getFeatures(request):
ladder_id = ladder_id + 1
# Add ladder to layer
fet = QgsFeature()
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet.setAttributes([ladder_id])
pr.addFeatures([fet])
ladder_list.append(fet)
# Settings for next ladder
xMin = xMin + ladderWidth
xMax = xMax + ladderWidth
widthSum = widthSum + ladderWidth
heightSum = heightSum + ladderHeight
yMin = yMin - ladderHeight
yMax = yMax - ladderHeight
layer.updateExtents()
return layer
def createPhysLayerFromList(self, shapePath, fetList):
# Create shapefile writer
fields = QgsFields()
fields.append(QgsField("ID_MAILLE", QVariant.Int))
self.writer = QgsVectorFileWriter(shapePath, "CP1250", fields, \
QGis.WKBPolygon, self.cLayer.crs(), "ESRI Shapefile")
if self.writer.hasError() != QgsVectorFileWriter.NoError:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + shapePath + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
# Add features
for fet in fetList:
self.writer.addFeature(fet)
# Stop writing
del self.writer
def createGridLayer(self):
# Create shapefile writer
fields = {0: QgsField("ID_MAILLE", QVariant.Int)}
self.writer = QgsVectorFileWriter(self.finalSynopt_shape_path, "CP1250", fields, \
QGis.WKBPolygon, self.cLayer.crs(), "ESRI Shapefile")
if self.writer.hasError() != QgsVectorFileWriter.NoError:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + self.finalSynopt_shape_path + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
# Add features
for fet in self.orig_ladders_list:
self.writer.addFeature(fet)
# Stop writing
del self.writer
def intersect(self, perimetre, calepinage):
# Intersect between coverage and grid
self.centroid_list = []
self.splitted_fet_list = []
i = 0
if perimetre and calepinage:
provider_perimetre = perimetre.dataProvider()
provider_calepinage = calepinage.dataProvider()
# create the select statement
request = QgsFeatureRequest()
request.setFilterRect(self.extent)
#provider_perimetre.select([])
#provider_calepinage.select([],self.extent)
# the arguments mean no attributes returned, and do a bbox filter with our buffered
# rectangle to limit the amount of features
for feat_perimetre in provider_perimetre.getFeatures():
# if the feat geom returned from the selection intersects our point then put it in a list
for feat_calepinage in provider_calepinage.getFeatures(
request):
# if the feat geom returned from the selection intersects our point then put it in a list
if feat_perimetre.geometry().intersects(
feat_calepinage.geometry()):
a = feat_perimetre.geometry().intersection(
feat_calepinage.geometry())
self.centroid_list.append(a.centroid())
fet = QgsFeature()
fet.setGeometry(a)
fet.setAttributes([i])
self.splitted_fet_list.append(fet)
i = i + 1
def createIntersectionLayer(self):
self.interLayer = QgsVectorLayer("Polygon?" + self.URIcrs,
"inter_layer", "memory")
pr = self.interLayer.dataProvider()
pr.addAttributes([QgsField("ID_INTER", QVariant.Int)])
# Add features
for fet in self.splitted_fet_list:
pr.addFeatures([fet])
self.interLayer.updateExtents()
def centroidsToNewSyno(self, ladder_list):
layer = QgsVectorLayer("Polygon?" + self.URIcrs, "layer", "memory")
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int)])
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
for centr in self.centroid_list:
pt = centr.asPoint()
xMin = pt.x() - ladderWidth / 2.
xMax = pt.x() + ladderWidth / 2.
yMin = pt.y() - ladderHeight / 2.
yMax = pt.y() + ladderHeight / 2.
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
# Add ladder to layer
fet = QgsFeature()
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet.setAttributes([ladder_id])
ladder_list.append(fet)
pr.addFeatures([fet])
ladder_id = ladder_id + 1
layer.updateExtents()
return layer
def loadQgsVectorLayer(self, shapePath, layerName):
layerToLoad = QgsVectorLayer(shapePath, layerName, "ogr")
if not layerToLoad.isValid():
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error while loading layer ") + layerName + " !")
else:
QgsMapLayerRegistry.instance().addMapLayer(layerToLoad)
return layerToLoad
def parseSyno(self):
i = 0
while i <= len(self.new_ladders_list) - 1:
fet = self.splitted_fet_list[i]
overlapped = False
j = 0
while j <= i - 1 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
j = i + 1
while j <= len(self.new_ladders_list) - 2 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
if overlapped:
self.splitted_fet_list.pop(i)
self.new_ladders_list.pop(i)
self.centroid_list.pop(i)
else:
i = i + 1
def showHelp(self):
"""Show help dialog box"""
# Create a dialog and setup UI
hdialog = QDialog()
hdialog.ui = Ui_help_window()
hdialog.ui.setupUi(hdialog)
# load help file
if self.myLocale == 'fr':
hdialog.ui.webView.setUrl(
QUrl(self.syn_atlas_plugin_dir + '/help/syn_atlas.html'))
else:
hdialog.ui.webView.setUrl(
QUrl(self.syn_atlas_plugin_dir + '/help/syn_atlas_en.html'))
hdialog.show()
result = hdialog.exec_()
del hdialog
def showAbout(self):
"""Show Synoptiques Atlas about dialog box"""
adialog = QDialog()
adialog.ui = Ui_About_window()
adialog.ui.setupUi(adialog)
adialog.show()
result = adialog.exec_()
del adialog
# run method that performs all the real work
def run(self):
self.updateBoxes()
# show the dialog
self.dlg.show()
result = self.dlg.exec_()
# See if OK was pressed
if result == 1:
# do something useful (delete the line containing pass and
# substitute with your code
pass
class SynoptiquesAtlas:
def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
#locale = QSettings().value("locale/userLocale").toString()
#self.myLocale = locale[0:2]
#if QFileInfo(self.syn_atlas_plugin_dir).exists():
# localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
#if QFileInfo(localePath).exists():
# self.translator = QTranslator()
# self.translator.load(localePath)
# if qVersion() > '4.3.3':
# QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
def initGui(self):
# Create action that will start plugin configuration
self.action = QAction(QIcon(":/plugins/synoptiquesatlas/icon.png"), \
QCoreApplication.translate("synoptiquesatlas", "&Grids for Atlas"), self.iface.mainWindow())
# Create action for about dialog
self.action_about = QAction("A&bout...", self.iface.mainWindow())
# Create action for help dialog
self.action_help = QAction(QIcon(":/plugins/synoptiquesatlas/about.png"), QCoreApplication.translate("synoptiquesatlas", "&Help..."), self.iface.mainWindow())
# connect the action to the run method
QObject.connect(self.action, SIGNAL("triggered()"), self.run)
# connect about action to about dialog
QObject.connect(self.action_about, SIGNAL("triggered()"), self.showAbout)
# connect help action to help dialog
QObject.connect(self.action_help, SIGNAL("triggered()"), self.showHelp)
# connect signals
QObject.connect(self.dlg.ui.btnCreerSyno, SIGNAL("clicked()"), self.creerSyno)
# composer changed, update maps
QObject.connect(self.dlg.ui.cbbComp, SIGNAL('currentIndexChanged(int)'), self.updateMaps)
# refresh inLayer box
QObject.connect(self.dlg.ui.cbbInLayer, SIGNAL('currentIndexChanged(int)'), self.onLayerChange)
# browse button
QObject.connect(self.dlg.ui.btnBrowse, SIGNAL('clicked()'), self.updateOutputDir)
# refresh template button
QObject.connect(self.dlg.ui.btnUpdate, SIGNAL('clicked()'), self.updateComposers)
# show composer
QObject.connect(self.dlg.ui.btnShow, SIGNAL('clicked()'), self.showComposer)
# show about dialog
QObject.connect(self.dlg.ui.aboutButton, SIGNAL('clicked()'), self.showAbout)
# show help dialog
QObject.connect(self.dlg.ui.helpButton, SIGNAL('clicked()'), self.showHelp)
# Add toolbar button and menu item
self.iface.addToolBarIcon(self.action)
self.iface.addPluginToMenu("&Grids for Atlas", self.action)
# Add about menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_about)
# add help menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_help)
def updateBoxes(self):
self.updateLayers()
self.updateComposers()
self.updateMaps()
def updateLayers(self):
self.dlg.ui.cbbInLayer.clear()
for layer in self.iface.mapCanvas().layers():
#self.dlg.ui.cbbInLayer.addItem(layer.name(), QVariant(layer))
self.dlg.ui.cbbInLayer.addItem(layer.name(), layer)
# (c) Carson Farmer / fTools
def getVectorLayerByName(self,myName):
layermap = QgsMapLayerRegistry.instance().mapLayers()
for name, layer in layermap.iteritems():
if layer.type() == QgsMapLayer.VectorLayer and layer.name() == myName:
if layer.isValid():
return layer
else:
return None
def onLayerChange(self):
self.cLayer = self.getVectorLayerByName(self.dlg.ui.cbbInLayer.currentText())
def updateComposers(self):
self.dlg.ui.cbbComp.clear()
compos = self.iface.activeComposers()
for cv in compos:
#self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), QVariant(cv))
self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), cv)
self.composer = self.dlg.ui.cbbComp.itemData(self.dlg.ui.cbbComp.currentIndex())#.toPyObject()
def updateMaps(self):
self.dlg.ui.cbbMap.clear()
if self.dlg.ui.cbbComp.currentIndex() != -1:
self.composer = self.dlg.ui.cbbComp.itemData(self.dlg.ui.cbbComp.currentIndex())#.toPyObject()
for item in self.composer.composition().items():
if item.type() == QgsComposerItem.ComposerMap:
self.dlg.ui.cbbMap.addItem(QCoreApplication.translate("synoptiquesatlas", "Map ") + "%s"% item.id(), item.id)
def showComposer(self):
self.composer.composerWindow().show()
self.composer.composerWindow().activate()
def updateOutputDir(self):
self.dlg.ui.lieOutDir.setText(QFileDialog.getExistingDirectory(self.dlg, \
QCoreApplication.translate("synoptiquesatlas", "Choose output directory")))
def unload(self):
# Remove the plugin menu item and icon
self.iface.removePluginMenu("&Grids for Atlas",self.action)
self.iface.removeToolBarIcon(self.action)
# Remove about menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_about)
# Remove help menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_help)
def creerSyno(self):
if os.path.exists(self.dlg.ui.lieOutDir.text()):
self.gridSynopt = self.dlg.ui.chkGrille.isChecked()
self.dynSynopt = self.dlg.ui.chkDyn.isChecked()
if self.gridSynopt or self.dynSynopt:
compos = self.iface.activeComposers()
if compos:
cview = compos[self.dlg.ui.cbbComp.currentIndex()]
cmap = self.dlg.ui.cbbMap.itemData(self.dlg.ui.cbbMap.currentIndex())
if cmap:
self.mapItem = cview.composition().getComposerMapById(cmap())
self.ladderHeight = self.mapItem.extent().height()
self.ladderWidth = self.mapItem.extent().width()
self.ladderOvrlpPercent = float(self.dlg.ui.overlapInp.text())
if self.ladderOvrlpPercent < 100 and self.ladderOvrlpPercent >= 0:
self.overlapW = self.ladderWidth * self.ladderOvrlpPercent / 100;
self.overlapH = self.ladderHeight * self.ladderOvrlpPercent / 100;
self.ladderWidth = self.ladderWidth - self.overlapW * 2.;
self.ladderHeight = self.ladderHeight - self.overlapH * 2.;
if self.cLayer:
if self.cLayer.type() == 0:
self.crs = self.cLayer.crs()
self.URIcrs = "crs=" + self.crs.authid()
self.doBuffer()
#next 2 lines because of bug
#http://gis.stackexchange.com/questions/87936/problem-creating-point-shapefiles-programmatically-using-python-in-qgis-2-2
#look at "and if we examine the extents:"
self.bcLayer.selectAll()
self.extent = self.bcLayer.boundingBoxOfSelected()
self.sLayer = self.addSynoFeatures()
self.fill_references(self.sLayer)
self.synopt_shape_path = self.dlg.ui.lieOutDir.text() + QCoreApplication.translate("synoptiquesatlas","/classic_grid.shp")
self.createPhysLayerFromList(self.synopt_shape_path, self.sLayer)
if self.gridSynopt:
self.sLayer = self.loadQgsVectorLayer(self.synopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","classic grid"))
else:
self.sLayer = QgsVectorLayer(self.synopt_shape_path, QCoreApplication.translate("synoptiquesatlas","classic grid"), "ogr")
# TODO
# Manage symbology
#if not hasattr(self.sLayer, 'isUsingRendererV2'):
# QMessageBox.information(self.iface.mainWindow(),"Info", \
# "La symbologie ne peut etre affichee vous utilisez une version ancienne de QGIS")
#elif layer.isUsingRendererV2():
# new symbology - subclass of QgsFeatureRendererV2 class
# rendererV2 = layer.rendererV2()
# Grid layer was created, access to the second stage
if self.dynSynopt:
self.finalSynopt_shape_path = self.dlg.ui.lieOutDir.text() + QCoreApplication.translate("synoptiquesatlas","/dyn_grid.shp")
self.intersect(self.bcLayer,self.sLayer)
self.createIntersectionLayer()
self.new_ladders_list = []
self.sLayer2 = self.centroidsToNewSyno(self.new_ladders_list)
self.parseSyno()
self.final_ladders_list = []
self.sLayer3 = self.centroidsToNewSyno(self.final_ladders_list)
self.fill_references(self.sLayer3)
self.createPhysLayerFromList(self.finalSynopt_shape_path, self.sLayer3)
self.sLayer3 = self.loadQgsVectorLayer(self.finalSynopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","dynamic grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Coverage layer is not vector type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a coverage layer to generate grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Overlap % must bee between 0 and 100"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","There is no map object for print composer selected"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a print composer, if none is active you have to create it"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", QCoreApplication.translate("synoptiquesatlas","Choose a grid type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", QCoreApplication.translate("synoptiquesatlas","Please enter an existant directory name"))
def doBuffer(self):
maxDim = max(self.ladderHeight,self.ladderWidth)
ratio = 1000./2970
bufferLength = maxDim * ratio
self.bcLayer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "buffer_layer", "memory")
pr = self.bcLayer.dataProvider()
pr.addAttributes([QgsField("ID_BUFFER", QVariant.Int)])
i = 0
for feature in self.cLayer.dataProvider().getFeatures():
fet = QgsFeature()
bGeom = feature.geometry().buffer(bufferLength,2)
fet.setGeometry(bGeom)
fet.setFeatureId(i)
pr.addFeatures([fet])
i = i + 1
self.bcLayer.commitChanges()
self.bcLayer.updateExtents()
def addSynoFeatures(self):
layer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "grid_layer", "memory")
#layer.setCrs(self.crs)
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int), QgsField("row", QVariant.Int), QgsField("col", QVariant.Int)])
layer.updateFields()
# Initial settings
provider_perimetre = self.cLayer.dataProvider()
#feat_perimetre = QgsFeature()
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
yMax = self.extent.yMaximum()
yMin = yMax - ladderHeight
widthSum = 0
heightSum = 0
row = 0
# Build columns
while heightSum < self.extent.height():
widthSum = 0
col = 0
xMin = self.extent.xMinimum()
xMax = xMin + ladderWidth
# Build lines
while widthSum < self.extent.width():
# Create geometry
ladder = QgsRectangle(xMin - self.overlapW, yMin - self.overlapH, xMax + self.overlapW, yMax + self.overlapH)
request=QgsFeatureRequest()
request.setFilterRect(ladder)
for f in provider_perimetre.getFeatures(request):
ladder_id = ladder_id + 1
# Add ladder to layer
fet = QgsFeature()
fet.setAttributes([ladder_id, row, col])
fet.setGeometry(QgsGeometry.fromRect(ladder))
pr.addFeatures([fet])
#ladder_list.append(fet)
# Settings for next ladder
xMin = xMin + ladderWidth
xMax = xMax + ladderWidth
widthSum = widthSum + ladderWidth
col = col + 1
heightSum = heightSum + ladderHeight
yMin = yMin - ladderHeight
yMax = yMax - ladderHeight
row = row + 1
layer.updateExtents()
return layer
def fill_references(self, layer):
pr = layer.dataProvider()
pr.addAttributes([QgsField("above", QVariant.Int), QgsField("below", QVariant.Int),
QgsField("left", QVariant.Int), QgsField("right", QVariant.Int),
QgsField("aboveleft", QVariant.Int), QgsField("aboveright", QVariant.Int),
QgsField("belowleft", QVariant.Int), QgsField("belowright", QVariant.Int)])
layer.updateFields()
layer.startEditing()
for feature in layer.getFeatures():
neighbours = self.get_neighbour_features(feature, layer)
positions = self.get_related_positions(feature, neighbours)
for pos, f in positions.iteritems():
if not feature[pos]:
feature[pos] = f['ID_MAILLE']
layer.updateFeature(feature)
layer.commitChanges()
def get_neighbour_features(self, feature, layer):
dp = layer.dataProvider()
request = QgsFeatureRequest()
request.setFilterRect(feature.geometry().buffer(self.ladderWidth / 100.,1).boundingBox())
r = dp.getFeatures(request)
return [f for f in r if f['ID_MAILLE'] != feature['ID_MAILLE']]
def get_related_positions(self, base, neighbours):
base_centroid = base.geometry().centroid().asPoint()
positions = {}
for n in neighbours:
centroid = n.geometry().centroid().asPoint()
dx = math.fabs(centroid.x() - base_centroid.x())
dy = math.fabs(centroid.y() - base_centroid.y())
horizontal = dx / self.ladderWidth > dy / self.ladderHeight
position = ''
if horizontal:
position = 'left' if centroid.x() < base_centroid.x() else 'right'
if dy > self.ladderHeight * 0.6:
position = ('above' if centroid.y() > base_centroid.y() else 'below') + position
else:
position = 'above' if centroid.y() > base_centroid.y() else 'below'
if dx > self.ladderWidth * 0.6:
position = position + ('left' if centroid.x() < base_centroid.x() else 'right')
if position:
#curent position already occupied
if position in positions:
curent = positions[position]
c_centroid = curent.geometry().centroid().asPoint()
dx2 = math.fabs(base_centroid.x() - c_centroid.x())
dy2 = math.fabs(base_centroid.y() - c_centroid.y())
if position is 'above' or position is 'below':
#our new feature is closer to center of base feature
if dx2 > dx:
positions[position] = n
positions[position + ('right' if c_centroid.x() > base_centroid.x() else 'left')] = curent
#old feature is close to center of base feature
else:
positions[position + ('right' if centroid.x() > base_centroid.x() else 'left')] = n
elif position is 'left' or position is 'right':
#our new feature is closer to center of base feature
if dy2 > dy:
positions[position] = n
positions[('above' if c_centroid.y() > base_centroid.y() else 'below') + position] = curent
#old feature is close to center of base feature
else:
positions[('above' if centroid.y() > base_centroid.y() else 'below') + position] = n
#position is free, just add our feature
else:
positions[position] = n
return positions
def createPhysLayerFromList(self, shapePath, layer):
# Wite to file
error = QgsVectorFileWriter.writeAsVectorFormat(layer, shapePath, \
"CP1250", None, "ESRI Shapefile")
if error != QgsVectorFileWriter.NoError:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + shapePath + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
def intersect(self, perimetre, calepinage):
# Intersect between coverage and grid
self.centroid_list = []
self.splitted_fet_list = []
i = 0
if perimetre and calepinage:
provider_perimetre = perimetre.dataProvider()
provider_calepinage = calepinage.dataProvider()
# create the select statement
#provider_calepinage.select([],self.extent)
request=QgsFeatureRequest()
request.setFilterRect(self.extent)
# the arguments mean no attributes returned, and do a bbox filter with our buffered
# rectangle to limit the amount of features
for feat_perimetre in provider_perimetre.getFeatures():
# if the feat geom returned from the selection intersects our point then put it in a list
for feat_calepinage in provider_calepinage.getFeatures(request):
# if the feat geom returned from the selection intersects our point then put it in a list
if feat_perimetre.geometry().intersects(feat_calepinage.geometry()):
a = feat_perimetre.geometry().intersection(feat_calepinage.geometry())
self.centroid_list.append(a.centroid())
fet = QgsFeature()
fet.setGeometry(a)
#fet.addAttribute(0, QVariant(i))
self.splitted_fet_list.append(fet)
i = i + 1
def createIntersectionLayer(self):
self.interLayer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "inter_layer", "memory")
#self.interLayer.setCrs(self.crs)
pr = self.interLayer.dataProvider()
pr.addAttributes([QgsField("ID_INTER", QVariant.Int)])
# Add features
for fet in self.splitted_fet_list:
pr.addFeatures([fet])
self.interLayer.updateExtents()
def centroidsToNewSyno(self, ladder_list):
layer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "layer", "memory")
#layer.setCrs(self.crs)
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int)])
layer.updateFields()
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
for centr in self.centroid_list:
pt = centr.asPoint()
xMin = pt.x() - ladderWidth/2. - self.overlapW
xMax = pt.x() + ladderWidth/2. + self.overlapW
yMin = pt.y() - ladderHeight/2. - self.overlapH
yMax = pt.y() + ladderHeight/2. + self.overlapH
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
# Add ladder to layer
fet = QgsFeature()
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet.setAttributes([ladder_id])
ladder_list.append(fet)
pr.addFeatures([fet])
ladder_id = ladder_id + 1
layer.updateExtents()
return layer
def loadQgsVectorLayer(self, shapePath, layerName):
layerToLoad = QgsVectorLayer(shapePath, layerName, "ogr")
if not layerToLoad.isValid():
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error while loading layer ") + layerName + " !")
else:
QgsMapLayerRegistry.instance().addMapLayer(layerToLoad)
return layerToLoad
def parseSyno(self):
i = 0
while i <= len(self.new_ladders_list) - 1:
fet = self.splitted_fet_list[i]
overlapped = False
j = 0
while j <= i - 1 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
j = i + 1
while j <= len(self.new_ladders_list) - 2 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
if overlapped:
self.splitted_fet_list.pop(i)
self.new_ladders_list.pop(i)
self.centroid_list.pop(i)
else:
i = i + 1
def showHelp(self):
showPluginHelp()
def showAbout(self):
"""Show Synoptiques Atlas about dialog box"""
adialog = QDialog()
adialog.ui = Ui_About_window()
adialog.ui.setupUi(adialog)
adialog.show()
result = adialog.exec_()
del adialog
# run method that performs all the real work
def run(self):
self.updateBoxes()
# show the dialog
self.dlg.show()
result = self.dlg.exec_()
# See if OK was pressed
if result == 1:
# do something useful (delete the line containing pass and
# substitute with your code
pass
class SynoptiquesAtlas:
def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(
QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
#locale = QSettings().value("locale/userLocale").toString()
#self.myLocale = locale[0:2]
#if QFileInfo(self.syn_atlas_plugin_dir).exists():
# localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
#if QFileInfo(localePath).exists():
# self.translator = QTranslator()
# self.translator.load(localePath)
# if qVersion() > '4.3.3':
# QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
def initGui(self):
# Create action that will start plugin configuration
self.action = QAction(QIcon(":/plugins/synoptiquesatlas/icon.png"), \
QCoreApplication.translate("synoptiquesatlas", "&Grids for Atlas"), self.iface.mainWindow())
# Create action for about dialog
self.action_about = QAction("A&bout...", self.iface.mainWindow())
# Create action for help dialog
self.action_help = QAction(
QIcon(":/plugins/synoptiquesatlas/about.png"),
QCoreApplication.translate("synoptiquesatlas", "&Help..."),
self.iface.mainWindow())
# connect the action to the run method
QObject.connect(self.action, SIGNAL("triggered()"), self.run)
# connect about action to about dialog
QObject.connect(self.action_about, SIGNAL("triggered()"),
self.showAbout)
# connect help action to help dialog
QObject.connect(self.action_help, SIGNAL("triggered()"), self.showHelp)
# connect signals
QObject.connect(self.dlg.ui.btnCreerSyno, SIGNAL("clicked()"),
self.creerSyno)
# composer changed, update maps
QObject.connect(self.dlg.ui.cbbComp,
SIGNAL('currentIndexChanged(int)'), self.updateMaps)
# refresh inLayer box
QObject.connect(self.dlg.ui.cbbInLayer,
SIGNAL('currentIndexChanged(int)'), self.onLayerChange)
# browse button
QObject.connect(self.dlg.ui.btnBrowse, SIGNAL('clicked()'),
self.updateOutputDir)
# refresh template button
QObject.connect(self.dlg.ui.btnUpdate, SIGNAL('clicked()'),
self.updateComposers)
# show composer
QObject.connect(self.dlg.ui.btnShow, SIGNAL('clicked()'),
self.showComposer)
# show about dialog
QObject.connect(self.dlg.ui.aboutButton, SIGNAL('clicked()'),
self.showAbout)
# show help dialog
QObject.connect(self.dlg.ui.helpButton, SIGNAL('clicked()'),
self.showHelp)
# Add toolbar button and menu item
self.iface.addToolBarIcon(self.action)
self.iface.addPluginToMenu("&Grids for Atlas", self.action)
# Add about menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_about)
# add help menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_help)
def updateBoxes(self):
self.updateLayers()
self.updateComposers()
self.updateMaps()
def updateLayers(self):
self.dlg.ui.cbbInLayer.clear()
for layer in self.iface.mapCanvas().layers():
#self.dlg.ui.cbbInLayer.addItem(layer.name(), QVariant(layer))
self.dlg.ui.cbbInLayer.addItem(layer.name(), layer)
# (c) Carson Farmer / fTools
def getVectorLayerByName(self, myName):
layermap = QgsMapLayerRegistry.instance().mapLayers()
for name, layer in layermap.iteritems():
if layer.type() == QgsMapLayer.VectorLayer and layer.name(
) == myName:
if layer.isValid():
return layer
else:
return None
def onLayerChange(self):
self.cLayer = self.getVectorLayerByName(
self.dlg.ui.cbbInLayer.currentText())
def updateComposers(self):
self.dlg.ui.cbbComp.clear()
compos = self.iface.activeComposers()
for cv in compos:
#self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), QVariant(cv))
self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), cv)
self.composer = self.dlg.ui.cbbComp.itemData(
self.dlg.ui.cbbComp.currentIndex()) #.toPyObject()
def updateMaps(self):
self.dlg.ui.cbbMap.clear()
if self.dlg.ui.cbbComp.currentIndex() != -1:
self.composer = self.dlg.ui.cbbComp.itemData(
self.dlg.ui.cbbComp.currentIndex()) #.toPyObject()
for item in self.composer.composition().items():
if item.type() == QgsComposerItem.ComposerMap:
self.dlg.ui.cbbMap.addItem(
QCoreApplication.translate("synoptiquesatlas", "Map ")
+ "%s" % item.id(), item.id)
def showComposer(self):
self.composer.composerWindow().show()
self.composer.composerWindow().activate()
def updateOutputDir(self):
self.dlg.ui.lieOutDir.setText(QFileDialog.getExistingDirectory(self.dlg, \
QCoreApplication.translate("synoptiquesatlas", "Choose output directory")))
def unload(self):
# Remove the plugin menu item and icon
self.iface.removePluginMenu("&Grids for Atlas", self.action)
self.iface.removeToolBarIcon(self.action)
# Remove about menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_about)
# Remove help menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_help)
def creerSyno(self):
if os.path.exists(self.dlg.ui.lieOutDir.text()):
self.gridSynopt = self.dlg.ui.chkGrille.isChecked()
self.dynSynopt = self.dlg.ui.chkDyn.isChecked()
if self.gridSynopt or self.dynSynopt:
compos = self.iface.activeComposers()
if compos:
cview = compos[self.dlg.ui.cbbComp.currentIndex()]
cmap = self.dlg.ui.cbbMap.itemData(
self.dlg.ui.cbbMap.currentIndex())
if cmap:
self.mapItem = cview.composition().getComposerMapById(
cmap())
self.ladderHeight = self.mapItem.extent().height()
self.ladderWidth = self.mapItem.extent().width()
self.ladderOvrlpPercent = float(
self.dlg.ui.overlapInp.text())
if self.ladderOvrlpPercent < 100 and self.ladderOvrlpPercent >= 0:
self.overlapW = self.ladderWidth * self.ladderOvrlpPercent / 100
self.overlapH = self.ladderHeight * self.ladderOvrlpPercent / 100
self.ladderWidth = self.ladderWidth - self.overlapW * 2.
self.ladderHeight = self.ladderHeight - self.overlapH * 2.
if self.cLayer:
if self.cLayer.type() == 0:
self.crs = self.cLayer.crs()
self.URIcrs = "crs=" + self.crs.authid()
self.doBuffer()
#next 2 lines because of bug
#http://gis.stackexchange.com/questions/87936/problem-creating-point-shapefiles-programmatically-using-python-in-qgis-2-2
#look at "and if we examine the extents:"
self.bcLayer.selectAll()
self.extent = self.bcLayer.boundingBoxOfSelected(
)
self.sLayer = self.addSynoFeatures()
self.fill_references(self.sLayer)
self.synopt_shape_path = self.dlg.ui.lieOutDir.text(
) + QCoreApplication.translate(
"synoptiquesatlas",
"/classic_grid.shp")
self.createPhysLayerFromList(
self.synopt_shape_path, self.sLayer)
if self.gridSynopt:
self.sLayer = self.loadQgsVectorLayer(self.synopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","classic grid"))
else:
self.sLayer = QgsVectorLayer(
self.synopt_shape_path,
QCoreApplication.translate(
"synoptiquesatlas",
"classic grid"), "ogr")
# TODO
# Manage symbology
#if not hasattr(self.sLayer, 'isUsingRendererV2'):
# QMessageBox.information(self.iface.mainWindow(),"Info", \
# "La symbologie ne peut etre affichee vous utilisez une version ancienne de QGIS")
#elif layer.isUsingRendererV2():
# new symbology - subclass of QgsFeatureRendererV2 class
# rendererV2 = layer.rendererV2()
# Grid layer was created, access to the second stage
if self.dynSynopt:
self.finalSynopt_shape_path = self.dlg.ui.lieOutDir.text(
) + QCoreApplication.translate(
"synoptiquesatlas",
"/dyn_grid.shp")
self.intersect(self.bcLayer,
self.sLayer)
self.createIntersectionLayer()
self.new_ladders_list = []
self.sLayer2 = self.centroidsToNewSyno(
self.new_ladders_list)
self.parseSyno()
self.final_ladders_list = []
self.sLayer3 = self.centroidsToNewSyno(
self.final_ladders_list)
self.fill_references(self.sLayer3)
self.createPhysLayerFromList(
self.finalSynopt_shape_path,
self.sLayer3)
self.sLayer3 = self.loadQgsVectorLayer(self.finalSynopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","dynamic grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Coverage layer is not vector type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a coverage layer to generate grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Overlap % must bee between 0 and 100"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","There is no map object for print composer selected"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a print composer, if none is active you have to create it"))
else:
QMessageBox.information(
self.iface.mainWindow(), "Info",
QCoreApplication.translate("synoptiquesatlas",
"Choose a grid type"))
else:
QMessageBox.information(
self.iface.mainWindow(), "Info",
QCoreApplication.translate(
"synoptiquesatlas",
"Please enter an existant directory name"))
def doBuffer(self):
maxDim = max(self.ladderHeight, self.ladderWidth)
ratio = 1000. / 2970
bufferLength = maxDim * ratio
self.bcLayer = QgsVectorLayer("Polygon" + "?" + self.URIcrs,
"buffer_layer", "memory")
pr = self.bcLayer.dataProvider()
pr.addAttributes([QgsField("ID_BUFFER", QVariant.Int)])
i = 0
for feature in self.cLayer.dataProvider().getFeatures():
fet = QgsFeature()
bGeom = feature.geometry().buffer(bufferLength, 2)
fet.setGeometry(bGeom)
fet.setFeatureId(i)
pr.addFeatures([fet])
i = i + 1
self.bcLayer.commitChanges()
self.bcLayer.updateExtents()
def addSynoFeatures(self):
layer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "grid_layer",
"memory")
#layer.setCrs(self.crs)
pr = layer.dataProvider()
pr.addAttributes([
QgsField("ID_MAILLE", QVariant.Int),
QgsField("row", QVariant.Int),
QgsField("col", QVariant.Int)
])
layer.updateFields()
# Initial settings
provider_perimetre = self.cLayer.dataProvider()
#feat_perimetre = QgsFeature()
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
yMax = self.extent.yMaximum()
yMin = yMax - ladderHeight
widthSum = 0
heightSum = 0
row = 0
# Build columns
while heightSum < self.extent.height():
widthSum = 0
col = 0
xMin = self.extent.xMinimum()
xMax = xMin + ladderWidth
# Build lines
while widthSum < self.extent.width():
# Create geometry
ladder = QgsRectangle(xMin - self.overlapW,
yMin - self.overlapH,
xMax + self.overlapW,
yMax + self.overlapH)
request = QgsFeatureRequest()
request.setFilterRect(ladder)
for f in provider_perimetre.getFeatures(request):
ladder_id = ladder_id + 1
# Add ladder to layer
fet = QgsFeature()
fet.setAttributes([ladder_id, row, col])
fet.setGeometry(QgsGeometry.fromRect(ladder))
pr.addFeatures([fet])
#ladder_list.append(fet)
# Settings for next ladder
xMin = xMin + ladderWidth
xMax = xMax + ladderWidth
widthSum = widthSum + ladderWidth
col = col + 1
heightSum = heightSum + ladderHeight
yMin = yMin - ladderHeight
yMax = yMax - ladderHeight
row = row + 1
layer.updateExtents()
return layer
def fill_references(self, layer):
pr = layer.dataProvider()
pr.addAttributes([
QgsField("above", QVariant.Int),
QgsField("below", QVariant.Int),
QgsField("left", QVariant.Int),
QgsField("right", QVariant.Int),
QgsField("aboveleft", QVariant.Int),
QgsField("aboveright", QVariant.Int),
QgsField("belowleft", QVariant.Int),
QgsField("belowright", QVariant.Int)
])
layer.updateFields()
layer.startEditing()
for feature in layer.getFeatures():
neighbours = self.get_neighbour_features(feature, layer)
positions = self.get_related_positions(feature, neighbours)
for pos, f in positions.iteritems():
if not feature[pos]:
feature[pos] = f['ID_MAILLE']
layer.updateFeature(feature)
layer.commitChanges()
def get_neighbour_features(self, feature, layer):
dp = layer.dataProvider()
request = QgsFeatureRequest()
request.setFilterRect(feature.geometry().buffer(
self.ladderWidth / 100., 1).boundingBox())
r = dp.getFeatures(request)
return [f for f in r if f['ID_MAILLE'] != feature['ID_MAILLE']]
def get_related_positions(self, base, neighbours):
base_centroid = base.geometry().centroid().asPoint()
positions = {}
for n in neighbours:
centroid = n.geometry().centroid().asPoint()
dx = math.fabs(centroid.x() - base_centroid.x())
dy = math.fabs(centroid.y() - base_centroid.y())
horizontal = dx / self.ladderWidth > dy / self.ladderHeight
position = ''
if horizontal:
position = 'left' if centroid.x() < base_centroid.x(
) else 'right'
if dy > self.ladderHeight * 0.6:
position = ('above' if centroid.y() > base_centroid.y()
else 'below') + position
else:
position = 'above' if centroid.y() > base_centroid.y(
) else 'below'
if dx > self.ladderWidth * 0.6:
position = position + ('left' if centroid.x() <
base_centroid.x() else 'right')
if position:
#curent position already occupied
if position in positions:
curent = positions[position]
c_centroid = curent.geometry().centroid().asPoint()
dx2 = math.fabs(base_centroid.x() - c_centroid.x())
dy2 = math.fabs(base_centroid.y() - c_centroid.y())
if position is 'above' or position is 'below':
#our new feature is closer to center of base feature
if dx2 > dx:
positions[position] = n
positions[position + ('right' if c_centroid.x(
) > base_centroid.x() else 'left')] = curent
#old feature is close to center of base feature
else:
positions[position + ('right' if centroid.x(
) > base_centroid.x() else 'left')] = n
elif position is 'left' or position is 'right':
#our new feature is closer to center of base feature
if dy2 > dy:
positions[position] = n
positions[('above' if c_centroid.y(
) > base_centroid.y() else 'below') +
position] = curent
#old feature is close to center of base feature
else:
positions[('above' if centroid.y() > base_centroid.
y() else 'below') + position] = n
#position is free, just add our feature
else:
positions[position] = n
return positions
def createPhysLayerFromList(self, shapePath, layer):
# Wite to file
error = QgsVectorFileWriter.writeAsVectorFormat(layer, shapePath, \
"CP1250", None, "ESRI Shapefile")
if error != QgsVectorFileWriter.NoError:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + shapePath + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
def intersect(self, perimetre, calepinage):
# Intersect between coverage and grid
self.centroid_list = []
self.splitted_fet_list = []
i = 0
if perimetre and calepinage:
provider_perimetre = perimetre.dataProvider()
provider_calepinage = calepinage.dataProvider()
# create the select statement
#provider_calepinage.select([],self.extent)
request = QgsFeatureRequest()
request.setFilterRect(self.extent)
# the arguments mean no attributes returned, and do a bbox filter with our buffered
# rectangle to limit the amount of features
for feat_perimetre in provider_perimetre.getFeatures():
# if the feat geom returned from the selection intersects our point then put it in a list
for feat_calepinage in provider_calepinage.getFeatures(
request):
# if the feat geom returned from the selection intersects our point then put it in a list
if feat_perimetre.geometry().intersects(
feat_calepinage.geometry()):
a = feat_perimetre.geometry().intersection(
feat_calepinage.geometry())
self.centroid_list.append(a.centroid())
fet = QgsFeature()
fet.setGeometry(a)
#fet.addAttribute(0, QVariant(i))
self.splitted_fet_list.append(fet)
i = i + 1
def createIntersectionLayer(self):
self.interLayer = QgsVectorLayer("Polygon" + "?" + self.URIcrs,
"inter_layer", "memory")
#self.interLayer.setCrs(self.crs)
pr = self.interLayer.dataProvider()
pr.addAttributes([QgsField("ID_INTER", QVariant.Int)])
# Add features
for fet in self.splitted_fet_list:
pr.addFeatures([fet])
self.interLayer.updateExtents()
def centroidsToNewSyno(self, ladder_list):
layer = QgsVectorLayer("Polygon" + "?" + self.URIcrs, "layer",
"memory")
#layer.setCrs(self.crs)
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int)])
layer.updateFields()
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
for centr in self.centroid_list:
pt = centr.asPoint()
xMin = pt.x() - ladderWidth / 2. - self.overlapW
xMax = pt.x() + ladderWidth / 2. + self.overlapW
yMin = pt.y() - ladderHeight / 2. - self.overlapH
yMax = pt.y() + ladderHeight / 2. + self.overlapH
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
# Add ladder to layer
fet = QgsFeature()
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet.setAttributes([ladder_id])
ladder_list.append(fet)
pr.addFeatures([fet])
ladder_id = ladder_id + 1
layer.updateExtents()
return layer
def loadQgsVectorLayer(self, shapePath, layerName):
layerToLoad = QgsVectorLayer(shapePath, layerName, "ogr")
if not layerToLoad.isValid():
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error while loading layer ") + layerName + " !")
else:
QgsMapLayerRegistry.instance().addMapLayer(layerToLoad)
return layerToLoad
def parseSyno(self):
i = 0
while i <= len(self.new_ladders_list) - 1:
fet = self.splitted_fet_list[i]
overlapped = False
j = 0
while j <= i - 1 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
j = i + 1
while j <= len(self.new_ladders_list) - 2 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
if overlapped:
self.splitted_fet_list.pop(i)
self.new_ladders_list.pop(i)
self.centroid_list.pop(i)
else:
i = i + 1
def showHelp(self):
showPluginHelp()
def showAbout(self):
"""Show Synoptiques Atlas about dialog box"""
adialog = QDialog()
adialog.ui = Ui_About_window()
adialog.ui.setupUi(adialog)
adialog.show()
result = adialog.exec_()
del adialog
# run method that performs all the real work
def run(self):
self.updateBoxes()
# show the dialog
self.dlg.show()
result = self.dlg.exec_()
# See if OK was pressed
if result == 1:
# do something useful (delete the line containing pass and
# substitute with your code
pass
class SynoptiquesAtlas:
def __init__(self, iface):
# Save reference to the QGIS interface
self.iface = iface
# a reference to our map canvas
self.canvas = self.iface.mapCanvas()
# Setup directory
self.user_plugin_dir = QFileInfo(QgsApplication.qgisUserDbFilePath()).path() + "/python/plugins"
self.syn_atlas_plugin_dir = self.user_plugin_dir + "/synoptiquesatlas"
# Translation to English
locale = QSettings().value("locale/userLocale")#.toString()
self.myLocale = locale[0:2]
if QFileInfo(self.syn_atlas_plugin_dir).exists():
localePath = self.syn_atlas_plugin_dir + "/i18n/synoptiquesatlas_" + self.myLocale + ".qm"
if QFileInfo(localePath).exists():
self.translator = QTranslator()
self.translator.load(localePath)
if qVersion() > '4.3.3':
QCoreApplication.installTranslator(self.translator)
# create and show the dialog
self.dlg = SynoptiquesAtlasDialog()
def initGui(self):
# Create action that will start plugin configuration
self.action = QAction(QIcon(":/plugins/synoptiquesatlas/icon.png"), \
QCoreApplication.translate("synoptiquesatlas", "&Grids for Atlas"), self.iface.mainWindow())
# Create action for about dialog
self.action_about = QAction("A&bout...", self.iface.mainWindow())
# Create action for help dialog
self.action_help = QAction(QIcon(":/plugins/synoptiquesatlas/about.png"), QCoreApplication.translate("synoptiquesatlas", "&Help..."), self.iface.mainWindow())
# connect the action to the run method
QObject.connect(self.action, SIGNAL("triggered()"), self.run)
# connect about action to about dialog
QObject.connect(self.action_about, SIGNAL("triggered()"), self.showAbout)
# connect help action to help dialog
QObject.connect(self.action_help, SIGNAL("triggered()"), self.showHelp)
# connect signals
QObject.connect(self.dlg.ui.btnCreerSyno, SIGNAL("clicked()"), self.creerSyno)
# composer changed, update maps
QObject.connect(self.dlg.ui.cbbComp, SIGNAL('currentIndexChanged(int)'), self.updateMaps)
# refresh inLayer box
QObject.connect(self.dlg.ui.cbbInLayer, SIGNAL('currentIndexChanged(int)'), self.onLayerChange)
# browse button
QObject.connect(self.dlg.ui.btnBrowse, SIGNAL('clicked()'), self.updateOutputDir)
# refresh template button
QObject.connect(self.dlg.ui.btnUpdate, SIGNAL('clicked()'), self.updateComposers)
# show composer
QObject.connect(self.dlg.ui.btnShow, SIGNAL('clicked()'), self.showComposer)
# show about dialog
QObject.connect(self.dlg.ui.aboutButton, SIGNAL('clicked()'), self.showAbout)
# show help dialog
QObject.connect(self.dlg.ui.helpButton, SIGNAL('clicked()'), self.showHelp)
# Add toolbar button and menu item
self.iface.addToolBarIcon(self.action)
self.iface.addPluginToMenu("&Grids for Atlas", self.action)
# Add about menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_about)
# add help menu entry
self.iface.addPluginToMenu("&Grids for Atlas", self.action_help)
def updateBoxes(self):
print "fct updateBoxes"
self.updateLayers()
self.updateComposers()
self.updateMaps()
def updateLayers(self):
print "fct updateLayers"
self.dlg.ui.cbbInLayer.clear()
for layer in self.iface.mapCanvas().layers():
self.dlg.ui.cbbInLayer.addItem(layer.name(), layer)
# (c) Carson Farmer / fTools
def getVectorLayerByName(self,myName):
print "fct getVectorLayerByName"
layermap = QgsMapLayerRegistry.instance().mapLayers()
for name, layer in layermap.iteritems():
if layer.type() == QgsMapLayer.VectorLayer and layer.name() == myName:
if layer.isValid():
return layer
else:
return None
def onLayerChange(self):
print "fct onLayerChange"
self.cLayer = self.getVectorLayerByName(self.dlg.ui.cbbInLayer.currentText())
def updateComposers(self):
print "fct updateComposers"
self.dlg.ui.cbbComp.clear()
compos = self.iface.activeComposers()
for cv in compos:
self.dlg.ui.cbbComp.addItem(cv.composerWindow().windowTitle(), cv)
self.composer = self.dlg.ui.cbbComp.itemData(self.dlg.ui.cbbComp.currentIndex())#.toPyObject()
def updateMaps(self):
print "fct updateMaps"
self.dlg.ui.cbbMap.clear()
if self.dlg.ui.cbbComp.currentIndex() != -1:
self.composer = self.dlg.ui.cbbComp.itemData(self.dlg.ui.cbbComp.currentIndex())#.toPyObject()
for item in self.composer.composition().items():
if item.type() == QgsComposerItem.ComposerMap:
self.dlg.ui.cbbMap.addItem(QCoreApplication.translate("synoptiquesatlas", "Map ") + "%s"% item.id(), item.id)
def showComposer(self):
print "fct showComposer"
self.composer.composerWindow().show()
self.composer.composerWindow().activate()
def updateOutputDir(self):
print "fct updateOutputDir"
self.dlg.ui.lieOutDir.setText(QFileDialog.getExistingDirectory(self.dlg, \
QCoreApplication.translate("synoptiquesatlas", "Choose output directory")))
def unload(self):
# Remove the plugin menu item and icon
self.iface.removePluginMenu("&Grids for Atlas",self.action)
self.iface.removeToolBarIcon(self.action)
# Remove about menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_about)
# Remove help menu entry
self.iface.removePluginMenu("&Grids for Atlas", self.action_help)
def creerSyno(self):
print "fct creerSyno"
if os.path.exists(self.dlg.ui.lieOutDir.text()):
self.gridSynopt = self.dlg.ui.chkGrille.isChecked()
self.dynSynopt = self.dlg.ui.chkDyn.isChecked()
if self.gridSynopt or self.dynSynopt:
compos = self.iface.activeComposers()
if compos:
cview = compos[self.dlg.ui.cbbComp.currentIndex()]
self.mapItem = cview.composition().getComposerMapById(\
self.dlg.ui.cbbMap.itemData(self.dlg.ui.cbbMap.currentIndex())())
self.ladderHeight = self.mapItem.extent().height()
self.ladderWidth = self.mapItem.extent().width()
if self.cLayer:
if self.cLayer.type() == 0:
self.epsg = int(self.cLayer.crs().postgisSrid ())
self.URIcrs = "crs=epsg:" + str(self.epsg)
self.doBuffer()
self.extent = self.bcLayer.extent()
self.orig_ladders_list = []
self.sLayer = self.addSynoFeatures(self.orig_ladders_list)
self.synopt_shape_path = self.dlg.ui.lieOutDir.text() + QCoreApplication.translate("synoptiquesatlas","/classic_grid.shp")
self.orig_ladders_list=self.sLayer.getFeatures()
self.createPhysLayerFromList(self.dlg.ui.lieOutDir.text(),"classic_grid.shp" ,self.orig_ladders_list)
if self.gridSynopt:
self.sLayer = self.loadQgsVectorLayer(self.synopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","classic grid"))
else:
self.sLayer = QgsVectorLayer(self.synopt_shape_path, QCoreApplication.translate("synoptiquesatlas","classic grid"), "ogr")
# TODO
# Manage symbology
#if not hasattr(self.sLayer, 'isUsingRendererV2'):
# QMessageBox.information(self.iface.mainWindow(),"Info", \
# "La symbologie ne peut etre affichee vous utilisez une version ancienne de QGIS")
#elif layer.isUsingRendererV2():
# new symbology - subclass of QgsFeatureRendererV2 class
# rendererV2 = layer.rendererV2()
# Grid layer was created, access to the second stage
if self.dynSynopt:
self.finalSynopt_shape_path = self.dlg.ui.lieOutDir.text() + QCoreApplication.translate("synoptiquesatlas","/dyn_grid.shp")
self.intersect(self.bcLayer,self.sLayer)
self.createIntersectionLayer()
self.new_ladders_list = []
self.sLayer2 = self.centroidsToNewSyno(self.new_ladders_list)
self.parseSyno()
self.final_ladders_list = []
self.sLayer3 = self.centroidsToNewSyno(self.final_ladders_list)
self.final_ladders_list=self.sLayer3.getFeatures()
self.createPhysLayerFromList(self.dlg.ui.lieOutDir.text(),"dyn_grid.shp" ,self.final_ladders_list)
self.sLayer3 = self.loadQgsVectorLayer(self.finalSynopt_shape_path, \
QCoreApplication.translate("synoptiquesatlas","dynamic grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Coverage layer is not vector type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a coverage layer to generate grid"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Please select a print composer, if none is active you have to create it"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", QCoreApplication.translate("synoptiquesatlas","Choose a grid type"))
else:
QMessageBox.information(self.iface.mainWindow(),"Info", QCoreApplication.translate("synoptiquesatlas","Please enter an existant directory name"))
def doBuffer(self):
print "fct doBuffer"
maxDim = max(self.ladderHeight,self.ladderWidth)
ratio = 1000./2970
bufferLength = maxDim * ratio
self.bcLayer = QgsVectorLayer("Polygon?" + self.URIcrs, "buffer_layer", "memory")
self.bcLayer.addAttribute(QgsField("ID_BUFFER", QVariant.Int))
self.bcLayer.commitChanges()
provider_perimetre = self.cLayer.selectedFeatures()
feat_perimetre = QgsFeature()
#provider_perimetre.Select()
i = 0
for feat_perimetre in provider_perimetre:
fet = QgsFeature()
fet.setGeometry(feat_perimetre.geometry().buffer(bufferLength,50))
self.cLayer.changeAttributeValue(fet.id(),0, i)
#print "attribut vaut : "+str(i)+" de surface "+str(fet.geometry().area())
### test non verifie
self.bcLayer.addFeatures([fet])
i = i + 1
self.bcLayer.updateExtents()
def addSynoFeatures(self, ladder_list):
print "fct addSynoFeatures "+"Polygon?" + self.URIcrs
#layer = QgsVectorLayer("Polygon?" + self.URIcrs, "grid_layer", "memory")
layer = self.iface.addVectorLayer("Polygon?" + self.URIcrs, "grid_layer", "memory")
layer.startEditing()
layer.addAttribute(QgsField("ID_MAILLE", QVariant.Int))
layer.commitChanges()
# Initial settings
ladder_id = 0
yMax = self.extent.yMaximum()
yMin = yMax - self.ladderHeight
widthSum = 0
heightSum = 0
# Build columns
#print "Debug1 "+str(self.cLayer.boundingBoxOfSelected().height())
while heightSum < self.cLayer.boundingBoxOfSelected().height():
widthSum = 0
xMin = self.extent.xMinimum()
xMax = xMin + self.ladderWidth
#print "Debug2"
# Build lines
while widthSum < self.cLayer.boundingBoxOfSelected().width():
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
self.cLayer.select(ladder, False)
#print "intersectioon = "+str(self.cLayer.selectedFeatureCount())
if self.cLayer.selectedFeatureCount():
# Add ladder to layer
fet = QgsFeature(self.cLayer.dataProvider().fields())
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet[0]=ladder_id
#fet.addAttribute(0, QVariant(ladder_id))
#print "attribut vaut : "+str(ladder_id)+" de surface "+str(fet.geometry().area())
layer.addFeatures([fet])
ladder_id+= 1
# Settings for next ladder
xMin+= self.ladderWidth
xMax+= self.ladderWidth
widthSum+= self.ladderWidth
heightSum+= self.ladderHeight
yMin-= self.ladderHeight
yMax-= self.ladderHeight
layer.updateExtents()
QgsVectorLayerTools.stopEditing(layer, False)
return layer
# def createPhysLayerFromList(self, shapePath, fetList):
def createPhysLayerFromList(self, shapePath, shapeName, fetList):
print "fct createPhysLayerFromList"
# Create shapefile writer
layer = QgsVectorLayer(shapePath, shapeName, "shp")
layer.startEditing()
layer.addAttribute(QgsField("ID_MAILLE", QVariant.Int))
layer.commitChanges()
#fields = QgsFields()
#fields.append(QgsField("ID_MAILLE", QVariant.Int))
#self.writer = QgsVectorFileWriter(shapePath, "CP1250", fields, \
# QGis.WKBPolygon, self.cLayer.crs(), "ESRI Shapefile")
#if self.writer.hasError() != QgsVectorFileWriter.NoError:
# QMessageBox.information(self.iface.mainWindow(),"Info", \
# QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + shapePath + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
# Add features
for fet in fetList:
print "area = "+str(fet.geometry().area())
layer.addFeature(fet)
# Stop writing
#del self.writer
layer.commitChanges()
layer.stopEditing()
def createGridLayer(self):
print "fct createGridLayer"
# Create shapefile writer
fields = { 0 : QgsField("ID_MAILLE", QVariant.Int)}
self.writer = QgsVectorFileWriter(self.finalSynopt_shape_path, "CP1250", fields, \
QGis.WKBPolygon, self.cLayer.crs(), "ESRI Shapefile")
if self.writer.hasError() != QgsVectorFileWriter.NoError:
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error when creating shapefile:\n") + self.finalSynopt_shape_path + QCoreApplication.translate("synoptiquesatlas","\nPlease delete or rename the former grid layers"))
# Add features
for fet in self.orig_ladders_list:
self.writer.addFeature(fet)
# Stop writing
del self.writer
# genere deux listes :
# - centroid_list = liste des points d'intersection entre chaque objet de la grille
# et chaque objets selectionnes de la couche vectorielle
def intersect(self, perimetre, calepinage):
print "fct intersect"
# Intersect between coverage and grid
self.centroid_list = []
self.splitted_fet_list = []
i = 0
if perimetre and calepinage:
provider_perimetre = perimetre.selectedFeatures()
provider_calepinage = calepinage.selectedFeatures()
feat_perimetre = QgsFeature()
feat_calepinage = QgsFeature()
# create the select statement
#provider_perimetre.select([])
#provider_calepinage.select([],self.extent) rechercher comment limiter a cette bbox
# the arguments mean no attributes returned, and do a bbox filter with our buffered
# rectangle to limit the amount of features
for feat_perimetre in provider_perimetre:
# if the feat geom returned from the selection intersects our point then put it in a list
for feat_calepinage in provider_calepinage:
# if the feat geom returned from the selection intersects our point then put it in a list
if feat_perimetre.geometry().intersects(feat_calepinage.geometry()):
a = feat_perimetre.geometry().intersection(feat_calepinage.geometry())
self.centroid_list.append(a.centroid())
fet = QgsFeature()
fet.setGeometry(a)
fet.addAttribute(0, QVariant(i))
self.splitted_fet_list.append(fet)
i = i + 1
# pas lance
def createIntersectionLayer(self):
print "fct createIntersectionLayer"
self.interLayer = QgsVectorLayer("Polygon?" + self.URIcrs, "inter_layer", "memory")
pr = self.interLayer.dataProvider()
pr.addAttributes([QgsField("ID_INTER", QVariant.Int)])
# Add features
for fet in self.splitted_fet_list:
pr.addFeatures([fet])
self.interLayer.updateExtents()
# pas lance
def centroidsToNewSyno(self, ladder_list):
print "fct centroidsToNewSyno"
layer = QgsVectorLayer("Polygon?" + self.URIcrs, "layer", "memory")
pr = layer.dataProvider()
pr.addAttributes([QgsField("ID_MAILLE", QVariant.Int)])
ladderHeight = self.ladderHeight
ladderWidth = self.ladderWidth
ladder_id = 0
for centr in self.centroid_list:
pt = centr.asPoint()
xMin = pt.x() - ladderWidth/2.
xMax = pt.x() + ladderWidth/2.
yMin = pt.y() - ladderHeight/2.
yMax = pt.y() + ladderHeight/2.
# Create geometry
ladder = QgsRectangle(xMin, yMin, xMax, yMax)
# Add ladder to layer
fet = QgsFeature()
fet.setGeometry(QgsGeometry.fromRect(ladder))
fet.addAttribute(0, QVariant(ladder_id))
ladder_list.append(fet)
pr.addFeatures([fet])
ladder_id = ladder_id + 1
layer.updateExtents()
return layer
def loadQgsVectorLayer(self, shapePath, layerName):
print "fct loadQgsVectorLayer"
layerToLoad = QgsVectorLayer(shapePath, layerName, "ogr")
if not layerToLoad.isValid():
QMessageBox.information(self.iface.mainWindow(),"Info", \
QCoreApplication.translate("synoptiquesatlas","Error while loading layer ") + layerName + " !")
else:
QgsMapLayerRegistry.instance().addMapLayer(layerToLoad)
return layerToLoad
def parseSyno(self):
print "fct parseSyno"
i = 0
while i <= len(self.new_ladders_list) - 1:
fet = self.splitted_fet_list[i]
overlapped = False
j = 0
while j <= i - 1 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
j = i + 1
while j <= len(self.new_ladders_list) - 2 and not overlapped:
fet2 = self.new_ladders_list[j]
# if geom is entirely overlapped by geom2, pop it from list, pop its centroid
if fet2.geometry().contains(fet.geometry()):
overlapped = True
j = j + 1
if overlapped:
self.splitted_fet_list.pop(i)
self.new_ladders_list.pop(i)
self.centroid_list.pop(i)
else:
i = i + 1
def showHelp(self):
"""Show help dialog box"""
# Create a dialog and setup UI
hdialog = QDialog()
hdialog.ui = Ui_help_window()
hdialog.ui.setupUi(hdialog)
# load help file
if self.myLocale == 'fr':
hdialog.ui.webView.setUrl(QUrl(self.syn_atlas_plugin_dir + '/help/syn_atlas.html'))
else:
hdialog.ui.webView.setUrl(QUrl(self.syn_atlas_plugin_dir + '/help/syn_atlas_en.html'))
hdialog.show()
result = hdialog.exec_()
del hdialog
def showAbout(self):
"""Show Synoptiques Atlas about dialog box"""
adialog = QDialog()
adialog.ui = Ui_About_window()
adialog.ui.setupUi(adialog)
adialog.show()
result = adialog.exec_()
del adialog
# run method that performs all the real work
def run(self):
self.updateBoxes()
# show the dialog
self.dlg.show()
result = self.dlg.exec_()
# See if OK was pressed
if result == 1:
# do something useful (delete the line containing pass and
# substitute with your code
pass
