Macro 3D Parametric Curve
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| Description |
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| Dessine une fonction décrite par des équations paramétriques x(t), y(t) et z(t) avec la possibilité de choisir le type de ligne b-spline ou polyline pour raccorder les points. Version macro : 2.0 Date dernière modification : 2015-03-06 Version FreeCAD : Toutes versions Téléchargement : Icône pour votre barre d'outils Auteur: Lucio Gomez (psicofil) |
| Auteur |
| Lucio Gomez (psicofil) |
| Téléchargement |
| Icône pour votre barre d'outils |
| Liens |
| Page des macros Comment installer une macro Comment créer une barre d'outils |
| Version Macro |
| 2.0 |
| Dernière modification |
| 2015-03-06 |
| Version(s) FreeCAD |
| Toutes versions |
| Raccourci clavier |
| None |
| Voir aussi |
| None |
Description
Dessine une fonction décrite par des équations paramétriques x(t), y(t) et z(t) avec la possibilité de choisir le type de ligne b-spline ou polyline pour raccorder les points.
Exemple Epicycloid courbe
Script Original
Vous pouvez télécharger le dernier scipt (13/05/2015) sur Github repository: Macro 3D Parametric Curve.FCMacro
Script Modifié
ToolBar Icon 
Macro 3D Parametric Curve.FCMacro
# -*- coding: utf-8 -*-
# Create a 3D parametric Curve.
# Author: Gomez Lucio
# Modified by Laurent Despeyroux on 9th feb 2015
# - 3 helping variables added a, b and c
# - enlarged GUI
# - more flexible GUI
# - basic error mangement
import FreeCAD
from PySide import QtGui,QtCore
import Part
import Draft
from math import *
class ParamCurv(QtGui.QWidget):
def __init__(self):
super(ParamCurv, self).__init__()
self.initUI()
def initUI(self):
self.t0 = QtGui.QLabel("Equation :",self)
self.ta = QtGui.QLabel(" a(t) ",self)
self.la = QtGui.QLineEdit(self)
self.la.setText("37")
self.tb = QtGui.QLabel(" b(a,t) ",self)
self.lb = QtGui.QLineEdit(self)
self.lb.setText("1")
self.tc = QtGui.QLabel(" c(a,b,t) ",self)
self.lc = QtGui.QLineEdit(self)
self.lc.setText("(a+cos(a*t)*2)*b")
self.t1 = QtGui.QLabel(" X(a,b,c,t) ",self)
self.l1 = QtGui.QLineEdit(self)
self.l1.setText("cos(t)*c")
self.t2 = QtGui.QLabel(" Y(a,b,c,t) ",self)
self.l2 = QtGui.QLineEdit(self)
self.l2.setText("sin(t)*c")
self.t3 = QtGui.QLabel(" Z(a,b,c,t) ",self)
self.l3 = QtGui.QLineEdit(self)
self.l3.setText("0")
self.t31 = QtGui.QLabel("Parameters :",self)
self.t4 = QtGui.QLabel(" Min t ",self)
self.l4 = QtGui.QLineEdit(self)
self.l4.setText("0")
self.t5 = QtGui.QLabel(" Max t ",self)
self.l5 = QtGui.QLineEdit(self)
self.l5.setText("6.283185")
self.t6 = QtGui.QLabel(" Interval ",self)
self.l6 = QtGui.QLineEdit(self)
self.l6.setText("0.01")
self.t7 = QtGui.QLabel("Type of Line :",self)
self.op1 = QtGui.QCheckBox(" Polyline",self)
self.poly = False
self.op1.stateChanged.connect(self.polyState)
self.op1.setCheckState(QtCore.Qt.Checked)
self.op2 = QtGui.QCheckBox(" Bspline",self)
self.bsline = False
self.op2.stateChanged.connect(self.bsplineState)
self.t8 = QtGui.QLabel(" Closed Curve",self)
self.op3 = QtGui.QCheckBox("",self)
self.cclose = False
self.op3.stateChanged.connect(self.ccloseState)
self.createbutt = QtGui.QPushButton("Create Curve",self)
self.exitbutt = QtGui.QPushButton("Close",self)
layout = QtGui.QGridLayout()
self.resize(420, 380)
self.setWindowTitle("Parametric Curve ")
i = 0
layout.addWidget(self.t0, i, 0)
i = i+1
layout.addWidget(self.ta, i, 0)
layout.addWidget(self.la, i, 1)
i = i+1
layout.addWidget(self.tb, i, 0)
layout.addWidget(self.lb, i, 1)
i = i+1
layout.addWidget(self.tc, i, 0)
layout.addWidget(self.lc, i, 1)
i = i+1
layout.addWidget(self.t1, i, 0)
layout.addWidget(self.l1, i, 1)
i = i+1
layout.addWidget(self.t2, i, 0)
layout.addWidget(self.l2, i, 1)
i = i+1
layout.addWidget(self.t3, i, 0)
layout.addWidget(self.l3, i, 1)
i = i+1
layout.addWidget(self.t31, i, 0)
i = i+1
layout.addWidget(self.t4, i, 0)
layout.addWidget(self.l4, i, 1)
i = i+1
layout.addWidget(self.t5, i, 0)
layout.addWidget(self.l5, i, 1)
i = i+1
layout.addWidget(self.t6, i, 0)
layout.addWidget(self.l6, i, 1)
i = i+1
layout.addWidget(self.t8, i, 0)
layout.addWidget(self.op3, i, 1)
i = i+1
layout.addWidget(self.t7, i, 0)
i = i+1
layout.addWidget(self.op1, i, 0)
layout.addWidget(self.op2, i, 1)
i = i+1
layout.addWidget(self.createbutt, i, 0)
layout.addWidget(self.exitbutt, i, 1)
self.setLayout(layout)
self.show()
QtCore.QObject.connect(self.createbutt, QtCore.SIGNAL("pressed()"),self.draw)
QtCore.QObject.connect(self.exitbutt, QtCore.SIGNAL("pressed()"),self.close)
def ccloseState(self, state):
if state == QtCore.Qt.Checked:
self.cclose = True
else:
self.cclose = False
def bsplineState(self, state):
if state == QtCore.Qt.Checked:
self.bsline = True
self.op1.setCheckState(QtCore.Qt.Unchecked)
else:
self.bsline = False
def polyState(self, state):
if state == QtCore.Qt.Checked:
self.poly = True
self.op2.setCheckState(QtCore.Qt.Unchecked)
else:
self.poly = False
def draw(self):
msgBox = QtGui.QMessageBox()
fa = str(self.la.text())
fb = str(self.lb.text())
fc = str(self.lc.text())
fx = str(self.l1.text())
fy = str(self.l2.text())
fz = str(self.l3.text())
t = float(str(self.l4.text()))
tf = float(self.l5.text())
intv = float(str(self.l6.text()))
d=(tf-t)/intv
matriz = []
for i in range(int(d)):
try:
value="a"
a=eval(fa)
value="b"
b=eval(fb)
value="c"
c=eval(fc)
value="X"
fxx=eval(fx)
value="Y"
fyy=eval(fy)
value="Z"
fzz=eval(fz)
except ZeroDivisionError:
msgBox.setText("Error division by zero in calculus of "+value+"() for t="+str(t)+" !")
msgBox.exec_()
except:
msgBox.setText("Error in the formula of "+value+"() !")
msgBox.exec_()
matriz.append(FreeCAD.Vector(fxx,fyy,fzz))
t+=intv
curva = Part.makePolygon(matriz)
if self.bsline == True:
Draft.makeBSpline(curva,closed=self.cclose,face=False)
if self.poly == True:
Draft.makeWire(curva,closed=self.cclose,face=False)
def close(self):
self.hide()
ParamCurv()