Macro Dump Objects

From FreeCAD Documentation
Jump to navigation Jump to search
Other languages:
English • ‎français • ‎italiano

Macro Dump Objects.png Macro Dump Objects

This macro generates a listing of all objects in the current document - the list can be in a window or on the Report view.

Macro version: 1.0
Last modified: 2015-03-02
FreeCAD version: <= 0.17
Download: ToolBar Icon
Author: Piffpoof
ToolBar Icon
Macro Version
Date last modified
FreeCAD Version(s)
<= 0.17
Default shortcut
See also

When developing complex object models it is easy to loose track of exactly which objects are present as some may be hidden, obscured or transparent. Additionally with a large number of objects a naming system becomes necessary to keep track of the objects.



The Dump Object code takes the current document and enumerates all the objects. A report is then generated listing each object, then a summary giving the total number of instances of each Class, followed by the total number of Classes and finally the total number of objects. The output may be directed to the Report view or to a window. The window is non-modal and will stay open until closed by the user. Each window has the time of the object dump in it's title bar, so the contents of multiple windows can be compared, say before and after a piece of code running.

The default operation lists all objects, optionally the placement of each object can be listed. Also for Sketches, each segment of the Geometry can be listed.


All the code for dumpObject.FCMacro is in one macro. So installation is comprised of copying the code to the appropriate Macro directory and invoking dumpObject from the Macro menu. Alternatively it may be run from the console.


Select the document you wish to dump objects for, then start the macro from one of:

  • the Macro menu
  • from the Python console
  • from a Toolbar

Depending on the parameters selected in the first window, the report will be displayed on the Report view or in a window. The information will show all objects in the current document. Some of the benefits to be expected are the detection of:

  • irregularities in object names (e.g. spelling errors or default names generated by FreeCAD)
  • duplicate objects
  • objects with duplicate names (where FreeCAD has had to make the second object name unique)
  • unexpected objects
  • unexpected object Placements (when the Show Positions option is selected)
  • unexpected segments in the Sketch Geometry (when the Show Sketcher Segments option is selected)

User Interface

The first window will take input which configures the Object Dump:


The second window will be the report on the objects in the current document:



  • output may be directed to one of:
    • the Report view
    • a non-modal window
  • segments in the Geometry for each Sketch may be listed
  • Placement specifics may be listed for objects


Although tested with many object types in FreeCAD, there probably are some objects that it does not expect, in that case it should list them generically.


none (so far)


ToolBar Icon Macro Dump Objects.png


#						Dump Object
#                       v 0.2 - added report to CSV file
#                       v 0.1 - added report to window
#                       v 0.0 - report to Report view
# routine to dump object space for Geometric model in the currently active file
# import statements
from PySide import QtGui, QtCore
from datetime import datetime		# datestamp on output window
from os.path import expanduser		# output directory for CSV

# UI Class definitions

class configureMacro(QtGui.QDialog):
	def __init__(self):
		super(configureMacro, self).__init__()
	def initUI(self):
		self.result			= None
		# set up display only field for selected path type
		self.cbss			= QtGui.QCheckBox("Show Sketcher Segments?", self)
		self.cbp			= QtGui.QCheckBox("Show Positions?", self)
		self.pathTypeLbl	= QtGui.QLabel("Select Report Destination:", self)
		self.pathTypeLbl.move(20, 70)
		# cancel button
		cancelButton = QtGui.QPushButton('Cancel', self)
		cancelButton.move(10, 100)
		# button #1
		button1 = QtGui.QPushButton(choice1, self)
		button1.move(120, 100)
		# button #2
		button2 = QtGui.QPushButton(choice2, self)
		button2.move(235, 100)
		# button #3
		button3 = QtGui.QPushButton(choice3, self)
		button3.move(327, 100)
		# define window		xLoc,yLoc,xDim,yDim
		self.setGeometry(	250, 250, 435, 150)
		self.setWindowTitle("Select a Report Destination")
	def onCancel(self):
		self.result = "cancelled"
	def onBtn1(self):
		self.result = choice1
	def onBtn2(self):
		self.result = choice2
	def onBtn3(self):
		self.result = choice3

class DisplayText(QtGui.QWidget):
	def __init__(self, textToDisplay):
		self.text = textToDisplay
		super(DisplayText, self).__init__()
	def initUI(self, textToDisplay):
		self.textToDisplay = textToDisplay
		# some window dimensions
		self.windowHome = screenWidth * 0.05
		self.windowWidth = screenWidth * 0.9
		self.windowHeight = 400
		self.fieldMargin = 40
		# some column titles
		columnLabels = QtGui.QLabel(formatPrintLine("Type / WB","Shape","User Supplied Label","Name"))
		# set up text editing widget
		text_editor = QtGui.QTextEdit(self)
		# set up the layout
		vBox = QtGui.QVBoxLayout()
		# define window		xLoc,yLoc,xDim,yDim
		self.setGeometry(	self.windowHome, self.windowHome, self.windowWidth, self.windowHeight)
		self.setWindowTitle("Object Dump of '" + FreeCADGui.ActiveDocument.Document.Label + "' at " + str(
	def onOk(self):

# Class definitions

# Function Definitions

def countObjects():
	printList = list()
	objectTypeTable = {}
	# build up dictionary of different classes and keep a count
	for obj in FreeCAD.ActiveDocument.Objects:
		if objectTypeTable.has_key(obj.TypeId):
			objectTypeTable[obj.TypeId] = objectTypeTable[obj.TypeId]+1
			objectTypeTable[obj.TypeId] = 1
		wb = obj.TypeId[0:obj.TypeId.find("::")]
		shape = obj.TypeId[obj.TypeId.find("::")+2:]
		#print wb + "---" + shape
		placementString = ""
		if obj.TypeId == "Sketcher::SketchObject":
			printList.append(formatPrintLine("Sketch", "", str(obj.Label)))
			if showSketcherSegmentsFlag:
				for i in obj.Geometry:
					printList.append(formatPrintLine("", " -segment", str(i)))
		elif wb == "Part":
			if showPlacementFlag:
				placementString = str(obj.Placement)
			if shape in ("Cylinder", "Cut", "Box", "Fuse", "Loft", "Feature", "FeaturePython", "Part2DObjectPython"):
				printList.append(formatPrintLine(wb, shape, str(obj.Label), str(obj.Name)))
			else: # print shapes not in list above
				printList.append(formatPrintLine(str(obj.TypeId), "", str(obj.Label), str(obj.Name)))
		elif wb == "PartDesign":
			if showPlacementFlag:
				placementString = str(obj.Placement)
			if shape in ("Pad", "Feature", "Fillet", "Part2DObjectPython"):
				printList.append(formatPrintLine(wb, shape, str(obj.Label), str(obj.Name)))
			else: # print shapes not in list above
				printList.append(formatPrintLine(str(obj.TypeId), "", str(obj.Label), str(obj.Name)))
		elif obj.TypeId == "App::DocumentObjectGroup":
			printList.append(formatPrintLine("Group", "", str(obj.Label)))
		elif obj.TypeId == "Image::ImagePlane":
			printList.append(formatPrintLine(wb, shape, str(obj.Label), str(obj.Name)))		
		else: # print workbench shapes not in lists above
			printList.append(formatPrintLine(str(obj.TypeId), str(obj.Label), str(obj.Name)))
		if showPlacementFlag and len(placementString)!=0:
			printList.append(formatPrintLineMax("", " -placement", placementString))

	from collections import OrderedDict
	sortedByTags = OrderedDict(sorted(objectTypeTable.items(), key=lambda x: x[1], reverse=True))
	for k, v in sortedByTags.items():
	objectClassCount = 0; objectTotalCount = 0
	for i in objectTypeTable:
		objectTotalCount = objectTotalCount + objectTypeTable[i]
	objectCLassCount = len(objectTypeTable)
	printList.append(formatPrintLineSum("Object Class Total is ", str(objectCLassCount)))
	printList.append(formatPrintLineSum("Object Total is ", str(objectTotalCount)))
	return printList

def formatPrintLineSum(a,b):
	return printLineFormatter(2, a, str(b), "", "")

def formatPrintLineMax(a,b,c):
	return printLineFormatter(1, a, b, "", "")

def formatPrintLine(a,b,c, *args):
	d = ""
	if len(args)==1:
		d = args[0]
	return printLineFormatter(0, a, b, c, d)

def printLineFormatter(flag,a,b,c,d):
	# flag = 0	standard print, spread values over 4 columns
	# flag = 1	printing verbose things like Sketch details or Placements, combine columns 3 & 4
	# flag = 2	printing the summary lines, combine columns 1 & 2
	suffix = ""
	if csvFlag:
		pfs2 = printFormatString2csv
		pfs3 = printFormatString3csv
		pfs4 = printFormatString4csv
		pfs2 = printFormatString2
		pfs3 = printFormatString3
		pfs4 = printFormatString4
	if flag==0:
		aa = a[:f1]
		bb = b[:f2]
		cc = c[:f3]
		dd = d[:f4]
		return pfs4.format(aa,bb,cc,dd)
	elif flag==1:
		aa = a[:f1]
		bb = b[:f2]
		cc = c[:f3+f4]
		dd = d[:f4]
		return pfs3.format(aa,bb,cc)
		aa = a[:f1+f2]
		bb = b[:f3+f4]
		return pfs2.format(aa,bb)

# Constant definitions
# set some field widths
screenWidth = QtGui.QDesktopWidget().screenGeometry().width()
global f1, f2, f3, f4
# f1 = 15; f2 = 25; f3 = 45; f4 = 25 # 110 columns in 1000 pixels
f1 = 15*screenWidth/1000; f2 = 25*screenWidth/1000; f3 = 45*screenWidth/1000; f4 = 25*screenWidth/1000
# and some print format strings
global printFormatString2, printFormatString3, printFormatString4
global printFormatString2csv, printFormatString3csv, printFormatString4csv
printFormatString2 = "{0:<"+str(f1+f2)+"} {1:<"+str(f3)+"}"
printFormatString2csv = "{0}, {1}"
printFormatString3 = "{0:<"+str(f1)+"} {1:<"+str(f2)+"} {2:<"+str(f3+f4)+"}"
printFormatString3csv = "{0}, {1}, {2}"
printFormatString4 = "{0:<"+str(f1)+"} {1:<"+str(f2)+"} {2:<"+str(f3)+"} {3:<"+str(f4)+"}"
printFormatString4csv = "{0}, {1}, {2}, {3}"
# some button labels that are checked in the code
global choice1, choice2, choice3, csvFlag
choice1 = "Report View"; choice2 = "CSV File"; choice3 = "Window"
csvFlag = False
summarySeparator = "======================================================="
summarySeparatorCsv = "-------------------------------------------------------"
# code ***********************************************************************************
if FreeCAD.ActiveDocument != None:
	# ask if to window or to Report View...
	form = configureMacro()
	showSketcherSegmentsFlag = False
	if form.cbss.isChecked():
		showSketcherSegmentsFlag = True
	showPlacementFlag = False
	if form.cbp.isChecked():
		showPlacementFlag = True
	if form.result == choice2:
		csvFlag = True
		showSketcherSegmentsFlag = False
		showPlacementFlag = False
		summarySeparator = summarySeparatorCsv
	printList = countObjects()
	if form.result == choice1: # report to Report View
		mainWindow = FreeCADGui.getMainWindow()
		dockWidgets = mainWindow.findChildren(QtGui.QDockWidget)
		reportViewFlag = False
		for dw in dockWidgets:
			if dw.objectName() == "Report view":
				reportViewFlag = True
		if reportViewFlag:
			print printFormatString4.format(	"", "", "(User Supplied)", "")
			print printFormatString4.format(	"Type", "Shape", "Label", "Name")
			print ""
			for line in printList:
				print line + "\n"
			QtGui.QMessageBox.information(None,"","Please use 'Menu->View->Views->Report view' to open the 'Report view'")
	if form.result == choice2: # report to CSV file
		filePath = QtGui.QFileDialog.getSaveFileName(parent=None,caption="Save CSV file as",dir=expanduser("~"),filter="*.csv")
		file = open(filePath[0],"w")
		for line in printList:
			file.write(line + "\n")
	if form.result == choice3: # report to window
		longPrintLine = ""
		for line in printList:
			longPrintLine = longPrintLine + line + "\n"
		form = DisplayText(longPrintLine)
#OS: Mac OS X
#Word size: 64-bit
#Version: 0.14.3703 (Git)
#Branch: releases/FreeCAD-0-14
#Hash: c6edd47334a3e6f209e493773093db2b9b4f0e40
#Python version: 2.7.5
#Qt version: 4.8.6
#Coin version: 3.1.3
#SoQt version: 1.5.0
#OCC version: 6.7.0
#thus ends the macro...