Created: | 4/10/2008 12:16:12 PM |
Modified: | 5/28/2009 8:47:45 AM |
Project: | |
Advanced: |
Operation | ||
Public isMaximal():Boolean |
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Details:
sequential
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Element | Source Role | Target Role |
«type» GM_Complex Class |
Name: superComplex |
Name: subComplex |
Details:
subcomplex (of a larger complex)<br /></p><p>complex all of whose elements are also in the larger complex<br /></p><p><br /></p><p>NOTE: Since the definition of complex requires only that the boundary operator be closed, then the set of any primitives of a particular dimension and below is always a subcomplex of the original, larger complex. Thus, any full planar topological complex contains an edge-node graph as a subcomplex.<br /></p>
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«type» TP_Complex Class |
Name: geometry |
Name: topology |
Details:
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«type» GM_Primitive Class |
Name: complex |
Name: element |
Details:
A GM_Primitive may be in several GM_Complexes. See Clause 6.6.2.This association may not be navigable in this direction, depending on the application schema. <br /></p><p>GM_Primitive::complex [0..*] : Reference<GM_Complex><br /></p>
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Element | Source Role | Target Role |
«type» GM_Complex Class |
Name: superComplex |
Name: subComplex |
Details:
subcomplex (of a larger complex)<br /></p><p>complex all of whose elements are also in the larger complex<br /></p><p><br /></p><p>NOTE: Since the definition of complex requires only that the boundary operator be closed, then the set of any primitives of a particular dimension and below is always a subcomplex of the original, larger complex. Thus, any full planar topological complex contains an edge-node graph as a subcomplex.<br /></p>
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Tag | Value |
persistence | persistent |
Details:
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Object | Type | Connection | Notes |
«Abstract» GM_Boundary | Class | Realization | |
«type» GM_Composite | Class | Generalization | |
«type» GM_Object | Class | Generalization |