def test_init(self): unit_feet = Unit("130790") unit_feet.load_dictionary(unit_feet_depth) unit_metres = Unit("900713") unit_metres.load_dictionary(unit_metres_depth) resource_parameter = ResourceParameter() resource_parameter.name = "Flood Depth" resource_parameter.is_required = True resource_parameter.precision = 3 resource_parameter.minimum_allowed_value = 1.0 resource_parameter.maximum_allowed_value = 2.0 resource_parameter.help_text = "The depth of flood." resource_parameter.description = ( "A <b>test _description</b> that is very long so that you need " "to read it for one minute and you will be tired after read this " "description. You are the best user so far. Even better if you " "read this description loudly so that all of your friends will be " "able to hear you" ) resource_parameter.unit = unit_feet resource_parameter.allowed_units = [unit_metres, unit_feet] resource_parameter.value = 1.12 widget = ResourceParameterWidget(resource_parameter) expected_value = resource_parameter.name real_value = widget._label.text() message = "Expected %s get %s" % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) expected_value = resource_parameter.value real_value = widget.get_parameter().value message = "Expected %s get %s" % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(1.5) expected_value = 1.5 real_value = widget.get_parameter().value message = "Expected %s get %s" % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(1.55555) expected_value = 1.556 real_value = widget.get_parameter().value message = "Expected %s get %s" % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(7) expected_value = 2 real_value = widget.get_parameter().value message = "Expected %s get %s" % (expected_value, real_value) self.assertEqual(expected_value, real_value, message)
def test_init(self): unit_feet = Unit('130790') unit_feet.load_dictionary(unit_feet_depth) unit_metres = Unit('900713') unit_metres.load_dictionary(unit_metres_depth) resource_parameter = ResourceParameter() resource_parameter.name = 'Flood Depth' resource_parameter.is_required = True resource_parameter.precision = 3 resource_parameter.minimum_allowed_value = 1.0 resource_parameter.maximum_allowed_value = 2.0 resource_parameter.help_text = 'The depth of flood.' resource_parameter.description = ( 'A <b>test _description</b> that is very long so that you need ' 'to read it for one minute and you will be tired after read this ' 'description. You are the best user so far. Even better if you ' 'read this description loudly so that all of your friends will be ' 'able to hear you') resource_parameter.unit = unit_feet resource_parameter.allowed_units = [unit_metres, unit_feet] resource_parameter.value = 1.12 widget = ResourceParameterWidget(resource_parameter) expected_value = resource_parameter.name real_value = widget._label.text() message = 'Expected %s get %s' % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) expected_value = resource_parameter.value real_value = widget.get_parameter().value message = 'Expected %s get %s' % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(1.5) expected_value = 1.5 real_value = widget.get_parameter().value message = 'Expected %s get %s' % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(1.55555) expected_value = 1.556 real_value = widget.get_parameter().value message = 'Expected %s get %s' % (expected_value, real_value) self.assertEqual(expected_value, real_value, message) widget.set_value(7) expected_value = 2 real_value = widget.get_parameter().value message = 'Expected %s get %s' % (expected_value, real_value) self.assertEqual(expected_value, real_value, message)
def get_needs_parameters(self): """Get the minimum needs resources in parameter format :returns: The minimum needs resources wrapped in parameters. :rtype: list """ parameters = [] for resource in self.minimum_needs['resources']: parameter = ResourceParameter() parameter.name = resource['Resource name'] parameter.help_text = resource['Resource description'] # Adding in the frequency property. This is not in the # FloatParameter by default, so maybe we should subclass. parameter.frequency = resource['Frequency'] parameter.description = self.format_sentence( resource['Readable sentence'], resource) parameter.minimum_allowed_value = float( resource['Minimum allowed']) parameter.maximum_allowed_value = float( resource['Maximum allowed']) parameter.unit.name = resource['Unit'] parameter.unit.plural = resource['Units'] parameter.unit.abbreviation = resource['Unit abbreviation'] parameter.value = float(resource['Default']) # choose highest precision between resource's parameters # start with default of 1 precisions = [1] precision_influence = [ 'Maximum allowed', 'Minimum allowed', 'Default'] for element in precision_influence: resource_element = str(resource[element]) if resource[element] is not None and '.' in resource_element: precisions.append(self.precision_of(resource_element)) parameter.precision = max(precisions) parameters.append(parameter) prov_parameter = TextParameter() prov_parameter.name = tr('Provenance') prov_parameter.description = tr('The provenance of minimum needs') prov_parameter.help_text = tr('The provenance of minimum needs') try: prov_parameter.value = self.provenance except TypeError: prov_parameter.value = '' parameters.append(prov_parameter) return parameters
def get_needs_parameters(self): """Get the minimum needs resources in parameter format :returns: The minimum needs resources wrapped in parameters. :rtype: list """ parameters = [] for resource in self.minimum_needs['resources']: parameter = ResourceParameter() parameter.name = resource['Resource name'] parameter.help_text = resource['Resource description'] # Adding in the frequency property. This is not in the # FloatParameter by default, so maybe we should subclass. parameter.frequency = resource['Frequency'] parameter.description = self.format_sentence( resource['Readable sentence'], resource) parameter.minimum_allowed_value = float( resource['Minimum allowed']) parameter.maximum_allowed_value = float( resource['Maximum allowed']) parameter.unit.name = resource['Unit'] parameter.unit.plural = resource['Units'] parameter.unit.abbreviation = resource['Unit abbreviation'] parameter.value = float(resource['Default']) # choose highest precision between resource's parameters # start with default of 1 precisions = [1] precision_influence = [ 'Maximum allowed', 'Minimum allowed', 'Default' ] for element in precision_influence: resource_element = str(resource[element]) if resource[element] is not None and '.' in resource_element: precisions.append(self.precision_of(resource_element)) parameter.precision = max(precisions) parameters.append(parameter) prov_parameter = TextParameter() prov_parameter.name = tr('Provenance') prov_parameter.description = tr('The provenance of minimum needs') prov_parameter.help_text = tr('The provenance of minimum needs') try: prov_parameter.value = self.provenance except TypeError: prov_parameter.value = '' parameters.append(prov_parameter) return parameters