Added code to highlight a part when selecting its balloon (wip)

InitGui.py

@@ -1,3 +1,7 @@
+#sys.path.append('/usr/local/lib/python3.9/dist-packages/')
+#import pydevd
+#pydevd.settrace()
+
 import os
 
 import FreeCADGui as Gui

ahb_cmd_view_annotate.py

@@ -1,5 +1,7 @@
 import FreeCADGui as Gui
 import FreeCAD as App
+import numpy as np
+from pickle import NONE
 
 class AHB_View_Annotate:
     updating_balloon = False
@@ -27,17 +29,14 @@ class AHB_View_Annotate:
         if view.TypeId != 'TechDraw::DrawViewPart':
             raise Exception("Selected object is not a TechDraw view")
         
-        page = None
-        for obj in doc.Objects:
-            if obj.TypeId == 'TechDraw::DrawPage':
-                if view in obj.Views:
-                    page = obj
+        page = self.getViewPage(view)
         if page is None:
             raise Exception("Can't find page in which the selected view is located")
         
         # Remove balloons referencing missing objects
         for balloon in page.Views:
             if balloon.TypeId == 'TechDraw::DrawViewBalloon' and "AssemblyHandbook_PartName" in balloon.PropertiesList:
+                if balloon.SourceView != view: continue
                 partLink = doc.getObject(balloon.AssemblyHandbook_PartName)
                 if partLink is None or partLink not in view.XSource:
                     print(balloon.Name + " references missing object " + balloon.AssemblyHandbook_PartName + ", removing balloon")
@@ -49,6 +48,7 @@ class AHB_View_Annotate:
             # Search an existing balloon to update
             for obj in page.Views:
                 if obj.TypeId == 'TechDraw::DrawViewBalloon' and "AssemblyHandbook_PartName" in obj.PropertiesList and obj.AssemblyHandbook_PartName == partLink.Name:
+                    if obj.SourceView != view: continue
                     balloon = obj
             
             # Create a new balloon if needed
@@ -63,8 +63,8 @@ class AHB_View_Annotate:
                 
                 self.updateBalloon(balloon)
                 
-                balloon.X = int(balloon.OriginX) + 100
-                balloon.Y = int(balloon.OriginY) + 100
+                balloon.X = int(balloon.OriginX) + 20
+                balloon.Y = int(balloon.OriginY) + 20
             else:
                 self.updateBalloon(balloon)
     
@@ -79,34 +79,193 @@ class AHB_View_Annotate:
             self.updateBalloon(obj)
             self.updating_balloon = False
             
-    def onBalloonSelected(self, operation, obj, sub, point):
+    def onBalloonSelected(self, operation, balloon, sub, point):
+        import time
+        
         #print(operation, obj.Name, sub, point)
-        if "AssemblyHandbook_PartName" in obj.PropertiesList:
+        if "AssemblyHandbook_PartName" in balloon.PropertiesList:
             if operation == 'added':
-                print("Selected balloon of " + obj.AssemblyHandbook_PartName)
+                print("Selected balloon of " + balloon.AssemblyHandbook_PartName)
+                
+                doc = balloon.Document
+                view = balloon.SourceView
+                page = self.getViewPage(view)
+                
+                partLink = doc.getObject(balloon.AssemblyHandbook_PartName)
+                
+                cache_edges_start_time = time.perf_counter()
+                
+                # create temporary view of part
+                tmpView = None
+                for v in page.Views:
+                    if v.TypeId == 'TechDraw::DrawViewPart' and len(v.XSource) == 1 and v.XSource[0] == partLink:
+                        tmpView = v
+                if tmpView is None:
+                    keepUpdated = page.KeepUpdated
+                    page.KeepUpdated = True
+                    tmpView = doc.addObject("TechDraw::DrawViewPart", "View")
+                    tmpView.Direction = view.Direction
+                    tmpView.XDirection = view.XDirection
+                    tmpView.ScaleType = 'Custom'
+                    tmpView.Scale = 1.0
+                    tmpView.XSource = partLink
+                    page.addView(tmpView)
+                    tmpView.recompute()
+                    page.KeepUpdated = keepUpdated
+                    
+                cache_edges_end_render_time = time.perf_counter()
+                    
+                #tmpView.clearCosmeticEdges()
+                #tmpView.recompute()
+                
+                # copy edges relative to center
+                # TODO: in-memory cache
+                tmpCenter = self.computePartCenter(tmpView, partLink)
+                #print('tmpCenter', tmpCenter)
+                tmpEdges = tmpView.getVisibleEdges()
+                # count lines
+                numLines = 0
+                for edge in tmpEdges:
+                    if not hasattr(edge.Curve, 'Degree') or edge.Curve.Degree == 1: numLines += 1
+                # store all lines in a packed array of floats (for each line: X1, Y1, X2, Y2)
+                cachedLines = np.empty([numLines, 4])
+                lineIdx = 0
+                for edge in tmpEdges:
+                    degree = 1
+                    try:
+                        degree = edge.Curve.Degree
+                    except:
+                        pass
+                    if degree == 1:
+                        #print('tmpEdge', edge.Vertexes[0].Point.x, edge.Vertexes[0].Point.y, edge.Vertexes[1].Point.x, edge.Vertexes[1].Point.y)
+                        sx = 1.0
+                        sy = -1.0
+                        cachedLines[lineIdx] = [
+                            edge.Vertexes[0].Point.x*sx - tmpCenter.x,
+                            edge.Vertexes[0].Point.y*sy - tmpCenter.y,
+                            edge.Vertexes[1].Point.x*sx - tmpCenter.x,
+                            edge.Vertexes[1].Point.y*sy - tmpCenter.y
+                        ]
+                        
+                        #print('tmpLine', cachedLines[lineIdx])
+                        
+                        lineIdx = lineIdx + 1
+                        
+                cache_edges_end_time = time.perf_counter()
+                        
+                '''tmpView.makeCosmeticLine(tmpCenter - App.Vector(0,3), tmpCenter + App.Vector(0,3))
+                tmpView.makeCosmeticLine(tmpCenter - App.Vector(3,0), tmpCenter + App.Vector(3,0))
+                drawCenter = tmpCenter + App.Vector(-1,0)
+                for line in cachedLines:
+                    p0 = drawCenter + App.Vector(line[0], line[1])
+                    p1 = drawCenter + App.Vector(line[2], line[3])
+                    tmpView.makeCosmeticLine(p0, p1)
+                tmpView.recompute()'''
+                
+                # delete temporary view
+                doc.removeObject(tmpView.Name)
+                
+                #view.clearCosmeticEdges()
+                #view.recompute()
+                
+                update_final_edges_start_time = time.perf_counter()
+                
+                # iterate edges of actual view and highlight matching edges
+                center = self.computePartCenter(view, partLink)
+                #print('center', center)
+                for edgeIdx in range(1000):
+                    hasEdge = False
+                    try:
+                        edge = view.getEdgeByIndex(edgeIdx)
+                        hasEdge = True
+                    except:
+                        pass
+                    if not hasEdge:
+                        break
+                    
+                    view.formatGeometricEdge(edgeIdx,1,0.25,0,True)
+                    
+                    degree = 1
+                    try:
+                        degree = edge.Curve.Degree
+                    except:
+                        pass
+                    
+                    if degree == 1:
+                        #print('edge', edge.Vertexes[0].X, edge.Vertexes[0].Y, edge.Vertexes[1].X, edge.Vertexes[1].Y)
+                        sx = 1
+                        sy = 1
+                        edgeData = [
+                            (edge.Vertexes[0].X - center.x)*sx,
+                            (edge.Vertexes[0].Y - center.y)*sy,
+                            (edge.Vertexes[1].X - center.x)*sx,
+                            (edge.Vertexes[1].Y - center.y)*sy
+                        ]
+                        v0 = App.Vector(edgeData[0], edgeData[1])
+                        v1 = App.Vector(edgeData[2], edgeData[3])
+                        #print(edgeData)
+                        for line in cachedLines:
+                            l0 = App.Vector(line[0], line[1])
+                            l1 = App.Vector(line[2], line[3])
+                            #d = abs(edgeData[0] - line[0]) + abs(edgeData[1] - line[1]) + abs(edgeData[2] - line[2]) + abs(edgeData[3] - line[3])
+                            d = v0.distanceToLineSegment(l0, l1).Length + v1.distanceToLineSegment(l0, l1).Length
+                            if d < 0.001:
+                                view.formatGeometricEdge(edgeIdx,1,0.25,(0,0.85,0),True)
+                                
+                update_final_edges_end_time = time.perf_counter()
+                
+                print("Part render time: " + str(round((cache_edges_end_render_time - cache_edges_start_time) * 1000) / 1000) + "s")
+                print("Part read time: " + str(round((cache_edges_end_time - cache_edges_end_render_time) * 1000) / 1000) + "s")
+                print("Update view time: " + str(round((update_final_edges_end_time - update_final_edges_start_time) * 1000) / 1000) + "s")
+                
+                '''view.makeCosmeticLine(center - App.Vector(0,3), center + App.Vector(0,3))
+                view.makeCosmeticLine(center - App.Vector(3,0), center + App.Vector(3,0))
+                drawCenter = center + App.Vector(1,0)
+                for line in cachedLines:
+                    p0 = drawCenter + App.Vector(line[0], line[1])
+                    p1 = drawCenter + App.Vector(line[2], line[3])
+                    view.makeCosmeticLine(p0, p1)'''
+                    
+                #view.recompute()
+                
             elif operation == 'removed':
-                print("Deselected balloon of " + obj.AssemblyHandbook_PartName)
+                print("Deselected balloon of " + balloon.AssemblyHandbook_PartName)
     
     def updateBalloon(self, balloon):
         doc = App.activeDocument()
         view = balloon.SourceView
-        partLink = doc.getObject(balloon.AssemblyHandbook_PartName)
+        obj = doc.getObject(balloon.AssemblyHandbook_PartName)
         
-        # Get object center in view space
-        objectCenterWorld = partLink.LinkPlacement.Matrix.multiply(partLink.LinkedObject.Shape.CenterOfGravity)
-        vertId = view.makeCosmeticVertex3d(objectCenterWorld)
-        vert = view.getCosmeticVertex(vertId)
-        objectCenterView = vert.Point
-        view.removeCosmeticVertex(vertId)
+        objectCenterView = self.computePartCenter(view, obj)
         
         balloon.OriginX = objectCenterView.x
         balloon.OriginY = objectCenterView.y
         
-        balloon.Text = partLink.LinkedObject.Document.Name
+        balloon.Text = obj.LinkedObject.Document.Name if obj.TypeId == 'App::Link' else obj.Name
         balloon.ViewObject.Font = 'DejaVu Sans'
         balloon.ViewObject.Fontsize = 4
         balloon.BubbleShape = 'Inspection'
         balloon.EndTypeScale = 4
+        
+    def getViewPage(self, view):
+        for obj in view.InList:
+            if obj.TypeId == 'TechDraw::DrawPage':
+                if view in obj.Views:
+                    return  obj
+        return None
+    
+    def computePartCenter(self, view, obj):
+        if obj.TypeId == 'App::Link':
+            partLink = obj
+            objectCenterWorld = partLink.LinkPlacement.Matrix.multiply(partLink.LinkedObject.Shape.CenterOfGravity)
+        else:
+            objectCenterWorld = obj.Shape.CenterOfGravity
+        
+        vertId = view.makeCosmeticVertex3d(objectCenterWorld)
+        vert = view.getCosmeticVertex(vertId)
+        objectCenterView = vert.Point
+        view.removeCosmeticVertex(vertId)
+        return objectCenterView
 
 from ahb_command import AHB_CommandWrapper
 AHB_CommandWrapper.addGuiCommand('AHB_view_annotate', AHB_View_Annotate())