# *******************************************************************************
# OpenStudio(R), Copyright (c) 2008-2020, Alliance for Sustainable Energy, LLC.
# All rights reserved.
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# (1) Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# (2) Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# (3) Neither the name of the copyright holder nor the names of any contributors
# may be used to endorse or promote products derived from this software without
# specific prior written permission from the respective party.
#
# (4) Other than as required in clauses (1) and (2), distributions in any form
# of modifications or other derivative works may not use the "OpenStudio"
# trademark, "OS", "os", or any other confusingly similar designation without
# specific prior written permission from Alliance for Sustainable Energy, LLC.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER(S) AND ANY CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
# THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER(S), ANY CONTRIBUTORS, THE
# UNITED STATES GOVERNMENT, OR THE UNITED STATES DEPARTMENT OF ENERGY, NOR ANY OF
# THEIR EMPLOYEES, BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
# OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
# *******************************************************************************
require 'openstudio'
require 'openstudio/measure/ShowRunnerOutput'
require 'fileutils'
require_relative '../measure.rb'
require 'minitest/autorun'
class SetSpaceInfiltrationByExteriorSurfaceArea_Test < Minitest::Test
def test_SetSpaceInfiltrationByExteriorSurfaceArea_fail
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# make an empty model
model = OpenStudio::Model::Model.new
# get arguments and test that they are what we are expecting
arguments = measure.arguments(model)
assert_equal(4, arguments.size)
assert_equal('infiltration_ip', arguments[0].name)
# set argument values to bad values and run the measure
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
infiltration_ip = arguments[0].clone
assert(infiltration_ip.setValue(-20.0))
argument_map['infiltration_ip'] = infiltration_ip
measure.run(model, runner, argument_map)
result = runner.result
assert(result.value.valueName == 'Fail')
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_new
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# load the test model
translator = OpenStudio::OSVersion::VersionTranslator.new
path = OpenStudio::Path.new(File.dirname(__FILE__) + '/EnvelopeAndLoadTestModel_01.osm')
model = translator.loadModel(path)
assert(!model.empty?)
model = model.get
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(3.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.1))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 2)
assert(result.info.size == 4)
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_retrofit
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# load the test model
translator = OpenStudio::OSVersion::VersionTranslator.new
path = OpenStudio::Path.new(File.dirname(__FILE__) + '/EnvelopeAndLoadTestModel_01.osm')
model = translator.loadModel(path)
assert(!model.empty?)
model = model.get
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(3.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.1))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 2)
assert(result.info.size == 4)
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_retrofit_MinimalCost
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# load the test model
translator = OpenStudio::OSVersion::VersionTranslator.new
path = OpenStudio::Path.new(File.dirname(__FILE__) + '/EnvelopeAndLoadTestModel_01.osm')
model = translator.loadModel(path)
assert(!model.empty?)
model = model.get
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(2.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.0))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 2)
assert(result.info.size == 4)
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_retrofit_NoCost
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# load the test model
translator = OpenStudio::OSVersion::VersionTranslator.new
path = OpenStudio::Path.new(File.dirname(__FILE__) + '/EnvelopeAndLoadTestModel_01.osm')
model = translator.loadModel(path)
assert(!model.empty?)
model = model.get
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(0.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.0))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 2)
assert(result.info.size == 4)
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_ReverseTranslatedModel
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# load the test model
translator = OpenStudio::OSVersion::VersionTranslator.new
path = OpenStudio::Path.new(File.dirname(__FILE__) + '/ReverseTranslatedModel.osm')
model = translator.loadModel(path)
assert(!model.empty?)
model = model.get
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(0.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.0))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 1)
assert(result.info.size == 3)
end
def test_SetSpaceInfiltrationByExteriorSurfaceArea_EmptySpaceNoLoadsOrSurfaces
# create an instance of the measure
measure = SetSpaceInfiltrationByExteriorSurfaceArea.new
# create an instance of a runner
runner = OpenStudio::Measure::OSRunner.new(OpenStudio::WorkflowJSON.new)
# make an empty model
model = OpenStudio::Model::Model.new
# add a space to the model without any geometry or loads, want to make sure measure works or fails gracefully
new_space = OpenStudio::Model::Space.new(model)
# set argument values to good values and run the measure on model with spaces
arguments = measure.arguments(model)
argument_map = OpenStudio::Measure.convertOSArgumentVectorToMap(arguments)
count = -1
infiltration_ip = arguments[count += 1].clone
assert(infiltration_ip.setValue(0.06))
argument_map['infiltration_ip'] = infiltration_ip
material_cost_ip = arguments[count += 1].clone
assert(material_cost_ip.setValue(0.0))
argument_map['material_cost_ip'] = material_cost_ip
om_cost_ip = arguments[count += 1].clone
assert(om_cost_ip.setValue(0.0))
argument_map['om_cost_ip'] = om_cost_ip
om_frequency = arguments[count += 1].clone
assert(om_frequency.setValue(1))
argument_map['om_frequency'] = om_frequency
measure.run(model, runner, argument_map)
result = runner.result
show_output(result)
assert(result.value.valueName == 'Success')
assert(result.warnings.size == 1)
assert(result.info.size == 2)
end
end