def building_type_postprocessor():
"""Get building-type parameter for postprocessing.
:return: Selectors to activate building breakdown postprocessor.
:rtype: list
"""
building_type = GroupParameter()
building_type.name = tr('Building type')
building_type.enable_parameter = True
building_type.description = tr(
'Check this option if you want to enable a building impact report '
'broken down by building type for each aggregation area.')
unit_threshold = Unit()
unit_threshold.name = tr('features')
unit_threshold.plural = tr('features')
unit_threshold.abbreviation = tr('features')
unit_threshold.description = tr('Number of features.')
threshold = IntegerParameter()
threshold.name = 'Threshold'
threshold.minimum_allowed_value = 1
# We shouldn't set a maximum, but there is a bug (#2468).
threshold.maximum_allowed_value = 9999
threshold.value = 25
threshold.unit = unit_threshold
threshold.allowed_units = [unit_threshold]
threshold.help_text = tr('Threshold')
threshold.description = tr(
'The threshold is used to consolidate small building usage groups '
'which are within this threshold.')
building_type.value = [threshold]
return [building_type]
def low_threshold():
"""Generate low threshold parameter
:return: list of IntegerParameter
:rtype: list[IntegerParameter]
"""
field = IntegerParameter()
field.is_required = True
field.name = 'Low Threshold'
field.value = 6
field.minimum_allowed_value = 1
field.maximum_allowed_value = 10
unit_mmi = parameter_unit_mmi()
field.unit = unit_mmi
field.allowed_units = [unit_mmi]
field.help_text = tr('Low Hazard class threshold.')
field.description = tr(
'The threshold of hazard categorized as Low Hazard class in MMI '
'scale.')
return field
def building_type_postprocessor():
"""Get building-type parameter for postprocessing.
:return: Selectors to activate building breakdown postprocessor.
:rtype: list
"""
building_type = GroupParameter()
building_type.name = tr('Building type')
building_type.enable_parameter = True
building_type.description = tr(
'Check this option if you want to enable a building impact report '
'broken down by building type for each aggregation area.'
)
unit_threshold = Unit()
unit_threshold.name = tr('features')
unit_threshold.plural = tr('features')
unit_threshold.abbreviation = tr('features')
unit_threshold.description = tr(
'Number of features.'
)
threshold = IntegerParameter()
threshold.name = 'Threshold'
threshold.minimum_allowed_value = 1
# We shouldn't set a maximum, but there is a bug (#2468).
threshold.maximum_allowed_value = 9999
threshold.value = 25
threshold.unit = unit_threshold
threshold.allowed_units = [unit_threshold]
threshold.help_text = tr('Threshold')
threshold.description = tr(
'The threshold is used to consolidate small building usage groups '
'which are within this threshold.'
)
building_type.value = [threshold]
return [building_type]
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)
integer_parameter = IntegerParameter()
integer_parameter.name = 'Paper'
integer_parameter.is_required = True
integer_parameter.minimum_allowed_value = 1
integer_parameter.maximum_allowed_value = 5
integer_parameter.help_text = 'Number of paper'
integer_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')
integer_parameter.unit = unit_feet
integer_parameter.allowed_units = [unit_feet]
integer_parameter.value = 3
widget = IntegerParameterWidget(integer_parameter)
expected_value = integer_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 = integer_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._input.setValue(1.5)
expected_value = 1
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
widget._input.setValue(1.55555)
expected_value = 1
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
widget._input.setValue(7)
expected_value = 5
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
expected_value = 'QLabel'
real_value = widget._unit_widget.__class__.__name__
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
expected_value = 'feet'
real_value = widget._unit_widget.text()
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)
integer_parameter = IntegerParameter()
integer_parameter.name = 'Paper'
integer_parameter.is_required = True
integer_parameter.minimum_allowed_value = 1
integer_parameter.maximum_allowed_value = 5
integer_parameter.help_text = 'Number of paper'
integer_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')
integer_parameter.unit = unit_feet
integer_parameter.allowed_units = [unit_feet]
integer_parameter.value = 3
widget = IntegerParameterWidget(integer_parameter)
expected_value = integer_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 = integer_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._input.setValue(1.5)
expected_value = 1
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
widget._input.setValue(1.55555)
expected_value = 1
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
widget._input.setValue(7)
expected_value = 5
real_value = widget.get_parameter().value
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
expected_value = 'QLabel'
real_value = widget._unit_widget.__class__.__name__
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
expected_value = 'feet'
real_value = widget._unit_widget.text()
message = 'Expected %s get %s' % (expected_value, real_value)
self.assertEqual(expected_value, real_value, message)
