FreeCAD vector math library/fr: Difference between revisions

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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:
Ceci est un fichier Python contenant une série de fonctions utiles pour manipuler des vecteurs dans FreeCAD. Il suffit de coller le code suivant dans un fichier Python, et d'importer ce fichier dans votre script Python dans le but de l'utiliser. Cette bibliothèque est incluse dans [[Draft Module/fr|Draft Module]] et peut être consulté à partir de l'interpréteur python :
from draftlibs import fcvec
from draftlibs import fcvec
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 21:48, 30 November 2014

Ceci est un fichier Python contenant une série de fonctions utiles pour manipuler des vecteurs dans FreeCAD. Il suffit de coller le code suivant dans un fichier Python, et d'importer ce fichier dans votre script Python dans le but de l'utiliser. Cette bibliothèque est incluse dans Draft Module et peut être consulté à partir de l'interpréteur python :

from draftlibs import fcvec

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))