# -*- coding: utf-8 -*-

"""

***************************************************************************

SagaAlgorithmsTests.py

---------------------

Date : September 2017

Copyright : (C) 2017 by Alexander Bruy

Email : alexander dot bruy at gmail 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__ = 'Alexander Bruy'

__date__ = 'September 2017'

__copyright__ = '(C) 2017, Alexander Bruy'

import os

import nose2

import shutil

import tempfile

from qgis.core import (QgsProcessingParameterNumber,

QgsProcessingParameterDefinition,

QgsVectorLayer,

QgsApplication,

QgsFeature,

QgsGeometry,

QgsPointXY,

QgsProcessingContext,

QgsProject,

QgsProcessingFeedback,

QgsProcessingFeatureSourceDefinition)

from qgis.testing import start_app, unittest

from processing.algs.saga.SagaParameters import Parameters, SagaImageOutputParam

import AlgorithmsTestBase

class TestSagaAlgorithms(unittest.TestCase, AlgorithmsTestBase.AlgorithmsTest):

@classmethod

def setUpClass(cls):

start_app()

from processing.core.Processing import Processing

Processing.initialize()

cls.cleanup_paths = []

cls.temp_dir = tempfile.mkdtemp()

cls.cleanup_paths.append(cls.temp_dir)

@classmethod

def tearDownClass(cls):

from processing.core.Processing import Processing

Processing.deinitialize()

for path in cls.cleanup_paths:

shutil.rmtree(path)

def test_definition_file(self):

return 'saga_algorithm_tests.yaml'

def test_is_parameter_line(self):

# Test determining whether a line is a parameter line

self.assertFalse(Parameters.is_parameter_line(''))

self.assertFalse(Parameters.is_parameter_line('xxxxxxxxx'))

self.assertTrue(Parameters.is_parameter_line('QgsProcessingParameterNumber|R_PERCTL_MIN|Percentiles Range for RED max|QgsProcessingParameterNumber.Integer|1|False|1|99'))

self.assertTrue(Parameters.is_parameter_line('*QgsProcessingParameterNumber|R_PERCTL_MIN|Percentiles Range for RED max|QgsProcessingParameterNumber.Integer|1|False|1|99'))

self.assertTrue(Parameters.is_parameter_line('SagaImageOutput|RGB|Output RGB'))

def test_param_line(self):

# Test creating a parameter from a description line

param = Parameters.create_parameter_from_line('QgsProcessingParameterNumber|R_PERCTL_MIN|Percentiles Range for RED max|QgsProcessingParameterNumber.Integer|1|False|1|99')

self.assertIsInstance(param, QgsProcessingParameterNumber)

self.assertEqual(param.name(), 'R_PERCTL_MIN')

self.assertEqual(param.description(), 'Percentiles Range for RED max')

self.assertEqual(param.dataType(), QgsProcessingParameterNumber.Integer)

self.assertFalse(param.flags() & QgsProcessingParameterDefinition.FlagOptional)

self.assertEqual(param.minimum(), 1)

self.assertEqual(param.maximum(), 99)

# Test SagaImageOutputParam line

param = Parameters.create_parameter_from_line('SagaImageOutput|RGB|Output RGB')

self.assertIsInstance(param, SagaImageOutputParam)

self.assertEqual(param.name(), 'RGB')

self.assertEqual(param.description(), 'Output RGB')

self.assertEqual(param.defaultFileExtension(), 'tif')

self.assertEqual(param.supportedOutputRasterLayerExtensions(), ['tif'])

def test_non_ascii_output(self):

# create a memory layer and add to project and context

layer = QgsVectorLayer("Point?crs=epsg:3857&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(110, 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('saga:fixeddistancebuffer')

self.assertIsNotNone(alg)

temp_file = os.path.join(self.temp_dir, 'non_ascii_ñññ.shp')

parameters = {'SHAPES': 'testmem',

'DIST_FIELD_DEFAULT': 5,

'NZONES': 1,

'DARC': 5,

'DISSOLVE': False,

'POLY_INNER': False,

'BUFFER': temp_file}

feedback = QgsProcessingFeedback()

results, ok = alg.run(parameters, context, feedback)

self.assertTrue(ok)

self.assertTrue(os.path.exists(temp_file))

# make sure that layer has correct features

res = QgsVectorLayer(temp_file, 'res')

self.assertTrue(res.isValid())

self.assertEqual(res.featureCount(), 2)

QgsProject.instance().removeMapLayer(layer)

if __name__ == '__main__':

nose2.main()