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# see the URL below for information on how to write OpenStudio measures
# http://openstudio.nrel.gov/openstudio-measure-writing-guide
# see the URL below for information on using life cycle cost objects in OpenStudio
# http://openstudio.nrel.gov/openstudio-life-cycle-examples
# see the URL below for access to C++ documentation on model objects (click on "model" in the main window to view model objects)
# http://openstudio.nrel.gov/sites/openstudio.nrel.gov/files/nv_data/cpp_documentation_it/model/html/namespaces.html
# start the measure
class SetInteriorWallsAndFloorsToAdiabatic < OpenStudio::Measure::ModelMeasure
# define the name that a user will see, this method may be deprecated as
# the display name in PAT comes from the name field in measure.xml
def name
return 'SetInteriorWallsAndFloorsToAdiabatic'
end
# TODO: - need to bools for wall and floor, and two constructions choices, and then update code to loop through floors as well as walls.
# todo - short warn abot or skip if there are sub-surfaces (unless I offer boll to remove them)
# define the arguments that the user will input
def arguments(model)
args = OpenStudio::Measure::OSArgumentVector.new
# populate choice argument for storys that are applied to surfaces in the model
construction_handles = OpenStudio::StringVector.new
construction_display_names = OpenStudio::StringVector.new
# putting stories and names into hash
construction_args = model.getConstructions
construction_args_hash = {}
construction_args.each do |construction_arg|
construction_args_hash[construction_arg.name.to_s] = construction_arg
end
# looping through sorted hash of storys
construction_args_hash.sort.map do |key, value| # todo - could filter this so only constructions that are valid on opaque surfaces will show up.
construction_handles << value.handle.to_s
construction_display_names << key
end
# make an argument for construction
construction = OpenStudio::Measure::OSArgument.makeChoiceArgument('construction', construction_handles, construction_display_names, true)
construction.setDisplayName('Select New Construction.')
args << construction
return args
end
# define what happens when the measure is run
def run(model, runner, user_arguments)
super(model, runner, user_arguments)
# use the built-in error checking
if !runner.validateUserArguments(arguments(model), user_arguments)
return false
end
# assign the user inputs to variables
construction = runner.getOptionalWorkspaceObjectChoiceValue('construction', user_arguments, model) # model is passed in because of argument type
# check the construction for reasonableness
if construction.empty?
handle = runner.getStringArgumentValue('construction', user_arguments)
if handle.empty?
runner.registerError('No construction was chosen.')
else
runner.registerError("The selected construction with handle '#{handle}' was not found in the model. It may have been removed by another measure.")
end
return false
else
if !construction.get.to_Construction.empty?
construction = construction.get.to_Construction.get
else
runner.registerError('Script Error - argument not showing up as construction.')
return false
end
end
# counter for number of constructions use for interior walls in initial construction
interior_walls = 0
# make an array of walls that started as matched surfaces.
# I need to do this first, because when one of pair changes to Adiabatic, the other will change to Outdoors
surfaces_to_change = []
surfaces = model.getSurfaces
surfaces.each do |surface|
if (surface.surfaceType == 'Wall') && (surface.outsideBoundaryCondition == 'Surface')
surfaces_to_change << surface
end
end
# change boundary condition and assign constructions
surfaces_to_change.each do |surface|
surface.setConstruction(construction)
surface.setOutsideBoundaryCondition('Adiabatic')
interior_walls += 1
end
# reporting initial condition of model
runner.registerInitialCondition("The initial model has #{interior_walls / 2} pairs of interior wall surfaces.")
# reporting final condition of model
finishing_spaces = model.getSpaces
runner.registerFinalCondition("All interior walls surfaces now use #{construction.name} for the construction.")
return true
end
end
# this allows the measure to be use by the application
SetInteriorWallsAndFloorsToAdiabatic.new.registerWithApplication