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AlgorithmsTestBase.py
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AlgorithmsTestBase.py
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# -*- coding: utf-8 -*-
"""
***************************************************************************
AlgorithmsTest.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'
# This will get replaced with a git SHA1 when you do a git archive
__revision__ = ':%H$'
import qgis # NOQA switch sip api
import os
import yaml
import nose2
import gdal
import hashlib
import tempfile
from osgeo.gdalconst import GA_ReadOnly
import processing
from processing.modeler.ModelerAlgorithmProvider import ModelerAlgorithmProvider
from processing.modeler.ModelerOnlyAlgorithmProvider import ModelerOnlyAlgorithmProvider
from processing.algs.qgis.QGISAlgorithmProvider import QGISAlgorithmProvider
from processing.algs.grass.GrassAlgorithmProvider import GrassAlgorithmProvider
from processing.algs.grass7.Grass7AlgorithmProvider import Grass7AlgorithmProvider
from processing.algs.lidar.LidarToolsAlgorithmProvider import LidarToolsAlgorithmProvider
from processing.algs.gdal.GdalOgrAlgorithmProvider import GdalOgrAlgorithmProvider
from processing.algs.otb.OTBAlgorithmProvider import OTBAlgorithmProvider
from processing.algs.r.RAlgorithmProvider import RAlgorithmProvider
from processing.algs.saga.SagaAlgorithmProvider import SagaAlgorithmProvider
from processing.script.ScriptAlgorithmProvider import ScriptAlgorithmProvider
from processing.algs.taudem.TauDEMAlgorithmProvider import TauDEMAlgorithmProvider
from processing.preconfigured.PreconfiguredAlgorithmProvider import PreconfiguredAlgorithmProvider
from qgis.core import QgsVectorLayer, QgsRasterLayer, QgsMapLayerRegistry
from qgis.testing import _UnexpectedSuccess
from utilities import unitTestDataPath
def processingTestDataPath():
return os.path.join(os.path.dirname(__file__), 'testdata')
class AlgorithmsTest:
def test_algorithms(self):
"""
This is the main test function. All others will be executed based on the definitions in testdata/algorithm_tests.yaml
"""
ver = processing.version()
print("Processing {}.{}.{}".format(ver / 10000, ver / 100 % 100, ver % 100))
with open(os.path.join(processingTestDataPath(), self.test_definition_file()), 'r') as stream:
algorithm_tests = yaml.load(stream)
for algtest in algorithm_tests['tests']:
yield self.check_algorithm, algtest['name'], algtest
def check_algorithm(self, name, defs):
"""
Will run an algorithm definition and check if it generates the expected result
:param name: The identifier name used in the test output heading
:param defs: A python dict containing a test algorithm definition
"""
QgsMapLayerRegistry.instance().removeAllMapLayers()
params = self.load_params(defs['params'])
alg = processing.Processing.getAlgorithm(defs['algorithm']).getCopy()
if isinstance(params, list):
for param in zip(alg.parameters, params):
param[0].setValue(param[1])
else:
for k, p in params.items():
alg.setParameterValue(k, p)
for r, p in defs['results'].items():
alg.setOutputValue(r, self.load_result_param(p))
expectFailure = False
if 'expectedFailure' in defs:
exec('\n'.join(defs['expectedFailure'][:-1]), globals(), locals())
expectFailure = eval(defs['expectedFailure'][-1])
def doCheck():
alg.execute()
self.check_results(alg.getOutputValuesAsDictionary(), defs['results'])
if expectFailure:
try:
doCheck()
except Exception:
pass
else:
raise _UnexpectedSuccess
else:
doCheck()
def load_params(self, params):
"""
Loads an array of parameters
"""
if isinstance(params, list):
return [self.load_param(p) for p in params]
elif isinstance(params, dict):
return {key: self.load_param(p) for key, p in params.items()}
else:
return params
def load_param(self, param):
"""
Loads a parameter. If it's not a map, the parameter will be returned as-is. If it is a map, it will process the
parameter based on its key `type` and return the appropriate parameter to pass to the algorithm.
"""
try:
if param['type'] == 'vector' or param['type'] == 'raster':
return self.load_layer(param)
elif param['type'] == 'multi':
return [self.load_param(p) for p in param['params']]
elif param['type'] == 'file':
return self.filepath_from_param(param)
except TypeError:
# No type specified, use whatever is there
return param
raise KeyError("Unknown type '{}' specified for parameter".format(param['type']))
def load_result_param(self, param):
"""
Loads a result parameter. Creates a temporary destination where the result should go to and returns this location
so it can be sent to the algorithm as parameter.
"""
if param['type'] in ['vector', 'file', 'regex']:
outdir = tempfile.mkdtemp()
self.cleanup_paths.append(outdir)
basename = os.path.basename(param['name'])
filepath = os.path.join(outdir, basename)
return filepath
elif param['type'] == 'rasterhash':
outdir = tempfile.mkdtemp()
self.cleanup_paths.append(outdir)
basename = 'raster.tif'
filepath = os.path.join(outdir, basename)
return filepath
raise KeyError("Unknown type '{}' specified for parameter".format(param['type']))
def load_layer(self, param):
"""
Loads a layer which was specified as parameter.
"""
filepath = self.filepath_from_param(param)
if param['type'] == 'vector':
lyr = QgsVectorLayer(filepath, param['name'], 'ogr')
elif param['type'] == 'raster':
lyr = QgsRasterLayer(filepath, param['name'], 'gdal')
self.assertTrue(lyr.isValid(), 'Could not load layer "{}"'.format(filepath))
QgsMapLayerRegistry.instance().addMapLayer(lyr)
return lyr
def filepath_from_param(self, param):
"""
Creates a filepath from a param
"""
prefix = processingTestDataPath()
if 'location' in param and param['location'] == 'qgs':
prefix = unitTestDataPath()
return os.path.join(prefix, param['name'])
def check_results(self, results, expected):
"""
Checks if result produced by an algorithm matches with the expected specification.
"""
for id, expected_result in expected.items():
if 'vector' == expected_result['type']:
expected_lyr = self.load_layer(expected_result)
try:
results[id]
except KeyError as e:
raise KeyError('Expected result {} does not exist in {}'.format(unicode(e), results.keys()))
result_lyr = QgsVectorLayer(results[id], id, 'ogr')
compare = expected_result.get('compare', {})
self.assertLayersEqual(expected_lyr, result_lyr, compare=compare)
elif 'rasterhash' == expected_result['type']:
dataset = gdal.Open(results[id], GA_ReadOnly)
strhash = hashlib.sha224(dataset.ReadAsArray(0).data).hexdigest()
self.assertEqual(strhash, expected_result['hash'])
elif 'file' == expected_result['type']:
expected_filepath = self.filepath_from_param(expected_result)
result_filepath = results[id]
self.assertFilesEqual(expected_filepath, result_filepath)
elif 'regex' == expected_result['type']:
with open(results[id], 'r') as file:
data = file.read()
for rule in expected_result.get('rules', []):
self.assertRegexpMatches(data, rule)
if __name__ == '__main__':
nose2.main()