Macro Half turn stairs

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Macro Half turn stairs.png Half_turn_stairs

Description
This macro creates a Stair with left or right turn in the defined high. The design of the stairs are defined in stairs.dat file (You must copy the data in the wiki page). The step-high of the stair is calculated from the high of the stair.

Macro version: 1.0
Last modified: 2016-10-17
FreeCAD version: All
Download: ToolBar Icon
Author
Berner
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Links
Macro Version
1.0
Date last modified
2016-10-17
FreeCAD Version(s)
All
Default shortcut
None
See also
None


Description

This Macro creates a half turning Stair with the design of stairs.dat file left or right turning.

Half turn stairs.png

Stairs


Usage

  • Copy and save the Data as file stairs.dat in your macro directory, see below Data (stairs.dat) code.
  • Launch the macro and change the height of Stair to the hight of your floor. The turning can be left or right.

Script

ToolBar Icon Half turn stairs.png

Half_turn_stairs.FCMacro

# -*- coding: utf-8 -*-
#
# Half_turn_stairs Macro runs with Freecad 0.17
#
# Author: Berner and Forum
#
# This macro creates a half turn stair from tupels of x,y,z 
# the tupels used to create a dwire for every stair.
# The dwire is extruded, so it give with 18 stairs the total rise 
#
# A sample file with parameters is in stairs.dat
#
# created a wire with coordinate x y z separated (in the file)
#Sample: (delete # on lines without comments)
# Stair 0
#0.0 -240.0 0.0 0.0 0.0 0.0 1000.0 0.0 0.0 1000.0 -240.0 0.0
# Stair 1
#0.0 0.0 0.0 0.0 240.0 0.0 1000.0 240.0 0.0 1000.0 0.0 0.0
#. . . .

from __future__ import unicode_literals
from FreeCAD import Base
import Draft, Part

App.Console.PrintMessage("Half_turn_stairs-Macro\n")
# Get location of user macros
p=FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Macro")
path = p.GetString("MacroPath")
dataset = path + "/stairs.dat"                          # path and name of file.txt
docname = App.ActiveDocument.Name                       # Name of active document
 
debug='n' # Debug Values on Console
rise = 3100.0 # Geschosshoehe Total Rise

left_right="l"  # turn stairs left or left_right
# GUI

from PySide import QtGui
(rise, ok) = QtGui.QInputDialog.getDouble(
		QtGui.QWidget(), 'Total Rise / Geschosshoehe', 'Total Rise /  Geschosshoehe', 2000, 0, 3100, 4)
if ok:
 left_right = QtGui.QInputDialog.getText(None, "left_right", "Turn Left or Right l/r")[0]
if debug == 'y': FreeCAD.Console.PrintMessage("rise="+str(rise) + " " + str(ok) + "\n" )
if debug == 'y': FreeCAD.Console.PrintMessage("left_right="+str(left_right) + " " + str(ok) + "\n" )
# End Gui
step=float(rise/18)  # Treppensteigung / Step_high

# functions
def objnames():  # List object names
 doc = FreeCAD.ActiveDocument
 objs = FreeCAD.ActiveDocument.Objects
 names=''  #list of objectnames
 labels='' # list of objectlabels 
 for obj in objs:
    a = obj.Name                                             # list the Name  of the object  (not modifiable)
    b = obj.Label                                            # list the Label of the object  (modifiable)
    try:
        c = obj.LabelText                                    # list the LabeText of the text (modifiable)
        names=names+str(a)+" "
        labels=labels+str(b)+" "
    except:
        names=names+str(a)+" "
        labels=labels+str(b)+" "
 return names
 if debug == 'y': App.Console.PrintMessage("Names="+str(names) +"\n"+"Labels="+ str(labels) + "\n")
# end functions

file = open(dataset, "r") # open the file read
i = 0 #line counter
line = file.readline()
while(line != ''):    # read number of lines
   if line[0:1] != "#" and len(line) >0:
    i = i + 1
    if debug == "y": App.Console.PrintMessage("Parameter-Line" + str(i) + " " + line + "\n")
   line = file.readline() 
file.close()
numlines=i  # number of parameter-lines
if debug == "y": App.Console.PrintMessage("Number of Parameter-Lines =" + str(numlines) + "\n")
file = open(dataset, "r")                                  # open the file read
wire = []
X=Y=Z = 0.0
if left_right == "r": 
 i = 0 #line counter
else:
 i = numlines 
line = file.readline()
while(line != ''):
    num_words = len(line.split())
    num_tupel = num_words / 3
    if debug == "y": App.Console.PrintMessage(str(num_words) + "\n")
    if debug == "y": App.Console.PrintMessage(str(num_tupel) + "\n")
    if line[0:1] == "#" or num_words != (num_tupel * 3):
     if num_words != (num_tupel * 3):
      App.Console.PrintMessage("Error on Inputfile line " + str(i) + "\n")
      App.Console.PrintMessage("Only " + str(num_words) + " of multiple of 3 Words\n")
    else:
     if line[0:1] == "#": 
      num_words = 0   #  ignore comment
     if debug == "y": App.Console.PrintMessage(line + "\n")
     coordinates = line.split()
     if debug == "y": App.Console.PrintMessage(str(coordinates) + " " + str(num_words) + " " + str(num_tupel)+ str(type(num_words)) + "\n")
     if num_words > 0:
      data=""  # generate statement
      printline="App.Console.PrintMessage(" # generate variable for PrintMessage (debug)
      for x in range(1, num_tupel + 1):
       data=data + "X" + str(x) + ",Y" + str(x) + ",Z" + str(x)
       printline=printline + "str(X" + str(x) + ") + ' ' + " + "str(Y" + str(x) + ") + ' ' + " + "str(Z" + str(x) + ") + ' '"
       if x < num_tupel: 
        data=data + ","
        printline=printline + " + "
      data=data + " = coordinates" 
      printline=printline + ")\n"
      if debug == "y": App.Console.PrintMessage(data + "\n")
      if debug == "y": App.Console.PrintMessage(printline + "\n")
      # X1,Y1,Z1,X2,Y2,Z2,X3,Y3,Z3,X4,Y4,Z4 = coordinates
      exec(data) # coordinates to variables
      if debug == "y": exec(printline) # output input file
      #App.Console.PrintMessage(str(X1) + " " + str(Y1) + " " +str(Z1) + "\n")
      px=""
      pn="" # names of generated variables
      for x in range(1, num_tupel +1):
       if x < num_tupel:
        pn=pn + "p" + str(x) + ","
       else:
        pn=pn + "p" + str(x)
       data = "Z" + str(x) + " = " + str(i * step)  # Korrektur z= 0.0 auf aktuelle step
       if debug == "y": App.Console.PrintMessage(data + "\n")
       exec(data)
       px="p" + str(x) + "= FreeCAD.Vector(float(X" + str(x) + "),float(Y" + str(x) + "),float(Z" + str(x) + "))" 
       if debug == "y": App.Console.PrintMessage(px + "\n")
       exec(px)
      if debug == "y": App.Console.PrintMessage(pn + "\n")
      #p1 = FreeCAD.Vector(float(X1),float(Y1),float(Z1))
      #p2 = FreeCAD.Vector(float(X2),float(Y2),float(Z2))
      #p3 = FreeCAD.Vector(float(X3),float(Y3),float(Z3))
      #p4 = FreeCAD.Vector(float(X4),float(Y4),float(Z4))
      data="Draft.makeWire([" + pn + "],closed=True)"
      if debug == "y": App.Console.PrintMessage(data + "\n")
      exec(data)
      #Draft.makeWire([p1,p2,p3,p4,p5],closed=True)
      if left_right == "r": 
       i = i + 1
      else:
       i = i -1
    line = file.readline() 
file.close()
#
# List all objects of the document
names = objnames()    # list objectnames
App.Console.PrintMessage("names="+str(names) +"\n")
#extrude
extr="" # suffix for continues Extrude in commands
extrnames="Box Cut" #names of source object, because not consitend nameings in freecad
j=len(names.split())
n=0 #counter
if left_right == "r": 
 l1 = 0
 l2 = j
 step = 1
else:
 l1 = j
 l2 = -1
 step = -1
for x in range(l1, l2, step):
 w=str(names.split(" ")[x])
 if w[0:5] == "DWire":
  if debug == 'y':  App.Console.PrintMessage("w="+str(w) +"\n")
  data = 'f = FreeCAD.getDocument(docname).addObject("Part::Extrusion","Extrude' + str(extr)+ '")'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f = App.getDocument(docname).getObject("Extrude' + str(extr) + '")'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.Base = App.getDocument(docname).getObject("' + str(w) + '")'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.DirMode = str("Custom")'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.Dir = App.Vector(0.000000000000000, 0.000000000000000, 1.000000000000000)'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.DirLink = None'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.LengthFwd = 180.000000000000000'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.LengthRev = 0.000000000000000'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.Solid = True'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.Reversed = False'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.Symmetric = False'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.TaperAngle = 0.000000000000000'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
  data = 'f.TaperAngleRev = 0.000000000000000'
  if debug == "y": App.Console.PrintMessage(data + "\n")
  exec(data)
 # data = 'App.getDocument(docname).Extrude' + str(extr) + '.Placement=App.Placement(App.Vector(0,0,360), #App.Rotation(App.Vector(0,0,1),0), App.Vector(0,0,0))'
  #if debug == "y": App.Console.PrintMessage(data + "\n")
  #exec(data)
  n = n + 1
  extr = str("%03d" % n)  # count extrude suffix
  extrnames=extrnames + " Extrude" + str("%03d" % x)
#
FreeCAD.ActiveDocument.recompute()


Data (stairs.dat)

Save this Data as file stairs.dat in your macro directory

#
# Save this Data as file stairs.dat in your macro directory
# 
# Stufe 0
0.0 -240.0 0.0 0.0 0.0 0.0 1000.0 0.0 0.0 1000.0 -240.0 0.0
# Stufe 1
0.0 0.0 0.0 0.0 240.0 0.0 1000.0 240.0 0.0 1000.0 0.0 0.0
# Stufe 2
0.0 240.0 0.0 0.0 520.0 0.0 1000.0 520.0 0.0 1000.0 240.0 0.0
# Stufe 3
0.0 520.0 0.0 0.0 840.0 0.0 1000.0 720.0 0.0 1000.0 520.0 0.0
# Stufe 4
0.0 840.0 0.0 0.0 1220.0 0.0 1000.0 860.0 0.0 1000.0 720.0 0.0
# Stufe 5
0.0 1220.0 0.0 0.0 1620.0 0.0 1000.0 1000.0 0.0 1000.0 860.0 0.0
# Stufe 6
0.0 1620.0 0.0 0.0 2170.0 0.0  140.0 2170.0 0.0 1000.0 1120.0 0.0 1000.0 1000.0 0.0
# Stufe 7
140.0 2170.0 0.0 680.0 2170.0 0.0 1020.0 1170.0 0.0 1000.0 1170.0 0.0 1000.0 1120.0 0.0 140.0 2170.0 0.0
# Stufe 8
680.0 2170.0 0.0 1115.0 2170.0 0.0 1115.0 1170.0 0.0 1020.0 1170.0 0.0 
# Stufe 9
1115.0 2170.0 0.0 1550.0 2170.0 0.0 1210.0 1170.0 0.0 1115.0  1170.0 0.0 1115.0 2170.0 0.0
# Stufe 10
1550.0 2170.0 0.0 2090.0 2170.0 0.0 1230.0 1120.0 0.0 1230.0 1170.0 0.0 1210.0 1170.0 0.0 1550.0 2170.0 0.0
# Stufe 11
2090.0 2170.0 0.0 2230.0 2170.0 0.0 2230.0 1620.0 0.0 1230.0 1000.0 0.0 1230.0 1120.0 0.0 2090.0 2170.0 0.0
# Stufe 12
1230.0 1000.0 0.0 2230.0 1620.0 0.0 2230.0 1230.0 0.0 1230.0 860.0 0.0 1230.0 1000.0 0.0
# Stufe 13
1230.0 720.0 0.0 1230.0 860.0 0.0 2230.0 1220.0 0.0 2230.0 840.0 0.0 1230.0 720.0 0.0
# Stufe 14
1230.0 520.0 0.0 1230.0 720.0 0.0 2230.0 840.0 0.0 2230.0 520.0 0.0 1230.0 520.0 0.0
# Stufe 15
1230.0 240.0 0.0 1230.0 520.0 0.0 2230 520.0 0.0 2230.0 240.0 0.0 1230.0 240.0 0.0
# Stufe 16
1230.0 0.0 0.0 1230.0 240.0 0.0 2230.0 240.0 0.0 2230.0 0.0 0.0 1230.0 0.0 0.0
# Stufe 17
1230.0 -240.0 0.0 1230.0 0.0 0.0 2230.0 0.0 0.0 2230.0 -240.0 0.0 1230.0 -240.0 0.0

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