# ******************************************************************************* # 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 SetCOPforSingleSpeedDXCoolingUnits_Test < Minitest::Test def test_SetCOPforSingleSpeedDXCoolingUnits_single_loop # create an instance of the measure measure = SetCOPforSingleSpeedDXCoolingUnits.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(10, arguments.size) count = -1 assert_equal('object', arguments[count += 1].name) assert_equal('cop', arguments[count += 1].name) assert_equal('remove_costs', arguments[count += 1].name) assert_equal('material_cost', arguments[count += 1].name) assert_equal('demolition_cost', arguments[count += 1].name) assert_equal('years_until_costs_start', arguments[count += 1].name) assert_equal('demo_cost_initial_const', arguments[count += 1].name) assert_equal('expected_life', arguments[count += 1].name) assert_equal('om_cost', arguments[count += 1].name) assert_equal('om_frequency', arguments[count += 1].name) # load the test model translator = OpenStudio::OSVersion::VersionTranslator.new path = OpenStudio::Path.new(File.dirname(__FILE__) + '/0320_ModelWithHVAC_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 object = arguments[count += 1].clone assert(object.setValue('Packaged Rooftop Air Conditioner')) argument_map['object'] = object cop = arguments[count += 1].clone assert(cop.setValue(2.0)) argument_map['cop'] = cop remove_costs = arguments[count += 1].clone assert(remove_costs.setValue(true)) argument_map['remove_costs'] = remove_costs material_cost = arguments[count += 1].clone assert(material_cost.setValue(5.0)) argument_map['material_cost'] = material_cost demolition_cost = arguments[count += 1].clone assert(demolition_cost.setValue(1.0)) argument_map['demolition_cost'] = demolition_cost years_until_costs_start = arguments[count += 1].clone assert(years_until_costs_start.setValue(0)) argument_map['years_until_costs_start'] = years_until_costs_start demo_cost_initial_const = arguments[count += 1].clone assert(demo_cost_initial_const.setValue(false)) argument_map['demo_cost_initial_const'] = demo_cost_initial_const expected_life = arguments[count += 1].clone assert(expected_life.setValue(20)) argument_map['expected_life'] = expected_life om_cost = arguments[count += 1].clone assert(om_cost.setValue(0.25)) argument_map['om_cost'] = om_cost 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 == 1) end def test_SetCOPforSingleSpeedDXCoolingUnits_all_loop # create an instance of the measure measure = SetCOPforSingleSpeedDXCoolingUnits.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(10, arguments.size) count = -1 assert_equal('object', arguments[count += 1].name) assert_equal('cop', arguments[count += 1].name) assert_equal('remove_costs', arguments[count += 1].name) assert_equal('material_cost', arguments[count += 1].name) assert_equal('demolition_cost', arguments[count += 1].name) assert_equal('years_until_costs_start', arguments[count += 1].name) assert_equal('demo_cost_initial_const', arguments[count += 1].name) assert_equal('expected_life', arguments[count += 1].name) assert_equal('om_cost', arguments[count += 1].name) assert_equal('om_frequency', arguments[count += 1].name) # load the test model translator = OpenStudio::OSVersion::VersionTranslator.new path = OpenStudio::Path.new(File.dirname(__FILE__) + '/0320_ModelWithHVAC_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 object = arguments[count += 1].clone assert(object.setValue('*All Air Loops*')) argument_map['object'] = object cop = arguments[count += 1].clone assert(cop.setValue(2.0)) argument_map['cop'] = cop remove_costs = arguments[count += 1].clone assert(remove_costs.setValue(true)) argument_map['remove_costs'] = remove_costs material_cost = arguments[count += 1].clone assert(material_cost.setValue(5.0)) argument_map['material_cost'] = material_cost demolition_cost = arguments[count += 1].clone assert(demolition_cost.setValue(1.0)) argument_map['demolition_cost'] = demolition_cost years_until_costs_start = arguments[count += 1].clone assert(years_until_costs_start.setValue(0)) argument_map['years_until_costs_start'] = years_until_costs_start demo_cost_initial_const = arguments[count += 1].clone assert(demo_cost_initial_const.setValue(false)) argument_map['demo_cost_initial_const'] = demo_cost_initial_const expected_life = arguments[count += 1].clone assert(expected_life.setValue(20)) argument_map['expected_life'] = expected_life om_cost = arguments[count += 1].clone assert(om_cost.setValue(0.25)) argument_map['om_cost'] = om_cost 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 == 1) end end