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GdalAlgorithmsGeneralTest.py
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GdalAlgorithmsGeneralTest.py
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# -*- coding: utf-8 -*-
"""
***************************************************************************
GdalAlgorithmTests.py
---------------------
Date : January 2016
Copyright : (C) 2016 by Matthias Kuhn
Email : matthias@opengis.ch
***************************************************************************
* *
* 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__ = 'Matthias Kuhn'
__date__ = 'January 2016'
__copyright__ = '(C) 2016, Matthias Kuhn'
import nose2
import os
import shutil
import tempfile
from qgis.core import (QgsProcessingContext,
QgsProcessingFeedback,
QgsCoordinateReferenceSystem,
QgsApplication,
QgsFeature,
QgsGeometry,
QgsPointXY,
QgsProject,
QgsVectorLayer,
QgsRectangle,
QgsProjUtils,
QgsProcessingException,
QgsProcessingFeatureSourceDefinition)
from qgis.testing import (start_app,
unittest)
from processing.algs.gdal.GdalUtils import GdalUtils
from processing.algs.gdal.ogr2ogr import ogr2ogr
from processing.algs.gdal.OgrToPostGis import OgrToPostGis
testDataPath = os.path.join(os.path.dirname(__file__), 'testdata')
class TestGdalAlgorithms(unittest.TestCase):
@classmethod
def setUpClass(cls):
start_app()
from processing.core.Processing import Processing
Processing.initialize()
cls.cleanup_paths = []
@classmethod
def tearDownClass(cls):
for path in cls.cleanup_paths:
shutil.rmtree(path)
def testCommandName(self):
# Test that algorithms report a valid commandName
p = QgsApplication.processingRegistry().providerById('gdal')
for a in p.algorithms():
if a.id() in ('gdal:buildvirtualvector'):
# build virtual vector is an exception
continue
self.assertTrue(a.commandName(), 'Algorithm {} has no commandName!'.format(a.id()))
def testCommandNameInTags(self):
# Test that algorithms commandName is present in provided tags
p = QgsApplication.processingRegistry().providerById('gdal')
for a in p.algorithms():
if not a.commandName():
continue
self.assertTrue(a.commandName() in a.tags(), 'Algorithm {} commandName not found in tags!'.format(a.id()))
def testNoParameters(self):
# Test that algorithms throw QgsProcessingExceptions and not base Python
# exceptions when no parameters specified
p = QgsApplication.processingRegistry().providerById('gdal')
context = QgsProcessingContext()
feedback = QgsProcessingFeedback()
for a in p.algorithms():
try:
a.getConsoleCommands({}, context, feedback)
except QgsProcessingException:
pass
def testGetOgrCompatibleSourceFromMemoryLayer(self):
# create a memory layer and add to project and context
layer = QgsVectorLayer("Point?field=fldtxt:string&field=fldint:integer",
"testmem", "memory")
self.assertTrue(layer.isValid())
pr = layer.dataProvider()
f = QgsFeature()
f.setAttributes(["test", 123])
f.setGeometry(QgsGeometry.fromPointXY(QgsPointXY(100, 200)))
f2 = QgsFeature()
f2.setAttributes(["test2", 457])
f2.setGeometry(QgsGeometry.fromPointXY(QgsPointXY(100, 200)))
self.assertTrue(pr.addFeatures([f, f2]))
self.assertEqual(layer.featureCount(), 2)
QgsProject.instance().addMapLayer(layer)
context = QgsProcessingContext()
context.setProject(QgsProject.instance())
alg = QgsApplication.processingRegistry().createAlgorithmById('gdal:buffervectors')
self.assertIsNotNone(alg)
parameters = {'INPUT': 'testmem'}
feedback = QgsProcessingFeedback()
# check that memory layer is automatically saved out to geopackage when required by GDAL algorithms
ogr_data_path, ogr_layer_name = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback,
executing=True)
self.assertTrue(ogr_data_path)
self.assertTrue(ogr_data_path.endswith('.gpkg'))
self.assertTrue(os.path.exists(ogr_data_path))
self.assertTrue(ogr_layer_name)
# make sure that layer has correct features
res = QgsVectorLayer(ogr_data_path, 'res')
self.assertTrue(res.isValid())
self.assertEqual(res.featureCount(), 2)
# with memory layers - if not executing layer source should be ignored and replaced
# with a dummy path, because:
# - it has no meaning for the gdal command outside of QGIS, memory layers don't exist!
# - we don't want to force an export of the whole memory layer to a temp file just to show the command preview
# this might be very slow!
ogr_data_path, ogr_layer_name = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback,
executing=False)
self.assertEqual(ogr_data_path, 'path_to_data_file')
self.assertEqual(ogr_layer_name, 'layer_name')
QgsProject.instance().removeMapLayer(layer)
def testGetOgrCompatibleSourceFromOgrLayer(self):
p = QgsProject()
source = os.path.join(testDataPath, 'points.gml')
vl = QgsVectorLayer(source)
self.assertTrue(vl.isValid())
p.addMapLayer(vl)
context = QgsProcessingContext()
context.setProject(p)
feedback = QgsProcessingFeedback()
alg = ogr2ogr()
alg.initAlgorithm()
path, layer = alg.getOgrCompatibleSource('INPUT', {'INPUT': vl.id()}, context, feedback, True)
self.assertEqual(path, source)
path, layer = alg.getOgrCompatibleSource('INPUT', {'INPUT': vl.id()}, context, feedback, False)
self.assertEqual(path, source)
# with selected features only - if not executing, the 'selected features only' setting
# should be ignored (because it has no meaning for the gdal command outside of QGIS!)
parameters = {'INPUT': QgsProcessingFeatureSourceDefinition(vl.id(), True)}
path, layer = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback, False)
self.assertEqual(path, source)
# with subset string
vl.setSubsetString('x')
path, layer = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback, False)
self.assertEqual(path, source)
# subset of layer must be exported
path, layer = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback, True)
self.assertNotEqual(path, source)
self.assertTrue(path)
self.assertTrue(path.endswith('.gpkg'))
self.assertTrue(os.path.exists(path))
self.assertTrue(layer)
# geopackage with layer
source = os.path.join(testDataPath, 'custom', 'circular_strings.gpkg')
vl2 = QgsVectorLayer(source + '|layername=circular_strings')
self.assertTrue(vl2.isValid())
p.addMapLayer(vl2)
path, layer = alg.getOgrCompatibleSource('INPUT', {'INPUT': vl2.id()}, context, feedback, True)
self.assertEqual(path, source)
self.assertEqual(layer, 'circular_strings')
vl3 = QgsVectorLayer(source + '|layername=circular_strings_with_line')
self.assertTrue(vl3.isValid())
p.addMapLayer(vl3)
path, layer = alg.getOgrCompatibleSource('INPUT', {'INPUT': vl3.id()}, context, feedback, True)
self.assertEqual(path, source)
self.assertEqual(layer, 'circular_strings_with_line')
def testGetOgrCompatibleSourceFromFeatureSource(self):
# create a memory layer and add to project and context
layer = QgsVectorLayer("Point?field=fldtxt:string&field=fldint:integer",
"testmem", "memory")
self.assertTrue(layer.isValid())
pr = layer.dataProvider()
f = QgsFeature()
f.setAttributes(["test", 123])
f.setGeometry(QgsGeometry.fromPointXY(QgsPointXY(100, 200)))
f2 = QgsFeature()
f2.setAttributes(["test2", 457])
f2.setGeometry(QgsGeometry.fromPointXY(QgsPointXY(100, 200)))
self.assertTrue(pr.addFeatures([f, f2]))
self.assertEqual(layer.featureCount(), 2)
# select first feature
layer.selectByIds([next(layer.getFeatures()).id()])
self.assertEqual(len(layer.selectedFeatureIds()), 1)
QgsProject.instance().addMapLayer(layer)
context = QgsProcessingContext()
context.setProject(QgsProject.instance())
alg = QgsApplication.processingRegistry().createAlgorithmById('gdal:buffervectors')
self.assertIsNotNone(alg)
parameters = {'INPUT': QgsProcessingFeatureSourceDefinition('testmem', True)}
feedback = QgsProcessingFeedback()
# check that memory layer is automatically saved out to geopackage when required by GDAL algorithms
ogr_data_path, ogr_layer_name = alg.getOgrCompatibleSource('INPUT', parameters, context, feedback,
executing=True)
self.assertTrue(ogr_data_path)
self.assertTrue(ogr_data_path.endswith('.gpkg'))
self.assertTrue(os.path.exists(ogr_data_path))
self.assertTrue(ogr_layer_name)
# make sure that layer has only selected feature
res = QgsVectorLayer(ogr_data_path, 'res')
self.assertTrue(res.isValid())
self.assertEqual(res.featureCount(), 1)
QgsProject.instance().removeMapLayer(layer)
def testOgrOutputLayerName(self):
self.assertEqual(GdalUtils.ogrOutputLayerName('/home/me/out.shp'), 'out')
self.assertEqual(GdalUtils.ogrOutputLayerName('d:/test/test_out.shp'), 'test_out')
self.assertEqual(GdalUtils.ogrOutputLayerName('d:/test/TEST_OUT.shp'), 'TEST_OUT')
self.assertEqual(GdalUtils.ogrOutputLayerName('d:/test/test_out.gpkg'), 'test_out')
def testOgrLayerNameExtraction(self):
with tempfile.TemporaryDirectory() as outdir:
def _copyFile(dst):
shutil.copyfile(os.path.join(testDataPath, 'custom', 'grass7', 'weighted.csv'), dst)
# OGR provider - single layer
_copyFile(os.path.join(outdir, 'a.csv'))
name = GdalUtils.ogrLayerName(outdir)
self.assertEqual(name, 'a')
# OGR provider - multiple layers
_copyFile(os.path.join(outdir, 'b.csv'))
name1 = GdalUtils.ogrLayerName(outdir + '|layerid=0')
name2 = GdalUtils.ogrLayerName(outdir + '|layerid=1')
self.assertEqual(sorted([name1, name2]), ['a', 'b'])
name = GdalUtils.ogrLayerName(outdir + '|layerid=2')
self.assertIsNone(name)
# OGR provider - layername takes precedence
name = GdalUtils.ogrLayerName(outdir + '|layername=f')
self.assertEqual(name, 'f')
name = GdalUtils.ogrLayerName(outdir + '|layerid=0|layername=f')
self.assertEqual(name, 'f')
name = GdalUtils.ogrLayerName(outdir + '|layername=f|layerid=0')
self.assertEqual(name, 'f')
# SQLite provider
name = GdalUtils.ogrLayerName('dbname=\'/tmp/x.sqlite\' table="t" (geometry) sql=')
self.assertEqual(name, 't')
# PostgreSQL provider
name = GdalUtils.ogrLayerName(
'port=5493 sslmode=disable key=\'edge_id\' srid=0 type=LineString table="city_data"."edge" (geom) sql=')
self.assertEqual(name, 'city_data.edge')
def testOgrConnectionStringAndFormat(self):
context = QgsProcessingContext()
output, outputFormat = GdalUtils.ogrConnectionStringAndFormat('d:/test/test.shp', context)
self.assertEqual(output, 'd:/test/test.shp')
self.assertEqual(outputFormat, '"ESRI Shapefile"')
output, outputFormat = GdalUtils.ogrConnectionStringAndFormat('d:/test/test.mif', context)
self.assertEqual(output, 'd:/test/test.mif')
self.assertEqual(outputFormat, '"MapInfo File"')
def testConnectionString(self):
alg = OgrToPostGis()
alg.initAlgorithm()
parameters = {}
feedback = QgsProcessingFeedback()
context = QgsProcessingContext()
# NOTE: defaults are debatable, see
# https://github.com/qgis/QGIS/pull/3607#issuecomment-253971020
self.assertEqual(alg.getConnectionString(parameters, context),
"host=localhost port=5432 active_schema=public")
parameters['HOST'] = 'remote'
self.assertEqual(alg.getConnectionString(parameters, context),
"host=remote port=5432 active_schema=public")
parameters['HOST'] = ''
self.assertEqual(alg.getConnectionString(parameters, context),
"port=5432 active_schema=public")
parameters['PORT'] = '5555'
self.assertEqual(alg.getConnectionString(parameters, context),
"port=5555 active_schema=public")
parameters['PORT'] = ''
self.assertEqual(alg.getConnectionString(parameters, context),
"active_schema=public")
parameters['USER'] = 'usr'
self.assertEqual(alg.getConnectionString(parameters, context),
"active_schema=public user=usr")
parameters['PASSWORD'] = 'pwd'
self.assertEqual(alg.getConnectionString(parameters, context),
"password=pwd active_schema=public user=usr")
def testCrsConversion(self):
self.assertFalse(GdalUtils.gdal_crs_string(QgsCoordinateReferenceSystem()))
self.assertEqual(GdalUtils.gdal_crs_string(QgsCoordinateReferenceSystem('EPSG:3111')), 'EPSG:3111')
self.assertEqual(GdalUtils.gdal_crs_string(QgsCoordinateReferenceSystem('POSTGIS:3111')), 'EPSG:3111')
self.assertEqual(GdalUtils.gdal_crs_string(QgsCoordinateReferenceSystem(
'proj4: +proj=utm +zone=36 +south +a=6378249.145 +b=6356514.966398753 +towgs84=-143,-90,-294,0,0,0,0 +units=m +no_defs')),
'EPSG:20936')
crs = QgsCoordinateReferenceSystem()
crs.createFromProj(
'+proj=utm +zone=36 +south +a=600000 +b=70000 +towgs84=-143,-90,-294,0,0,0,0 +units=m +no_defs')
self.assertTrue(crs.isValid())
if QgsProjUtils.projVersionMajor() >= 6:
# proj 6, WKT should be used
self.assertEqual(GdalUtils.gdal_crs_string(crs)[:40], 'BOUNDCRS[SOURCECRS[PROJCRS["unknown",BAS')
self.assertEqual(GdalUtils.gdal_crs_string(QgsCoordinateReferenceSystem('ESRI:102003')), 'ESRI:102003')
else:
self.assertEqual(GdalUtils.gdal_crs_string(crs),
'+proj=utm +zone=36 +south +a=600000 +b=70000 +towgs84=-143,-90,-294,0,0,0,0 +units=m +no_defs')
# check that newlines are stripped
crs = QgsCoordinateReferenceSystem()
crs.createFromProj(
'+proj=utm +zone=36 +south\n +a=600000 +b=70000 \r\n +towgs84=-143,-90,-294,0,0,0,0 +units=m\n+no_defs')
self.assertTrue(crs.isValid())
self.assertEqual(GdalUtils.gdal_crs_string(crs),
'+proj=utm +zone=36 +south +a=600000 +b=70000 +towgs84=-143,-90,-294,0,0,0,0 +units=m +no_defs')
if __name__ == '__main__':
nose2.main()