Mesh to Part/es: Difference between revisions
Renatorivo (talk | contribs) (Created page with "== Convertir Mallas en objetos Pieza ==") |
Renatorivo (talk | contribs) (Created page with "La conversión de mallas en objetos Pieza es una operación muy importante en el trabajo de CAD, ya que a menudo se reciben datos 3D en formato de malla de otras personas o so...") |
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== Convertir Mallas en objetos Pieza == |
== Convertir Mallas en objetos Pieza == |
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La conversión de mallas en objetos Pieza es una operación muy importante en el trabajo de CAD, ya que a menudo se reciben datos 3D en formato de malla de otras personas o son generados con otras aplicaciones. Las mallas son muy prácticas para representar la geometría de forma libre y para grandes escenas visuales, ya que son muy ligeras. Pero, por lo general, el CAD prefiere objetos de nivel superior que llevan mucha más información, como la idea de sólidos, o caras hechas de curvas, en lugar de triángulos. |
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Converting Meshes to Part objects is an extremely important operation in CAD work, because very often you receive 3D data in mesh format from other people or outputted from other applications. Meshes are very practical to represent free-form geometry and big visual scenes, as it is very lightweight, but for CAD we generally prefer higher-level objects that carry much more information, such as the idea of solid, or faces made of curves instead of triangles. |
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Converting meshes to those higher-level objects (handled by the [[Part Module]] in FreeCAD) is not an easy operation. Meshes can be made of thousands of triangles (for example when generated by a 3D scanner), and having solids made of the same number of faces would be extremely heavy to manipulate. So you generally want to optimize the object when converting. |
Converting meshes to those higher-level objects (handled by the [[Part Module]] in FreeCAD) is not an easy operation. Meshes can be made of thousands of triangles (for example when generated by a 3D scanner), and having solids made of the same number of faces would be extremely heavy to manipulate. So you generally want to optimize the object when converting. |
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Revision as of 20:57, 30 September 2014
Convertir Objetos parte en mallas
La conversión de objetos de alto nivel, tales como formas de Piezas en objetos más simples como mallas es una operación bastante sencilla, en la que todas las caras de un objeto Pieza son triangularizadas. El resultado de esa triangulación (o teselado) se utiliza para construir una malla:
#let's assume our document contains one part object
import Mesh
faces = []
shape = FreeCAD.ActiveDocument.ActiveObject.Shape
triangles = shape.tessellate(1) # the number represents the precision of the tessellation)
for tri in triangles[1]:
face = []
for i in range(3):
vindex = tri[i]
face.append(triangles[0][vindex])
faces.append(face)
m = Mesh.Mesh(faces)
Mesh.show(m)En ocasiones, la triangulación ofrecida por OpenCascade para algunas caras es bastante fea. Si la cara tiene un espacio de parámetros rectangular y no contiene ningún agujero o curvas de corte también puedes crear una malla por tu cuenta:
import Mesh
def makeMeshFromFace(u,v,face):
(a,b,c,d)=face.ParameterRange
pts=[]
for j in range(v):
for i in range(u):
s=1.0/(u-1)*(i*b+(u-1-i)*a)
t=1.0/(v-1)*(j*d+(v-1-j)*c)
pts.append(face.valueAt(s,t))
mesh=Mesh.Mesh()
for j in range(v-1):
for i in range(u-1):
mesh.addFacet(pts[u*j+i],pts[u*j+i+1],pts[u*(j+1)+i])
mesh.addFacet(pts[u*(j+1)+i],pts[u*j+i+1],pts[u*(j+1)+i+1])
return meshConvertir Mallas en objetos Pieza
La conversión de mallas en objetos Pieza es una operación muy importante en el trabajo de CAD, ya que a menudo se reciben datos 3D en formato de malla de otras personas o son generados con otras aplicaciones. Las mallas son muy prácticas para representar la geometría de forma libre y para grandes escenas visuales, ya que son muy ligeras. Pero, por lo general, el CAD prefiere objetos de nivel superior que llevan mucha más información, como la idea de sólidos, o caras hechas de curvas, en lugar de triángulos.
Converting meshes to those higher-level objects (handled by the Part Module in FreeCAD) is not an easy operation. Meshes can be made of thousands of triangles (for example when generated by a 3D scanner), and having solids made of the same number of faces would be extremely heavy to manipulate. So you generally want to optimize the object when converting.
FreeCAD currently offers two methods to convert Meshes to Part objects. The first method is a simple, direct conversion, without any optimization:
import Mesh,Part
mesh = Mesh.createTorus()
shape = Part.Shape()
shape.makeShapeFromMesh(mesh.Topology,0.05) # the second arg is the tolerance for sewing
solid = Part.makeSolid(shape)
Part.show(solid)The second method offers the possibility to consider mesh facets coplanar when the angle between them is under a certain value. This allows to build much simpler shapes: (let's assume our document contains one Mesh object)
# let's assume our document contains one Mesh object
import Mesh,Part,MeshPart
faces = []
mesh = App.ActiveDocument.ActiveObject.Mesh
segments = mesh.getPlanes(0.00001) # use rather strict tolerance here
for i in segments:
if len(i) > 0:
# a segment can have inner holes
wires = MeshPart.wireFromSegment(mesh, i)
# we assume that the exterior boundary is that one with the biggest bounding box
if len(wires) > 0:
ext=None
max_length=0
for i in wires:
if i.BoundBox.DiagonalLength > max_length:
max_length = i.BoundBox.DiagonalLength
ext = i
wires.remove(ext)
# all interior wires mark a hole and must reverse their orientation, otherwise Part.Face fails
for i in wires:
i.reverse()
# make sure that the exterior wires comes as first in the lsit
wires.insert(0, ext)
faces.append(Part.Face(wires))
shell=Part.Compound(faces)
Part.show(shell)
#solid = Part.Solid(Part.Shell(faces))
#Part.show(solid)
