Rebased Helix op on PathOp framework, also it's UI.

src/Mod/Path/PathScripts/PathCircularHoleBase.py

@@ -0,0 +1,224 @@
+# -*- coding: utf-8 -*-
+
+# ***************************************************************************
+# *                                                                         *
+# *   Copyright (c) 2017 sliptonic <shopinthewoods@gmail.com>               *
+# *                                                                         *
+# *   This program is free software; you can redistribute it and/or modify  *
+# *   it under the terms of the GNU Lesser General Public License (LGPL)    *
+# *   as published by the Free Software Foundation; either version 2 of     *
+# *   the License, or (at your option) any later version.                   *
+# *   for detail see the LICENCE text file.                                 *
+# *                                                                         *
+# *   This program is distributed in the hope that it will be useful,       *
+# *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
+# *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
+# *   GNU Library General Public License for more details.                  *
+# *                                                                         *
+# *   You should have received a copy of the GNU Library General Public     *
+# *   License along with this program; if not, write to the Free Software   *
+# *   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  *
+# *   USA                                                                   *
+# *                                                                         *
+# ***************************************************************************
+
+import FreeCAD
+import DraftGeomUtils
+import PathScripts.PathLog as PathLog
+import PathScripts.PathOp as PathOp
+import PathScripts.PathUtils as PathUtils
+import string
+import sys
+
+from PySide import QtCore
+
+# Qt tanslation handling
+def translate(context, text, disambig=None):
+    return QtCore.QCoreApplication.translate(context, text, disambig)
+
+if True:
+    PathLog.setLevel(PathLog.Level.DEBUG, PathLog.thisModule())
+    PathLog.trackModule(PathLog.thisModule())
+
+class ObjectOp(PathOp.ObjectOp):
+
+    def opFeatures(self, obj):
+        return PathOp.FeatureTool | PathOp.FeatureDepths | PathOp.FeatureHeights | PathOp.FeatureBaseFaces | self.circularHoleFeatures(obj)
+
+    def initOperation(self, obj):
+        obj.addProperty("App::PropertyStringList", "Disabled", "Base", QtCore.QT_TRANSLATE_NOOP("Path", "List of disabled features"))
+        self.initCircularHoleOperation(obj)
+
+    def baseIsArchPanel(self, obj, base):
+        return hasattr(base, "Proxy") and isinstance(base.Proxy, ArchPanel.PanelSheet)
+
+    def getArchPanelEdge(self, obj, base, sub):
+        ids = string.split(sub, '.')
+        holeId = int(ids[0])
+        wireId = int(ids[1])
+        edgeId = int(ids[2])
+
+        for holeNr, hole in enumerate(base.Proxy.getHoles(base, transform=True)):
+            if holeNr == holeId:
+                for wireNr, wire in enumerate(hole.Wires):
+                    if wireNr == wireId:
+                        for edgeNr, edge in enumerate(wire.Edges):
+                            if edgeNr == edgeId:
+                                return edge
+
+    def holeDiameter(self, obj, base, sub):
+        if self.baseIsArchPanel(obj, base):
+            edge = self.getArchPanelEdge(obj, base, sub)
+            return edge.BoundBox.XLength
+
+        shape = base.Shape.getElement(sub)
+        if shape.ShapeType == 'Vertex':
+            return 0
+
+        # for all other shapes the diameter is just the dimension in X
+        return shape.BoundBox.XLength
+
+    def holePosition(self, obj, base, sub):
+        if self.baseIsArchPanel(obj, base):
+            edge = self.getArchPanelEdge(obj, base, sub)
+            center = edge.Curve.Center
+            return FreeCAD.Vector(center.x, center.y, 0)
+
+        shape = base.Shape.getElement(sub)
+        if shape.ShapeType == 'Vertex':
+            return FreeCAD.Vector(shape.X, shape.Y, 0)
+
+        if shape.ShapeType == 'Edge':
+            return FreeCAD.Vector(shape.Curve.Center.x, shape.Curve.Center.y, 0)
+
+        if shape.ShapeType == 'Face':
+            return FreeCAD.Vector(shape.Surface.Center.x, shape.Surface.Center.y, 0)
+
+        PathLog.error('This is bad')
+
+    def isHoleEnabled(self, obj, base, sub):
+        name = "%s.%s" % (base.Name, sub)
+        return not name in obj.Disabled
+
+    def opExecute(self, obj):
+        PathLog.track()
+
+        if len(obj.Base) == 0:
+            job = PathUtils.findParentJob(obj)
+            if not job or not job.Base:
+                return
+            baseobject = job.Base
+
+            # Arch PanelSheet
+            features = []
+            if self.baseIsArchPanel(obj, baseobject):
+                holeshapes = baseobject.Proxy.getHoles(baseobject, transform=True)
+                tooldiameter = obj.ToolController.Proxy.getTool(obj.ToolController).Diameter
+                for holeNr, hole in enumerate(holeshapes):
+                    PathLog.debug('Entering new HoleShape')
+                    for wireNr, wire in enumerate(hole.Wires):
+                        PathLog.debug('Entering new Wire')
+                        for edgeNr, edge in enumerate(wire.Edges):
+                            if PathUtils.isDrillable(baseobject, edge, tooldiameter):
+                                PathLog.debug('Found drillable hole edges: {}'.format(edge))
+                                features.append((baseobject, "%d.%d.%d" % (holeNr, wireNr, edgeNr)))
+
+                self.setDepths(obj, None, None, baseobject.Shape.BoundBox)
+            else:
+                features = self.findHoles(obj, baseobject)
+                self.setupDepthsFrom(obj, features, baseobject)
+            obj.Base = features
+            obj.Disabled = []
+
+        holes = []
+
+        for base, subs in obj.Base:
+            for sub in subs:
+                if self.isHoleEnabled(obj, base, sub):
+                    pos = self.holePosition(obj, base, sub)
+                    holes.append({'x': pos.x, 'y': pos.y, 'r': self.holeDiameter(obj, base, sub)})
+
+        if len(holes) > 0:
+            self.circularHoleExecute(obj, holes)
+
+    def opOnChanged(self, obj, prop):
+        if 'Base' == prop and not 'Restore' in obj.State and obj.Base:
+            features = []
+            for base, subs in obj.Base:
+                for sub in subs:
+                    features.append((base, sub))
+
+            job = PathUtils.findParentJob(obj)
+            if not job or not job.Base:
+                return
+
+            self.setupDepthsFrom(obj, features, job.Base)
+
+    def setupDepthsFrom(self, obj, features, baseobject):
+        zmax = None
+        zmin = None
+        for base,sub in features:
+            shape = base.Shape.getElement(sub)
+            bb = shape.BoundBox
+            # find the highes zmax and the highes zmin levels, those provide
+            # the safest values for StartDepth and FinalDepth
+            if zmax is None or zmax < bb.ZMax:
+                zmax = bb.ZMax
+            if zmin is None or zmin < bb.ZMin:
+                zmin = bb.ZMin
+        self.setDepths(obj, zmax, zmin, baseobject.Shape.BoundBox)
+
+    def setDepths(self, obj, zmax, zmin, bb):
+        PathLog.track(obj.Label, zmax, zmin, bb)
+        if zmax is None:
+            zmax = 5
+        if zmin is None:
+            zmin = 0
+
+        if zmin > zmax:
+            zmax = zmin
+
+        PathLog.debug("setDepths(%s): z=%.2f -> %.2f bb.z=%.2f -> %.2f" % (obj.Label, zmin, zmax, bb.ZMin, bb.ZMax))
+
+        obj.StartDepth = zmax
+        obj.ClearanceHeight = bb.ZMax + 5.0
+        obj.SafeHeight = bb.ZMax + 3.0
+        obj.FinalDepth = zmin
+
+    def findHoles(self, obj, baseobject):
+        shape = baseobject.Shape
+        PathLog.track('obj: {} shape: {}'.format(obj, shape))
+        holelist = []
+        features = []
+        # tooldiameter = obj.ToolController.Proxy.getTool(obj.ToolController).Diameter
+        tooldiameter = None
+        PathLog.debug('search for holes larger than tooldiameter: {}: '.format(tooldiameter))
+        if DraftGeomUtils.isPlanar(shape):
+            PathLog.debug("shape is planar")
+            for i in range(len(shape.Edges)):
+                candidateEdgeName = "Edge" + str(i + 1)
+                e = shape.getElement(candidateEdgeName)
+                if PathUtils.isDrillable(shape, e, tooldiameter):
+                    PathLog.debug('edge candidate: {} (hash {})is drillable '.format(e, e.hashCode()))
+                    x = e.Curve.Center.x
+                    y = e.Curve.Center.y
+                    diameter = e.BoundBox.XLength
+                    holelist.append({'featureName': candidateEdgeName, 'feature': e, 'x': x, 'y': y, 'd': diameter, 'enabled': True})
+                    features.append((baseobject, candidateEdgeName))
+                    PathLog.debug("Found hole feature %s.%s" % (baseobject.Label, candidateEdgeName))
+        else:
+            PathLog.debug("shape is not planar")
+            for i in range(len(shape.Faces)):
+                candidateFaceName = "Face" + str(i + 1)
+                f = shape.getElement(candidateFaceName)
+                if PathUtils.isDrillable(shape, f, tooldiameter):
+                    PathLog.debug('face candidate: {} is drillable '.format(f))
+                    x = f.Surface.Center.x
+                    y = f.Surface.Center.y
+                    diameter = f.BoundBox.XLength
+                    holelist.append({'featureName': candidateFaceName, 'feature': f, 'x': x, 'y': y, 'd': diameter, 'enabled': True})
+                    features.append((baseobject, candidateFaceName))
+                    PathLog.debug("Found hole feature %s.%s" % (baseobject.Label, candidateFaceName))
+
+        PathLog.debug("holes found: {}".format(holelist))
+        return features