Flexible modeling using a weak type definition

The invention claimed is: 1. A non-transitory computer-readable memory storing a computer-implemented data structure, the data structure defining a three-dimensional (3D) model, the data structure being functional data for controlling operations for designing the three-dimensional model in a history-free CAD system, the data structure comprising: a first computing object, which is a generic feature independent of a feature type, the generic feature being unlinked to any geometric type or to any geometric operation and including no geometric parameter and no geometric operator, a second computing object, which is a delegated data object, the generic feature taking as input the delegated data object, the delegated data object comprising: input parameters specific to a geometric type of the delegated data object, and at least one operator specific to the geometric type of the delegated data object for generating an output topology, the input parameters allowing instantiation of the operator; and a third computing object, which is an output topology generated by the operator, the output topology being computed by the generic feature from the input delegated data object. 2. A computer-implemented method for designing a three-dimensional (3D) model in a history-free CAD system, comprising: obtaining a first data structure defining a first three-dimensional (3D) model, the first data structure including: a first computing object, which is a generic feature independent of a feature type, the generic feature being not linked to any geometric type or to any geometric operation and including no geometric parameter and no geometric operator, a second computing object, which is a first delegated data object, the generic feature taking as input the delegated data object, the delegated data object including: input parameters specific to a geometric type of the first delegated data object, and at least one operator specific to the geometric type of the first delegated data object for generating an output topology, the input parameters allowing instantiation of the operator, and a third computing object, which is a first output topology generated by the operator, the first output topology being computed by the generic feature from the input first delegated data object; modifying, upon user action, the first delegated data object; computing a second output topology as a result of the modification of the first data structure; determining whether a change of topology occurred by comparing of the first and second output topologies; and replacing the first delegated data object by a second delegated data object if a change of topology is determined between the first and second output topologies or keeping the first delegated data object if no change of topology is determined. 3. The computer-implemented method of claim 2 , wherein replacing the delegated data object by the second delegated data object includes: comparing the second output topology with a list of output topologies, each output topology of the list being associated with one delegated data object, and automatically selecting a third delegated data object as a result of the comparison, the third delegated data object being a delegated data object of the list with an associated output topology that is the same as the second output topology. 4. The computer-implemented method of claim 3 , further comprising, if no delegated data object of the list is selected as a result of the comparison: presenting to the user one or more one delegated data objects of the list having associated output topologies that are the closest to the second output topology, including one generic delegated data object, and receiving a selection by the user of one of the provided delegated data objects. 5. The computer-implemented method of claim 2 , wherein modifying, upon user action, the first delegated data object includes: modifying one or more input parameters of the first delegated data object; determining no topological change as a result of the comparison, and overwriting the input parameters of the first delegated data by the modified one or more input parameters. 6. The computer-implemented method of claim 2 , further comprising, after obtaining the first data structure: rendering the first output topology therefore forming a mesh, and modifying, upon user action, the mesh. 7. The computer-implemented method of claim 6 , wherein modifying the mesh includes: performing at least one operation selected among a scaling and a move; and wherein keeping the first delegated data object further includes generating the first output topology by the operator of the first delegated data object. 8. The computer-implemented method of claim 2 , wherein the first delegated data object and the first output topology form a base mesh. 9. The computer-implemented method of claim 2 , wherein replacing the first delegated data object by the second delegated data object further includes storing the second delegated data object as a new type. 10. A non-transitory computer readable storage medium having recorded thereon a computer program comprising instructions for performing a method of designing a three-dimensional (3D) model in a history-free CAD system, the method comprising: obtaining a first data structure defining a first three-dimensional (3D) model, the first data structure including: a first computing object, which is a generic feature independent of a feature type, the generic feature being not linked to any geometric type or to any geometric operation and including no geometric parameter and no geometric operator, a second computing object, which is a first delegated data object, the generic feature taking as input the delegated data object, the delegated data object including: input parameters specific to a geometric type of the first delegated data object, and at least one operator specific to the geometric type of the first delegated data object for generating an output topology, the input parameters allowing instantiation of the operator, and a third computing object, which is a first output topology generated by the operator, the first output topology being computed by the generic feature from the input first delegated data object; modifying, upon user action, the first delegated data object; computing a second output topology as a result of the modification of the first data structure; determining whether a change of topology occurred by comparing of the first and second output topologies; and replacing the first delegated data object by a second delegated data object if a change of topology is determined between the first and second output topologies or keeping the first delegated data object if no change of topology is determined. 11. The non-transitory computer readable storage medium of claim 10 , wherein replacing the delegated data object by the second delegated data object includes: comparing the second output topology with a list of output topologies, each output topology of the list being associated with one delegated data object, and automatically selecting a third delegated data object as a result of the comparison, the third delegated data object being a delegated data object of the list with an associated output topology that is the same as the second output topology. 12. The non-transitory computer readable storage medium of claim 11 , further comprising, if no delegated data object of the list is selected as a result of the comparison: presenting to the user one or more one delegated data objects of the list having associated output topologies that are the closest to the second output topol