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QGIS/python/plugins/processing/algs/qgis/Grid.py
Matthias Kuhn bb79d13e82 Remove deprecated Qgis::WKBType and API cleanup (#3325) 
* Remove deprecated Qgis::WKBType and API cleanup

Renames QgsWKBTypes to QgsWkbTypes

Replaces usage of the enums:

* Qgis::WKBType with QgsWkbTypes::Type
* Qgis::GeometryType with QgsWkbTypes::GeometryType

Their values should be forward compatible (a fact that was already
explited up to now by casting between the types)

Renames some SSLxxx to SslXxx and URIxxx to UriXxx

* Fix build warnings and simplify type handling

* Add a fixer to rewrite imports

* The forgotten rebase conflictThe forgotten rebase conflicts

* QgsDataSourcURI > QgsDataSourceUri

* QgsWKBTypes > QgsWkbTypes

* Qgis.WKBGeom > QgsWkbTypes.Geom

* Further python fixes

* Guess what... Qgis::wkbDimensions != QgsWkbTypes::wkbDimensions

* Fix tests

* Python 3 updates

* [travis] pull request caching cannot be disabled

so at least use it in r/w mode

* Fix python3 print in plugins
2016-08-04 09:10:08 +02:00

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# -*- coding: utf-8 -*-
"""
***************************************************************************
Grid.py
---------------------
Date : May 2010
Copyright : (C) 2010 by Michael Minn
Email : pyqgis at michaelminn dot com
***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************
"""
__author__ = 'Michael Minn'
__date__ = 'May 2010'
__copyright__ = '(C) 2010, Michael Minn'
# This will get replaced with a git SHA1 when you do a git archive
__revision__ = '$Format:%H$'
import os
import math
from qgis.PyQt.QtCore import QVariant
from qgis.core import QgsRectangle, QgsCoordinateReferenceSystem, Qgis, QgsField, QgsFeature, QgsGeometry, QgsPoint, QgsWkbTypes
from processing.core.GeoAlgorithm import GeoAlgorithm
from processing.core.GeoAlgorithmExecutionException import GeoAlgorithmExecutionException
from processing.core.parameters import ParameterExtent
from processing.core.parameters import ParameterNumber
from processing.core.parameters import ParameterSelection
from processing.core.parameters import ParameterCrs
from processing.core.outputs import OutputVector
pluginPath = os.path.split(os.path.split(os.path.dirname(__file__))[0])[0]
class Grid(GeoAlgorithm):
TYPE = 'TYPE'
EXTENT = 'EXTENT'
HSPACING = 'HSPACING'
VSPACING = 'VSPACING'
CRS = 'CRS'
OUTPUT = 'OUTPUT'
#def getIcon(self):
# return QIcon(os.path.join(pluginPath, 'images', 'ftools', 'vector_grid.png'))
def defineCharacteristics(self):
self.name, self.i18n_name = self.trAlgorithm('Create grid')
self.group, self.i18n_group = self.trAlgorithm('Vector creation tools')
self.types = [self.tr('Rectangle (line)'),
self.tr('Rectangle (polygon)'),
self.tr('Diamond (polygon)'),
self.tr('Hexagon (polygon)')]
self.addParameter(ParameterSelection(self.TYPE,
self.tr('Grid type'), self.types))
self.addParameter(ParameterExtent(self.EXTENT,
self.tr('Grid extent')))
self.addParameter(ParameterNumber(self.HSPACING,
self.tr('Horizontal spacing'), default=10.0))
self.addParameter(ParameterNumber(self.VSPACING,
self.tr('Vertical spacing'), default=10.0))
self.addParameter(ParameterCrs(self.CRS, 'Grid CRS'))
self.addOutput(OutputVector(self.OUTPUT, self.tr('Grid')))
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()
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 = QgsWkbTypes.Polygon
else:
geometryType = QgsWkbTypes.LineString
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 _rectangleGridLine(self, writer, width, height, originX, originY,
hSpacing, vSpacing):
ft = QgsFeature()
columns = int(math.ceil(float(width) / hSpacing))
rows = int(math.ceil(float(height) / vSpacing))
# Longitude lines
for col in xrange(columns + 1):
polyline = []
x = originX + (col * hSpacing)
for row in xrange(rows + 1):
y = originY - (row * vSpacing)
polyline.append(QgsPoint(x, y))
ft.setGeometry(QgsGeometry.fromPolyline(polyline))
ft.setAttributes([x, originY, x, originY + (rows * vSpacing)])
writer.addFeature(ft)
# Latitude lines
for row in xrange(rows + 1):
polyline = []
y = originY - (row * vSpacing)
for col in xrange(columns + 1):
x = originX + (col * hSpacing)
polyline.append(QgsPoint(x, y))
ft.setGeometry(QgsGeometry.fromPolyline(polyline))
ft.setAttributes([originX, y, originX + (col * hSpacing), y])
writer.addFeature(ft)
def _rectangleGridPoly(self, writer, width, height, originX, originY,
hSpacing, vSpacing):
ft = QgsFeature()
columns = int(math.ceil(float(width) / hSpacing))
rows = int(math.ceil(float(height) / vSpacing))
for col in xrange(columns):
# (column + 1) and (row + 1) calculation is used to maintain
# topology between adjacent shapes and avoid overlaps/holes
# due to rounding errors
x1 = originX + (col * hSpacing)
x2 = originX + ((col + 1) * hSpacing)
for row in xrange(rows):
y1 = originY - (row * vSpacing)
y2 = originY - ((row + 1) * vSpacing)
polyline = []
polyline.append(QgsPoint(x1, y1))
polyline.append(QgsPoint(x2, y1))
polyline.append(QgsPoint(x2, y2))
polyline.append(QgsPoint(x1, y2))
polyline.append(QgsPoint(x1, y1))
ft.setGeometry(QgsGeometry.fromPolygon([polyline]))
ft.setAttributes([x1, y1, x2, y2])
writer.addFeature(ft)
def _diamondGrid(self, writer, width, height, originX, originY,
hSpacing, vSpacing):
ft = QgsFeature()
halfHSpacing = hSpacing / 2
halfVSpacing = vSpacing / 2
columns = int(math.ceil(float(width) / halfHSpacing))
rows = int(math.ceil(float(height) / vSpacing))
for col in xrange(columns):
x1 = originX + ((col + 0) * halfHSpacing)
x2 = originX + ((col + 1) * halfHSpacing)
x3 = originX + ((col + 2) * halfHSpacing)
for row in xrange(rows):
if (col % 2) == 0:
y1 = originY - (((row * 2) + 0) * halfVSpacing)
y2 = originY - (((row * 2) + 1) * halfVSpacing)
y3 = originY - (((row * 2) + 2) * halfVSpacing)
else:
y1 = originY - (((row * 2) + 1) * halfVSpacing)
y2 = originY - (((row * 2) + 2) * halfVSpacing)
y3 = originY - (((row * 2) + 3) * halfVSpacing)
polyline = []
polyline.append(QgsPoint(x1, y2))
polyline.append(QgsPoint(x2, y1))
polyline.append(QgsPoint(x3, y2))
polyline.append(QgsPoint(x2, y3))
polyline.append(QgsPoint(x1, y2))
ft.setGeometry(QgsGeometry.fromPolygon([polyline]))
ft.setAttributes([x1, y1, x3, y3])
writer.addFeature(ft)
def _hexagonGrid(self, writer, width, height, originX, originY,
hSpacing, vSpacing):
ft = QgsFeature()
# To preserve symmetry, hspacing is fixed relative to vspacing
xVertexLo = 0.288675134594813 * vSpacing
xVertexHi = 0.577350269189626 * vSpacing
hSpacing = xVertexLo + xVertexHi
halfVSpacing = vSpacing / 2
columns = int(math.ceil(float(width) / hSpacing))
rows = int(math.ceil(float(height) / vSpacing))
for col in xrange(columns):
# (column + 1) and (row + 1) calculation is used to maintain
# topology between adjacent shapes and avoid overlaps/holes
# due to rounding errors
x1 = originX + (col * hSpacing) # far left
x2 = x1 + (xVertexHi - xVertexLo) # left
x3 = originX + ((col + 1) * hSpacing) # right
x4 = x3 + (xVertexHi - xVertexLo) # far right
for row in xrange(rows):
if (col % 2) == 0:
y1 = originY - (((row * 2) + 0) * halfVSpacing) # hi
y2 = originY - (((row * 2) + 1) * halfVSpacing) # mid
y3 = originY - (((row * 2) + 2) * halfVSpacing) # lo
else:
y1 = originY - (((row * 2) + 1) * halfVSpacing) # hi
y2 = originY - (((row * 2) + 2) * halfVSpacing) # mid
y3 = originY - (((row * 2) + 3) * halfVSpacing) # lo
polyline = []
polyline.append(QgsPoint(x1, y2))
polyline.append(QgsPoint(x2, y1))
polyline.append(QgsPoint(x3, y1))
polyline.append(QgsPoint(x4, y2))
polyline.append(QgsPoint(x3, y3))
polyline.append(QgsPoint(x2, y3))
polyline.append(QgsPoint(x1, y2))
ft.setGeometry(QgsGeometry.fromPolygon([polyline]))
ft.setAttributes([x1, y1, x4, y3])
writer.addFeature(ft)
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