// Main transaction
public static void Execute(Application app, Document doc, List <Curve> columnLines,
string nameRectColumn, string nameRoundColumn, Level level, bool IsSilent)
{
// Sort out column boundary
// Consider using CurveArray to store the data
List <List <Curve> > columnRect = new List <List <Curve> >();
List <Arc> columnRound = new List <Arc>();
List <List <Curve> > columnSpecialShaped = new List <List <Curve> >();
List <int> delIndex = new List <int>();
List <Curve> sortedLines = new List <Curve>();
foreach (Curve columnLine in columnLines)
{
if (columnLine.GetType().ToString() == "Autodesk.Revit.DB.Arc")
{
columnRound.Add(columnLine as Arc);
delIndex.Add(columnLines.IndexOf(columnLine));
}
else
{
sortedLines.Add(columnLine);
}
}
// this is the temperal method
List <List <Curve> > columnGroups = Algorithm.ClusterByIntersect(sortedLines);
Debug.Print("Baselines are sorted well");
foreach (List <Curve> columnGroup in columnGroups)
{
if (Algorithm.GetPtsOfCrvs(columnGroup).Count == columnGroup.Count)
{
if (Algorithm.IsRectangle(columnGroup))
{
columnRect.Add(columnGroup);
}
else
{
columnSpecialShaped.Add(columnGroup);
}
}
}
Debug.Print("Got rectangle {0}, round {1}, and unique shape {2}",
columnRect.Count, columnRound.Count, columnSpecialShaped.Count);
// Grab the columntype
FilteredElementCollector colColumns = new FilteredElementCollector(doc)
.OfClass(typeof(FamilySymbol));
// .OfCategory(BuiltInCategory.OST_Columns);
// OST handles the internal family types, maybe?
FamilySymbol rectangularColumn = colColumns.FirstElement() as FamilySymbol;
// Use default setting to avoid error handling, which is a lack of the line below
//FamilySymbol column_demo = columnTypes.Find((FamilySymbol fs) => { return fs.Name == "Column_demo"});
foreach (FamilySymbol columnType in colColumns)
{
if (columnType.Name == nameRectColumn)
{
rectangularColumn = columnType as FamilySymbol;
break;
}
}
// I don't know if there's a better way to split this...
// Column generation
if (IsSilent == true)
{
using (Transaction tx = new Transaction(doc, "Generate rectangular columns"))
{
FailureHandlingOptions options = tx.GetFailureHandlingOptions();
options.SetFailuresPreprocessor(new Util.FailureSwallower(false, false));
tx.SetFailureHandlingOptions(options);
tx.Start();
foreach (List <Curve> baselines in columnRect)
{
double width = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item1;
double depth = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item2;
double angle = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item3;
FamilySymbol fs = NewRectColumnType(doc, nameRectColumn, width, depth);
if (!fs.IsActive)
{
fs.Activate();
}
XYZ columnCenterPt = Algorithm.GetCenterPt(baselines);
Line columnCenterAxis = Line.CreateBound(columnCenterPt, columnCenterPt.Add(-XYZ.BasisZ));
// z pointing down to apply a clockwise rotation
FamilyInstance fi = doc.Create.NewFamilyInstance(columnCenterPt, fs, level, Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
ElementTransformUtils.RotateElement(doc, fi.Id, columnCenterAxis, angle);
//Autodesk.Revit.DB.Structure.StructuralType.Column
}
tx.Commit();
}
// To generate the special shaped column you have to do it transaction by transaction
// due to the family document reload operation must be out of one.
foreach (List <Curve> baselines in columnSpecialShaped)
{
var boundary = Algorithm.RectifyPolygon(Misc.CrvsToLines(baselines));
FamilySymbol fs = NewSpecialShapedColumnType(app, doc, boundary);
if (null == fs)
{
Debug.Print("Generic Model Family returns no symbol");
continue;
}
using (Transaction tx = new Transaction(doc, "Generate a special shaped column"))
{
tx.Start();
if (!fs.IsActive)
{
fs.Activate();
}
XYZ basePt = XYZ.Zero;
Line columnBaseAxis = Line.CreateBound(basePt, basePt.Add(-XYZ.BasisZ));
FamilyInstance fi = doc.Create.NewFamilyInstance(basePt, fs, level, Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
// DANGEROUS! the coordination transformation should be added here
tx.Commit();
}
}
}
else
{
string caption = "Extrude columns";
string task = "Creating rectangular columns...";
Views.ProgressBar pb1 = new Views.ProgressBar(caption, task, columnRect.Count);
foreach (List <Curve> baselines in columnRect)
{
using (Transaction tx = new Transaction(doc, "Generate a rectangular column"))
{
tx.Start();
double width = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item1;
double depth = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item2;
double angle = Algorithm.GetSizeOfRectangle(Misc.CrvsToLines(baselines)).Item3;
FamilySymbol fs = NewRectColumnType(doc, nameRectColumn, width, depth);
if (!fs.IsActive)
{
fs.Activate();
}
XYZ columnCenterPt = Algorithm.GetCenterPt(baselines);
Line columnCenterAxis = Line.CreateBound(columnCenterPt, columnCenterPt.Add(-XYZ.BasisZ));
// z pointing down to apply a clockwise rotation
FamilyInstance fi = doc.Create.NewFamilyInstance(columnCenterPt, fs, level, Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
ElementTransformUtils.RotateElement(doc, fi.Id, columnCenterAxis, angle);
//Autodesk.Revit.DB.Structure.StructuralType.Column
tx.Commit();
}
pb1.Increment();
if (pb1.ProcessCancelled)
{
break;
}
}
pb1.Close();
task = "Creating round columns...";
Views.ProgressBar pb2 = new Views.ProgressBar(caption, task, columnRound.Count);
foreach (Arc baseline in columnRound)
{
using (Transaction tx = new Transaction(doc, "Generate a rounded column"))
{
tx.Start();
XYZ basePt = baseline.Center;
double diameter = Misc.FootToMm(Math.Round(2 * baseline.Radius, 2));
FamilySymbol fs = NewRoundColumnType(doc, nameRoundColumn, diameter);
if (!fs.IsActive)
{
fs.Activate();
}
Line columnCenterAxis = Line.CreateBound(basePt, basePt.Add(-XYZ.BasisZ));
// z pointing down to apply a clockwise rotation
FamilyInstance fi = doc.Create.NewFamilyInstance(basePt, fs, level, Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
tx.Commit();
}
pb2.Increment();
if (pb2.ProcessCancelled)
{
break;
}
}
pb2.Close();
task = "Creating special shaped columns...";
Views.ProgressBar pb3 = new Views.ProgressBar(caption, task, columnSpecialShaped.Count);
foreach (List <Curve> baselines in columnSpecialShaped)
{
var boundary = Algorithm.RectifyPolygon(Misc.CrvsToLines(baselines));
FamilySymbol fs = NewSpecialShapedColumnType(app, doc, boundary);
if (null == fs)
{
Debug.Print("Generic Model Family returns no symbol");
continue;
}
using (Transaction tx = new Transaction(doc, "Generate a special shaped column"))
{
tx.Start();
if (!fs.IsActive)
{
fs.Activate();
}
XYZ basePt = XYZ.Zero;
Line columnBaseAxis = Line.CreateBound(basePt, basePt.Add(-XYZ.BasisZ));
FamilyInstance fi = doc.Create.NewFamilyInstance(basePt, fs, level, Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
// DANGEROUS! the coordination transformation should be added here
tx.Commit();
}
pb3.Increment();
if (pb3.ProcessCancelled)
{
break;
}
}
pb3.JobCompleted();
}
}
public static void Execute(Document doc, List <Curve> doorCrvs, List <Curve> windowCrvs,
List <Curve> wallCrvs, List <Util.TeighaText.CADTextModel> labels,
string nameDoor, string nameWindow, Level level, bool IsSilent)
{
View view = doc.ActiveView;
var doorClusters = Algorithm.ClusterByIntersect(doorCrvs);
// Sometimes ClusterByIntersect will not return ideal result
// because the intersected lines are not detected by the program for no reason
// sometimes it goes well
// iterate the bounding box generation 2 times may gurantee this but lacking efficiency
List <List <Curve> > doorBlocks = new List <List <Curve> > {
};
foreach (List <Curve> cluster in doorClusters)
{
if (null != Algorithm.CreateBoundingBox2D(cluster))
{
doorBlocks.Add(Algorithm.CreateBoundingBox2D(cluster));
}
}
//Debug.Print("{0} clustered door blocks in total", doorBlocks.Count);
List <Curve> doorAxes = new List <Curve> {
};
foreach (List <Curve> doorBlock in doorBlocks)
{
List <Curve> doorFrame = new List <Curve> {
};
for (int i = 0; i < doorBlock.Count; i++)
{
int sectCount = 0;
List <Curve> fenses = new List <Curve>();
foreach (Curve line in wallCrvs)
{
Curve testCrv = doorBlock[i].Clone();
SetComparisonResult result = RegionDetect.ExtendCrv(testCrv, 0.01).Intersect(line,
out IntersectionResultArray results);
if (result == SetComparisonResult.Overlap)
{
sectCount += 1;
fenses.Add(line);
}
}
if (sectCount == 2)
{
XYZ projecting = fenses[0].Evaluate(0.5, true);
XYZ projected = fenses[1].Project(projecting).XYZPoint;
if (fenses[0].Length > fenses[1].Length)
{
projecting = fenses[1].Evaluate(0.5, true);
projected = fenses[0].Project(projecting).XYZPoint;
}
Line doorAxis = Line.CreateBound(projecting, projected);
doorAxes.Add(doorAxis);
//doorAxes.Add(doorBlock[i]);
}
}
//Debug.Print("Curves adjoning the box: " + doorFrame.Count.ToString());
}
Debug.Print("We got {0} door axes. ", doorAxes.Count);
// Collect window blocks
var windowClusters = Algorithm.ClusterByIntersect(windowCrvs);
List <List <Curve> > windowBlocks = new List <List <Curve> > {
};
foreach (List <Curve> cluster in windowClusters)
{
if (null != Algorithm.CreateBoundingBox2D(cluster))
{
windowBlocks.Add(Algorithm.CreateBoundingBox2D(cluster));
}
}
//Debug.Print("{0} clustered window blocks in total", windowBlocks.Count);
List <Curve> windowAxes = new List <Curve> {
};
foreach (List <Curve> windowBlock in windowBlocks)
{
Line axis1 = Line.CreateBound((windowBlock[0].GetEndPoint(0) + windowBlock[0].GetEndPoint(1)).Divide(2),
(windowBlock[2].GetEndPoint(0) + windowBlock[2].GetEndPoint(1)).Divide(2));
Line axis2 = Line.CreateBound((windowBlock[1].GetEndPoint(0) + windowBlock[1].GetEndPoint(1)).Divide(2),
(windowBlock[3].GetEndPoint(0) + windowBlock[3].GetEndPoint(1)).Divide(2));
if (axis1.Length > axis2.Length)
{
windowAxes.Add(axis1);
}
else
{
windowAxes.Add(axis2);
}
}
Debug.Print("We got {0} window axes. ", windowAxes.Count);
if (IsSilent)
{
// Main transaction
// Plot axis of doors/windows and create the instance
using (Transaction tx = new Transaction(doc, "Generate sub-surfaces & marks"))
{
FailureHandlingOptions options = tx.GetFailureHandlingOptions();
options.SetFailuresPreprocessor(new Util.FailureSwallower(false, false));
// Switch this for the failure list test
// Util.FailureCollector fc = new Util.FailureCollector();
// options.SetFailuresPreprocessor(fc);
tx.SetFailureHandlingOptions(options);
tx.Start();
/*
* Plane Geomplane = Plane.CreateByNormalAndOrigin(XYZ.BasisZ, XYZ.Zero);
* SketchPlane sketch = SketchPlane.Create(doc, Geomplane);
*
* // Create door & window blocks
*
* foreach (List<Curve> doorBlock in doorBlocks)
* {
* //Debug.Print("Creating new bounding box");
* foreach (Curve edge in doorBlock)
* {
* ModelCurve modelline = doc.Create.NewModelCurve(edge, sketch) as ModelCurve;
* }
* }
* foreach (List<Curve> windowBlock in windowBlocks)
* {
* //Debug.Print("Creating new bounding box");
* foreach (Curve edge in windowBlock)
* {
* ModelCurve modelline = doc.Create.NewModelCurve(edge, sketch) as ModelCurve;
* }
* }
*/
// Create door axis & instance
foreach (Curve doorAxis in doorAxes)
{
/*
* DetailLine axis = doc.Create.NewDetailCurve(view, doorAxis) as DetailLine;
* GraphicsStyle gs = axis.LineStyle as GraphicsStyle;
* gs.GraphicsStyleCategory.LineColor = new Color(202, 51, 82);
* gs.GraphicsStyleCategory.SetLineWeight(7, gs.GraphicsStyleType);
*/
Wall hostWall = Wall.Create(doc, doorAxis, level.Id, true);
double width = Math.Round(Misc.FootToMm(doorAxis.Length), 0);
double height = 2000;
XYZ basePt = (doorAxis.GetEndPoint(0) + doorAxis.GetEndPoint(1)).Divide(2);
XYZ insertPt = basePt + XYZ.BasisZ * level.Elevation; // Absolute height
double span = Double.PositiveInfinity;
int labelId = -1;
foreach (Util.TeighaText.CADTextModel text in labels)
{
double distance = basePt.DistanceTo(text.Location);
if (distance < span)
{
span = distance;
labelId = labels.IndexOf(text);
}
}
if (labelId > -1)
{
width = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item1;
height = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item2;
//Debug.Print("Raw window label: {0}", labels[labelId].Text);
}
Debug.Print("Create new door with dimension {0}x{1}", width.ToString(), height.ToString());
FamilySymbol fs = NewOpeningType(doc, nameDoor, width, height, "Door");
if (null == fs)
{
continue;
}
if (!fs.IsActive)
{
fs.Activate();
}
FamilyInstance fi = doc.Create.NewFamilyInstance(insertPt, fs, hostWall, level,
Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
}
// Create window axis & instance
foreach (Curve windowAxis in windowAxes)
{
/*
* DetailLine axis = doc.Create.NewDetailCurve(view, windowAxis) as DetailLine;
* GraphicsStyle gs = axis.LineStyle as GraphicsStyle;
* gs.GraphicsStyleCategory.LineColor = new Color(202, 51, 82);
* gs.GraphicsStyleCategory.SetLineWeight(7, gs.GraphicsStyleType);
*/
Wall hostWall = Wall.Create(doc, windowAxis, level.Id, true);
double width = Math.Round(Misc.FootToMm(windowAxis.Length), 0);
double height = 2500;
XYZ basePt = (windowAxis.GetEndPoint(0) + windowAxis.GetEndPoint(1)).Divide(2); // On world plane
XYZ insertPt = basePt + XYZ.BasisZ * (Misc.MmToFoot(Properties.Settings.Default.sillHeight) + level.Elevation); // Absolute height
double span = Misc.MmToFoot(2000);
int labelId = -1;
foreach (Util.TeighaText.CADTextModel text in labels)
{
double distance = basePt.DistanceTo(text.Location);
//Debug.Print("Compare the two pts: " + Util.PrintXYZ(basePt) + " " + Util.PrintXYZ(text.Location));
if (distance < span)
{
span = distance;
labelId = labels.IndexOf(text);
}
}
if (labelId > -1)
{
width = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item1;
height = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item2;
if (height + Properties.Settings.Default.sillHeight > Properties.Settings.Default.floorHeight)
{
height = Properties.Settings.Default.floorHeight - Properties.Settings.Default.sillHeight;
}
//Debug.Print("Raw window label: {0}", labels[labelId].Text);
}
Debug.Print("Create new window with dimension {0}x{1}", width.ToString(), height.ToString());
FamilySymbol fs = NewOpeningType(doc, nameWindow, width, height, "Window");
if (null == fs)
{
continue;
}
if (!fs.IsActive)
{
fs.Activate();
}
FamilyInstance fi = doc.Create.NewFamilyInstance(insertPt, fs, hostWall, level,
Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
}
tx.Commit();
}
// Switch this for the failure list test
// fc.ShowDialogue();
}
/////////////////////////////
// UNDER PRESENTATION MODE //
else
{
string caption = "Create openings";
string task = "Creating doors...";
Views.ProgressBar pb1 = new Views.ProgressBar(caption, task, doorAxes.Count);
foreach (Curve doorAxis in doorAxes)
{
using (Transaction tx = new Transaction(doc, "Generate doors & adherences"))
{
//FailureHandlingOptions failOpt = tx.GetFailureHandlingOptions();
//failOpt.SetFailuresPreprocessor(new Util.WarningSwallower(false, false));
//tx.SetFailureHandlingOptions(failOpt);]
tx.Start();
Wall hostWall = Wall.Create(doc, doorAxis, level.Id, true);
double width = Math.Round(Misc.FootToMm(doorAxis.Length), 0);
double height = 2000;
XYZ basePt = (doorAxis.GetEndPoint(0) + doorAxis.GetEndPoint(1)).Divide(2);
XYZ insertPt = basePt + XYZ.BasisZ * level.Elevation; // Absolute height
double span = Double.PositiveInfinity;
int labelId = -1;
foreach (Util.TeighaText.CADTextModel text in labels)
{
double distance = basePt.DistanceTo(text.Location);
if (distance < span)
{
span = distance;
labelId = labels.IndexOf(text);
}
}
if (labelId > -1)
{
width = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item1;
height = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item2;
//Debug.Print("Raw window label: {0}", labels[labelId].Text);
}
Debug.Print("Create new door with dimension {0}x{1}", width.ToString(), height.ToString());
FamilySymbol fs = NewOpeningType(doc, nameDoor, width, height, "Door");
if (null == fs)
{
continue;
}
if (!fs.IsActive)
{
fs.Activate();
}
FamilyInstance fi = doc.Create.NewFamilyInstance(insertPt, fs, hostWall, level,
Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
tx.Commit();
}
pb1.Increment();
if (pb1.ProcessCancelled)
{
break;
}
}
pb1.Close();
task = "Creating windows...";
Views.ProgressBar pb2 = new Views.ProgressBar(caption, task, windowAxes.Count);
// Create window axis & instance
foreach (Curve windowAxis in windowAxes)
{
using (Transaction tx = new Transaction(doc, "Generate windows & adherences"))
{
tx.Start();
Wall hostWall = Wall.Create(doc, windowAxis, level.Id, true);
double width = Math.Round(Misc.FootToMm(windowAxis.Length), 0);
double height = 2500;
XYZ basePt = (windowAxis.GetEndPoint(0) + windowAxis.GetEndPoint(1)).Divide(2); // On world plane
XYZ insertPt = basePt + XYZ.BasisZ * (Misc.MmToFoot(Properties.Settings.Default.sillHeight) + level.Elevation); // Absolute height
double span = Misc.MmToFoot(2000);
int labelId = -1;
foreach (Util.TeighaText.CADTextModel text in labels)
{
double distance = basePt.DistanceTo(text.Location);
//Debug.Print("Compare the two pts: " + Util.PrintXYZ(basePt) + " " + Util.PrintXYZ(text.Location));
if (distance < span)
{
span = distance;
labelId = labels.IndexOf(text);
}
}
if (labelId > -1)
{
width = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item1;
height = Util.TeighaText.DecodeLabel(labels[labelId].Text, width, height).Item2;
if (height + Properties.Settings.Default.sillHeight > Properties.Settings.Default.floorHeight)
{
height = Properties.Settings.Default.floorHeight - Properties.Settings.Default.sillHeight;
}
//Debug.Print("Raw window label: {0}", labels[labelId].Text);
}
Debug.Print("Create new window with dimension {0}x{1}", width.ToString(), height.ToString());
FamilySymbol fs = NewOpeningType(doc, nameWindow, width, height, "Window");
if (null == fs)
{
continue;
}
if (!fs.IsActive)
{
fs.Activate();
}
FamilyInstance fi = doc.Create.NewFamilyInstance(insertPt, fs, hostWall, level,
Autodesk.Revit.DB.Structure.StructuralType.NonStructural);
tx.Commit();
}
pb2.Increment();
if (pb2.ProcessCancelled)
{
break;
}
}
pb2.JobCompleted();
}
}
public static void Execute(UIApplication uiapp, List <Curve> wallCrvs, Level level, bool IsSilent)
{
UIDocument uidoc = uiapp.ActiveUIDocument;
Application app = uiapp.Application;
Document doc = uidoc.Document;
// Bundle double lines and generate their axes
List <Curve> axes = new List <Curve>();
double bias = Misc.MmToFoot(20);
var doubleLines = Misc.CrvsToLines(wallCrvs);
for (int i = 0; i < doubleLines.Count; i++)
{
for (int j = 0; j < doubleLines.Count - i; j++)
{
if (Algorithm.IsParallel(doubleLines[i], doubleLines[i + j]) &&
!Algorithm.IsIntersected(doubleLines[i], doubleLines[i + j]))
{
// Imperical Units within Revit API
if (Algorithm.LineSpacing(doubleLines[i], doubleLines[i + j]) < Misc.MmToFoot(200) + bias &&
Algorithm.LineSpacing(doubleLines[i], doubleLines[i + j]) > Misc.MmToFoot(200) - bias &&
Algorithm.IsShadowing(doubleLines[i], doubleLines[i + j]))
{
if (Algorithm.GenerateAxis(doubleLines[i], doubleLines[i + j]) != null)
{
axes.Add(Algorithm.GenerateAxis(doubleLines[i], doubleLines[i + j]));
}
Debug.Print(doubleLines[i].Length.ToString() + " | " + doubleLines[i + j].Length.ToString());
}
}
}
}
// Axis merge /
List <Curve> mergedAxes = Algorithm.MergeAxes(axes);
Debug.Print("The merged axes number " + mergedAxes.Count.ToString());
string task = "Creating Walls...";
string caption = "Extrude Walls";
int n = mergedAxes.Count;
/*using (Transaction tx = new Transaction(doc, "Generate walls"))
* {
* tx.Start();
*
* // Wall generation
* foreach (Curve axis in mergedAxes)
* {
* Wall.Create(doc, axis, level.Id, true);
* }
*
* tx.Commit();
* }*/
if (IsSilent == true)
{
using (Transaction tx = new Transaction(doc, "Generate a wall"))
{
FailureHandlingOptions options = tx.GetFailureHandlingOptions();
options.SetFailuresPreprocessor(new Util.FailureSwallower(false, false));
tx.SetFailureHandlingOptions(options);
tx.Start();
foreach (Curve axis in mergedAxes)
{
Wall.Create(doc, axis, level.Id, true);
}
tx.Commit();
}
}
else
{
Views.ProgressBar pb = new Views.ProgressBar(caption, task, n);
foreach (Curve axis in mergedAxes)
{
using (Transaction tx = new Transaction(doc, "Generate a wall"))
{
tx.Start();
Wall.Create(doc, axis, level.Id, true);
tx.Commit();
}
pb.Increment();
if (pb.ProcessCancelled)
{
break;
}
}
pb.JobCompleted();
}
}
public Result Execute(ExternalCommandData commandData, ref string message, ElementSet elements)
{
AppDomain currentDomain = AppDomain.CurrentDomain;
currentDomain.AssemblyResolve += new ResolveEventHandler(Misc.LoadFromSameFolder);
UIApplication uiapp = commandData.Application;
UIDocument uidoc = uiapp.ActiveUIDocument;
Application app = uiapp.Application;
Document doc = uidoc.Document;
View active_view = doc.ActiveView;
double tolerance = app.ShortCurveTolerance;
///////////////////////
// Pick Import Instance
ImportInstance import = null;
try
{
Reference r = uidoc.Selection.PickObject(ObjectType.Element, new Util.ElementsOfClassSelectionFilter <ImportInstance>());
import = doc.GetElement(r) as ImportInstance;
}
catch
{
return(Result.Cancelled);
}
if (import == null)
{
System.Windows.MessageBox.Show("CAD not found", "Tips");
return(Result.Cancelled);
}
// Initiate the progress bar
Views.ProgressBar pb = new Views.ProgressBar("Modeling entire building", "Initiation...", 100);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
//////////////////////////////////
// Check if the families are ready
pb.CustomizeStatus("Checking families...", 2);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
// Consider to add more customized families (in the Setting Panel)
if (Properties.Settings.Default.name_door == null ||
Properties.Settings.Default.name_window == null ||
Properties.Settings.Default.name_columnRect == null ||
Properties.Settings.Default.name_columnRound == null)
{
System.Windows.MessageBox.Show("Please select the column/door/window type in settings", "Tips");
return(Result.Cancelled);
}
//if (!File.Exists(Properties.Settings.Default.url_door) && File.Exists(Properties.Settings.Default.url_window)
// && File.Exists(Properties.Settings.Default.url_column))
//{
// System.Windows.MessageBox.Show("Please check the family path is solid", "Tips");
// return Result.Cancelled;
//}
//Family fColumn, fDoor, fWindow = null;
//using (Transaction tx = new Transaction(doc, "Load necessary families"))
//{
// tx.Start();
// if (!doc.LoadFamily(Properties.Settings.Default.url_column, out fColumn))
// {
// System.Windows.MessageBox.Show("Please check the column family path is solid", "Tips");
// return Result.Cancelled;
// }
// if (!doc.LoadFamily(Properties.Settings.Default.url_door, out fDoor) ||
// !doc.LoadFamily(Properties.Settings.Default.url_window, out fWindow))
// {
// System.Windows.MessageBox.Show("Please check the door/window family path is solid", "Tips");
// return Result.Cancelled;
// }
// tx.Commit();
//}
// Prepare a family for ViewPlan creation
// It may be a coincidence that the 1st ViewFamilyType is for the FloorPlan
// Uplift needed here (doomed if it happends to be a CeilingPlan)
ViewFamilyType viewType = new FilteredElementCollector(doc)
.OfClass(typeof(ViewFamilyType)).First() as ViewFamilyType;
RoofType roofType = new FilteredElementCollector(doc)
.OfClass(typeof(RoofType)).FirstOrDefault <Element>() as RoofType;
FloorType floorType = new FilteredElementCollector(doc)
.OfClass(typeof(FloorType)).FirstOrDefault <Element>() as FloorType;
////////////////////
// DATA PREPARATIONS
pb.CustomizeStatus("Processing geometries...", 3);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
// Prepare frames and levels
// Cluster all geometry elements and texts into datatrees
// Two procedures are intertwined
List <GeometryObject> dwg_frames = Util.TeighaGeometry.ExtractElement(uidoc, import,
Properties.Settings.Default.layerFrame, "PolyLine"); // framework is polyline by default
List <GeometryObject> dwg_geos = Util.TeighaGeometry.ExtractElement(uidoc, import);
// Terminate if no geometry has been found
if (dwg_geos == null)
{
System.Windows.MessageBox.Show("A drawing frame is mandantory", "Tips");
return(Result.Failed);
}
List <PolyLine> closedPolys = new List <PolyLine>();
List <PolyLine> parentPolys = new List <PolyLine>();
Debug.Print("Number of geos acting as the framework is " + dwg_frames.Count().ToString());
if (dwg_frames.Count > 0)
{
foreach (var obj in dwg_frames)
{
PolyLine poly = obj as PolyLine;
// Draw shattered lines in case the object is a PolyLine
if (null != poly)
{
var vertices = poly.GetCoordinates();
if (vertices[0].IsAlmostEqualTo(vertices.Last()))
{
closedPolys.Add(poly);
}
}
}
for (int i = 0; i < closedPolys.Count(); i++)
{
int judgement = 0;
int counter = 0;
for (int j = 0; j < closedPolys.Count(); j++)
{
if (i != j)
{
if (!RegionDetect.PolyInPoly(closedPolys[i], RegionDetect.PolyLineToCurveArray(closedPolys[j], tolerance)))
{
//Debug.Print("Poly inside poly detected");
judgement += 1;
}
counter += 1;
}
}
if (judgement == counter)
{
parentPolys.Add(closedPolys[i]);
}
}
}
else
{
Debug.Print("There is no returning of geometries");
}
Debug.Print("Got closedPolys: " + closedPolys.Count().ToString());
Debug.Print("Got parentPolys: " + parentPolys.Count().ToString());
string path = Util.TeighaText.GetCADPath(uidoc, import);
Debug.Print("The path of linked CAD file is: " + path);
List <Util.TeighaText.CADTextModel> texts = Util.TeighaText.GetCADText(path);
int level;
int levelCounter = 0;
double floorHeight = Misc.MmToFoot(Properties.Settings.Default.floorHeight);
Dictionary <int, PolyLine> frameDict = new Dictionary <int, PolyLine>(); // cache drawing borders
Dictionary <int, XYZ> transDict = new Dictionary <int, XYZ>();
// cache transform vector from the left-bottom corner of the drawing border to the Origin
Dictionary <int, List <GeometryObject> > geoDict = new Dictionary <int, List <GeometryObject> >();
// cache geometries of each floorplan
Dictionary <int, List <Util.TeighaText.CADTextModel> > textDict = new Dictionary <int, List <Util.TeighaText.CADTextModel> >();
// cache text info of each floorplan
if (texts.Count > 0)
{
foreach (var textmodel in texts)
{
level = Misc.GetLevel(textmodel.Text, "平面图");
Debug.Print("Got target label " + textmodel.Text);
if (level != -1)
{
foreach (PolyLine frame in parentPolys)
{
if (RegionDetect.PointInPoly(RegionDetect.PolyLineToCurveArray(frame, tolerance), textmodel.Location))
{
XYZ basePt = Algorithm.BubbleSort(frame.GetCoordinates().ToList())[0];
XYZ transVec = XYZ.Zero - basePt;
Debug.Print("Add level " + level.ToString() + " with transaction (" +
transVec.X.ToString() + ", " + transVec.Y.ToString() + ", " + transVec.Z.ToString() + ")");
if (!frameDict.Values.ToList().Contains(frame))
{
frameDict.Add(level, frame);
transDict.Add(level, transVec);
levelCounter += 1;
}
}
}
}
}
// Too complicated using 2 iterations... uplift needed
for (int i = 1; i <= levelCounter; i++)
{
textDict.Add(i, new List <Util.TeighaText.CADTextModel>());
geoDict.Add(i, new List <GeometryObject>());
CurveArray tempPolyArray = RegionDetect.PolyLineToCurveArray(frameDict[i], tolerance);
foreach (var textmodel in texts)
{
if (RegionDetect.PointInPoly(tempPolyArray, textmodel.Location))
{
textDict[i].Add(textmodel);
}
}
foreach (GeometryObject go in dwg_geos)
{
XYZ centPt = XYZ.Zero;
if (go is Line)
{
//get the revit model coordinates.
Line go_line = go as Line;
centPt = (go_line.GetEndPoint(0) + go_line.GetEndPoint(1)).Divide(2);
}
else if (go is Arc)
{
Arc go_arc = go as Arc;
centPt = go_arc.Center;
}
else if (go is PolyLine)
{
PolyLine go_poly = go as PolyLine;
centPt = go_poly.GetCoordinate(0);
}
// Assignment
if (RegionDetect.PointInPoly(tempPolyArray, centPt) && centPt != XYZ.Zero)
{
geoDict[i].Add(go);
}
}
}
}
Debug.Print("All levels: " + levelCounter.ToString());
Debug.Print("frameDict: " + frameDict.Count().ToString());
Debug.Print("transDict: " + transDict.Count().ToString());
for (int i = 1; i <= levelCounter; i++)
{
Debug.Print("geoDict-{0}: {1}", i, geoDict[i].Count().ToString());
}
Debug.Print("textDict: " + textDict.Count().ToString() + " " + textDict[1].Count().ToString());
////////////////////
// MAIN TRANSACTIONS
// Prepare a family and configurations for TextNote (Put it inside transactions)
/*
* TextNoteType tnt = new FilteredElementCollector(doc)
* .OfClass(typeof(TextNoteType)).First() as TextNoteType;
* TextNoteOptions options = new TextNoteOptions();
* options.HorizontalAlignment = HorizontalTextAlignment.Center;
* options.TypeId = doc.GetDefaultElementTypeId(ElementTypeGroup.TextNoteType);
* BuiltInParameter paraIndex = BuiltInParameter.TEXT_SIZE;
* Parameter textSize = tnt.get_Parameter(paraIndex);
* textSize.Set(0.3); // in feet
*
* XYZ centPt = RegionDetect.PolyCentPt(frameDict[i]);
* TextNoteOptions opts = new TextNoteOptions(tnt.Id);
*
* // The note may only show in the current view
* // no matter we still need it anyway
* TextNote txNote = TextNote.Create(doc, active_view.Id, centPt, floorView.Name, options);
* txNote.ChangeTypeId(tnt.Id);
*
* // Draw model lines of frames as notation
* Plane Geomplane = Plane.CreateByNormalAndOrigin(XYZ.BasisZ, XYZ.Zero + transDict[i] + XYZ.BasisZ * (i - 1) * floorHeight);
* SketchPlane sketch = SketchPlane.Create(doc, Geomplane);
* CurveArray shatters = RegionDetect.PolyLineToCurveArray(frameDict[i], tolerance);
* Transform alignModelLine = Transform.CreateTranslation(transDict[i] + XYZ.BasisZ * (i - 1) * floorHeight);
* foreach (Curve shatter in shatters)
* {
* Curve alignedCrv = shatter.CreateTransformed(alignModelLine);
* ModelCurve modelline = doc.Create.NewModelCurve(alignedCrv, sketch) as ModelCurve;
* }
*/
// ITERATION FLAG
for (int i = 1; i <= levelCounter; i++)
{
pb.CustomizeStatus("On Floor " + i.ToString() + "... with lines", 5);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
TransactionGroup tg = new TransactionGroup(doc, "Generate on floor-" + i.ToString());
{
try
{
tg.Start();
// MILESTONE
// Align the labels to the origin
Transform alignment = Transform.CreateTranslation(transDict[i]);
foreach (Util.TeighaText.CADTextModel label in textDict[i])
{
label.Location = label.Location + transDict[i];
}
// MILESTONE
// Sort out lines
List <Curve> wallCrvs = new List <Curve>();
List <Curve> columnCrvs = new List <Curve>();
List <Curve> doorCrvs = new List <Curve>();
List <Curve> windowCrvs = new List <Curve>();
foreach (GeometryObject go in geoDict[i])
{
var gStyle = doc.GetElement(go.GraphicsStyleId) as GraphicsStyle;
if (gStyle.GraphicsStyleCategory.Name == Properties.Settings.Default.layerWall)
{
if (go.GetType().Name == "Line")
{
Curve wallLine = go as Curve;
wallCrvs.Add(wallLine.CreateTransformed(alignment) as Line);
}
if (go.GetType().Name == "PolyLine")
{
CurveArray wallPolyLine_shattered = RegionDetect.PolyLineToCurveArray(go as PolyLine, tolerance);
foreach (Curve crv in wallPolyLine_shattered)
{
wallCrvs.Add(crv.CreateTransformed(alignment) as Line);
}
}
}
if (gStyle.GraphicsStyleCategory.Name == Properties.Settings.Default.layerColumn)
{
if (go.GetType().Name == "Line")
{
Curve columnLine = go as Curve;
columnCrvs.Add(columnLine.CreateTransformed(alignment));
}
if (go.GetType().Name == "PolyLine")
{
CurveArray columnPolyLine_shattered = RegionDetect.PolyLineToCurveArray(go as PolyLine, tolerance);
foreach (Curve crv in columnPolyLine_shattered)
{
columnCrvs.Add(crv.CreateTransformed(alignment));
}
}
}
if (gStyle.GraphicsStyleCategory.Name == Properties.Settings.Default.layerDoor)
{
Curve doorCrv = go as Curve;
PolyLine poly = go as PolyLine;
if (null != doorCrv)
{
doorCrvs.Add(doorCrv.CreateTransformed(alignment));
}
if (null != poly)
{
CurveArray columnPolyLine_shattered = RegionDetect.PolyLineToCurveArray(poly, tolerance);
foreach (Curve crv in columnPolyLine_shattered)
{
doorCrvs.Add(crv.CreateTransformed(alignment) as Line);
}
}
}
if (gStyle.GraphicsStyleCategory.Name == Properties.Settings.Default.layerWindow)
{
Curve windowCrv = go as Curve;
PolyLine poly = go as PolyLine;
if (null != windowCrv)
{
windowCrvs.Add(windowCrv.CreateTransformed(alignment));
}
if (null != poly)
{
CurveArray columnPolyLine_shattered = RegionDetect.PolyLineToCurveArray(poly, tolerance);
foreach (Curve crv in columnPolyLine_shattered)
{
windowCrvs.Add(crv.CreateTransformed(alignment) as Line);
}
}
}
}
// MILESTONE
// Create additional levels (ignore what's present)
// Consider to use sub-transaction here
using (var t_level = new Transaction(doc))
{
t_level.Start("Create levels");
Level floor = Level.Create(doc, (i - 1) * floorHeight);
ViewPlan floorView = ViewPlan.Create(doc, viewType.Id, floor.Id);
floorView.Name = "F-" + i.ToString();
t_level.Commit();
}
// Grab the current building level
FilteredElementCollector colLevels = new FilteredElementCollector(doc)
.WhereElementIsNotElementType()
.OfCategory(BuiltInCategory.INVALID)
.OfClass(typeof(Level));
Level currentLevel = colLevels.LastOrDefault() as Level;
// The newly created level will append to the list,
// but this is not a safe choice
// Sub-transactions are packed within these functions.
// The family names should be defined by the user in WPF
// MILESTONE
pb.CustomizeStatus("On Floor " + i.ToString() + "... with Walls", 90 / levelCounter / 4);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
CreateWall.Execute(uiapp, wallCrvs, currentLevel, true);
// MILESTONE
pb.CustomizeStatus("On Floor " + i.ToString() + "... with Columns", 90 / levelCounter / 4);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
CreateColumn.Execute(app, doc, columnCrvs,
Properties.Settings.Default.name_columnRect,
Properties.Settings.Default.name_columnRound,
currentLevel, true);
// MILESTONE
pb.CustomizeStatus("On Floor " + i.ToString() + "... with Openings", 90 / levelCounter / 4);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
CreateOpening.Execute(doc, doorCrvs, windowCrvs, wallCrvs, textDict[i],
Properties.Settings.Default.name_door, Properties.Settings.Default.name_window, currentLevel, true);
// Create floor
// MILESTONE
var footprint = CreateRegion.Execute(doc, wallCrvs, columnCrvs, windowCrvs, doorCrvs);
using (var t_floor = new Transaction(doc))
{
t_floor.Start("Generate Floor");
Floor newFloor = doc.Create.NewFloor(footprint, floorType, currentLevel, false, XYZ.BasisZ);
newFloor.get_Parameter(BuiltInParameter.FLOOR_HEIGHTABOVELEVEL_PARAM).Set(0);
t_floor.Commit();
}
// Generate rooms after the topology is established
pb.CustomizeStatus("On Floor " + i.ToString() + "... with Rooms", 90 / levelCounter / 4);
if (pb.ProcessCancelled)
{
return(Result.Cancelled);
}
// MILESTONE
using (var t_space = new Transaction(doc))
{
t_space.Start("Create rooms");
doc.Regenerate();
PlanTopology planTopology = doc.get_PlanTopology(currentLevel);
if (doc.ActiveView.ViewType == ViewType.FloorPlan)
{
foreach (PlanCircuit circuit in planTopology.Circuits)
{
if (null != circuit && !circuit.IsRoomLocated)
{
Room room = doc.Create.NewRoom(null, circuit);
room.LimitOffset = floorHeight;
room.BaseOffset = 0;
string roomName = "";
foreach (Util.TeighaText.CADTextModel label in textDict[i])
{
if (label.Layer == Properties.Settings.Default.layerSpace)
{
if (room.IsPointInRoom(label.Location + XYZ.BasisZ * (i - 1) * floorHeight))
{
roomName += label.Text;
}
}
}
if (roomName != "")
{
room.Name = roomName;
}
}
}
}
t_space.Commit();
}
// Create roof when iterating to the last level
// MILESTONE
if (i == levelCounter)
{
using (var t_roof = new Transaction(doc))
{
t_roof.Start("Create roof");
Level roofLevel = Level.Create(doc, i * floorHeight);
ViewPlan floorView = ViewPlan.Create(doc, viewType.Id, roofLevel.Id);
floorView.Name = "Roof";
ModelCurveArray footPrintToModelCurveMapping = new ModelCurveArray();
FootPrintRoof footprintRoof = doc.Create.NewFootPrintRoof(footprint, roofLevel, roofType,
out footPrintToModelCurveMapping);
//ModelCurveArrayIterator iterator = footPrintToModelCurveMapping.ForwardIterator();
/*
* iterator.Reset();
* while (iterator.MoveNext())
* {
* ModelCurve modelCurve = iterator.Current as ModelCurve;
* footprintRoof.set_DefinesSlope(modelCurve, true);
* footprintRoof.set_SlopeAngle(modelCurve, 0.5);
* }
*/
t_roof.Commit();
}
}
tg.Assimilate();
}
catch
{
System.Windows.MessageBox.Show("Error", "Tips");
tg.RollBack();
}
}
pb.JobCompleted();
}
return(Result.Succeeded);
}