Difference between revisions of "NURBS TODO"
From BRL-CAD
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= Optimize BREP/NURBS ray tracing= | = Optimize BREP/NURBS ray tracing= | ||
| − | + | * Benefit: faster ray tracing runtime | |
| − | + | * References: | |
| − | + | ** src/librt/primitives/brep | |
| − | + | ** src/librt/opennurbs_ext.* | |
= Optimize BREP/NURBS prep= | = Optimize BREP/NURBS prep= | ||
| − | + | * Benefit: faster ray tracing runtime, user requested. | |
| − | + | ** src/librt/primitives/brep/brep.cpp:rt_brep_prep() | |
| − | + | ** src/librt/opennurbs_ext.* | |
=Implicit-to-NURBS= | =Implicit-to-NURBS= | ||
| − | + | Implement conversion of implicit primitives to BREP/NURBS primitives. Partially complete, primitives are fixed at origin, some primitives unimplemented. | |
| − | + | * Benefit: partial requirement for interactive visualization of implicit CSG geometry in OpenGL. | |
| − | |||
=BREP/NURBS-to-NMG= | =BREP/NURBS-to-NMG= | ||
| − | + | Implement conversion of BREP/NURBS to NMG. | |
| − | + | * Benefit: partial requirement for export and interactive visualization of BREP/NURBS in OpenGL. | |
=BSPLINE/NURBS review= | =BSPLINE/NURBS review= | ||
| − | + | Identify useful concepts implemented in the old BSPLINE/NURBS code that are not present in openNURBS. | |
| − | + | * Benefit: code reuse, potentially very useful functionality. | |
=BSPLINE/NURBS reuse= | =BSPLINE/NURBS reuse= | ||
| − | + | Port any useful BSPLINE/NURBS code to openNURBS data structures and routines. | |
| − | + | * Benefit: code reduction, allows the old BSPLINE/NURBS code to be removed after functionality is migrated. | |
=BREP/NURBS CSG evaluation= | =BREP/NURBS CSG evaluation= | ||
| − | + | Implement boolean evaluation of BREP/NURBS surfaces. | |
| − | + | * Benefit: partial requirement for interactive visualization of BREP/NURBS in OpenGL. | |
=Plate-mode BREP/NURBS= | =Plate-mode BREP/NURBS= | ||
| − | + | Implement plate mode BREP/NURBS objects. Similar, if not identical, to plate mode BoTs, 'brep' objects need the ability to have a thickness described so you could automatically handle non-solid NURBS and sheet-metal style geometry without requiring surface solidity. | |
| − | + | * Benefit: allows for import and visualization of BREP/NURBS surfaces that are not solid. | |
| − | |||
=Implicit CSG to BREP/NURBS CSG test scripts= | =Implicit CSG to BREP/NURBS CSG test scripts= | ||
| − | + | Develop test scripts for comparing conversion of implicit CSG to BREP/NURBS CSG | |
| − | + | * Benefit: provides validation and verification via ray tracing. | |
=BREP/NURBS documentation= | =BREP/NURBS documentation= | ||
| − | + | Document the new BREP/NURBS primitive. | |
| − | + | * Benefit: provides user documentation explaining capabilities, limitations, and benefits. | |
=Cache objects= | =Cache objects= | ||
| − | + | Implement data cache objects. Create new LIBRT API routines for storing cache data in a v5 container. This would amount to storing binary data into a 'binunif' object marked as hidden with attributes for date/time stamping and MD5 or SHA256 checksumming. | |
| − | + | * Benefit: faster ray tracing runtime, applicable to other primitives (NMG, BoT). | |
| − | |||
=Cache prep results= | =Cache prep results= | ||
| − | + | Cache BREP/NURBS prep results to a specified cache file. | |
| − | + | * Benefit: faster ray tracing runtime for BREP/NURBS, user requested. | |
=BREP/NURBS wireframe= | =BREP/NURBS wireframe= | ||
| − | + | Improve BREP/NURBS wireframe. Investigate using knots on subcurves. | |
| − | + | * Benefit: faster wireframe, more detailed close wireframes. | |
= BREP/NURBS source code cleanup= | = BREP/NURBS source code cleanup= | ||
| − | + | Consolidate Owens and Reeves approaches to ray intersection. | |
| − | + | * Benefit: improved code maintainability. | |
= BREP/NURBS healing= | = BREP/NURBS healing= | ||
| − | + | Implement an rt_heal(rt_db_internal *dbi); routine. | |
| − | + | * The routine tightens up trimming curves and edge/vertex pairings so that they align perfectly while still preserving the topological structure. | |
= BREP/NURBS for analysis purpose report= | = BREP/NURBS for analysis purpose report= | ||
Revision as of 16:08, 14 February 2011
Contents
- 1 Optimize BREP/NURBS ray tracing
- 2 Optimize BREP/NURBS prep
- 3 Implicit-to-NURBS
- 4 BREP/NURBS-to-NMG
- 5 BSPLINE/NURBS review
- 6 BSPLINE/NURBS reuse
- 7 BREP/NURBS CSG evaluation
- 8 Plate-mode BREP/NURBS
- 9 Implicit CSG to BREP/NURBS CSG test scripts
- 10 BREP/NURBS documentation
- 11 Cache objects
- 12 Cache prep results
- 13 BREP/NURBS wireframe
- 14 BREP/NURBS source code cleanup
- 15 BREP/NURBS healing
- 16 BREP/NURBS for analysis purpose report
- 17 Analytic comparison of BREP/NURBS and BoT
- 18 Analytic comparison of BREP/NURBS CSG and implicit CSG
Optimize BREP/NURBS ray tracing
- Benefit: faster ray tracing runtime
- References:
- src/librt/primitives/brep
- src/librt/opennurbs_ext.*
Optimize BREP/NURBS prep
- Benefit: faster ray tracing runtime, user requested.
- src/librt/primitives/brep/brep.cpp:rt_brep_prep()
- src/librt/opennurbs_ext.*
Implicit-to-NURBS
Implement conversion of implicit primitives to BREP/NURBS primitives. Partially complete, primitives are fixed at origin, some primitives unimplemented.
- Benefit: partial requirement for interactive visualization of implicit CSG geometry in OpenGL.
BREP/NURBS-to-NMG
Implement conversion of BREP/NURBS to NMG.
- Benefit: partial requirement for export and interactive visualization of BREP/NURBS in OpenGL.
BSPLINE/NURBS review
Identify useful concepts implemented in the old BSPLINE/NURBS code that are not present in openNURBS.
- Benefit: code reuse, potentially very useful functionality.
BSPLINE/NURBS reuse
Port any useful BSPLINE/NURBS code to openNURBS data structures and routines.
- Benefit: code reduction, allows the old BSPLINE/NURBS code to be removed after functionality is migrated.
BREP/NURBS CSG evaluation
Implement boolean evaluation of BREP/NURBS surfaces.
- Benefit: partial requirement for interactive visualization of BREP/NURBS in OpenGL.
Plate-mode BREP/NURBS
Implement plate mode BREP/NURBS objects. Similar, if not identical, to plate mode BoTs, 'brep' objects need the ability to have a thickness described so you could automatically handle non-solid NURBS and sheet-metal style geometry without requiring surface solidity.
- Benefit: allows for import and visualization of BREP/NURBS surfaces that are not solid.
Implicit CSG to BREP/NURBS CSG test scripts
Develop test scripts for comparing conversion of implicit CSG to BREP/NURBS CSG
- Benefit: provides validation and verification via ray tracing.
BREP/NURBS documentation
Document the new BREP/NURBS primitive.
- Benefit: provides user documentation explaining capabilities, limitations, and benefits.
Cache objects
Implement data cache objects. Create new LIBRT API routines for storing cache data in a v5 container. This would amount to storing binary data into a 'binunif' object marked as hidden with attributes for date/time stamping and MD5 or SHA256 checksumming.
- Benefit: faster ray tracing runtime, applicable to other primitives (NMG, BoT).
Cache prep results
Cache BREP/NURBS prep results to a specified cache file.
- Benefit: faster ray tracing runtime for BREP/NURBS, user requested.
BREP/NURBS wireframe
Improve BREP/NURBS wireframe. Investigate using knots on subcurves.
- Benefit: faster wireframe, more detailed close wireframes.
BREP/NURBS source code cleanup
Consolidate Owens and Reeves approaches to ray intersection.
- Benefit: improved code maintainability.
BREP/NURBS healing
Implement an rt_heal(rt_db_internal *dbi); routine.
- The routine tightens up trimming curves and edge/vertex pairings so that they align perfectly while still preserving the topological structure.
