The EdgeArray is a sequence of Edge objects.
import part mdb.models[name].parts[name].allInternalSets[name].edges mdb.models[name].parts[name].allInternalSurfaces[name].edges mdb.models[name].parts[name].allSets[name].edges mdb.models[name].parts[name].allSurfaces[name].edges mdb.models[name].parts[name].edges mdb.models[name].parts[name].sets[name].edges mdb.models[name].parts[name].surfaces[name].edges import assembly mdb.models[name].rootAssembly.allInternalSets[name].edges mdb.models[name].rootAssembly.allInternalSurfaces[name].edges mdb.models[name].rootAssembly.allSets[name].edges mdb.models[name].rootAssembly.allSurfaces[name].edges mdb.models[name].rootAssembly.edges mdb.models[name].rootAssembly.instances[name].edges mdb.models[name].rootAssembly.instances[name].sets[name].edges mdb.models[name].rootAssembly.instances[name].surfaces[name].edges mdb.models[name].rootAssembly.sets[name].edges mdb.models[name].rootAssembly.surfaces[name].edges
This method returns the object or objects in the EdgeArray located at the given coordinates.
findAt initially uses the ACIS tolerance of 1E-6. As a result, findAt returns any edge that is at the arbitrary point specified or at a distance of less than 1E-6 from the arbitrary point. If nothing is found, findAt uses the tolerance for imprecise geometry (applicable only for imprecise geometric entities). The arbitrary point must not be shared by a second edge. If two edges intersect or coincide at the arbitrary point, findAt chooses the first edge that it encounters, and you should not rely on the return value being consistent.
findAt will always try to find objects among all the edges in the part or assembly instance and will not restrict itself to a subset even if the EdgeArray represents such subset.
Required argument
A sequence of Floats specifying the X-, Y-, and Z-coordinates of the object to find.
findAt returns either an Edge object or a sequence of Edge objects based on the type of input.
If coordinates is a sequence of Floats, findAt returns the Edge object at that point.
If you omit the coordinates keyword argument, findAt accepts as arguments a sequence of sequence of floats in the following format:
edges = e.findAt(((20.19686, -169.513997, 27.798593), ), ((19.657627, -167.295749, 27.056402), ), ((18.274129, -157.144741, 25.15218), ))
Optional argument
A Boolean specifying whether a message is to be printed to the CLI if no entity is found at the specified location. The default value is True.
Return value
An Edge object or a sequence of Edge objects.
Exceptions
This method returns an object or objects in the EdgeArray closest to the given set of points, where the given points need not lie on the edges in the EdgeArray.
Required argument
A sequence of a sequence of floats, where each sequence of floats describes the X-, Y-, and Z coordinates of a point.
r=e.getClosest(coordinates=((20.0,20.0,10.0),(-1.0, -15.0, 15),))r.keys()[0, 1]r[0](mdb.models['Model-1'].parts['Part-1'].edges[3], (15.7090625762939, 20.0, 10.0))
Optional arguments
Return value
This method returns a dictionary object. The key to the dictionary object is the position of the input point in the tuple specified in the coordinates starting at index 0. If a closest edge could be found then the value is a sequence consisting of two objects. The first object in the sequence is an Edge that is close to the input point referred to by the key. The second object in the sequence is a sequence of floats that specifies the X-, Y-, and Z location of the closest point on the Edge to the given point. See program listing above.
Exceptions
This method returns the object or objects in the EdgeArray identified using the specified mask. This command is generated when the JournalOptions are set to COMPRESSEDINDEX. When large number of objects are involved, this method is highly efficient.
Required argument
A String specifying the object or objects.
Optional arguments
Return value
An Edge object or a sequence of Edge objects.
Exceptions
An exception occurs if the resulting sequence is empty.