# -*- coding: utf-8 -*- """ Created on Fri Jul 4 16:32:54 2014 @author: pietro """ from __future__ import print_function from grass.gunittest.case import TestCase from grass.gunittest.main import test from grass.pygrass.modules.interface.parameter import Parameter, _check_value GETTYPE = { 'string': str, 'integer': int, 'float': float, 'double': float, 'file': str, 'all': lambda x: x, } class TestCheckValueFunction(TestCase): def test_single_all(self): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type='all')) value = 1 self.assertTupleEqual((value, value), _check_value(param, value)) value = 1.2 self.assertTupleEqual((value, value), _check_value(param, value)) value = "elev" self.assertTupleEqual((value, value), _check_value(param, value)) # test errors with self.assertRaises(TypeError): _check_value(param, (1, 2)) def test_single_float_double(self): for ptype in ('float', 'double'): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type=ptype)) value = 1 self.assertTupleEqual((float(value), value), _check_value(param, value)) value = 1.2 self.assertTupleEqual((value, value), _check_value(param, value)) value = "1" self.assertTupleEqual((float(value), value), _check_value(param, value)) value = "1.35" self.assertTupleEqual((float(value), value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(TypeError): _check_value(param, (1., 2.)) def test_multiple_float_double(self): for ptype in ('float', 'double'): param = Parameter(diz=dict(name='number', required='yes', multiple='yes', type=ptype)) value = (1.4, 2.3) self.assertTupleEqual((list(value), value), _check_value(param, value)) value = (1, 2) self.assertTupleEqual(([float(v) for v in value], value), _check_value(param, value)) value = ("1", "2") self.assertTupleEqual(([float(v) for v in value], value), _check_value(param, value)) value = ("1.4", "2.3") self.assertTupleEqual(([float(v) for v in value], value), _check_value(param, value)) value = 1. self.assertTupleEqual(([value, ], value), _check_value(param, value)) value = 1 self.assertTupleEqual(([value, ], value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(ValueError): _check_value(param, ("elev", "slope", "aspect")) def test_range_float_double(self): for ptype in ('float', 'double'): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type=ptype, values=["0.0-2.5", ])) value = 1 self.assertTupleEqual((float(value), value), _check_value(param, value)) value = 1.2 self.assertTupleEqual((value, value), _check_value(param, value)) value = "0" self.assertTupleEqual((float(value), value), _check_value(param, value)) value = "2.5" self.assertTupleEqual((float(value), value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(TypeError): _check_value(param, (1., 2.)) with self.assertRaises(ValueError): _check_value(param, -1.) with self.assertRaises(ValueError): _check_value(param, 2.6) def test_single_integer(self): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type='integer')) value = 1 self.assertTupleEqual((value, value), _check_value(param, value)) value = 1.2 self.assertTupleEqual((int(value), value), _check_value(param, value)) value = "1" self.assertTupleEqual((int(value), value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "1.") with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(TypeError): _check_value(param, (1, 2)) def test_multiple_integer(self): param = Parameter(diz=dict(name='int_number', required='yes', multiple='yes', type='integer')) value = (1, 2) #import ipdb; ipdb.set_trace() self.assertTupleEqual((list(value), value), _check_value(param, value)) value = (1.2, 2.3) self.assertTupleEqual(([int(v) for v in value], value), _check_value(param, value)) value = ("1", "2") self.assertTupleEqual(([int(v) for v in value], value), _check_value(param, value)) value = 1 self.assertTupleEqual(([1, ], value), _check_value(param, value)) value = 1.2 self.assertTupleEqual(([int(value), ], value), _check_value(param, value)) value = "1" self.assertTupleEqual(([int(value), ], value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(ValueError): _check_value(param, ("elev", "slope", "aspect")) def test_keydescvalues(self): for ptype in ('integer', 'float'): param = Parameter(diz=dict(name='int_number', required='yes', multiple='yes', keydesc=('range', '(min, max)'), type='integer')) value = (1, 2) self.assertTupleEqual(([value, ], value), _check_value(param, value)) value = [(1, 2), (2, 3)] self.assertTupleEqual((value, value), _check_value(param, value)) with self.assertRaises(TypeError): _check_value(param, 1) def test_range_integer(self): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type='integer', values=["0-10", ])) value = 1 self.assertTupleEqual((value, value), _check_value(param, value)) value = 0 self.assertTupleEqual((value, value), _check_value(param, value)) value = 10 self.assertTupleEqual((value, value), _check_value(param, value)) value = 1.2 self.assertTupleEqual((int(value), value), _check_value(param, value)) value = "1" self.assertTupleEqual((int(value), value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "1.") with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(TypeError): _check_value(param, (1, 2)) with self.assertRaises(ValueError): _check_value(param, -1) with self.assertRaises(ValueError): _check_value(param, 11) def test_choice_integer(self): param = Parameter(diz=dict(name='int_number', required='yes', multiple='no', type='integer', values=[2, 4, 6, 8])) value = 4 self.assertTupleEqual((value, value), _check_value(param, value)) value = 2 self.assertTupleEqual((int(value), value), _check_value(param, value)) value = "8" self.assertTupleEqual((int(value), value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "2.") with self.assertRaises(ValueError): _check_value(param, "elev") with self.assertRaises(TypeError): _check_value(param, (1, 2)) with self.assertRaises(ValueError): _check_value(param, 3) def test_single_string_file(self): for ptype in ('string', 'file'): param = Parameter(diz=dict(name='name', required='yes', multiple='no', type=ptype)) value = u'elev' self.assertTupleEqual((value, value), _check_value(param, value)) value = 10 self.assertTupleEqual((str(value), value), _check_value(param, value)) value = 12.5 self.assertTupleEqual((str(value), value), _check_value(param, value)) # test errors with self.assertRaises(TypeError): _check_value(param, ('abc', 'def')) def test_multiple_strings(self): param = Parameter(diz=dict(name='rastnames', required='yes', multiple='yes', type='string')) value = ['elev', 'slope', 'aspect'] self.assertTupleEqual((value, value), _check_value(param, value)) value = ('elev', 'slope', 'aspect') self.assertTupleEqual((list(value), value), _check_value(param, value)) value = ['1.3', '2.3', '4.5'] self.assertTupleEqual((value, value), _check_value(param, value)) value = [1.3, 2.3, 4.5] self.assertTupleEqual(([str(v) for v in value], value), _check_value(param, value)) value = (1, 2, 3) self.assertTupleEqual(([str(v) for v in value], value), _check_value(param, value)) value = 'elev' self.assertTupleEqual(([value, ], value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, ({}, {}, {})) def test_choice_string(self): values = ["elev", "asp", "slp"] param = Parameter(diz=dict(name='rastname', required='yes', multiple='no', type='string', values=values)) value = "asp" self.assertTupleEqual((value, value), _check_value(param, value)) # test errors with self.assertRaises(ValueError): _check_value(param, "2") with self.assertRaises(ValueError): _check_value(param, "2.") with self.assertRaises(TypeError): _check_value(param, (1, 2)) with self.assertRaises(ValueError): _check_value(param, "elevation") class TestParameterGetBash(TestCase): def test_single_float_double(self): for ptype in ('float', 'double'): param = Parameter(diz=dict(name='number', required='yes', multiple='no', type=ptype)) # set private attributes to skip the check function param._value = 1.0 param._rawvalue = 1.0 self.assertEqual("number=1.0", param.get_bash()) param._value = 1.0 param._rawvalue = "1." self.assertEqual("number=1.", param.get_bash()) def test_multiple_float_double(self): for ptype in ('float', 'double'): param = Parameter(diz=dict(name='number', required='yes', multiple='yes', type=ptype)) # set private attributes to skip the check function param._value = [1.0, ] param._rawvalue = 1.0 self.assertEqual("number=1.0", param.get_bash()) param._value = [1.0, ] param._rawvalue = "1." self.assertEqual("number=1.", param.get_bash()) param._value = [1.0, 2.0, 3.0] param._rawvalue = [1.0, 2.0, 3.0] self.assertEqual("number=1.0,2.0,3.0", param.get_bash()) param._value = [1.0, 2.0, 3.0] param._rawvalue = ["1.", "2.", "3."] self.assertEqual("number=1.,2.,3.", param.get_bash()) def test_single_string(self): param = Parameter(diz=dict(name='rast', required='yes', multiple='no', type='string')) # set private attributes to skip the check function param._value = 'elev' param._rawvalue = 'elev' self.assertEqual("rast=elev", param.get_bash()) def test_multiple_strings(self): param = Parameter(diz=dict(name='rast', required='yes', multiple='yes', type='string')) # set private attributes to skip the check function param._value = ['elev', 'asp', 'slp'] param._rawvalue = ['elev', 'asp', 'slp'] self.assertEqual("rast=elev,asp,slp", param.get_bash()) param._value = ['elev', ] param._rawvalue = 'elev' self.assertEqual("rast=elev", param.get_bash()) def test_keydescvalues(self): param = Parameter(diz=dict(name='range', required='yes', multiple='yes', keydesc=('range', '(min, max)'), type='integer')) # set private attributes to skip the check function param._value = [(1., 2.), ] param._rawvalue = (1., 2.) self.assertEqual("range=1.0,2.0", param.get_bash()) param._value = [(1., 2.), (3., 4.)] param._rawvalue = [(1., 2.), (3., 4.)] self.assertEqual("range=1.0,2.0,3.0,4.0", param.get_bash()) param._value = [(1., 2.), (3., 4.)] param._rawvalue = [('1.0', '2.00'), ('3.000', '4.0000')] self.assertEqual("range=1.0,2.00,3.000,4.0000", param.get_bash()) with self.assertRaises(TypeError): _check_value(param, 1) if __name__ == '__main__': test()