FreeCAD vector math library/de: Difference between revisions

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Dies ist eine Python-Datei mit einigen nützlichen Funktionen zur Manipulation von Freecad-Vektoren. Füge einfach den folgenden Code in eine Python-Datei ein und importiere diese Datei in dein Python-Skript, um sie zu verwenden. Diese Bibliothek ist im [[Draft Module]] enthalten und kann so vom Python-Interpreter aus aufgerufen werden:
This is a python file containing a couple of useful functions to manipulate freecad vectors. Just paste the following code in a python file, and import that file in your python script in order to use them. This library is included in the [[Draft Module]] and can be accessed like this from the python interpreter:
import DraftVecUtils
import DraftVecUtils
Vectors are the building bricks of almost all 3D geometric operations, so it is useful to know a bit about them to understand how these functions can be useful to you. A couple of good pages to learn the basics of vector math:
Vectors are the building bricks of almost all 3D geometric operations, so it is useful to know a bit about them to understand how these functions can be useful to you. A couple of good pages to learn the basics of vector math:

Revision as of 20:33, 19 November 2019

Dies ist eine Python-Datei mit einigen nützlichen Funktionen zur Manipulation von Freecad-Vektoren. Füge einfach den folgenden Code in eine Python-Datei ein und importiere diese Datei in dein Python-Skript, um sie zu verwenden. Diese Bibliothek ist im Draft Module enthalten und kann so vom Python-Interpreter aus aufgerufen werden:

import DraftVecUtils

Vectors are the building bricks of almost all 3D geometric operations, so it is useful to know a bit about them to understand how these functions can be useful to you. A couple of good pages to learn the basics of vector math:

 "Vector math library for FreeCAD"

 import math,FreeCAD
 
 def add(first, other):
 	"add(Vector,Vector) - adds two vectors"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return FreeCAD.Vector(first.x+other.x, first.y+other.y, first.z+other.z)
 
 def sub(first, other): 
 	"sub(Vector,Vector) - subtracts second vector from first one"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return FreeCAD.Vector(first.x-other.x, first.y-other.y, first.z-other.z)
 
 def scale(first,scalar):
 	"scale(Vector,Float) - scales (multiplies) a vector by a factor"
 	if isinstance(first,FreeCAD.Vector):
 		return FreeCAD.Vector(first.x*scalar, first.y*scalar, first.z*scalar)
 
 def length(first):
 	"lengh(Vector) - gives vector length"
 	if isinstance(first,FreeCAD.Vector):
 		return math.sqrt(first.x*first.x + first.y*first.y + first.z*first.z)
 
 def dist(first, other):
 	"dist(Vector,Vector) - returns the distance between both points/vectors"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return length(sub(first,other))
 
 def normalized(first):
 	"normalized(Vector) - returns a unit vector"
 	if isinstance(first,FreeCAD.Vector):
 		l=length(first)
 		return FreeCAD.Vector(first.x/l, first.y/l, first.z/l)
 
 def dotproduct(first, other):
 	"dotproduct(Vector,Vector) - returns the dot product of both vectors"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return (first.x*other.x + first.y*other.y + first.z*other.z)
 
 def crossproduct(first, other=FreeCAD.Vector(0,0,1)):
 	"crossproduct(Vector,Vector) - returns the cross product of both vectors. 
 	If only one is specified, cross product is made with vertical axis, thus returning its perpendicular in XY plane"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return FreeCAD.Vector(first.y*other.z - first.z*other.y, first.z*other.x - first.x*other.z, first.x*other.y - first.y*other.x)
 
 def angle(first, other=FreeCAD.Vector(1,0,0)):
 	"angle(Vector,Vector) - returns the angle in radians between the two vectors. 
 	If only one is given, angle is between the vector and the horizontal East direction"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return math.acos(dotproduct(normalized(first),normalized(other)))
 
 def project(first, other):
 	"project(Vector,Vector): projects the first vector onto the second one"
 	if isinstance(first,FreeCAD.Vector) and isinstance(other,FreeCAD.Vector):
 		return scale(other, dotproduct(first,other)/dotproduct(other,other))