public static AnalyticalModel UpdateFacingExternal(this AnalyticalModel analyticalModel, TBD.TBDDocument tBDDocument)
{
if (analyticalModel == null || tBDDocument == null)
{
return(null);
}
Dictionary <string, TBD.zone> zones = tBDDocument.Building?.ZoneDictionary();
if (zones == null)
{
return(null);
}
AdjacencyCluster adjacencyCluster = analyticalModel.AdjacencyCluster;
if (adjacencyCluster == null)
{
return(null);
}
Dictionary <string, Space> spaces = adjacencyCluster.SpaceDictionary();
if (spaces == null)
{
return(null);
}
if (zones.Count == 0 || spaces.Count == 0)
{
return(new AnalyticalModel(analyticalModel));
}
foreach (KeyValuePair <string, Space> keyValuePair in spaces)
{
TBD.zone zone = null;
if (!zones.TryGetValue(keyValuePair.Key, out zone))
{
continue;
}
if (zone == null)
{
continue;
}
Space space_New = UpdateFacingExternal(keyValuePair.Value, zone);
if (space_New == null)
{
continue;
}
adjacencyCluster.AddObject(space_New);
}
return(new AnalyticalModel(analyticalModel, adjacencyCluster));
}
public static AnalyticalModel UpdateT3D(this AnalyticalModel analyticalModel, T3DDocument t3DDocument)
{
if (analyticalModel == null)
{
return(null);
}
Building building = t3DDocument?.Building;
if (building == null)
{
return(null);
}
Modify.RemoveUnsusedZones(building);
double northAngle = double.NaN;
if (analyticalModel.TryGetValue(AnalyticalModelParameter.NorthAngle, out northAngle))
{
building.northAngle = global::System.Math.Round(Units.Convert.ToDegrees(northAngle), 1);
}
Location location = analyticalModel.Location;
if (location != null)
{
building.longitude = location.Longitude;
building.latitude = location.Latitude;
if (location.TryGetValue(LocationParameter.TimeZone, out string timeZone))
{
double @double = Core.Query.Double(Core.Query.UTC(timeZone));
if (!double.IsNaN(@double))
{
building.timeZone = global::System.Convert.ToSingle(@double);
}
}
}
AdjacencyCluster adjacencyCluster = analyticalModel?.AdjacencyCluster;
if (adjacencyCluster != null)
{
//Zones -> Spaces
Dictionary <string, Space> spaces = adjacencyCluster.SpaceDictionary();
if (spaces != null)
{
Dictionary <string, TAS3D.Zone> zones = building.ZoneDictionary();
if (zones != null)
{
foreach (KeyValuePair <string, TAS3D.Zone> keyValuePair in zones)
{
Space space;
if (!spaces.TryGetValue(keyValuePair.Key, out space))
{
continue;
}
if (space == null)
{
continue;
}
//TODO: Update Zone
Space space_New = space.Clone();
space_New.Add(Create.ParameterSet(ActiveSetting.Setting, keyValuePair.Value));
adjacencyCluster.AddObject(space_New);
}
}
}
//Elements -> Constructions
List <Construction> constructions = adjacencyCluster.GetConstructions();
if (constructions != null)
{
List <Element> elements = building.Elements();
if (elements != null)
{
foreach (Element element in elements)
{
Construction construction = element.Match(constructions);
if (construction == null)
{
continue;
}
//Update Element
//Thickness
double thickness = construction.GetValue <double>(ConstructionParameter.DefaultThickness);
if (double.IsNaN(thickness) || thickness == 0)
{
thickness = construction.GetThickness();
}
if (!double.IsNaN(thickness))
{
element.width = thickness;
}
//if (Core.Query.TryGetValue(construction, Analytical.Query.ParameterName_Thickness(), out thickness, true))
// element.width= thickness;
//Colour
System.Drawing.Color color = global::System.Drawing.Color.Empty;
if (construction.TryGetValue(ConstructionParameter.Color, out color))
{
element.colour = Core.Convert.ToUint(color);
}
//Transparent
bool transparent = false;
MaterialType materialType = Analytical.Query.MaterialType(construction.ConstructionLayers, analyticalModel.MaterialLibrary);
if (materialType == MaterialType.Undefined)
{
materialType = MaterialType.Opaque;
if (construction.TryGetValue(ConstructionParameter.Transparent, out transparent))
{
element.transparent = transparent;
}
}
else
{
element.transparent = materialType == MaterialType.Transparent;
}
//InternalShadows
bool internalShadows = false;
if (construction.TryGetValue(ConstructionParameter.IsInternalShadow, out internalShadows))
{
element.internalShadows = internalShadows;
}
else
{
element.internalShadows = element.transparent;
}
//BEType
string string_BEType = null;
PanelType panelType = construction.PanelType();
if (panelType != Analytical.PanelType.Undefined)
{
string_BEType = panelType.Text();
}
else
{
if (!construction.TryGetValue(ConstructionParameter.DefaultPanelType, out string_BEType))
{
string_BEType = null;
}
}
if (!string.IsNullOrEmpty(string_BEType))
{
int bEType = BEType(string_BEType);
if (bEType != -1)
{
element.BEType = bEType;
panelType = PanelType(bEType);
}
}
else
{
panelType = Analytical.PanelType.Undefined;
List <Panel> panels_Construction = adjacencyCluster.GetPanels(construction);
if (panels_Construction != null && panels_Construction.Count > 0)
{
Panel panel = panels_Construction.Find(x => x.PanelType != Analytical.PanelType.Undefined);
if (panel != null)
{
panelType = panel.PanelType;
}
}
}
if (panelType == Analytical.PanelType.Undefined)
{
List <Panel> panels_Construction = adjacencyCluster.GetPanels(construction);
if (panels_Construction != null && panels_Construction.Count != 0)
{
element.zoneFloorArea = panels_Construction.Find(x => x.PanelType.PanelGroup() == PanelGroup.Floor) != null;
}
}
if (panelType.PanelGroup() == PanelGroup.Floor)
{
element.zoneFloorArea = true;
}
//Ground
bool ground = false;
if (construction.TryGetValue(ConstructionParameter.IsGround, out ground))
{
element.ground = ground;
}
//Air
bool air = false;
if (construction.TryGetValue(ConstructionParameter.IsAir, out air))
{
element.ghost = air;
}
List <Panel> panels = adjacencyCluster.GetPanels(construction);
if (panels != null && panels.Count > 0)
{
ParameterSet parameterSet = Create.ParameterSet(ActiveSetting.Setting, element);
construction.Add(parameterSet);
foreach (Panel panel in panels)
{
Panel panel_New = Analytical.Create.Panel(panel, construction);
adjacencyCluster.AddObject(panel_New);
}
}
}
}
}
//Windows -> ApertureConstruction
List <ApertureConstruction> apertureConstructions = adjacencyCluster.GetApertureConstructions();
if (apertureConstructions != null)
{
List <window> windows = building.Windows();
if (windows != null)
{
foreach (window window in windows)
{
if (window == null)
{
continue;
}
ApertureConstruction apertureConstruction = window.Match(apertureConstructions);
if (apertureConstruction == null)
{
continue;
}
//Colour
System.Drawing.Color color = global::System.Drawing.Color.Empty;
if (!apertureConstruction.TryGetValue(ApertureConstructionParameter.Color, out color))
{
color = Analytical.Query.Color(apertureConstruction.ApertureType);
}
if (color != global::System.Drawing.Color.Empty)
{
window.colour = Core.Convert.ToUint(color);
}
//Transparent
List <ConstructionLayer> constructionLayers = null;
if (true)
{
constructionLayers = apertureConstruction.PaneConstructionLayers;
}
else
{
constructionLayers = apertureConstruction.FrameConstructionLayers;
}
window.transparent = false; //Requested by Michal 2021.03.01
bool transparent = false;
MaterialType materialType = Analytical.Query.MaterialType(constructionLayers, analyticalModel.MaterialLibrary);
if (materialType == MaterialType.Undefined)
{
materialType = MaterialType.Opaque;
if (apertureConstruction.TryGetValue(ApertureConstructionParameter.Transparent, out transparent))
{
window.transparent = transparent;
}
}
else
{
window.transparent = materialType == MaterialType.Transparent;
}
if (window.transparent)
{
//InternalShadows
window.internalShadows = false; //Requested by Michal 2021.03.01
bool internalShadows = false;
if (apertureConstruction.TryGetValue(ApertureConstructionParameter.IsInternalShadow, out internalShadows))
{
window.internalShadows = internalShadows;
}
else
{
List <Panel> panels = adjacencyCluster.GetPanels(apertureConstruction);
if (panels != null && panels.Count != 0)
{
window.internalShadows = panels.TrueForAll(x => adjacencyCluster.External(x));
}
}
}
//FrameWidth
double frameWidth = double.NaN;
if (apertureConstruction.TryGetValue(ApertureConstructionParameter.DefaultFrameWidth, out frameWidth))
{
window.frameWidth = frameWidth;
}
}
}
}
}
AnalyticalModel result = new AnalyticalModel(analyticalModel, adjacencyCluster);
return(result);
}