def setCursor(self,mode=None):
"setCursor(self,mode=None): sets or resets the cursor to the given mode or resets"
if not mode:
for v in self.views:
v.unsetCursor()
self.views = []
self.cursorMode = None
else:
if mode != self.cursorMode:
if not self.views:
mw = DraftGui.getMainWindow()
self.views = mw.findChildren(QtGui.QWidget,"QtGLArea")
baseicon = QtGui.QPixmap(":/icons/Draft_Cursor.svg")
newicon = QtGui.QPixmap(32,24)
newicon.fill(QtCore.Qt.transparent)
qp = QtGui.QPainter()
qp.begin(newicon)
qp.drawPixmap(0,0,baseicon)
if not (mode == 'passive'):
tp = QtGui.QPixmap(self.cursors[mode]).scaledToWidth(16)
qp.drawPixmap(QtCore.QPoint(16, 8), tp);
qp.end()
cur = QtGui.QCursor(newicon,8,8)
for v in self.views:
v.setCursor(cur)
self.cursorMode = mode
def numericInput(self,numx,numy,numz):
"this function gets called by the toolbar when a valid base point has been entered"
self.point = Vector(numx,numy,numz)
self.node.append(self.point)
if not self.pickmode:
self.ui.offUi()
if self.call:
self.view.removeEventCallback("SoEvent",self.call)
self.task = DraftGui.ScaleTaskPanel()
self.task.sourceCmd = self
DraftGui.todo.delay(FreeCADGui.Control.showDialog,self.task)
if self.ghost:
self.ghost.on()
elif len(self.node) == 2:
msg(translate("draft", "Pick new distance from base point:")+"\n")
elif len(self.node) == 3:
if hasattr(FreeCADGui,"Snapper"):
FreeCADGui.Snapper.off()
if self.call:
self.view.removeEventCallback("SoEvent",self.call)
d1 = (self.node[1].sub(self.node[0])).Length
d2 = (self.node[2].sub(self.node[0])).Length
#print d2,"/",d1,"=",d2/d1
if hasattr(self,"task"):
if self.task:
self.task.lock.setChecked(True)
self.task.setValue(d2/d1)
def setCursor(self, mode=None):
"setCursor(self,mode=None): sets or resets the cursor to the given mode or resets"
if not mode:
for v in self.views:
v.unsetCursor()
self.views = []
self.cursorMode = None
else:
if mode != self.cursorMode:
if not self.views:
mw = DraftGui.getMainWindow()
self.views = mw.findChildren(QtGui.QWidget, "QtGLArea")
baseicon = QtGui.QPixmap(":/icons/Draft_Cursor.svg")
newicon = QtGui.QPixmap(32, 24)
newicon.fill(QtCore.Qt.transparent)
qp = QtGui.QPainter()
qp.begin(newicon)
qp.drawPixmap(0, 0, baseicon)
if not (mode == 'passive'):
tp = QtGui.QPixmap(self.cursors[mode]).scaledToWidth(16)
qp.drawPixmap(QtCore.QPoint(16, 8), tp)
qp.end()
cur = QtGui.QCursor(newicon, 8, 8)
for v in self.views:
v.setCursor(cur)
self.cursorMode = mode
def Activated(self):
self.Align = "Center"
self.Length = None
self.lengthValue = 0
self.continueCmd = False
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
self.Width = p.GetFloat("WallWidth", 200)
self.Height = p.GetFloat("WallHeight", 3000)
self.JOIN_WALLS_SKETCHES = p.GetBool("joinWallSketches", False)
self.AUTOJOIN = p.GetBool("autoJoinWalls", True)
self.DECIMALS = FreeCAD.ParamGet(
"User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
import DraftGui
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, 'Length')
sel = FreeCADGui.Selection.getSelectionEx()
done = False
self.existing = []
if sel:
# automatic mode
import Draft
if Draft.getType(sel[0].Object) != "Wall":
FreeCAD.ActiveDocument.openTransaction(
translate("Arch", "Create Wall"))
FreeCADGui.addModule("Arch")
for selobj in sel:
if Draft.getType(selobj.Object) == "Space":
spacedone = False
if selobj.HasSubObjects:
if "Face" in selobj.SubElementNames[0]:
idx = int(selobj.SubElementNames[0][4:])
FreeCADGui.doCommand(
"Arch.makeWall(FreeCAD.ActiveDocument." +
selobj.Object.Name + ",face=" + str(idx) +
")")
spacedone = True
if not spacedone:
FreeCADGui.doCommand(
'Arch.makeWall(FreeCAD.ActiveDocument.' +
selobj.Object.Name + ')')
else:
FreeCADGui.doCommand(
'Arch.makeWall(FreeCAD.ActiveDocument.' +
selobj.Object.Name + ')')
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
done = True
if not done:
# interactive mode
import DraftTrackers
self.points = []
self.tracker = DraftTrackers.boxTracker()
if hasattr(FreeCAD, "DraftWorkingPlane"):
FreeCAD.DraftWorkingPlane.setup()
FreeCADGui.Snapper.getPoint(callback=self.getPoint,
extradlg=self.taskbox())
def setEdit(self, vobj, mode):
if mode != 0:
return None
import DraftGui # Moving this to the top of the file results in a circular import.
taskd = DraftGui.FacebinderTaskPanel()
taskd.obj = vobj.Object
taskd.update()
Gui.Control.showDialog(taskd)
return True
def Activated(self):
self.Align = "Center"
self.Length = None
self.continueCmd = False
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
self.Width = p.GetFloat("WallWidth", 200)
self.Height = p.GetFloat("WallHeight", 3000)
self.JOIN_WALLS_SKETCHES = p.GetBool("joinWallSketches", False)
self.AUTOJOIN = p.GetBool("autoJoinWalls", True)
self.DECIMALS = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
import DraftGui
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, "Length")
sel = FreeCADGui.Selection.getSelectionEx()
done = False
self.existing = []
if sel:
# automatic mode
import Draft
if Draft.getType(sel[0].Object) != "Wall":
FreeCAD.ActiveDocument.openTransaction(translate("Arch", "Create Wall"))
FreeCADGui.doCommand("import Arch")
for selobj in sel:
if Draft.getType(selobj.Object) == "Space":
spacedone = False
if selobj.HasSubObjects:
if "Face" in selobj.SubElementNames[0]:
idx = int(selobj.SubElementNames[0][4:])
FreeCADGui.doCommand(
"Arch.makeWall(FreeCAD.ActiveDocument."
+ selobj.Object.Name
+ ",face="
+ str(idx)
+ ")"
)
spacedone = True
if not spacedone:
FreeCADGui.doCommand("Arch.makeWall(FreeCAD.ActiveDocument." + selobj.Object.Name + ")")
else:
FreeCADGui.doCommand("Arch.makeWall(FreeCAD.ActiveDocument." + selobj.Object.Name + ")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
done = True
if not done:
# interactive mode
import DraftTrackers
self.points = []
self.tracker = DraftTrackers.boxTracker()
if hasattr(FreeCAD, "DraftWorkingPlane"):
FreeCAD.DraftWorkingPlane.setup()
FreeCADGui.Snapper.getPoint(callback=self.getPoint, extradlg=self.taskbox())
def Activated(self):
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
self.Length = p.GetFloat("StructureLength", 100)
self.Width = p.GetFloat("StructureWidth", 100)
self.Height = p.GetFloat("StructureHeight", 1000)
self.Profile = None
self.continueCmd = False
self.DECIMALS = FreeCAD.ParamGet(
"User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
import DraftGui
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, 'Length')
sel = FreeCADGui.Selection.getSelection()
if sel:
st = Draft.getObjectsOfType(sel, "Structure")
ax = Draft.getObjectsOfType(sel, "Axis")
if ax:
FreeCAD.ActiveDocument.openTransaction(
str(translate("Arch", "Create Structural System")))
FreeCADGui.addModule("Arch")
if st:
FreeCADGui.doCommand("Arch.makeStructuralSystem(" +
ArchCommands.getStringList(st) + "," +
ArchCommands.getStringList(ax) + ")")
else:
FreeCADGui.doCommand("Arch.makeStructuralSystem(axes=" +
ArchCommands.getStringList(ax) + ")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
elif not (ax) and not (st):
FreeCAD.ActiveDocument.openTransaction(
str(translate("Arch", "Create Structure")))
FreeCADGui.addModule("Arch")
for obj in sel:
FreeCADGui.doCommand(
"Arch.makeStructure(FreeCAD.ActiveDocument." +
obj.Name + ")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
# interactive mode
if hasattr(FreeCAD, "DraftWorkingPlane"):
FreeCAD.DraftWorkingPlane.setup()
import DraftTrackers
self.points = []
self.tracker = DraftTrackers.boxTracker()
self.tracker.width(self.Width)
self.tracker.height(self.Height)
self.tracker.length(self.Length)
self.tracker.on()
FreeCADGui.Snapper.getPoint(callback=self.getPoint,
movecallback=self.update,
extradlg=self.taskbox())
def Activated(self):
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
self.Length = p.GetFloat("StructureLength", 100)
self.Width = p.GetFloat("StructureWidth", 100)
self.Height = p.GetFloat("StructureHeight", 1000)
self.Profile = None
self.continueCmd = False
self.DECIMALS = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
import DraftGui
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, "Length")
sel = FreeCADGui.Selection.getSelection()
if sel:
st = Draft.getObjectsOfType(sel, "Structure")
ax = Draft.getObjectsOfType(sel, "Axis")
if ax:
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch", "Create Structural System")))
FreeCADGui.addModule("Arch")
if st:
FreeCADGui.doCommand(
"Arch.makeStructuralSystem("
+ ArchCommands.getStringList(st)
+ ","
+ ArchCommands.getStringList(ax)
+ ")"
)
else:
FreeCADGui.doCommand("Arch.makeStructuralSystem(axes=" + ArchCommands.getStringList(ax) + ")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
elif not (ax) and not (st):
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch", "Create Structure")))
FreeCADGui.addModule("Arch")
for obj in sel:
FreeCADGui.doCommand("Arch.makeStructure(FreeCAD.ActiveDocument." + obj.Name + ")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
# interactive mode
if hasattr(FreeCAD, "DraftWorkingPlane"):
FreeCAD.DraftWorkingPlane.setup()
import DraftTrackers
self.points = []
self.tracker = DraftTrackers.boxTracker()
self.tracker.width(self.Width)
self.tracker.height(self.Height)
self.tracker.length(self.Length)
self.tracker.on()
FreeCADGui.Snapper.getPoint(callback=self.getPoint, movecallback=self.update, extradlg=self.taskbox())
def update(self):
#print("TimberTaskPanel update")
'fills the treewidget'
self.tree.clear()
dirIcon = QtGui.QApplication.style().standardIcon(
QtGui.QStyle.SP_DirIcon)
for a in self.attribs:
setattr(self, "tree" + a, QtGui.QTreeWidgetItem(self.tree))
c = getattr(self, "tree" + a)
c.setIcon(0, dirIcon)
c.ChildIndicatorPolicy = 2
if self.obj:
if not hasattr(self.obj, a):
c.setHidden(True)
else:
c.setHidden(True)
if self.obj:
for attrib in self.attribs:
if hasattr(self.obj, attrib):
Oattrib = getattr(self.obj, attrib)
Tattrib = getattr(self, "tree" + attrib)
if Oattrib:
if attrib == "Base":
Oattrib = [Oattrib]
for o in Oattrib:
item = QtGui.QTreeWidgetItem()
item.setText(0, o.Name)
item.setIcon(0, self.getIcon(o))
Tattrib.addChild(item)
self.tree.expandItem(Tattrib)
self.DECIMALS = FreeCAD.ParamGet(
"User parameter:BaseApp/Preferences/Units").GetInt(
"Decimals", 2)
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, 'Length')
self.vWidth.setText(self.FORMAT % self.obj.Width)
self.vHeight.setText(self.FORMAT % self.obj.Height)
"fill the presets combobox"
presetslist = getPresetsList()
presetname = self.obj.Preset
idx = presetslist.index(presetname)
self.presetsCBB.clear()
self.presetsCBB.addItems(presetslist)
self.presetsCBB.setCurrentIndex(idx)
if idx < 1:
self.presetRenameBT.setEnabled(False)
self.presetSaveBT.setEnabled(False)
else:
self.presetRenameBT.setEnabled(True)
self.presetSaveBT.setEnabled(True)
self.retranslateUi(self.form)
def show(self):
"shows the toolbar and the grid"
if not hasattr(self, "toolbar"):
self.makeSnapToolBar()
mw = DraftGui.getMainWindow()
bt = mw.findChild(QtGui.QToolBar, "Draft Snap")
if not bt:
mw.addToolBar(self.toolbar)
self.toolbar.setParent(mw)
self.toolbar.show()
self.toolbar.toggleViewAction().setVisible(True)
if FreeCADGui.ActiveDocument:
self.setTrackers()
def show(self):
"shows the toolbar and the grid"
if not hasattr(self,"toolbar"):
self.makeSnapToolBar()
mw = DraftGui.getMainWindow()
bt = mw.findChild(QtGui.QToolBar,"Draft Snap")
if not bt:
mw.addToolBar(self.toolbar)
self.toolbar.setParent(mw)
self.toolbar.show()
self.toolbar.toggleViewAction().setVisible(True)
if FreeCADGui.ActiveDocument:
self.setTrackers()
def update(self):
#print("TimberTaskPanel update")
'fills the treewidget'
self.tree.clear()
dirIcon = QtGui.QApplication.style().standardIcon(QtGui.QStyle.SP_DirIcon)
for a in self.attribs:
setattr(self,"tree"+a,QtGui.QTreeWidgetItem(self.tree))
c = getattr(self,"tree"+a)
c.setIcon(0,dirIcon)
c.ChildIndicatorPolicy = 2
if self.obj:
if not hasattr(self.obj,a):
c.setHidden(True)
else:
c.setHidden(True)
if self.obj:
for attrib in self.attribs:
if hasattr(self.obj,attrib):
Oattrib = getattr(self.obj,attrib)
Tattrib = getattr(self,"tree"+attrib)
if Oattrib:
if attrib == "Base":
Oattrib = [Oattrib]
for o in Oattrib:
item = QtGui.QTreeWidgetItem()
item.setText(0,o.Name)
item.setIcon(0,self.getIcon(o))
Tattrib.addChild(item)
self.tree.expandItem(Tattrib)
self.DECIMALS = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Units").GetInt("Decimals",2)
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS,'Length')
self.vWidth.setText(self.FORMAT % self.obj.Width)
self.vHeight.setText(self.FORMAT % self.obj.Height)
"fill the presets combobox"
presetslist = getPresetsList()
presetname = self.obj.Preset
idx = presetslist.index(presetname)
self.presetsCBB.clear()
self.presetsCBB.addItems(presetslist)
self.presetsCBB.setCurrentIndex(idx)
if idx < 1:
self.presetRenameBT.setEnabled(False)
self.presetSaveBT.setEnabled(False)
else:
self.presetRenameBT.setEnabled(True)
self.presetSaveBT.setEnabled(True)
self.retranslateUi(self.form)
def setEdit(self, vobj, mode):
taskd = DraftGui.FacebinderTaskPanel()
taskd.obj = vobj.Object
taskd.update()
Gui.Control.showDialog(taskd)
return True
def snap(self,screenpos,lastpoint=None,active=True,constrain=False,noTracker=False):
"""snap(screenpos,lastpoint=None,active=True,constrain=False,noTracker=False): returns a snapped
point from the given (x,y) screenpos (the position of the mouse cursor), active is to
activate active point snapping or not (passive), lastpoint is an optional
other point used to draw an imaginary segment and get additional snap locations. Constrain can
be True to constrain the point against the closest working plane axis.
Screenpos can be a list, a tuple or a coin.SbVec2s object. If noTracker is True,
the tracking line is not displayed."""
global Part, DraftGeomUtils
import Part, DraftGeomUtils
if not hasattr(self,"toolbar"):
self.makeSnapToolBar()
mw = DraftGui.getMainWindow()
bt = mw.findChild(QtGui.QToolBar,"Draft Snap")
if not bt:
mw.addToolBar(self.toolbar)
else:
if Draft.getParam("showSnapBar"):
bt.show()
def cstr(point):
"constrains if needed"
if constrain or self.mask:
fpt = self.constrain(point,lastpoint)
else:
self.unconstrain()
fpt = point
if self.radiusTracker:
self.radiusTracker.update(fpt)
return fpt
snaps = []
self.snapInfo = None
# type conversion if needed
if isinstance(screenpos,list):
screenpos = tuple(screenpos)
elif isinstance(screenpos,coin.SbVec2s):
screenpos = tuple(screenpos.getValue())
elif not isinstance(screenpos,tuple):
print "snap needs valid screen position (list, tuple or sbvec2s)"
return None
# setup trackers if needed
self.setTrackers()
# getting current snap Radius
self.radius = self.getScreenDist(Draft.getParam("snapRange"),screenpos)
if self.radiusTracker:
self.radiusTracker.update(self.radius)
self.radiusTracker.off()
# activate snap
oldActive = False
if Draft.getParam("alwaysSnap"):
oldActive = active
active = True
if not self.active:
active = False
self.setCursor('passive')
if self.tracker:
self.tracker.off()
if self.extLine:
self.extLine.off()
if self.trackLine:
self.trackLine.off()
if self.dim1:
self.dim1.off()
if self.dim2:
self.dim2.off()
point = self.getApparentPoint(screenpos[0],screenpos[1])
# setup a track line if we got a last point
if lastpoint:
if not self.trackLine:
self.trackLine = DraftTrackers.lineTracker()
self.trackLine.p1(lastpoint)
# check if we snapped to something
self.snapInfo = Draft.get3DView().getObjectInfo((screenpos[0],screenpos[1]))
# checking if parallel to one of the edges of the last objects or to a polar direction
if active:
eline = None
point,eline = self.snapToPolar(point,lastpoint)
point,eline = self.snapToExtensions(point,lastpoint,constrain,eline)
if not self.snapInfo:
# nothing has been snapped, check fro grid snap
if active:
point = self.snapToGrid(point)
fp = cstr(point)
if self.trackLine and lastpoint and (not noTracker):
self.trackLine.p2(fp)
self.trackLine.on()
# set the arch point tracking
if self.lastArchPoint:
self.setArchDims(self.lastArchPoint,fp)
return fp
else:
# we have an object to snap to
obj = FreeCAD.ActiveDocument.getObject(self.snapInfo['Object'])
if not obj:
return cstr(point)
self.lastSnappedObject = obj
if hasattr(obj.ViewObject,"Selectable"):
if not obj.ViewObject.Selectable:
return cstr(point)
if not active:
# passive snapping
snaps = [self.snapToVertex(self.snapInfo)]
else:
# first stick to the snapped object
s = self.snapToVertex(self.snapInfo)
if s:
point = s[0]
# active snapping
comp = self.snapInfo['Component']
if (Draft.getType(obj) == "Wall") and not oldActive:
# special snapping for wall: only to its base shape (except when CTRL is pressed)
edges = []
for o in [obj]+obj.Additions:
if Draft.getType(o) == "Wall":
if o.Base:
edges.extend(o.Base.Shape.Edges)
for edge in edges:
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(self.snapToPerpendicular(edge,lastpoint))
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge,eline))
elif (Draft.getType(obj) == "Structure") and not oldActive:
# special snapping for struct: only to its base point (except when CTRL is pressed)
if obj.Base:
for edge in obj.Base.Shape.Edges:
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(self.snapToPerpendicular(edge,lastpoint))
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge,eline))
else:
b = obj.Placement.Base
snaps.append([b,'endpoint',b])
elif obj.isDerivedFrom("Part::Feature"):
if Draft.getType(obj) == "Polygon":
snaps.extend(self.snapToPolygon(obj))
if (not self.maxEdges) or (len(obj.Edges) <= self.maxEdges):
if "Edge" in comp:
# we are snapping to an edge
en = int(comp[4:])-1
if len(obj.Shape.Edges) > en:
edge = obj.Shape.Edges[en]
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(self.snapToPerpendicular(edge,lastpoint))
#snaps.extend(self.snapToOrtho(edge,lastpoint,constrain)) # now part of snapToPolar
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge,eline))
if DraftGeomUtils.geomType(edge) == "Circle":
# the edge is an arc, we have extra options
snaps.extend(self.snapToAngles(edge))
snaps.extend(self.snapToCenter(edge))
elif "Vertex" in comp:
# directly snapped to a vertex
snaps.append(self.snapToVertex(self.snapInfo,active=True))
elif comp == '':
# workaround for the new view provider
snaps.append(self.snapToVertex(self.snapInfo,active=True))
else:
# all other cases (face, etc...) default to passive snap
snapArray = [self.snapToVertex(self.snapInfo)]
elif Draft.getType(obj) == "Dimension":
# for dimensions we snap to their 3 points
for pt in [obj.Start,obj.End,obj.Dimline]:
snaps.append([pt,'endpoint',pt])
elif Draft.getType(obj) == "Mesh":
# for meshes we only snap to vertices
snaps.extend(self.snapToEndpoints(obj.Mesh))
elif Draft.getType(obj) == "Points":
# for points we only snap to points
snaps.extend(self.snapToEndpoints(obj.Points))
# updating last objects list
if not self.lastObj[1]:
self.lastObj[1] = obj.Name
elif self.lastObj[1] != obj.Name:
self.lastObj[0] = self.lastObj[1]
self.lastObj[1] = obj.Name
if not snaps:
return cstr(point)
# calculating the nearest snap point
shortest = 1000000000000000000
origin = Vector(self.snapInfo['x'],self.snapInfo['y'],self.snapInfo['z'])
winner = [Vector(0,0,0),None,Vector(0,0,0)]
for snap in snaps:
if (not snap) or (snap[0] == None):
print "debug: Snapper: invalid snap point: ",snaps
else:
delta = snap[0].sub(origin)
if delta.Length < shortest:
shortest = delta.Length
winner = snap
# see if we are out of the max radius, if any
if self.radius:
dv = point.sub(winner[2])
if (dv.Length > self.radius):
if (not oldActive) and self.isEnabled("passive"):
winner = self.snapToVertex(self.snapInfo)
# setting the cursors
if self.tracker:
self.tracker.setCoords(winner[2])
self.tracker.setMarker(self.mk[winner[1]])
self.tracker.on()
# setting the trackline
fp = cstr(winner[2])
if self.trackLine and lastpoint:
self.trackLine.p2(fp)
self.trackLine.on()
# set the cursor
self.setCursor(winner[1])
# set the arch point tracking
if self.lastArchPoint:
self.setArchDims(self.lastArchPoint,fp)
if Draft.getType(obj) in ["Wall","Structure"]:
self.lastArchPoint = winner[2]
else:
self.lastArchPoint = None
# return the final point
return fp
def __init__(self, obj):
QtGui.QDialog.__init__(self)
self.setObjectName(_fromUtf8("TooltableEditor"))
self.resize(468, 476)
self.verticalLayout = QtGui.QVBoxLayout(self)
self.verticalLayout.setObjectName(_fromUtf8("verticalLayout"))
self.horizontalLayout = QtGui.QHBoxLayout()
self.horizontalLayout.setObjectName(_fromUtf8("horizontalLayout"))
self.DECIMALS = FreeCAD.ParamGet(
"User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, 'Length')
# left groupbox
self.groupBox = QtGui.QGroupBox(self)
sizePolicy = QtGui.QSizePolicy(QtGui.QSizePolicy.Minimum,
QtGui.QSizePolicy.Minimum)
sizePolicy.setHorizontalStretch(0)
sizePolicy.setVerticalStretch(0)
sizePolicy.setHeightForWidth(
self.groupBox.sizePolicy().hasHeightForWidth())
self.groupBox.setSizePolicy(sizePolicy)
self.groupBox.setObjectName(_fromUtf8("groupBox"))
self.verticalLayout_2 = QtGui.QVBoxLayout(self.groupBox)
self.verticalLayout_2.setObjectName(_fromUtf8("verticalLayout_2"))
self.horizontalLayout_9 = QtGui.QHBoxLayout()
self.horizontalLayout_9.setObjectName(_fromUtf8("horizontalLayout_9"))
# import button
self.ButtonImport = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("document-import"))
self.ButtonImport.setIcon(icon)
self.ButtonImport.setObjectName(_fromUtf8("ButtonImport"))
self.horizontalLayout_9.addWidget(self.ButtonImport)
# export button
self.ButtonExport = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("document-export"))
self.ButtonExport.setIcon(icon)
self.ButtonExport.setObjectName(_fromUtf8("ButtonExport"))
self.horizontalLayout_9.addWidget(self.ButtonExport)
# tools list
self.verticalLayout_2.addLayout(self.horizontalLayout_9)
self.ToolsList = QtGui.QTreeWidget(self.groupBox)
self.ToolsList.setObjectName(_fromUtf8("ToolsList"))
self.ToolsList.header().setDefaultSectionSize(40)
self.verticalLayout_2.addWidget(self.ToolsList)
# add button
self.horizontalLayout_8 = QtGui.QHBoxLayout()
self.horizontalLayout_8.setObjectName(_fromUtf8("horizontalLayout_8"))
self.ButtonAdd = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("edit-add"))
self.ButtonAdd.setIcon(icon)
self.ButtonAdd.setObjectName(_fromUtf8("ButtonAdd"))
self.horizontalLayout_8.addWidget(self.ButtonAdd)
# delete button
self.ButtonDelete = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("edit-delete"))
self.ButtonDelete.setIcon(icon)
self.ButtonDelete.setObjectName(_fromUtf8("ButtonDelete"))
self.horizontalLayout_8.addWidget(self.ButtonDelete)
# up button
self.ButtonUp = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("go-up"))
self.ButtonUp.setIcon(icon)
self.ButtonDelete.setObjectName(_fromUtf8("ButtonUp"))
self.horizontalLayout_8.addWidget(self.ButtonUp)
# down button
self.ButtonDown = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("go-down"))
self.ButtonDown.setIcon(icon)
self.ButtonDown.setObjectName(_fromUtf8("ButtonDown"))
self.horizontalLayout_8.addWidget(self.ButtonDown)
# right groupbox
self.verticalLayout_2.addLayout(self.horizontalLayout_8)
self.horizontalLayout.addWidget(self.groupBox)
self.groupBox_2 = QtGui.QGroupBox(self)
self.groupBox_2.setObjectName(_fromUtf8("groupBox_2"))
self.verticalLayout_3 = QtGui.QVBoxLayout(self.groupBox_2)
self.verticalLayout_3.setObjectName(_fromUtf8("verticalLayout_3"))
# name
self.label = QtGui.QLabel(self.groupBox_2)
self.label.setObjectName(_fromUtf8("label"))
self.verticalLayout_3.addWidget(self.label)
self.NameField = QtGui.QLineEdit(self.groupBox_2)
self.NameField.setObjectName(_fromUtf8("NameField"))
self.verticalLayout_3.addWidget(self.NameField)
# type
self.label_2 = QtGui.QLabel(self.groupBox_2)
self.label_2.setObjectName(_fromUtf8("label_2"))
self.verticalLayout_3.addWidget(self.label_2)
self.TypeField = QtGui.QComboBox(self.groupBox_2)
self.TypeField.setObjectName(_fromUtf8("TypeField"))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.verticalLayout_3.addWidget(self.TypeField)
# material
self.label_3 = QtGui.QLabel(self.groupBox_2)
self.label_3.setObjectName(_fromUtf8("label_3"))
self.verticalLayout_3.addWidget(self.label_3)
self.MaterialField = QtGui.QComboBox(self.groupBox_2)
self.MaterialField.setObjectName(_fromUtf8("MaterialField"))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.verticalLayout_3.addWidget(self.MaterialField)
self.label_4 = QtGui.QLabel(self.groupBox_2)
self.label_4.setObjectName(_fromUtf8("label_4"))
self.verticalLayout_3.addWidget(self.label_4)
# diameter
self.horizontalLayout_2 = QtGui.QHBoxLayout()
self.horizontalLayout_2.setObjectName(_fromUtf8("horizontalLayout_2"))
self.label_5 = QtGui.QLabel(self.groupBox_2)
self.label_5.setObjectName(_fromUtf8("label_5"))
self.horizontalLayout_2.addWidget(self.label_5)
self.DiameterField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.DiameterField.setMaximum(9999)
self.DiameterField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.DiameterField.setObjectName(_fromUtf8("DiameterField"))
self.horizontalLayout_2.addWidget(self.DiameterField)
self.verticalLayout_3.addLayout(self.horizontalLayout_2)
# length offset
self.horizontalLayout_3 = QtGui.QHBoxLayout()
self.horizontalLayout_3.setObjectName(_fromUtf8("horizontalLayout_3"))
self.label_6 = QtGui.QLabel(self.groupBox_2)
self.label_6.setObjectName(_fromUtf8("label_6"))
self.horizontalLayout_3.addWidget(self.label_6)
self.LengthOffsetField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.LengthOffsetField.setMaximum(9999)
self.LengthOffsetField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.LengthOffsetField.setObjectName(_fromUtf8("LengthOffsetField"))
self.horizontalLayout_3.addWidget(self.LengthOffsetField)
self.verticalLayout_3.addLayout(self.horizontalLayout_3)
# flat radius
self.horizontalLayout_4 = QtGui.QHBoxLayout()
self.horizontalLayout_4.setObjectName(_fromUtf8("horizontalLayout_4"))
self.label_7 = QtGui.QLabel(self.groupBox_2)
self.label_7.setObjectName(_fromUtf8("label_7"))
self.horizontalLayout_4.addWidget(self.label_7)
self.FlatRadiusField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.FlatRadiusField.setMaximum(9999)
self.FlatRadiusField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.FlatRadiusField.setObjectName(_fromUtf8("FlatRadiusField"))
self.horizontalLayout_4.addWidget(self.FlatRadiusField)
self.verticalLayout_3.addLayout(self.horizontalLayout_4)
# corner radius
self.horizontalLayout_5 = QtGui.QHBoxLayout()
self.horizontalLayout_5.setObjectName(_fromUtf8("horizontalLayout_5"))
self.label_8 = QtGui.QLabel(self.groupBox_2)
self.label_8.setObjectName(_fromUtf8("label_8"))
self.horizontalLayout_5.addWidget(self.label_8)
self.CornerRadiusField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CornerRadiusField.setMaximum(9999)
self.CornerRadiusField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.CornerRadiusField.setObjectName(_fromUtf8("CornerRadiusField"))
self.horizontalLayout_5.addWidget(self.CornerRadiusField)
self.verticalLayout_3.addLayout(self.horizontalLayout_5)
# cutting edge angle
self.horizontalLayout_6 = QtGui.QHBoxLayout()
self.horizontalLayout_6.setObjectName(_fromUtf8("horizontalLayout_6"))
self.label_9 = QtGui.QLabel(self.groupBox_2)
self.label_9.setObjectName(_fromUtf8("label_9"))
self.horizontalLayout_6.addWidget(self.label_9)
self.CuttingEdgeAngleField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CuttingEdgeAngleField.setMaximum(360)
self.CuttingEdgeAngleField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.CuttingEdgeAngleField.setObjectName(
_fromUtf8("CuttingEdgeAngleField"))
self.horizontalLayout_6.addWidget(self.CuttingEdgeAngleField)
self.verticalLayout_3.addLayout(self.horizontalLayout_6)
# cutting edge height
self.horizontalLayout_7 = QtGui.QHBoxLayout()
self.horizontalLayout_7.setObjectName(_fromUtf8("horizontalLayout_7"))
self.label_10 = QtGui.QLabel(self.groupBox_2)
self.label_10.setObjectName(_fromUtf8("label_10"))
self.horizontalLayout_7.addWidget(self.label_10)
self.CuttingEdgeHeightField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CuttingEdgeHeightField.setMaximum(9999)
self.CuttingEdgeHeightField.setAlignment(QtCore.Qt.AlignRight
| QtCore.Qt.AlignTrailing
| QtCore.Qt.AlignVCenter)
self.CuttingEdgeHeightField.setObjectName(
_fromUtf8("CuttingEdgeHeightField"))
self.horizontalLayout_7.addWidget(self.CuttingEdgeHeightField)
self.verticalLayout_3.addLayout(self.horizontalLayout_7)
self.horizontalLayout.addWidget(self.groupBox_2)
self.verticalLayout.addLayout(self.horizontalLayout)
# ok / cancel box
self.buttonBox = QtGui.QDialogButtonBox(self)
self.buttonBox.setOrientation(QtCore.Qt.Horizontal)
self.buttonBox.setStandardButtons(QtGui.QDialogButtonBox.Cancel
| QtGui.QDialogButtonBox.Ok)
self.buttonBox.setObjectName(_fromUtf8("buttonBox"))
self.verticalLayout.addWidget(self.buttonBox)
self.retranslateUi()
# connect buttons
QtCore.QObject.connect(self.buttonBox,
QtCore.SIGNAL(_fromUtf8("accepted()")),
self.accept)
QtCore.QObject.connect(self.buttonBox,
QtCore.SIGNAL(_fromUtf8("rejected()")),
self.reject)
QtCore.QObject.connect(self.ButtonImport,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.read)
QtCore.QObject.connect(self.ButtonExport,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.write)
QtCore.QObject.connect(self.ButtonAdd,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.addnew)
QtCore.QObject.connect(self.ButtonDelete,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.delete)
QtCore.QObject.connect(self.ButtonUp,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.moveup)
QtCore.QObject.connect(self.ButtonDown,
QtCore.SIGNAL(_fromUtf8("clicked()")),
self.movedown)
QtCore.QObject.connect(
self.ToolsList,
QtCore.SIGNAL(
_fromUtf8(
"currentItemChanged(QTreeWidgetItem *, QTreeWidgetItem *)")
), self.selectTool)
QtCore.QObject.connect(self.NameField,
QtCore.SIGNAL(_fromUtf8("textEdited(QString)")),
self.changeName)
QtCore.QObject.connect(
self.TypeField,
QtCore.SIGNAL(_fromUtf8("currentIndexChanged(int)")),
self.changeType)
QtCore.QObject.connect(
self.MaterialField,
QtCore.SIGNAL(_fromUtf8("currentIndexChanged(int)")),
self.changeMaterial)
QtCore.QObject.connect(
self.DiameterField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeDiameter)
QtCore.QObject.connect(
self.LengthOffsetField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeLengthOffset)
QtCore.QObject.connect(
self.FlatRadiusField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeFlatRadius)
QtCore.QObject.connect(
self.CornerRadiusField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeCornerRadius)
QtCore.QObject.connect(
self.CuttingEdgeAngleField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeCuttingEdgeAngle)
QtCore.QObject.connect(
self.CuttingEdgeHeightField,
QtCore.SIGNAL(_fromUtf8("valueChanged(double)")),
self.changeCuttingEdgeHeight)
QtCore.QMetaObject.connectSlotsByName(self)
self.tooltable = obj.Tooltable.copy()
self.tool = None
self.number = None
self.reset()
def translate(text, context='trails'):
"""
Translate convenience fn for the DraftGui.translate() convenience fn
"""
DraftGui.translate(context, text)
def updateData(self, obj, prop):
"""called when the base object is changed"""
import DraftGui
if prop in ["Start", "End", "Dimline", "Direction"]:
if obj.Start == obj.End:
return
if not hasattr(self, "node"):
return
import Part, DraftGeomUtils
from pivy import coin
# calculate the 4 points
self.p1 = obj.Start
self.p4 = obj.End
base = None
if hasattr(obj, "Direction"):
if not DraftVecUtils.isNull(obj.Direction):
v2 = self.p1.sub(obj.Dimline)
v3 = self.p4.sub(obj.Dimline)
v2 = DraftVecUtils.project(v2, obj.Direction)
v3 = DraftVecUtils.project(v3, obj.Direction)
self.p2 = obj.Dimline.add(v2)
self.p3 = obj.Dimline.add(v3)
if DraftVecUtils.equals(self.p2, self.p3):
base = None
proj = None
else:
base = Part.LineSegment(self.p2, self.p3).toShape()
proj = DraftGeomUtils.findDistance(self.p1, base)
if proj:
proj = proj.negative()
if not base:
if DraftVecUtils.equals(self.p1, self.p4):
base = None
proj = None
else:
base = Part.LineSegment(self.p1, self.p4).toShape()
proj = DraftGeomUtils.findDistance(obj.Dimline, base)
if proj:
self.p2 = self.p1.add(proj.negative())
self.p3 = self.p4.add(proj.negative())
else:
self.p2 = self.p1
self.p3 = self.p4
if proj:
if hasattr(obj.ViewObject, "ExtLines") and hasattr(
obj.ViewObject, "ScaleMultiplier"):
dmax = obj.ViewObject.ExtLines.Value * obj.ViewObject.ScaleMultiplier
if dmax and (proj.Length > dmax):
if (dmax > 0):
self.p1 = self.p2.add(
DraftVecUtils.scaleTo(proj, dmax))
self.p4 = self.p3.add(
DraftVecUtils.scaleTo(proj, dmax))
else:
rest = proj.Length + dmax
self.p1 = self.p2.add(
DraftVecUtils.scaleTo(proj, rest))
self.p4 = self.p3.add(
DraftVecUtils.scaleTo(proj, rest))
else:
proj = (self.p3.sub(self.p2)).cross(App.Vector(0, 0, 1))
# calculate the arrows positions
self.trans1.translation.setValue((self.p2.x, self.p2.y, self.p2.z))
self.coord1.point.setValue((self.p2.x, self.p2.y, self.p2.z))
self.trans2.translation.setValue((self.p3.x, self.p3.y, self.p3.z))
self.coord2.point.setValue((self.p3.x, self.p3.y, self.p3.z))
# calculate dimension and extension lines overshoots positions
self.transDimOvershoot1.translation.setValue(
(self.p2.x, self.p2.y, self.p2.z))
self.transDimOvershoot2.translation.setValue(
(self.p3.x, self.p3.y, self.p3.z))
self.transExtOvershoot1.translation.setValue(
(self.p2.x, self.p2.y, self.p2.z))
self.transExtOvershoot2.translation.setValue(
(self.p3.x, self.p3.y, self.p3.z))
# calculate the text position and orientation
if hasattr(obj, "Normal"):
if DraftVecUtils.isNull(obj.Normal):
if proj:
norm = (self.p3.sub(self.p2).cross(proj)).negative()
else:
norm = App.Vector(0, 0, 1)
else:
norm = App.Vector(obj.Normal)
else:
if proj:
norm = (self.p3.sub(self.p2).cross(proj)).negative()
else:
norm = App.Vector(0, 0, 1)
if not DraftVecUtils.isNull(norm):
norm.normalize()
u = self.p3.sub(self.p2)
u.normalize()
v1 = norm.cross(u)
rot1 = App.Placement(DraftVecUtils.getPlaneRotation(
u, v1, norm)).Rotation.Q
self.transDimOvershoot1.rotation.setValue(
(rot1[0], rot1[1], rot1[2], rot1[3]))
self.transDimOvershoot2.rotation.setValue(
(rot1[0], rot1[1], rot1[2], rot1[3]))
if hasattr(obj.ViewObject, "FlipArrows"):
if obj.ViewObject.FlipArrows:
u = u.negative()
v2 = norm.cross(u)
rot2 = App.Placement(DraftVecUtils.getPlaneRotation(
u, v2, norm)).Rotation.Q
self.trans1.rotation.setValue((rot2[0], rot2[1], rot2[2], rot2[3]))
self.trans2.rotation.setValue((rot2[0], rot2[1], rot2[2], rot2[3]))
if self.p1 != self.p2:
u3 = self.p1.sub(self.p2)
u3.normalize()
v3 = norm.cross(u3)
rot3 = App.Placement(
DraftVecUtils.getPlaneRotation(u3, v3, norm)).Rotation.Q
self.transExtOvershoot1.rotation.setValue(
(rot3[0], rot3[1], rot3[2], rot3[3]))
self.transExtOvershoot2.rotation.setValue(
(rot3[0], rot3[1], rot3[2], rot3[3]))
if hasattr(obj.ViewObject, "TextSpacing") and hasattr(
obj.ViewObject, "ScaleMultiplier"):
ts = obj.ViewObject.TextSpacing.Value * obj.ViewObject.ScaleMultiplier
offset = DraftVecUtils.scaleTo(v1, ts)
else:
offset = DraftVecUtils.scaleTo(v1, 0.05)
rott = rot1
if hasattr(obj.ViewObject, "FlipText"):
if obj.ViewObject.FlipText:
rott = App.Rotation(*rott).multiply(App.Rotation(
norm, 180)).Q
offset = offset.negative()
# setting text
try:
m = obj.ViewObject.DisplayMode
except: # swallow all exceptions here since it always fails on first run (Displaymode enum no set yet)
m = ["2D", "3D"][utils.get_param("dimstyle", 0)]
if m == "3D":
offset = offset.negative()
self.tbase = (self.p2.add(
(self.p3.sub(self.p2).multiply(0.5)))).add(offset)
if hasattr(obj.ViewObject, "TextPosition"):
if not DraftVecUtils.isNull(obj.ViewObject.TextPosition):
self.tbase = obj.ViewObject.TextPosition
self.textpos.translation.setValue(
[self.tbase.x, self.tbase.y, self.tbase.z])
self.textpos.rotation = coin.SbRotation(rott[0], rott[1], rott[2],
rott[3])
su = True
if hasattr(obj.ViewObject, "ShowUnit"):
su = obj.ViewObject.ShowUnit
# set text value
l = self.p3.sub(self.p2).Length
unit = None
if hasattr(obj.ViewObject, "UnitOverride"):
unit = obj.ViewObject.UnitOverride
# special representation if "Building US" scheme
if App.ParamGet("User parameter:BaseApp/Preferences/Units").GetInt(
"UserSchema", 0) == 5:
s = App.Units.Quantity(l, App.Units.Length).UserString
self.string = s.replace("' ", "'- ")
self.string = s.replace("+", " ")
elif hasattr(obj.ViewObject, "Decimals"):
self.string = DraftGui.displayExternal(l,
obj.ViewObject.Decimals,
'Length', su, unit)
else:
self.string = DraftGui.displayExternal(l, None, 'Length', su,
unit)
if hasattr(obj.ViewObject, "Override"):
if obj.ViewObject.Override:
self.string = obj.ViewObject.Override.replace("$dim",\
self.string)
self.text.string = self.text3d.string = utils.string_encode_coin(
self.string)
# set the lines
if m == "3D":
# calculate the spacing of the text
textsize = (len(self.string) *
obj.ViewObject.FontSize.Value) / 4.0
spacing = ((self.p3.sub(self.p2)).Length / 2.0) - textsize
self.p2a = self.p2.add(
DraftVecUtils.scaleTo(self.p3.sub(self.p2), spacing))
self.p2b = self.p3.add(
DraftVecUtils.scaleTo(self.p2.sub(self.p3), spacing))
self.coords.point.setValues(
[[self.p1.x, self.p1.y, self.p1.z],
[self.p2.x, self.p2.y, self.p2.z],
[self.p2a.x, self.p2a.y, self.p2a.z],
[self.p2b.x, self.p2b.y, self.p2b.z],
[self.p3.x, self.p3.y, self.p3.z],
[self.p4.x, self.p4.y, self.p4.z]])
#self.line.numVertices.setValues([3,3])
self.line.coordIndex.setValues(0, 7, (0, 1, 2, -1, 3, 4, 5))
else:
self.coords.point.setValues([[self.p1.x, self.p1.y, self.p1.z],
[self.p2.x, self.p2.y, self.p2.z],
[self.p3.x, self.p3.y, self.p3.z],
[self.p4.x, self.p4.y,
self.p4.z]])
#self.line.numVertices.setValue(4)
self.line.coordIndex.setValues(0, 4, (0, 1, 2, 3))
def snap(self,
screenpos,
lastpoint=None,
active=True,
constrain=False,
noTracker=False):
"""snap(screenpos,lastpoint=None,active=True,constrain=False,noTracker=False): returns a snapped
point from the given (x,y) screenpos (the position of the mouse cursor), active is to
activate active point snapping or not (passive), lastpoint is an optional
other point used to draw an imaginary segment and get additional snap locations. Constrain can
be True to constrain the point against the closest working plane axis.
Screenpos can be a list, a tuple or a coin.SbVec2s object. If noTracker is True,
the tracking line is not displayed."""
global Part, DraftGeomUtils
import Part, DraftGeomUtils
if not hasattr(self, "toolbar"):
self.makeSnapToolBar()
mw = DraftGui.getMainWindow()
bt = mw.findChild(QtGui.QToolBar, "Draft Snap")
if not bt:
mw.addToolBar(self.toolbar)
else:
if Draft.getParam("showSnapBar"):
bt.show()
def cstr(point):
"constrains if needed"
if constrain or self.mask:
fpt = self.constrain(point, lastpoint)
else:
self.unconstrain()
fpt = point
if self.radiusTracker:
self.radiusTracker.update(fpt)
return fpt
snaps = []
self.snapInfo = None
# type conversion if needed
if isinstance(screenpos, list):
screenpos = tuple(screenpos)
elif isinstance(screenpos, coin.SbVec2s):
screenpos = tuple(screenpos.getValue())
elif not isinstance(screenpos, tuple):
print "snap needs valid screen position (list, tuple or sbvec2s)"
return None
# setup trackers if needed
self.setTrackers()
# getting current snap Radius
self.radius = self.getScreenDist(Draft.getParam("snapRange"),
screenpos)
if self.radiusTracker:
self.radiusTracker.update(self.radius)
self.radiusTracker.off()
# activate snap
oldActive = False
if Draft.getParam("alwaysSnap"):
oldActive = active
active = True
if not self.active:
active = False
self.setCursor('passive')
if self.tracker:
self.tracker.off()
if self.extLine:
self.extLine.off()
if self.trackLine:
self.trackLine.off()
if self.dim1:
self.dim1.off()
if self.dim2:
self.dim2.off()
point = self.getApparentPoint(screenpos[0], screenpos[1])
# setup a track line if we got a last point
if lastpoint:
if not self.trackLine:
self.trackLine = DraftTrackers.lineTracker()
self.trackLine.p1(lastpoint)
# check if we snapped to something
self.snapInfo = Draft.get3DView().getObjectInfo(
(screenpos[0], screenpos[1]))
# checking if parallel to one of the edges of the last objects or to a polar direction
if active:
eline = None
point, eline = self.snapToPolar(point, lastpoint)
point, eline = self.snapToExtensions(point, lastpoint, constrain,
eline)
if not self.snapInfo:
# nothing has been snapped, check fro grid snap
if active:
point = self.snapToGrid(point)
fp = cstr(point)
if self.trackLine and lastpoint and (not noTracker):
self.trackLine.p2(fp)
self.trackLine.on()
# set the arch point tracking
if self.lastArchPoint:
self.setArchDims(self.lastArchPoint, fp)
return fp
else:
# we have an object to snap to
obj = FreeCAD.ActiveDocument.getObject(self.snapInfo['Object'])
if not obj:
return cstr(point)
self.lastSnappedObject = obj
if hasattr(obj.ViewObject, "Selectable"):
if not obj.ViewObject.Selectable:
return cstr(point)
if not active:
# passive snapping
snaps = [self.snapToVertex(self.snapInfo)]
else:
# first stick to the snapped object
s = self.snapToVertex(self.snapInfo)
if s:
point = s[0]
# active snapping
comp = self.snapInfo['Component']
if (Draft.getType(obj) == "Wall") and not oldActive:
# special snapping for wall: only to its base shape (except when CTRL is pressed)
edges = []
for o in [obj] + obj.Additions:
if Draft.getType(o) == "Wall":
if o.Base:
edges.extend(o.Base.Shape.Edges)
for edge in edges:
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(self.snapToPerpendicular(edge, lastpoint))
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge, eline))
elif (Draft.getType(obj) == "Structure") and not oldActive:
# special snapping for struct: only to its base point (except when CTRL is pressed)
if obj.Base:
for edge in o.Base.Shape.Edges:
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(
self.snapToPerpendicular(edge, lastpoint))
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge, eline))
else:
b = obj.Placement.Base
snaps.append([b, 'endpoint', b])
elif obj.isDerivedFrom("Part::Feature"):
if Draft.getType(obj) == "Polygon":
snaps.extend(self.snapToPolygon(obj))
if (not self.maxEdges) or (len(obj.Edges) <=
self.maxEdges):
if "Edge" in comp:
# we are snapping to an edge
en = int(comp[4:]) - 1
if len(obj.Shape.Edges) > en:
edge = obj.Shape.Edges[en]
snaps.extend(self.snapToEndpoints(edge))
snaps.extend(self.snapToMidpoint(edge))
snaps.extend(
self.snapToPerpendicular(edge, lastpoint))
#snaps.extend(self.snapToOrtho(edge,lastpoint,constrain)) # now part of snapToPolar
snaps.extend(self.snapToIntersection(edge))
snaps.extend(self.snapToElines(edge, eline))
if DraftGeomUtils.geomType(edge) == "Circle":
# the edge is an arc, we have extra options
snaps.extend(self.snapToAngles(edge))
snaps.extend(self.snapToCenter(edge))
elif "Vertex" in comp:
# directly snapped to a vertex
snaps.append(
self.snapToVertex(self.snapInfo, active=True))
elif comp == '':
# workaround for the new view provider
snaps.append(
self.snapToVertex(self.snapInfo, active=True))
else:
# all other cases (face, etc...) default to passive snap
snapArray = [self.snapToVertex(self.snapInfo)]
elif Draft.getType(obj) == "Dimension":
# for dimensions we snap to their 3 points
for pt in [obj.Start, obj.End, obj.Dimline]:
snaps.append([pt, 'endpoint', pt])
elif Draft.getType(obj) == "Mesh":
# for meshes we only snap to vertices
snaps.extend(self.snapToEndpoints(obj.Mesh))
elif Draft.getType(obj) == "Points":
# for points we only snap to points
snaps.extend(self.snapToEndpoints(obj.Points))
# updating last objects list
if not self.lastObj[1]:
self.lastObj[1] = obj.Name
elif self.lastObj[1] != obj.Name:
self.lastObj[0] = self.lastObj[1]
self.lastObj[1] = obj.Name
if not snaps:
return cstr(point)
# calculating the nearest snap point
shortest = 1000000000000000000
origin = Vector(self.snapInfo['x'], self.snapInfo['y'],
self.snapInfo['z'])
winner = [Vector(0, 0, 0), None, Vector(0, 0, 0)]
for snap in snaps:
if (not snap) or (snap[0] == None):
print "debug: Snapper: invalid snap point: ", snaps
else:
delta = snap[0].sub(origin)
if delta.Length < shortest:
shortest = delta.Length
winner = snap
# see if we are out of the max radius, if any
if self.radius:
dv = point.sub(winner[2])
if (dv.Length > self.radius):
if (not oldActive) and self.isEnabled("passive"):
winner = self.snapToVertex(self.snapInfo)
# setting the cursors
if self.tracker:
self.tracker.setCoords(winner[2])
self.tracker.setMarker(self.mk[winner[1]])
self.tracker.on()
# setting the trackline
fp = cstr(winner[2])
if self.trackLine and lastpoint:
self.trackLine.p2(fp)
self.trackLine.on()
# set the cursor
self.setCursor(winner[1])
# set the arch point tracking
if self.lastArchPoint:
self.setArchDims(self.lastArchPoint, fp)
if Draft.getType(obj) in ["Wall", "Structure"]:
self.lastArchPoint = winner[2]
else:
self.lastArchPoint = None
# return the final point
return fp
def updateData(self, obj, prop):
if hasattr(self, "arc"):
from pivy import coin
import Part, DraftGeomUtils
import DraftGui
arcsegs = 24
# calculate the arc data
if DraftVecUtils.isNull(obj.Normal):
norm = App.Vector(0, 0, 1)
else:
norm = obj.Normal
radius = (obj.Dimline.sub(obj.Center)).Length
self.circle = Part.makeCircle(radius, obj.Center, norm,
obj.FirstAngle.Value,
obj.LastAngle.Value)
self.p2 = self.circle.Vertexes[0].Point
self.p3 = self.circle.Vertexes[-1].Point
mp = DraftGeomUtils.findMidpoint(self.circle.Edges[0])
ray = mp.sub(obj.Center)
# set text value
if obj.LastAngle.Value > obj.FirstAngle.Value:
a = obj.LastAngle.Value - obj.FirstAngle.Value
else:
a = (360 - obj.FirstAngle.Value) + obj.LastAngle.Value
su = True
if hasattr(obj.ViewObject, "ShowUnit"):
su = obj.ViewObject.ShowUnit
if hasattr(obj.ViewObject, "Decimals"):
self.string = DraftGui.displayExternal(a,
obj.ViewObject.Decimals,
'Angle', su)
else:
self.string = DraftGui.displayExternal(a, None, 'Angle', su)
if obj.ViewObject.Override:
self.string = obj.ViewObject.Override.replace("$dim",\
self.string)
self.text.string = self.text3d.string = utils.string_encode_coin(
self.string)
# check display mode
try:
m = obj.ViewObject.DisplayMode
except: # swallow all exceptions here since it always fails on first run (Displaymode enum no set yet)
m = ["2D", "3D"][utils.get_param("dimstyle", 0)]
# set the arc
if m == "3D":
# calculate the spacing of the text
spacing = (len(self.string) *
obj.ViewObject.FontSize.Value) / 8.0
pts1 = []
cut = None
pts2 = []
for i in range(arcsegs + 1):
p = self.circle.valueAt(self.circle.FirstParameter + (
(self.circle.LastParameter -
self.circle.FirstParameter) / arcsegs) * i)
if (p.sub(mp)).Length <= spacing:
if cut is None:
cut = i
else:
if cut is None:
pts1.append([p.x, p.y, p.z])
else:
pts2.append([p.x, p.y, p.z])
self.coords.point.setValues(pts1 + pts2)
i1 = len(pts1)
i2 = i1 + len(pts2)
self.arc.coordIndex.setValues(
0,
len(pts1) + len(pts2) + 1,
list(range(len(pts1))) + [-1] + list(range(i1, i2)))
if (len(pts1) >= 3) and (len(pts2) >= 3):
self.circle1 = Part.Arc(
App.Vector(pts1[0][0], pts1[0][1], pts1[0][2]),
App.Vector(pts1[1][0], pts1[1][1], pts1[1][2]),
App.Vector(pts1[-1][0], pts1[-1][1],
pts1[-1][2])).toShape()
self.circle2 = Part.Arc(
App.Vector(pts2[0][0], pts2[0][1], pts2[0][2]),
App.Vector(pts2[1][0], pts2[1][1], pts2[1][2]),
App.Vector(pts2[-1][0], pts2[-1][1],
pts2[-1][2])).toShape()
else:
pts = []
for i in range(arcsegs + 1):
p = self.circle.valueAt(self.circle.FirstParameter + (
(self.circle.LastParameter -
self.circle.FirstParameter) / arcsegs) * i)
pts.append([p.x, p.y, p.z])
self.coords.point.setValues(pts)
self.arc.coordIndex.setValues(0, arcsegs + 1,
list(range(arcsegs + 1)))
# set the arrow coords and rotation
self.trans1.translation.setValue((self.p2.x, self.p2.y, self.p2.z))
self.coord1.point.setValue((self.p2.x, self.p2.y, self.p2.z))
self.trans2.translation.setValue((self.p3.x, self.p3.y, self.p3.z))
self.coord2.point.setValue((self.p3.x, self.p3.y, self.p3.z))
# calculate small chords to make arrows look better
arrowlength = 4 * obj.ViewObject.ArrowSize.Value
u1 = (self.circle.valueAt(self.circle.FirstParameter + arrowlength)
).sub(self.circle.valueAt(
self.circle.FirstParameter)).normalize()
u2 = (self.circle.valueAt(self.circle.LastParameter)).sub(
self.circle.valueAt(self.circle.LastParameter -
arrowlength)).normalize()
if hasattr(obj.ViewObject, "FlipArrows"):
if obj.ViewObject.FlipArrows:
u1 = u1.negative()
u2 = u2.negative()
w2 = self.circle.Curve.Axis
w1 = w2.negative()
v1 = w1.cross(u1)
v2 = w2.cross(u2)
q1 = App.Placement(DraftVecUtils.getPlaneRotation(u1, v1,
w1)).Rotation.Q
q2 = App.Placement(DraftVecUtils.getPlaneRotation(u2, v2,
w2)).Rotation.Q
self.trans1.rotation.setValue((q1[0], q1[1], q1[2], q1[3]))
self.trans2.rotation.setValue((q2[0], q2[1], q2[2], q2[3]))
# setting text pos & rot
self.tbase = mp
if hasattr(obj.ViewObject, "TextPosition"):
if not DraftVecUtils.isNull(obj.ViewObject.TextPosition):
self.tbase = obj.ViewObject.TextPosition
u3 = ray.cross(norm).normalize()
v3 = norm.cross(u3)
r = App.Placement(DraftVecUtils.getPlaneRotation(u3, v3,
norm)).Rotation
offset = r.multVec(App.Vector(0, 1, 0))
if hasattr(obj.ViewObject, "TextSpacing"):
offset = DraftVecUtils.scaleTo(
offset, obj.ViewObject.TextSpacing.Value)
else:
offset = DraftVecUtils.scaleTo(offset, 0.05)
if m == "3D":
offset = offset.negative()
self.tbase = self.tbase.add(offset)
q = r.Q
self.textpos.translation.setValue(
[self.tbase.x, self.tbase.y, self.tbase.z])
self.textpos.rotation = coin.SbRotation(q[0], q[1], q[2], q[3])
# set the angle property
if round(obj.Angle, utils.precision()) != round(
a, utils.precision()):
obj.Angle = a
def __init__(self, obj):
QtGui.QDialog.__init__(self)
self.setObjectName(_fromUtf8("TooltableEditor"))
self.resize(468, 476)
self.verticalLayout = QtGui.QVBoxLayout(self)
self.verticalLayout.setObjectName(_fromUtf8("verticalLayout"))
self.horizontalLayout = QtGui.QHBoxLayout()
self.horizontalLayout.setObjectName(_fromUtf8("horizontalLayout"))
self.DECIMALS = FreeCAD.ParamGet(
"User parameter:BaseApp/Preferences/Units").GetInt("Decimals", 2)
self.FORMAT = DraftGui.makeFormatSpec(self.DECIMALS, 'Length')
# left groupbox
self.groupBox = QtGui.QGroupBox(self)
sizePolicy = QtGui.QSizePolicy(
QtGui.QSizePolicy.Minimum, QtGui.QSizePolicy.Minimum)
sizePolicy.setHorizontalStretch(0)
sizePolicy.setVerticalStretch(0)
sizePolicy.setHeightForWidth(
self.groupBox.sizePolicy().hasHeightForWidth())
self.groupBox.setSizePolicy(sizePolicy)
self.groupBox.setObjectName(_fromUtf8("groupBox"))
self.verticalLayout_2 = QtGui.QVBoxLayout(self.groupBox)
self.verticalLayout_2.setObjectName(_fromUtf8("verticalLayout_2"))
self.horizontalLayout_9 = QtGui.QHBoxLayout()
self.horizontalLayout_9.setObjectName(_fromUtf8("horizontalLayout_9"))
# import button
self.ButtonImport = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("document-import"))
self.ButtonImport.setIcon(icon)
self.ButtonImport.setObjectName(_fromUtf8("ButtonImport"))
self.horizontalLayout_9.addWidget(self.ButtonImport)
# export button
self.ButtonExport = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("document-export"))
self.ButtonExport.setIcon(icon)
self.ButtonExport.setObjectName(_fromUtf8("ButtonExport"))
self.horizontalLayout_9.addWidget(self.ButtonExport)
# tools list
self.verticalLayout_2.addLayout(self.horizontalLayout_9)
self.ToolsList = QtGui.QTreeWidget(self.groupBox)
self.ToolsList.setObjectName(_fromUtf8("ToolsList"))
self.ToolsList.header().setDefaultSectionSize(40)
self.verticalLayout_2.addWidget(self.ToolsList)
# add button
self.horizontalLayout_8 = QtGui.QHBoxLayout()
self.horizontalLayout_8.setObjectName(_fromUtf8("horizontalLayout_8"))
self.ButtonAdd = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("edit-add"))
self.ButtonAdd.setIcon(icon)
self.ButtonAdd.setObjectName(_fromUtf8("ButtonAdd"))
self.horizontalLayout_8.addWidget(self.ButtonAdd)
# delete button
self.ButtonDelete = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("edit-delete"))
self.ButtonDelete.setIcon(icon)
self.ButtonDelete.setObjectName(_fromUtf8("ButtonDelete"))
self.horizontalLayout_8.addWidget(self.ButtonDelete)
# up button
self.ButtonUp = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("go-up"))
self.ButtonUp.setIcon(icon)
self.ButtonDelete.setObjectName(_fromUtf8("ButtonUp"))
self.horizontalLayout_8.addWidget(self.ButtonUp)
# down button
self.ButtonDown = QtGui.QPushButton(self.groupBox)
icon = QtGui.QIcon.fromTheme(_fromUtf8("go-down"))
self.ButtonDown.setIcon(icon)
self.ButtonDown.setObjectName(_fromUtf8("ButtonDown"))
self.horizontalLayout_8.addWidget(self.ButtonDown)
# right groupbox
self.verticalLayout_2.addLayout(self.horizontalLayout_8)
self.horizontalLayout.addWidget(self.groupBox)
self.groupBox_2 = QtGui.QGroupBox(self)
self.groupBox_2.setObjectName(_fromUtf8("groupBox_2"))
self.verticalLayout_3 = QtGui.QVBoxLayout(self.groupBox_2)
self.verticalLayout_3.setObjectName(_fromUtf8("verticalLayout_3"))
# name
self.label = QtGui.QLabel(self.groupBox_2)
self.label.setObjectName(_fromUtf8("label"))
self.verticalLayout_3.addWidget(self.label)
self.NameField = QtGui.QLineEdit(self.groupBox_2)
self.NameField.setObjectName(_fromUtf8("NameField"))
self.verticalLayout_3.addWidget(self.NameField)
# type
self.label_2 = QtGui.QLabel(self.groupBox_2)
self.label_2.setObjectName(_fromUtf8("label_2"))
self.verticalLayout_3.addWidget(self.label_2)
self.TypeField = QtGui.QComboBox(self.groupBox_2)
self.TypeField.setObjectName(_fromUtf8("TypeField"))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.TypeField.addItem(_fromUtf8(""))
self.verticalLayout_3.addWidget(self.TypeField)
# material
self.label_3 = QtGui.QLabel(self.groupBox_2)
self.label_3.setObjectName(_fromUtf8("label_3"))
self.verticalLayout_3.addWidget(self.label_3)
self.MaterialField = QtGui.QComboBox(self.groupBox_2)
self.MaterialField.setObjectName(_fromUtf8("MaterialField"))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.MaterialField.addItem(_fromUtf8(""))
self.verticalLayout_3.addWidget(self.MaterialField)
self.label_4 = QtGui.QLabel(self.groupBox_2)
self.label_4.setObjectName(_fromUtf8("label_4"))
self.verticalLayout_3.addWidget(self.label_4)
# diameter
self.horizontalLayout_2 = QtGui.QHBoxLayout()
self.horizontalLayout_2.setObjectName(_fromUtf8("horizontalLayout_2"))
self.label_5 = QtGui.QLabel(self.groupBox_2)
self.label_5.setObjectName(_fromUtf8("label_5"))
self.horizontalLayout_2.addWidget(self.label_5)
self.DiameterField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.DiameterField.setMaximum(9999)
self.DiameterField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.DiameterField.setObjectName(_fromUtf8("DiameterField"))
self.horizontalLayout_2.addWidget(self.DiameterField)
self.verticalLayout_3.addLayout(self.horizontalLayout_2)
# length offset
self.horizontalLayout_3 = QtGui.QHBoxLayout()
self.horizontalLayout_3.setObjectName(_fromUtf8("horizontalLayout_3"))
self.label_6 = QtGui.QLabel(self.groupBox_2)
self.label_6.setObjectName(_fromUtf8("label_6"))
self.horizontalLayout_3.addWidget(self.label_6)
self.LengthOffsetField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.LengthOffsetField.setMaximum(9999)
self.LengthOffsetField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.LengthOffsetField.setObjectName(_fromUtf8("LengthOffsetField"))
self.horizontalLayout_3.addWidget(self.LengthOffsetField)
self.verticalLayout_3.addLayout(self.horizontalLayout_3)
# flat radius
self.horizontalLayout_4 = QtGui.QHBoxLayout()
self.horizontalLayout_4.setObjectName(_fromUtf8("horizontalLayout_4"))
self.label_7 = QtGui.QLabel(self.groupBox_2)
self.label_7.setObjectName(_fromUtf8("label_7"))
self.horizontalLayout_4.addWidget(self.label_7)
self.FlatRadiusField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.FlatRadiusField.setMaximum(9999)
self.FlatRadiusField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.FlatRadiusField.setObjectName(_fromUtf8("FlatRadiusField"))
self.horizontalLayout_4.addWidget(self.FlatRadiusField)
self.verticalLayout_3.addLayout(self.horizontalLayout_4)
# corner radius
self.horizontalLayout_5 = QtGui.QHBoxLayout()
self.horizontalLayout_5.setObjectName(_fromUtf8("horizontalLayout_5"))
self.label_8 = QtGui.QLabel(self.groupBox_2)
self.label_8.setObjectName(_fromUtf8("label_8"))
self.horizontalLayout_5.addWidget(self.label_8)
self.CornerRadiusField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CornerRadiusField.setMaximum(9999)
self.CornerRadiusField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.CornerRadiusField.setObjectName(_fromUtf8("CornerRadiusField"))
self.horizontalLayout_5.addWidget(self.CornerRadiusField)
self.verticalLayout_3.addLayout(self.horizontalLayout_5)
# cutting edge angle
self.horizontalLayout_6 = QtGui.QHBoxLayout()
self.horizontalLayout_6.setObjectName(_fromUtf8("horizontalLayout_6"))
self.label_9 = QtGui.QLabel(self.groupBox_2)
self.label_9.setObjectName(_fromUtf8("label_9"))
self.horizontalLayout_6.addWidget(self.label_9)
self.CuttingEdgeAngleField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CuttingEdgeAngleField.setMaximum(360)
self.CuttingEdgeAngleField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.CuttingEdgeAngleField.setObjectName(
_fromUtf8("CuttingEdgeAngleField"))
self.horizontalLayout_6.addWidget(self.CuttingEdgeAngleField)
self.verticalLayout_3.addLayout(self.horizontalLayout_6)
# cutting edge height
self.horizontalLayout_7 = QtGui.QHBoxLayout()
self.horizontalLayout_7.setObjectName(_fromUtf8("horizontalLayout_7"))
self.label_10 = QtGui.QLabel(self.groupBox_2)
self.label_10.setObjectName(_fromUtf8("label_10"))
self.horizontalLayout_7.addWidget(self.label_10)
self.CuttingEdgeHeightField = QtGui.QDoubleSpinBox(self.groupBox_2)
self.CuttingEdgeHeightField.setMaximum(9999)
self.CuttingEdgeHeightField.setAlignment(
QtCore.Qt.AlignRight | QtCore.Qt.AlignTrailing | QtCore.Qt.AlignVCenter)
self.CuttingEdgeHeightField.setObjectName(
_fromUtf8("CuttingEdgeHeightField"))
self.horizontalLayout_7.addWidget(self.CuttingEdgeHeightField)
self.verticalLayout_3.addLayout(self.horizontalLayout_7)
self.horizontalLayout.addWidget(self.groupBox_2)
self.verticalLayout.addLayout(self.horizontalLayout)
# ok / cancel box
self.buttonBox = QtGui.QDialogButtonBox(self)
self.buttonBox.setOrientation(QtCore.Qt.Horizontal)
self.buttonBox.setStandardButtons(
QtGui.QDialogButtonBox.Cancel | QtGui.QDialogButtonBox.Ok)
self.buttonBox.setObjectName(_fromUtf8("buttonBox"))
self.verticalLayout.addWidget(self.buttonBox)
self.retranslateUi()
# connect buttons
QtCore.QObject.connect(self.buttonBox, QtCore.SIGNAL(
_fromUtf8("accepted()")), self.accept)
QtCore.QObject.connect(self.buttonBox, QtCore.SIGNAL(
_fromUtf8("rejected()")), self.reject)
QtCore.QObject.connect(self.ButtonImport, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.read)
QtCore.QObject.connect(self.ButtonExport, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.write)
QtCore.QObject.connect(self.ButtonAdd, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.addnew)
QtCore.QObject.connect(self.ButtonDelete, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.delete)
QtCore.QObject.connect(self.ButtonUp, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.moveup)
QtCore.QObject.connect(self.ButtonDown, QtCore.SIGNAL(
_fromUtf8("clicked()")), self.movedown)
QtCore.QObject.connect(self.ToolsList, QtCore.SIGNAL(_fromUtf8(
"currentItemChanged(QTreeWidgetItem *, QTreeWidgetItem *)")), self.selectTool)
QtCore.QObject.connect(self.NameField, QtCore.SIGNAL(
_fromUtf8("textEdited(QString)")), self.changeName)
QtCore.QObject.connect(self.TypeField, QtCore.SIGNAL(
_fromUtf8("currentIndexChanged(int)")), self.changeType)
QtCore.QObject.connect(self.MaterialField, QtCore.SIGNAL(
_fromUtf8("currentIndexChanged(int)")), self.changeMaterial)
QtCore.QObject.connect(self.DiameterField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeDiameter)
QtCore.QObject.connect(self.LengthOffsetField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeLengthOffset)
QtCore.QObject.connect(self.FlatRadiusField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeFlatRadius)
QtCore.QObject.connect(self.CornerRadiusField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeCornerRadius)
QtCore.QObject.connect(self.CuttingEdgeAngleField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeCuttingEdgeAngle)
QtCore.QObject.connect(self.CuttingEdgeHeightField, QtCore.SIGNAL(
_fromUtf8("valueChanged(double)")), self.changeCuttingEdgeHeight)
QtCore.QMetaObject.connectSlotsByName(self)
self.tooltable = obj.Tooltable.copy()
self.tool = None
self.number = None
self.reset()
