Class: Honeybee::EnergyMaterialVegetation
- Inherits:
-
ModelObject
- Object
- ModelObject
- Honeybee::EnergyMaterialVegetation
- Defined in:
- lib/honeybee/material/vegetation.rb,
lib/to_openstudio/material/vegetation.rb,
lib/from_openstudio/material/vegetation.rb
Instance Attribute Summary
Attributes inherited from ModelObject
#errors, #openstudio_object, #warnings
Class Method Summary collapse
Instance Method Summary collapse
- #defaults ⇒ Object
- #find_existing_openstudio_object(openstudio_model) ⇒ Object
- #to_openstudio(openstudio_model) ⇒ Object
Methods inherited from ModelObject
#allowable_types, clean_identifier, clean_name, #initialize, #method_missing, read_from_disk, truncate
Constructor Details
This class inherits a constructor from Honeybee::ModelObject
Dynamic Method Handling
This class handles dynamic methods through the method_missing method in the class Honeybee::ModelObject
Class Method Details
.from_material(material) ⇒ Object
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# File 'lib/from_openstudio/material/vegetation.rb', line 38 def self.from_material(material) # create an empty hash hash = {} hash[:type] = 'EnergyMaterialVegetation' # set hash values from OpenStudio Object hash[:identifier] = clean_name(material.nameString) unless material.displayName.empty? hash[:display_name] = (material.displayName.get).force_encoding("UTF-8") end hash[:thickness] = material.thickness hash[:conductivity] = material.conductivityofDrySoil hash[:density] = material.densityofDrySoil hash[:specific_heat] = material.specificHeatofDrySoil hash[:plant_height] = material.heightofPlants hash[:leaf_area_index] = material.leafAreaIndex hash[:leaf_reflectivity] = material.leafReflectivity hash[:leaf_emissivity] = material.leafEmissivity hash[:min_stomatal_resist] = material.minimumStomatalResistance hash[:sat_vol_moist_cont] = material.saturationVolumetricMoistureContent hash[:residual_vol_moist_cont] = material.residualVolumetricMoistureContent hash[:init_vol_moist_cont] = material.initialVolumetricMoistureContent hash[:moist_diff_model] = material.moistureDiffusionCalculationMethod.titleize case material.roughness.downcase when 'veryrough' hash[:roughness] == 'VeryRough' when 'mediumrough' hash[:roughness] == 'MediumRough' when 'mediumsmooth' hash[:roughness] == 'MediumSmooth' when 'verysmooth' hash[:roughness] == 'VerySmooth' # In case of Rough or Smooth else hash[:roughness] = material.roughness.titleize end # assign the optional properties unless material.thermalAbsorptance.empty? hash[:soil_thermal_absorptance] = material.thermalAbsorptance.get end unless material.solarAbsorptance.empty? hash[:soil_solar_absorptance] = material.solarAbsorptance.get end unless material.visibleAbsorptance.empty? hash[:soil_visible_absorptance] = material.visibleAbsorptance.get end hash end |
Instance Method Details
#defaults ⇒ Object
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# File 'lib/honeybee/material/vegetation.rb', line 37 def defaults @@schema[:components][:schemas][:EnergyMaterialVegetation][:properties] end |
#find_existing_openstudio_object(openstudio_model) ⇒ Object
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# File 'lib/to_openstudio/material/vegetation.rb', line 39 def find_existing_openstudio_object(openstudio_model) object = openstudio_model.getRoofVegetationByName(@hash[:identifier]) return object.get if object.is_initialized nil end |
#to_openstudio(openstudio_model) ⇒ Object
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# File 'lib/to_openstudio/material/vegetation.rb', line 45 def to_openstudio(openstudio_model) # create standard opaque OpenStudio material os_veg_mat = OpenStudio::Model::RoofVegetation.new(openstudio_model) os_veg_mat.setName(@hash[:identifier]) unless @hash[:display_name].nil? os_veg_mat.setDisplayName(@hash[:display_name]) end os_veg_mat.setSoilLayerName(@hash[:identifier] + '{}_SoilLayer') # assign thickness if it exists if @hash[:thickness] os_veg_mat.setThickness(@hash[:thickness]) else os_veg_mat.setThickness(defaults[:thickness][:default]) end # assign conductivity if it exists if @hash[:conductivity] os_veg_mat.setConductivityofDrySoil(@hash[:conductivity]) else os_veg_mat.setConductivityofDrySoil(defaults[:conductivity][:default]) end # assign density if it exists if @hash[:density] os_veg_mat.setDensityofDrySoil(@hash[:density]) else os_veg_mat.setDensityofDrySoil(defaults[:density][:default]) end # assign specific_heat if it exists if @hash[:specific_heat] os_veg_mat.setSpecificHeatofDrySoil(@hash[:specific_heat]) else os_veg_mat.setSpecificHeatofDrySoil(defaults[:specific_heat][:default]) end # assign roughness if it exists if @hash[:roughness] os_veg_mat.setRoughness(@hash[:roughness]) else os_veg_mat.setRoughness(defaults[:roughness][:default]) end # assign thermal absorptance if it exists if @hash[:soil_thermal_absorptance] os_veg_mat.setThermalAbsorptance(@hash[:soil_thermal_absorptance]) else os_veg_mat.setThermalAbsorptance(defaults[:soil_thermal_absorptance][:default]) end # assign solar absorptance if it exists if @hash[:soil_solar_absorptance] os_veg_mat.setSolarAbsorptance(@hash[:soil_solar_absorptance]) else os_veg_mat.setSolarAbsorptance(defaults[:soil_solar_absorptance][:default]) end # assign visible absorptance if it exists if @hash[:soil_visible_absorptance] os_veg_mat.setVisibleAbsorptance(@hash[:soil_visible_absorptance]) else os_veg_mat.setVisibleAbsorptance(defaults[:soil_visible_absorptance][:default]) end # assign plant_height if it exists if @hash[:plant_height] os_veg_mat.setHeightofPlants(@hash[:plant_height]) else os_veg_mat.setHeightofPlants(defaults[:plant_height][:default]) end # assign leaf_area_index if it exists if @hash[:leaf_area_index] os_veg_mat.setLeafAreaIndex(@hash[:leaf_area_index]) else os_veg_mat.setLeafAreaIndex(defaults[:leaf_area_index][:default]) end # assign leaf_reflectivity if it exists if @hash[:leaf_reflectivity] os_veg_mat.setLeafReflectivity(@hash[:leaf_reflectivity]) else os_veg_mat.setLeafReflectivity(defaults[:leaf_reflectivity][:default]) end # assign leaf_emissivity if it exists if @hash[:leaf_emissivity] os_veg_mat.setLeafEmissivity(@hash[:leaf_emissivity]) else os_veg_mat.setLeafEmissivity(defaults[:leaf_emissivity][:default]) end # assign min_stomatal_resist if it exists if @hash[:min_stomatal_resist] os_veg_mat.setMinimumStomatalResistance(@hash[:min_stomatal_resist]) else os_veg_mat.setMinimumStomatalResistance(defaults[:min_stomatal_resist][:default]) end # assign sat_vol_moist_cont if it exists if @hash[:sat_vol_moist_cont] os_veg_mat.setSaturationVolumetricMoistureContentoftheSoilLayer(@hash[:sat_vol_moist_cont]) else os_veg_mat.setSaturationVolumetricMoistureContentoftheSoilLayer(defaults[:sat_vol_moist_cont][:default]) end # assign residual_vol_moist_cont if it exists if @hash[:residual_vol_moist_cont] os_veg_mat.setResidualVolumetricMoistureContentoftheSoilLayer(@hash[:residual_vol_moist_cont]) else os_veg_mat.setResidualVolumetricMoistureContentoftheSoilLayer(defaults[:residual_vol_moist_cont][:default]) end # assign init_vol_moist_cont if it exists if @hash[:init_vol_moist_cont] os_veg_mat.setInitialVolumetricMoistureContentoftheSoilLayer(@hash[:init_vol_moist_cont]) else os_veg_mat.setInitialVolumetricMoistureContentoftheSoilLayer(defaults[:init_vol_moist_cont][:default]) end # assign moist_diff_model if it exists if @hash[:moist_diff_model] os_veg_mat.setMoistureDiffusionCalculationMethod(@hash[:moist_diff_model]) else os_veg_mat.setMoistureDiffusionCalculationMethod(defaults[:moist_diff_model][:default]) end os_veg_mat end |