def processAlgorithm(self, progress):
idx = self.getParameterValue(self.TYPE)
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
centerX = bbox.center().x()
centerY = bbox.center().y()
#~ originX = centerX - width / 2.0
#~ originY = centerY - height / 2.0
originX = bbox.xMinimum()
originY = bbox.yMaximum()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: %s/%s' % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
#if self.types[idx].find(self.tr('polygon')) >= 0:
if idx != 0:
geometryType = QGis.WKBPolygon
else:
geometryType = QGis.WKBLineString
fields = [QgsField('left', QVariant.Double, '', 24, 16),
QgsField('top', QVariant.Double, '', 24, 16),
QgsField('right', QVariant.Double, '', 24, 16),
QgsField('bottom', QVariant.Double, '', 24, 16)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
geometryType, crs)
if idx == 0:
self._rectangleGridLine(
writer, width, height, originX, originY, hSpacing, vSpacing)
elif idx == 1:
self._rectangleGridPoly(
writer, width, height, originX, originY, hSpacing, vSpacing)
elif idx == 2:
self._diamondGrid(
writer, width, height, originX, originY, hSpacing, vSpacing)
elif idx == 3:
self._hexagonGrid(
writer, width, height, originX, originY, hSpacing, vSpacing)
del writer
def processAlgorithm(self, feedback):
extent = str(self.getParameterValue(self.EXTENT)).split(',')
spacing = float(self.getParameterValue(self.SPACING))
inset = float(self.getParameterValue(self.INSET))
randomize = self.getParameterValue(self.RANDOMIZE)
isSpacing = self.getParameterValue(self.IS_SPACING)
crsId = self.getParameterValue(self.CRS)
crs = QgsCoordinateReferenceSystem()
crs.createFromUserInput(crsId)
extent = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
fields = QgsFields()
fields.append(QgsField('id', QVariant.Int, '', 10, 0))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fields, QgsWkbTypes.Point, crs)
if randomize:
seed()
area = extent.width() * extent.height()
if isSpacing:
pSpacing = spacing
else:
pSpacing = sqrt(area / spacing)
f = QgsFeature()
f.initAttributes(1)
f.setFields(fields)
count = 0
total = 100.0 / (area / pSpacing)
y = extent.yMaximum() - inset
extent_geom = QgsGeometry.fromRect(extent)
extent_engine = QgsGeometry.createGeometryEngine(extent_geom.geometry())
extent_engine.prepareGeometry()
while y >= extent.yMinimum():
x = extent.xMinimum() + inset
while x <= extent.xMaximum():
if randomize:
geom = QgsGeometry().fromPoint(QgsPoint(
uniform(x - (pSpacing / 2.0), x + (pSpacing / 2.0)),
uniform(y - (pSpacing / 2.0), y + (pSpacing / 2.0))))
else:
geom = QgsGeometry().fromPoint(QgsPoint(x, y))
if extent_engine.intersects(geom.geometry()):
f.setAttribute('id', count)
f.setGeometry(geom)
writer.addFeature(f)
x += pSpacing
count += 1
feedback.setProgress(int(count * total))
y = y - pSpacing
del writer
def rotation_test(self):
# We will create a polygon layer with a rotated rectangle.
# Then we will make it the object layer for the atlas,
# rotate the map and test that the bounding rectangle
# is smaller than the bounds without rotation.
polygonLayer = QgsVectorLayer('Polygon', 'test_polygon', 'memory')
poly = QgsFeature(polygonLayer.fields())
points = [(10, 15), (15, 10), (45, 40), (40, 45)]
poly.setGeometry(QgsGeometry.fromPolygonXY([[QgsPointXY(x[0], x[1]) for x in points]]))
polygonLayer.dataProvider().addFeatures([poly])
QgsProject.instance().addMapLayer(polygonLayer)
# Recreating the layout locally
composition = QgsPrintLayout(QgsProject.instance())
composition.initializeDefaults()
# the atlas map
atlasMap = QgsLayoutItemMap(composition)
atlasMap.attemptSetSceneRect(QRectF(20, 20, 130, 130))
atlasMap.setFrameEnabled(True)
atlasMap.setLayers([polygonLayer])
atlasMap.setExtent(QgsRectangle(0, 0, 100, 50))
composition.addLayoutItem(atlasMap)
# the atlas
atlas = composition.atlas()
atlas.setCoverageLayer(polygonLayer)
atlas.setEnabled(True)
atlasMap.setAtlasDriven(True)
atlasMap.setAtlasScalingMode(QgsLayoutItemMap.Auto)
atlasMap.setAtlasMargin(0.0)
# Testing
atlasMap.setMapRotation(0.0)
atlas.beginRender()
atlas.first()
nonRotatedExtent = QgsRectangle(atlasMap.extent())
atlasMap.setMapRotation(45.0)
atlas.first()
rotatedExtent = QgsRectangle(atlasMap.extent())
self.assertLess(rotatedExtent.width(), nonRotatedExtent.width() * 0.9)
self.assertLess(rotatedExtent.height(), nonRotatedExtent.height() * 0.9)
QgsProject.instance().removeMapLayer(polygonLayer)
def rotation_test(self):
# We will create a polygon layer with a rotated rectangle.
# Then we will make it the object layer for the atlas,
# rotate the map and test that the bounding rectangle
# is smaller than the bounds without rotation.
polygonLayer = QgsVectorLayer('Polygon', 'test_polygon', 'memory')
poly = QgsFeature(polygonLayer.pendingFields())
points = [(10, 15), (15, 10), (45, 40), (40, 45)]
poly.setGeometry(QgsGeometry.fromPolygon([[QgsPointXY(x[0], x[1]) for x in points]]))
polygonLayer.dataProvider().addFeatures([poly])
QgsProject.instance().addMapLayer(polygonLayer)
# Recreating the composer locally
composition = QgsComposition(QgsProject.instance())
composition.setPaperSize(297, 210)
# the atlas map
atlasMap = QgsComposerMap(composition, 20, 20, 130, 130)
atlasMap.setFrameEnabled(True)
atlasMap.setLayers([polygonLayer])
atlasMap.setNewExtent(QgsRectangle(0, 0, 100, 50))
composition.addComposerMap(atlasMap)
# the atlas
atlas = composition.atlasComposition()
atlas.setCoverageLayer(polygonLayer)
atlas.setEnabled(True)
composition.setAtlasMode(QgsComposition.ExportAtlas)
atlasMap.setAtlasDriven(True)
atlasMap.setAtlasScalingMode(QgsComposerMap.Auto)
atlasMap.setAtlasMargin(0.0)
# Testing
atlasMap.setMapRotation(0.0)
atlas.firstFeature()
nonRotatedExtent = QgsRectangle(atlasMap.currentMapExtent())
atlasMap.setMapRotation(45.0)
atlas.firstFeature()
rotatedExtent = QgsRectangle(atlasMap.currentMapExtent())
assert rotatedExtent.width() < nonRotatedExtent.width() * 0.9
assert rotatedExtent.height() < nonRotatedExtent.height() * 0.9
QgsProject.instance().removeMapLayer(polygonLayer)
def _rect(self, startPoint, endPoint):
if startPoint is None or endPoint is None:
return None
p0 = self.toCanvasCoordinates(startPoint)
p1 = self.toCanvasCoordinates(endPoint)
canvas_rect = QgsRectangle(QgsPoint(p0.x(), p0.y()), QgsPoint(p1.x(), p1.y()))
center = QgsPoint((startPoint.x() + endPoint.x()) / 2, (startPoint.y() + endPoint.y()) / 2)
return RotatedRect(center, self.mupp * canvas_rect.width(), self.mupp * canvas_rect.height()).rotate(self.rotation, center)
def testDimensions(self):
rect = QgsRectangle(0.0, 0.0, 10.0, 10.0)
myMessage = "Expected: %s\nGot: %s\n" % (10.0, rect.width())
assert rect.width() == 10.0, myMessage
myMessage = "Expected: %s\nGot: %s\n" % (10.0, rect.height())
assert rect.height() == 10.0, myMessage
myMessage = "Expected: %s\nGot: %s\n" % ("5.0, 5.0", rect.center().toString())
assert rect.center() == QgsPoint(5.0, 5.0), myMessage
rect.scale(2.0)
myMessage = "Expected: %s\nGot: %s\n" % (20.0, rect.width())
assert rect.width() == 20.0, myMessage
myMessage = "Expected: %s\nGot: %s\n" % (20.0, rect.height())
assert rect.height() == 20.0, myMessage
def processAlgorithm(self, progress):
extent = str(self.getParameterValue(self.EXTENT)).split(",")
spacing = float(self.getParameterValue(self.SPACING))
inset = float(self.getParameterValue(self.INSET))
randomize = self.getParameterValue(self.RANDOMIZE)
isSpacing = self.getParameterValue(self.IS_SPACING)
extent = QgsRectangle(float(extent[0]), float(extent[2]), float(extent[1]), float(extent[3]))
fields = QgsFields()
fields.append(QgsField("id", QVariant.Int, "", 10, 0))
mapCRS = iface.mapCanvas().mapSettings().destinationCrs()
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields, QGis.WKBPoint, mapCRS)
if randomize:
seed()
area = extent.width() * extent.height()
if isSpacing:
pSpacing = spacing
else:
pSpacing = sqrt(area / spacing)
f = QgsFeature()
f.initAttributes(1)
f.setFields(fields)
count = 0
total = 100.00 / (area / pSpacing)
y = extent.yMaximum() - inset
while y >= extent.yMinimum():
x = extent.xMinimum() + inset
while x <= extent.xMaximum():
if randomize:
geom = QgsGeometry().fromPoint(
QgsPoint(
uniform(x - (pSpacing / 2.0), x + (pSpacing / 2.0)),
uniform(y - (pSpacing / 2.0), y + (pSpacing / 2.0)),
)
)
else:
geom = QgsGeometry().fromPoint(QgsPoint(x, y))
if geom.intersects(extent):
f.setAttribute("id", count)
f.setGeometry(geom)
writer.addFeature(f)
x += pSpacing
count += 1
progress.setPercentage(int(count * total))
y = y - pSpacing
del writer
def processAlgorithm(self, feedback):
idx = self.getParameterValue(self.TYPE)
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
hOverlay = self.getParameterValue(self.HOVERLAY)
vOverlay = self.getParameterValue(self.VOVERLAY)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
originX = bbox.xMinimum()
originY = bbox.yMaximum()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: %s/%s' % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Horizontal spacing is too small for the covered area'))
if hSpacing <= hOverlay or vSpacing <= vOverlay:
raise GeoAlgorithmExecutionException(
self.tr('Invalid overlay: %s/%s' % (hOverlay, vOverlay)))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
fields = [QgsField('left', QVariant.Double, '', 24, 16),
QgsField('top', QVariant.Double, '', 24, 16),
QgsField('right', QVariant.Double, '', 24, 16),
QgsField('bottom', QVariant.Double, '', 24, 16),
QgsField('id', QVariant.Int, '', 10, 0)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
QgsWkbTypes.Polygon, crs)
if idx == 0:
self._rectangleGrid(
writer, width, height, originX, originY, hSpacing, vSpacing, hOverlay, vOverlay, feedback)
elif idx == 1:
self._diamondGrid(
writer, width, height, originX, originY, hSpacing, vSpacing, hOverlay, vOverlay, feedback)
elif idx == 2:
self._hexagonGrid(
writer, width, height, originX, originY, hSpacing, vSpacing, hOverlay, vOverlay, feedback)
del writer
def subrectangle(self, norm_rect, y_inverted=False):
"""
args:
norm_rect -- QgsRectangle (0 <= xmin, 0 <= ymin, xmax <= 1, ymax <= 1)
y_inverted -- If True, lower-left is (0, 1) and upper-right is (1, 0).
Or else lower-left is (0, 0) and upper-right is (1, 1).
"""
ur_rect = self._unrotated_rect
xmin = ur_rect.xMinimum() + norm_rect.xMinimum() * ur_rect.width()
xmax = ur_rect.xMinimum() + norm_rect.xMaximum() * ur_rect.width()
if y_inverted:
ymin = ur_rect.yMaximum() - norm_rect.yMaximum() * ur_rect.height()
ymax = ur_rect.yMaximum() - norm_rect.yMinimum() * ur_rect.height()
else:
ymin = ur_rect.yMinimum() + norm_rect.yMinimum() * ur_rect.height()
ymax = ur_rect.yMinimum() + norm_rect.yMaximum() * ur_rect.height()
rect = QgsRectangle(xmin, ymin, xmax, ymax)
return RotatedRect(rect.center(), rect.width(), rect.height()).rotate(self._rotation, self._center)
def processAlgorithm(self, progress):
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
originX = bbox.xMinimum()
originY = bbox.yMaximum()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: %s/%s' % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
fields = [QgsField('left', QVariant.Double, '', 24, 16),
QgsField('top', QVariant.Double, '', 24, 16),
QgsField('right', QVariant.Double, '', 24, 16),
QgsField('bottom', QVariant.Double, '', 24, 16)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
QgsWkbTypes.LineString, crs)
self._rectangleGridLine(
writer, width, height, originX, originY, hSpacing, vSpacing)
def qgis_composer_renderer(impact_report, component):
"""Default Map Report Renderer using QGIS Composer.
Render using qgis composer for a given impact_report data and component
context.
:param impact_report: ImpactReport contains data about the report that is
going to be generated.
:type impact_report: safe.report.impact_report.ImpactReport
:param component: Contains the component metadata and context for
rendering the output.
:type component:
safe.report.report_metadata.QgisComposerComponentsMetadata
:return: Whatever type of output the component should be.
.. versionadded:: 4.0
"""
context = component.context
qgis_composition_context = impact_report.qgis_composition_context
# load composition object
layout = QgsPrintLayout(QgsProject.instance())
# load template
main_template_folder = impact_report.metadata.template_folder
# we do this condition in case custom template was found
if component.template.startswith('../qgis-composer-templates/'):
template_path = os.path.join(main_template_folder, component.template)
else:
template_path = component.template
with open(template_path) as template_file:
template_content = template_file.read()
document = QtXml.QDomDocument()
# Replace
for k, v in context.substitution_map.items():
template_content = template_content.replace('[{}]'.format(k), v)
document.setContent(template_content)
rwcontext = QgsReadWriteContext()
load_status = layout.loadFromTemplate(
document, rwcontext)
if not load_status:
raise TemplateLoadingError(
tr('Error loading template: %s') % template_path)
# replace image path
for img in context.image_elements:
item_id = img.get('id')
path = img.get('path')
image = layout_item(layout, item_id, QgsLayoutItemPicture)
if image and path:
image.setPicturePath(path)
# replace html frame
for html_el in context.html_frame_elements:
item_id = html_el.get('id')
mode = html_el.get('mode')
html_element = layout_item(layout, item_id, QgsLayoutItemHtml)
if html_element:
if mode == 'text':
text = html_el.get('text')
text = text if text else ''
html_element.setContentMode(QgsLayoutItemHtml.ManualHtml)
html_element.setHtml(text)
html_element.loadHtml()
elif mode == 'url':
url = html_el.get('url')
html_element.setContentMode(QgsLayoutItemHtml.Url)
qurl = QUrl.fromLocalFile(url)
html_element.setUrl(qurl)
original_crs = impact_report.impact_function.crs
destination_crs = qgis_composition_context.map_settings.destinationCrs()
coord_transform = QgsCoordinateTransform(original_crs,
destination_crs,
QgsProject.instance())
# resize map extent
for map_el in context.map_elements:
item_id = map_el.get('id')
split_count = map_el.get('grid_split_count')
layers = [
layer for layer in map_el.get('layers') if isinstance(
layer, QgsMapLayer)
]
map_extent_option = map_el.get('extent')
composer_map = layout_item(layout, item_id, QgsLayoutItemMap)
for index, layer in enumerate(layers):
# we need to check whether the layer is registered or not
registered_layer = (
QgsProject.instance().mapLayer(layer.id()))
if registered_layer:
if not registered_layer == layer:
layers[index] = registered_layer
else:
QgsProject.instance().addMapLayer(layer)
""":type: qgis.core.QgsLayoutItemMap"""
if composer_map:
# Search for specified map extent in the template.
min_x = composer_map.extent().xMinimum() if (
impact_report.use_template_extent) else None
min_y = composer_map.extent().yMinimum() if (
impact_report.use_template_extent) else None
max_x = composer_map.extent().xMaximum() if (
impact_report.use_template_extent) else None
max_y = composer_map.extent().yMaximum() if (
impact_report.use_template_extent) else None
composer_map.setKeepLayerSet(True)
layer_set = [l for l in layers if isinstance(l, QgsMapLayer)]
composer_map.setLayers(layer_set)
map_overview_extent = None
if map_extent_option and isinstance(
map_extent_option, QgsRectangle):
# use provided map extent
extent = coord_transform.transform(map_extent_option)
for l in [layer for layer in layers if
isinstance(layer, QgsMapLayer)]:
layer_extent = coord_transform.transform(l.extent())
if l.name() == map_overview['id']:
map_overview_extent = layer_extent
else:
# if map extent not provided, try to calculate extent
# from list of given layers. Combine it so all layers were
# shown properly
extent = QgsRectangle()
extent.setMinimal()
for l in [layer for layer in layers if
isinstance(layer, QgsMapLayer)]:
# combine extent if different layer is provided.
layer_extent = coord_transform.transform(l.extent())
extent.combineExtentWith(layer_extent)
if l.name() == map_overview['id']:
map_overview_extent = layer_extent
width = extent.width()
height = extent.height()
longest_width = width if width > height else height
half_length = longest_width / 2
margin = half_length / 5
center = extent.center()
min_x = min_x or (center.x() - half_length - margin)
max_x = max_x or (center.x() + half_length + margin)
min_y = min_y or (center.y() - half_length - margin)
max_y = max_y or (center.y() + half_length + margin)
# noinspection PyCallingNonCallable
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
if component.key == 'population-infographic' and (
map_overview_extent):
square_extent = map_overview_extent
composer_map.zoomToExtent(square_extent)
composer_map.invalidateCache()
actual_extent = composer_map.extent()
# calculate intervals for grid
x_interval = actual_extent.width() / split_count
composer_map.grid().setIntervalX(x_interval)
y_interval = actual_extent.height() / split_count
composer_map.grid().setIntervalY(y_interval)
# calculate legend element
for leg_el in context.map_legends:
item_id = leg_el.get('id')
title = leg_el.get('title')
layers = [
layer for layer in leg_el.get('layers') if isinstance(
layer, QgsMapLayer)
]
symbol_count = leg_el.get('symbol_count')
column_count = leg_el.get('column_count')
legend = layout_item(layout, item_id, QgsLayoutItemLegend)
""":type: qgis.core.QgsLayoutItemLegend"""
if legend:
# set column count
if column_count:
legend.setColumnCount(column_count)
elif symbol_count <= 7:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 7 + 1)
# set legend title
if title is not None and not impact_report.legend_layers:
legend.setTitle(title)
# set legend
root_group = legend.model().rootGroup()
for layer in layers:
# we need to check whether the layer is registered or not
registered_layer = (
QgsProject.instance().mapLayer(layer.id()))
if registered_layer:
if not registered_layer == layer:
layer = registered_layer
else:
QgsProject.instance().addMapLayer(layer)
# used for customizations
tree_layer = root_group.addLayer(layer)
if impact_report.legend_layers or (
not impact_report.multi_exposure_impact_function):
QgsLegendRenderer.setNodeLegendStyle(
tree_layer, QgsLegendStyle.Hidden)
legend.adjustBoxSize()
legend.updateFilterByMap(False)
# process to output
# in case output folder not specified
if impact_report.output_folder is None:
impact_report.output_folder = mkdtemp(dir=temp_dir())
output_format = component.output_format
component_output_path = impact_report.component_absolute_output_path(
component.key)
component_output = None
doc_format = QgisComposerComponentsMetadata.OutputFormat.DOC_OUTPUT
template_format = QgisComposerComponentsMetadata.OutputFormat.QPT
if isinstance(output_format, list):
component_output = []
for i in range(len(output_format)):
each_format = output_format[i]
each_path = component_output_path[i]
if each_format in doc_format:
result_path = create_qgis_pdf_output(
impact_report,
each_path,
layout,
each_format,
component)
component_output.append(result_path)
elif each_format == template_format:
result_path = create_qgis_template_output(
each_path, layout)
component_output.append(result_path)
elif isinstance(output_format, dict):
component_output = {}
for key, each_format in list(output_format.items()):
each_path = component_output_path[key]
if each_format in doc_format:
result_path = create_qgis_pdf_output(
impact_report,
each_path,
layout,
each_format,
component)
component_output[key] = result_path
elif each_format == template_format:
result_path = create_qgis_template_output(
each_path, layout)
component_output[key] = result_path
elif (output_format in
QgisComposerComponentsMetadata.OutputFormat.SUPPORTED_OUTPUT):
component_output = None
if output_format in doc_format:
result_path = create_qgis_pdf_output(
impact_report,
component_output_path,
layout,
output_format,
component)
component_output = result_path
elif output_format == template_format:
result_path = create_qgis_template_output(
component_output_path, layout)
component_output = result_path
component.output = component_output
return component.output
def load_template(self):
"""Load a QgsComposer map from a template and render it.
.. note:: THIS METHOD IS EXPERIMENTAL
"""
self.setup_composition()
template_file = QtCore.QFile(self.template)
template_file.open(QtCore.QIODevice.ReadOnly | QtCore.QIODevice.Text)
template_content = template_file.readAll()
template_file.close()
document = QtXml.QDomDocument()
document.setContent(template_content)
# get information for substitutions
# date, time and plugin version
date_time = self.keyword_io.read_keywords(self.layer, 'time_stamp')
tokens = date_time.split('_')
date = tokens[0]
time = tokens[1]
long_version = get_version()
tokens = long_version.split('.')
version = '%s.%s.%s' % (tokens[0], tokens[1], tokens[2])
# map title
LOGGER.debug('InaSAFE Map getMapTitle called')
try:
title = self.keyword_io.read_keywords(self.layer, 'map_title')
except KeywordNotFoundError:
title = None
except Exception:
title = None
if not title:
title = ''
substitution_map = {
'impact-title': title,
'date': date,
'time': time,
'safe-version': version
}
LOGGER.debug(substitution_map)
load_ok = self.composition.loadFromTemplate(document, substitution_map)
if not load_ok:
raise ReportCreationError(
self.tr('Error loading template %s') % self.template)
self.page_width = self.composition.paperWidth()
self.page_height = self.composition.paperHeight()
# set logo
image = self.composition.getComposerItemById('safe-logo')
image.setPictureFile(self.logo)
# Get the main map canvas on the composition and set
# its extents to the event.
map = self.composition.getComposerItemById('impact-map')
if map is not None:
# Recenter the composer map on the center of the canvas
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.iface.mapCanvas().extent()
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width
if width < height:
longest_width = height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
map.setGridIntervalY(y_interval)
else:
raise ReportCreationError(
self.tr('Map "impact-map" could not be found'))
legend = self.composition.getComposerItemById('impact-legend')
legend_attributes = self.map_legend_attributes()
LOGGER.debug(legend_attributes)
#legend_notes = mapLegendAttributes.get('legend_notes', None)
#legend_units = mapLegendAttributes.get('legend_units', None)
legend_title = legend_attributes.get('legend_title', None)
if legend_title is None:
legend_title = ""
legend.setTitle(legend_title)
legend.updateLegend()
def load_template(self):
"""Load a QgsComposer map from a template and render it.
.. note:: THIS METHOD IS EXPERIMENTAL
"""
self.setup_composition()
template_file = QtCore.QFile(self.template)
template_file.open(QtCore.QIODevice.ReadOnly | QtCore.QIODevice.Text)
template_content = template_file.readAll()
template_file.close()
document = QtXml.QDomDocument()
document.setContent(template_content)
# get information for substitutions
# date, time and plugin version
date_time = self.keyword_io.read_keywords(self.layer, 'time_stamp')
tokens = date_time.split('_')
date = tokens[0]
time = tokens[1]
long_version = get_version()
tokens = long_version.split('.')
version = '%s.%s.%s' % (tokens[0], tokens[1], tokens[2])
# map title
LOGGER.debug('InaSAFE Map getMapTitle called')
try:
title = self.keyword_io.read_keywords(self.layer, 'map_title')
except KeywordNotFoundError:
title = None
except Exception:
title = None
if not title:
title = ''
substitution_map = {
'impact-title': title,
'date': date,
'time': time,
'safe-version': version
}
LOGGER.debug(substitution_map)
load_ok = self.composition.loadFromTemplate(document,
substitution_map)
if not load_ok:
raise ReportCreationError(
self.tr('Error loading template %s') %
self.template)
self.page_width = self.composition.paperWidth()
self.page_height = self.composition.paperHeight()
# set logo
image = self.composition.getComposerItemById('safe-logo')
image.setPictureFile(self.logo)
# Get the main map canvas on the composition and set
# its extents to the event.
map = self.composition.getComposerItemById('impact-map')
if map is not None:
# Recenter the composer map on the center of the canvas
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.iface.mapCanvas().extent()
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width
if width < height:
longest_width = height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
map.setGridIntervalY(y_interval)
else:
raise ReportCreationError(self.tr(
'Map "impact-map" could not be found'))
legend = self.composition.getComposerItemById('impact-legend')
legend_attributes = self.map_legend_attributes()
LOGGER.debug(legend_attributes)
#legend_notes = mapLegendAttributes.get('legend_notes', None)
#legend_units = mapLegendAttributes.get('legend_units', None)
legend_title = legend_attributes.get('legend_title', None)
if legend_title is None:
legend_title = ""
legend.setTitle(legend_title)
legend.updateLegend()
def qgis_composer_renderer(impact_report, component):
"""Default Map Report Renderer using QGIS Composer.
Render using qgis composer for a given impact_report data and component
context
:param impact_report: ImpactReport contains data about the report that is
going to be generated
:type impact_report: safe.report.impact_report.ImpactReport
:param component: Contains the component metadata and context for
rendering the output
:type component:
safe.report.report_metadata.QgisComposerComponentsMetadata
:return: whatever type of output the component should be
.. versionadded:: 4.0
"""
context = component.context
""":type: safe.report.extractors.composer.QGISComposerContext"""
qgis_composition_context = impact_report.qgis_composition_context
inasafe_context = impact_report.inasafe_context
# load composition object
composition = QgsComposition(qgis_composition_context.map_settings)
# load template
main_template_folder = impact_report.metadata.template_folder
template_path = os.path.join(main_template_folder, component.template)
with open(template_path) as template_file:
template_content = template_file.read()
document = QtXml.QDomDocument()
document.setContent(template_content)
load_status = composition.loadFromTemplate(
document, context.substitution_map)
if not load_status:
raise TemplateLoadingError(
tr('Error loading template: %s') % template_path)
# replace image path
for img in context.image_elements:
item_id = img.get('id')
path = img.get('path')
image = composition.getComposerItemById(item_id)
""":type: qgis.core.QgsComposerPicture"""
if image is not None and path is not None:
try:
image.setPicturePath(path)
except:
pass
# replace html frame
for html_el in context.html_frame_elements:
item_id = html_el.get('id')
mode = html_el.get('mode')
html_element = composition.getComposerItemById(item_id)
""":type: qgis.core.QgsComposerHtml"""
if html_element:
if mode == 'text':
text = html_el.get('text')
text = text if text else ''
html_element.setContentMode(QgsComposerHtml.ManualHtml)
html_element.setHtml(text)
html_element.loadHtml()
elif mode == 'url':
url = html_el.get('url')
html_element.setContentMode(QgsComposerHtml.Url)
qurl = QUrl.fromLocalFile(url)
html_element.setUrl(qurl)
# resize map extent
for map_el in context.map_elements:
item_id = map_el.get('id')
split_count = map_el.get('grid_split_count')
layers = map_el.get('layers')
map_extent_option = map_el.get('extent')
composer_map = composition.getComposerItemById(item_id)
""":type: qgis.core.QgsComposerMap"""
if isinstance(composer_map, QgsComposerMap):
composer_map.setKeepLayerSet(True)
layer_set = [l.id() for l in layers if isinstance(l, QgsMapLayer)]
composer_map.setLayerSet(layer_set)
if map_extent_option and isinstance(
map_extent_option, QgsRectangle):
# use provided map extent
extent = map_extent_option
else:
# if map extent not provided, try to calculate extent
# from list of given layers. Combine it so all layers were
# shown properly
extent = QgsRectangle()
extent.setMinimal()
for l in layers:
# combine extent if different layer is provided.
extent.combineExtentWith(l.extent())
width = extent.width()
height = extent.height()
longest_width = width if width > height else height
half_length = longest_width / 2
margin = half_length / 5
center = extent.center()
min_x = center.x() - half_length - margin
max_x = center.x() + half_length + margin
min_y = center.y() - half_length - margin
max_y = center.y() + half_length + margin
# noinspection PyCallingNonCallable
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
composer_map.zoomToExtent(square_extent)
composer_map.renderModeUpdateCachedImage()
actual_extent = composer_map.extent()
# calculate intervals for grid
x_interval = actual_extent.width() / split_count
composer_map.grid().setIntervalX(x_interval)
y_interval = actual_extent.height() / split_count
composer_map.grid().setIntervalY(y_interval)
# calculate legend element
for leg_el in context.map_legends:
item_id = leg_el.get('id')
title = leg_el.get('title')
layers = leg_el.get('layers')
symbol_count = leg_el.get('symbol_count')
column_count = leg_el.get('column_count')
legend = composition.getComposerItemById(item_id)
""":type: qgis.core.QgsComposerLegend"""
if isinstance(legend, QgsComposerLegend):
# set column count
if column_count:
legend.setColumnCount(column_count)
elif symbol_count <= 5:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 5 + 1)
# set legend title
if title is not None:
legend.setTitle(title)
# set legend
root_group = legend.modelV2().rootGroup()
for l in layers:
# used for customizations
tree_layer = root_group.addLayer(l)
QgsLegendRenderer.setNodeLegendStyle(
tree_layer, QgsComposerLegendStyle.Hidden)
legend.synchronizeWithModel()
# process to output
# in case output folder not specified
if impact_report.output_folder is None:
impact_report.output_folder = mkdtemp(dir=temp_dir())
output_format = component.output_format
component_output_path = impact_report.component_absolute_output_path(
component.key)
component_output = None
doc_format = QgisComposerComponentsMetadata.OutputFormat.DOC_OUTPUT
template_format = QgisComposerComponentsMetadata.OutputFormat.QPT
if isinstance(output_format, list):
component_output = []
for i in range(len(output_format)):
each_format = output_format[i]
each_path = component_output_path[i]
if each_format in doc_format:
result_path = create_qgis_pdf_output(
each_path,
composition,
impact_report.qgis_composition_context,
each_format,
component)
component_output.append(result_path)
elif each_format == template_format:
result_path = create_qgis_template_output(
each_path, composition)
component_output.append(result_path)
elif isinstance(output_format, dict):
component_output = {}
for key, each_format in output_format.iteritems():
each_path = component_output_path[key]
if each_format in doc_format:
result_path = create_qgis_pdf_output(
each_path,
composition,
impact_report.qgis_composition_context,
each_format,
component)
component_output[key] = result_path
elif each_format == template_format:
result_path = create_qgis_template_output(
each_path, composition)
component_output[key] = result_path
elif (output_format in
QgisComposerComponentsMetadata.OutputFormat.SUPPORTED_OUTPUT):
component_output = None
if output_format in doc_format:
result_path = create_qgis_pdf_output(
component_output_path,
composition,
impact_report.qgis_composition_context,
output_format,
component)
component_output = result_path
elif output_format == template_format:
result_path = create_qgis_template_output(
component_output_path, composition)
component_output = result_path
component.output = component_output
return component.output
def load_template(self):
"""Load a QgsComposer map from a template.
"""
self.setup_composition()
template_file = QtCore.QFile(self.template)
template_file.open(QtCore.QIODevice.ReadOnly | QtCore.QIODevice.Text)
template_content = template_file.readAll()
template_file.close()
document = QtXml.QDomDocument()
document.setContent(template_content)
# get information for substitutions
# date, time and plugin version
date_time = self.keyword_io.read_keywords(self.layer, 'time_stamp')
if date_time is None:
date = ''
time = ''
else:
tokens = date_time.split('_')
date = tokens[0]
time = tokens[1]
long_version = get_version()
tokens = long_version.split('.')
version = '%s.%s.%s' % (tokens[0], tokens[1], tokens[2])
title = self.map_title()
if not title:
title = ''
substitution_map = {
'impact-title': title,
'date': date,
'time': time,
'safe-version': version,
'disclaimer': self.disclaimer
}
LOGGER.debug(substitution_map)
load_ok = self.composition.loadFromTemplate(
document, substitution_map)
if not load_ok:
raise ReportCreationError(
self.tr('Error loading template %s') %
self.template)
self.page_width = self.composition.paperWidth()
self.page_height = self.composition.paperHeight()
# set InaSAFE logo
image = self.composition.getComposerItemById('safe-logo')
if image is not None:
image.setPictureFile(self.safe_logo)
else:
raise ReportCreationError(self.tr(
'Image "safe-logo" could not be found'))
# set north arrow
image = self.composition.getComposerItemById('north-arrow')
if image is not None:
image.setPictureFile(self.north_arrow)
else:
raise ReportCreationError(self.tr(
'Image "north arrow" could not be found'))
# set organisation logo
image = self.composition.getComposerItemById('organisation-logo')
if image is not None:
image.setPictureFile(self.org_logo)
else:
raise ReportCreationError(self.tr(
'Image "organisation-logo" could not be found'))
# set impact report table
table = self.composition.getComposerItemById('impact-report')
if table is not None:
text = self.keyword_io.read_keywords(self.layer, 'impact_summary')
if text is None:
text = ''
table.setText(text)
table.setHtmlState(1)
else:
LOGGER.debug('"impact-report" element not found.')
# Get the main map canvas on the composition and set
# its extents to the event.
composer_map = self.composition.getComposerItemById('impact-map')
if composer_map is not None:
# Recenter the composer map on the center of the extent
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.extent
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width
if width < height:
longest_width = height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
composer_map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
composer_map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
composer_map.setGridIntervalY(y_interval)
else:
raise ReportCreationError(self.tr(
'Map "impact-map" could not be found'))
legend = self.composition.getComposerItemById('impact-legend')
legend_attributes = self.map_legend_attributes()
LOGGER.debug(legend_attributes)
#legend_notes = mapLegendAttributes.get('legend_notes', None)
#legend_units = mapLegendAttributes.get('legend_units', None)
legend_title = legend_attributes.get('legend_title', None)
symbol_count = 1
if self.layer.type() == QgsMapLayer.VectorLayer:
renderer = self.layer.rendererV2()
if renderer.type() in ['', '']:
symbol_count = len(self.layer.legendSymbologyItems())
else:
renderer = self.layer.renderer()
if renderer.type() in ['']:
symbol_count = len(self.layer.legendSymbologyItems())
if symbol_count <= 5:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 5 + 1)
if legend_title is None:
legend_title = ""
legend.setTitle(legend_title)
legend.updateLegend()
# remove from legend all layers, except impact one
model = legend.model()
if model.rowCount() > 0 and model.columnCount() > 0:
impact_item = model.findItems(self.layer.name())[0]
row = impact_item.index().row()
model.removeRows(row + 1, model.rowCount() - row)
if row > 0:
model.removeRows(0, row)
class DEMBlock:
def __init__(self, dem_width, dem_height, dem_values, plane_width,
plane_height, offsetX, offsetY):
self.dem_width = dem_width
self.dem_height = dem_height
self.dem_values = dem_values
self.plane_width = plane_width
self.plane_height = plane_height
self.offsetX = offsetX
self.offsetY = offsetY
self.orig_stats = {"max": max(dem_values), "min": min(dem_values)}
self.rect = QgsRectangle(offsetX - plane_width * 0.5,
offsetY - plane_height * 0.5,
offsetX + plane_width * 0.5,
offsetY + plane_height * 0.5)
self.properties = {"width": dem_width, "height": dem_height}
self.properties["plane"] = {
"width": plane_width,
"height": plane_height,
"offsetX": offsetX,
"offsetY": offsetY
}
self.clip_geometry = None
def set(self, key, value):
"""set property"""
self.properties[key] = value
def setClipGeometry(self, geometry):
self.clip_geometry = geometry
def zShift(self, shift):
if shift != 0:
self.dem_values = map(lambda x: x + shift, self.dem_values)
def zScale(self, scale):
if scale != 1:
self.dem_values = map(lambda x: x * scale, self.dem_values)
def write(self, writer):
mapTo3d = writer.settings.mapTo3d()
writer.write("bl = lyr.addBlock({0}, {1});\n".format(
pyobj2js(self.properties), pyobj2js(bool(self.clip_geometry))))
writer.write("bl.data = [{0}];\n".format(",".join(
map(gdal2threejs.formatValue, self.dem_values))))
# clipped with polygon layer
if self.clip_geometry:
z_func = lambda x, y: 0
transform_func = lambda x, y, z: mapTo3d.transform(x, y, z)
geom = PolygonGeometry.fromQgsGeometry(self.clip_geometry, z_func,
transform_func)
geom.splitPolygon(
writer.triangleMesh(self.dem_width, self.dem_height))
polygons = []
for polygon in geom.polygons:
bnds = []
for boundary in polygon:
bnds.append(map(lambda pt: [pt.x, pt.y], boundary))
polygons.append(bnds)
writer.write("bl.clip = {};\n")
writer.write("bl.clip.polygons = {0};\n".format(
pyobj2js(polygons)))
triangles = Triangles()
polygons = []
for polygon in geom.split_polygons:
boundary = polygon[0]
if len(polygon) == 1 and len(boundary) == 4:
# vertex order should be counter-clockwise
triangles.addTriangle(boundary[0], boundary[2],
boundary[1])
else:
bnds = [
map(lambda pt: [pt.x, pt.y], bnd) for bnd in polygon
]
polygons.append(bnds)
vf = {
"v": map(lambda pt: [pt.x, pt.y], triangles.vertices),
"f": triangles.faces
}
writer.write("bl.clip.triangles = {0};\n".format(pyobj2js(vf)))
writer.write("bl.clip.split_polygons = {0};\n".format(
pyobj2js(polygons)))
def getValue(self, x, y):
def _getValue(gx, gy):
return self.dem_values[gx + self.dem_width * gy]
if 0 <= x and x <= self.dem_width - 1 and 0 <= y and y <= self.dem_height - 1:
ix, iy = int(x), int(y)
sx, sy = x - ix, y - iy
z11 = _getValue(ix, iy)
z21 = 0 if x == self.dem_width - 1 else _getValue(ix + 1, iy)
z12 = 0 if y == self.dem_height - 1 else _getValue(ix, iy + 1)
z22 = 0 if x == self.dem_width - 1 or y == self.dem_height - \
1 else _getValue(ix + 1, iy + 1)
return (1 - sx) * ((1 - sy) * z11 + sy * z12) + sx * \
((1 - sy) * z21 + sy * z22) # bilinear interpolation
return 0 # as safe null value
def gridPointToPoint(self, x, y):
x = self.rect.xMinimum() + self.rect.width() / (self.dem_width - 1) * x
y = self.rect.yMaximum() - self.rect.height() / (self.dem_height -
1) * y
return x, y
def pointToGridPoint(self, x, y):
x = (x - self.rect.xMinimum()) / \
self.rect.width() * (self.dem_width - 1)
y = (self.rect.yMaximum() - y) / \
self.rect.height() * (self.dem_height - 1)
return x, y
def processAlgorithm(self, parameters, context, feedback):
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
hOverlay = self.getParameterValue(self.HOVERLAY)
vOverlay = self.getParameterValue(self.VOVERLAY)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: {0}/{1}').format(
hSpacing, vSpacing))
if hSpacing <= hOverlay or vSpacing <= vOverlay:
raise GeoAlgorithmExecutionException(
self.tr('Invalid overlay: {0}/{1}').format(hOverlay, vOverlay))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr(
'Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
fields = QgsFields()
fields.append(QgsField('left', QVariant.Double, '', 24, 16))
fields.append(QgsField('top', QVariant.Double, '', 24, 16))
fields.append(QgsField('right', QVariant.Double, '', 24, 16))
fields.append(QgsField('bottom', QVariant.Double, '', 24, 16))
fields.append(QgsField('id', QVariant.Int, '', 10, 0))
fields.append(QgsField('coord', QVariant.Double, '', 24, 15))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fields, QgsWkbTypes.LineString, crs, context)
if hOverlay > 0:
hSpace = [hSpacing - hOverlay, hOverlay]
else:
hSpace = [hSpacing, hSpacing]
if vOverlay > 0:
vSpace = [vSpacing - vOverlay, vOverlay]
else:
vSpace = [vSpacing, vSpacing]
feat = QgsFeature()
feat.initAttributes(len(fields))
count = 0
id = 1
# latitude lines
count_max = height / vSpacing
count_update = count_max * 0.10
y = bbox.yMaximum()
while y >= bbox.yMinimum():
pt1 = QgsPoint(bbox.xMinimum(), y)
pt2 = QgsPoint(bbox.xMaximum(), y)
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([bbox.xMinimum(), y, bbox.xMaximum(), y, id, y])
writer.addFeature(feat, QgsFeatureSink.FastInsert)
y = y - vSpace[count % 2]
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
feedback.setProgress(int(count / count_max * 50))
feedback.setProgress(50)
# longitude lines
# counters for progressbar - update every 5%
count = 0
count_max = width / hSpacing
count_update = count_max * 0.10
x = bbox.xMinimum()
while x <= bbox.xMaximum():
pt1 = QgsPoint(x, bbox.yMaximum())
pt2 = QgsPoint(x, bbox.yMinimum())
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([x, bbox.yMaximum(), x, bbox.yMinimum(), id, x])
writer.addFeature(feat, QgsFeatureSink.FastInsert)
x = x + hSpace[count % 2]
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
feedback.setProgress(50 + int(count / count_max * 50))
del writer
def processAlgorithm(self, progress):
extent = self.getParameterValue(self.EXTENT).split(",")
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]), float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(self.tr("Invalid grid spacing: %s/%s" % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(self.tr("Horizontal spacing is too small for the covered area"))
if height < vSpacing:
raise GeoAlgorithmExecutionException(self.tr("Vertical spacing is too small for the covered area"))
fields = [
QgsField("left", QVariant.Double, "", 24, 16),
QgsField("top", QVariant.Double, "", 24, 16),
QgsField("right", QVariant.Double, "", 24, 16),
QgsField("bottom", QVariant.Double, "", 24, 16),
QgsField("id", QVariant.Int, "", 10, 0),
QgsField("coord", QVariant.Double, "", 24, 15),
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields, QgsWkbTypes.LineString, crs)
feat = QgsFeature()
feat.initAttributes(len(fields))
count = 0
id = 1
# latitude lines
count_max = height / vSpacing
count_update = count_max * 0.10
y = bbox.yMaximum()
while y >= bbox.yMinimum():
pt1 = QgsPointV2(bbox.xMinimum(), y)
pt2 = QgsPointV2(bbox.xMaximum(), y)
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([bbox.xMinimum(), y, bbox.xMaximum(), y, id, y])
writer.addFeature(feat)
y = y - vSpacing
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
progress.setPercentage(int(count / count_max * 50))
progress.setPercentage(50)
# longitude lines
# counters for progressbar - update every 5%
count = 0
count_max = width / hSpacing
count_update = count_max * 0.10
x = bbox.xMinimum()
while x <= bbox.xMaximum():
pt1 = QgsPointV2(x, bbox.yMaximum())
pt2 = QgsPointV2(x, bbox.yMinimum())
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([x, bbox.yMaximum(), x, bbox.yMinimum(), id, x])
writer.addFeature(feat)
x = x + hSpacing
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
progress.setPercentage(50 + int(count / count_max * 50))
del writer
def processAlgorithm(self, progress):
idx = self.getParameterValue(self.TYPE)
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
centerX = bbox.center().x()
centerY = bbox.center().y()
#~ originX = centerX - width / 2.0
#~ originY = centerY - height / 2.0
originX = bbox.xMinimum()
originY = bbox.yMaximum()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: %s/%s' % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr(
'Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
#if self.types[idx].find(self.tr('polygon')) >= 0:
if idx != 0:
geometryType = QGis.WKBPolygon
else:
geometryType = QGis.WKBLineString
fields = [
QgsField('left', QVariant.Double, '', 24, 16),
QgsField('top', QVariant.Double, '', 24, 16),
QgsField('right', QVariant.Double, '', 24, 16),
QgsField('bottom', QVariant.Double, '', 24, 16)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fields, geometryType, crs)
if idx == 0:
self._rectangleGridLine(writer, width, height, originX, originY,
hSpacing, vSpacing)
elif idx == 1:
self._rectangleGridPoly(writer, width, height, originX, originY,
hSpacing, vSpacing)
elif idx == 2:
self._diamondGrid(writer, width, height, originX, originY,
hSpacing, vSpacing)
elif idx == 3:
self._hexagonGrid(writer, width, height, originX, originY,
hSpacing, vSpacing)
del writer
class HeatmapPixelSizeWidget(BASE, WIDGET):
def __init__(self):
super(HeatmapPixelSizeWidget, self).__init__(None)
self.setupUi(self)
self.layer_bounds = QgsRectangle()
self.layer = None
self.raster_bounds = QgsRectangle()
self.radius = 100
self.radius_field = None
self.mCellXSpinBox.setShowClearButton(False)
self.mCellYSpinBox.setShowClearButton(False)
self.mRowsSpinBox.setShowClearButton(False)
self.mColumnsSpinBox.setShowClearButton(False)
self.mCellYSpinBox.valueChanged.connect(self.mCellXSpinBox.setValue)
self.mCellXSpinBox.valueChanged.connect(self.pixelSizeChanged)
self.mRowsSpinBox.valueChanged.connect(self.rowsChanged)
self.mColumnsSpinBox.valueChanged.connect(self.columnsChanged)
def setRadius(self, radius):
self.radius = radius
self.recalculate_bounds()
def setRadiusField(self, radius_field):
self.radius_field = radius_field
self.recalculate_bounds()
def setLayer(self, layer):
if not layer:
return
bounds = layer.extent()
if bounds.isNull():
return
self.layer = layer
self.layer_bounds = bounds
self.recalculate_bounds()
def recalculate_bounds(self):
self.raster_bounds = QgsRectangle(self.layer_bounds)
if not self.layer:
return
max_radius = self.radius
if self.radius_field:
idx = self.layer.fields().lookupField(self.radius_field)
try:
max_radius = float(self.layer.maximumValue(idx))
except:
pass
self.raster_bounds.setXMinimum(self.raster_bounds.xMinimum() - max_radius)
self.raster_bounds.setYMinimum(self.raster_bounds.yMinimum() - max_radius)
self.raster_bounds.setXMaximum(self.raster_bounds.xMaximum() + max_radius)
self.raster_bounds.setYMaximum(self.raster_bounds.yMaximum() + max_radius)
self.pixelSizeChanged()
def pixelSizeChanged(self):
cell_size = self.mCellXSpinBox.value()
if cell_size <= 0:
return
self.mCellYSpinBox.blockSignals(True)
self.mCellYSpinBox.setValue(cell_size)
self.mCellYSpinBox.blockSignals(False)
rows = max(round(self.raster_bounds.height() / cell_size) + 1, 1)
cols = max(round(self.raster_bounds.width() / cell_size) + 1, 1)
self.mRowsSpinBox.blockSignals(True)
self.mRowsSpinBox.setValue(rows)
self.mRowsSpinBox.blockSignals(False)
self.mColumnsSpinBox.blockSignals(True)
self.mColumnsSpinBox.setValue(cols)
self.mColumnsSpinBox.blockSignals(False)
def rowsChanged(self):
rows = self.mRowsSpinBox.value()
if rows <= 0:
return
cell_size = self.raster_bounds.height() / rows
cols = max(round(self.raster_bounds.width() / cell_size) + 1, 1)
self.mColumnsSpinBox.blockSignals(True)
self.mColumnsSpinBox.setValue(cols)
self.mColumnsSpinBox.blockSignals(False)
for w in [self.mCellXSpinBox, self.mCellYSpinBox]:
w.blockSignals(True)
w.setValue(cell_size)
w.blockSignals(False)
def columnsChanged(self):
cols = self.mColumnsSpinBox.value()
if cols < 2:
return
cell_size = self.raster_bounds.width() / (cols - 1)
rows = max(round(self.raster_bounds.height() / cell_size), 1)
self.mRowsSpinBox.blockSignals(True)
self.mRowsSpinBox.setValue(rows)
self.mRowsSpinBox.blockSignals(False)
for w in [self.mCellXSpinBox, self.mCellYSpinBox]:
w.blockSignals(True)
w.setValue(cell_size)
w.blockSignals(False)
def setValue(self, value):
try:
numeric_value = float(value)
except:
return False
self.mCellXSpinBox.setValue(numeric_value)
self.mCellYSpinBox.setValue(numeric_value)
return True
def value(self):
return self.mCellXSpinBox.value()
class HeatmapPixelSizeWidget(BASE, WIDGET):
def __init__(self):
super(HeatmapPixelSizeWidget, self).__init__(None)
self.setupUi(self)
self.layer_bounds = QgsRectangle()
self.layer = None
self.raster_bounds = QgsRectangle()
self.radius = 100
self.radius_field = None
self.mCellXSpinBox.setShowClearButton(False)
self.mCellYSpinBox.setShowClearButton(False)
self.mRowsSpinBox.setShowClearButton(False)
self.mColumnsSpinBox.setShowClearButton(False)
self.mCellYSpinBox.valueChanged.connect(self.mCellXSpinBox.setValue)
self.mCellXSpinBox.valueChanged.connect(self.pixelSizeChanged)
self.mRowsSpinBox.valueChanged.connect(self.rowsChanged)
self.mColumnsSpinBox.valueChanged.connect(self.columnsChanged)
def setRadius(self, radius):
self.radius = radius
self.recalculate_bounds()
def setRadiusField(self, radius_field):
self.radius_field = radius_field
self.recalculate_bounds()
def setLayer(self, layer):
if not layer:
return
bounds = layer.extent()
if bounds.isNull():
return
self.layer = layer
self.layer_bounds = bounds
self.recalculate_bounds()
def recalculate_bounds(self):
self.raster_bounds = QgsRectangle(self.layer_bounds)
if not self.layer:
return
max_radius = self.radius
if self.radius_field:
idx = self.layer.fields().lookupField(self.radius_field)
try:
max_radius = float(self.layer.maximumValue(idx))
except:
pass
self.raster_bounds.setXMinimum(self.raster_bounds.xMinimum() -
max_radius)
self.raster_bounds.setYMinimum(self.raster_bounds.yMinimum() -
max_radius)
self.raster_bounds.setXMaximum(self.raster_bounds.xMaximum() +
max_radius)
self.raster_bounds.setYMaximum(self.raster_bounds.yMaximum() +
max_radius)
self.pixelSizeChanged()
def pixelSizeChanged(self):
cell_size = self.mCellXSpinBox.value()
if cell_size <= 0:
return
self.mCellYSpinBox.blockSignals(True)
self.mCellYSpinBox.setValue(cell_size)
self.mCellYSpinBox.blockSignals(False)
rows = max(round(self.raster_bounds.height() / cell_size) + 1, 1)
cols = max(round(self.raster_bounds.width() / cell_size) + 1, 1)
self.mRowsSpinBox.blockSignals(True)
self.mRowsSpinBox.setValue(rows)
self.mRowsSpinBox.blockSignals(False)
self.mColumnsSpinBox.blockSignals(True)
self.mColumnsSpinBox.setValue(cols)
self.mColumnsSpinBox.blockSignals(False)
def rowsChanged(self):
rows = self.mRowsSpinBox.value()
if rows <= 0:
return
cell_size = self.raster_bounds.height() / rows
cols = max(round(self.raster_bounds.width() / cell_size) + 1, 1)
self.mColumnsSpinBox.blockSignals(True)
self.mColumnsSpinBox.setValue(cols)
self.mColumnsSpinBox.blockSignals(False)
for w in [self.mCellXSpinBox, self.mCellYSpinBox]:
w.blockSignals(True)
w.setValue(cell_size)
w.blockSignals(False)
def columnsChanged(self):
cols = self.mColumnsSpinBox.value()
if cols < 2:
return
cell_size = self.raster_bounds.width() / (cols - 1)
rows = max(round(self.raster_bounds.height() / cell_size), 1)
self.mRowsSpinBox.blockSignals(True)
self.mRowsSpinBox.setValue(rows)
self.mRowsSpinBox.blockSignals(False)
for w in [self.mCellXSpinBox, self.mCellYSpinBox]:
w.blockSignals(True)
w.setValue(cell_size)
w.blockSignals(False)
def setValue(self, value):
try:
numeric_value = float(value)
except:
return False
self.mCellXSpinBox.setValue(numeric_value)
self.mCellYSpinBox.setValue(numeric_value)
return True
def value(self):
return self.mCellXSpinBox.value()
def draw_composition(self):
"""Draw all the components in the composition."""
# This is deprecated - use inasafe-logo-<colour> rather
safe_logo = self.composition.getComposerItemById(
'safe-logo')
# Next two options replace safe logo in 3.2
black_inasafe_logo = self.composition.getComposerItemById(
'black-inasafe-logo')
white_inasafe_logo = self.composition.getComposerItemById(
'white-inasafe-logo')
north_arrow = self.composition.getComposerItemById(
'north-arrow')
organisation_logo = self.composition.getComposerItemById(
'organisation-logo')
supporters_logo = self.composition.getComposerItemById(
'supporters-logo')
if qgis_version() < 20600:
if safe_logo is not None:
# its deprecated so just use black_inasafe_logo
safe_logo.setPictureFile(self.inasafe_logo)
if black_inasafe_logo is not None:
black_inasafe_logo.setPictureFile(self._black_inasafe_logo)
if white_inasafe_logo is not None:
white_inasafe_logo.setPictureFile(self._white_inasafe_logo)
if north_arrow is not None:
north_arrow.setPictureFile(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPictureFile(self.organisation_logo)
if supporters_logo is not None:
supporters_logo.setPictureFile(self.supporters_logo)
else:
if safe_logo is not None:
# its deprecated so just use black_inasafe_logo
safe_logo.setPicturePath(self.inasafe_logo)
if black_inasafe_logo is not None:
black_inasafe_logo.setPicturePath(self._black_inasafe_logo)
if white_inasafe_logo is not None:
white_inasafe_logo.setPicturePath(self._white_inasafe_logo)
if north_arrow is not None:
north_arrow.setPicturePath(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPicturePath(self.organisation_logo)
if supporters_logo is not None:
supporters_logo.setPicturePath(self.supporters_logo)
# Set impact report table
table = self.composition.getComposerItemById('impact-report')
if table is not None:
text = self._keyword_io.read_keywords(self.layer, 'impact_summary')
if text is None:
text = ''
table.setText(text)
table.setHtmlState(1)
# Get the main map canvas on the composition and set its extents to
# the event.
composer_map = self.composition.getComposerItemById('impact-map')
if composer_map is not None:
# Recenter the composer map on the center of the extent
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.extent
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width if width > height else height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
# noinspection PyCallingNonCallable
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
composer_map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
composer_map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
composer_map.setGridIntervalY(y_interval)
legend = self.composition.getComposerItemById('impact-legend')
if legend is not None:
symbol_count = ImpactReport.symbol_count(self.layer)
# add legend symbol count from extra_layers
for l in self.extra_layers:
symbol_count += ImpactReport.symbol_count(l)
if symbol_count <= 5:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 5 + 1)
# Set back to blank to #2409
legend.setTitle("")
# Set Legend
# Since QGIS 2.6, legend.model() is obsolete
if qgis_version() < 20600:
layer_set = [self.layer.id()]
layer_set += [l.id() for l in self.extra_layers]
legend.model().setLayerSet(layer_set)
legend.synchronizeWithModel()
else:
root_group = legend.modelV2().rootGroup()
root_group.addLayer(self.layer)
for l in self.extra_layers:
root_group.addLayer(l)
legend.synchronizeWithModel()
def processAlgorithm(self, progress):
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: %s/%s' % (hSpacing, vSpacing)))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
fields = [QgsField('left', QVariant.Double, '', 24, 16),
QgsField('top', QVariant.Double, '', 24, 16),
QgsField('right', QVariant.Double, '', 24, 16),
QgsField('bottom', QVariant.Double, '', 24, 16),
QgsField('id', QVariant.Int, '', 10, 0),
QgsField('coord', QVariant.Double, '', 24, 15)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
QgsWkbTypes.LineString, crs)
feat = QgsFeature()
feat.initAttributes(len(fields))
count = 0
id = 1
# latitude lines
count_max = height / vSpacing
count_update = count_max * 0.10
y = bbox.yMaximum()
while y >= bbox.yMinimum():
pt1 = QgsPointV2(bbox.xMinimum(), y)
pt2 = QgsPointV2(bbox.xMaximum(), y)
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([bbox.xMinimum(),
y,
bbox.xMaximum(),
y,
id,
y])
writer.addFeature(feat)
y = y - vSpacing
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
progress.setPercentage(int(count / count_max * 50))
progress.setPercentage(50)
# longitude lines
# counters for progressbar - update every 5%
count = 0
count_max = width / hSpacing
count_update = count_max * 0.10
x = bbox.xMinimum()
while x <= bbox.xMaximum():
pt1 = QgsPointV2(x, bbox.yMaximum())
pt2 = QgsPointV2(x, bbox.yMinimum())
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([x,
bbox.yMaximum(),
x,
bbox.yMinimum(),
id,
x])
writer.addFeature(feat)
x = x + hSpacing
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
progress.setPercentage(50 + int(count / count_max * 50))
del writer
class DEMBlock:
def __init__(self, dem_width, dem_height, dem_values, plane_width, plane_height, offsetX, offsetY):
self.dem_width = dem_width
self.dem_height = dem_height
self.dem_values = dem_values
self.plane_width = plane_width
self.plane_height = plane_height
self.offsetX = offsetX
self.offsetY = offsetY
self.orig_stats = {"max": max(dem_values), "min": min(dem_values)}
self.rect = QgsRectangle(offsetX - plane_width * 0.5, offsetY - plane_height * 0.5,
offsetX + plane_width * 0.5, offsetY + plane_height * 0.5)
self.properties = {"width": dem_width, "height": dem_height}
self.properties["plane"] = {"width": plane_width, "height": plane_height,
"offsetX": offsetX, "offsetY": offsetY}
self.clip_geometry = None
def set(self, key, value):
"""set property"""
self.properties[key] = value
def setClipGeometry(self, geometry):
self.clip_geometry = geometry
def zShift(self, shift):
if shift != 0:
self.dem_values = map(lambda x: x + shift, self.dem_values)
def zScale(self, scale):
if scale != 1:
self.dem_values = map(lambda x: x * scale, self.dem_values)
def write(self, writer):
mapTo3d = writer.settings.mapTo3d
writer.write("bl = lyr.addBlock({0}, {1});\n".format(pyobj2js(self.properties), pyobj2js(bool(self.clip_geometry))))
writer.write("bl.data = [{0}];\n".format(",".join(map(gdal2threejs.formatValue, self.dem_values))))
# clipped with polygon layer
if self.clip_geometry:
z_func = lambda x, y: 0
transform_func = lambda x, y, z: mapTo3d.transform(x, y, z)
geom = PolygonGeometry.fromQgsGeometry(self.clip_geometry, z_func, transform_func)
geom.splitPolygon(writer.triangleMesh(self.dem_width, self.dem_height))
polygons = []
for polygon in geom.polygons:
bnds = []
for boundary in polygon:
bnds.append(map(lambda pt: [pt.x, pt.y], boundary))
polygons.append(bnds)
writer.write("bl.clip = {};\n")
writer.write("bl.clip.polygons = {0};\n".format(pyobj2js(polygons)))
triangles = Triangles()
polygons = []
for polygon in geom.split_polygons:
boundary = polygon[0]
if len(polygon) == 1 and len(boundary) == 4:
triangles.addTriangle(boundary[0], boundary[2], boundary[1]) # vertex order should be counter-clockwise
else:
bnds = [map(lambda pt: [pt.x, pt.y], bnd) for bnd in polygon]
polygons.append(bnds)
vf = {"v": map(lambda pt: [pt.x, pt.y], triangles.vertices), "f": triangles.faces}
writer.write("bl.clip.triangles = {0};\n".format(pyobj2js(vf)))
writer.write("bl.clip.split_polygons = {0};\n".format(pyobj2js(polygons)))
def getValue(self, x, y):
def _getValue(gx, gy):
return self.dem_values[gx + self.dem_width * gy]
if 0 <= x and x <= self.dem_width - 1 and 0 <= y and y <= self.dem_height - 1:
ix, iy = int(x), int(y)
sx, sy = x - ix, y - iy
z11 = _getValue(ix, iy)
z21 = 0 if x == self.dem_width - 1 else _getValue(ix + 1, iy)
z12 = 0 if y == self.dem_height - 1 else _getValue(ix, iy + 1)
z22 = 0 if x == self.dem_width - 1 or y == self.dem_height - 1 else _getValue(ix + 1, iy + 1)
return (1 - sx) * ((1 - sy) * z11 + sy * z12) + sx * ((1 - sy) * z21 + sy * z22) # bilinear interpolation
return 0 # as safe null value
def gridPointToPoint(self, x, y):
x = self.rect.xMinimum() + self.rect.width() / (self.dem_width - 1) * x
y = self.rect.yMaximum() - self.rect.height() / (self.dem_height - 1) * y
return x, y
def pointToGridPoint(self, x, y):
x = (x - self.rect.xMinimum()) / self.rect.width() * (self.dem_width - 1)
y = (self.rect.yMaximum() - y) / self.rect.height() * (self.dem_height - 1)
return x, y
def draw_composition(self):
"""Draw all the components in the composition."""
safe_logo = self.composition.getComposerItemById('safe-logo')
north_arrow = self.composition.getComposerItemById('north-arrow')
organisation_logo = self.composition.getComposerItemById(
'organisation-logo')
if qgis_version() < 20600:
if safe_logo is not None:
safe_logo.setPictureFile(self.safe_logo)
if north_arrow is not None:
north_arrow.setPictureFile(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPictureFile(self.organisation_logo)
else:
if safe_logo is not None:
safe_logo.setPicturePath(self.safe_logo)
if north_arrow is not None:
north_arrow.setPicturePath(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPicturePath(self.organisation_logo)
# Set impact report table
table = self.composition.getComposerItemById('impact-report')
if table is not None:
text = self._keyword_io.read_keywords(self.layer, 'impact_summary')
if text is None:
text = ''
table.setText(text)
table.setHtmlState(1)
# Get the main map canvas on the composition and set its extents to
# the event.
composer_map = self.composition.getComposerItemById('impact-map')
if composer_map is not None:
# Recenter the composer map on the center of the extent
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.extent
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width
if width < height:
longest_width = height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
# noinspection PyCallingNonCallable
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
composer_map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
composer_map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
composer_map.setGridIntervalY(y_interval)
legend = self.composition.getComposerItemById('impact-legend')
if legend is not None:
legend_attributes = self.map_legend_attributes
legend_title = legend_attributes.get('legend_title', None)
symbol_count = 1
# noinspection PyUnresolvedReferences
if self.layer.type() == QgsMapLayer.VectorLayer:
renderer = self.layer.rendererV2()
if renderer.type() in ['', '']:
symbol_count = len(self.layer.legendSymbologyItems())
else:
renderer = self.layer.renderer()
if renderer.type() in ['']:
symbol_count = len(self.layer.legendSymbologyItems())
if symbol_count <= 5:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 5 + 1)
if legend_title is None:
legend_title = ""
legend.setTitle(legend_title)
# Set Legend
# Since QGIS 2.6, legend.model() is obsolete
if qgis_version() < 20600:
legend.model().setLayerSet([self.layer.id()])
legend.synchronizeWithModel()
else:
root_group = legend.modelV2().rootGroup()
root_group.addLayer(self.layer)
legend.synchronizeWithModel()
def processAlgorithm(self, parameters, context, feedback):
source = self.parameterAsSource(parameters, self.INPUT, context)
field_name = self.parameterAsString(parameters, self.FIELD, context)
type = self.parameterAsEnum(parameters, self.TYPE, context)
use_field = bool(field_name)
field_index = -1
fields = QgsFields()
fields.append(QgsField('id', QVariant.Int, '', 20))
if use_field:
# keep original field type, name and parameters
field_index = source.fields().lookupField(field_name)
if field_index >= 0:
fields.append(source.fields()[field_index])
if type == 0:
# envelope
fields.append(QgsField('width', QVariant.Double, '', 20, 6))
fields.append(QgsField('height', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
elif type == 1:
# oriented rect
fields.append(QgsField('width', QVariant.Double, '', 20, 6))
fields.append(QgsField('height', QVariant.Double, '', 20, 6))
fields.append(QgsField('angle', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
elif type == 2:
# circle
fields.append(QgsField('radius', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
elif type == 3:
# convex hull
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT,
context, fields,
QgsWkbTypes.Polygon,
source.sourceCrs())
if field_index >= 0:
geometry_dict = {}
bounds_dict = {}
total = 50.0 / source.featureCount() if source.featureCount(
) else 1
features = source.getFeatures(
QgsFeatureRequest().setSubsetOfAttributes([field_index]))
for current, f in enumerate(features):
if feedback.isCanceled():
break
if not f.hasGeometry():
continue
if type == 0:
# bounding boxes - calculate on the fly for efficiency
if not f.attributes()[field_index] in bounds_dict:
bounds_dict[f.attributes()[field_index]] = f.geometry(
).boundingBox()
else:
bounds_dict[f.attributes()
[field_index]].combineExtentWith(
f.geometry().boundingBox())
else:
if not f.attributes()[field_index] in geometry_dict:
geometry_dict[f.attributes()[field_index]] = [
f.geometry()
]
else:
geometry_dict[f.attributes()[field_index]].append(
f.geometry())
feedback.setProgress(int(current * total))
if type == 0:
# bounding boxes
current = 0
total = 50.0 / len(bounds_dict) if bounds_dict else 1
for group, rect in bounds_dict.items():
if feedback.isCanceled():
break
# envelope
feature = QgsFeature()
feature.setGeometry(QgsGeometry.fromRect(rect))
feature.setAttributes([
current, group,
rect.width(),
rect.height(),
rect.area(),
rect.perimeter()
])
sink.addFeature(feature, QgsFeatureSink.FastInsert)
geometry_dict[group] = None
feedback.setProgress(50 + int(current * total))
current += 1
else:
current = 0
total = 50.0 / len(geometry_dict) if geometry_dict else 1
for group, geometries in geometry_dict.items():
if feedback.isCanceled():
break
feature = self.createFeature(feedback, current, type,
geometries, group)
sink.addFeature(feature, QgsFeatureSink.FastInsert)
geometry_dict[group] = None
feedback.setProgress(50 + int(current * total))
current += 1
else:
total = 80.0 / source.featureCount() if source.featureCount(
) else 1
features = source.getFeatures(
QgsFeatureRequest().setSubsetOfAttributes([]))
geometry_queue = []
bounds = QgsRectangle()
for current, f in enumerate(features):
if feedback.isCanceled():
break
if not f.hasGeometry():
continue
if type == 0:
# bounding boxes, calculate on the fly for efficiency
bounds.combineExtentWith(f.geometry().boundingBox())
else:
geometry_queue.append(f.geometry())
feedback.setProgress(int(current * total))
if not feedback.isCanceled():
if type == 0:
feature = QgsFeature()
feature.setGeometry(QgsGeometry.fromRect(bounds))
feature.setAttributes([
0,
bounds.width(),
bounds.height(),
bounds.area(),
bounds.perimeter()
])
else:
feature = self.createFeature(feedback, 0, type,
geometry_queue)
sink.addFeature(feature, QgsFeatureSink.FastInsert)
return {self.OUTPUT: dest_id}
def processAlgorithm(self, feedback):
extent = str(self.getParameterValue(self.EXTENT)).split(',')
spacing = float(self.getParameterValue(self.SPACING))
inset = float(self.getParameterValue(self.INSET))
randomize = self.getParameterValue(self.RANDOMIZE)
isSpacing = self.getParameterValue(self.IS_SPACING)
extent = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
fields = QgsFields()
fields.append(QgsField('id', QVariant.Int, '', 10, 0))
mapCRS = iface.mapCanvas().mapSettings().destinationCrs()
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fields, QgsWkbTypes.Point, mapCRS)
if randomize:
seed()
area = extent.width() * extent.height()
if isSpacing:
pSpacing = spacing
else:
pSpacing = sqrt(area / spacing)
f = QgsFeature()
f.initAttributes(1)
f.setFields(fields)
count = 0
total = 100.0 / (area / pSpacing)
y = extent.yMaximum() - inset
extent_geom = QgsGeometry.fromRect(extent)
extent_engine = QgsGeometry.createGeometryEngine(
extent_geom.geometry())
extent_engine.prepareGeometry()
while y >= extent.yMinimum():
x = extent.xMinimum() + inset
while x <= extent.xMaximum():
if randomize:
geom = QgsGeometry().fromPoint(
QgsPoint(
uniform(x - (pSpacing / 2.0),
x + (pSpacing / 2.0)),
uniform(y - (pSpacing / 2.0),
y + (pSpacing / 2.0))))
else:
geom = QgsGeometry().fromPoint(QgsPoint(x, y))
if extent_engine.intersects(geom.geometry()):
f.setAttribute('id', count)
f.setGeometry(geom)
writer.addFeature(f)
x += pSpacing
count += 1
feedback.setProgress(int(count * total))
y = y - pSpacing
del writer
def draw_composition(self):
"""Draw all the components in the composition."""
safe_logo = self.composition.getComposerItemById('safe-logo')
north_arrow = self.composition.getComposerItemById('north-arrow')
organisation_logo = self.composition.getComposerItemById(
'organisation-logo')
if qgis_version() < 20600:
if safe_logo is not None:
safe_logo.setPictureFile(self.safe_logo)
if north_arrow is not None:
north_arrow.setPictureFile(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPictureFile(self.organisation_logo)
else:
if safe_logo is not None:
safe_logo.setPicturePath(self.safe_logo)
if north_arrow is not None:
north_arrow.setPicturePath(self.north_arrow)
if organisation_logo is not None:
organisation_logo.setPicturePath(self.organisation_logo)
# Set impact report table
table = self.composition.getComposerItemById('impact-report')
if table is not None:
text = self._keyword_io.read_keywords(self.layer, 'impact_summary')
if text is None:
text = ''
table.setText(text)
table.setHtmlState(1)
# Get the main map canvas on the composition and set its extents to
# the event.
composer_map = self.composition.getComposerItemById('impact-map')
if composer_map is not None:
# Recenter the composer map on the center of the extent
# Note that since the composer map is square and the canvas may be
# arbitrarily shaped, we center based on the longest edge
canvas_extent = self.extent
width = canvas_extent.width()
height = canvas_extent.height()
longest_width = width
if width < height:
longest_width = height
half_length = longest_width / 2
center = canvas_extent.center()
min_x = center.x() - half_length
max_x = center.x() + half_length
min_y = center.y() - half_length
max_y = center.y() + half_length
# noinspection PyCallingNonCallable
square_extent = QgsRectangle(min_x, min_y, max_x, max_y)
composer_map.setNewExtent(square_extent)
# calculate intervals for grid
split_count = 5
x_interval = square_extent.width() / split_count
composer_map.setGridIntervalX(x_interval)
y_interval = square_extent.height() / split_count
composer_map.setGridIntervalY(y_interval)
legend = self.composition.getComposerItemById('impact-legend')
if legend is not None:
legend_attributes = self.map_legend_attributes
legend_title = legend_attributes.get('legend_title', None)
symbol_count = 1
# noinspection PyUnresolvedReferences
if self.layer.type() == QgsMapLayer.VectorLayer:
renderer = self.layer.rendererV2()
if renderer.type() in ['', '']:
symbol_count = len(self.layer.legendSymbologyItems())
else:
renderer = self.layer.renderer()
if renderer.type() in ['']:
symbol_count = len(self.layer.legendSymbologyItems())
if symbol_count <= 5:
legend.setColumnCount(1)
else:
legend.setColumnCount(symbol_count / 5 + 1)
if legend_title is None:
legend_title = ""
legend.setTitle(legend_title)
# Set Legend
# Since QGIS 2.6, legend.model() is obsolete
if qgis_version() < 20600:
legend.model().setLayerSet([self.layer.id()])
legend.synchronizeWithModel()
else:
root_group = legend.modelV2().rootGroup()
root_group.addLayer(self.layer)
legend.synchronizeWithModel()
def processAlgorithm(self, parameters, context, feedback):
extent = self.getParameterValue(self.EXTENT).split(',')
hSpacing = self.getParameterValue(self.HSPACING)
vSpacing = self.getParameterValue(self.VSPACING)
hOverlay = self.getParameterValue(self.HOVERLAY)
vOverlay = self.getParameterValue(self.VOVERLAY)
crs = QgsCoordinateReferenceSystem(self.getParameterValue(self.CRS))
bbox = QgsRectangle(float(extent[0]), float(extent[2]),
float(extent[1]), float(extent[3]))
width = bbox.width()
height = bbox.height()
if hSpacing <= 0 or vSpacing <= 0:
raise GeoAlgorithmExecutionException(
self.tr('Invalid grid spacing: {0}/{1}').format(hSpacing, vSpacing))
if hSpacing <= hOverlay or vSpacing <= vOverlay:
raise GeoAlgorithmExecutionException(
self.tr('Invalid overlay: {0}/{1}').format(hOverlay, vOverlay))
if width < hSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Horizontal spacing is too small for the covered area'))
if height < vSpacing:
raise GeoAlgorithmExecutionException(
self.tr('Vertical spacing is too small for the covered area'))
fields = QgsFields()
fields.append(QgsField('left', QVariant.Double, '', 24, 16))
fields.append(QgsField('top', QVariant.Double, '', 24, 16))
fields.append(QgsField('right', QVariant.Double, '', 24, 16))
fields.append(QgsField('bottom', QVariant.Double, '', 24, 16))
fields.append(QgsField('id', QVariant.Int, '', 10, 0))
fields.append(QgsField('coord', QVariant.Double, '', 24, 15))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields, QgsWkbTypes.LineString, crs, context)
if hOverlay > 0:
hSpace = [hSpacing - hOverlay, hOverlay]
else:
hSpace = [hSpacing, hSpacing]
if vOverlay > 0:
vSpace = [vSpacing - vOverlay, vOverlay]
else:
vSpace = [vSpacing, vSpacing]
feat = QgsFeature()
feat.initAttributes(len(fields))
count = 0
id = 1
# latitude lines
count_max = height / vSpacing
count_update = count_max * 0.10
y = bbox.yMaximum()
while y >= bbox.yMinimum():
pt1 = QgsPoint(bbox.xMinimum(), y)
pt2 = QgsPoint(bbox.xMaximum(), y)
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([bbox.xMinimum(),
y,
bbox.xMaximum(),
y,
id,
y])
writer.addFeature(feat, QgsFeatureSink.FastInsert)
y = y - vSpace[count % 2]
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
feedback.setProgress(int(count / count_max * 50))
feedback.setProgress(50)
# longitude lines
# counters for progressbar - update every 5%
count = 0
count_max = width / hSpacing
count_update = count_max * 0.10
x = bbox.xMinimum()
while x <= bbox.xMaximum():
pt1 = QgsPoint(x, bbox.yMaximum())
pt2 = QgsPoint(x, bbox.yMinimum())
line = QgsLineString()
line.setPoints([pt1, pt2])
feat.setGeometry(QgsGeometry(line))
feat.setAttributes([x,
bbox.yMaximum(),
x,
bbox.yMinimum(),
id,
x])
writer.addFeature(feat, QgsFeatureSink.FastInsert)
x = x + hSpace[count % 2]
id += 1
count += 1
if int(math.fmod(count, count_update)) == 0:
feedback.setProgress(50 + int(count / count_max * 50))
del writer
def processAlgorithm(self, parameters, context, feedback):
source = self.parameterAsSource(parameters, self.INPUT, context)
if source is None:
raise QgsProcessingException(self.invalidSourceError(parameters, self.INPUT))
field_name = self.parameterAsString(parameters, self.FIELD, context)
type = self.parameterAsEnum(parameters, self.TYPE, context)
use_field = bool(field_name)
field_index = -1
fields = QgsFields()
fields.append(QgsField('id', QVariant.Int, '', 20))
if use_field:
# keep original field type, name and parameters
field_index = source.fields().lookupField(field_name)
if field_index >= 0:
fields.append(source.fields()[field_index])
if type == 0:
# envelope
fields.append(QgsField('width', QVariant.Double, '', 20, 6))
fields.append(QgsField('height', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
elif type == 1:
# oriented rect
fields.append(QgsField('width', QVariant.Double, '', 20, 6))
fields.append(QgsField('height', QVariant.Double, '', 20, 6))
fields.append(QgsField('angle', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
elif type == 2:
# circle
fields.append(QgsField('radius', QVariant.Double, '', 20, 6))
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
elif type == 3:
# convex hull
fields.append(QgsField('area', QVariant.Double, '', 20, 6))
fields.append(QgsField('perimeter', QVariant.Double, '', 20, 6))
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT, context,
fields, QgsWkbTypes.Polygon, source.sourceCrs())
if sink is None:
raise QgsProcessingException(self.invalidSinkError(parameters, self.OUTPUT))
if field_index >= 0:
geometry_dict = {}
bounds_dict = {}
total = 50.0 / source.featureCount() if source.featureCount() else 1
features = source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([field_index]))
for current, f in enumerate(features):
if feedback.isCanceled():
break
if not f.hasGeometry():
continue
if type == 0:
# bounding boxes - calculate on the fly for efficiency
if not f.attributes()[field_index] in bounds_dict:
bounds_dict[f.attributes()[field_index]] = f.geometry().boundingBox()
else:
bounds_dict[f.attributes()[field_index]].combineExtentWith(f.geometry().boundingBox())
else:
if not f.attributes()[field_index] in geometry_dict:
geometry_dict[f.attributes()[field_index]] = [f.geometry()]
else:
geometry_dict[f.attributes()[field_index]].append(f.geometry())
feedback.setProgress(int(current * total))
if type == 0:
# bounding boxes
current = 0
total = 50.0 / len(bounds_dict) if bounds_dict else 1
for group, rect in bounds_dict.items():
if feedback.isCanceled():
break
# envelope
feature = QgsFeature()
feature.setGeometry(QgsGeometry.fromRect(rect))
feature.setAttributes([current, group, rect.width(), rect.height(), rect.area(), rect.perimeter()])
sink.addFeature(feature, QgsFeatureSink.FastInsert)
geometry_dict[group] = None
feedback.setProgress(50 + int(current * total))
current += 1
else:
current = 0
total = 50.0 / len(geometry_dict) if geometry_dict else 1
for group, geometries in geometry_dict.items():
if feedback.isCanceled():
break
feature = self.createFeature(feedback, current, type, geometries, group)
sink.addFeature(feature, QgsFeatureSink.FastInsert)
geometry_dict[group] = None
feedback.setProgress(50 + int(current * total))
current += 1
else:
total = 80.0 / source.featureCount() if source.featureCount() else 1
features = source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([]))
geometry_queue = []
bounds = QgsRectangle()
for current, f in enumerate(features):
if feedback.isCanceled():
break
if not f.hasGeometry():
continue
if type == 0:
# bounding boxes, calculate on the fly for efficiency
bounds.combineExtentWith(f.geometry().boundingBox())
else:
geometry_queue.append(f.geometry())
feedback.setProgress(int(current * total))
if not feedback.isCanceled():
if type == 0:
feature = QgsFeature()
feature.setGeometry(QgsGeometry.fromRect(bounds))
feature.setAttributes([0, bounds.width(), bounds.height(), bounds.area(), bounds.perimeter()])
else:
feature = self.createFeature(feedback, 0, type, geometry_queue)
sink.addFeature(feature, QgsFeatureSink.FastInsert)
return {self.OUTPUT: dest_id}
def import_params(self):
setting_file = QFileDialog.getOpenFileName(
self, self.tr("Open settings file"), self.lastSavingPath, "*.txt")
if setting_file[0] != '':
with open(setting_file[0]) as json_file:
try:
parameters = json.load(json_file)
param_crs = QgsCoordinateReferenceSystem()
param_crs.createFromProj4(parameters["crs_map"])
if (self.map_crs != param_crs):
# do traslation
transform = QgsCoordinateTransform(
param_crs, self.map_crs, QgsProject.instance())
pointMin = transform.transform(parameters["roi_x_min"],
parameters["roi_y_min"])
pointMax = transform.transform(parameters["roi_x_max"],
parameters["roi_y_max"])
self.roi_x_max = pointMax.x()
self.roi_y_min = pointMin.y()
self.roi_x_min = pointMin.x()
self.roi_y_max = pointMax.y()
else:
self.roi_x_max = parameters["roi_x_max"]
self.roi_y_min = parameters["roi_y_min"]
self.roi_x_min = parameters["roi_x_min"]
self.roi_y_max = parameters["roi_y_max"]
self.ui.XMaxLineEdit.setText(str(round(self.roi_x_max, 3)))
self.ui.YMinLineEdit.setText(str(round(self.roi_y_min, 3)))
self.ui.XMinLineEdit.setText(str(round(self.roi_x_min, 3)))
self.ui.YMaxLineEdit.setText(str(round(self.roi_y_max, 3)))
if "roi_rect_Param" in parameters:
self.rect_Params = parameters["roi_rect_Param"]
else:
rec = QgsRectangle(self.roi_x_min, self.roi_y_min,
self.roi_x_max, self.roi_y_max)
self.rect_Params = {
'center': [rec.center().x(),
rec.center().y()],
'width': rec.width(),
'height': rec.height(),
'rotation': 0
}
self.ui.WidthGeoLineEdit.setText(
str(round(self.rect_Params["width"], 3)))
self.ui.HeightGeoLineEdit.setText(
str(round(self.rect_Params["height"], 3)))
self.ui.SpacingLineEdit.setText(
str(round(parameters["spacing_mm"], 2)))
self.scale = parameters['scale']
self.scale_h = parameters['scale_h']
self.scale_w = parameters['scale_w']
self.ui.ScaleLineEdit.setScale(int(parameters["scale"]))
self.upload_size_from_scale()
self.ui.ZScaleDoubleSpinBox.setValue(parameters["z_scale"])
self.get_z_max_z_min()
self.ui.BaseHeightLineEdit.setText(
str(round(parameters["z_base"], 3)))
self.ui.RevereseZCheckBox.setChecked(parameters["z_inv"])
self.get_height_model()
if "divideRow" in parameters:
self.ui.RowPartsSpinBox.setValue(
int(parameters["divideRow"]))
if "divideCols" in parameters:
self.ui.ColPartsSpinBox.setValue(
int(parameters["divideCols"]))
self.paint_extent(self.rect_Params)
except:
QMessageBox.warning(self, self.tr("Attention"),
self.tr("Wrong file"))
