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merge into: OpenCMT:main
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OpenCMT:main OpenCMT:fix-properties OpenCMT:gea-devel OpenCMT:fix-context OpenCMT:fix-assembly OpenCMT:andrea-dev OpenCMT:andrea-geo OpenCMT:serialization OpenCMT:andrea-alg OpenCMT:beam_tracer OpenCMT:devel
OpenCMT:v0.5.3 OpenCMT:v0.5.2 OpenCMT:v0.5.1 OpenCMT:v.0.4.1 OpenCMT:v.0.3.1 OpenCMT:v.0.2.1 OpenCMT:v1.0.0
...
pull from: OpenCMT:fix-properties
Branches Tags
OpenCMT:fix-properties OpenCMT:gea-devel OpenCMT:fix-context OpenCMT:fix-assembly OpenCMT:andrea-dev OpenCMT:andrea-geo OpenCMT:serialization OpenCMT:andrea-alg OpenCMT:main OpenCMT:beam_tracer OpenCMT:devel
OpenCMT:v0.5.3 OpenCMT:v0.5.2 OpenCMT:v0.5.1 OpenCMT:v.0.4.1 OpenCMT:v.0.3.1 OpenCMT:v.0.2.1 OpenCMT:v1.0.0

151 Commits
main ... fix-proper

Author SHA1 Message Date
AndreaRigoni
1e763f7751 refactor: update SmartPointer default constructor to initialize as null and add comprehensive documentation 2026-04-24 08:10:16 +00:00
AndreaRigoni
54289cc617 test: increase VoxImage test resolution and add round-trip VTI export/import validation 2026-04-24 07:43:04 +00:00
AndreaRigoni
2bf3dc0b6d refactor: improve ContainerBox geometry handling and add missing signal disconnections to prevent memory leaks. 2026-04-21 14:06:35 +00:00
AndreaRigoni
503c325f9a refactor: decouple SmartPointer reference counting 2026-04-19 11:23:09 +00:00
AndreaRigoni
b82a151330 test: expand SmartPointer and thread affinity test coverage and update build preset 2026-04-19 11:22:41 +00:00
AndreaRigoni
61888d36f5 refactor: replace raw object pointers with SmartPointer in ObjectsContext and update dependent codebases 2026-04-19 11:22:41 +00:00
AndreaRigoni
c62ed483f1 feat: implement type-safe ReferenceProperty for SmartPointer fields and add UI support for object selection via context-aware dropdowns 2026-04-19 11:22:11 +00:00
AndreaRigoni
d771269efa docs: refactor and promote object context documentation to dedicated guide 2026-04-19 11:21:47 +00:00
AndreaRigoni
16ae404d66 add context skill 2026-04-19 11:21:11 +00:00
AndreaRigoni
eaed476614 docs: add agent skill guides and update CMake build instructions 2026-04-19 11:20:49 +00:00
AndreaRigoni
c06e9eb34f Restore legacy default allocation behavior in SmartPointer default constructor to fix crashes in tests 2026-04-19 11:19:37 +00:00
AndreaRigoni
3e17ebaea3 feat: add Boost serialization support for SmartPointer and include standard smart pointer headers 2026-04-19 11:18:10 +00:00
AndreaRigoni
2881a4453f Merge branch 'fix-context' into fix-properties 2026-04-19 10:58:07 +00:00
AndreaRigoni
a3d0a1c28c refactor: decouple SmartPointer reference counting 2026-04-18 19:22:23 +00:00
AndreaRigoni
ab886422bf test: expand SmartPointer and thread affinity test coverage and update build preset 2026-04-18 18:02:49 +00:00
AndreaRigoni
390fc44043 refactor: replace raw object pointers with SmartPointer in ObjectsContext and update dependent codebases 2026-04-17 13:28:24 +00:00
AndreaRigoni
506b8f037f feat: implement type-safe ReferenceProperty for SmartPointer fields and add UI support for object selection via context-aware dropdowns 2026-04-17 13:20:21 +00:00
AndreaRigoni
ec2d437819 docs: refactor and promote object context documentation to dedicated guide 2026-04-17 12:33:37 +00:00
AndreaRigoni
79c5bbf2f6 fix: preserve absolute compiler paths in CMakeLists.txt and update presets to use absolute paths 2026-04-17 12:17:39 +00:00
AndreaRigoni
460ea3b8ba fix: enforce absolute compiler paths in CMake and update environment configurations to prevent conan_toolchain overrides 2026-04-17 12:17:33 +00:00
AndreaRigoni
ada911ba0c add context skill 2026-04-17 12:17:28 +00:00
AndreaRigoni
bca63a7fc8 docs: add agent skill guides and update CMake build instructions 2026-04-17 09:36:24 +00:00
AndreaRigoni
1288fc3a41 fix container box representation ( fix it ) 2026-04-17 09:36:10 +00:00
AndreaRigoni
197beba19b updated tests 2026-04-17 09:35:43 +00:00
AndreaRigoni
41503c7e44 refactor: update vtkContainerBox test to use GetWrapped instead of get method 2026-04-16 15:44:23 +00:00
AndreaRigoni
64bfd92e34 refactor: update Geant scene visualization to use PhysicalVolumes instead of raw Solids for improved placement and context handling. 2026-04-16 15:13:10 +00:00
AndreaRigoni
e4379811a3 Restore legacy default allocation behavior in SmartPointer default constructor to fix crashes in tests 2026-04-16 15:13:10 +00:00
AndreaRigoni
cbb9aa1139 feat: add Boost serialization support for SmartPointer and include standard smart pointer headers 2026-04-16 15:12:57 +00:00
AndreaRigoni
0b553c0db7 refactor: introduce PhysicalVolume class and update Geant scene hierarchy to use logical and physical volumes 2026-04-16 14:16:09 +00:00
AndreaRigoni
d9f1b35fd2 feat: add Boost serialization support for SmartPointer and include standard smart pointer headers 2026-04-16 11:30:50 +00:00
AndreaRigoni
987d783fdb starting udate geant sloid 2026-04-16 11:07:06 +00:00
AndreaRigoni
83af9a180f wrapper fix 2026-04-16 11:05:26 +00:00
AndreaRigoni
865282aefc refactor: improve Geant4 solid synchronization and update documentation for VTK integration 2026-04-16 06:51:16 +00:00
AndreaRigoni
24ec326715 feat: implement configurable font settings for VTK viewports and GUI elements with persistent preferences. 2026-04-15 14:50:46 +00:00
AndreaRigoni
bf4006ff91 feat: add TRS serialization and display property support to MultiSelectionProp 2026-04-10 21:44:18 +00:00
AndreaRigoni
e320c932d2 feat: implement MultiSelectionProp to support grouped object transformation and selection in Viewport 2026-04-10 20:42:24 +00:00
AndreaRigoni
f8f92ebf3d feat: add Preferences dialog for managing theme, rendering, and unit settings 2026-04-10 18:12:05 +00:00
AndreaRigoni
e8c10daf6d feat: add HighlightCorners mode to Prop3D and document Prop3D class functionality 2026-04-10 17:13:00 +00:00
AndreaRigoni
22262d3dc6 refactor: improve Object property management with duplicate prevention, memory cleanup, and updated VTK interface tests 2026-04-10 12:18:15 +00:00
AndreaRigoni
dfd33e9a9c refactor: unify Object signal system, update property connections, and integrate Eigen3 into Root module 2026-04-09 16:27:58 +00:00
AndreaRigoni
76f29328cd refactor: improve vtkContainerBox constructor flexibility and clean up code formatting 2026-04-09 12:48:14 +00:00
AndreaRigoni
db76513e79 refactor: migrate vtk classes to use ObjectWrapper for model management and update registration logic 2026-04-09 10:38:45 +00:00
AndreaRigoni
64a87e97e3 refactor: modernize SmartPointer with thread-safe reference counting, move semantics, and custom deleter support, and add corresponding unit test. 2026-04-09 09:18:50 +00:00
AndreaRigoni
f7ba4b1a17 refactor: rename Puppet class to Prop3D across the codebase 2026-04-08 15:47:33 +00:00
AndreaRigoni
77f00a2b8a refactor: rename Vtk classes by removing the vtk prefix to follow project naming conventions 2026-04-08 15:14:55 +00:00
AndreaRigoni
8a01ee7f40 refactor: simplify vtkContainerBox transform logic by removing redundant affine matrix and updating synchronization methods 2026-04-08 13:37:38 +00:00
AndreaRigoni
03a3130855 feat: add VS Code debugging configuration and environment dependencies for gcompose 2026-04-08 08:21:13 +00:00
AndreaRigoni
3af983a955 fix skills rules 2026-04-08 07:31:47 +00:00
AndreaRigoni
e0fb2f4dae refactor: unify vtkBoxSolid architecture with Puppet base and update build documentation 2026-04-03 16:44:00 +00:00
AndreaRigoni
74ba67f072 refactor: update compiler flag handling in CMake and ignore build log files 2026-04-03 14:32:21 +00:00
AndreaRigoni
7d72f825ae fixed warnings 2026-04-03 13:22:52 +00:00
AndreaRigoni
148c046a02 fix warnings 2026-04-03 13:09:08 +00:00
AndreaRigoni
bb24f13fba fix compile errors in uLib env 2026-04-03 12:58:36 +00:00
AndreaRigoni
9d6301319b separate display properties from properties 2026-04-03 10:17:40 +00:00
AndreaRigoni
ea1aec04bd fix EXPAT::EXPAT-NOTFOUND when building with Geant4 on conda 
Geant4's G4EXPATShim creates EXPAT::EXPAT (uppercase) with
IMPORTED_LOCATION set to ${EXPAT_LIBRARY}, which is empty when EXPAT
is found via conda's config-mode package (expat::expat, lowercase).

After find_package(Geant4), patch EXPAT::EXPAT with the real library
path taken from expat::expat IMPORTED_LOCATION_NOCONFIG, falling back
to find_library if needed.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-03 10:17:40 +00:00
AndreaRigoni
7f558f4f30 switch to Ninja+ccache, add clang/lld fast build profile 
- CMakePresets.json: add 'fast' preset (clang+lld+ccache)
- .gitignore: generalize build/ to build*/, add CMakeUserPresets.json
- CMakeUserPresets.json: untrack (conan-generated, now gitignored)
- src/Core/Archives.h: remove redundant 'using basic_xml_iarchive::load_override'
  in xml_iarchive; caused ambiguous overload with clang (diamond inheritance)
- src/Core/Object.cpp: remove invalid explicit instantiations of non-template
  virtual Object::serialize (GCC extension, clang rejects)
- README.md, CLAUDE.md: document GCC and LLVM/clang build workflows

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-03 10:17:40 +00:00
AndreaRigoni
a6a1539663 refactor: extend Object property system and implement recursive property discovery in Vtk::Puppet archive 2026-04-03 08:54:37 +00:00
AndreaRigoni
6396bdfebf feat: add projection toggle button to switch between perspective and orthographic views 2026-04-02 14:42:38 +00:00
AndreaRigoni
96ab3b0930 fix: restore ULIB_ACTIVATE_DISPLAY_PROPERTIES to vtkVoxImage constructor 2026-04-02 14:32:39 +00:00
AndreaRigoni
5c04d00d4c refactor: remove redundant UpdateGrid call from QViewport::Render and add Claude configuration settings 2026-04-02 14:30:31 +00:00
AndreaRigoni
72e69cfca5 test: add unit test for vtkQViewport and register in CMakeLists.txt 2026-04-02 14:27:49 +00:00
AndreaRigoni
59a9e829fc refactor: enhance vtkVoxImage volume rendering with dynamic shader range scaling, improved transfer function management, and synchronized VTK property updates. 2026-04-02 14:08:32 +00:00
AndreaRigoni
6068b62e39 refactor: replace HRP with NVP in Cylinder serialization and add stream operators for TRS 2026-04-02 11:56:25 +00:00
AndreaRigoni
4435776484 refactor: standardize object type identification using uLibTypeMacro and update serialization macros 2026-04-02 10:33:14 +00:00
AndreaRigoni
a1c5fc2600 refactor: remove Math library build configuration and add support for BoxSolid in vtkObjectsContext 2026-04-01 20:30:21 +00:00
AndreaRigoni
9118afdd13 fix serialization for properties unintrusive 2026-04-01 19:59:37 +00:00
AndreaRigoni
8e6e332217 feat: implement Geant Material class, add object registration, and update PropertyWidget signal handling and read-only state 2026-04-01 11:13:47 +00:00
AndreaRigoni
e1bd7eb44f feat: implement serialization read_only 2026-04-01 11:13:28 +00:00
AndreaRigoni
c0c25de694 feat: add Geant material management classes and enhance serialization macros for NVP and HRP support 2026-04-01 08:46:09 +00:00
AndreaRigoni
34f834d370 feat: add NotifyPropertiesUpdated to Object and trigger on Transform changes for UI synchronization 2026-03-31 17:05:17 +00:00
AndreaRigoni
f3274f346b refactor: prevent update loops in vtkCylinder by tracking connection and blocking signals during sync 2026-03-31 16:32:43 +00:00
AndreaRigoni
d4fd2d3914 refactor: update transformation system, improve template readability, and reorganize VTK assembly management 2026-03-31 16:04:03 +00:00
AndreaRigoni
22d0041942 refactor: update Puppet transform logic to support AffineTransform world matrices and improve selection highlighting 2026-03-30 15:24:37 +00:00
AndreaRigoni
46c39bc26e add assembly to gcompose, not working yet 2026-03-27 16:55:26 +00:00
AndreaRigoni
171a07eb79 add min max def to properties 2026-03-27 15:46:16 +00:00
AndreaRigoni
fa7c0f670e fix display of cylinder 2026-03-27 15:23:59 +00:00
AndreaRigoni
e40cc77a5f fix numeric unit conversion in widget 2026-03-27 15:17:54 +00:00
AndreaRigoni
038c6f99f4 fixed most ( still units error ) 2026-03-27 15:02:17 +00:00
AndreaRigoni
93e5602562 transform properties 2026-03-27 02:43:30 +00:00
AndreaRigoni
09859e872c fix build 2026-03-27 01:49:27 +00:00
AndreaRigoni
2a6dcf02bd add properties groups 2026-03-26 23:13:43 +00:00
AndreaRigoni
e0ffeff5b7 fix some on properties and signal connection 2026-03-26 09:50:52 +00:00
AndreaRigoni
2c5d6842c3 add assembly 2026-03-25 22:48:04 +00:00
AndreaRigoni
422113a0e9 add vtk solids 2026-03-25 21:03:13 +00:00
AndreaRigoni
e4a8499104 fixed errors 2026-03-25 20:30:46 +00:00
AndreaRigoni
6a65fe94c8 add vtk geant solid and scene 2026-03-25 18:47:52 +00:00
AndreaRigoni
7d4acaef6d refactor using pimpl and fix test 2026-03-25 16:18:07 +00:00
AndreaRigoni
a467b7385b monitor and threads 2026-03-25 11:04:37 +00:00
AndreaRigoni
0c8ef7337c threads and monitor 2026-03-25 10:40:13 +00:00
AndreaRigoni
913a1f7b3a move vtk containerbox in math 2026-03-25 10:37:38 +00:00
AndreaRigoni
5397baa50c add quit to gcompose 2026-03-24 17:46:08 +00:00
AndreaRigoni
51e6dbb4f5 add cylinder 2026-03-24 15:22:50 +00:00
AndreaRigoni
b45cde0bad fix transforms from handler 2026-03-24 11:36:46 +00:00
AndreaRigoni
f13342ff30 vtkProperties 2026-03-23 17:46:42 +00:00
AndreaRigoni
5d0efb3078 add vtk Properties 2026-03-23 15:09:35 +00:00
AndreaRigoni
94843de711 property - first attempt 2026-03-23 12:55:09 +00:00
AndreaRigoni
b52ae808b8 qcanvas passage 2026-03-22 13:55:06 +00:00
AndreaRigoni
d87f3a984e refactor: Enhance VTK puppet lifecycle management by explicitly handling puppet removal and synchronizing puppets across all viewports, and remove default scene objects from startup. 2026-03-22 13:20:44 +00:00
AndreaRigoni
324aaa91b7 attach vtk context to gcompose 2026-03-22 12:18:33 +00:00
AndreaRigoni
a8f786d8d1 add context panel 2026-03-21 20:14:29 +00:00
AndreaRigoni
add9d37aea Add Geometries 2026-03-21 19:43:56 +00:00
AndreaRigoni
0bff36f8ba context in core 2026-03-21 16:30:56 +00:00
AndreaRigoni
cd95f16221 fix name in gcompose 2026-03-21 16:30:38 +00:00
AndreaRigoni
bbd7493d9f add QCanvas Root and viewport pane in gcompose 2026-03-21 15:41:58 +00:00
AndreaRigoni
033fb598c7 add detector simulation 2026-03-20 00:16:55 +00:00
AndreaRigoni
c44a7738c0 make scene able to run parallel simulations 2026-03-19 21:51:38 +00:00
AndreaRigoni
85e1f1448f feat: Implement new MIP Rainbow and Additive rendering presets and add interactive test controls. 2026-03-19 16:44:00 +00:00
AndreaRigoni
6234dffaa7 add voximage represetation and test 2026-03-19 16:39:05 +00:00
AndreaRigoni
80952cc706 add cylinder emitter 2026-03-19 16:19:36 +00:00
AndreaRigoni
ae27e9d46d add cylinder 2026-03-19 16:03:57 +00:00
AndreaRigoni
a8a313e5cf added skyplaneEmitter 2026-03-19 15:45:48 +00:00
AndreaRigoni
7c8c7beae4 add ecomug 2026-03-19 14:57:26 +00:00
AndreaRigoni
a8c0d5edc2 handler toggle 1,2,3 keys 2026-03-19 14:28:20 +00:00
AndreaRigoni
dbb5f24933 fix zoom to selected 2026-03-19 14:18:31 +00:00
AndreaRigoni
1e6e3ae4f4 emitter representation 2026-03-19 13:57:10 +00:00
AndreaRigoni
ca5f576b99 add triangle mesh affine transform 2026-03-19 13:11:49 +00:00
AndreaRigoni
4cb4560921 qadmesh affine transform parenting 2026-03-19 12:54:31 +00:00
AndreaRigoni
887b3b36f0 add lambda connection 2026-03-19 12:51:37 +00:00
AndreaRigoni
2f163a762c make test fix test wiht correct units 2026-03-19 10:42:14 +00:00
AndreaRigoni
12657167f1 add detector chamber projection plane representation in vtk 2026-03-19 10:21:01 +00:00
AndreaRigoni
c265adadfc fix transform adding pre-translation 2026-03-19 10:20:33 +00:00
AndreaRigoni
c8eec163a6 projection plane on local coordinates 2026-03-19 09:52:19 +00:00
AndreaRigoni
ca2223e04c detector chamber 2026-03-19 09:46:36 +00:00
AndreaRigoni
176a82f108 add zoom to selected 2026-03-18 23:35:51 +00:00
AndreaRigoni
3b02bb26ac refactor: Simplify vtkDetectorChamber by removing redundant transform management and improve vtkHandlerWidget rotation calculation using ray-plane intersection. 2026-03-18 23:08:22 +00:00
AndreaRigoni
a9b66a4e12 add grid annotation 2026-03-18 21:44:29 +00:00
AndreaRigoni
cca29ef837 fixed vtk containerbox handler 2026-03-18 21:32:33 +00:00
AndreaRigoni
0e8ac47fcf grid axis 2026-03-18 07:23:58 +00:00
AndreaRigoni
92a06f6274 activate grid button and widget size 2026-03-17 22:56:56 +00:00
AndreaRigoni
553bb7fd61 widget in viewport 2026-03-17 17:28:26 +00:00
AndreaRigoni
bc437a3913 fix segfault 2026-03-17 15:47:27 +00:00
AndreaRigoni
e6e0bccffb split viewport for Qt and VtkViewer 2026-03-17 15:29:07 +00:00
AndreaRigoni
4569407d18 add vtkHandlerWidget 2026-03-17 11:13:35 +00:00
AndreaRigoni
d8ef413216 vtkGeantEvent 2026-03-16 17:51:53 +00:00
AndreaRigoni
c63a1ae047 geant events for multiple scattering 2026-03-14 23:33:31 +00:00
AndreaRigoni
692cdf7ae3 add Geant namespace 2026-03-14 14:01:44 +00:00
AndreaRigoni
e5dfb75262 add Normals to meshes 2026-03-14 13:23:28 +00:00
AndreaRigoni
35e4fb949d fix tests 2026-03-14 12:28:40 +00:00
AndreaRigoni
20d4967356 add quadmesh 2026-03-14 10:28:16 +00:00
AndreaRigoni
6bf9eaf309 add Qt viewport 2026-03-13 22:36:52 +00:00
AndreaRigoni
a142c5d060 add units 2026-03-13 21:40:14 +00:00
AndreaRigoni
61052f80bc add geant4 scene and gcompose app 2026-03-13 17:19:51 +00:00
AndreaRigoni
f2133c31d5 DetectorChamber vtk handler 2026-03-10 08:18:17 +00:00
AndreaRigoni
00275ac56d vtk camera position widget on viewer 2026-03-08 16:51:39 +00:00
AndreaRigoni
1374821344 added gizmo but not yet working 2026-03-08 10:21:38 +00:00
AndreaRigoni
2548582036 attach a widget (not working well yet) 2026-03-08 09:42:28 +00:00
AndreaRigoni
32a1104769 detector chamber in vtk 2026-03-08 08:46:21 +00:00
AndreaRigoni
3be7ec2274 add stl test 2026-03-08 08:05:22 +00:00
AndreaRigoni
38dd416ced vix raytracer representation 2026-03-07 09:07:07 +00:00
AndreaRigoni
e8f8e96521 reorganization of sources, moving cmt pertaining structures into HEP folder 2026-03-07 08:58:31 +00:00
AndreaRigoni
49cf0aeedd feat: disable camera spin/inertia by introducing a custom interactor style.r 2026-03-06 17:31:29 +00:00
307 changed files with 25075 additions and 3738 deletions
Expand all files Collapse all files

9
.agents/rules/context_exclude_vtk.md Normal file
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@@ -0,0 +1,9 @@
---
trigger: manual
---
# Context Restriction: No VTK
When this rule is active, restrict the operational context to libraries excluding the VTK layer.
- **Exclude Path**: `src/Vtk`
- **Include Paths**: `src/Core`, `src/Math`, `src/HEP`, `src/Root`, `src/Python`, `src/utils`
- **Focus**: Tomographic reconstruction algorithms, data structures in `Core`, and physical modeling in `HEP`.
- **Constraint**: Avoid referencing `Prop3D`, `Viewport`, or any VTK-specific headers unless the user overrides this restriction.

9
.agents/rules/context_gcompose.md Normal file
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@@ -0,0 +1,9 @@
---
trigger: manual
---
# Context Focus: gcompose Application
When this rule is active, prioritize the `gcompose` GUI application.
- **Primary Path**: `app/gcompose`
- **Focus**: `MainPanel`, `ContextPanel`, `PropertiesPanel`, and `ViewportPane`.
- **Integration**: Wiring of Qt signals/slots between the `uLib` core model and the GUI widgets.
- **Dependency**: Reference `src/Vtk` and `src/Core` as the underlying framework for the application.

9
.agents/rules/context_vtk.md Normal file
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@@ -0,0 +1,9 @@
---
trigger: always_on
---
# Context Inclusion: VTK
When this rule is active, include the VTK visualization layer in the operational context.
- **Priority Path**: `src/Vtk`
- **Focus**: `Prop3D` hierarchy, `Viewport` management, and the synchronization between domain objects and VTK props.
- **Key Classes**: `vtkViewport`, `vtkQViewport`, `vtkObjectsContext`, and all classes in `src/Vtk/HEP/Geant`.
- **Logic**: Ensure transformations (TRS) applied to domain objects are correctly mirrored in the visualization layer and vice versa.

44
.agents/rules/micromamba_build.md Normal file
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@@ -0,0 +1,44 @@
---
trigger: always_on
---
# Rule: Build uLib with Micromamba
This rule provides instructions for building the uLib project using the micromamba environment.
## Context
- **Environment**: micromamba `uLib`
- **Output Directory**: `build`
- **CPU Usage**: All available cores
## Instructions
1. **Environment Setup**:
Ensure micromamba is properly initialized and the `uLib` environment is active.
```bash
export MAMBA_EXE="/home/share/micromamba/bin/micromamba"
export MAMBA_ROOT_PREFIX="/home/share/micromamba"
export PRESET="clang-debug"
eval "$(${MAMBA_EXE} shell hook --shell bash)"
micromamba activate uLib
```
2. **Full Rebuild (if needed)**:
If the `build` directory does not exist or a full reconfiguration is required:
```bash
conan install . --output-folder=build/${PRESET} --build=missing --profile=fast
cmake --preset ${PRESET}
cmake --build build/${PRESET} -j$(nproc)
```
3. **Incremental Build**:
Run the build command from the root directory, pointing to the `build` folder and using all cores.
```bash
cmake --build build/${PRESET} -j$(nproc)
```
4. **Specific Target Build - gcompose**:
To build a specific target (e.g., gcompose):
```bash
cmake --build build/${PRESET} --target gcompose -j$(nproc)
```

49
.agents/skills/core_system.md Normal file
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# Skill: Core Object & Property System
This skill defines the patterns for implementing and working with the `uLib` core object model.
## Context
- **Base Class**: `uLib::Object`
- **Property System**: `uLib::Property<T>`
- **Registration**: All objects must register their properties for UI visibility and serialization.
## Implementation Patterns
### 1. Defining an Object
Inherit from `uLib::Object` and use the `ULIB_PROPERTY` macro for members.
```cpp
class MyObject : public uLib::Object {
public:
ULIB_PROPERTY(double, Speed, 0.0)
ULIB_PROPERTY(std::string, Description, "None")
MyObject() {
// Required for property visibility in PropertyEditor
ULIB_ACTIVATE_PROPERTIES(*this)
}
};
```
### 2. Property Access
Properties can be treated like their underlying types or accessed via `.Get()`/`.Set()`.
```cpp
obj.Speed = 10.5; // Triggers Updated() signal
double s = obj.Speed; // Implicit conversion
obj.Speed.SetRange(0.0, 100.0); // Setting metadata
```
### 3. Serialization
Implement `serialize` overloads for different archive types. Use `hrp` (Human Readable Property) to name fields.
```cpp
template <class ArchiveT>
void serialize(ArchiveT &ar, const unsigned int version) {
ar & boost::serialization::make_nvp("InstanceName", this->GetInstanceName());
ar & boost::serialization::make_hrp("Speed", Speed, "m/s");
}
```
## Checklist
- [ ] Inherit from `uLib::Object`.
- [ ] Use `ULIB_PROPERTY` for members that should appear in the GUI.
- [ ] Call `ULIB_ACTIVATE_PROPERTIES` in the constructor.
- [ ] Implement `serialize` if persistence is required.

39
.agents/skills/geant_simulation.md Normal file
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@@ -0,0 +1,39 @@
# Skill: HEP/Geant Simulation Rules
This skill provides instructions for developing the Geant4 simulation components within `uLib`.
## Context
- **Domain Objects**: `Material`, `Solid`, `LogicalVolume`, `PhysicalVolume`.
- **Integration**: `mutomGeant` library wraps Geant4 classes into `uLib::Object`s.
## Patterns
### 1. Adding a New Solid
New solids must implement `GetPolyhedron()` to support VTK visualization.
```cpp
G4Polyhedron* MySolid::GetPolyhedron() const {
// Return the tessellated representation of the Geant4 solid
return m_G4Solid->GetPolyhedron();
}
```
### 2. Physical Volume Hierarchy
Maintain the relationship between `PhysicalVolume` and its parent `LogicalVolume`.
```cpp
auto* world = new LogicalVolume(worldSolid, worldMat);
auto* detector = new PhysicalVolume(detectorLogic, world, "Detector1");
detector->SetPosition({0, 0, 100}); // Relative to parent
```
### 3. Transformation Synchronization
Use the centralized `TRS` object to manage position and rotation. Synchronization with Geant4's internal stores should be reactive.
- Listen to `Object::Updated` on the `Solid` or `PhysicalVolume`.
- Update the underlying `G4VPhysicalVolume` position/rotation.
## Material Management
Use the `Matter` class to manage Geant4 materials. Ensure materials are registered in the `G4NistManager` or custom material store if needed.
## Checklist
- [ ] Does the solid implement `GetPolyhedron()`?
- [ ] Are parents correctly assigned in `PhysicalVolume` constructors?
- [ ] Is the `TRS` object used for all spatial transformations?

40
.agents/skills/memory_management.md Normal file
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@@ -0,0 +1,40 @@
# Skill: Memory Management & Object Lifecycle
This skill provides guidelines for managing memory safely within the `uLib` framework to prevent memory corruption and leaks.
## Context
- **Ownership**: `ObjectsContext` typically owns its children.
- **Shared Access**: Use `SmartPointer<T>` for objects shared across multiple systems (e.g., Geant4 and VTK).
- **Core Principle**: Avoid manual `delete` on objects managed by the framework.
## Patterns
### 1. Context Ownership
When an object is added to an `ObjectsContext`, it is managed by that context.
```cpp
auto* context = new ObjectsContext();
auto* obj = new MyObject();
context->AddObject(obj);
// Do NOT delete obj; it will be deleted when context is destroyed.
```
### 2. Smart Pointers
Use `SmartPointer<T>` for resources like `Material` or `Solid` that are used by both domain logic and external engines (Geant4).
```cpp
uLib::SmartPointer<Material> mat = new Material("Lead");
solid->SetMaterial(mat); // Shared ownership
```
### 3. Geant4 Object Safety
Geant4 often takes ownership of certain objects (like `G4VPhysicalVolume`). When wrapping these:
- Ensure the wrapper doesn't double-free the Geant4-owned pointer.
- Use `recursion_guard` if synchronizing transformations between `uLib::Object` and Geant4 volumes to prevent signal loops.
## Debugging Memory Issues
- **SIGABRT (invalid pointer)**: Usually caused by deleting an object that was already managed (and deleted) by an `ObjectsContext` or `SmartPointer`.
- **Leaks**: Check if objects were created but never added to a context or wrapped in a `SmartPointer`.
## Checklist
- [ ] Are objects added to an `ObjectsContext`?
- [ ] Is `SmartPointer` used for shared resources?
- [ ] Is there a risk of double-freeing Geant4-managed pointers?

29
.agents/skills/object_context.md Normal file
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@@ -0,0 +1,29 @@
# Skill: Object Context & Scene Management
Guidelines for managing the `uLib` object hierarchy, Geant4 volume instantiation, and Gcompose scene interaction.
## 1. Object Creation & Context
- **Factory Pattern**: Always use `ObjectFactory` to instantiate objects from the registry. Avoid direct `new` calls for domain objects to ensure proper metadata and property initialization.
- **Context Ownership**: The `Context` is the source of truth. Every persistent object must be registered within the `Context` to participate in the tree hierarchy, property system, and serialization.
## 2. Geant4: Logical vs. Physical Volumes
In the Geant4/HEP domain, visibility and placement follow a strict two-tier hierarchy:
- **LogicalVolume**: Defines **what** the object is (Solid/Shape, Material, and daughter volumes). It is a template and does **not** have a spatial position.
- **PhysicalVolume**: Defines **where** and **how** an instance exists. It references a `LogicalVolume` and holds the **TRS** (Translation, Rotation Matrix/Scale).
- **CRITICAL**: Adding a `Solid` or `LogicalVolume` to the scene is insufficient for visualization. To display an object in the VTK viewport, you **must**:
1. Define the `LogicalVolume`.
2. Instantiate a `PhysicalVolume` from that `LogicalVolume`.
3. Add the `PhysicalVolume` to the scene context and apply TRS transformations to it.
## 3. Gcompose: Tree Hierarchy & Visualization
- **3D Representations**: Objects with 3D actors are automatically wrapped in VTK representations (e.g., `vtkContainerBox`). Non-3D objects remain in the tree but have no viewport presence.
- **Reference Handling**:
- Internal object references (raw pointers or `SmartPointer`) are rendered as "virtual children" in the tree.
- **Instance Re-use**: One object can appear as a child under multiple parents if referenced multiple times; these are placeholders for the same underlying instance.
- **Setting References**:
- **Property Selector**: Filter and select compatible types from the global context within the property editor.
- **Drag & Drop**: Drag an object from the tree and drop it onto a property field. The system automatically validates types and performs the necessary casting/assignment.
## 4. Best Practices & Checks
- **TRS Logic**: Always apply transformations to the `PhysicalVolume`. Changes to a `LogicalVolume` will affect all its instances but will not move them.
- **Dependency Tracking**: Use the tree structure to identify shared references. Changing a property on a shared object affects all parent nodes that reference it.

34
.agents/skills/signal_bridge.md Normal file
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@@ -0,0 +1,34 @@
# Skill: Multi-System Signaling (uLib ↔ Qt)
This skill manages the coexistence of `uLib::Object` signals and Qt's `Q_OBJECT` signaling system.
## Context
- **uLib Signals**: Used for domain logic and data changes (`uLib::Object::connect`).
- **Qt Signals**: Used for UI events, widgets, and application-level control flow (`QObject::connect`).
## Patterns
### 1. Bridging Logic
When a domain change needs to trigger a UI update, use a wrapper or a direct connection if the widget has access to the `uLib::Object`.
```cpp
// In a Qt Widget
uLib::Object::connect(domainObj, &Object::Updated, [this]() {
this->update(); // Trigger Qt repaint
});
```
### 2. Selection Flow
Selection usually starts in the VTK Viewport (Qt) and flows to the domain context.
1. `QViewport` emits `prop3dSelected(Prop3D*)` (Qt signal).
2. `MainPanel` catches it and calls `contextPanel->selectObject(p->GetContent())`.
3. `ContextPanel` updates the tree view and property editors.
### 3. Connection Hygiene
- Use `uLib::Object::connect` for everything involving `uLib::Property` changes.
- Use Qt `connect` for button clicks, menu actions, and window events.
- Be careful with lambda captures; ensure the captured object is still alive or use weak pointers if necessary.
## Checklist
- [ ] Is the correct signaling system being used for the task?
- [ ] Are capture groups in lambdas safe?
- [ ] Does selection flow correctly between the 3D view and the tree view?

34
.agents/skills/testing_guide.md Normal file
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@@ -0,0 +1,34 @@
# Skill: Standardized Testing & Validation
This skill provides the standard workflow for testing and validating changes in the `uLib` project.
## Context
- **Tooling**: `ctest` and direct execution of test binaries in the `build/` directory.
- **Location**: Test binaries are typically located in `build/src/*/testing/` or `build/Testing/`.
## Workflow
### 1. Running All Tests
From the root directory:
```bash
ctest --test-dir build/clang-make --output-on-failure
```
### 2. Running Component Tests
Run specific categories of tests:
- **Core**: `./build/clang-make/src/Core/testing/CoreTest`
- **Math**: `./build/clang-make/src/Math/testing/MathVectorTest`
- **Geant**: `./build/clang-make/src/HEP/Geant/testing/GeantApp`
- **VTK**: `./build/clang-make/src/Vtk/testing/vtkViewerTest`
### 3. Debugging a Failing Test
Run the binary directly through `gdb` or `valgrind` (if available):
```bash
gdb --args ./build/clang-make/src/Core/testing/ObjectWrapperTest
```
## Validation Checklist for New Features
- [ ] Does `ctest` pass globally?
- [ ] If changing visualization, does `vtkViewerTest` show the correct results?
- [ ] If changing Geant logic, does `GeantApp` run without memory aborts?
- [ ] Are new tests added to the appropriate `CMakeLists.txt`?

52
.agents/skills/vtk_visualization.md Normal file
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@@ -0,0 +1,52 @@
# Skill: VTK Visualization Pipeline
This skill defines how to bridge domain objects with the VTK 3D visualization layer.
## Context
- **Wrapper**: `Prop3D` (wraps a `vtkProp`).
- **Mapping**: `Viewport` maintains `m_ObjectToProp3D` for synchronization.
- **GUI Integration**: `QViewport` handles Qt events and selection signals.
## Implementation Patterns
### 1. Creating a Prop3D
A `Prop3D` should wrap a domain object and update its visual state when the object changes.
```cpp
class MyProp3D : public Prop3D {
public:
MyProp3D(MyObject* obj) : Prop3D(obj) {
// Connect domain updates to visual refreshes
uLib::Object::connect(obj, &Object::Updated, [this]() { this->SyncFromObject(); });
// Expose properties to the VTK side-panel
ULIB_ACTIVATE_DISPLAY_PROPERTIES(*this)
}
void SyncFromObject() {
// Update VTK actors/mappers from MyObject's properties
}
};
```
### 2. Display Properties
Use `serialize_display` to choose which properties of the domain object or the `Prop3D` itself are visible in the sliding "Display Properties" panel in `gcompose`.
```cpp
void serialize_display(Archive::display_properties_archive &ar) {
ar & boost::serialization::make_hrp("Opacity", m_Opacity);
ar & boost::serialization::make_hrp("Wireframe", m_Wireframe);
}
```
### 3. Transformation Sync (TRS)
Always synchronize the object's `trs` (Translate, Rotate, Scale) with the VTK actor's user transform.
```cpp
void UpdateTransform() {
auto matrix = GetContent()->GetTransform().GetMatrix();
m_Actor->SetUserMatrix(uLib::ToVtkMatrix(matrix));
}
```
## Checklist
- [ ] Does the `Prop3D` connect to the object's `Updated()` signal?
- [ ] Are `ULIB_ACTIVATE_DISPLAY_PROPERTIES` and `serialize_display` implemented?
- [ ] Is the transformation (TRS) correctly mapped to the VTK actor?

4
.clangd
View File

@@ -1,7 +1,7 @@
CompileFlags:
CompilationDatabase: build
Add:
- -I/home/rigoni/devel/cmt/ulib/src
- -I/home/rigoni/devel/cmt/uLib/src
- -isystem/home/share/micromamba/envs/mutom/include
- -isystem/home/share/micromamba/envs/mutom/include/eigen3
- -isystem/home/share/micromamba/envs/mutom/targets/x86_64-linux/include
@@ -27,7 +27,7 @@ Diagnostics:
---
If:
PathExclude: [/home/rigoni/devel/cmt/ulib/src/.*]
PathExclude: [/home/rigoni/devel/cmt/uLib/src/.*]
Diagnostics:
Suppress: ["*"]

2
.gitattributes vendored Normal file
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@@ -0,0 +1,2 @@
*.vtk filter=lfs diff=lfs merge=lfs -text
*.vti filter=lfs diff=lfs merge=lfs -text

12
.gitignore vendored
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@@ -1,6 +1,7 @@
CMakeFiles/
build/
build*/
.cache/
CMakeUserPresets.json
build_warnings*.log
final_build.log
cmake_configure.log
@@ -13,3 +14,12 @@ src/Python/uLib/*.pyd
src/Python/uLib/*.pyc
src/Python/uLib/__pycache__
src/Python/uLib/.nfs*
test_props.xml
test_props2.xml
test_boost.cpp
.claude/settings.json
build_output.log
configure_output.log
test.xml
test_ref_smartpointer.xml
test_ref.xml

3
.vscode/gdb_wrapper.sh vendored Executable file
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@@ -0,0 +1,3 @@
#!/bin/bash
export DISPLAY=:1001.0
/home/share/micromamba/bin/micromamba run -n uLib /usr/bin/gdb "$@"

31
.vscode/launch.json vendored Normal file
View File

@@ -0,0 +1,31 @@
{
// Use IntelliSense to learn about possible attributes.
// Hover to view descriptions of existing attributes.
// For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387
"version": "0.2.0",
"configurations": [
{
"name": "gcompose",
"type": "cppdbg",
"request": "launch",
"program": "${workspaceFolder}/build/app/gcompose/gcompose",
"args": [],
"stopAtEntry": false,
"cwd": "${workspaceFolder}",
"environment": [
{ "name": "DISPLAY", "value": ":1001.0" }
],
"externalConsole": false,
"MIMode": "gdb",
"setupCommands": [
{
"description": "Enable pretty-printing for gdb",
"text": "-enable-pretty-printing",
"ignoreFailures": true
}
],
"preLaunchTask": "Build gcompose",
"miDebuggerPath": "${workspaceFolder}/.vscode/gdb_wrapper.sh"
}
]
}

25
.vscode/settings.json vendored
View File

@@ -1,13 +1,14 @@
{
"clangd.path": "/home/share/micromamba/envs/uLib/bin/clangd",
"clangd.fallbackFlags": [
"-I/home/rigoni/devel/cmt/ulib/src",
"-isystem/home/share/micromamba/envs/mutom/include",
"-isystem/home/share/micromamba/envs/mutom/include/eigen3",
"-isystem/home/share/micromamba/envs/mutom/targets/x86_64-linux/include",
"-isystem/home/share/micromamba/envs/mutom/lib/gcc/x86_64-conda-linux-gnu/14.3.0/include/c++",
"-isystem/home/share/micromamba/envs/mutom/lib/gcc/x86_64-conda-linux-gnu/14.3.0/include/c++/x86_64-conda-linux-gnu",
"-isystem/home/share/micromamba/envs/mutom/x86_64-conda-linux-gnu/sysroot/usr/include",
"--gcc-toolchain=/home/share/micromamba/envs/mutom",
"-I/home/rigoni/devel/cmt/uLib/src",
"-isystem/home/share/micromamba/envs/uLib/include",
"-isystem/home/share/micromamba/envs/uLib/include/eigen3",
"-isystem/home/share/micromamba/envs/uLib/targets/x86_64-linux/include",
"-isystem/home/share/micromamba/envs/uLib/lib/gcc/x86_64-conda-linux-gnu/14.3.0/include/c++",
"-isystem/home/share/micromamba/envs/uLib/lib/gcc/x86_64-conda-linux-gnu/14.3.0/include/c++/x86_64-conda-linux-gnu",
"-isystem/home/share/micromamba/envs/uLib/x86_64-conda-linux-gnu/sysroot/usr/include",
"--gcc-toolchain=/home/share/micromamba/envs/uLib",
"-D__host__=",
"-D__device__=",
"-D__global__=",
@@ -18,9 +19,8 @@
],
"clangd.semanticHighlighting.enable": true,
"clangd.arguments": [
"--compile-commands-dir=build",
"--query-driver=/home/share/micromamba/envs/mutom/bin/g++,/home/share/micromamba/envs/mutom/bin/gcc,/home/share/micromamba/envs/mutom/bin/nvcc",
"--suppress-system-warnings",
"--compile-commands-dir=build/clang-make",
"--query-driver=/home/share/micromamba/envs/uLib/bin/*",
"--all-scopes-completion",
"--completion-style=detailed",
"--header-insertion=never",
@@ -28,5 +28,6 @@
"--pch-storage=memory",
"--background-index",
"--log=verbose"
]
],
"C_Cpp.intelliSenseEngine": "disabled"
}

17
.vscode/tasks.json vendored Normal file
View File

@@ -0,0 +1,17 @@
{
"version": "2.0.0",
"tasks": [
{
"label": "Build gcompose",
"type": "shell",
"command": "/home/share/micromamba/bin/micromamba run -n uLib cmake --build build --target gcompose -j$(nproc)",
"group": {
"kind": "build",
"isDefault": true
},
"problemMatcher": [
"$gcc"
]
}
]
}

102
CLAUDE.md Normal file
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@@ -0,0 +1,102 @@
# CLAUDE.md
This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository.
## Build Commands
```bash
# Activate the conda environment (required before any build/run)
export MAMBA_EXE="/home/share/micromamba/bin/micromamba"
export MAMBA_ROOT_PREFIX="/home/share/micromamba"
eval "$(/home/share/micromamba/bin/micromamba shell hook --shell bash)"
micromamba activate uLib
# Configure (from repo root, using Conan preset — uses Ninja + ccache)
cmake --preset conan-release
# Build everything
cmake --build build -j$(nproc)
# Build a specific target
cmake --build build --target gcompose -j$(nproc)
# Run tests
cmake --build build --target test
# or
ctest --test-dir build
# Run a single test binary (example)
./build/src/Core/testing/CoreTest
# Run the gcompose GUI app
./build/app/gcompose/gcompose
```
First-time setup (if `build/` does not exist):
```bash
conan profile detect
conan install . --output-folder=build --build=missing
cmake --preset conan-release
```
### Build acceleration (already configured)
- **Ninja** generator — used automatically via the conan default profile (`~/.conan2/profiles/default`)
- **ccache** — enabled via `CMAKE_CXX_COMPILER_LAUNCHER=ccache`; cached rebuilds are nearly instant (~0.3s vs ~25s cold)
- **Clang 22 + lld** profile available (`~/.conan2/profiles/fast`) but blocked by template overload ambiguities in `src/Core/Archives.h` that need fixing for full compatibility
To reconfigure with the fast profile once Archives.h is fixed:
```bash
conan install . --output-folder=build --build=missing --profile=fast
cmake -B build -G Ninja -DCMAKE_TOOLCHAIN_FILE=build/conan_toolchain.cmake -DCMAKE_BUILD_TYPE=Release
cmake --build build -j$(nproc)
```
## Architecture
**uLib** is a C++ framework for Cosmic Muon Tomography (CMT), structured as layered shared libraries:
```
mutomCore → mutomMath → mutomDetectors → mutomGeant
mutomVtk → gcompose (Qt6 GUI app)
mutomRoot
```
### Core Object Model (`src/Core/`)
- All framework objects inherit from `uLib::Object`
- **Property system**: `Property<T>` wraps member pointers with change notification via `PropertyChanged` signal
- **Signal/slot**: `uLib::Object::connect(sender, &Sender::Signal, callback)` — resembles Qt but works for non-QObject classes
- **Serialization**: Boost archives (`xml_oarchive`, `text_oarchive`, `hrt_oarchive`); `hrp<T>` marks fields as "human-readable properties"
- `ObjectsContext` is a container owning a list of `Object*` pointers; signals `ObjectAdded`/`ObjectRemoved`
### VTK Layer (`src/Vtk/`)
- `Prop3D` (inherits `uLib::Object`): wraps a VTK `vtkProp` for rendering. Has `GetContent()` returning the underlying domain object. Display-only properties are registered via `ULIB_ACTIVATE_DISPLAY_PROPERTIES` macro.
- `Viewport`: base class managing the VTK renderer, picking, selection logic. Maintains `m_Prop3Ds` vector and `m_ObjectToProp3D` map.
- `QViewport` (inherits `QWidget` + `Viewport`): Qt-embedded VTK widget. Emits Qt signal `prop3dSelected(Prop3D*)` on click-selection via `OnSelectionChanged`.
- `vtkObjectsContext`: wraps `ObjectsContext`, creating/destroying `Prop3D`s as objects come/go. Emits `Prop3DAdded`/`Prop3DRemoved`.
- Display properties: `serialize_display()` + `display_properties_archive` registers selected `hrp<T>` fields as `PropertyBase*` in the prop3d's `m_DisplayProperties`. `PropertyEditor::setObject(obj, displayOnly=true)` shows only those.
### gcompose GUI App (`app/gcompose/src/`)
- `MainPanel`: top-level widget. Owns `ContextPanel` (left) and `ViewportPane` (right). Wires together viewport↔context selection via signals.
- `ContextPanel`: tree view of `ObjectsContext`. Emits `objectSelected(Object*)`. Contains an embedded `PropertiesPanel`.
- `PropertiesPanel`: shows `uLib::Object` properties via `PropertyEditor`.
- `ViewportPane`: embeds `QViewport` + a slide-out "Display Properties" panel (`PropertyEditor` in display-only mode).
- `PropertyEditor`: populates widgets from `Object::GetProperties()` (all) or `Prop3D::GetDisplayProperties()` (display-only mode).
### Selection Sync Flow
```
Viewport click → Viewport::SelectProp3D() → QViewport::OnSelectionChanged()
→ emit prop3dSelected(p)
→ MainPanel: contextPanel->selectObject(p->GetContent()) [updates tree + PropertiesPanel]
→ MainPanel: firstPane->setObject(p) [updates Display Properties panel]
ContextPanel tree click → emit objectSelected(obj)
→ MainPanel: viewport->SelectProp3D(prop3d) [visual selection in VTK]
→ MainPanel: firstPane->setObject(prop3d) [updates Display Properties panel]
```
### Key Patterns
- **Two signal systems coexist**: Qt signals (`Q_OBJECT`, `connect(...)`) for GUI; `uLib::Object::connect(...)` for domain signals.
- **Display properties** flow: `Prop3D::serialize_display()``display_properties_archive``RegisterDisplayProperty()``PropertyEditor(displayOnly=true)`. Must call `ULIB_ACTIVATE_DISPLAY_PROPERTIES` in the prop3d constructor.
- **Prop3D ↔ Object map**: `Viewport::m_ObjectToProp3D` allows lookup by domain object; `vtkObjectsContext::GetProp3D(obj)` does the same.

1
CMake/uLibTargetMacros.cmake
View File

@@ -84,6 +84,7 @@ macro(uLib_add_tests name)
foreach(tn ${TESTS})
add_executable(${tn} ${tn}.cpp)
add_test(NAME ${tn} COMMAND ${tn})
set_tests_properties(${tn} PROPERTIES ENVIRONMENT "CTEST_PROJECT_NAME=uLib;QT_QPA_PLATFORM=offscreen")
target_link_libraries(${tn} ${LIBRARIES})

2
CMakeConfig.in.h
View File

@@ -34,7 +34,9 @@
#cmakedefine HAVE_FLOOR
/* Having Geant4 installed */
#ifndef HAVE_GEANT4
#cmakedefine HAVE_GEANT4
#endif
/* Define to 1 if you have the <inttypes.h> header file. */
#cmakedefine HAVE_INTTYPES_H

131
CMakeLists.txt
View File

@@ -3,18 +3,67 @@
##### CMAKE LISTS ##############################################################
################################################################################
# Save compiler and launcher paths if they are absolute (e.g. from presets or CLI)
# to prevent conan_toolchain.cmake from overwriting them with relative names.
set(_ULIB_SAVE_CC "${CMAKE_C_COMPILER}")
set(_ULIB_SAVE_CXX "${CMAKE_CXX_COMPILER}")
set(_ULIB_SAVE_CC_LAUNCHER "${CMAKE_C_COMPILER_LAUNCHER}")
set(_ULIB_SAVE_CXX_LAUNCHER "${CMAKE_CXX_COMPILER_LAUNCHER}")
if(EXISTS "${CMAKE_BINARY_DIR}/conan_toolchain.cmake")
include("${CMAKE_BINARY_DIR}/conan_toolchain.cmake")
endif()
if(_ULIB_SAVE_CC AND IS_ABSOLUTE "${_ULIB_SAVE_CC}")
set(CMAKE_C_COMPILER "${_ULIB_SAVE_CC}" CACHE FILEPATH "C compiler" FORCE)
endif()
if(_ULIB_SAVE_CXX AND IS_ABSOLUTE "${_ULIB_SAVE_CXX}")
set(CMAKE_CXX_COMPILER "${_ULIB_SAVE_CXX}" CACHE FILEPATH "C++ compiler" FORCE)
endif()
if(_ULIB_SAVE_CC_LAUNCHER AND IS_ABSOLUTE "${_ULIB_SAVE_CC_LAUNCHER}")
set(CMAKE_C_COMPILER_LAUNCHER "${_ULIB_SAVE_CC_LAUNCHER}" CACHE FILEPATH "C compiler launcher" FORCE)
endif()
if(_ULIB_SAVE_CXX_LAUNCHER AND IS_ABSOLUTE "${_ULIB_SAVE_CXX_LAUNCHER}")
set(CMAKE_CXX_COMPILER_LAUNCHER "${_ULIB_SAVE_CXX_LAUNCHER}" CACHE FILEPATH "C++ compiler launcher" FORCE)
endif()
cmake_minimum_required (VERSION 3.26)
set(QT_NO_VERSION_CHECK TRUE)
if(POLICY CMP0167)
cmake_policy(SET CMP0167 NEW)
endif()
## -------------------------------------------------------------------------- ##
project(uLib)
option(ULIB_USE_CCACHE "Use ccache for build acceleration" ON)
if(ULIB_USE_CCACHE)
find_program(CCACHE_PROGRAM ccache)
if(CCACHE_PROGRAM)
set(CMAKE_CXX_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
set(CMAKE_C_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
endif()
else()
set(CMAKE_CXX_COMPILER_LAUNCHER "")
set(CMAKE_C_COMPILER_LAUNCHER "")
endif()
# Applica la flag SOLO se il compilatore è GCC
if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
add_compile_options(-fno-merge-constants)
endif()
# Disabilita il warning se il compilatore è Clang (o AppleClang)
if(CMAKE_CXX_COMPILER_ID MATCHES "Clang")
add_compile_options(-Wno-ignored-optimization-argument)
endif()
# CUDA Toolkit seems to be missing locally. Toggle ON if nvcc is made available.
option(USE_CUDA "Enable CUDA support" ON)
option(USE_CUDA "Enable CUDA support" OFF)
if(USE_CUDA)
set(CMAKE_CUDA_FLAGS "${CMAKE_CUDA_FLAGS} -allow-unsupported-compiler")
set(CMAKE_CUDA_FLAGS "${CMAKE_CUDA_FLAGS} --expt-relaxed-constexpr")
@@ -31,7 +80,7 @@ endif()
# The version number.
set(PROJECT_VERSION_MAJOR 0)
set(PROJECT_VERSION_MINOR 6)
set(PROJECT_VERSION_MINOR 7)
set(PROJECT_VERSION "${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}")
set(PROJECT_SOVERSION "${PROJECT_VERSION_MAJOR}.${PROJECT_VERSION_MINOR}")
@@ -96,6 +145,7 @@ set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${CMAKE_CXX_WARNING_OPTION}")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -UULIB_SERIALIZATION_ON -Wno-cpp")
# CTEST framework
set(CTEST_PROJECT_NAME "uLib")
include(CTest)
enable_testing()
@@ -107,26 +157,30 @@ set(Boost_USE_MULTITHREADED ON)
set(Boost_USE_STATIC_RUNTIME OFF)
message(STATUS "CMAKE_PREFIX_PATH is ${CMAKE_PREFIX_PATH}")
find_package(HDF5 REQUIRED)
find_package(Boost 1.45.0 COMPONENTS program_options serialization unit_test_framework REQUIRED)
include_directories(${Boost_INCLUDE_DIRS})
find_package(Eigen3 CONFIG REQUIRED)
get_target_property(EIGEN3_INCLUDE_DIRS Eigen3::Eigen INTERFACE_INCLUDE_DIRECTORIES)
include_directories(${EIGEN3_INCLUDE_DIRS})
# if(NOT EIGEN3_INCLUDE_DIRS)
# get_target_property(EIGEN3_INCLUDE_DIRS Eigen3::Eigen INTERFACE_INCLUDE_DIRECTORIES)
# else()
# include_directories(${EIGEN3_INCLUDE_DIRS})
# endif()
find_package(OpenMP)
find_package(ROOT CONFIG REQUIRED)
include(${ROOT_USE_FILE})
find_package(VTK REQUIRED)
# include(${VTK_USE_FILE})
find_package(pybind11 REQUIRED)
option(CENTOS_SUPPORT "VTK definitions for CentOS" OFF)
if(CENTOS_SUPPORT)
find_package(VTK CONFIG REQUIRED)
include(${VTK_USE_FILE})
# include(${VTK_USE_FILE})
else()
find_package(VTK REQUIRED
COMPONENTS CommonColor
@@ -138,6 +192,8 @@ else()
IOXML
IOXMLParser
ImagingCore
ImagingHybrid
ImagingSources
InteractionStyle
InteractionWidgets
RenderingAnnotation
@@ -146,7 +202,56 @@ else()
RenderingFreeType
RenderingGL2PSOpenGL2
RenderingOpenGL2
RenderingVolumeOpenGL2)
RenderingVolumeOpenGL2
IOGeometry
GUISupportQt)
endif()
find_package(Qt6 COMPONENTS Widgets)
if(Qt6_FOUND)
add_compile_definitions(HAVE_QT)
endif()
find_package(Geant4)
if(Geant4_FOUND)
message(STATUS "Geant4 libs: ${Geant4_LIBRARIES}")
add_compile_definitions(HAVE_GEANT4)
set(HAVE_GEANT4 1)
# Workaround: Geant4's G4EXPATShim creates EXPAT::EXPAT (uppercase) with
# IMPORTED_LOCATION "${EXPAT_LIBRARY}", but EXPAT_LIBRARY is empty when using
# conda's config-mode expat package (which installs as expat::expat lowercase).
# Resolve the actual library path from expat::expat or via find_library.
if(TARGET EXPAT::EXPAT)
get_target_property(_expat_loc EXPAT::EXPAT IMPORTED_LOCATION)
if(NOT _expat_loc OR _expat_loc MATCHES "NOTFOUND|^$")
if(TARGET expat::expat)
get_target_property(_expat_loc expat::expat IMPORTED_LOCATION_NOCONFIG)
endif()
if(NOT _expat_loc OR _expat_loc MATCHES "NOTFOUND|^$")
find_library(_expat_loc NAMES expat)
endif()
if(_expat_loc)
set_target_properties(EXPAT::EXPAT PROPERTIES IMPORTED_LOCATION "${_expat_loc}")
endif()
endif()
unset(_expat_loc)
endif()
# Sanitize Geant4 targets to remove Qt5 dependencies that conflict with VTK/Qt6
if(TARGET Geant4::G4interfaces)
set_target_properties(Geant4::G4interfaces PROPERTIES
INTERFACE_LINK_LIBRARIES "Geant4::G4global;Geant4::G4graphics_reps;Geant4::G4intercoms"
)
endif()
if(TARGET Geant4::G4OpenGL)
set_target_properties(Geant4::G4OpenGL PROPERTIES
INTERFACE_LINK_LIBRARIES "Geant4::G4vis_management;Geant4::G4graphics_reps;Geant4::G4geometry;Geant4::G4materials;Geant4::G4intercoms;Geant4::G4global;OpenGL::GL;OpenGL::GLU"
)
endif()
else()
message(STATUS "Geant4 NOT found - optional features will be disabled")
set(HAVE_GEANT4 0)
endif()
set(CMAKE_REQUIRED_INCLUDES CMAKE_REQUIRED_INCLUDES math.h)
@@ -204,8 +309,8 @@ add_subdirectory(${SRC_DIR}/Core)
include_directories(${SRC_DIR}/Math)
add_subdirectory(${SRC_DIR}/Math)
include_directories(${SRC_DIR}/Detectors)
add_subdirectory(${SRC_DIR}/Detectors)
include_directories(${SRC_DIR}/HEP)
add_subdirectory(${SRC_DIR}/HEP)
include_directories(${SRC_DIR}/Root)
add_subdirectory(${SRC_DIR}/Root)
@@ -215,7 +320,7 @@ add_subdirectory(${SRC_DIR}/Vtk)
add_subdirectory(${SRC_DIR}/Python)
#add_subdirectory("${SRC_DIR}/utils/make_recipe")
add_subdirectory(app)
## Documentation and packages

59
CMakePresets.json
View File

@@ -2,15 +2,64 @@
"version": 8,
"configurePresets": [
{
"name": "andrea",
"name": "gcc-make",
"displayName": "Custom configure preset",
"description": "Sets Ninja generator, build and install directory",
"generator": "Ninja",
"binaryDir": "${sourceDir}/out/build/${presetName}",
"description": "Sets Makefile generator, build and install directory",
"generator": "Unix Makefiles",
"binaryDir": "${sourceDir}/build/${presetName}",
"cacheVariables": {
"CMAKE_BUILD_TYPE": "Debug",
"CMAKE_INSTALL_PREFIX": "${sourceDir}/out/install/${presetName}"
}
},
{
"name": "clang-ninja",
"displayName": "Ninja + clang + ccache",
"description": "Uses Ninja generator, clang/lld compiler, and ccache",
"generator": "Ninja",
"binaryDir": "${sourceDir}/build/${presetName}",
"cacheVariables": {
"CMAKE_BUILD_TYPE": "Release",
"CMAKE_C_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang",
"CMAKE_CXX_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang++",
"CMAKE_EXE_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_SHARED_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_CXX_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache",
"CMAKE_C_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache"
}
},
{
"name": "clang-make",
"displayName": "Makefile + clang + ccache",
"description": "Uses Makefile generator, clang/lld compiler, and ccache",
"generator": "Unix Makefiles",
"binaryDir": "${sourceDir}/build/${presetName}",
"cacheVariables": {
"CMAKE_BUILD_TYPE": "Release",
"CMAKE_C_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang",
"CMAKE_CXX_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang++",
"CMAKE_EXE_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_SHARED_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_CXX_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache",
"CMAKE_C_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache"
}
},
{
"name": "cuda",
"displayName": "Makefile + clang + ccache",
"description": "Uses Makefile generator, clang/lld compiler, and ccache",
"generator": "Unix Makefiles",
"binaryDir": "${sourceDir}/build/${presetName}",
"cacheVariables": {
"CMAKE_BUILD_TYPE": "Release",
"CMAKE_C_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang",
"CMAKE_CXX_COMPILER": "/home/share/micromamba/envs/uLib/bin/clang++",
"CMAKE_EXE_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_SHARED_LINKER_FLAGS": "-fuse-ld=lld",
"CMAKE_CXX_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache",
"CMAKE_C_COMPILER_LAUNCHER": "/home/share/micromamba/envs/uLib/bin/ccache",
"USE_CUDA": "ON"
}
}
]
}
}

9
CMakeUserPresets.json
View File

@@ -1,9 +0,0 @@
{
"version": 4,
"vendor": {
"conan": {}
},
"include": [
"build/CMakePresets.json"
]
}

52
README.md
View File

@@ -30,18 +30,22 @@ You can create and activate the environment using either `micromamba` or `conda`
**Using Micromamba:**
```bash
micromamba env create -f condaenv.yml
micromamba activate mutom
micromamba activate uLib
```
**Using Conda:**
```bash
conda env create -f condaenv.yml
conda activate mutom
conda activate uLib
```
### Configure and Build
1. **Configure Conan profile (if you haven't yet on your machine):**
#### Standard build (GCC + Ninja + ccache)
The default conan profile uses **Ninja** as the generator and **ccache** for compiler caching, dramatically speeding up incremental rebuilds.
1. **Configure Conan profile (first time only):**
```bash
conan profile detect
```
@@ -51,20 +55,52 @@ conan profile detect
conan install . --output-folder=build --build=missing
```
3. **Configure the project with CMake:**
3. **Configure with CMake:**
```bash
cmake --preset conan-release
```
*(Alternatively: `cd build && cmake .. -DCMAKE_TOOLCHAIN_FILE=conan_toolchain.cmake -DCMAKE_BUILD_TYPE=Release`)*
4. **Build the project:**
4. **Build:**
```bash
cmake --build build -j10
cmake --build build -j$(nproc)
```
5. **Clean build (wipe and rebuild everything):**
```bash
cmake --build build --clean-first -j$(nproc)
```
6. **Run tests:**
```bash
cmake --build build --target test -j$(nproc)
# or equivalently:
ctest --test-dir build --output-on-failure -j$(nproc)
```
#### LLVM/Clang build (clang + lld + ccache — fastest)
A `fast` conan profile is provided that uses **clang**, **lld** (LLVM linker), and **ccache**. Install them into your environment first:
```bash
micromamba install -n uLib -y clang clangxx lld -c conda-forge
```
Then build using the `fast` profile:
```bash
conan install . --output-folder=build/clang-ninja --build=missing --profile=fast
cmake --preset clang-ninja
cmake --build build/clang-ninja -j$(nproc)
```
The `fast` profile is defined at `~/.conan2/profiles/fast` and sets:
- `CMAKE_C_COMPILER=clang` / `CMAKE_CXX_COMPILER=clang++`
- `CMAKE_EXE_LINKER_FLAGS=-fuse-ld=lld`
- `CMAKE_CXX_COMPILER_LAUNCHER=ccache`
### Make python package
```bash
micromamba run -n mutom env USE_CUDA=ON poetry install
micromamba run -n uLib env USE_CUDA=ON poetry install
```

1
Testing/Temporary/CTestCostData.txt Normal file
View File

@@ -0,0 +1 @@
---

3
Testing/Temporary/LastTest.log Normal file
View File

@@ -0,0 +1,3 @@
Start testing: Mar 25 18:59 UTC
----------------------------------------------------------
End testing: Mar 25 18:59 UTC

3
app/CMakeLists.txt Normal file
View File

@@ -0,0 +1,3 @@
if(HAVE_GEANT4)
add_subdirectory(gcompose)
endif()

55
app/gcompose/CMakeLists.txt Normal file
View File

@@ -0,0 +1,55 @@
add_executable(gcompose
src/main.cpp
src/MainWindow.h
src/MainWindow.cpp
src/ViewportPane.h
src/ViewportPane.cpp
src/MainPanel.h
src/MainPanel.cpp
src/ContextPanel.h
src/ContextPanel.cpp
src/ContextModel.h
src/ContextModel.cpp
src/StyleManager.h
src/StyleManager.cpp
src/PropertyWidgets.h
src/PropertyWidgets.cpp
src/PropertiesPanel.h
src/PropertiesPanel.cpp
src/PreferencesDialog.h
src/PreferencesDialog.cpp
)
set_target_properties(gcompose PROPERTIES
AUTOMOC ON
AUTOUIC ON
AUTORCC ON
)
target_include_directories(gcompose PRIVATE
${SRC_DIR}
${PROJECT_BINARY_DIR}
${Geant4_INCLUDE_DIRS}
${VTK_INCLUDE_DIRS}
)
# Filter Geant4 libraries to remove Qt-dependent ones
set(Geant4_LIBS_FILTERED ${Geant4_LIBRARIES})
if(Geant4_LIBS_FILTERED)
list(REMOVE_ITEM Geant4_LIBS_FILTERED Geant4::G4interfaces Geant4::G4OpenGL Geant4::G4visQt3D)
endif()
target_link_libraries(gcompose
mutomCore
mutomMath
mutomGeant
mutomVtk
mutomRoot
${Geant4_LIBS_FILTERED}
${VTK_LIBRARIES}
Qt6::Widgets
VTK::GUISupportQt
)
install(TARGETS gcompose RUNTIME DESTINATION bin)

276
app/gcompose/src/ContextModel.cpp Normal file
View File

@@ -0,0 +1,276 @@
#include "ContextModel.h"
#include <QString>
#include <typeinfo>
#include <cxxabi.h>
#include <functional>
#include "Core/Object.h"
#include <QMimeData>
#include <QDataStream>
#include <QIODevice>
#include <vector>
#include <algorithm>
ContextModel::ContextModel(QObject* parent)
: QAbstractItemModel(parent), m_rootContext(nullptr) {}
ContextModel::~ContextModel() {}
void ContextModel::setContext(uLib::ObjectsContext* context) {
m_isReseting = true;
beginResetModel();
m_rootContext = context;
if (m_rootContext) {
auto refresh = [this]() {
if (this->m_isReseting) return;
this->m_isReseting = true;
this->beginResetModel();
this->endResetModel();
this->m_isReseting = false;
};
uLib::Object::connect(m_rootContext, &uLib::Object::Updated, refresh);
uLib::Object::connect(m_rootContext, &uLib::ObjectsContext::ObjectAdded, [this, refresh](uLib::Object* obj) {
uLib::Object::connect(obj, &uLib::Object::Updated, refresh);
refresh();
});
uLib::Object::connect(m_rootContext, &uLib::ObjectsContext::ObjectRemoved, [this, refresh](uLib::Object* obj) {
refresh();
});
// Connect existing objects
for (const auto& obj : m_rootContext->GetObjects()) {
uLib::Object::connect(obj.get(), &uLib::Object::Updated, refresh);
}
}
endResetModel();
m_isReseting = false;
}
QModelIndex ContextModel::index(int row, int column, const QModelIndex& parent) const {
if (!hasIndex(row, column, parent) || !m_rootContext) {
return QModelIndex();
}
if (!parent.isValid()) {
if (row < m_rootContext->GetCount()) {
return createIndex(row, column, m_rootContext->GetObject(row));
}
} else {
uLib::Object* parentObj = static_cast<uLib::Object*>(parent.internalPointer());
uLib::ObjectsContext* parentCtx = parentObj->GetChildren();
if (parentCtx && row < (int)parentCtx->GetCount()) {
return createIndex(row, column, parentCtx->GetObject(row));
}
}
return QModelIndex();
}
QModelIndex ContextModel::parent(const QModelIndex& child) const {
if (!child.isValid() || !m_rootContext) {
return QModelIndex();
}
uLib::Object* childObj = static_cast<uLib::Object*>(child.internalPointer());
// Finding the parent of childObj is O(N) since there is no parent pointer.
// We just do a recursive search starting from root context.
std::function<uLib::Object*(uLib::Object*, uLib::Object*)> findParent =
[&findParent](uLib::Object* current, uLib::Object* target) -> uLib::Object* {
uLib::ObjectsContext* ctx = current->GetChildren();
if (ctx) {
for (const auto& obj : ctx->GetObjects()) {
if (obj == target) return current;
if (auto p = findParent(obj, target)) return p;
}
}
return nullptr;
};
uLib::Object* parentObj = findParent(m_rootContext, childObj);
if (!parentObj || parentObj == m_rootContext) {
return QModelIndex(); // Root items have invalid parent index
}
// Now need to find the row of parentObj in its own parent Context.
uLib::Object* grandParentObj = findParent(m_rootContext, parentObj);
uLib::ObjectsContext* grandParentCtx = grandParentObj ? grandParentObj->GetChildren() : m_rootContext;
int row = -1;
for (size_t i = 0; i < grandParentCtx->GetCount(); ++i) {
if (grandParentCtx->GetObject(i) == parentObj) {
row = (int)i;
break;
}
}
if (row != -1) {
return createIndex(row, 0, parentObj);
}
return QModelIndex();
}
int ContextModel::rowCount(const QModelIndex& parent) const {
if (!m_rootContext) return 0;
if (!parent.isValid()) {
return m_rootContext->GetCount();
}
uLib::Object* parentObj = static_cast<uLib::Object*>(parent.internalPointer());
if (auto parentCtx = parentObj->GetChildren()) {
return (int)parentCtx->GetCount();
}
return 0; // leaf node
}
int ContextModel::columnCount(const QModelIndex& parent) const {
return 1;
}
static QString getDemangledName(const std::type_info& info) {
int status = -4;
char* demangled = abi::__cxa_demangle(info.name(), nullptr, nullptr, &status);
QString res = (status == 0 && demangled) ? QString::fromUtf8(demangled) : QString::fromUtf8(info.name());
if (demangled) free(demangled);
// Remove namespaces
int lastColon = res.lastIndexOf("::");
if (lastColon != -1) {
res = res.mid(lastColon + 2);
}
// Remove "class " prefix if any
if (res.startsWith("class ")) res = res.mid(6);
return res;
}
QVariant ContextModel::data(const QModelIndex& index, int role) const {
if (!index.isValid()) return QVariant();
uLib::Object* obj = static_cast<uLib::Object*>(index.internalPointer());
if (role == Qt::DisplayRole) {
QString typeName = getDemangledName(typeid(*obj));
std::string instName = obj->GetInstanceName();
if (instName.empty()) return typeName;
return QString("%1 (%2)").arg(QString::fromStdString(instName)).arg(typeName);
}
if (role == Qt::EditRole) {
return QString::fromStdString(obj->GetInstanceName());
}
return QVariant();
}
QVariant ContextModel::headerData(int section, Qt::Orientation orientation, int role) const {
if (orientation == Qt::Horizontal && role == Qt::DisplayRole && section == 0) {
return "Object Context";
}
return QVariant();
}
Qt::ItemFlags ContextModel::flags(const QModelIndex& index) const {
if (!index.isValid()) return m_rootContext ? Qt::ItemIsDropEnabled : Qt::NoItemFlags;
Qt::ItemFlags f = Qt::ItemIsEditable | Qt::ItemIsSelectable | Qt::ItemIsEnabled | Qt::ItemIsDragEnabled;
uLib::Object* obj = static_cast<uLib::Object*>(index.internalPointer());
if (dynamic_cast<uLib::ObjectsContext*>(obj)) {
f |= Qt::ItemIsDropEnabled;
}
return f;
}
Qt::DropActions ContextModel::supportedDropActions() const {
return Qt::MoveAction;
}
QStringList ContextModel::mimeTypes() const {
return {"application/x-ulib-object-ptr"};
}
QMimeData* ContextModel::mimeData(const QModelIndexList& indexes) const {
QMimeData* mimeData = new QMimeData();
QByteArray encodedData;
QDataStream stream(&encodedData, QIODevice::WriteOnly);
for (const auto& idx : indexes) {
if (idx.isValid() && idx.column() == 0) {
void* ptr = idx.internalPointer();
stream << reinterpret_cast<qlonglong>(ptr);
}
}
mimeData->setData("application/x-ulib-object-ptr", encodedData);
return mimeData;
}
bool ContextModel::dropMimeData(const QMimeData* data, Qt::DropAction action, int row, int column, const QModelIndex& parent) {
if (action != Qt::MoveAction || !data->hasFormat("application/x-ulib-object-ptr")) return false;
uLib::ObjectsContext* targetCtx = m_rootContext;
if (parent.isValid()) {
uLib::Object* parentObj = static_cast<uLib::Object*>(parent.internalPointer());
targetCtx = dynamic_cast<uLib::ObjectsContext*>(parentObj);
}
if (!targetCtx) return false;
QByteArray encodedData = data->data("application/x-ulib-object-ptr");
QDataStream stream(&encodedData, QIODevice::ReadOnly);
std::vector<uLib::Object*> objectsToMove;
while (!stream.atEnd()) {
qlonglong ptrVal;
stream >> ptrVal;
objectsToMove.push_back(reinterpret_cast<uLib::Object*>(ptrVal));
}
if (objectsToMove.empty()) return false;
// Helper to find and remove from current parent
std::function<void(uLib::Object*, uLib::Object*)> findAndRemoveRecursive =
[&findAndRemoveRecursive](uLib::Object* current, uLib::Object* target) {
if (auto ctx = current->GetChildren()) {
ctx->RemoveObject(target);
for (const auto& obj : ctx->GetObjects()) {
findAndRemoveRecursive(obj.get(), target);
}
}
};
m_isReseting = true;
beginResetModel();
for (auto* obj : objectsToMove) {
// Don't drop onto itself or its descendants
bool invalid = (obj == targetCtx || obj == (uLib::Object*)targetCtx);
if (!invalid) {
// check if targetCtx is descendant of obj
std::function<bool(uLib::Object*, uLib::Object*)> isDescendant =
[&isDescendant](uLib::Object* root, uLib::Object* target) -> bool {
if (auto ctx = root->GetChildren()) {
for (const auto& child : ctx->GetObjects()) {
if (child.get() == target) return true;
if (isDescendant(child.get(), target)) return true;
}
}
return false;
};
if (isDescendant(obj, (uLib::Object*)targetCtx)) invalid = true;
}
if (!invalid) {
findAndRemoveRecursive(m_rootContext, obj);
targetCtx->AddObject(obj);
}
}
endResetModel();
m_isReseting = false;
return true;
}
bool ContextModel::setData(const QModelIndex& index, const QVariant& value, int role) {
if (index.isValid() && role == Qt::EditRole) {
uLib::Object* obj = static_cast<uLib::Object*>(index.internalPointer());
obj->SetInstanceName(value.toString().toStdString());
emit dataChanged(index, index, {Qt::DisplayRole, Qt::EditRole});
return true;
}
return false;
}

35
app/gcompose/src/ContextModel.h Normal file
View File

@@ -0,0 +1,35 @@
#ifndef CONTEXT_MODEL_H
#define CONTEXT_MODEL_H
#include <QAbstractItemModel>
#include "Core/ObjectsContext.h"
class ContextModel : public QAbstractItemModel {
Q_OBJECT
public:
explicit ContextModel(QObject* parent = nullptr);
virtual ~ContextModel();
void setContext(uLib::ObjectsContext* context);
QModelIndex index(int row, int column, const QModelIndex& parent = QModelIndex()) const override;
QModelIndex parent(const QModelIndex& child) const override;
int rowCount(const QModelIndex& parent = QModelIndex()) const override;
int columnCount(const QModelIndex& parent = QModelIndex()) const override;
QVariant data(const QModelIndex& index, int role = Qt::DisplayRole) const override;
QVariant headerData(int section, Qt::Orientation orientation, int role = Qt::DisplayRole) const override;
Qt::ItemFlags flags(const QModelIndex& index) const override;
bool setData(const QModelIndex& index, const QVariant& value, int role = Qt::EditRole) override;
// Drag and Drop support
Qt::DropActions supportedDropActions() const override;
QStringList mimeTypes() const override;
QMimeData* mimeData(const QModelIndexList& indexes) const override;
bool dropMimeData(const QMimeData* data, Qt::DropAction action, int row, int column, const QModelIndex& parent) override;
private:
uLib::ObjectsContext* m_rootContext;
bool m_isReseting = false;
};
#endif // CONTEXT_MODEL_H

148
app/gcompose/src/ContextPanel.cpp Normal file
View File

@@ -0,0 +1,148 @@
#include "ContextPanel.h"
#include "ContextModel.h"
#include "PropertyWidgets.h"
#include "PropertiesPanel.h"
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QLabel>
#include <QTreeView>
#include <QSplitter>
#include <QList>
#include <QShortcut>
#include <QItemSelectionModel>
#include <functional>
ContextPanel::ContextPanel(QWidget* parent)
: QWidget(parent)
, m_context(nullptr) {
this->setObjectName("ContextPanel");
this->setAttribute(Qt::WA_StyledBackground);
m_layout = new QVBoxLayout(this);
m_layout->setContentsMargins(0, 0, 0, 0);
m_layout->setSpacing(0);
// Title bar setup
m_titleBar = new QWidget(this);
m_titleBar->setObjectName("PaneTitleBar");
m_titleBar->setFixedHeight(22);
auto* titleLayout = new QHBoxLayout(m_titleBar);
titleLayout->setContentsMargins(5, 0, 5, 0);
m_titleLabel = new QLabel("Context Panel", m_titleBar);
m_titleLabel->setObjectName("TitleLabel");
titleLayout->addWidget(m_titleLabel);
titleLayout->addStretch();
m_layout->addWidget(m_titleBar);
m_treeView = new QTreeView(this);
m_treeView->setObjectName("ContextTree");
m_treeView->setHeaderHidden(false);
m_treeView->setDragEnabled(true);
m_treeView->setAcceptDrops(true);
m_treeView->setDropIndicatorShown(true);
m_treeView->setDragDropMode(QAbstractItemView::DragDrop);
m_model = new ContextModel(this);
m_treeView->setModel(m_model);
m_splitter = new QSplitter(Qt::Vertical, this);
m_splitter->addWidget(m_treeView);
m_propertiesPanel = new PropertiesPanel(m_splitter);
m_splitter->addWidget(m_propertiesPanel);
QList<int> sizes;
sizes << 400 << 600;
m_splitter->setSizes(sizes);
m_layout->addWidget(m_splitter);
connect(m_propertiesPanel, &PropertiesPanel::propertyUpdated, this, &ContextPanel::propertyUpdated);
connect(m_treeView->selectionModel(), &QItemSelectionModel::selectionChanged,
this, &ContextPanel::onSelectionChanged);
auto* deleteShortcut = new QShortcut(QKeySequence::Delete, this);
connect(deleteShortcut, &QShortcut::activated, [this]() {
auto selectedIndexes = m_treeView->selectionModel()->selectedIndexes();
if (selectedIndexes.isEmpty() || !m_context) return;
std::vector<uLib::Object*> toRemove;
for (const auto& idx : selectedIndexes) {
if (idx.column() == 0) {
toRemove.push_back(static_cast<uLib::Object*>(idx.internalPointer()));
}
}
for (auto* obj : toRemove) {
m_context->RemoveObject(obj);
}
});
}
ContextPanel::~ContextPanel() {}
void ContextPanel::setContext(uLib::ObjectsContext* context) {
m_context = context;
m_model->setContext(context);
m_treeView->expandAll();
}
void ContextPanel::setPropertyContext(uLib::ObjectsContext* context) {
m_propertiesPanel->setContext(context);
}
void ContextPanel::onSelectionChanged(const QItemSelection& selected, const QItemSelection& deselected) {
uLib::Object* target = nullptr;
if (!selected.indexes().isEmpty()) {
target = static_cast<uLib::Object*>(selected.indexes().first().internalPointer());
}
emit objectSelected(target);
m_propertiesPanel->setObject(target);
}
void ContextPanel::selectObject(uLib::Object* obj) {
if (!obj) {
clearSelection();
return;
}
// Recursive search helper
std::function<QModelIndex(const QModelIndex&)> findIdx = [&](const QModelIndex& parent) -> QModelIndex {
for (int i = 0; i < m_model->rowCount(parent); ++i) {
QModelIndex idx = m_model->index(i, 0, parent);
if (idx.internalPointer() == obj) return idx;
if (m_model->rowCount(idx) > 0) {
QModelIndex childIdx = findIdx(idx);
if (childIdx.isValid()) return childIdx;
}
}
return QModelIndex();
};
QModelIndex targetIdx = findIdx(QModelIndex());
if (targetIdx.isValid()) {
QSignalBlocker blocker(m_treeView->selectionModel());
// Expand parents so the selection is visible
QModelIndex p = targetIdx.parent();
while (p.isValid()) {
m_treeView->expand(p);
p = p.parent();
}
m_treeView->selectionModel()->select(targetIdx, QItemSelectionModel::ClearAndSelect | QItemSelectionModel::Rows);
m_treeView->scrollTo(targetIdx);
m_propertiesPanel->setObject(obj);
}
}
void ContextPanel::clearSelection() {
QSignalBlocker blocker(m_treeView->selectionModel());
m_treeView->selectionModel()->clearSelection();
m_propertiesPanel->setObject(nullptr);
}

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#ifndef CONTEXTPANEL_H
#define CONTEXTPANEL_H
#include <QWidget>
#include <QItemSelection>
#include "Core/Object.h"
class QVBoxLayout;
class QHBoxLayout;
class QLabel;
class QTreeView;
class QSplitter;
class ContextModel;
namespace uLib { class ObjectsContext; }
class ContextPanel : public QWidget {
Q_OBJECT
public:
ContextPanel(QWidget* parent = nullptr);
~ContextPanel();
void setContext(uLib::ObjectsContext* context);
void setPropertyContext(uLib::ObjectsContext* context);
void selectObject(uLib::Object* obj);
void clearSelection();
signals:
void objectSelected(uLib::Object* obj);
void propertyUpdated();
private slots:
void onSelectionChanged(const QItemSelection& selected, const QItemSelection& deselected);
private:
QVBoxLayout* m_layout;
QWidget* m_titleBar;
QLabel* m_titleLabel;
QTreeView* m_treeView;
ContextModel* m_model;
QSplitter* m_splitter;
class PropertiesPanel* m_propertiesPanel;
uLib::ObjectsContext* m_context;
};
#endif // CONTEXTPANEL_H

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#include "MainPanel.h"
#include "ViewportPane.h"
#include "ContextPanel.h"
#include "PropertiesPanel.h"
#include "Core/ObjectFactory.h"
#include "Core/ObjectsContext.h"
#include "Vtk/vtkObjectsContext.h"
#include "Vtk/vtkQViewport.h"
#include "Vtk/vtkViewportProperties.h"
#include <Vtk/uLibVtkInterface.h>
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QSplitter>
#include <QLabel>
#include <QPushButton>
#include <QMenu>
#include <QAction>
#include <QShortcut>
#include <QApplication>
#include <QFileDialog>
#include <QFileInfo>
#include "StyleManager.h"
#include "Math/VoxImage.h"
#include "PreferencesDialog.h"
#include "Settings.h"
MainPanel::MainPanel(QWidget* parent) : QWidget(parent), m_context(nullptr), m_mainVtkContext(nullptr), m_viewportProps(nullptr) {
this->setObjectName("MainPanel");
this->setAttribute(Qt::WA_StyledBackground);
auto* mainLayout = new QVBoxLayout(this);
mainLayout->setContentsMargins(0, 0, 0, 0);
mainLayout->setSpacing(0);
// 1. Top Menu Panel
auto* menuPanel = new QWidget(this);
menuPanel->setObjectName("MenuPanel");
menuPanel->setFixedHeight(36);
auto* menuLayout = new QHBoxLayout(menuPanel);
menuLayout->setContentsMargins(10, 0, 10, 0);
menuLayout->setSpacing(15);
auto* logo = new QLabel("G-COMPOSE", menuPanel);
logo->setObjectName("LogoLabel");
// File Menu Button
auto* btnFile = new QPushButton("File", menuPanel);
btnFile->setObjectName("MenuButton");
auto* fileMenu = new QMenu(btnFile);
fileMenu->addAction("Open", this, &MainPanel::onOpen);
fileMenu->addAction("Save", this, &MainPanel::onSave);
fileMenu->addAction("Save As", this, &MainPanel::onSaveAs);
fileMenu->addSeparator();
fileMenu->addAction("Preferences", this, &MainPanel::onPreferences);
fileMenu->addSeparator();
fileMenu->addAction("Exit", this, &MainPanel::onExit);
btnFile->setMenu(fileMenu);
// New Menu Button
auto* btnNew = new QPushButton("Add", menuPanel);
btnNew->setObjectName("MenuButton");
auto* newMenu = new QMenu(btnNew);
auto classes = uLib::ObjectFactory::Instance().GetRegisteredClasses();
for (const auto& className : classes) {
auto* action = newMenu->addAction(QString::fromStdString(className));
connect(action, &QAction::triggered, [this, className]() {
this->onCreateObject(className);
});
}
btnNew->setMenu(newMenu);
menuLayout->addWidget(logo);
menuLayout->addWidget(btnFile);
menuLayout->addWidget(btnNew);
menuLayout->addStretch();
mainLayout->addWidget(menuPanel);
// 2. Central Splitter Area
m_rootSplitter = new QSplitter(Qt::Horizontal, this);
m_contextPanel = new ContextPanel(m_rootSplitter);
m_rootSplitter->addWidget(m_contextPanel);
m_rootSplitter->setStretchFactor(0, 0);
m_firstPane = new ViewportPane(m_rootSplitter);
m_rootSplitter->addWidget(m_firstPane);
m_rootSplitter->setStretchFactor(1, 1);
connect(m_contextPanel, &ContextPanel::objectSelected, [this](uLib::Object* obj) {
if (auto* viewport = qobject_cast<uLib::Vtk::QViewport*>(m_firstPane->currentViewport())) {
uLib::Vtk::Prop3D* prop3d = nullptr;
if (m_mainVtkContext) {
prop3d = m_mainVtkContext->GetProp3D(obj);
}
viewport->SelectProp3D(prop3d);
// Update the display properties in the viewport pane itself - use the prop3d proxy if possible
m_firstPane->setObject(prop3d ? (uLib::Object*)prop3d : obj);
} else {
m_firstPane->setObject(obj);
}
});
connect(m_contextPanel, &ContextPanel::propertyUpdated, [this](){
auto viewports = this->findChildren<uLib::Vtk::QViewport*>();
for (auto* vp : viewports) {
vp->Render();
}
});
// Set initial sizes: Context(250), Viewport(600), Properties(250)
QList<int> sizes;
sizes << 250 << 600 << 250;
m_rootSplitter->setSizes(sizes);
mainLayout->addWidget(m_rootSplitter, 1);
// Shortcuts
auto* groupShortcut = new QShortcut(QKeySequence("Ctrl+G"), this);
connect(groupShortcut, &QShortcut::activated, [this]() {
if (auto* viewport = qobject_cast<uLib::Vtk::QViewport*>(m_firstPane->currentViewport())) {
viewport->GroupSelection(m_context);
}
});
}
void MainPanel::setContext(uLib::ObjectsContext* context) {
m_context = context;
m_contextPanel->setContext(context);
// Propagate context to all panels for reference property dropdowns
m_contextPanel->setPropertyContext(context);
m_firstPane->setContext(context);
if (m_mainVtkContext) {
if (auto* viewport = qobject_cast<uLib::Vtk::QViewport*>(m_firstPane->currentViewport())) {
viewport->RemoveProp3D(*m_mainVtkContext);
}
delete m_mainVtkContext;
m_mainVtkContext = nullptr;
}
if (context) {
if (auto* viewport = qobject_cast<uLib::Vtk::QViewport*>(m_firstPane->currentViewport())) {
m_mainVtkContext = new uLib::Vtk::ObjectsContext(context);
// viewport->AddProp3D(*m_mainVtkContext); // redundant
auto syncSelection = [this](uLib::Vtk::Prop3D* p) {
if (!p) {
m_contextPanel->clearSelection();
m_firstPane->setObject(nullptr);
} else {
m_contextPanel->selectObject(p->GetContent());
m_firstPane->setObject(p);
}
};
connect(viewport, &uLib::Vtk::QViewport::prop3dSelected, syncSelection);
uLib::Object::connect(m_mainVtkContext, &uLib::Vtk::ObjectsContext::Prop3DAdded, [this](uLib::Vtk::Prop3D* p) {
if (p) {
auto panes = this->findChildren<ViewportPane*>();
for (auto* pane : panes) {
if (auto* vp = qobject_cast<uLib::Vtk::QViewport*>(pane->currentViewport())) {
vp->AddProp3D(*p);
vp->ZoomAuto();
vp->Render();
}
}
}
});
uLib::Object::connect(m_mainVtkContext, &uLib::Vtk::ObjectsContext::Prop3DRemoved, [this](uLib::Vtk::Prop3D* p) {
if (p) {
auto panes = this->findChildren<ViewportPane*>();
for (auto* pane : panes) {
if (auto* vp = qobject_cast<uLib::Vtk::QViewport*>(pane->currentViewport())) {
vp->RemoveProp3D(*p);
vp->Render();
}
}
}
});
// Add any prop3ds that were created during m_mainVtkContext's construction to all panes
auto panes = this->findChildren<ViewportPane*>();
for (const auto& obj : context->GetObjects()) {
if (auto* p = m_mainVtkContext->GetProp3D(obj.get())) {
for (auto* pane : panes) {
if (auto* vp = qobject_cast<uLib::Vtk::QViewport*>(pane->currentViewport())) {
vp->AddProp3D(*p);
}
}
}
}
uLib::Object::connect(context, &uLib::Object::Updated, [viewport]() {
viewport->Render();
});
viewport->ZoomAuto();
viewport->Render();
}
}
}
void MainPanel::onCreateObject(const std::string& className) {
if (!m_context) return;
auto* obj = uLib::ObjectFactory::Instance().Create(className);
if (obj) {
m_context->AddObject(obj);
}
}
void MainPanel::onOpen() {
QString fileName = QFileDialog::getOpenFileName(this, "Open File", "",
"VTK/VTI Images (*.vtk *.vti);;All Files (*.*)");
if (fileName.isEmpty()) return;
QFileInfo info(fileName);
QString ext = info.suffix().toLower();
if (ext == "vti" || ext == "vtk") {
auto* obj = uLib::ObjectFactory::Instance().Create("VoxImage");
auto* vox = dynamic_cast<uLib::Abstract::VoxImage*>(obj);
if (vox) {
bool success = false;
if (ext == "vti") {
success = vox->ImportFromVti(fileName.toStdString().c_str());
} else {
success = vox->ImportFromVtk(fileName.toStdString().c_str());
}
if (success) {
obj->SetInstanceName(info.fileName().toStdString());
m_context->AddObject(obj);
} else {
delete obj;
}
} else {
delete obj;
}
}
}
void MainPanel::onSave() {
// Placeholder for save logic
}
void MainPanel::onSaveAs() {
// Placeholder for save as logic
}
void MainPanel::onExit() {
qApp->quit();
}
void MainPanel::onPreferences() {
uLib::Qt::PreferencesDialog dlg(this);
if (dlg.exec() == QDialog::Accepted) {
// Apply theme and GUI font
auto theme = uLib::Qt::Settings::Instance().GetTheme();
auto guiFont = uLib::Qt::Settings::Instance().GetGuiFont();
StyleManager::applyStyle(qApp, theme == uLib::Qt::Settings::Dark ? "dark" : "bright", guiFont);
// Apply rendering and font preferences to all viewports
bool throttled = uLib::Qt::Settings::Instance().GetThrottledRendering();
auto font = uLib::Qt::Settings::Instance().GetFont();
auto fontColor = uLib::Qt::Settings::Instance().GetFontColor();
auto viewports = this->findChildren<uLib::Vtk::QViewport*>();
for (auto* vp : viewports) {
vp->SetThrottledRendering(throttled);
vp->SetFont(font);
vp->SetFontColor(fontColor);
vp->Render();
}
}
}
MainPanel::~MainPanel() {}

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#ifndef MAINPANEL_H
#define MAINPANEL_H
#include <QWidget>
class QSplitter;
class ViewportPane;
class ContextPanel;
class PropertiesPanel;
namespace uLib {
class ObjectsContext;
namespace Vtk {
class ObjectsContext;
class ViewportProperties;
}
}
class MainPanel : public QWidget {
Q_OBJECT
public:
explicit MainPanel(QWidget* parent = nullptr);
virtual ~MainPanel();
void setContext(uLib::ObjectsContext* context);
ViewportPane* getFirstPane() const { return m_firstPane; }
private slots:
void onOpen();
void onSave();
void onSaveAs();
void onExit();
void onPreferences();
void onCreateObject(const std::string& className);
private:
QSplitter* m_rootSplitter;
ViewportPane* m_firstPane;
ContextPanel* m_contextPanel;
uLib::ObjectsContext* m_context;
uLib::Vtk::ObjectsContext* m_mainVtkContext;
uLib::Vtk::ViewportProperties* m_viewportProps;
};
#endif // MAINPANEL_H

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#include "MainWindow.h"
#include <QSplitter>
#include "MainPanel.h"
#include "Core/ObjectsContext.h"
using namespace uLib;
MainWindow::MainWindow(QWidget* parent) : QMainWindow(parent) {
m_panel = new MainPanel(this);
setCentralWidget(m_panel);
setWindowTitle("gcompose - Qt VTK Interface");
resize(1200, 800);
}
MainWindow::~MainWindow() {
}
void MainWindow::setContext(uLib::ObjectsContext* context) {
m_panel->setContext(context);
}

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#ifndef MAINWINDOW_H
#define MAINWINDOW_H
#include <QMainWindow>
#include <QVTKOpenGLNativeWidget.h>
class MainPanel;
class ViewportPane;
namespace uLib {
namespace Vtk {
}
class ObjectsContext;
}
class MainWindow : public QMainWindow {
Q_OBJECT
public:
MainWindow(QWidget* parent = nullptr);
virtual ~MainWindow();
void setContext(uLib::ObjectsContext* context);
MainPanel* getPanel() { return m_panel; }
private:
MainPanel* m_panel;
};
#endif

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#include "PreferencesDialog.h"
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QFormLayout>
#include <QPushButton>
#include <QLabel>
#include <QGroupBox>
#include <QColorDialog>
#include <QFormLayout>
namespace uLib {
namespace Qt {
PreferencesDialog::PreferencesDialog(QWidget* parent) : QDialog(parent) {
setWindowTitle("Preferences");
setMinimumWidth(400);
auto* mainLayout = new QVBoxLayout(this);
mainLayout->setSpacing(20);
mainLayout->setContentsMargins(20, 20, 20, 20);
// ── General / Rendering Settings ────────────────────────────────────────
auto* renderingGroup = new QGroupBox("Appearance & Performance", this);
auto* renderingLayout = new QVBoxLayout(renderingGroup);
auto* themeLayout = new QHBoxLayout();
themeLayout->addWidget(new QLabel("Color Theme:"));
m_themeCombo = new QComboBox(renderingGroup);
m_themeCombo->addItem("Dark");
m_themeCombo->addItem("Bright");
m_themeCombo->setCurrentIndex(Settings::Instance().GetTheme() == Settings::Dark ? 0 : 1);
themeLayout->addWidget(m_themeCombo);
themeLayout->addStretch();
renderingLayout->addLayout(themeLayout);
renderingLayout->addSpacing(10);
m_throttledRendering = new QCheckBox("Enable throttled rendering (recommended for performance)", renderingGroup);
m_throttledRendering->setChecked(Settings::Instance().GetThrottledRendering());
m_throttledRendering->setToolTip("Limits framerate to ~60fps to reduce CPU/GPU usage.");
renderingLayout->addWidget(m_throttledRendering);
mainLayout->addWidget(renderingGroup);
// ── Units Settings ──────────────────────────────────────────────────────
auto* unitsGroup = new QGroupBox("Preferred Units", this);
auto* unitsLayout = new QFormLayout(unitsGroup);
unitsLayout->setLabelAlignment(::Qt::AlignRight);
unitsLayout->setSpacing(10);
auto addUnitRow = [&](const QString& label, Settings::Dimension dim, const QStringList& units) {
auto* combo = new QComboBox(unitsGroup);
combo->addItems(units);
std::string current = Settings::Instance().GetPreferredUnit(dim);
int idx = combo->findText(QString::fromStdString(current));
if (idx >= 0) combo->setCurrentIndex(idx);
unitsLayout->addRow(label + ":", combo);
m_unitCombos[dim] = combo;
};
addUnitRow("Length", Settings::Length, {"m", "cm", "mm", "um", "nm"});
addUnitRow("Angle", Settings::Angle, {"deg", "rad"});
addUnitRow("Energy", Settings::Energy, {"MeV", "GeV", "eV", "keV", "TeV"});
addUnitRow("Time", Settings::Time, {"ns", "s", "ms", "us"});
mainLayout->addWidget(unitsGroup);
// ── Font Configuration ──────────────────────────────────────────────────
auto* fontGroup = new QGroupBox("Viewport Font Configuration", this);
auto* fontLayout = new QFormLayout(fontGroup);
fontLayout->setLabelAlignment(::Qt::AlignRight);
FontConfig currentFont = Settings::Instance().GetFont();
m_currentFontColor = Settings::Instance().GetFontColor();
m_fontFamilies = new QComboBox(fontGroup);
m_fontFamilies->addItems({"Arial", "Courier", "Times"});
m_fontFamilies->setCurrentText(QString::fromStdString(currentFont.family));
m_fontSize = new QSpinBox(fontGroup);
m_fontSize->setRange(6, 72);
m_fontSize->setValue(currentFont.size);
m_fontBold = new QCheckBox("Bold", fontGroup);
m_fontBold->setChecked(currentFont.bold);
m_fontItalic = new QCheckBox("Italic", fontGroup);
m_fontItalic->setChecked(currentFont.italic);
m_fontColorBtn = new QPushButton(fontGroup);
m_fontColorBtn->setFixedWidth(60);
updateFontColorButton();
connect(m_fontColorBtn, &QPushButton::clicked, [this](){
QColor c = QColor::fromRgbF(m_currentFontColor.x(), m_currentFontColor.y(), m_currentFontColor.z());
QColor selected = QColorDialog::getColor(c, this, "Select Font Color");
if (selected.isValid()) {
m_currentFontColor = Vector3d(selected.redF(), selected.greenF(), selected.blueF());
updateFontColorButton();
}
});
fontLayout->addRow("Family:", m_fontFamilies);
fontLayout->addRow("Size:", m_fontSize);
fontLayout->addRow(m_fontBold);
fontLayout->addRow(m_fontItalic);
fontLayout->addRow("Color:", m_fontColorBtn);
mainLayout->addWidget(fontGroup);
// ── GUI Font Configuration ──────────────────────────────────────────────
auto* guiFontGroup = new QGroupBox("GUI Font Configuration", this);
auto* guiFontLayout = new QFormLayout(guiFontGroup);
guiFontLayout->setLabelAlignment(::Qt::AlignRight);
FontConfig currentGuiFont = Settings::Instance().GetGuiFont();
m_guiFontFamilies = new QComboBox(guiFontGroup);
m_guiFontFamilies->setEditable(true);
m_guiFontFamilies->addItems({"Inter", "Roboto", "Segoe UI", "Arial", "Ubuntu"});
m_guiFontFamilies->setCurrentText(QString::fromStdString(currentGuiFont.family));
m_guiFontSize = new QSpinBox(guiFontGroup);
m_guiFontSize->setRange(6, 48);
m_guiFontSize->setValue(currentGuiFont.size);
m_guiFontBold = new QCheckBox("Bold", guiFontGroup);
m_guiFontBold->setChecked(currentGuiFont.bold);
m_guiFontItalic = new QCheckBox("Italic", guiFontGroup);
m_guiFontItalic->setChecked(currentGuiFont.italic);
guiFontLayout->addRow("Family:", m_guiFontFamilies);
guiFontLayout->addRow("Size:", m_guiFontSize);
guiFontLayout->addRow(m_guiFontBold);
guiFontLayout->addRow(m_guiFontItalic);
mainLayout->addWidget(guiFontGroup);
mainLayout->addStretch();
// ── Buttons ─────────────────────────────────────────────────────────────
auto* buttonLayout = new QHBoxLayout();
buttonLayout->addStretch();
auto* btnCancel = new QPushButton("Cancel", this);
connect(btnCancel, &QPushButton::clicked, this, &QDialog::reject);
auto* btnOk = new QPushButton("Apply", this);
btnOk->setDefault(true);
btnOk->setObjectName("DisplayToggleBtn"); // Reusing high-contrast style
btnOk->setMinimumWidth(100);
connect(btnOk, &QPushButton::clicked, this, &PreferencesDialog::onAccept);
buttonLayout->addWidget(btnCancel);
buttonLayout->addWidget(btnOk);
mainLayout->addLayout(buttonLayout);
}
void PreferencesDialog::onAccept() {
Settings::Instance().SetThrottledRendering(m_throttledRendering->isChecked());
Settings::Instance().SetTheme(m_themeCombo->currentIndex() == 0 ? Settings::Dark : Settings::Bright);
for (auto const& pair : m_unitCombos) {
Settings::Instance().SetPreferredUnit(pair.first, pair.second->currentText().toStdString());
}
FontConfig font(m_fontFamilies->currentText().toStdString(), m_fontSize->value(), m_fontBold->isChecked(), m_fontItalic->isChecked());
Settings::Instance().SetFont(font);
Settings::Instance().SetFontColor(m_currentFontColor);
FontConfig guiFont(m_guiFontFamilies->currentText().toStdString(), m_guiFontSize->value(), m_guiFontBold->isChecked(), m_guiFontItalic->isChecked());
Settings::Instance().SetGuiFont(guiFont);
accept();
}
void PreferencesDialog::updateFontColorButton() {
QColor c = QColor::fromRgbF(m_currentFontColor.x(), m_currentFontColor.y(), m_currentFontColor.z());
m_fontColorBtn->setStyleSheet(QString("background-color: %1; border: 1px solid #555; height: 18px;").arg(c.name()));
}
} // namespace Qt
} // namespace uLib

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#ifndef GCOMPOSE_PREFERENCESDIALOG_H
#define GCOMPOSE_PREFERENCESDIALOG_H
#include <QDialog>
#include <QCheckBox>
#include <QComboBox>
#include <QSpinBox>
#include <QPushButton>
#include <map>
#include <string>
#include "Settings.h"
namespace uLib {
namespace Qt {
class PreferencesDialog : public QDialog {
Q_OBJECT
public:
explicit PreferencesDialog(QWidget* parent = nullptr);
private slots:
void onAccept();
private:
QCheckBox* m_throttledRendering;
QComboBox* m_themeCombo;
std::map<Settings::Dimension, QComboBox*> m_unitCombos;
// Font Configuration
QComboBox* m_fontFamilies;
QSpinBox* m_fontSize;
QCheckBox* m_fontBold;
QCheckBox* m_fontItalic;
QPushButton* m_fontColorBtn;
Vector3d m_currentFontColor;
// GUI Font Configuration
QComboBox* m_guiFontFamilies;
QSpinBox* m_guiFontSize;
QCheckBox* m_guiFontBold;
QCheckBox* m_guiFontItalic;
void updateFontColorButton();
};
} // namespace Qt
} // namespace uLib
#endif

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#include "PropertiesPanel.h"
#include "PropertyWidgets.h"
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QLabel>
#include "Core/Object.h"
PropertiesPanel::PropertiesPanel(QWidget* parent) : QWidget(parent) {
this->setObjectName("PropertiesPanel");
this->setAttribute(Qt::WA_StyledBackground);
m_layout = new QVBoxLayout(this);
m_layout->setContentsMargins(0, 0, 0, 0);
m_layout->setSpacing(0);
// Title bar
m_titleBar = new QWidget(this);
m_titleBar->setObjectName("PaneTitleBar");
m_titleBar->setFixedHeight(22);
auto* titleLayout = new QHBoxLayout(m_titleBar);
titleLayout->setContentsMargins(5, 0, 5, 0);
m_titleLabel = new QLabel("Properties", m_titleBar);
m_titleLabel->setObjectName("TitleLabel");
titleLayout->addWidget(m_titleLabel);
titleLayout->addStretch();
m_layout->addWidget(m_titleBar);
// Editor
m_editor = new uLib::Qt::PropertyEditor(this);
m_layout->addWidget(m_editor, 1);
connect(m_editor, &uLib::Qt::PropertyEditor::propertyUpdated, [this](uLib::PropertyBase*){
emit propertyUpdated();
});
}
void PropertiesPanel::setObject(uLib::Object* obj) {
if (obj) {
m_titleLabel->setText(QString("Properties: %1 (%2)")
.arg(QString::fromStdString(obj->GetInstanceName()))
.arg(obj->GetClassName()));
} else {
m_titleLabel->setText("Properties: (No selection)");
}
m_editor->setObject(obj);
}
void PropertiesPanel::setContext(uLib::ObjectsContext* context) {
m_editor->setContext(context);
}
PropertiesPanel::~PropertiesPanel() {}

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#ifndef PROPERTIES_PANEL_H
#define PROPERTIES_PANEL_H
#include <QWidget>
namespace uLib {
class Object;
class ObjectsContext;
namespace Qt { class PropertyEditor; }
}
class QVBoxLayout;
class QLabel;
/**
* @class PropertiesPanel
* @brief A panel dedicated to inspecting and editing properties of a selected uLib::Object.
*/
class PropertiesPanel : public QWidget {
Q_OBJECT
public:
explicit PropertiesPanel(QWidget* parent = nullptr);
virtual ~PropertiesPanel();
/** @brief Sets the object to be inspected. */
void setObject(uLib::Object* obj);
/** @brief Sets the context for reference property dropdowns. */
void setContext(uLib::ObjectsContext* context);
signals:
void propertyUpdated();
private:
QVBoxLayout* m_layout;
QWidget* m_titleBar;
QLabel* m_titleLabel;
uLib::Qt::PropertyEditor* m_editor;
};
#endif // PROPERTIES_PANEL_H

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#include "PropertyWidgets.h"
#include <QSignalBlocker>
#include <QRegularExpression>
#include <QRegularExpressionMatch>
#include <QComboBox>
#include <QCheckBox>
#include "Vtk/uLibVtkInterface.h"
#include "Math/Units.h"
#include "Math/Dense.h"
#include <QPushButton>
#include <QColorDialog>
#include <QFrame>
#include <QSlider>
#include <QFontDialog>
#include "Settings.h"
#include "Core/ObjectsContext.h"
namespace uLib {
namespace Qt {
PropertyWidgetBase::PropertyWidgetBase(PropertyBase* prop, QWidget* parent)
: QWidget(parent), m_BaseProperty(prop) {
m_Layout = new QHBoxLayout(this);
m_Layout->setContentsMargins(4, 2, 4, 2);
std::string unit = prop->GetUnits();
QString labelText = QString::fromStdString(prop->GetName());
if (!unit.empty() && unit != "color") {
auto dim = Settings::Instance().IdentifyDimension(unit);
std::string pref = Settings::Instance().GetPreferredUnit(dim);
if (!pref.empty()) {
labelText += " [" + QString::fromStdString(pref) + "]";
} else {
labelText += " [" + QString::fromStdString(unit) + "]";
}
}
m_Label = new QLabel(labelText, this);
m_Label->setMinimumWidth(120);
m_Layout->addWidget(m_Label);
this->setEnabled(!prop->IsReadOnly());
}
PropertyWidgetBase::~PropertyWidgetBase() {
m_Connection.disconnect();
}
// Helper for unit parsing
double parseWithUnits(const QString& text, double* factorOut, QString* suffixOut) {
static QRegularExpression re("^\\s*([-+]?[0-9]*\\.?[0-9]+([eE][-+]?[0-9]+)?)\\s*(_?[a-zA-Z]+)?\\s*$");
QRegularExpressionMatch match = re.match(text);
if (!match.hasMatch()) return 0.0;
double num = match.captured(1).toDouble();
QString unit = match.captured(3);
double factor = factorOut ? *factorOut : 1.0;
if (!unit.isEmpty()) {
QString u = unit.startsWith('_') ? unit.mid(1) : unit;
if (u == "m") factor = CLHEP::meter;
else if (u == "cm") factor = CLHEP::centimeter;
else if (u == "mm") factor = CLHEP::millimeter;
else if (u == "um") factor = CLHEP::micrometer;
else if (u == "nm") factor = CLHEP::nanometer;
else if (u == "km") factor = CLHEP::kilometer;
else if (u == "deg") factor = CLHEP::degree;
else if (u == "rad") factor = CLHEP::radian;
else if (u == "ns") factor = CLHEP::nanosecond;
else if (u == "s") factor = CLHEP::second;
else if (u == "ms") factor = CLHEP::millisecond;
else if (u == "MeV") factor = CLHEP::megaelectronvolt;
else if (u == "eV") factor = CLHEP::electronvolt;
else if (u == "keV") factor = CLHEP::kiloelectronvolt;
else if (u == "GeV") factor = CLHEP::gigaelectronvolt;
else if (u == "TeV") factor = CLHEP::teraelectronvolt;
if (suffixOut) *suffixOut = u;
} else if (suffixOut) {
// Reuse previous suffix if none provided, or empty
}
if (factorOut) *factorOut = factor;
return num * factor;
}
// UnitLineEdit implementation
UnitLineEdit::UnitLineEdit(QWidget* parent) : QLineEdit(parent), m_Value(0), m_Factor(1.0), m_Suffix(""), m_IsInteger(false) {
connect(this, &QLineEdit::editingFinished, this, &UnitLineEdit::onEditingFinished);
}
void UnitLineEdit::setUnits(const QString& suffix, double factor) {
m_Suffix = suffix;
m_Factor = factor;
updateText();
}
void UnitLineEdit::setValue(double val) {
if (m_Value != val) {
m_Value = val;
// Suffix heuristic ONLY if it was mm and no explicit unit was given?
// Actually, if m_Suffix is empty or we have a specific one, we should respect it.
// The original code had a heuristic, but it's better to let property decide.
// Let's keep it ONLY if m_Suffix was mm (legacy behavior)
if (!m_IsInteger && m_Suffix == "mm" && std::abs(val) >= 1000.0) { m_Suffix = "m"; m_Factor = CLHEP::meter; }
updateText();
}
}
void UnitLineEdit::onEditingFinished() {
double factor = m_Factor;
QString suffix = m_Suffix;
double parsedVal = parseWithUnits(text(), &factor, &suffix);
if (m_IsInteger) {
parsedVal = std::round(parsedVal);
}
if (m_Value != parsedVal) {
m_Value = parsedVal;
emit valueManualChanged(m_Value);
}
updateText();
}
void UnitLineEdit::updateText() {
QSignalBlocker blocker(this);
QString s;
if (m_IsInteger) {
s = QString::number((int)m_Value);
if (s.isEmpty()) s = "0";
} else {
double displayVal = m_Value / m_Factor;
s = QString::number(displayVal, 'g', 6);
if (!s.contains('.') && !s.contains('e')) {
s += ".0";
}
}
setText(s);
}
void UnitLineEdit::setIntegerOnly(bool integerOnly) {
m_IsInteger = integerOnly;
updateText();
}
DoublePropertyWidget::DoublePropertyWidget(Property<double>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Edit = new UnitLineEdit(this);
std::string unit = prop->GetUnits();
if (!unit.empty()) {
auto dim = Settings::Instance().IdentifyDimension(unit);
std::string pref = Settings::Instance().GetPreferredUnit(dim);
double factor = Settings::Instance().GetUnitFactor(pref);
m_Edit->setUnits(QString::fromStdString(pref), factor);
}
m_Edit->setValue(prop->Get());
m_Layout->addWidget(m_Edit, 1);
connect(m_Edit, &UnitLineEdit::valueManualChanged, [this](double val){ m_Prop->Set(val); emit updated(); });
m_Connection = uLib::Object::connect(m_Prop, &Property<double>::Updated, [this](){
m_Edit->setValue(m_Prop->Get());
});
}
FloatPropertyWidget::FloatPropertyWidget(Property<float>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Edit = new UnitLineEdit(this);
std::string unit = prop->GetUnits();
if (!unit.empty()) {
auto dim = Settings::Instance().IdentifyDimension(unit);
std::string pref = Settings::Instance().GetPreferredUnit(dim);
double factor = Settings::Instance().GetUnitFactor(pref);
m_Edit->setUnits(QString::fromStdString(pref), factor);
}
m_Edit->setValue(prop->Get());
m_Layout->addWidget(m_Edit, 1);
connect(m_Edit, &UnitLineEdit::valueManualChanged, [this](double val){ m_Prop->Set((float)val); emit updated(); });
m_Connection = uLib::Object::connect(m_Prop, &Property<float>::Updated, [this](){
m_Edit->setValue((double)m_Prop->Get());
});
}
IntPropertyWidget::IntPropertyWidget(Property<int>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Edit = new UnitLineEdit(this);
m_Edit->setIntegerOnly(true);
std::string unit = prop->GetUnits();
if (!unit.empty()) {
auto dim = Settings::Instance().IdentifyDimension(unit);
std::string pref = Settings::Instance().GetPreferredUnit(dim);
double factor = Settings::Instance().GetUnitFactor(pref);
m_Edit->setUnits(QString::fromStdString(pref), factor);
}
m_Edit->setValue(prop->Get());
m_Layout->addWidget(m_Edit, 1);
connect(m_Edit, &UnitLineEdit::valueManualChanged, [this](double val){ m_Prop->Set((int)val); emit updated(); });
m_Connection = uLib::Object::connect(m_Prop, &Property<int>::Updated, [this](){
m_Edit->setValue((double)m_Prop->Get());
});
}
BoolPropertyWidget::BoolPropertyWidget(Property<bool>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_CheckBox = new QCheckBox(this);
m_CheckBox->setChecked(prop->Get());
m_Layout->addWidget(m_CheckBox, 1);
connect(m_CheckBox, &QCheckBox::toggled, [this](bool val){ if (m_Prop->Get() != val) { m_Prop->Set(val); emit updated(); } });
m_Connection = uLib::Object::connect(m_Prop, &Property<bool>::Updated, [this](){
if (m_CheckBox->isChecked() != m_Prop->Get()) {
QSignalBlocker blocker(m_CheckBox);
m_CheckBox->setChecked(m_Prop->Get());
}
});
}
BoolPropertyWidget::~BoolPropertyWidget() {}
RangePropertyWidget::RangePropertyWidget(Property<double>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Slider = new QSlider(::Qt::Horizontal, this);
m_Slider->setRange(0, 100);
m_Slider->setMinimumWidth(80);
m_Edit = new UnitLineEdit(this);
m_Edit->setFixedWidth(50);
m_Layout->addWidget(m_Slider, 1);
m_Layout->addWidget(m_Edit, 0);
connect(m_Slider, &QSlider::valueChanged, this, &RangePropertyWidget::onSliderChanged);
connect(m_Edit, &UnitLineEdit::valueManualChanged, [this](double val){ m_Prop->Set(val); emit updated(); });
m_Connection = uLib::Object::connect(m_Prop, &Property<double>::Updated, [this](){
this->updateUi();
});
updateUi();
}
RangePropertyWidget::~RangePropertyWidget() { m_Connection.disconnect(); }
void RangePropertyWidget::updateUi() {
double val = m_Prop->Get();
m_Edit->setValue(val);
if (m_Prop->GetMax() != m_Prop->GetMin()) {
int sliderVal = (int)((val - m_Prop->GetMin()) / (m_Prop->GetMax() - m_Prop->GetMin()) * 100.0);
QSignalBlocker blocker(m_Slider);
m_Slider->setValue(sliderVal);
}
}
void RangePropertyWidget::onSliderChanged(int val) {
double realVal = m_Prop->GetMin() + (val / 100.0) * (m_Prop->GetMax() - m_Prop->GetMin());
m_Prop->Set(realVal);
emit updated();
}
ColorPropertyWidget::ColorPropertyWidget(Property<Vector3d>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Button = new QPushButton(this);
m_Button->setFixedWidth(60);
this->updateButtonColor();
m_Layout->addWidget(m_Button, 0, ::Qt::AlignRight);
connect(m_Button, &QPushButton::clicked, this, &ColorPropertyWidget::onClicked);
m_Connection = uLib::Object::connect(m_Prop, &Property<Vector3d>::Updated, [this](){
this->updateButtonColor();
});
}
ColorPropertyWidget::~ColorPropertyWidget() {}
void ColorPropertyWidget::updateButtonColor() {
Vector3d c = m_Prop->Get();
QColor color = QColor::fromRgbF(std::max(0.0, std::min(1.0, c.x())),
std::max(0.0, std::min(1.0, c.y())),
std::max(0.0, std::min(1.0, c.z())));
m_Button->setStyleSheet(QString("background-color: %1; border: 1px solid #555; height: 18px;").arg(color.name()));
}
void ColorPropertyWidget::onClicked() {
Vector3d c = m_Prop->Get();
QColor current = QColor::fromRgbF(std::max(0.0, std::min(1.0, c.x())),
std::max(0.0, std::min(1.0, c.y())),
std::max(0.0, std::min(1.0, c.z())));
QColor selected = QColorDialog::getColor(current, this, "Select Color");
if (selected.isValid()) {
m_Prop->Set(Vector3d(selected.redF(), selected.greenF(), selected.blueF()));
emit updated();
}
}
StringPropertyWidget::StringPropertyWidget(Property<std::string>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_LineEdit = new QLineEdit(this);
m_LineEdit->setText(QString::fromStdString(prop->Get()));
m_Layout->addWidget(m_LineEdit, 1);
connect(m_LineEdit, &QLineEdit::editingFinished, [this](){
std::string val = m_LineEdit->text().toStdString();
if (m_Prop->Get() != val) { m_Prop->Set(val); emit updated(); }
});
m_Connection = uLib::Object::connect(m_Prop, &Property<std::string>::Updated, [this](){
if (m_LineEdit->text().toStdString() != m_Prop->Get()) {
QSignalBlocker blocker(m_LineEdit);
m_LineEdit->setText(QString::fromStdString(m_Prop->Get()));
}
});
}
StringPropertyWidget::~StringPropertyWidget() {}
FontPropertyWidget::FontPropertyWidget(Property<FontConfig>* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Button = new QPushButton(this);
m_Button->setMinimumWidth(100);
this->updateButtonText();
m_Layout->addWidget(m_Button, 1);
connect(m_Button, &QPushButton::clicked, this, &FontPropertyWidget::onClicked);
m_Connection = uLib::Object::connect(m_Prop, &Property<FontConfig>::Updated, [this](){
this->updateButtonText();
});
}
FontPropertyWidget::~FontPropertyWidget() {}
void FontPropertyWidget::updateButtonText() {
FontConfig f = m_Prop->Get();
m_Button->setText(QString::fromStdString(f.family) + " " + QString::number(f.size));
}
void FontPropertyWidget::onClicked() {
FontConfig current = m_Prop->Get();
QFont font(QString::fromStdString(current.family), current.size);
font.setBold(current.bold);
font.setItalic(current.italic);
bool ok;
QFont selected = QFontDialog::getFont(&ok, font, this, "Select Font");
if (ok) {
FontConfig newF(selected.family().toStdString(), selected.pointSize(), selected.bold(), selected.italic());
m_Prop->Set(newF);
emit updated();
}
}
class GroupHeaderWidget : public QWidget {
public:
GroupHeaderWidget(const QString& name, QWidget* parent = nullptr) : QWidget(parent) {
auto* layout = new QVBoxLayout(this);
layout->setContentsMargins(0, 8, 0, 4);
auto* line = new QFrame(this);
line->setFrameShape(QFrame::HLine);
line->setFrameShadow(QFrame::Sunken);
line->setStyleSheet("color: #555;");
layout->addWidget(line);
auto* label = new QLabel(name, this);
QFont font = label->font();
font.setBold(true);
font.setPointSize(font.pointSize() + 1);
label->setFont(font);
label->setStyleSheet("color: #aaa; text-transform: uppercase;");
layout->addWidget(label);
}
};
class EnumPropertyWidget : public PropertyWidgetBase {
PropertyBase* m_Prop;
QComboBox* m_Combo;
public:
EnumPropertyWidget(PropertyBase* prop, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
m_Combo = new QComboBox(this);
const auto& labels = prop->GetEnumLabels();
for (const auto& label : labels) {
m_Combo->addItem(QString::fromStdString(label));
}
// Get initial value
if (auto* p = dynamic_cast<Property<int>*>(prop)) {
m_Combo->setCurrentIndex(p->Get());
connect(m_Combo, &QComboBox::currentIndexChanged, [this, p](int index){
p->Set(index);
emit updated();
});
// Store connection in base m_Connection so it's auto-disconnected on destruction.
m_Connection = uLib::Object::connect(p, &Property<int>::Updated, [this, p](){
if (m_Combo->currentIndex() != p->Get()) {
QSignalBlocker blocker(m_Combo);
m_Combo->setCurrentIndex(p->Get());
}
});
}
m_Layout->addWidget(m_Combo, 1);
}
};
////////////////////////////////////////////////////////////////////////////////
// ReferencePropertyWidget
ReferencePropertyWidget::ReferencePropertyWidget(ReferencePropertyBase* prop, ::uLib::ObjectsContext* context, QWidget* parent)
: PropertyWidgetBase(prop, parent), m_RefProp(prop), m_Context(context) {
m_Combo = new QComboBox(static_cast<QWidget*>(this));
m_Layout->addWidget(m_Combo, 1);
refreshCombo();
connect(m_Combo, &QComboBox::currentIndexChanged, this, &ReferencePropertyWidget::onComboChanged);
// Listen for property updates to refresh selected item
m_Connection = uLib::Object::connect(prop, &uLib::Object::Updated, [this](){
QSignalBlocker blocker(m_Combo);
refreshCombo();
});
// Listen for context changes to refresh the dropdown list
if (m_Context) {
m_ContextConnection = uLib::Object::connect(m_Context, &uLib::Object::Updated, [this](){
QSignalBlocker blocker(m_Combo);
refreshCombo();
});
}
}
ReferencePropertyWidget::~ReferencePropertyWidget() {
m_Connection.disconnect();
m_ContextConnection.disconnect();
}
void ReferencePropertyWidget::refreshCombo() {
m_Combo->clear();
m_Combo->addItem("(none)", QVariant::fromValue((quintptr)0));
int selectedIdx = 0;
Object* currentRef = m_RefProp->GetReferencedObject();
if (m_Context) {
const auto& objects = m_Context->GetObjects();
for (const auto& obj : objects) {
if (m_RefProp->IsCompatible(obj.get())) {
QString label = QString::fromStdString(obj->GetInstanceName());
if (label.isEmpty()) {
label = QString::fromStdString(std::string(obj->GetClassName()));
}
// Add index suffix if name is empty to disambiguate
m_Combo->addItem(label, QVariant::fromValue((quintptr)obj.get()));
if (obj.get() == currentRef) {
selectedIdx = m_Combo->count() - 1;
}
}
}
}
m_Combo->setCurrentIndex(selectedIdx);
}
void ReferencePropertyWidget::onComboChanged(int index) {
if (index < 0) return;
quintptr ptr = m_Combo->itemData(index).value<quintptr>();
Object* obj = reinterpret_cast<Object*>(ptr);
m_RefProp->SetReferencedObject(obj);
Q_EMIT updated();
}
////////////////////////////////////////////////////////////////////////////////
// PropertyEditor
PropertyEditor::PropertyEditor(QWidget* parent) : QWidget(parent), m_Object(nullptr), m_Context(nullptr) {
m_MainLayout = new QVBoxLayout(this);
m_MainLayout->setContentsMargins(0, 0, 0, 0);
m_ScrollArea = new QScrollArea(this);
m_ScrollArea->setWidgetResizable(true);
m_MainLayout->addWidget(m_ScrollArea);
m_Container = new QWidget();
m_ContainerLayout = new QVBoxLayout(m_Container);
m_ContainerLayout->setAlignment(::Qt::AlignTop);
m_ScrollArea->setWidget(m_Container);
registerFactory<double>([](PropertyBase* p, QWidget* parent){
return new DoublePropertyWidget(static_cast<Property<double>*>(p), parent);
});
registerFactory<float>([](PropertyBase* p, QWidget* parent){
return new FloatPropertyWidget(static_cast<Property<float>*>(p), parent);
});
registerFactory<int>([](PropertyBase* p, QWidget* parent){
return new IntPropertyWidget(static_cast<Property<int>*>(p), parent);
});
registerFactory<bool>([](PropertyBase* p, QWidget* parent){
return new BoolPropertyWidget(static_cast<Property<bool>*>(p), parent);
});
registerFactory<std::string>([](PropertyBase* p, QWidget* parent){
return new StringPropertyWidget(static_cast<Property<std::string>*>(p), parent);
});
registerFactory<FontConfig>([](PropertyBase* p, QWidget* parent){
return new FontPropertyWidget(static_cast<Property<FontConfig>*>(p), parent);
});
// Register EnumProperty specifically (needs to check type since it holds Property<int> but is EnumProperty)
m_Factories[std::type_index(typeid(EnumProperty))] = [](PropertyBase* p, QWidget* parent) {
return new EnumPropertyWidget(p, parent);
};
// Vector Registration
registerFactory<Vector2i>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector2i, 2>(static_cast<Property<Vector2i>*>(p), parent); });
registerFactory<Vector2f>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector2f, 2>(static_cast<Property<Vector2f>*>(p), parent); });
registerFactory<Vector2d>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector2d, 2>(static_cast<Property<Vector2d>*>(p), parent); });
registerFactory<Vector3i>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector3i, 3>(static_cast<Property<Vector3i>*>(p), parent); });
registerFactory<Vector3f>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector3f, 3>(static_cast<Property<Vector3f>*>(p), parent); });
registerFactory<Vector3d>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector3d, 3>(static_cast<Property<Vector3d>*>(p), parent); });
registerFactory<Vector4i>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector4i, 4>(static_cast<Property<Vector4i>*>(p), parent); });
registerFactory<Vector4f>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector4f, 4>(static_cast<Property<Vector4f>*>(p), parent); });
registerFactory<Vector4d>([](PropertyBase* p, QWidget* parent){ return new VectorPropertyWidget<Vector4d, 4>(static_cast<Property<Vector4d>*>(p), parent); });
}
PropertyEditor::~PropertyEditor() {}
void PropertyEditor::setObject(::uLib::Object* obj, bool displayOnly) {
m_Object = obj;
clear();
if (!obj) return;
// Choose which properties to show
const std::vector<::uLib::PropertyBase*>* props = &obj->GetProperties();
if (displayOnly) {
if (auto* prop3d = dynamic_cast<::uLib::Vtk::Prop3D*>(obj)) {
props = &prop3d->GetDisplayProperties();
} else {
// If it's not a prop3d but displayOnly is requested, showing nothing or fallback?
// Fallback: core properties.
}
}
// Group properties by their group string
std::map<std::string, std::vector<::uLib::PropertyBase*>> groupedProps;
std::vector<std::string> groupOrder;
for (auto* prop : *props) {
std::string group = prop->GetGroup();
if (groupedProps.find(group) == groupedProps.end()) {
groupOrder.push_back(group);
}
groupedProps[group].push_back(prop);
}
for (const auto& groupName : groupOrder) {
if (!groupName.empty()) {
m_ContainerLayout->addWidget(new GroupHeaderWidget(QString::fromStdString(groupName), m_Container));
}
for (auto* prop : groupedProps[groupName]) {
QWidget* widget = nullptr;
// Priority 1: Check if it provides enum labels
if (!prop->GetEnumLabels().empty()) {
widget = new EnumPropertyWidget(prop, m_Container);
} else if (prop->GetUnits() == "color") {
// Color Picker for Vector3d
if (auto* pvec = dynamic_cast<Property<Vector3d>*>(prop)) {
widget = new ColorPropertyWidget(pvec, m_Container);
}
} else if (prop->HasRange()) {
// Slider for ranged doubles
if (auto* pdbl = dynamic_cast<Property<double>*>(prop)) {
widget = new RangePropertyWidget(pdbl, m_Container);
} else if (auto* pflt = dynamic_cast<Property<float>*>(prop)) {
// widget = new RangePropertyWidget<float>(pflt, m_Container);
}
} else {
// Priority 2: Check for reference properties (SmartPointer<T>)
if (auto* refProp = dynamic_cast<::uLib::ReferencePropertyBase*>(prop)) {
widget = static_cast<QWidget*>(new ReferencePropertyWidget(refProp, m_Context, m_Container));
} else {
// Priority 3: Standard factory lookup
auto it = m_Factories.find(prop->GetTypeIndex());
if (it != m_Factories.end()) {
widget = it->second(prop, m_Container);
} else {
// Debug info for unknown types
std::cout << "PropertyEditor: No factory for " << prop->GetQualifiedName()
<< " (Type: " << prop->GetTypeName() << ")" << std::endl;
widget = new PropertyWidgetBase(prop, m_Container);
widget->layout()->addWidget(new QLabel("(Read-only: " + QString::fromStdString(prop->GetValueAsString()) + ")"));
}
}
}
if (widget) {
if (auto* propWidget = qobject_cast<PropertyWidgetBase*>(widget)) {
connect(propWidget, &PropertyWidgetBase::updated, [this, prop](){
emit propertyUpdated(prop);
});
}
if (!groupName.empty()) {
// Indent grouped properties
widget->setContentsMargins(16, 0, 0, 0);
}
m_ContainerLayout->addWidget(widget);
}
}
}
m_ContainerLayout->addStretch(1);
}
void PropertyEditor::clear() {
QLayoutItem* item;
while ((item = m_ContainerLayout->takeAt(0)) != nullptr) {
delete item->widget();
delete item;
}
}
} // namespace Qt
} // namespace uLib

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#ifndef PROPERTY_WIDGETS_H
#define PROPERTY_WIDGETS_H
#include <QWidget>
class QPushButton;
class QSlider;
class QComboBox;
#include <QLabel>
#include <QHBoxLayout>
#include <QVBoxLayout>
#include <QLineEdit>
#include <QCheckBox>
#include <QScrollArea>
#include <map>
#include <typeindex>
#include <functional>
#include "Core/Property.h"
#include "Core/Object.h"
#include "Core/Signal.h"
#include "Core/FontConfig.h"
#include "Math/Dense.h"
#include "Settings.h"
namespace uLib { class ObjectsContext; }
namespace uLib {
namespace Qt {
double parseWithUnits(const QString& text, double* factorOut = nullptr, QString* suffixOut = nullptr);
class PropertyWidgetBase : public QWidget {
Q_OBJECT
public:
PropertyWidgetBase(PropertyBase* prop, QWidget* parent = nullptr);
virtual ~PropertyWidgetBase();
PropertyBase* getProperty() const { return m_BaseProperty; }
signals:
void updated();
protected:
PropertyBase* m_BaseProperty;
QHBoxLayout* m_Layout;
QLabel* m_Label;
// Stores the uLib signal connection so it can be disconnected on destruction,
// preventing use-after-free when PropertyEditor::clear() deletes widgets.
Connection m_Connection;
};
class UnitLineEdit : public QLineEdit {
Q_OBJECT
public:
UnitLineEdit(QWidget* parent = nullptr);
void setValue(double val);
void setUnits(const QString& suffix, double factor = 1.0);
double getValue() const { return m_Value; }
void setIntegerOnly(bool b);
signals:
void valueManualChanged(double val);
private slots:
void onEditingFinished();
private:
void updateText();
double m_Value;
double m_Factor;
QString m_Suffix;
bool m_IsInteger;
};
class DoublePropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
DoublePropertyWidget(Property<double>* prop, QWidget* parent = nullptr);
private:
Property<double>* m_Prop;
UnitLineEdit* m_Edit;
};
class FloatPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
FloatPropertyWidget(Property<float>* prop, QWidget* parent = nullptr);
private:
Property<float>* m_Prop;
UnitLineEdit* m_Edit;
};
class IntPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
IntPropertyWidget(Property<int>* prop, QWidget* parent = nullptr);
private:
Property<int>* m_Prop;
UnitLineEdit* m_Edit;
};
template <typename VecT, int Size>
class VectorPropertyWidget : public PropertyWidgetBase {
public:
VectorPropertyWidget(Property<VecT>* prop, QWidget* parent = nullptr)
: PropertyWidgetBase(prop, parent), m_Prop(prop) {
std::string unit = prop->GetUnits();
double factor = 1.0;
QString prefSuffix;
if (!unit.empty()) {
auto dim = Settings::Instance().IdentifyDimension(unit);
std::string pref = Settings::Instance().GetPreferredUnit(dim);
factor = Settings::Instance().GetUnitFactor(pref);
prefSuffix = QString::fromStdString(pref);
}
for (int i = 0; i < Size; ++i) {
m_Edits[i] = new UnitLineEdit(this);
if (std::is_integral<typename VecT::Scalar>::value) {
m_Edits[i]->setIntegerOnly(true);
}
if (!prefSuffix.isEmpty()) {
m_Edits[i]->setUnits(prefSuffix, factor);
}
m_Edits[i]->setEnabled(!prop->IsReadOnly());
m_Layout->addWidget(m_Edits[i], 1);
connect(m_Edits[i], &UnitLineEdit::valueManualChanged, [this, i](double val){
VecT v = m_Prop->Get();
v(i) = (typename VecT::Scalar)val;
if (m_Prop->Get() != v) {
m_Prop->Set(v);
emit updated();
}
});
}
updateEdits();
m_Connection = uLib::Object::connect(m_Prop, &Property<VecT>::Updated, [this](){
updateEdits();
});
}
~VectorPropertyWidget() { m_Connection.disconnect(); }
private:
void updateEdits() {
VecT v = m_Prop->Get();
for (int i = 0; i < Size; ++i) {
if (!m_Edits[i]->hasFocus()) {
m_Edits[i]->setValue((double)v(i));
}
}
}
Property<VecT>* m_Prop;
UnitLineEdit* m_Edits[Size];
};
class RangePropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
RangePropertyWidget(Property<double>* prop, QWidget* parent = nullptr);
virtual ~RangePropertyWidget();
private slots:
void onSliderChanged(int val);
private:
void updateUi();
Property<double>* m_Prop;
QSlider* m_Slider;
UnitLineEdit* m_Edit;
};
class BoolPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
BoolPropertyWidget(Property<bool>* prop, QWidget* parent = nullptr);
virtual ~BoolPropertyWidget();
private:
Property<bool>* m_Prop;
QCheckBox* m_CheckBox;
};
class ColorPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
ColorPropertyWidget(Property<Vector3d>* prop, QWidget* parent = nullptr);
virtual ~ColorPropertyWidget();
private slots:
void onClicked();
private:
void updateButtonColor();
Property<Vector3d>* m_Prop;
QPushButton* m_Button;
};
class StringPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
StringPropertyWidget(Property<std::string>* prop, QWidget* parent = nullptr);
virtual ~StringPropertyWidget();
private:
Property<std::string>* m_Prop;
QLineEdit* m_LineEdit;
};
class FontPropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
FontPropertyWidget(Property<FontConfig>* prop, QWidget* parent = nullptr);
virtual ~FontPropertyWidget();
private slots:
void onClicked();
private:
void updateButtonText();
Property<FontConfig>* m_Prop;
QPushButton* m_Button;
};
class ReferencePropertyWidget : public PropertyWidgetBase {
Q_OBJECT
public:
ReferencePropertyWidget(ReferencePropertyBase* prop, ::uLib::ObjectsContext* context, QWidget* parent = nullptr);
virtual ~ReferencePropertyWidget();
private slots:
void onComboChanged(int index);
private:
void refreshCombo();
ReferencePropertyBase* m_RefProp;
::uLib::ObjectsContext* m_Context;
QComboBox* m_Combo;
Connection m_ContextConnection;
};
class PropertyEditor : public QWidget {
Q_OBJECT
public:
PropertyEditor(QWidget* parent = nullptr);
virtual ~PropertyEditor();
void setObject(uLib::Object* obj, bool displayOnly = false);
void setContext(uLib::ObjectsContext* context) { m_Context = context; }
template<typename T>
void registerFactory(std::function<QWidget*(PropertyBase*, QWidget*)> factory) {
m_Factories[std::type_index(typeid(T))] = factory;
}
signals:
void propertyUpdated(PropertyBase* prop = nullptr);
private:
void clear();
uLib::Object* m_Object;
uLib::ObjectsContext* m_Context;
QVBoxLayout* m_MainLayout;
QScrollArea* m_ScrollArea;
QWidget* m_Container;
QVBoxLayout* m_ContainerLayout;
std::map<std::type_index, std::function<QWidget*(PropertyBase*, QWidget*)>> m_Factories;
};
} // namespace Qt
} // namespace uLib
#endif // PROPERTY_WIDGETS_H

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#include "QViewportPane.h"
#include <Vtk/vtkQViewport.h>
#include <Root/QCanvas.h>
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QLabel>
#include <QToolButton>
#include <QMenu>
#include <QAction>
#include <QSplitter>
#include <vtkCamera.h>
#include "PropertyWidgets.h"
#include <QSignalBlocker>
QViewportPane::QViewportPane(QWidget* parent) : QWidget(parent), m_viewport(nullptr) {
m_layout = new QVBoxLayout(this);
m_layout->setContentsMargins(0, 0, 0, 0);
m_layout->setSpacing(0);
// Title bar setup
m_titleBar = new QWidget(this);
m_titleBar->setObjectName("PaneTitleBar");
m_titleBar->setFixedHeight(22);
auto* titleLayout = new QHBoxLayout(m_titleBar);
titleLayout->setContentsMargins(5, 0, 0, 0);
m_titleLabel = new QLabel("Viewport", m_titleBar);
m_titleLabel->setObjectName("TitleLabel");
m_toggleBtn = new QPushButton("Display", m_titleBar);
m_toggleBtn->setCheckable(true);
m_toggleBtn->setFixedSize(60, 18);
m_toggleBtn->setObjectName("DisplayToggleBtn");
auto* closeBtn = new QToolButton(m_titleBar);
closeBtn->setObjectName("PaneCloseButton");
closeBtn->setText("X");
closeBtn->setFixedSize(18, 18);
titleLayout->addWidget(m_titleLabel);
titleLayout->addStretch();
titleLayout->addWidget(m_toggleBtn);
titleLayout->addSpacing(5);
titleLayout->addWidget(closeBtn);
m_layout->addWidget(m_titleBar);
// Main horizontal container for viewport and display panel
QWidget* mainArea = new QWidget(this);
QHBoxLayout* hLayout = new QHBoxLayout(mainArea);
hLayout->setContentsMargins(0, 0, 0, 0);
hLayout->setSpacing(0);
m_layout->addWidget(mainArea);
// Viewport will be added here via setViewport
m_viewport = new uLib::Vtk::QViewport(mainArea);
hLayout->addWidget(m_viewport);
// Display Panel (Overlay/Slide-out)
m_displayPanel = new QFrame(mainArea);
m_displayPanel->setObjectName("DisplayPropertiesPanel");
m_displayPanel->setFixedWidth(250);
m_displayPanel->hide();
QVBoxLayout* panelLayout = new QVBoxLayout(m_displayPanel);
panelLayout->setContentsMargins(5, 5, 5, 5);
QLabel* panelHeader = new QLabel("Display Properties", m_displayPanel);
panelHeader->setStyleSheet("font-weight: bold; padding: 5px;");
panelLayout->addWidget(panelHeader);
m_displayEditor = new uLib::Qt::PropertyEditor(m_displayPanel);
panelLayout->addWidget(m_displayEditor);
hLayout->addWidget(m_displayPanel);
connect(m_toggleBtn, &QPushButton::toggled, this, &QViewportPane::toggleDisplayPanel);
connect(m_titleBar, &QWidget::customContextMenuRequested, this, &QViewportPane::showContextMenu);
connect(closeBtn, &QToolButton::clicked, this, &QViewportPane::onCloseRequested);
m_titleBar->setContextMenuPolicy(Qt::CustomContextMenu);
}
void QViewportPane::toggleDisplayPanel() {
m_displayPanel->setVisible(m_toggleBtn->isChecked());
}
void QViewportPane::setObject(uLib::Object* obj) {
m_displayEditor->setObject(obj, true);
// Auto-show panel if it's a prop3d and we want to highlight this feature?
// User asked for "hiding panel", so maybe we don't auto-show.
}
void QViewportPane::setViewport(QWidget* viewport, const QString& title) {
if (m_viewport) {
m_viewport->parentWidget()->layout()->removeWidget(m_viewport);
delete m_viewport;
}
m_viewport = viewport;
m_titleLabel->setText(title);
m_viewport->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
auto* mainAreaLayout = static_cast<QHBoxLayout*>(m_displayPanel->parentWidget()->layout());
mainAreaLayout->insertWidget(0, m_viewport);
}
QViewportPane::~QViewportPane() {}
void QViewportPane::setViewport(QWidget* viewport, const QString& title) {
if (m_viewport) {
m_layout->removeWidget(m_viewport);
delete m_viewport;
}
m_viewport = viewport;
m_titleLabel->setText(title);
m_viewport->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
m_layout->addWidget(m_viewport);
}
void QViewportPane::addVtkViewport() {
auto* viewport = new uLib::Vtk::QViewport(this);
setViewport(viewport, "VTK Viewport");
}
void QViewportPane::addRootCanvas() {
auto* canvas = new uLib::Root::QCanvas(this);
setViewport(canvas, "ROOT Canvas");
}
void QViewportPane::onCloseRequested() {
QSplitter* parentSplitter = qobject_cast<QSplitter*>(parentWidget());
if (parentSplitter && parentSplitter->count() > 1) {
deleteLater();
} else {
// Can't close the last viewport in the splitter safely. Re-initialize to default VTK canvas.
addVtkViewport();
}
}
void QViewportPane::showContextMenu(const QPoint& pos) {
QMenu menu(this);
QAction* hSplit = menu.addAction("H split");
QAction* vSplit = menu.addAction("V split");
menu.addSeparator();
bool isVtk = (qobject_cast<uLib::Vtk::QViewport*>(m_viewport) != nullptr);
QAction* changeType = menu.addAction(isVtk ? "Change to ROOT Canvas" : "Change to VTK Viewport");
QAction* selected = menu.exec(m_titleBar->mapToGlobal(pos));
if (selected == hSplit) {
AttemptSplit(Qt::Horizontal);
} else if (selected == vSplit) {
AttemptSplit(Qt::Vertical);
} else if (selected == changeType) {
if (isVtk) {
addRootCanvas();
} else {
addVtkViewport();
}
}
}
void QViewportPane::AttemptSplit(Qt::Orientation orientation) {
QWidget* p = parentWidget();
if (!p) return;
QSplitter* parentSplitter = qobject_cast<QSplitter*>(p);
if (!parentSplitter) return;
QViewportPane* newPane = new QViewportPane();
// 1. Synchronize viewport content and camera (VTK Viewport only for now)
auto* currentVtk = qobject_cast<uLib::Vtk::QViewport*>(m_viewport);
if (currentVtk) {
auto* newVtk = qobject_cast<uLib::Vtk::QViewport*>(newPane->currentViewport());
if (newVtk) {
// Copy prop3ds
for (auto* prop3d : currentVtk->getProp3Ds()) {
newVtk->AddProp3D(*prop3d);
}
// Copy camera
if (currentVtk->GetRenderer() && newVtk->GetRenderer()) {
vtkCamera* currentCam = currentVtk->GetRenderer()->GetActiveCamera();
vtkCamera* newCam = newVtk->GetRenderer()->GetActiveCamera();
if (currentCam && newCam) {
newCam->DeepCopy(currentCam);
}
}
// Sync grid visible and axis
newVtk->SetGridVisible(currentVtk->GetGridVisible());
newVtk->SetGridAxis(currentVtk->GetGridAxis());
}
}
// 2. Adjust for ROOT Canvas if that was the active view
bool isRoot = (qobject_cast<uLib::Root::QCanvas*>(m_viewport) != nullptr);
if (isRoot) {
newPane->addRootCanvas();
}
if (parentSplitter->orientation() == orientation) {
int index = parentSplitter->indexOf(this);
QList<int> sizes = parentSplitter->sizes();
int currentSize = sizes.value(index, 0);
int half = currentSize / 2;
sizes[index] = half;
sizes.insert(index + 1, currentSize - half);
parentSplitter->insertWidget(index + 1, newPane);
parentSplitter->setSizes(sizes);
} else {
int index = parentSplitter->indexOf(this);
QList<int> parentSizes = parentSplitter->sizes();
QSplitter* newSplitter = new QSplitter(orientation);
newSplitter->addWidget(this);
newSplitter->addWidget(newPane);
QList<int> subSizes;
subSizes << 500 << 500;
newSplitter->setSizes(subSizes);
parentSplitter->insertWidget(index, newSplitter);
parentSplitter->setSizes(parentSizes);
}
}

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#ifndef QVIEWPORTPANE_H
#define QVIEWPORTPANE_H
#include <QWidget>
#include <QFrame>
#include <QPushButton>
namespace uLib {
class Object;
namespace Qt { class PropertyEditor; }
}
class QVBoxLayout;
class QLabel;
class QViewportPane : public QWidget {
Q_OBJECT
public:
explicit QViewportPane(QWidget* parent = nullptr);
virtual ~QViewportPane();
void addVtkViewport();
void addRootCanvas();
QWidget* currentViewport() const { return m_viewport; }
/** @brief Update the display properties for the given object. */
void setObject(uLib::Object* obj);
private slots:
void onCloseRequested();
void showContextMenu(const QPoint& pos);
void toggleDisplayPanel();
private:
void AttemptSplit(Qt::Orientation orientation);
void setViewport(QWidget* viewport, const QString& title);
QVBoxLayout* m_layout;
QWidget* m_titleBar;
QLabel* m_titleLabel;
QWidget* m_viewport;
// Display Properties Overlay
QFrame* m_displayPanel;
uLib::Qt::PropertyEditor* m_displayEditor;
QPushButton* m_toggleBtn;
};
#endif // QVIEWPORTPANE_H

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#ifndef GCOMPOSE_SETTINGS_H
#define GCOMPOSE_SETTINGS_H
#include <string>
#include <map>
#include "Math/Units.h"
#include "Core/FontConfig.h"
#include "Math/Dense.h"
namespace uLib {
namespace Qt {
class Settings {
public:
static Settings& Instance() {
static Settings instance;
return instance;
}
enum Dimension {
Length,
Angle,
Energy,
Time,
Dimensionless
};
enum Theme {
Dark,
Bright
};
void SetPreferredUnit(Dimension dim, const std::string& unit) {
m_PreferredUnits[dim] = unit;
}
std::string GetPreferredUnit(Dimension dim) const {
auto it = m_PreferredUnits.find(dim);
if (it != m_PreferredUnits.end()) return it->second;
switch(dim) {
case Length: return "mm";
case Angle: return "deg";
case Energy: return "MeV";
case Time: return "ns";
default: return "";
}
}
double GetUnitFactor(const std::string& unit) const {
if (unit == "m") return CLHEP::meter;
if (unit == "cm") return CLHEP::centimeter;
if (unit == "mm") return CLHEP::millimeter;
if (unit == "um") return CLHEP::micrometer;
if (unit == "deg") return CLHEP::degree;
if (unit == "rad") return CLHEP::radian;
if (unit == "ns") return CLHEP::nanosecond;
if (unit == "s") return CLHEP::second;
if (unit == "ms") return CLHEP::millisecond;
if (unit == "MeV") return CLHEP::megaelectronvolt;
if (unit == "GeV") return CLHEP::gigaelectronvolt;
if (unit == "eV") return CLHEP::electronvolt;
return 1.0;
}
Dimension IdentifyDimension(const std::string& unit) const {
if (unit == "m" || unit == "cm" || unit == "mm" || unit == "um" || unit == "nm") return Length;
if (unit == "deg" || unit == "rad") return Angle;
if (unit == "MeV" || unit == "GeV" || unit == "eV" || unit == "keV" || unit == "TeV") return Energy;
if (unit == "ns" || unit == "s" || unit == "ms" || unit == "us") return Time;
return Dimensionless;
}
bool GetThrottledRendering() const { return m_ThrottledRendering; }
void SetThrottledRendering(bool enabled) { m_ThrottledRendering = enabled; }
Theme GetTheme() const { return m_Theme; }
void SetTheme(Theme theme) { m_Theme = theme; }
FontConfig GetFont() const { return m_Font; }
void SetFont(const FontConfig& font) { m_Font = font; }
FontConfig GetGuiFont() const { return m_GuiFont; }
void SetGuiFont(const FontConfig& font) { m_GuiFont = font; }
Vector3d GetFontColor() const { return m_FontColor; }
void SetFontColor(const Vector3d& color) { m_FontColor = color; }
private:
Settings() : m_ThrottledRendering(true), m_Theme(Dark), m_Font("Arial", 10), m_GuiFont("Inter", 9), m_FontColor(1.0, 1.0, 1.0) {}
std::map<Dimension, std::string> m_PreferredUnits;
bool m_ThrottledRendering;
Theme m_Theme;
FontConfig m_Font;
FontConfig m_GuiFont;
Vector3d m_FontColor;
};
} // namespace Qt
} // namespace uLib
#endif

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#include "StyleManager.h"
#include <QApplication>
#include "Core/FontConfig.h"
static const QString DARK_THEME = R"(
QWidget#MenuPanel { background-color: #2b2b2b; border-bottom: 1px solid #111; }
QLabel#LogoLabel { font-weight: bold; color: #0078d7; font-size: 14px; letter-spacing: 1px; }
QPushButton#MenuButton { background: transparent; color: #ccc; border: none; padding: 5px 10px; }
QPushButton#MenuButton:hover { background: #3c3c3c; color: white; border-radius: 4px; }
QPushButton { background-color: #3e3e42; color: white; border: 1px solid #555; padding: 4px 12px; border-radius: 2px; }
QPushButton:hover { background-color: #505050; border-color: #0078d7; }
QPushButton:pressed { background-color: #0078d7; }
QWidget#PaneTitleBar { background-color: #333; color: white; border-bottom: 2px solid #222; }
QLabel#TitleLabel { font-weight: bold; margin-left: 2px; }
QToolButton#PaneCloseButton { border: none; font-weight: bold; background: transparent; color: #ccc; }
QToolButton#PaneCloseButton:hover { color: white; background: #c42b1c; }
/* Global & Panel Backgrounds */
QMainWindow, QWidget#MainPanel { background-color: #1e1e1e; }
QWidget#DisplayPropertiesPanel, QWidget#PropertiesPanel, QWidget#ContextPanel { background-color: #252526; border-left: 1px solid #3e3e42; }
QPushButton#DisplayToggleBtn { background-color: #333337; border: 1px solid #3e3e42; border-radius: 2px; color: #f1f1f1; font-size: 11px; }
QPushButton#DisplayToggleBtn:checked { background-color: #0078d7; color: white; border-color: #005a9e; font-weight: bold; }
QPushButton#DisplayToggleBtn:hover { border-color: #0078d7; }
QScrollArea { border: none; background: transparent; }
QScrollArea > QWidget > QWidget { background: transparent; }
/* Property Widgets Styling */
QLabel { color: #cccccc; }
QDoubleSpinBox, QSpinBox, QLineEdit, QComboBox { background: #3c3c3c; color: #f1f1f1; border: 1px solid #3e3e42; padding: 2px 4px; border-radius: 2px; selection-background-color: #0078d7; }
QDoubleSpinBox:focus, QSpinBox:focus, QLineEdit:focus, QComboBox:focus { border-color: #0078d7; }
QComboBox::drop-down { border-left-width: 1px; border-left-color: #3e3e42; border-left-style: solid; width: 20px; border-top-right-radius: 2px; border-bottom-right-radius: 2px; }
QComboBox::down-arrow { image: none; border: 5px solid transparent; border-top-color: #ccc; margin-top: 5px; }
QAbstractItemView { background-color: #2b2b2b; color: white; border: 1px solid #3e3e42; selection-background-color: #0078d7; outline: 0; }
QCheckBox { color: #cccccc; spacing: 5px; }
QCheckBox::indicator { width: 14px; height: 14px; border: 1px solid #3e3e42; background: #333337; border-radius: 2px; }
QCheckBox::indicator:checked { background: #0078d7; border-color: #005a9e; }
QCheckBox::indicator:hover { border-color: #0078d7; }
QMenu { background-color: #2b2b2b; color: white; border: 1px solid #111; }
QMenu::item:selected { background-color: #3c3c3c; }
QTreeView#ContextTree { background-color: #1e1e1e; color: #ccc; border: none; }
QTreeView#ContextTree::item:hover { background-color: #2a2d2e; }
QTreeView#ContextTree::item:selected { background-color: #094771; color: white; }
QHeaderView::section { background-color: #252526; color: #ccc; border: 1px solid #323233; padding: 4px; }
/* ScrollBars */
QScrollBar:vertical { background: #1e1e1e; width: 12px; margin: 0px; }
QScrollBar::handle:vertical { background: #3e3e42; min-height: 20px; border-radius: 6px; margin: 2px; }
QScrollBar::handle:vertical:hover { background: #505050; }
QScrollBar::add-line:vertical, QScrollBar::sub-line:vertical { height: 0px; }
/* Dialogs & Preferences */
QDialog { background-color: #252526; color: #f1f1f1; }
QGroupBox { font-weight: bold; color: #0078d7; border: 1px solid #3e3e42; margin-top: 1.1em; padding-top: 0.5em; border-radius: 4px; }
QGroupBox::title { subcontrol-origin: margin; subcontrol-position: top left; padding: 0 3px; left: 10px; }
)";
static const QString BRIGHT_THEME = R"(
QWidget#MenuPanel { background-color: #f3f3f3; border-bottom: 1px solid #ccc; }
QLabel#LogoLabel { font-weight: bold; color: #005a9e; font-size: 14px; letter-spacing: 1px; }
QPushButton#MenuButton { background: transparent; color: #333; border: none; padding: 5px 10px; }
QPushButton#MenuButton:hover { background: #e5e5e5; color: black; border-radius: 4px; }
QPushButton { background-color: #ffffff; color: #333; border: 1px solid #cccccc; padding: 4px 12px; border-radius: 2px; }
QPushButton:hover { background-color: #f2f2f2; border-color: #0078d7; }
QPushButton:pressed { background-color: #0078d7; color: white; }
QWidget#PaneTitleBar { background-color: #eeeeee; color: black; border-bottom: 2px solid #ddd; }
QLabel#TitleLabel { font-weight: bold; margin-left: 2px; }
QToolButton#PaneCloseButton { border: none; font-weight: bold; background: transparent; color: #666; }
QToolButton#PaneCloseButton:hover { color: white; background: #e81123; }
/* Global & Panel Backgrounds */
QMainWindow, QWidget#MainPanel { background-color: #f3f3f3; }
QWidget#DisplayPropertiesPanel, QWidget#PropertiesPanel, QWidget#ContextPanel { background-color: #ffffff; border-left: 1px solid #cccccc; }
QPushButton#DisplayToggleBtn { background-color: #ffffff; border: 1px solid #cccccc; border-radius: 2px; color: #333; font-size: 11px; }
QPushButton#DisplayToggleBtn:checked { background-color: #0078d7; color: white; border-color: #005a9e; font-weight: bold; }
QPushButton#DisplayToggleBtn:hover { border-color: #0078d7; }
QScrollArea { border: none; background: transparent; }
QScrollArea > QWidget > QWidget { background: transparent; }
/* Property Widgets Styling */
QLabel { color: #333333; }
QDoubleSpinBox, QSpinBox, QLineEdit, QComboBox { background: #ffffff; color: #333333; border: 1px solid #cccccc; padding: 2px 4px; border-radius: 2px; selection-background-color: #0078d7; }
QDoubleSpinBox:focus, QSpinBox:focus, QLineEdit:focus, QComboBox:focus { border-color: #0078d7; }
QComboBox::drop-down { border-left-width: 1px; border-left-color: #cccccc; border-left-style: solid; width: 20px; border-top-right-radius: 2px; border-bottom-right-radius: 2px; }
QComboBox::down-arrow { image: none; border: 5px solid transparent; border-top-color: #666; margin-top: 5px; }
QAbstractItemView { background-color: #ffffff; color: #333; border: 1px solid #cccccc; selection-background-color: #0078d7; outline: 0; }
QCheckBox { color: #333333; spacing: 5px; }
QCheckBox::indicator { width: 14px; height: 14px; border: 1px solid #cccccc; background: #ffffff; border-radius: 2px; }
QCheckBox::indicator:checked { background: #0078d7; border-color: #005a9e; }
QCheckBox::indicator:hover { border-color: #0078d7; }
QMenu { background-color: #f3f3f3; color: black; border: 1px solid #ccc; }
QMenu::item:selected { background-color: #d0d0d0; }
QTreeView#ContextTree { background-color: #ffffff; color: #333; border: none; }
QTreeView#ContextTree::item:hover { background-color: #f2f2f2; }
QTreeView#ContextTree::item:selected { background-color: #0078d7; color: white; }
QHeaderView::section { background-color: #f3f3f3; color: #333; border: 1px solid #ccc; padding: 4px; }
/* ScrollBars */
QScrollBar:vertical { background: #ffffff; width: 12px; margin: 0px; }
QScrollBar::handle:vertical { background: #cccccc; min-height: 20px; border-radius: 6px; margin: 2px; }
QScrollBar::handle:vertical:hover { background: #aaaaaa; }
QScrollBar::add-line:vertical, QScrollBar::sub-line:vertical { height: 0px; }
/* Dialogs & Preferences */
QDialog { background-color: #f3f3f3; color: #333; }
QGroupBox { font-weight: bold; color: #005a9e; border: 1px solid #cccccc; margin-top: 1.1em; padding-top: 0.5em; border-radius: 4px; }
QGroupBox::title { subcontrol-origin: margin; subcontrol-position: top left; padding: 0 3px; left: 10px; }
)";
void StyleManager::applyStyle(QApplication* app, const QString& themeName, const uLib::FontConfig& fontCfg) {
if (!app) return;
QString baseStyle = (themeName == "bright") ? BRIGHT_THEME : DARK_THEME;
QString fontStyle = QString(
"QWidget { font-family: '%1'; font-size: %2pt; }\n"
).arg(QString::fromStdString(fontCfg.family))
.arg(fontCfg.size);
// If bold/italic are needed globally
if (fontCfg.bold) fontStyle += "QWidget { font-weight: bold; }\n";
if (fontCfg.italic) fontStyle += "QWidget { font-style: italic; }\n";
app->setStyleSheet(fontStyle + baseStyle);
}

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#ifndef STYLEMANAGER_H
#define STYLEMANAGER_H
#include <QString>
class QApplication;
namespace uLib { class FontConfig; }
class StyleManager {
public:
static void applyStyle(QApplication* app, const QString& themeName, const uLib::FontConfig& font);
};
#endif // STYLEMANAGER_H

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#include "ViewportPane.h"
#include <Vtk/vtkQViewport.h>
#include <Root/QCanvas.h>
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QLabel>
#include <QToolButton>
#include <QMenu>
#include <QAction>
#include <QSplitter>
#include <vtkCamera.h>
#include "PropertyWidgets.h"
#include <QSignalBlocker>
ViewportPane::ViewportPane(QWidget* parent) : QWidget(parent), m_viewport(nullptr) {
m_layout = new QVBoxLayout(this);
m_layout->setContentsMargins(0, 0, 0, 0);
m_layout->setSpacing(0);
// Title bar setup
m_titleBar = new QWidget(this);
m_titleBar->setObjectName("PaneTitleBar");
m_titleBar->setFixedHeight(22);
auto* titleLayout = new QHBoxLayout(m_titleBar);
titleLayout->setContentsMargins(5, 0, 0, 0);
m_titleLabel = new QLabel("Viewport", m_titleBar);
m_titleLabel->setObjectName("TitleLabel");
m_toggleBtn = new QPushButton("Display", m_titleBar);
m_toggleBtn->setCheckable(true);
m_toggleBtn->setFixedSize(60, 18);
m_toggleBtn->setObjectName("DisplayToggleBtn");
auto* closeBtn = new QToolButton(m_titleBar);
closeBtn->setObjectName("PaneCloseButton");
closeBtn->setText("X");
closeBtn->setFixedSize(18, 18);
titleLayout->addWidget(m_titleLabel);
titleLayout->addStretch();
titleLayout->addWidget(m_toggleBtn);
titleLayout->addSpacing(5);
titleLayout->addWidget(closeBtn);
m_layout->addWidget(m_titleBar);
// Main area with splitter for viewport and display panel
m_areaSplitter = new QSplitter(Qt::Horizontal, this);
m_areaSplitter->setObjectName("ViewportAreaSplitter");
m_layout->addWidget(m_areaSplitter, 1);
// Viewport will be added here via setViewport
m_viewport = new uLib::Vtk::QViewport(m_areaSplitter);
m_areaSplitter->addWidget(m_viewport);
// Display Panel (Overlay/Slide-out)
m_displayPanel = new QFrame(m_areaSplitter);
m_displayPanel->setObjectName("DisplayPropertiesPanel");
m_displayPanel->setMinimumWidth(150);
m_displayPanel->hide();
m_areaSplitter->addWidget(m_displayPanel);
m_areaSplitter->setStretchFactor(0, 1);
m_areaSplitter->setStretchFactor(1, 0);
QVBoxLayout* panelLayout = new QVBoxLayout(m_displayPanel);
panelLayout->setContentsMargins(5, 5, 5, 5);
QLabel* panelHeader = new QLabel("Display Properties", m_displayPanel);
panelHeader->setStyleSheet("font-weight: bold; padding: 5px;");
panelLayout->addWidget(panelHeader);
m_displayEditor = new uLib::Qt::PropertyEditor(m_displayPanel);
panelLayout->addWidget(m_displayEditor);
connect(m_toggleBtn, &QPushButton::toggled, this, &ViewportPane::toggleDisplayPanel);
connect(m_titleBar, &QWidget::customContextMenuRequested, this, &ViewportPane::showContextMenu);
connect(closeBtn, &QToolButton::clicked, this, &ViewportPane::onCloseRequested);
m_titleBar->setContextMenuPolicy(Qt::CustomContextMenu);
}
ViewportPane::~ViewportPane() {}
void ViewportPane::toggleDisplayPanel() {
bool visible = m_toggleBtn->isChecked();
m_displayPanel->setVisible(visible);
if (visible && m_areaSplitter->sizes().value(1, 0) == 0) {
QList<int> sizes = m_areaSplitter->sizes();
int total = sizes[0] + sizes[1];
sizes[1] = 250;
sizes[0] = total - 250;
m_areaSplitter->setSizes(sizes);
}
}
void ViewportPane::setObject(uLib::Object* obj) {
m_displayEditor->setObject(obj, true);
// Check if the object is a Prop3D (meaning it has display properties)
bool isProp3D = (dynamic_cast<::uLib::Vtk::Prop3D*>(obj) != nullptr);
// Only show the "Display" toggle button if it's a prop3d
m_toggleBtn->setVisible(isProp3D);
// If it's a prop3d, we might want to keep the panel state if it was already open,
// or if it's NOT a prop3d, definitely hide the toggle and panel.
if (!isProp3D) {
m_toggleBtn->setChecked(false);
m_displayPanel->hide();
}
}
void ViewportPane::setContext(uLib::ObjectsContext* context) {
m_displayEditor->setContext(context);
}
void ViewportPane::setViewport(QWidget* viewport, const QString& title) {
if (m_viewport) {
delete m_viewport;
}
m_viewport = viewport;
m_titleLabel->setText(title);
m_viewport->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
m_areaSplitter->insertWidget(0, m_viewport);
m_areaSplitter->setStretchFactor(0, 1);
}
uLib::Vtk::Viewport* ViewportPane::viewport() const {
return dynamic_cast<uLib::Vtk::Viewport*>(m_viewport);
}
void ViewportPane::addVtkViewport() {
auto* viewport = new uLib::Vtk::QViewport(this);
setViewport(viewport, "VTK Viewport");
}
void ViewportPane::addRootCanvas() {
auto* canvas = new uLib::Root::QCanvas(this);
setViewport(canvas, "ROOT Canvas");
}
void ViewportPane::onCloseRequested() {
QSplitter* parentSplitter = qobject_cast<QSplitter*>(parentWidget());
if (parentSplitter && parentSplitter->count() > 1) {
deleteLater();
} else {
addVtkViewport();
}
}
void ViewportPane::showContextMenu(const QPoint& pos) {
QMenu menu(this);
QAction* hSplit = menu.addAction("H split");
QAction* vSplit = menu.addAction("V split");
menu.addSeparator();
bool isVtk = (qobject_cast<uLib::Vtk::QViewport*>(m_viewport) != nullptr);
QAction* changeType = menu.addAction(isVtk ? "Change to ROOT Canvas" : "Change to VTK Viewport");
QAction* selected = menu.exec(m_titleBar->mapToGlobal(pos));
if (selected == hSplit) AttemptSplit(Qt::Horizontal);
else if (selected == vSplit) AttemptSplit(Qt::Vertical);
else if (selected == changeType) isVtk ? addRootCanvas() : addVtkViewport();
}
void ViewportPane::AttemptSplit(Qt::Orientation orientation) {
QWidget* p = parentWidget();
if (!p) return;
QSplitter* parentSplitter = qobject_cast<QSplitter*>(p);
if (!parentSplitter) return;
ViewportPane* newPane = new ViewportPane();
if (parentSplitter->orientation() == orientation) {
int index = parentSplitter->indexOf(this);
QList<int> sizes = parentSplitter->sizes();
int currentSize = sizes.value(index, 0);
int half = currentSize / 2;
sizes[index] = half;
sizes.insert(index + 1, currentSize - half);
parentSplitter->insertWidget(index + 1, newPane);
parentSplitter->setSizes(sizes);
} else {
int index = parentSplitter->indexOf(this);
QList<int> parentSizes = parentSplitter->sizes();
QSplitter* newSplitter = new QSplitter(orientation);
newSplitter->addWidget(this);
newSplitter->addWidget(newPane);
QList<int> subSizes;
subSizes << 500 << 500;
newSplitter->setSizes(subSizes);
parentSplitter->insertWidget(index, newSplitter);
parentSplitter->setSizes(parentSizes);
}
}

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#ifndef VIEWPORTPANE_H
#define VIEWPORTPANE_H
#include <QWidget>
#include <QFrame>
#include <QPushButton>
namespace uLib {
class Object;
class ObjectsContext;
namespace Qt { class PropertyEditor; }
namespace Vtk { class Viewport; }
}
class QSplitter;
class QVBoxLayout;
class QLabel;
class ViewportPane : public QWidget {
Q_OBJECT
public:
explicit ViewportPane(QWidget* parent = nullptr);
virtual ~ViewportPane();
void addVtkViewport();
void addRootCanvas();
QWidget* currentViewport() const { return m_viewport; }
uLib::Vtk::Viewport* viewport() const;
/** @brief Update the display properties for the given object. */
void setObject(uLib::Object* obj);
/** @brief Sets the context for reference property dropdowns. */
void setContext(uLib::ObjectsContext* context);
private slots:
void onCloseRequested();
void showContextMenu(const QPoint& pos);
void toggleDisplayPanel();
private:
void AttemptSplit(Qt::Orientation orientation);
void setViewport(QWidget* viewport, const QString& title);
QVBoxLayout* m_layout;
QWidget* m_titleBar;
QLabel* m_titleLabel;
QSplitter* m_areaSplitter;
QWidget* m_viewport;
// Display Properties Overlay
QFrame* m_displayPanel;
uLib::Qt::PropertyEditor* m_displayEditor;
QPushButton* m_toggleBtn;
};
#endif // VIEWPORTPANE_H

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#include <QApplication>
#include "MainWindow.h"
#include "MainPanel.h"
#include "ViewportPane.h"
#include "StyleManager.h"
#include "Settings.h"
#include "Core/FontConfig.h"
#include "Math/ContainerBox.h"
#include <HEP/Geant/Scene.h>
#include "HEP/Detectors/DetectorChamber.h"
#include "Vtk/HEP/Detectors/vtkDetectorChamber.h"
#include <Vtk/Math/vtkContainerBox.h>
#include <Vtk/vtkQViewport.h>
#include "Core/ObjectsContext.h"
#include <vtkSmartPointer.h>
#include <vtkCubeSource.h>
#include <vtkPolyDataMapper.h>
#include <vtkActor.h>
#include <vtkRenderer.h>
#include "Math/Units.h"
#include <iostream>
using namespace uLib;
using namespace uLib::literals;
int main(int argc, char** argv) {
QApplication app(argc, argv);
auto theme = uLib::Qt::Settings::Instance().GetTheme();
auto initialGuiFont = uLib::Qt::Settings::Instance().GetGuiFont();
StyleManager::applyStyle(&app, theme == uLib::Qt::Settings::Dark ? "dark" : "bright", initialGuiFont);
std::cout << "Starting gcompose Qt application..." << std::endl;
// ContainerBox world_box(Vector3f(1, 1, 1));
// world_box.Scale(Vector3f(2_mm, 2_mm, 2_mm));
// world_box.SetPosition(Vector3f(-1_mm, -1_mm, -1_mm));
// Geant::Scene scene;
// scene.ConstructWorldBox(world_box.GetSize(), "G4_AIR");
// scene.Initialize();
uLib::ObjectsContext globalContext;
// globalContext.AddObject(&world_box);
// globalContext.AddObject(&scene);
// 2. Initialize MainWindow (contains embedded VTK QViewport)
MainWindow window;
window.setContext(&globalContext);
std::cout << "Geant4 and VTK scenes are ready." << std::endl;
window.show();
return app.exec();
}

BIN
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-- Using Conan toolchain: /home/rigoni/devel/cmt/uLib/build/clang-make/conan_toolchain.cmake
-- Conan toolchain: Defining architecture flag: -m64
-- Conan toolchain: Defining libcxx as C++ flags: -stdlib=libstdc++
-- Conan toolchain: C++ Standard 17 with extensions ON
-- The C compiler identification is Clang 21.1.0
-- The CXX compiler identification is Clang 21.1.0
-- Detecting C compiler ABI info
-- Detecting C compiler ABI info - done
-- Check for working C compiler: /home/share/micromamba/envs/uLib/bin/clang - skipped
-- Detecting C compile features
-- Detecting C compile features - done
-- Detecting CXX compiler ABI info
-- Detecting CXX compiler ABI info - done
-- Check for working CXX compiler: /home/share/micromamba/envs/uLib/bin/clang++ - skipped
-- Detecting CXX compile features
-- Detecting CXX compile features - done
-- Project name = uLib
-- Package name = mutom-0.7
-- Package version = 0.7
-- Module path = /home/rigoni/devel/cmt/uLib/CMake;/home/rigoni/devel/cmt/uLib/build/clang-make
-- CMAKE_PREFIX_PATH is /home/rigoni/devel/cmt/uLib/build/clang-make
-- Conan: Component target declared 'hdf5::hdf5'
-- Conan: Component target declared 'hdf5::hdf5_cpp'
-- Conan: Component target declared 'hdf5::hdf5_hl'
-- Conan: Component target declared 'hdf5::hdf5_hl_cpp'
-- Conan: Target declared 'HDF5::HDF5'
-- Conan: Target declared 'ZLIB::ZLIB'
-- Conan: Including build module from '/home/rigoni/.conan2/p/b/hdf509daaae89dd98/p/lib/cmake/conan-official-hdf5-variables.cmake'
-- Conan: Component target declared 'Boost::diagnostic_definitions'
-- Conan: Component target declared 'Boost::disable_autolinking'
-- Conan: Component target declared 'Boost::dynamic_linking'
-- Conan: Component target declared 'Boost::headers'
-- Conan: Component target declared 'Boost::boost'
-- Conan: Component target declared 'boost::_libboost'
-- Conan: Component target declared 'Boost::atomic'
-- Conan: Component target declared 'Boost::charconv'
-- Conan: Component target declared 'Boost::container'
-- Conan: Component target declared 'Boost::context'
-- Conan: Component target declared 'Boost::date_time'
-- Conan: Component target declared 'Boost::exception'
-- Conan: Component target declared 'Boost::math'
-- Conan: Component target declared 'Boost::program_options'
-- Conan: Component target declared 'Boost::regex'
-- Conan: Component target declared 'Boost::serialization'
-- Conan: Component target declared 'Boost::stacktrace'
-- Conan: Component target declared 'Boost::system'
-- Conan: Component target declared 'Boost::timer'
-- Conan: Component target declared 'Boost::chrono'
-- Conan: Component target declared 'Boost::coroutine'
-- Conan: Component target declared 'Boost::filesystem'
-- Conan: Component target declared 'Boost::json'
-- Conan: Component target declared 'Boost::math_c99'
-- Conan: Component target declared 'Boost::math_c99f'
-- Conan: Component target declared 'Boost::math_c99l'
-- Conan: Component target declared 'Boost::math_tr1'
-- Conan: Component target declared 'Boost::math_tr1f'
-- Conan: Component target declared 'Boost::math_tr1l'
-- Conan: Component target declared 'Boost::random'
-- Conan: Component target declared 'Boost::stacktrace_addr2line'
-- Conan: Component target declared 'Boost::stacktrace_backtrace'
-- Conan: Component target declared 'Boost::stacktrace_basic'
-- Conan: Component target declared 'Boost::stacktrace_from_exception'
-- Conan: Component target declared 'Boost::stacktrace_noop'
-- Conan: Component target declared 'Boost::test'
-- Conan: Component target declared 'Boost::url'
-- Conan: Component target declared 'Boost::wserialization'
-- Conan: Component target declared 'Boost::fiber'
-- Conan: Component target declared 'Boost::graph'
-- Conan: Component target declared 'Boost::iostreams'
-- Conan: Component target declared 'Boost::nowide'
-- Conan: Component target declared 'Boost::prg_exec_monitor'
-- Conan: Component target declared 'Boost::process'
-- Conan: Component target declared 'Boost::test_exec_monitor'
-- Conan: Component target declared 'Boost::thread'
-- Conan: Component target declared 'Boost::wave'
-- Conan: Component target declared 'Boost::contract'
-- Conan: Component target declared 'Boost::fiber_numa'
-- Conan: Component target declared 'Boost::locale'
-- Conan: Component target declared 'Boost::log'
-- Conan: Component target declared 'Boost::type_erasure'
-- Conan: Component target declared 'Boost::unit_test_framework'
-- Conan: Component target declared 'Boost::log_setup'
-- Conan: Target declared 'boost::boost'
-- Conan: Target declared 'BZip2::BZip2'
-- Conan: Including build module from '/home/rigoni/.conan2/p/b/bzip2b5764e08a4f7d/p/lib/cmake/conan-official-bzip2-variables.cmake'
-- Conan: Target declared 'libbacktrace::libbacktrace'
-- Found OpenMP_C: -fopenmp=libomp (found version "5.1")
-- Found OpenMP_CXX: -fopenmp=libomp (found version "5.1")
-- Found OpenMP: TRUE (found version "5.1")
-- Found nlohmann_json: /home/share/micromamba/envs/uLib/share/cmake/nlohmann_json/nlohmann_jsonConfig.cmake (found suitable version "3.12.0", minimum required is "3.12.0")
-- Found Vdt: /home/share/micromamba/envs/uLib/include (found version "0.4")
-- Warning: Standard CMAKE_CXX_STANDARD value defined in conan_toolchain.cmake to 17 has been modified to 20 by /home/share/micromamba/envs/uLib/cmake/ROOTUseFile.cmake
-- Found Python3: /home/share/micromamba/envs/uLib/bin/python3.12 (found suitable version "3.12.13", minimum required is "3.12") found components: Interpreter Development.Module Development.Embed
-- Found nlohmann_json: /home/share/micromamba/envs/uLib/share/cmake/nlohmann_json/nlohmann_jsonConfig.cmake (found version "3.12.0")
-- Performing Test CMAKE_HAVE_LIBC_PTHREAD
-- Performing Test CMAKE_HAVE_LIBC_PTHREAD - Success
-- Found Threads: TRUE
-- Performing Test HAVE_STDATOMIC
-- Performing Test HAVE_STDATOMIC - Success
-- Found WrapAtomic: TRUE
-- Found OpenGL: /home/share/micromamba/envs/uLib/lib/libOpenGL.so
-- Found WrapOpenGL: TRUE
-- Could NOT find WrapVulkanHeaders (missing: Vulkan_INCLUDE_DIR)
-- Found X11: /home/share/micromamba/envs/uLib/include
-- Looking for XOpenDisplay in /home/share/micromamba/envs/uLib/lib/libX11.so;/home/share/micromamba/envs/uLib/lib/libXext.so
-- Looking for XOpenDisplay in /home/share/micromamba/envs/uLib/lib/libX11.so;/home/share/micromamba/envs/uLib/lib/libXext.so - found
-- Looking for gethostbyname
-- Looking for gethostbyname - found
-- Looking for connect
-- Looking for connect - found
-- Looking for remove
-- Looking for remove - found
-- Looking for shmat
-- Looking for shmat - found
-- Looking for IceConnectionNumber in ICE
-- Looking for IceConnectionNumber in ICE - found
-- Performing Test Iconv_IS_BUILT_IN
-- Performing Test Iconv_IS_BUILT_IN - Failed
-- Found Iconv: /home/share/micromamba/envs/uLib/lib/libiconv.so (found version "1.18")
-- Found ICU: /home/share/micromamba/envs/uLib/include (found version "75.1") found components: data i18n uc
-- Looking for lzma_auto_decoder in /home/share/micromamba/envs/uLib/lib/liblzma.so
-- Looking for lzma_auto_decoder in /home/share/micromamba/envs/uLib/lib/liblzma.so - found
-- Looking for lzma_easy_encoder in /home/share/micromamba/envs/uLib/lib/liblzma.so
-- Looking for lzma_easy_encoder in /home/share/micromamba/envs/uLib/lib/liblzma.so - found
-- Looking for lzma_lzma_preset in /home/share/micromamba/envs/uLib/lib/liblzma.so
-- Looking for lzma_lzma_preset in /home/share/micromamba/envs/uLib/lib/liblzma.so - found
-- Found LibLZMA: /home/share/micromamba/envs/uLib/lib/liblzma.so (found version "5.8.2")
-- Conan: Including build module from '/home/rigoni/.conan2/p/b/hdf509daaae89dd98/p/lib/cmake/conan-official-hdf5-variables.cmake'
-- Found utf8cpp: /home/share/micromamba/envs/uLib/include
-- Found THEORA: /home/share/micromamba/envs/uLib/lib/libtheora.so
-- Found OGG: /home/share/micromamba/envs/uLib/lib/libogg.so
-- Found NetCDF: /home/share/micromamba/envs/uLib/include (found version "4.9.2")
-- Found JsonCpp: /home/share/micromamba/envs/uLib/lib/libjsoncpp.so (found suitable version "1.9.6", minimum required is "0.7.0")
-- Found PNG: /home/share/micromamba/envs/uLib/lib/libpng.so (found version "1.6.56")
-- Found GL2PS: /home/share/micromamba/envs/uLib/lib/libgl2ps.so (found suitable version "1.4.2", minimum required is "1.4.2")
-- Found LibPROJ: /home/share/micromamba/envs/uLib/lib/libproj.so (found version "9.6.2")
-- Found SQLite3: /home/share/micromamba/envs/uLib/lib/libsqlite3.so (found version "3.52.0")
-- Could NOT find WrapVulkanHeaders (missing: Vulkan_INCLUDE_DIR)
-- Found LZ4: /home/share/micromamba/envs/uLib/lib/liblz4.so (found version "1.10.0")
-- Found LZMA: /home/share/micromamba/envs/uLib/lib/liblzma.so (found version "5.8.2")
-- Found JPEG: /home/share/micromamba/envs/uLib/lib/libjpeg.so (found version "80")
-- Found TIFF: /home/share/micromamba/envs/uLib/lib/libtiff.so (found version "4.7.1")
-- Could NOT find freetype (missing: freetype_DIR)
-- Found Freetype: /home/share/micromamba/envs/uLib/lib/libfreetype.so (found version "2.14.3")
-- Performing Test HAS_FLTO_THIN
-- Performing Test HAS_FLTO_THIN - Failed
-- Performing Test HAS_FLTO_AUTO
-- Performing Test HAS_FLTO_AUTO - Failed
-- Performing Test HAS_FLTO
-- Performing Test HAS_FLTO - Failed
-- Found pybind11: /home/share/micromamba/envs/uLib/include (found version "3.0.3")
-- Could NOT find freetype (missing: freetype_DIR)
CMake Deprecation Warning at /home/share/micromamba/envs/uLib/lib/cmake/Geant4/PTL/PTLConfig.cmake:30 (cmake_minimum_required):
Compatibility with CMake < 3.10 will be removed from a future version of
CMake.
Update the VERSION argument <min> value. Or, use the <min>...<max> syntax
to tell CMake that the project requires at least <min> but has been updated
to work with policies introduced by <max> or earlier.
Call Stack (most recent call first):
/home/share/micromamba/envs/uLib/share/cmake-4.2/Modules/CMakeFindDependencyMacro.cmake:93 (find_package)
/home/share/micromamba/envs/uLib/share/cmake-4.2/Modules/CMakeFindDependencyMacro.cmake:125 (__find_dependency_common)
/home/share/micromamba/envs/uLib/lib/cmake/Geant4/Geant4Config.cmake:286 (find_dependency)
CMakeLists.txt:194 (find_package)
-- Found XercesC: /home/share/micromamba/envs/uLib/lib/libxerces-c.so (found suitable version "3.2.5", minimum required is "3.2.5")
-- Found Freetype: /home/share/micromamba/envs/uLib/lib/libfreetype.so (found suitable version "2.14.3", minimum required is "2.12.1")
-- Found Geant4: /home/share/micromamba/envs/uLib/lib/cmake/Geant4/Geant4Config.cmake (found version "11.2.2")
-- Geant4 libs: Geant4::G4Tree;Geant4::G4FR;Geant4::G4GMocren;Geant4::G4visHepRep;Geant4::G4RayTracer;Geant4::G4VRML;Geant4::G4ToolsSG;Geant4::G4vis_management;Geant4::G4modeling;Geant4::G4interfaces;Geant4::G4mctruth;Geant4::G4geomtext;Geant4::G4gdml;Geant4::G4analysis;Geant4::G4error_propagation;Geant4::G4readout;Geant4::G4physicslists;Geant4::G4run;Geant4::G4event;Geant4::G4tracking;Geant4::G4parmodels;Geant4::G4processes;Geant4::G4digits_hits;Geant4::G4track;Geant4::G4particles;Geant4::G4geometry;Geant4::G4materials;Geant4::G4graphics_reps;Geant4::G4intercoms;Geant4::G4global;Geant4::G4tools;Geant4::G4ptl
-- Looking for include file inittypes.h
-- Looking for include file inittypes.h - not found
-- Looking for include file stdbool.h
-- Looking for include file stdbool.h - not found
-- Looking for include file stdint.h
-- Looking for include file stdint.h - not found
-- Looking for include file stdlib.h
-- Looking for include file stdlib.h - not found
-- Looking for include file dlfcn.h
-- Looking for include file dlfcn.h - not found
-- Looking for include file malloc.h
-- Looking for include file malloc.h - not found
-- Looking for malloc
-- Looking for malloc - not found
-- Looking for include file memory.h
-- Looking for include file memory.h - not found
-- Looking for include file math.h
-- Looking for include file math.h - not found
-- Looking for fsetround
-- Looking for fsetround - not found
-- Looking for floor
-- Looking for floor - not found
-- Looking for pow
-- Looking for pow - not found
-- Looking for sqrt
-- Looking for sqrt - not found
-- Looking for strdup
-- Looking for strdup - not found
-- Looking for strstr
-- Looking for strstr - not found
-- Looking for include file strings.h
-- Looking for include file strings.h - not found
-- Looking for include file string.h
-- Looking for include file string.h - not found
-- Looking for include file sys/stat.h
-- Looking for include file sys/stat.h - not found
-- Looking for include file sys/types.h
-- Looking for include file sys/types.h - not found
-- Looking for include file unistd.h
-- Looking for include file unistd.h - not found
-- Looking for include file assert.h
-- Looking for include file assert.h - not found
-- Geant4 found: 11.2.2
-- Found Python3: /home/share/micromamba/envs/uLib/bin/python3.12 (found version "3.12.13") found components: Interpreter
-- Configuring done (9.2s)
-- Generating done (1.6s)
-- Build files have been written to: /home/rigoni/devel/cmt/uLib/build/clang-make

11
conanfile.txt
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@@ -1,8 +1,13 @@
[requires]
eigen/3.4.0
boost/1.83.0
pybind11/3.0.2
# eigen/5.0.1
boost/1.86.0
# pybind11/3.0.2
hdf5/1.14.3
[generators]
CMakeDeps
CMakeToolchain
[options]
hdf5/*:threadsafe=True
hdf5/*:enable_unsupported=True

15
condaenv.yml
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@@ -1,4 +1,4 @@
name: mutom
name: uLib
channels:
- conda-forge
dependencies:
@@ -7,4 +7,15 @@ dependencies:
- cmake
- conan
- root
- vtk
- vtk=9.4 # VTK 9.4
- pybind11
# - boost=1.86.0 # requested by VTK 9.4
- ninja
- clang
- clangxx
- lld
- ccache
- OpenMP
- Geant4
- gdb
- valgrind

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# Serialization and Archives Internals
This document explains the internal design of the `uLib` serialization system, which is built on top of **Boost.Serialization**. It provides custom archive implementations for various formats (XML, Text, Logging) and introduces **Human Readable Pairs (HRP)** for metadata-rich serialization.
---
## Architecture Overview
The `uLib` archive system extends the standard `boost::archive` templates to add domain-specific features. The main components are:
1. **Custom Interface Layer**: Extends the default Boost archive API with additional operators and utilities.
2. **Specialized Archive Implementations**: Specialized classes for XML, Text, and Logging.
3. **HRP Support**: First-class support for `hrp` (Human Readable Pair) wrappers, which carry units, ranges, and descriptions.
4. **Static Registration System**: Macros and explicit instantiations to handle polymorphic types and compilation isolation.
---
## Custom Interface Layer
All `uLib` archives use a custom interface defined in `Archives.h` via `uLib_interface_iarchive` and `uLib_interface_oarchive`. These templates add several key features:
| Feature | Operator/Method | Description |
|---|---|---|
| **Mapping Operator** | `operator==` | Aliased to `operator&` (Boost's standard mapping operator). |
| **Trace Operator** | `operator!=` | Used for trace/debug output of strings during serialization. |
| **Type Registration** | `register_type<T>()` | Registers a class type with the archive's internal serializer map. |
| **Standard IO** | `operator<<` / `operator>>` | Standard redirect for saving and loading. |
These interfaces are applied to the archives using template specialization of `boost::archive::detail::interface_iarchive` and `interface_oarchive`.
---
## Archive Variants
### XML Archives (`xml_iarchive`, `xml_oarchive`)
These inherit from `boost::archive::xml_iarchive_impl` and `xml_oarchive_impl`.
- **Internals**: They override `load_override` and `save_override` to handle `boost::serialization::hrp<T>` specifically.
- **XML Mapping**: When saving an `hrp`, it uses `save_start(name)` and `save_end(name)` to wrap the value in a named XML tag.
### Text Archives (`text_iarchive`, `text_oarchive`)
Standard text-based archives used for compact serialization. They use `StringReader` to consume decorative text markers during loading.
### Human Readable Text (`hrt_iarchive`, `hrt_oarchive`)
These are "naked" text archives that suppress most of Boost's internal metadata (object IDs, class IDs, versions).
- **Goal**: Produce text output that is easy for humans to read and edit.
- **Internals**: All overrides for Boost internal types (like `object_id_type`, `version_type`, etc.) are implemented as no-ops.
### Log Archive (`log_archive`)
An XML-based output archive specifically for debug logging.
- **Internals**: It forces every object into a Name-Value Pair (NVP) even if not provided by the user, and strips all technical metadata to keep the logs clean.
---
## HRP (Human Readable Pair) Integration
`hrp` is a core `uLib` wrapper (defined in `Serializable.h`) that extends Boost's `nvp`:
```cpp
// Example of HRP usage
ar & HRP2("Energy", m_energy, "MeV").range(0, 100);
```
### Internal Handling in Archives
Archives in `Archives.h` provide specific `save_override`/`load_override` for `hrp<T>`:
- **XML**: Maps the `name()` to an XML tag.
- **HRT**: Formats as `name: value [units]\n`.
- **Log**: Converts it to a standard Boost `nvp` for consistent XML logging.
---
## Registration and Polymorphism
### Registration Macro
The `ULIB_SERIALIZATION_REGISTER_ARCHIVE(Archive)` macro is crucial for polymorphic serialization. It instantiates the necessary template machinery to link the custom `Archive` type with any `Serializable` class exported via `BOOST_CLASS_EXPORT`.
### Explicit Instantiation
To reduce compilation times and provide a single point of failure for link-time issues, `uLib` uses explicit instantiations in `src/Core/Archives.cpp`. This file includes the `.ipp` implementation files from Boost and instantiates the `archive_serializer_map` and implementation classes for all `uLib` archive types.
---
## Utility: StringReader
The `StringReader` utility is used internally by text-based archives to parse and skip literals. For example:
- When loading a string literal from a text archive, `StringReader` consumes whitespace and ensures the stream matches the expected string, failing if there is a mismatch.
- This is vital for maintaining the structure of human-readable formats.

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# Prop3D
`uLib::Vtk::Prop3D` is a bridge class that wraps VTK 3D representations (`vtkProp`, `vtkProp3D`) and integrates them into the `uLib` object model. It allows the framework to manage visual objects, synchronize them with underlying data models, and expose display-specific properties to the GUI.
## Inheritance
`uLib::Vtk::Prop3D` : `uLib::Object`
## Key Functionalities
### VTK Integration
The class provides access to the underlying VTK objects:
- `GetProp()`: Returns the `vtkProp`.
- `GetProxyProp()`: Returns the `vtkProp3D`.
- `GetParts()` / `GetProps()`: Returns `vtkPropCollection` for composite objects.
### Model-View Synchronization
`Prop3D` ensures that the visual representation stays in sync with the domain model:
- `Update()`: Synchronizes the VTK representation based on current internal state and properties. Should be called when model data changes.
- `SyncFromVtk()`: Updates internal state using data from the VTK representation (e.g., after user interaction via gizmos in the 3D view).
- `GetContent()`: Returns the `uLib::Object` that this `Prop3D` represents visually.
### Visual Appearance
- **Color & Opacity**: `SetColor(r, g, b)` and `SetOpacity(alpha)`.
- **Selection**: `SetSelectable(bool)` and `SetSelected(bool)` to manage interactivity and highlighting.
- **BBox/Scale**: `ShowBoundingBox(bool)` and `ShowScaleMeasures(bool)`.
### Rendering Modes
The rendering style can be controlled via the `Representation` enum:
- `Points`
- `Wireframe`
- `Surface`
- `SurfaceWithEdges`
- `Volume`
- `Outline`
- `Slice`
### Display Properties System
`Prop3D` implements a system to expose specific properties (often marked as `hrp` - human readable properties) to a property editor in the GUI.
- `GetDisplayProperties()`: Returns the list of properties registered for display.
- `RegisterDisplayProperty(uLib::PropertyBase*)`: Adds a property to the display list.
- `serialize_display(...)`: A virtual method that subclasses implement to define which properties should be exposed.
#### Activating Display Properties
To automatically populate the display properties list, the `ULIB_ACTIVATE_DISPLAY_PROPERTIES` macro should be called in the constructor. This triggers `serialize_display` using a `display_properties_archive`.
## Implementation Details
`Prop3D` uses the Pimpl idiom (via `Prop3DData *pd`) to hide VTK-specific implementation details and reduce header dependencies.

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# Geant integration
Geant4 integration in uLib is done through the `HEP/Geant` module.
The module represets a set of wrapper for geant objects that are also deriving from uLib::Object so they can be used in the uLib::Object tree and visualized with the uLib::Vtk module and driven py properties.
# Geant Solid Integration
Geant4 solids in `uLib` are encapsulated within the `uLib::Geant::Solid` hierarchy, with primary implementations such as `BoxSolid` and `TessellatedSolid`. These classes act as reactive wrappers around native Geant4 `G4VSolid` objects, bridging the gap between Geant4's static geometry and `uLib`'s dynamic property system.
### Property Mapping and Synchronization
The integration relies on a mapping between `uLib` properties and Geant4 parameters. This allows geometry to be driven by Qt-based property panels or interactive VTK handles. When a property is modified, the library handles the update through the following mechanism:
* **Parameter Application**: If the underlying Geant4 object supports dynamic updates (e.g., changing box dimensions via `SetXHalfLength`), `uLib` applies the change directly to the existing object.
* **Solid Re-instantiation**: In cases where Geant4 does not support on-the-fly parameter changes, the library transparently recreates the underlying `G4VSolid`. This ensures that the simulation model always reflects the current state of the design environment.
* **Global Signaling**: Once the underlying Geant4 state is synchronized, the `uLib::Geant::Solid` emits an `updated()` signal. This triggers cascading updates across all dependent observers, such as the VTK rendering pipeline and the Geant4 scene manager, ensuring visual and logical consistency.
## VTK Visualization Layer
The visualization of Geant4 solids in VTK is managed by the `uLib::Vtk::GeantSolid` class and its specializations (e.g., `vtkBoxSolid`). This class serves as a bridge between the domain model (`uLib::Geant::Solid`) and the VTK rendering pipeline, inheriting from `uLib::Vtk::Prop3D` to leverage the framework's standard transformation and property management features.
### Geometry Extraction and Rendering
Since Geant4 solids are defined by analytical or tessellated boundary representations, `GeantSolid` converts them into a format suitable for VTK:
1. **Faceted Representation**: It retrieves the `G4Polyhedron` tessellation from the underlying `G4VSolid`.
2. **PolyData Mapping**: The vertices and facets of the polyhedron are extracted and mapped to a `vtkPolyData` object.
3. **Actor Configuration**: This geometry is assigned to a `vtkActor`, which is then added to the `Prop3D`. Default visual properties—such as semi-transparent surfaces and edge visibility—are applied to aid in debugging and design.
### Transform Synchronization
The spatial state (Translation, Rotation, and Scale) is synchronized between the Geant4 geometry tree and the VTK viewer ensuring a consistent representation across both domains.
* **Geant4 to VTK (Forward)**: When a solid's placement is updated in Geant4, `GeantSolid` extracts the translation and rotation from the associated `G4VPhysicalVolume`. These are converted into a `vtkTransform` and applied to the actor, aligning the visual model with the simulation's coordinate system.
* **VTK to Geant4 (Interactive)**: Interaction in the viewer (e.g., using a transformation handler) triggers the `SyncFromVtk()` method. This pushes the new transformation matrix back to the `uLib::Geant::Solid` domain object, which then updates the Geant4 physical volume.
* **Feedback Loop Prevention**: To avoid infinite recursion during interactive updates, the synchronization logic utilizes temporary signal blocking. This ensures that a transform update originating from VTK does not trigger a redundant re-update of the VTK representation from the domain model.

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# Creating Objects and adding to context
In uLib the context is meant to hold a set of objects and their hierarchy. In addition ObjectFactory is used to create objects from a predefined registry.
Object context can be thought as a collection of uLib::Object instances. And there exists nested collection of objects if a context is added to another context. A nested context is a Group of elements that appears like a single object in the parent context and a hierarchy of objects inside the tree structure.
## SmartPointer access
SmartPointer is a class that is used to hold a reference to another object. It is a template class that can be used to hold a reference to any object as a shared_ptr.
The ObjectContext is responsible to keep track of all the objects that are added to it and to provide a way to access them, but also it holds the SmartPointer instances that point to the objects that are added to it. In this way Objects added to a Context are disposed only when all the references to it are removed.
For this reason the access to a object context for a Object via Get/Set must be done using the SmartPointer instances.
## SmartPointer access
SmartPointer is a class that is used to hold a reference to another object. It is a template class that can be used to hold a reference to any object that is derived from uLib::Object. It is a smart pointer because it will automatically delete the object when it is no longer needed. It is also a smart pointer because it will automatically update the object when it is no longer needed.
The ObjectContext is responsible to keep track of all the objects that are added to it and to provide a way to access them, but also it holds the SmartPointer instances that point to the objects that are added to it. In this way Objects added to a Context are disposed only when the context is destroyed.
For this reason the access to a object context for a Object via Get/Set is done using the SmartPointer instances.
## Geant Physical Volumes
The Geant library add a further layer of complexity. The physical volumes are created from a what is called LogicalVolume (which holds information about the shape, material and daughter volumes) and represent the actual instances of the volumes in the detector. So in this sense they represent what could be the Prop3D in the uLib Vtk library. The PhysicalVolume is created from the LogicalVolume and is the one that is actually placed in the scene, with its own relative TRS: position and rotation (rotation here is a rotation matrix comprising the scaling).
so Adding a Solid or a Logical volume on the scene is not enough. We need to create a PhysicalVolume from the LogicalVolume and add it to the scene to see its instance and apply the TRS to the PhysicalVolume and so to eventually to the representation.
## Gcompose interaction with objects that have Prop3d and object without 3D actor
In VTK and Qt the objects are organized in a tree structure. When We will add a new object to the scene it will be added to the tree structure and it will be displayed once wrapped in a vtk representation (like vtkContainerBox for instance).
For objects without 3D representation, they are added to the tree structure but they are not displayed in the scene. But when Object have a internal member that is a reference to another object, this will be represented in the tree structure as a child of the object that contains a reference to it. It is also important to note that the reference can be either the object itself or a smart pointer to the object. So the representation of the child in the tree structure is a placeholder for the object that is referenced and it can be added to many parents, creating multiple instances of the same reference in the tree structure.
When a object contains a reference to another object, the reference can be set from properties by selecting form the possible instances in the context that are compatible (can be casted) to the type of the reference.
In this way the reference appears also as a child in the tree. On the other hand the same add operation can be performed by dragging the object from the tree structure and dropping it on the property of the object that contains the reference. In this case the reference will be set to the parent selecting the compatible menber automatically.

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# SmartPointer Documentation
`uLib::SmartPointer<T>` is a shared ownership smart pointer implementation designed for the `uLib` ecosystem. While it shares many similarities with `std::shared_ptr`, it includes specific features for legacy compatibility, local reference wrapping, and integrated Boost serialization.
## Table of Contents
1. [Overview](#overview)
2. [Key Differences from std::shared_ptr](#key-differences-from-stdshared_ptr)
3. [Common Usage](#common-usage)
4. [Construction and Assignment](#construction-and-assignment)
5. [Wrapping References](#wrapping-references)
6. [Polymorphism and Casting](#polymorphism-and-casting)
7. [Serialization](#serialization)
8. [Thread Safety](#thread-safety)
---
## Overview
A `SmartPointer` manages the lifetime of an object through reference counting. When the last `SmartPointer` owning an object is destroyed or reset, the object is automatically deleted (unless a custom deleter is provided).
The implementation uses an internal `ControlBlock` to manage the reference count and an optional deleter function.
## Key Differences from std::shared_ptr
| Feature | `uLib::SmartPointer<T>` | `std::shared_ptr<T>` |
| :--- | :--- | :--- |
| **Default Constructor** | Initializes to `nullptr`. | Initializes to `nullptr`. |
| **Implicit Conversion** | Implicitly converts from `T*` and to `T*`. | Explicit construction from `T*`, no implicit conversion to `T*`. |
| **Reference Wrapping** | Direct support for wrapping `T&` with a no-op deleter. | Requires explicit custom deleter `[](T*){}`. |
| **Serialization** | Built-in Boost.Serialization support. | Requires external serialization helpers. |
> [!NOTE]
> The default constructor `SmartPointer<T>()` now initializes to `nullptr`, matching standard C++ smart pointer behavior.
## Common Usage
```cpp
#include "Core/SmartPointer.h"
// 1. Allocation via default constructor (Allocates a new MyObject)
uLib::SmartPointer<MyObject> ptr;
// 2. Explicit null pointer
uLib::SmartPointer<MyObject> null_ptr(nullptr);
// 3. From raw pointer
uLib::SmartPointer<MyObject> manual_ptr(new MyObject(args));
// 4. Accessing members
ptr->DoSomething();
(*ptr).Value = 10;
// 5. Checking validity
if (ptr) {
// ...
}
```
## Construction and Assignment
### Allocation and Ownership
- `SmartPointer()`: Initializes to `nullptr` (Standard behavior).
- `SmartPointer(nullptr)`: Initializes to null.
- `SmartPointer(T* ptr)`: Takes ownership of the raw pointer (implicit conversion allowed).
- `SmartPointer(T& ref)`: Wraps an existing reference with a no-op deleter (implicit conversion allowed).
- `SmartPointer(T* ptr, Deleter d)`: Takes ownership and uses a custom deleter.
- `SmartPointer(const SmartPointer* other)`: Creates a copy from a *pointer* to another `SmartPointer`.
### Move and Copy
- Supports standard copy and move semantics. Move operations transfer ownership without incrementing the reference count.
### Pointer Access
- `get()` / `Get()`: Returns the underlying raw pointer.
- `operator T*()`: Implicit conversion to raw pointer (legacy support).
## Wrapping References
The `SmartPointer` can wrap an existing object (e.g., on the stack) without taking ownership:
```cpp
MyObject stackObj;
uLib::SmartPointer<MyObject> spt(stackObj);
// spt will NOT delete stackObj when it goes out of scope.
```
## Polymorphism and Casting
`SmartPointer` supports assignment between compatible types (base/derived). For explicit casting, use the following utilities:
- `uLib::static_pointer_cast<T>(ptr)`
- `uLib::dynamic_pointer_cast<T>(ptr)`
- `uLib::const_pointer_cast<T>(ptr)`
- `uLib::reinterpret_pointer_cast<T>(ptr)`
Example:
```cpp
uLib::SmartPointer<Derived> derived(new Derived());
uLib::SmartPointer<Base> base = derived; // Automatic upcast
auto derived2 = uLib::dynamic_pointer_cast<Derived>(base); // Downcast
```
## Serialization
`SmartPointer` is fully integrated with `boost::serialization`. It tracks `ControlBlock` identity during serialization to ensure that multiple shared pointers to the same object are correctly reconstructed as a single shared instance.
```cpp
#include <boost/archive/text_oarchive.hpp>
void save(const uLib::SmartPointer<MyObject>& ptr, std::ostream& os) {
boost::archive::text_oarchive oa(os);
oa << ptr;
}
```
## Thread Safety
- The reference count is managed using `std::atomic<uint32_t>`, making the increment/decrement operations thread-safe.
- **Note**: While the reference counter itself is thread-safe, the object pointed to by the `SmartPointer` is not automatically protected. Standard thread-safety rules for the underlying type `T` apply.
- Multiple threads can read the same `SmartPointer` concurrently. Concurrent modification (assignment/reset) of the *same* `SmartPointer` instance by different threads requires external synchronization.

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# Properties and the vtk-gui representation
This is the rationale behind the connection between TRS properties and Prop3D Transformation.
The properties from model get propoagated via Object signalling system (the Update signal) to the vtkRepresentation and to the Qt widgets so that the overall transformation of the model reflects into a modification of its representation in vtk and in the gui.
In addition the properties need to be adjusted also from vtk, for example if user uses handlerwidget to change the transformation this is eventually applied to Prop3D and Prop3D should propagate the transformation change to the vtk representation object (for instance vtkContainerBox) and the latter eventually propagates the change into the model.
the Prop3D or the vtk representation wrapper ( vtkContainerBox for instance is the wrapper od ContainerBox ) should not directly show the transformation of the handlerwidget but it should show the transformation of the model once applied so we are always seeing the actual aspect of the model reflected to the vtk representation and not the other way around.
So in syntesis the model is the master and the vtk representation and the gui are the slaves of any modification, but the vtkHandlerWidget is able to apply a transform that should be applied to the model and then the model should propagate the transformation change to the vtk representation and to the gui.
## The Prop3D
The prop3d is the proxy of the spatial placement of objects in the scene. Prop3Ds should have an internal ContainerBox that is shown in the scene around the content to be able to pick Prop3D from vtkViewport using the handler widget. The HandlerWidget moves the Prop3D ContainerBox (the red Highlight element whe selected) to reflect the handler current transformation, but the transformation is propagated to the derived Prop3D classes like vtkContainerBox.
The vtkHandlerWidget should handle the transformation of the prop3d internal ContainerBox. The changes of the ContainerBox will be propagated to the derived classes and eventually to the model.
## ACTIVATE PROPERTIES
ULIB_ACTIVATE_PROPERTIES must run after all member initialization, with the vtable pointing to the most-derived type. This is why it has to be in each constructor — in C++, virtual dispatch only works correctly after a class's vtable is installed, which happens at the start of each level's constructor body.
### Option 1 — End-of-class macro (no constructor boilerplate)
Declare a private member activator as the last member of the class. Its constructor runs after all other members, and at that point the vtable is already Derived's:
// In Property.h, add alongside ULIB_ACTIVATE_PROPERTIES:
#define ULIB_DECLARE_PROPERTIES(SelfType) \
private: \
struct _PropActivator { \
_PropActivator(SelfType* self) { \
uLib::Archive::property_register_archive ar(self); \
ar & *self; \
} \
} _prop_activator{this};
Usage in ContainerBox.h — place it just before the closing brace:
class ContainerBox : public TRS {
public:
// ... all constructors, no more ULIB_ACTIVATE_PROPERTIES(*this)
ULIB_DECLARE_PROPERTIES(ContainerBox) // ← replaces all 3 constructor calls
};
Tradeoff: Works perfectly for single-level classes. For hierarchies where multiple levels use the macro, RegisterDynamicProperty must deduplicate by name (skip if already registered). Requires one line per class in the class body, but zero lines in constructors.
### Option 2 — Lazy init via virtual InitProperties() in Object
Modify Object to call a virtual hook on first GetProperties():
// In Object.h:
class Object {
protected:
virtual void InitProperties() {} // override in derived
public:
const std::vector<PropertyBase*>& GetProperties() const {
if (!m_propertiesInitialized) {
const_cast<Object*>(this)->m_propertiesInitialized = true;
const_cast<Object*>(this)->InitProperties();
}
return m_properties;
}
};
Then a CRTP base handles the rest without any macro:
template<typename Derived>
class PropertyObject : public Object {
protected:
void InitProperties() override {
uLib::Archive::property_register_archive ar(this);
ar & *static_cast<Derived*>(this);
}
};
Usage — just change the base class:
class ContainerBox : public PropertyObject<ContainerBox>, public TRS { ... };
// Nothing else needed — properties activated on first GetProperties() call
Tradeoff: Most "automatic" — pure inheritance, no constructor or class-body macros. But requires modifying Object (adding m_propertiesInitialized flag + virtual hook), and lazy init means properties aren't available until first access. Also doesn't work well with multiple inheritance (which TRS likely involves).
Option 3 — CRTP doesn't work from the base constructor
Just to be explicit: a CRTP base that calls ULIB_ACTIVATE_PROPERTIES in its own constructor won't work, because when PropertyObject<Derived>'s constructor runs, the vtable is PropertyObject<Derived>'s — Derived::serialize() hasn't been installed yet. So ar & *self calls Object::serialize() (a no-op).
Recommendation
Option 1 is the least invasive and safest. Add deduplication to RegisterDynamicProperty in Object.cpp to guard against re-registration when hierarchies stack activators, then replace every ULIB_ACTIVATE_PROPERTIES(*this) in constructors with a single ULIB_DECLARE_PROPERTIES(ClassName) at the end of the class body.
Option 2 is cleaner to use but requires changing the Object interface and has the lazy-init semantic change — only worth it if you want zero-touch activation across the entire framework.

331
src/Core/Archives.h
View File

@@ -28,6 +28,8 @@
#include <boost/archive/detail/basic_pointer_iserializer.hpp>
#include <boost/archive/detail/basic_pointer_oserializer.hpp>
#include <boost/archive/text_oarchive.hpp>
#include <cstring>
#include <iostream>
#include <boost/archive/text_iarchive.hpp>
@@ -59,6 +61,8 @@ class xml_iarchive;
class xml_oarchive;
class text_iarchive;
class text_oarchive;
class hrt_iarchive;
class hrt_oarchive;
class log_archive;
} // namespace Archive
@@ -76,6 +80,9 @@ template <class ArchiveImplementation> class polymorphic_iarchive_route;
namespace boost {
namespace serialization {
template <typename T> struct hrp;
template <typename T> struct hrp_val;
template <typename T> struct hrp_enum;
template <typename T> struct hrp_enum_val;
}
} // namespace boost
@@ -150,7 +157,7 @@ public:
Archive *This() { return static_cast<Archive *>(this); }
template <class T>
const basic_pointer_iserializer *register_type(T * = NULL) {
const basic_pointer_iserializer *register_type(T * = nullptr) {
const basic_pointer_iserializer &bpis = boost::serialization::singleton<
pointer_iserializer<Archive, T>>::get_const_instance();
this->This()->register_basic_serializer(bpis.get_basic_serializer());
@@ -161,15 +168,69 @@ public:
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::nvp<T> &t) {
this->This()->load_override(t);
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp<T> &>(t));
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_val<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_val<T> &>(t));
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_enum<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_enum<T> &>(t));
return *this->This();
}
template <class T>
Archive &operator>>(const boost::serialization::hrp_enum_val<T> &t) {
this->This()->load_override(const_cast<boost::serialization::hrp_enum_val<T> &>(t));
return *this->This();
}
// the & operator
template <class T> Archive &operator&(T &t) { return *(this->This()) >> t; }
template <class T>
Archive &operator&(const boost::serialization::nvp<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_val<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum<T> &t) {
return *(this->This()) >> t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum_val<T> &t) {
return *(this->This()) >> t;
}
// the == operator
template <class T> Archive &operator==(T &t) { return this->operator&(t); }
// the != operator for human readable access
template <class T> Archive &operator!=(T &t) {
std::cerr << std::flush << "cauch string: " << t << "\n"; // REMOVE THIS !
return *this->This();
}
};
@@ -191,27 +252,73 @@ public:
Archive *This() { return static_cast<Archive *>(this); }
template <class T>
const basic_pointer_oserializer *register_type(const T * = NULL) {
const basic_pointer_oserializer *register_type(const T * = nullptr) {
const basic_pointer_oserializer &bpos = boost::serialization::singleton<
pointer_oserializer<Archive, T>>::get_const_instance();
this->This()->register_basic_serializer(bpos.get_basic_serializer());
return &bpos;
}
template <class T> Archive &operator<<(T &t) {
template <class T> Archive &operator<<(const T &t) {
// to get access you must redefine save_override by typing
// "using save_override" in archive impl
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_val<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_enum<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::hrp_enum_val<T> &t) {
this->This()->save_override(t);
return *this->This();
}
template <class T> Archive &operator<<(const boost::serialization::nvp<T> &t) {
this->This()->save_override(t);
return *this->This();
}
// the & operator
template <class T> Archive &operator&(T &t) {
#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
return *this->This() << const_cast<const T &>(t);
#else
template <class T> Archive &operator&(const T &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_val<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::hrp_enum_val<T> &t) {
return *this->This() << t;
}
template <class T>
Archive &operator&(const boost::serialization::nvp<T> &t) {
return *this->This() << t;
#endif
}
// the == operator
@@ -219,7 +326,6 @@ public:
// the != operator for human readable access
template <class T> Archive &operator!=(T &t) {
std::cerr << std::flush << "cauch string: " << t << "\n"; // REMOVE THIS !
return *this->This();
}
};
@@ -244,23 +350,22 @@ template <>
class interface_oarchive<uLib::Archive::text_oarchive>
: public uLib_interface_oarchive<uLib::Archive::text_oarchive> {};
template <>
class interface_iarchive<uLib::Archive::hrt_iarchive>
: public uLib_interface_iarchive<uLib::Archive::hrt_iarchive> {};
template <>
class interface_oarchive<uLib::Archive::hrt_oarchive>
: public uLib_interface_oarchive<uLib::Archive::hrt_oarchive> {};
template <>
class interface_iarchive<uLib::Archive::log_archive>
: public uLib_interface_iarchive<uLib::Archive::log_archive> {};
template <>
class interface_oarchive<uLib::Archive::log_archive>
: public uLib_interface_oarchive<uLib::Archive::log_archive> {};
//// Veritical repetition macro // FINIRE !!!!!!!!!!!!!!!!!!!!!!!!!
// #define _DECL_INTERFACE_ARCHIVE_V(vz,vn,vdata) \
// template <class TypeSeq> \
// struct inherit_nofold<TypeSeq,BOOST_PP_INC(vn)> : \
// BOOST_PP_REPEAT(BOOST_PP_INC(vn),_INERIT_NOFOLD_H,~) \
// {};
//// Multiple size declaration //
// BOOST_PP_REPEAT(ULIB_CFG_MPL_INERIT_NOFOLD_MAXSIZE,_INERIT_NOFOLD_V,~)
// #undef _INERIT_NOFOLD_H
// #undef _INERIT_NOFOLD_V
} // namespace detail
} // namespace archive
} // namespace boost
@@ -279,36 +384,6 @@ class interface_oarchive<uLib::Archive::log_archive>
namespace boost {
namespace archive {
// template<class Archive>
// inline void load_const_override(Archive & ar, const char *t ){
// typedef typename mpl::identity<detail::load_non_pointer_type<Archive>
// >::type typex; typex::invoke(ar, t);
// }
// template<class Archive, class T>
// inline void load(Archive & ar, T &t){
// // if this assertion trips. It means we're trying to load a
// // const object with a compiler that doesn't have correct
// // funtion template ordering. On other compilers, this is
// // handled below.
// // detail::check_const_loading< T >();
// typedef
// BOOST_DEDUCED_TYPENAME mpl::eval_if<is_pointer< T >,
// mpl::identity<detail::load_pointer_type<Archive> >
// ,//else
// BOOST_DEDUCED_TYPENAME mpl::eval_if<is_array< T >,
// mpl::identity<detail::load_array_type<Archive> >
// ,//else
// BOOST_DEDUCED_TYPENAME mpl::eval_if<is_enum< T >,
// mpl::identity<detail::load_enum_type<Archive> >
// ,//else
// mpl::identity<detail::load_non_pointer_type<Archive> >
// >
// >
// >::type typex;
// typex::invoke(ar, t);
// }
} // namespace archive
} // namespace boost
@@ -316,42 +391,38 @@ namespace uLib {
namespace Archive {
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// POLYMORPHIC //
// class polymorphic_iarchive :
// public boost::archive::polymorphic_iarchive {
// public:
// void load_override(const char *t, BOOST_PFTO int)
// {
// boost::archive::load_const_override(* this->This(),
// const_cast<char*>(t));
// }
//};
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// XML //
// ULIB_SERIALIZATION_VERSION should be get from the build system
#ifndef ULIB_SERIALIZATION_VERSION
#define ULIB_SERIALIZATION_VERSION "0.0"
#endif
class xml_iarchive : public boost::archive::xml_iarchive_impl<xml_iarchive> {
typedef xml_iarchive Archive;
typedef boost::archive::xml_iarchive_impl<Archive> base;
unsigned int m_flags;
// give serialization implementation access to this class
friend class boost::archive::detail::interface_iarchive<Archive>;
friend class boost::archive::basic_xml_iarchive<Archive>;
friend class boost::archive::load_access;
public:
xml_iarchive(std::istream &is, unsigned int flags = 0)
: xml_iarchive_impl<xml_iarchive>(is, flags) {}
using basic_xml_iarchive::load_override;
: boost::archive::xml_iarchive_impl<xml_iarchive>(
is, flags | boost::archive::no_header), m_flags(flags) {
if (0 == (flags & boost::archive::no_header)) {
std::string line;
std::getline(is, line); // <?xml ... ?>
std::getline(is, line); // <!DOCTYPE ...>
std::getline(is, line); // <ulib_serialization ...>
}
}
// Anything not an attribute should be a name value pair as nvp or hrp
typedef boost::archive::detail::common_iarchive<Archive>
@@ -364,27 +435,25 @@ public:
boost::serialization::hrp<T> &t) {
this->This()->load_start(t.name());
this->detail_common_iarchive::load_override(t.value());
// t.stov();
this->This()->load_end(t.name());
}
// class_name_type can't be handled here as it depends upon the
// char type used by the stream. So require the derived implementation.
// derived in this case is xml_iarchive_impl or base ..
// Note: using base::load_override covers all basic_xml_iarchive overloads
// transitively, so a separate 'using basic_xml_iarchive::load_override'
// is redundant and creates ambiguity with clang.
using base::load_override;
void load_override(const char *str) {
// StringReader sr(basic_text_iprimitive::is);
// sr >> str;
// StringReader sr(basic_text_iprimitive::is);
// sr >> str;
}
~xml_iarchive() {};
virtual ~xml_iarchive() {}
};
// typedef boost::archive::detail::polymorphic_iarchive_route<
// boost::archive::xml_iarchive_impl<xml_iarchive>
//> polymorphic_xml_iarchive;
template <class ArchiveImpl>
struct polymorphic_iarchive_route
: boost::archive::detail::polymorphic_iarchive_route<ArchiveImpl> {
@@ -394,31 +463,39 @@ struct polymorphic_iarchive_route
class polymorphic_xml_iarchive
: public polymorphic_iarchive_route<
boost::archive::xml_iarchive_impl<xml_iarchive>> {
// give serialization implementation access to this class
// friend class boost::archive::detail::interface_iarchive<Archive>;
// friend class boost::archive::basic_xml_iarchive<Archive>;
// friend class boost::archive::load_access;
public:
virtual void load_override(const char *str) { ; }
virtual void load_override(const char *str) {}
};
class xml_oarchive : public boost::archive::xml_oarchive_impl<xml_oarchive> {
typedef xml_oarchive Archive;
typedef boost::archive::xml_oarchive_impl<Archive> base;
unsigned int m_flags;
// give serialization implementation access to this class
friend class boost::archive::detail::interface_oarchive<Archive>;
friend class boost::archive::basic_xml_oarchive<Archive>;
friend class boost::archive::save_access;
public:
xml_oarchive(std::ostream &os, unsigned int flags = 0)
: boost::archive::xml_oarchive_impl<xml_oarchive>(os, flags) {}
: boost::archive::xml_oarchive_impl<xml_oarchive>(
os, flags | boost::archive::no_header), m_flags(flags) {
if (0 == (flags & boost::archive::no_header)) {
this->This()->put(
"<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"yes\" ?>\n");
this->This()->put("<!DOCTYPE ulib_serialization>\n");
this->This()->put("<ulib_serialization signature=\"serialization::archive\" ");
this->write_attribute("version", (const char *)ULIB_SERIALIZATION_VERSION);
this->This()->put(">\n");
}
}
// example of implementing save_override for const char* //
// void save_override(const char *t, int) {
// std::cout << "found char: " << t << "\n";
// }
virtual ~xml_oarchive() {
if (0 == (m_flags & boost::archive::no_header)) {
this->This()->put("</ulib_serialization>\n");
}
}
using basic_xml_oarchive::save_override;
@@ -432,17 +509,14 @@ public:
#endif
::boost::serialization::hrp<T> &t) {
this->This()->save_start(t.name());
// t.vtos();
// this->detail_common_oarchive::save_override(t.const_value());
this->detail_common_oarchive::save_override(t.const_value());
this->This()->save_end(t.name());
}
void save_override(const char *str) {
// Do not save any human decoration string //
// basic_text_oprimitive::save(str);
// basic_text_oprimitive::save(str);
}
~xml_oarchive() {}
};
// typedef boost::archive::detail::polymorphic_oarchive_route<
@@ -467,29 +541,21 @@ public:
text_iarchive(std::istream &is, unsigned int flags = 0)
: text_iarchive_impl<Archive>(is, flags) {}
using basic_text_iarchive::load_override;
using base::load_override;
void load_override(boost::archive::object_id_type &t) {}
// class_name_type can't be handled here as it depends upon the
// char type used by the stream. So require the derived implementation.
// derived in this case is xml_iarchive_impl or base ..
using base::load_override;
void load_override(const char *str) {
StringReader sr(basic_text_iprimitive::is);
sr >> str;
}
~text_iarchive() {};
virtual ~text_iarchive() {}
};
typedef text_iarchive naked_text_iarchive;
// typedef boost::archive::detail::polymorphic_iarchive_route<
// naked_text_iarchive
//> polymorphic_text_iarchive;
class text_oarchive : public boost::archive::text_oarchive_impl<text_oarchive> {
typedef text_oarchive Archive;
typedef boost::archive::text_oarchive_impl<Archive> base;
@@ -507,13 +573,9 @@ public:
void save_override(const char *str) { basic_text_oprimitive::save(str); }
~text_oarchive() {}
virtual ~text_oarchive() {}
};
// typedef boost::archive::detail::polymorphic_oarchive_route<
// boost::archive::text_oarchive_impl<text_oarchive>
//> polymorphic_text_oarchive;
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
@@ -532,7 +594,7 @@ public:
hrt_iarchive(std::istream &is, unsigned int flags = 0)
: base(is, flags | boost::archive::no_header) {}
using basic_text_iarchive::load_override;
using base::load_override;
// hide all archive props //
void load_override(boost::archive::object_id_type &t) {}
@@ -544,17 +606,13 @@ public:
void load_override(boost::archive::class_name_type &t) {}
void load_override(boost::archive::tracking_type &t) {}
// class_name_type can't be handled here as it depends upon the
// char type used by the stream. So require the derived implementation.
// derived in this case is xml_iarchive_impl or base ..
using base::load_override;
void load_override(const char *str) {
StringReader sr(basic_text_iprimitive::is);
sr >> str;
}
~hrt_iarchive() {};
virtual ~hrt_iarchive() {}
};
class hrt_oarchive : public boost::archive::text_oarchive_impl<hrt_oarchive> {
@@ -583,7 +641,14 @@ public:
void save_override(const char *str) { basic_text_oprimitive::save(str); }
~hrt_oarchive() {}
template <class T>
void save_override(const boost::serialization::hrp<T> &t) {
*this << t.name() << ": ";
*this << t.const_value();
*this << "\n";
}
virtual ~hrt_oarchive() {}
};
////////////////////////////////////////////////////////////////////////////////
@@ -611,22 +676,18 @@ public:
// basic_text_oprimitive::save(str);
}
template <class T> void save_override(T &t) {
base::save_override(boost::serialization::make_nvp(NULL, t));
template <class T> void save_override(const T &t) {
base::save_override(boost::serialization::make_nvp(nullptr, t));
}
// activate this if you want to trap non nvp objects //
// template<class T>
// void save_override(T & t)
// {
// BOOST_MPL_ASSERT((boost::serialization::is_wrapper< T >));
// // this->detail_common_oarchive::save_override(t);
// }
template <class T> void save_override(const boost::serialization::nvp<T> &t) {
base::save_override(t);
}
template <class T> void save_override(const boost::serialization::hrp<T> &t) {
base::save_override(boost::serialization::make_nvp(t.name(), t.const_value()));
}
// specific overrides for attributes - not name value pairs so we
// want to trap them before the above "fall through"
// since we don't want to see these in the output - make them no-ops.
@@ -643,11 +704,9 @@ public:
log_archive(std::ostream &os, unsigned int flags = 0)
: boost::archive::xml_oarchive_impl<log_archive>(
os, flags | boost::archive::no_header) {}
};
// typedef boost::archive::detail::polymorphic_oarchive_route<
// boost::archive::xml_oarchive_impl<log_archive>
//> polymorphic_log_archive;
virtual ~log_archive() {}
};
} // namespace Archive
@@ -661,10 +720,4 @@ ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::hrt_iarchive)
ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::hrt_oarchive)
ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::log_archive)
// ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::polymorphic_xml_iarchive)
// ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::polymorphic_xml_oarchive)
// ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::polymorphic_text_iarchive)
// ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::polymorphic_text_oarchive)
// ULIB_SERIALIZATION_REGISTER_ARCHIVE(uLib::Archive::polymorphic_log_archive)
#endif // U_CORE_ARCHIVES_H

17
src/Core/CMakeLists.txt
View File

@@ -10,6 +10,8 @@ set(HEADERS
Macros.h
Mpl.h
Object.h
ObjectFactory.h
ObjectsContext.h
Options.h
Serializable.h
Signal.h
@@ -17,6 +19,9 @@ set(HEADERS
SmartPointer.h
StaticInterface.h
StringReader.h
Threads.h
Monitor.h
Property.h
Types.h
Uuid.h
Vector.h
@@ -26,13 +31,20 @@ set(SOURCES
Archives.cpp
Debug.cpp
Object.cpp
ObjectFactory.cpp
ObjectsContext.cpp
Options.cpp
Serializable.cpp
Signal.cpp
Uuid.cpp
Threads.cpp
)
set(LIBRARIES Boost::program_options Boost::serialization)
set(LIBRARIES
Boost::program_options
Boost::serialization
OpenMP::OpenMP_CXX
)
set(libname ${PACKAGE_LIBPREFIX}Core)
set(ULIB_SHARED_LIBRARIES ${ULIB_SHARED_LIBRARIES} ${libname} PARENT_SCOPE)
@@ -47,9 +59,10 @@ if(USE_CUDA)
endif()
target_link_libraries(${libname} ${LIBRARIES})
target_compile_definitions(${libname} PUBLIC ULIB_SERIALIZATION_VERSION="${PROJECT_VERSION}")
install(TARGETS ${libname}
EXPORT "${PROJECT_NAME}Targets"
EXPORT "uLibTargets"
RUNTIME DESTINATION ${INSTALL_BIN_DIR} COMPONENT bin
LIBRARY DESTINATION ${INSTALL_LIB_DIR} COMPONENT lib)

33
src/Core/DataAllocator.h
View File

@@ -52,6 +52,7 @@ public:
else
m_RamData = static_cast<T *>(::operator new(m_Size * sizeof(T)));
}
// std::cout << "DataAllocator Constructor: ptr=" << m_RamData << " size=" << m_Size << " own=" << m_OwnsObjects << std::endl;
}
DataAllocator(const DataAllocator<T> &other)
@@ -63,7 +64,12 @@ public:
m_RamData = new T[m_Size];
else
m_RamData = static_cast<T *>(::operator new(m_Size * sizeof(T)));
std::memcpy(m_RamData, other.m_RamData, m_Size * sizeof(T));
if (m_OwnsObjects) {
std::copy(other.m_RamData, other.m_RamData + m_Size, m_RamData);
} else {
std::memcpy(m_RamData, other.m_RamData, m_Size * sizeof(T));
}
}
#ifdef USE_CUDA
if (other.m_VramData) {
@@ -73,14 +79,17 @@ public:
}
#endif
}
// std::cout << "DataAllocator CopyConstructor: from=" << other.m_RamData << " to=" << m_RamData << " size=" << m_Size << " own=" << m_OwnsObjects << std::endl;
}
~DataAllocator() {
// std::cout << "DataAllocator Destructor: ptr=" << m_RamData << " size=" << m_Size << " own=" << m_OwnsObjects << std::endl;
if (m_RamData) {
if (m_OwnsObjects)
delete[] m_RamData;
else
::operator delete(m_RamData);
m_RamData = nullptr;
}
#ifdef USE_CUDA
if (m_VramData) {
@@ -91,6 +100,13 @@ public:
DataAllocator &operator=(const DataAllocator &other) {
if (this != &other) {
if (m_Size == other.m_Size && m_OwnsObjects != other.m_OwnsObjects) {
// Ownership changed but size is same: we must force reallocation
// to avoid using the wrong delete operator later.
size_t oldSize = m_Size;
m_Size = 0;
resize(oldSize); // This will free the old buffer with the OLD ownership
}
m_OwnsObjects = other.m_OwnsObjects;
resize(other.m_Size);
m_Device = other.m_Device;
@@ -101,7 +117,11 @@ public:
else
m_RamData = static_cast<T *>(::operator new(m_Size * sizeof(T)));
}
std::memcpy(m_RamData, other.m_RamData, m_Size * sizeof(T));
if (m_OwnsObjects) {
std::copy(other.m_RamData, other.m_RamData + m_Size, m_RamData);
} else {
std::memcpy(m_RamData, other.m_RamData, m_Size * sizeof(T));
}
}
#ifdef USE_CUDA
if (other.m_VramData) {
@@ -112,6 +132,7 @@ public:
}
#endif
}
// std::cout << "DataAllocator AssigmentOp: otherPtr=" << other.m_RamData << " thisPtr=" << m_RamData << " size=" << m_Size << " own=" << m_OwnsObjects << std::endl;
return *this;
}
@@ -152,6 +173,8 @@ public:
if (m_Size == size)
return;
// std::cout << "DataAllocator Resize: from=" << m_Size << " to=" << size << " ptr=" << m_RamData << " own=" << m_OwnsObjects << std::endl;
T *newRam = nullptr;
T *newVram = nullptr;
@@ -162,7 +185,11 @@ public:
newRam = static_cast<T *>(::operator new(size * sizeof(T)));
if (m_RamData) {
std::memcpy(newRam, m_RamData, std::min(m_Size, size) * sizeof(T));
if (m_OwnsObjects) {
std::copy(m_RamData, m_RamData + std::min(m_Size, size), newRam);
} else {
std::memcpy(newRam, m_RamData, std::min(m_Size, size) * sizeof(T));
}
}
#ifdef USE_CUDA

77
src/Core/Debug.h
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@@ -36,7 +36,77 @@
#include "SmartPointer.h"
#include <boost/any.hpp>
#include <TObject.h>
/**
* @file Debug.h
* @brief Unified Debugging and Monitoring System for uLib.
*
* # Debug System Documentation
*
* The `Debug` system provides a flexible, adapter-based mechanism for monitoring
* and outputting internal variables and states without hardcoding output logic
* into core classes.
*
* ## Architecture
*
* The system follows an adapter pattern:
*
* - **`DebugAdapterInterface`**: The base interface for all output targets.
* Subclasses define how primitive types and strings are handled (e.g., printing
* to `std::cout`, writing to a log file, or updating a real-time UI widget).
*
* - **`Debug` Class**: The central registry. It stores:
* 1. A list of "Adapters" (`DebugAdapterInterface`).
* 2. A list of "Items" to monitor. Each item is a reference to a variable
* associated with a name.
*
* - **Type Safety**: Although variables are stored using `boost::any` (type erasure),
* the system automatically preserves the original type information via
* internal template adapters (`AnyCastAdapter`), ensuring that the correct
* overload of the adapter interface is called.
*
* ## Core Components
*
* | Component | Description |
* | :--- | :--- |
* | `Debug` | The main controller used to add adapters and register variables. |
* | `DebugAdapterInterface` | Virtual base for creating new output methods. |
* | `DebugAdapterText` | A simple built-in adapter for `std::ostream` output. |
*
* ## How to Use
*
* ### 1. Initialize the Debug Object
* ```cpp
* uLib::Debug dbg;
* ```
*
* ### 2. Add an Adapter
* ```cpp
* uLib::DebugAdapterText console(std::cout);
* dbg.AddAdapter(console);
* ```
*
* ### 3. Register Variables to Monitor
* Use the `operator()` to bind a variable by reference.
* ```cpp
* int frameCount = 0;
* std::string state = "Initializing";
* dbg("Frames", frameCount);
* dbg("Status", state);
* ```
*
* ### 4. Update
* Call `Update()` periodically (e.g., once per frame) to push the current
* values of all registered variables to all connected adapters.
* ```cpp
* while(running) {
* frameCount++;
* dbg.Update(); // This triggers the output
* }
* ```
*/
namespace uLib {
@@ -107,7 +177,6 @@ public:
class Debug {
typedef detail::DebugAdapterInterface AdapterInterface;
typedef SmartPointer<detail::DebugAdapterInterface> Adapter;
@@ -119,8 +188,8 @@ public:
void AddAdapter(AdapterInterface &ad) { m_a.push_back(Adapter(ad)); }
void Update() {
foreach(Adapter &ad, m_a) {
foreach(DItem &item, m_v) {
for(Adapter &ad : m_a) {
for(DItem &item : m_v) {
item.m_adapter->operator()(ad, item.m_value);
}
}

48
src/Core/FontConfig.h Normal file
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@@ -0,0 +1,48 @@
#ifndef U_CORE_FONTCONFIG_H
#define U_CORE_FONTCONFIG_H
#include <string>
#include <ostream>
#include <boost/serialization/nvp.hpp>
namespace uLib {
/**
* @struct FontConfig
* @brief Basic font configuration for text properties.
*/
struct FontConfig {
std::string family;
int size;
bool bold;
bool italic;
FontConfig() : family("Arial"), size(10), bold(false), italic(false) {}
FontConfig(const std::string& fam, int sz, bool b = false, bool i = false)
: family(fam), size(sz), bold(b), italic(i) {}
bool operator==(const FontConfig& other) const {
return family == other.family && size == other.size &&
bold == other.bold && italic == other.italic;
}
bool operator!=(const FontConfig& other) const { return !(*this == other); }
template<class Archive>
void serialize(Archive& ar, const unsigned int version) {
ar & boost::serialization::make_nvp("family", family);
ar & boost::serialization::make_nvp("size", size);
ar & boost::serialization::make_nvp("bold", bold);
ar & boost::serialization::make_nvp("italic", italic);
}
};
inline std::ostream& operator<<(std::ostream& os, const FontConfig& f) {
os << f.family << " " << f.size;
if (f.bold) os << " Bold";
if (f.italic) os << " Italic";
return os;
}
} // namespace uLib
#endif // U_CORE_FONTCONFIG_H

215
src/Core/Monitor.h Normal file
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@@ -0,0 +1,215 @@
/*//////////////////////////////////////////////////////////////////////////////
// CMT Cosmic Muon Tomography project //////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
Copyright (c) 2014, Universita' degli Studi di Padova, INFN sez. di Padova
All rights reserved
Authors: Andrea Rigoni Garola < andrea.rigoni@pd.infn.it >
------------------------------------------------------------------
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3.0 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library.
//////////////////////////////////////////////////////////////////////////////*/
#ifndef U_CORE_MONITOR_H
#define U_CORE_MONITOR_H
#include <mutex>
#include <condition_variable>
#include <chrono>
#include <utility>
namespace uLib {
/**
* @brief Mutex class wraps std::timed_mutex and is used for thread synchronization.
*/
class Mutex {
public:
Mutex() = default;
~Mutex() = default;
/** @brief Locks the mutex, blocking if necessary. */
void Lock() { m_Mutex.lock(); }
/** @brief Unlocks the mutex. */
void Unlock() { m_Mutex.unlock(); }
/** @brief Tries to lock the mutex without blocking. */
bool TryLock() { return m_Mutex.try_lock(); }
/** @brief Tries to lock the mutex within a timeout in milliseconds. */
bool TryLockFor(int timeout_ms) {
if (timeout_ms < 0) { Lock(); return true; }
return m_Mutex.try_lock_for(std::chrono::milliseconds(timeout_ms));
}
/** @brief RAII helper for scoped locking. */
class ScopedLock {
public:
ScopedLock(Mutex &mutex) : m_Mutex(mutex) { m_Mutex.Lock(); }
~ScopedLock() { m_Mutex.Unlock(); }
private:
Mutex &m_Mutex;
// Non-copyable
ScopedLock(const ScopedLock&) = delete;
ScopedLock& operator=(const ScopedLock&) = delete;
};
/** @brief Returns the underlying std::timed_mutex. */
std::timed_mutex& GetNative() { return m_Mutex; }
private:
std::timed_mutex m_Mutex;
// Non-copyable
Mutex(const Mutex &) = delete;
Mutex &operator=(const Mutex &) = delete;
};
namespace detail {
/** @brief Internal implementation for the ULIB_MUTEX_LOCK macros. */
class ScopedTimedLock {
public:
ScopedTimedLock(Mutex& mutex, int timeout_ms)
: m_RawMutex(nullptr), m_MutexWrapper(&mutex), m_Locked(false) {
m_Locked = m_MutexWrapper->TryLockFor(timeout_ms);
}
ScopedTimedLock(std::timed_mutex& mutex, int timeout_ms)
: m_RawMutex(&mutex), m_MutexWrapper(nullptr), m_Locked(false) {
if (timeout_ms < 0) { m_RawMutex->lock(); m_Locked = true; }
else m_Locked = m_RawMutex->try_lock_for(std::chrono::milliseconds(timeout_ms));
}
~ScopedTimedLock() {
if (m_Locked) {
if (m_RawMutex) m_RawMutex->unlock();
else if (m_MutexWrapper) m_MutexWrapper->Unlock();
}
}
operator bool() const { return m_Locked; }
void unlock() { if (m_Locked) {
if (m_RawMutex) m_RawMutex->unlock();
else if (m_MutexWrapper) m_MutexWrapper->Unlock();
m_Locked = false;
} }
private:
std::timed_mutex* m_RawMutex = nullptr;
Mutex* m_MutexWrapper = nullptr;
bool m_Locked;
// Non-copyable/movable to be safe in the 'for' loop
ScopedTimedLock(const ScopedTimedLock&) = delete;
ScopedTimedLock& operator=(const ScopedTimedLock&) = delete;
ScopedTimedLock(ScopedTimedLock&&) = default;
};
inline ScopedTimedLock makeScopedMutexLock(Mutex& mutex, int timeout_ms) {
return ScopedTimedLock(mutex, timeout_ms);
}
inline ScopedTimedLock makeScopedMutexLock(std::timed_mutex& mutex, int timeout_ms) {
return ScopedTimedLock(mutex, timeout_ms);
}
} // namespace detail
/**
* @brief Macro for block-scoped locking of a static mutex.
* @param timeout Timeout in ms (-1 for infinite).
*/
#define ULIB_STATIC_LOCK(timeout) \
static std::timed_mutex __ulib_static_mutex; \
for (auto __ulib_lock = uLib::detail::makeScopedMutexLock(__ulib_static_mutex, timeout); \
__ulib_lock; \
__ulib_lock.unlock())
/**
* @brief Macro for block-scoped locking of a provided mutex.
* @param mutex The uLib::Mutex or std::timed_mutex to lock.
* @param timeout Timeout in ms (-1 for infinite).
*/
#define ULIB_MUTEX_LOCK(mutex, timeout) \
for (auto __ulib_lock = uLib::detail::makeScopedMutexLock(mutex, timeout); \
__ulib_lock; \
__ulib_lock.unlock())
/**
* @brief RecursiveMutex class wraps std::recursive_timed_mutex.
*/
class RecursiveMutex {
public:
RecursiveMutex() = default;
~RecursiveMutex() = default;
/** @brief Locks the mutex, blocking if necessary. */
void Lock() { m_Mutex.lock(); }
/** @brief Unlocks the mutex. */
void Unlock() { m_Mutex.unlock(); }
/** @brief Tries to lock the mutex without blocking. */
bool TryLock() { return m_Mutex.try_lock(); }
/** @brief Tries to lock the mutex within a timeout in milliseconds. */
bool TryLockFor(int timeout_ms) {
if (timeout_ms < 0) { Lock(); return true; }
return m_Mutex.try_lock_for(std::chrono::milliseconds(timeout_ms));
}
/** @brief RAII helper for scoped locking. */
class ScopedLock {
public:
ScopedLock(RecursiveMutex &mutex) : m_Mutex(mutex) { m_Mutex.Lock(); }
~ScopedLock() { m_Mutex.Unlock(); }
private:
RecursiveMutex &m_Mutex;
ScopedLock(const ScopedLock&) = delete;
ScopedLock& operator=(const ScopedLock&) = delete;
};
private:
std::recursive_timed_mutex m_Mutex;
RecursiveMutex(const RecursiveMutex &) = delete;
RecursiveMutex &operator=(const RecursiveMutex &) = delete;
};
/**
* @brief Monitor class provides a base for objects that need thread-safe access.
*/
template <typename T>
class Monitor {
protected:
T* m_Resource;
Mutex m_Mutex;
public:
Monitor(T* resource) : m_Resource(resource) {}
virtual ~Monitor() { delete m_Resource; }
/** @brief Thread-safe access to the resource through a lambda. */
template <typename F>
auto Access(F f) -> decltype(f(*m_Resource)) {
Mutex::ScopedLock lock(m_Mutex);
return f(*m_Resource);
}
};
} // namespace uLib
#endif // U_CORE_MONITOR_H

141
src/Core/Object.cpp
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@@ -35,6 +35,9 @@
#include "boost/archive/polymorphic_xml_iarchive.hpp"
#include "boost/archive/polymorphic_xml_oarchive.hpp"
#include <vector>
#include "Property.h"
namespace uLib {
const char *Version::PackageName = PACKAGE_NAME;
@@ -57,25 +60,123 @@ public:
std::string slostr;
};
Vector<Signal> sigv;
Vector<Slot> slov;
~ObjectPrivate() {
for (auto& s : sigv) delete s.signal;
}
std::string m_InstanceName;
std::vector<Signal> sigv;
std::vector<Slot> slov;
std::vector<PropertyBase*> m_Properties;
std::vector<PropertyBase*> m_DynamicProperties;
std::vector<PropertyBase*> m_DisplayProperties;
bool m_SignalsBlocked;
};
// Implementations of Property methods
void Object::RegisterDisplayProperty(PropertyBase* prop) {
if (prop) {
for (auto* existing : d->m_DisplayProperties) {
if (existing == prop) return;
if (existing->GetName() == prop->GetName()) return;
}
d->m_DisplayProperties.push_back(prop);
}
}
const std::vector<PropertyBase*>& Object::GetDisplayProperties() const {
return d->m_DisplayProperties;
}
void Object::RegisterProperty(PropertyBase* prop) {
if (prop) {
for (auto* existing : d->m_Properties) {
if (existing == prop) return;
if (existing->GetName() == prop->GetName()) return;
}
d->m_Properties.push_back(prop);
}
}
void Object::RegisterDynamicProperty(PropertyBase* prop) {
if (prop) {
for (auto* existing : d->m_DynamicProperties) {
if (existing == prop) return;
if (existing->GetQualifiedName() == prop->GetQualifiedName()) return;
}
d->m_DynamicProperties.push_back(prop);
}
}
const std::vector<PropertyBase*>& Object::GetProperties() const {
return d->m_Properties;
}
PropertyBase* Object::GetProperty(const std::string& name) const {
for (auto* p : d->m_Properties) {
if (p->GetName() == name || p->GetQualifiedName() == name) return p;
}
for (auto* p : d->m_DynamicProperties) {
if (p->GetName() == name || p->GetQualifiedName() == name) return p;
}
for (auto* p : d->m_DisplayProperties) {
if (p->GetName() == name || p->GetQualifiedName() == name) return p;
}
return nullptr;
}
void Object::NotifyPropertiesUpdated() {
// Only notify properties in the primary list to avoid duplicates,
// as all registered properties should be there.
for (auto* p : d->m_Properties) p->Updated();
}
void Object::Updated() { ULIB_SIGNAL_EMIT(Object::Updated); }
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// OBJECT IMPLEMENTATION
Object::Object() : d(new ObjectPrivate) {}
Object::Object() : d(new ObjectPrivate) {
d->m_SignalsBlocked = false;
}
Object::Object(const Object &copy) : d(new ObjectPrivate) {
if (copy.d) {
d->m_InstanceName = copy.d->m_InstanceName;
d->m_SignalsBlocked = copy.d->m_SignalsBlocked;
}
}
Object::Object(const Object &copy) : d(new ObjectPrivate(*copy.d)) {}
Object& Object::operator=(const Object &other) {
// Intentionally does NOT share 'd'. Each Object owns its own ObjectPrivate.
// Without this, the compiler-generated operator= would copy the 'd' pointer,
// causing two objects to share the same ObjectPrivate. When both are
// destroyed, 'd' would be deleted twice, corrupting the heap.
if (this != &other && other.d) {
d->m_InstanceName = other.d->m_InstanceName;
d->m_SignalsBlocked = other.d->m_SignalsBlocked;
}
return *this;
}
Object::~Object() { delete d; }
Object::~Object() {
for (auto* p : d->m_DynamicProperties) {
delete p;
}
for (auto* p : d->m_DisplayProperties) {
delete p;
}
delete d;
}
void Object::DeepCopy(const Object &copy) {
// should lock to be tread safe //
memcpy(d, copy.d, sizeof(ObjectPrivate));
// ERROR! does not copy parameters ... <<<< FIXXXXX
if (this == &copy) return;
if (copy.d) d->m_InstanceName = copy.d->m_InstanceName;
std::cout << "Object DeepCopy: from d=" << copy.d << " to d=" << d << std::endl;
// Note: signals, slots and properties are intentionally not copied
// to maintain instance uniquely and avoid duplicate registrations.
this->Updated();
}
void Object::SaveXml(std::ostream &os, Object &ob) {
@@ -99,9 +200,8 @@ void Object::LoadConfig(std::istream &is, int version) {
void Object::PrintSelf(std::ostream &o) const {
o << "OBJECT signals: ------------------\n";
Vector<ObjectPrivate::Signal>::Iterator itr;
for (itr = d->sigv.begin(); itr < d->sigv.end(); itr++) {
o << " signal:[ " << itr->sigstr << " ]\n";
for (const auto& sig : d->sigv) {
o << " signal:[ " << sig.sigstr << " ]\n";
}
o << "--------------------------------------\n\n";
}
@@ -145,6 +245,25 @@ GenericMFPtr *Object::findSlotImpl(const char *name) const {
return NULL;
}
const std::string& Object::GetInstanceName() const {
return d->m_InstanceName;
}
void Object::SetInstanceName(const std::string& name) {
d->m_InstanceName = name;
this->Updated();
}
bool Object::blockSignals(bool block) {
bool old = d->m_SignalsBlocked;
d->m_SignalsBlocked = block;
return old;
}
bool Object::signalsBlocked() const {
return d->m_SignalsBlocked;
}
// std::ostream &
// operator << (std::ostream &os, uLib::Object &ob)
// {

92
src/Core/Object.h
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@@ -27,6 +27,7 @@
#define U_CORE_OBJECT_H
#include <iostream>
#include <string>
// WARNING: COPILE ERROR if this goes after mpl/vector //
// #include "Core/Vector.h"
@@ -50,6 +51,9 @@ class polymorphic_oarchive;
namespace uLib {
class PropertyBase;
class ObjectsContext;
class Version {
public:
static const char *PackageName;
@@ -72,7 +76,33 @@ public:
Object();
Object(const Object &copy);
~Object();
virtual ~Object();
virtual const char *GetClassName() const { return type_name(); }
virtual const char *type_name() const { return "Object"; }
const std::string &GetInstanceName() const;
void SetInstanceName(const std::string &name);
/** @brief Temporarily blocks all signal emissions from this object. Returns
* previous state. */
bool blockSignals(bool block);
/** @brief Checks if signals are currently blocked. */
bool signalsBlocked() const;
////////////////////////////////////////////////////////////////////////////
// PROPERTIES //
virtual void RegisterProperty(PropertyBase *property);
virtual void RegisterDynamicProperty(PropertyBase *property);
virtual void RegisterDisplayProperty(PropertyBase *property);
virtual const std::vector<PropertyBase *> &GetProperties() const;
virtual const std::vector<PropertyBase *> &GetDisplayProperties() const;
PropertyBase *GetProperty(const std::string &name) const;
/** @brief Sends an Updated signal for all properties of this object. useful
* for real-time UI refresh. */
void NotifyPropertiesUpdated();
////////////////////////////////////////////////////////////////////////////
// PARAMETERS //
@@ -80,11 +110,30 @@ public:
// FIXX !!!
virtual void DeepCopy(const Object &copy);
/** @brief Returns a nested context for children objects, if any. */
virtual ObjectsContext *GetChildren() { return nullptr; }
////////////////////////////////////////////////////////////////////////////
// SERIALIZATION //
template <class ArchiveT>
void serialize(ArchiveT &ar, const unsigned int version) {}
void serialize(ArchiveT &ar, const unsigned int version);
virtual void serialize(Archive::xml_oarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::xml_iarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::text_oarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::text_iarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::hrt_oarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::hrt_iarchive &ar,
const unsigned int version) {}
virtual void serialize(Archive::log_archive &ar, const unsigned int version) {
}
template <class ArchiveT>
void save_override(ArchiveT &ar, const unsigned int version) {}
@@ -97,6 +146,9 @@ public:
////////////////////////////////////////////////////////////////////////////
// SIGNALS //
signals:
virtual void Updated();
// Qt4 style connector //
static bool connect(const Object *ob1, const char *signal_name,
const Object *receiver, const char *slot_name) {
@@ -112,20 +164,37 @@ public:
// Qt5 style connector //
template <typename Func1, typename Func2>
static bool
static Connection
connect(typename FunctionPointer<Func1>::Object *sender, Func1 sigf,
typename FunctionPointer<Func2>::Object *receiver, Func2 slof) {
SignalBase *sigb = sender->findOrAddSignal(sigf);
ConnectSignal<typename FunctionPointer<Func1>::SignalSignature>(sigb, slof,
receiver);
return ConnectSignal<typename FunctionPointer<Func1>::SignalSignature>(
sigb, slof, receiver);
}
// Lambda/Function object connector //
template <typename Func1, typename SlotT>
static Connection connect(typename FunctionPointer<Func1>::Object *sender,
Func1 sigf, SlotT slof) {
SignalBase *sigb = sender->findOrAddSignal(sigf);
typedef typename FunctionPointer<Func1>::SignalSignature SigSignature;
typedef typename Signal<SigSignature>::type SigT;
return reinterpret_cast<SigT *>(sigb)->connect(slof);
}
template <typename Func1, typename Func2>
static bool
disconnect(typename FunctionPointer<Func1>::Object *sender, Func1 sigf,
typename FunctionPointer<Func2>::Object *receiver, Func2 slof) {
// TODO: implement actual disconnect in Signal.h //
return true;
}
template <typename FuncT>
static inline bool connect(SignalBase *sigb, FuncT slof, Object *receiver) {
ConnectSignal<typename FunctionPointer<FuncT>::SignalSignature>(sigb, slof,
receiver);
return true;
static inline Connection connect(SignalBase *sigb, FuncT slof,
Object *receiver) {
return ConnectSignal<typename FunctionPointer<FuncT>::SignalSignature>(
sigb, slof, receiver);
}
template <typename FuncT>
@@ -179,10 +248,7 @@ public:
void PrintSelf(std::ostream &o) const;
inline const Object &operator=(const Object &copy) {
this->DeepCopy(copy);
return *this;
}
Object &operator=(const Object &other);
private:
bool addSignalImpl(SignalBase *sig, GenericMFPtr fptr, const char *name);

32
src/Core/ObjectFactory.cpp Normal file
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@@ -0,0 +1,32 @@
#include "ObjectFactory.h"
namespace uLib {
ObjectFactory& ObjectFactory::Instance() {
static ObjectFactory instance;
return instance;
}
void ObjectFactory::Register(const std::string& className, FactoryFunction func) {
if (m_factoryMap.find(className) == m_factoryMap.end()) {
m_factoryMap[className] = func;
}
}
Object* ObjectFactory::Create(const std::string& className) {
auto it = m_factoryMap.find(className);
if (it != m_factoryMap.end()) {
return (it->second)();
}
return nullptr;
}
std::vector<std::string> ObjectFactory::GetRegisteredClasses() const {
std::vector<std::string> classes;
for (auto const& [name, func] : m_factoryMap) {
classes.push_back(name);
}
return classes;
}
} // namespace uLib

142
src/Core/ObjectFactory.h Normal file
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@@ -0,0 +1,142 @@
#ifndef U_CORE_OBJECTFACTORY_H
#define U_CORE_OBJECTFACTORY_H
#include "Core/Object.h"
#include <functional>
#include <map>
#include <string>
#include <type_traits>
#include <vector>
namespace uLib {
/**
* @brief Singleton factory for dynamic Object instantiation based on class
* name.
*/
class ObjectFactory {
public:
typedef std::function<Object *()> FactoryFunction;
/** @brief Get the singleton instance. */
static ObjectFactory &Instance();
/** @brief Register a factory function for a given class name. */
void Register(const std::string &className, FactoryFunction func);
/** @brief Create a new instance of the specified class. */
Object *Create(const std::string &className);
/** @brief Get the names of all registered classes. */
std::vector<std::string> GetRegisteredClasses() const;
private:
ObjectFactory() = default;
~ObjectFactory() = default;
// Prevent copy and assignment
ObjectFactory(const ObjectFactory &) = delete;
ObjectFactory &operator=(const ObjectFactory &) = delete;
std::map<std::string, FactoryFunction> m_factoryMap;
};
/**
* @brief Helper class to statically register a factory function.
*/
template <typename T> class ObjectRegistrar {
public:
ObjectRegistrar(const std::string &className) {
ObjectFactory::Instance().Register(className,
[]() -> Object * { return new T(); });
}
};
#define ULIB_REG_CONCAT_IMPL(a, b) a##b
#define ULIB_REG_CONCAT(a, b) ULIB_REG_CONCAT_IMPL(a, b)
/**
* @brief Macro to register a class to the factory.
* Put this in the .cpp file of the class.
*/
#define ULIB_REGISTER_OBJECT(className) \
static uLib::ObjectRegistrar<className> ULIB_REG_CONCAT( \
g_ObjectRegistrar_, __LINE__)(#className);
#define ULIB_REGISTER_OBJECT_NAME(className, registeredName) \
static uLib::ObjectRegistrar<className> ULIB_REG_CONCAT( \
g_ObjectRegistrar_, __LINE__)(registeredName);
/**
* @brief Utility wrapper that bridges factory registration and shared ownership.
*
* ObjectWrapper provides a high-level interface to handle objects that can be
* both registered in the ObjectFactory and managed through shared ownership
* using SmartPointer.
*
* One of its key roles is static registration: when instantiated with a
* class name string, it automatically registers a factory function for type T
* in the ObjectFactory singleton. This allows the factory to subsequently
* create instances of T dynamically by name.
*
* It supports multiple initialization paths, including factory-based
* construction and direct model wrapping.
*/
template <typename T> class ObjectWrapper {
public:
ObjectWrapper(const std::string &className) {
ObjectFactory::Instance().Register(className,
[]() -> Object * { return new T(); });
}
ObjectWrapper(T *model) : m_model(model) {}
ObjectWrapper(T &model) : m_model(model) {}
template <typename U = T,
typename = std::enable_if_t<std::is_default_constructible_v<U>>>
ObjectWrapper() : m_model(new T()) {}
ObjectWrapper(const ObjectWrapper &other) : m_model(other.m_model) {}
ObjectWrapper &operator=(const ObjectWrapper &other) {
m_model = other.m_model;
return *this;
}
ObjectWrapper(ObjectWrapper &&other) noexcept
: m_model(std::move(other.m_model)) {}
ObjectWrapper &operator=(ObjectWrapper &&other) noexcept {
m_model = std::move(other.m_model);
return *this;
}
~ObjectWrapper() = default;
T *operator->() const { return m_model.get(); }
T &operator*() const { return *m_model; }
T *GetWrapped() const { return m_model.get(); }
bool operator==(const ObjectWrapper &other) const {
return m_model == other.m_model;
}
bool operator!=(const ObjectWrapper &other) const {
return m_model != other.m_model;
}
explicit operator bool() const { return m_model != nullptr; }
protected:
SmartPointer<T> m_model;
};
} // namespace uLib
#endif // U_CORE_OBJECTFACTORY_H

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#include "Core/ObjectsContext.h"
#include <algorithm>
namespace uLib {
ObjectsContext::ObjectsContext() : Object() {}
ObjectsContext::~ObjectsContext() {}
void ObjectsContext::AddObject(Object* obj) {
if (obj) {
auto it = std::find_if(m_objects.begin(), m_objects.end(), [obj](const SmartPointer<Object>& sp) {
return sp.get() == obj;
});
if (it == m_objects.end()) {
m_objects.push_back(SmartPointer<Object>(obj));
// Connect child's update to context's update to trigger re-renders
Object::connect(obj, &Object::Updated, this, &Object::Updated);
ULIB_SIGNAL_EMIT(ObjectsContext::ObjectAdded, obj);
this->Updated(); // Signal that the context has been updated
}
}
}
void ObjectsContext::RemoveObject(Object* obj) {
auto it = std::find_if(m_objects.begin(), m_objects.end(), [obj](const SmartPointer<Object>& sp) {
return sp.get() == obj;
});
if (it != m_objects.end()) {
Object* removedObj = it->get();
// Since we are about to erase it from the vector, if it was the last reference
// it would be deleted. We might want to emit the signal BEFORE erasing.
ULIB_SIGNAL_EMIT(ObjectsContext::ObjectRemoved, removedObj);
m_objects.erase(it);
this->Updated(); // Signal that the context has been updated
}
}
void ObjectsContext::Clear() {
if (!m_objects.empty()) {
// Create a copy of the pointers to emit signals since m_objects might be modified or cleared
std::vector<Object*> toRemove;
for (const auto& sp : m_objects) toRemove.push_back(sp.get());
for (auto obj : toRemove) {
ULIB_SIGNAL_EMIT(ObjectsContext::ObjectRemoved, obj);
}
m_objects.clear();
this->Updated();
}
}
const std::vector<SmartPointer<Object>>& ObjectsContext::GetObjects() const {
return m_objects;
}
size_t ObjectsContext::GetCount() const {
return m_objects.size();
}
Object* ObjectsContext::GetObject(size_t index) const {
if (index < m_objects.size()) {
return m_objects[index].get();
}
return nullptr;
}
void ObjectsContext::ObjectAdded(Object* obj) {
ULIB_SIGNAL_EMIT(ObjectsContext::ObjectAdded, obj);
}
void ObjectsContext::ObjectRemoved(Object* obj) {
ULIB_SIGNAL_EMIT(ObjectsContext::ObjectRemoved, obj);
}
} // namespace uLib

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#ifndef U_CORE_OBJECTS_CONTEXT_H
#define U_CORE_OBJECTS_CONTEXT_H
#include "Core/Object.h"
#include "Core/SmartPointer.h"
#include <vector>
namespace uLib {
/**
* @brief ObjectsContext represents a collection of Object instances.
*/
class ObjectsContext : virtual public Object {
public:
ObjectsContext();
virtual ~ObjectsContext();
uLibTypeMacro(ObjectsContext, Object)
virtual ObjectsContext* GetChildren() override { return this; }
/**
* @brief Adds an object to the context.
* @param obj Pointer to the object to add.
*/
virtual void AddObject(Object* obj);
/**
* @brief Removes an object from the context.
* @param obj Pointer to the object to remove.
*/
virtual void RemoveObject(Object* obj);
/**
* @brief Clears all objects from the context.
*/
void Clear();
/**
* @brief Returns the collection of objects.
* @return Const reference to the vector of SmartPointer<Object>.
*/
const std::vector<SmartPointer<Object>>& GetObjects() const;
signals:
/** @brief Signal emitted when an object is added. */
virtual void ObjectAdded(Object* obj);
/** @brief Signal emitted when an object is removed. */
virtual void ObjectRemoved(Object* obj);
/**
* @brief Returns the number of objects in the context.
* @return Size of the collection.
*/
size_t GetCount() const;
/**
* @brief Returns an object by index.
* @param index The index of the object.
* @return Pointer to the object or nullptr if index is out of bounds.
*/
Object* GetObject(size_t index) const;
private:
std::vector<SmartPointer<Object>> m_objects;
};
} // namespace uLib
#endif // U_CORE_OBJECTS_CONTEXT_H

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#ifndef U_CORE_PROPERTY_H
#define U_CORE_PROPERTY_H
#include <string>
#include <vector>
#include <sstream>
#include <typeinfo>
#include <typeindex>
#include <boost/serialization/nvp.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/type_traits/is_class.hpp>
#include <boost/mpl/bool.hpp>
#include <set>
#include <boost/type_traits/is_base_of.hpp>
#include "Core/Archives.h"
#include "Core/Signal.h"
#include "Core/Object.h"
#include "Core/SmartPointer.h"
// Type traits for detecting SmartPointer<T>
namespace uLib {
template<typename T> struct is_smart_pointer : std::false_type {};
template<typename T> struct is_smart_pointer<SmartPointer<T>> : std::true_type {};
template<typename T> struct smart_pointer_element { using type = void; };
template<typename T> struct smart_pointer_element<SmartPointer<T>> { using type = T; };
} // namespace uLib
namespace uLib {
namespace Archive {
class property_register_archive;
}
/**
* @brief Base class for properties to allow runtime listing and identification.
*/
class PropertyBase : public Object {
public:
virtual ~PropertyBase() {}
virtual const std::string& GetName() const = 0;
virtual const char* GetTypeName() const = 0;
virtual std::string GetValueAsString() const = 0;
virtual std::type_index GetTypeIndex() const = 0;
virtual const std::string& GetUnits() const = 0;
virtual void SetUnits(const std::string& units) = 0;
virtual const std::vector<std::string>& GetEnumLabels() const {
static std::vector<std::string> empty;
return empty;
}
virtual const std::string& GetGroup() const = 0;
virtual void SetGroup(const std::string& group) = 0;
virtual bool HasRange() const { return false; }
virtual double GetMin() const { return 0; }
virtual double GetMax() const { return 0; }
virtual bool HasDefault() const { return false; }
virtual std::string GetDefaultValueAsString() const { return ""; }
virtual bool IsReadOnly() const = 0;
std::string GetQualifiedName() const {
if (GetGroup().empty()) return GetName();
return GetGroup() + "." + GetName();
}
// Serialization support for different uLib archives
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::text_oarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::text_iarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::log_archive & ar, const unsigned int version) override = 0;
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) = 0;
};
/**
* @brief Template class for typed properties.
*/
template <typename T>
class Property : public PropertyBase {
public:
Property(Object* owner, const std::string& name, T* valuePtr, const std::string& units = "", const std::string& group = "")
: m_owner(owner), m_name(name), m_units(units), m_group(group), m_value(valuePtr), m_own(false),
m_HasRange(false), m_HasDefault(false), m_ReadOnly(false) {
if (m_owner) m_owner->RegisterProperty(this);
}
Property(Object* owner, const std::string& name, const T& defaultValue = T(), const std::string& units = "", const std::string& group = "")
: m_owner(owner), m_name(name), m_units(units), m_group(group), m_value(new T(defaultValue)), m_own(true),
m_HasRange(false), m_HasDefault(true), m_Default(defaultValue), m_ReadOnly(false) {
if (m_owner) m_owner->RegisterProperty(this);
}
virtual ~Property() { if (m_own) delete m_value; }
// Identification
virtual const std::string& GetName() const override { return m_name; }
virtual const char* GetTypeName() const override { return typeid(T).name(); }
virtual std::type_index GetTypeIndex() const override { return std::type_index(typeid(T)); }
virtual const std::string& GetUnits() const override { return m_units; }
virtual void SetUnits(const std::string& units) override { m_units = units; }
virtual const std::string& GetGroup() const override { return m_group; }
virtual void SetGroup(const std::string& group) override { m_group = group; }
std::string GetValueAsString() const override {
try { return boost::lexical_cast<std::string>(*m_value); }
catch (...) { std::stringstream ss; ss << *m_value; return ss.str(); }
}
// Accessors
const T& Get() const { return *m_value; }
void Set(const T& value) {
if (!m_value) return;
T val = value;
if constexpr (std::is_arithmetic<T>::value) {
if (m_HasRange) { if (val < m_Min) val = m_Min; if (val > m_Max) val = m_Max; }
}
if (*m_value != val) {
*m_value = val;
ULIB_SIGNAL_EMIT(Property<T>::PropertyChanged);
this->Updated();
if (m_owner) m_owner->Updated();
}
}
void SetRange(const T& min, const T& max) { m_Min = min; m_Max = max; m_HasRange = true; }
void SetDefault(const T& def) { m_Default = def; m_HasDefault = true; }
void SetReadOnly(bool ro) { m_ReadOnly = ro; }
virtual bool IsReadOnly() const override { return m_ReadOnly; }
virtual bool HasRange() const override { return m_HasRange; }
virtual double GetMin() const override { return m_HasRange ? convert_to_double(m_Min) : 0.0; }
virtual double GetMax() const override { return m_HasRange ? convert_to_double(m_Max) : 0.0; }
const T& GetMinTyped() const { return m_Min; }
const T& GetMaxTyped() const { return m_Max; }
virtual bool HasDefault() const override { return m_HasDefault; }
virtual std::string GetDefaultValueAsString() const override {
try { return boost::lexical_cast<std::string>(m_Default); } catch (...) { return ""; }
}
// Operators
operator const T&() const { return *m_value; }
Property& operator=(const T& value) { Set(value); return *this; }
signals:
virtual void PropertyChanged() { ULIB_SIGNAL_EMIT(Property<T>::PropertyChanged); }
private:
template <typename U>
static double convert_to_double(const U& val) {
return convert_to_double_impl(val, typename std::is_arithmetic<U>::type());
}
template <typename U>
static double convert_to_double_impl(const U& val, std::true_type) { return (double)val; }
template <typename U>
static double convert_to_double_impl(const U& val, std::false_type) { return 0.0; }
public:
// Serialization
template <class ArchiveT>
void serialize_helper(ArchiveT & ar, const unsigned int version) {
ar & boost::serialization::make_hrp(m_name.c_str(), *m_value, m_units.c_str());
}
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::text_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::text_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::log_archive & ar, const unsigned int v) override { serialize_helper(ar, v); }
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) override;
protected:
std::string m_name;
std::string m_units;
std::string m_group;
T* m_value;
bool m_own;
Object* m_owner;
bool m_HasRange;
T m_Min;
T m_Max;
bool m_HasDefault;
T m_Default;
bool m_ReadOnly;
};
/**
* @brief Property specialized for enumerations.
*/
class EnumProperty : public Property<int> {
public:
EnumProperty(Object* owner, const std::string& name, int* valuePtr, const std::vector<std::string>& labels, const std::string& units = "", const std::string& group = "")
: Property<int>(owner, name, valuePtr, units, group), m_Labels(labels) {}
const std::vector<std::string>& GetEnumLabels() const override { return m_Labels; }
const char* GetTypeName() const override { return "Enum"; }
virtual std::type_index GetTypeIndex() const override { return std::type_index(typeid(EnumProperty)); }
template <class ArchiveT>
void serialize_enum_helper(ArchiveT & ar, const unsigned int version) {
ar & boost::serialization::make_hrp_enum(m_name.c_str(), *m_value, m_Labels, m_units.c_str());
}
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::text_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::text_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::log_archive & ar, const unsigned int v) override { serialize_enum_helper(ar, v); }
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) override;
private:
std::vector<std::string> m_Labels;
};
} // namespace uLib
namespace uLib {
/**
* @brief Base class for reference properties (SmartPointer<T> fields).
* Provides a type-erased interface for getting/setting object references
* and checking type compatibility.
*/
class ReferencePropertyBase : public PropertyBase {
public:
virtual ~ReferencePropertyBase() {}
virtual Object* GetReferencedObject() const = 0;
virtual void SetReferencedObject(Object* obj) = 0;
virtual bool IsCompatible(Object* obj) const = 0;
virtual const char* GetReferenceTypeName() const = 0;
};
/**
* @brief Typed reference property for SmartPointer<T> fields.
* Filters context objects by dynamic_cast compatibility with T.
*/
template <typename T>
class ReferenceProperty : public ReferencePropertyBase {
public:
ReferenceProperty(Object* owner, const std::string& name, SmartPointer<T>& ref,
const std::string& units = "", const std::string& group = "")
: m_owner(owner), m_name(name), m_units(units), m_group(group), m_ref(ref), m_ReadOnly(false) {
if (m_owner) m_owner->RegisterProperty(this);
}
virtual ~ReferenceProperty() {}
// PropertyBase interface
virtual const std::string& GetName() const override { return m_name; }
virtual const char* GetTypeName() const override { return typeid(SmartPointer<T>).name(); }
virtual std::type_index GetTypeIndex() const override { return std::type_index(typeid(ReferencePropertyBase)); }
virtual const std::string& GetUnits() const override { return m_units; }
virtual void SetUnits(const std::string& units) override { m_units = units; }
virtual const std::string& GetGroup() const override { return m_group; }
virtual void SetGroup(const std::string& group) override { m_group = group; }
virtual bool IsReadOnly() const override { return m_ReadOnly; }
void SetReadOnly(bool ro) { m_ReadOnly = ro; }
virtual std::string GetValueAsString() const override {
T* ptr = m_ref.Get();
if (!ptr) return "(none)";
Object* obj = dynamic_cast<Object*>(ptr);
if (obj) {
std::string iname = obj->GetInstanceName();
if (!iname.empty()) return iname;
return obj->GetClassName();
}
return "(set)";
}
// ReferencePropertyBase interface
virtual Object* GetReferencedObject() const override {
return dynamic_cast<Object*>(m_ref.Get());
}
virtual void SetReferencedObject(Object* obj) override {
if (!obj) {
m_ref = SmartPointer<T>(nullptr);
this->Updated();
if (m_owner) m_owner->Updated();
return;
}
T* casted = dynamic_cast<T*>(obj);
if (casted) {
m_ref = SmartPointer<T>(casted);
this->Updated();
if (m_owner) m_owner->Updated();
}
}
virtual bool IsCompatible(Object* obj) const override {
return dynamic_cast<T*>(obj) != nullptr;
}
virtual const char* GetReferenceTypeName() const override {
return typeid(T).name();
}
// Serialization stubs
virtual void serialize(Archive::xml_oarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::xml_iarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::text_oarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::text_iarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::hrt_oarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::hrt_iarchive & ar, const unsigned int v) override {}
virtual void serialize(Archive::log_archive & ar, const unsigned int v) override {}
virtual void serialize(Archive::property_register_archive & ar, const unsigned int v) override {}
private:
Object* m_owner;
std::string m_name;
std::string m_units;
std::string m_group;
SmartPointer<T>& m_ref;
bool m_ReadOnly;
};
} // namespace uLib
namespace uLib {
namespace Archive {
class property_register_archive
: public boost::archive::detail::common_oarchive<property_register_archive> {
protected:
Object* m_Object;
bool m_DisplayOnly;
public:
friend class boost::archive::detail::interface_oarchive<property_register_archive>;
friend class boost::archive::save_access;
using boost::archive::detail::common_oarchive<property_register_archive>::save_override;
property_register_archive(Object* obj, bool displayOnly = false) :
boost::archive::detail::common_oarchive<property_register_archive>(boost::archive::no_header),
m_Object(obj), m_DisplayOnly(displayOnly) {
if (obj) m_Visited.insert(dynamic_cast<const void*>(obj));
}
template<class T> property_register_archive &operator&(const T &t) { this->save_override(t); return *this; }
template<class T> property_register_archive &operator<<(const T &t) { this->save_override(t); return *this; }
std::string GetCurrentGroup() const {
std::string group;
for (const auto& g : m_GroupStack) {
if (!group.empty()) group += ".";
group += g;
}
return group;
}
template<class T> void register_property(Property<T>& p) {
save_property_impl(p.GetName().c_str(), const_cast<T&>(p.Get()), p.GetUnits().c_str(),
p.HasRange(), p.GetMinTyped(), p.GetMaxTyped(), p.IsReadOnly());
}
void register_enum_property(EnumProperty& p) {
if (!m_Object) return;
EnumProperty* newP = new EnumProperty(m_Object, p.GetName(), const_cast<int*>(&p.Get()), p.GetEnumLabels(), p.GetUnits(), GetCurrentGroup());
newP->SetReadOnly(p.IsReadOnly());
if (m_DisplayOnly) {
m_Object->RegisterDisplayProperty(newP);
Object* obj = m_Object;
Object::connect(newP, &Object::Updated, [obj]() { obj->Updated(); });
} else {
m_Object->RegisterDynamicProperty(newP);
}
}
template<class T> void save_property_impl(const char* name, T& val, const char* units, bool hasRange, const T& minVal, const T& maxVal, bool isReadOnly) {
if (!m_Object) return;
if constexpr (is_smart_pointer<T>::value) {
// SmartPointer<U> field: create a ReferenceProperty<U> for type-safe selection
using ElementT = typename smart_pointer_element<T>::type;
auto* p = new ReferenceProperty<ElementT>(m_Object, name, val, units ? units : "", GetCurrentGroup());
p->SetReadOnly(isReadOnly);
if (m_DisplayOnly) {
m_Object->RegisterDisplayProperty(p);
Object* obj = m_Object;
Object::connect(p, &Object::Updated, [obj]() { obj->Updated(); });
} else {
m_Object->RegisterDynamicProperty(p);
}
} else {
Property<T>* p = new Property<T>(m_Object, name, &val, units ? units : "", GetCurrentGroup());
set_range_helper(p, hasRange, minVal, maxVal, typename std::is_arithmetic<T>::type());
p->SetReadOnly(isReadOnly);
if (m_DisplayOnly) {
m_Object->RegisterDisplayProperty(p);
Object* obj = m_Object;
Object::connect(p, &Object::Updated, [obj]() { obj->Updated(); });
} else {
m_Object->RegisterDynamicProperty(p);
}
}
}
template<class U> static void set_range_helper(Property<U>* p, bool hasRange, const U& minVal, const U& maxVal, std::true_type) { if (hasRange) p->SetRange(minVal, maxVal); }
template<class U> static void set_range_helper(Property<U>* p, bool hasRange, const U& minVal, const U& maxVal, std::false_type) {}
template<class T> void save_override(const boost::serialization::hrp<T> &t) {
// To handle T correctly without deduction issues, we assume T can be passed to save_property_impl
T dummy = T(); // Ensure we can construct T
save_property_impl(t.name(), const_cast<boost::serialization::hrp<T>&>(t).value(), t.units(), t.has_range(), t.has_range() ? t.min_val() : dummy, t.has_range() ? t.max_val() : dummy, t.is_read_only());
}
template<class T> void save_override(const boost::serialization::hrp_val<T> &t) {
T dummy = T();
save_property_impl(t.name(), const_cast<boost::serialization::hrp_val<T>&>(t).value(), t.units(), t.has_range(), t.has_range() ? t.min_val() : dummy, t.has_range() ? t.max_val() : dummy, t.is_read_only());
}
template<class T> void save_override(const boost::serialization::hrp_enum<T> &t) {
if (m_Object) {
EnumProperty* p = new EnumProperty(m_Object, t.name(), (int*)&const_cast<boost::serialization::hrp_enum<T>&>(t).value(), t.labels(), t.units() ? t.units() : "", GetCurrentGroup());
p->SetReadOnly(t.is_read_only());
if (m_DisplayOnly) { m_Object->RegisterDisplayProperty(p); Object* obj = m_Object; Object::connect(p, &Object::Updated, [obj]() { obj->Updated(); }); }
else { m_Object->RegisterDynamicProperty(p); }
}
}
template<class T> void save_override(const boost::serialization::hrp_enum_val<T> &t) {
if (m_Object) {
EnumProperty* p = new EnumProperty(m_Object, t.name(), (int*)&const_cast<boost::serialization::hrp_enum_val<T>&>(t).value(), t.labels(), t.units() ? t.units() : "", GetCurrentGroup());
p->SetReadOnly(t.is_read_only());
if (m_DisplayOnly) { m_Object->RegisterDisplayProperty(p); Object* obj = m_Object; Object::connect(p, &Object::Updated, [obj]() { obj->Updated(); }); }
else { m_Object->RegisterDynamicProperty(p); }
}
}
template<class T> void save_override(const boost::serialization::nvp<T> &t) {
if (t.name()) m_GroupStack.push_back(t.name());
this->save_helper(t.const_value(), typename boost::is_class<T>::type());
if (t.name()) m_GroupStack.pop_back();
}
void save_override(const std::string &t) {}
template<class T> void save_override(T * const & t) {
if (!t) return;
this->save_pointer_helper(t, typename boost::is_base_of<Object, T>::type());
}
template<class T> void save_pointer_helper(T* t, boost::mpl::true_) {
const void* ptr = dynamic_cast<const void*>(t);
if (m_Visited.find(ptr) != m_Visited.end()) return;
m_Visited.insert(ptr);
this->save_override(*t);
}
template<class T> void save_pointer_helper(T* t, boost::mpl::false_) {}
template<class T> void save_override(const T &t) { this->save_helper(t, typename boost::is_class<T>::type()); }
template<class T> void save_helper(const T &t, boost::mpl::true_) { boost::serialization::serialize_adl(*this, const_cast<T&>(t), 0); }
void save_helper(const std::string &t, boost::mpl::true_) {}
template<class T> void save_helper(const T &t, boost::mpl::false_) {}
void save_override(const boost::archive::object_id_type & t) {}
void save_override(const boost::archive::object_reference_type & t) {}
void save_override(const boost::archive::version_type & t) {}
void save_override(const boost::archive::class_id_type & t) {}
void save_override(const boost::archive::class_id_optional_type & t) {}
void save_override(const boost::archive::class_id_reference_type & t) {}
void save_override(const boost::archive::class_name_type & t) {}
void save_override(const boost::archive::tracking_type & t) {}
protected:
std::vector<std::string> m_GroupStack;
std::set<const void*> m_Visited;
};
} // namespace Archive
} // namespace uLib
namespace uLib {
template <typename T>
inline void Property<T>::serialize(Archive::property_register_archive & ar, const unsigned int v) {
ar.register_property(*this);
}
inline void EnumProperty::serialize(Archive::property_register_archive & ar, const unsigned int v) {
ar.register_enum_property(*this);
}
namespace Archive {
#define ULIB_ACTIVATE_PROPERTIES(obj) \
{ uLib::Archive::property_register_archive _ar_tmp(&(obj)); _ar_tmp & (obj); }
#define ULIB_DECLARE_PROPERTIES(SelfType) \
private: \
struct _PropActivator { \
_PropActivator(SelfType* self) { \
uLib::Archive::property_register_archive _ar(self); \
_ar & *self; \
} \
} _prop_activator{this};
} // namespace Archive
// Convenience macro: declares a named Property<T> member with a default value.
// Usage inside a class body (requires 'this' to be available, so use in-class initializer):
// ULIB_PROPERTY(int, MyProp, 42)
#define ULIB_PROPERTY(type, name, defaultVal) \
::uLib::Property<type> name{this, #name, (type)(defaultVal)};
// Common property type aliases
typedef Property<bool> BoolProperty;
typedef Property<int> IntProperty;
typedef Property<float> FloatProperty;
typedef Property<double> DoubleProperty;
typedef Property<std::string> StringProperty;
template <class ArchiveT>
void serialize_properties_helper(ArchiveT &ar, const std::vector<PropertyBase*> &props, unsigned int version) {
for (auto* prop : props) prop->serialize(ar, version);
}
template <class ArchiveT>
void Object::serialize(ArchiveT &ar, const unsigned int version) {
ar & boost::serialization::make_nvp("InstanceName", this->GetInstanceName());
serialize_properties_helper(ar, this->GetProperties(), version);
}
} // namespace uLib
#endif // U_CORE_PROPERTY_H

281
src/Core/Serializable.h
View File

@@ -42,6 +42,8 @@ TODO:
#include <boost/mpl/for_each.hpp>
#include <boost/mpl/remove_if.hpp>
#include <boost/serialization/nvp.hpp>
#include <boost/serialization/shared_ptr.hpp>
#include <boost/serialization/unique_ptr.hpp>
// #include <boost/archive/xml_iarchive.hpp>
// #include <boost/archive/xml_oarchive.hpp>
@@ -71,44 +73,205 @@ namespace serialization {
// ACCESS 2 //
template <class T> struct access2 {};
// NON FUNZIONA ... SISTEMARE !!!! // ------------------------------------------
template <class T> class hrp : public wrapper_traits<const hrp<T>> {
template <class T>
class hrp : public boost::serialization::wrapper_traits<hrp<T>> {
const char *m_name;
T *m_value;
std::string *m_str;
const char *m_units;
T &m_value;
bool m_has_range;
T m_min, m_max;
bool m_has_default;
T m_default;
public:
explicit hrp(const char *name_, T &t)
: m_str(new std::string), m_name(name_), m_value(&t) {}
explicit hrp(const char *name_, T &t, const char* units_ = nullptr)
: m_name(name_), m_units(units_), m_value(t), m_has_range(false), m_has_default(false) {}
hrp& range(const T& min_val, const T& max_val) { m_min = min_val; m_max = max_val; m_has_range = true; return *this; }
hrp& set_default(const T& def_val) { m_default = def_val; m_has_default = true; return *this; }
const char *name() const { return this->m_name; }
const char *units() const { return this->m_units; }
T &value() { return this->m_value; }
const T &const_value() const { return this->m_value; }
bool has_range() const { return m_has_range; }
const T& min_val() const { return m_min; }
const T& max_val() const { return m_max; }
bool has_default() const { return m_has_default; }
const T& default_val() const { return m_default; }
static constexpr bool is_read_only() { return false; }
BOOST_SERIALIZATION_SPLIT_MEMBER()
template <class Archivex>
void save(Archivex &ar, const unsigned int /* file_version */) const {
//// ar.operator<<(const_value());
// std::stringstream ss;
// uLib::Archive::hrt_oarchive har(ss);
// har << make_nvp(m_name,*m_value);
// // (*m_str) = ss.str();
//// ar.operator << (make_nvp(m_name, ss.str());
void save(Archivex &ar, const unsigned int /* version */) const {
ar << boost::serialization::make_nvp(m_name, m_value);
}
template <class Archivex>
void load(Archivex &ar, const unsigned int /* file_version */) {
// ar.operator>>(value());
void load(Archivex &ar, const unsigned int /* version */) {
ar >> boost::serialization::make_nvp(m_name, m_value);
}
BOOST_SERIALIZATION_SPLIT_MEMBER()
};
template <class T>
inline
#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
const
#endif
hrp<T> make_hrp(const char *name, T &t) {
return hrp<T>(name, t);
class hrp_enum : public boost::serialization::wrapper_traits<hrp_enum<T>> {
const char *m_name;
const char *m_units;
T &m_value;
std::vector<std::string> m_labels;
bool m_has_default;
T m_default;
public:
explicit hrp_enum(const char *name_, T &t, const std::vector<std::string>& labels, const char* units_ = nullptr)
: m_name(name_), m_units(units_), m_value(t), m_labels(labels), m_has_default(false) {}
hrp_enum& set_default(const T& def_val) { m_default = def_val; m_has_default = true; return *this; }
const char *name() const { return this->m_name; }
const char *units() const { return this->m_units; }
T &value() { return this->m_value; }
const std::vector<std::string>& labels() const { return m_labels; }
bool has_default() const { return m_has_default; }
const T& default_val() const { return m_default; }
static constexpr bool is_read_only() { return false; }
BOOST_SERIALIZATION_SPLIT_MEMBER()
template <class Archivex>
void save(Archivex &ar, const unsigned int /* version */) const {
ar << boost::serialization::make_nvp(m_name, m_value);
}
template <class Archivex>
void load(Archivex &ar, const unsigned int /* version */) {
ar >> boost::serialization::make_nvp(m_name, m_value);
}
};
template <class T>
class hrp_val : public boost::serialization::wrapper_traits<hrp_val<T>> {
const char *m_name;
const char *m_units;
T m_value;
bool m_has_range;
T m_min, m_max;
bool m_has_default;
T m_default;
public:
explicit hrp_val(const char *name_, T t, const char* units_ = nullptr)
: m_name(name_), m_units(units_), m_value(t), m_has_range(false), m_has_default(false) {}
hrp_val& range(const T& min_val, const T& max_val) { m_min = min_val; m_max = max_val; m_has_range = true; return *this; }
hrp_val& set_default(const T& def_val) { m_default = def_val; m_has_default = true; return *this; }
const char *name() const { return this->m_name; }
const char *units() const { return this->m_units; }
T &value() { return this->m_value; }
const T &const_value() const { return this->m_value; }
bool has_range() const { return m_has_range; }
const T& min_val() const { return m_min; }
const T& max_val() const { return m_max; }
bool has_default() const { return m_has_default; }
const T& default_val() const { return m_default; }
static constexpr bool is_read_only() { return true; }
BOOST_SERIALIZATION_SPLIT_MEMBER()
template <class Archivex>
void save(Archivex &ar, const unsigned int /* version */) const {
ar << boost::serialization::make_nvp(m_name, m_value);
}
template <class Archivex>
void load(Archivex &ar, const unsigned int /* version */) {
// Only for output archives
}
};
template <class T>
class hrp_enum_val : public boost::serialization::wrapper_traits<hrp_enum_val<T>> {
const char *m_name;
const char *m_units;
T m_value;
std::vector<std::string> m_labels;
bool m_has_default;
T m_default;
public:
explicit hrp_enum_val(const char *name_, T t, const std::vector<std::string>& labels, const char* units_ = nullptr)
: m_name(name_), m_units(units_), m_value(t), m_labels(labels), m_has_default(false) {}
hrp_enum_val& set_default(const T& def_val) { m_default = def_val; m_has_default = true; return *this; }
const char *name() const { return this->m_name; }
const char *units() const { return this->m_units; }
T &value() { return this->m_value; }
const std::vector<std::string>& labels() const { return m_labels; }
bool has_default() const { return m_has_default; }
const T& default_val() const { return m_default; }
static constexpr bool is_read_only() { return true; }
BOOST_SERIALIZATION_SPLIT_MEMBER()
template <class Archivex>
void save(Archivex &ar, const unsigned int /* version */) const {
ar << boost::serialization::make_nvp(m_name, m_value);
}
template <class Archivex>
void load(Archivex &ar, const unsigned int /* version */) {
// Only for output archives
}
};
template <class T>
inline hrp<T> make_hrp(const char *name, T &t, const char* units = nullptr) {
return hrp<T>(name, t, units);
}
#define HRP(name) boost::serialization::make_hrp(BOOST_PP_STRINGIZE(name), name)
// Specialization for rvalues (value-based storage)
template <class T>
inline hrp_val<T> make_hrp(const char *name, T &&t, const char* units = nullptr) {
return hrp_val<T>(name, t, units);
}
template <class T>
inline hrp_enum<T> make_hrp_enum(const char *name, T &t, const std::vector<std::string>& labels, const char* units = nullptr) {
return hrp_enum<T>(name, t, labels, units);
}
// Specialization for rvalues (value-based storage)
template <class T>
inline hrp_enum_val<T> make_hrp_enum(const char *name, T &&t, const std::vector<std::string>& labels, const char* units = nullptr) {
return hrp_enum_val<T>(name, t, labels, units);
}
template <class T>
inline hrp<T> make_nvp(const char *name, T &t, const char* units) {
return hrp<T>(name, t, units);
}
// Specialization for rvalues (value-based storage)
template <class T>
inline hrp_val<T> make_nvp(const char *name, T &&t, const char* units) {
return hrp_val<T>(name, t, units);
}
} // namespace serialization
} // namespace boost
@@ -128,7 +291,41 @@ namespace uLib {
#define _AR_OP(r, data, elem) data &BOOST_SERIALIZATION_BASE_OBJECT_NVP(elem);
#define NVP(data) BOOST_SERIALIZATION_NVP(data)
// NAME VALUE PAIR //
#define NVP_GET_MACRO(_1, _2, _3, NAME, ...) NAME
#define NVP(...) NVP_GET_MACRO(__VA_ARGS__, NVP3, NVP2, NVP1)(__VA_ARGS__)
#define NVP1(data) BOOST_SERIALIZATION_NVP(data)
#define NVP2(name, data) boost::serialization::make_nvp(name, data)
#define NVP3(name, data, units) boost::serialization::make_nvp(name, data, units)
// HUMAN READABLE PROPERTY //
#define HRP_GET_MACRO(_1, _2, _3, _4, _5, _6, NAME, ...) NAME
#define HRP(...) HRP_GET_MACRO(__VA_ARGS__, HRP6, HRP5, HRP4, HRP3, HRP2, HRP1)(__VA_ARGS__)
#define HRP1(data) boost::serialization::make_hrp(BOOST_PP_STRINGIZE(data), data)
#define HRP2(name, data) boost::serialization::make_hrp(name, data)
#define HRP3(name, data, units) boost::serialization::make_hrp(name, data, units)
#define HRP4(name, data, units, default) boost::serialization::make_hrp(name, data, units).set_default(default)
#define HRP5(name, data, units, min, max) boost::serialization::make_hrp(name, data, units).range(min, max)
#define HRP6(name, data, units, default, min, max) boost::serialization::make_hrp(name, data, units).set_default(default).range(min, max)
#define HRPE(name, data, labels) boost::serialization::make_hrp_enum(name, data, labels)
// LEFT FOR BACKWARD COMPATIBILITY
#define HRPU(name, units) boost::serialization::make_hrp(BOOST_PP_STRINGIZE(name), name, units)
namespace serialization {
using boost::serialization::make_nvp;
using boost::serialization::make_hrp;
using boost::serialization::make_hrp_enum;
} // serialization
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
@@ -156,7 +353,7 @@ namespace uLib {
#define ULIB_SERIALIZE_OBJECT(_Ob, ...) \
_ULIB_DETAIL_UNINTRUSIVE_SERIALIZE_OBJECT(_Ob, __VA_ARGS__)
#define AR(_name) _ULIB_DETAIL_UNINTRUSIVE_AR_(_name)
#define HR(_name) _ULIB_DETAIL_UNINTRUSIVE_AR_(_name)
#define HR(_name) _ULIB_DETAIL_UNINTRUSIVE_HR_(_name)
#endif
#define ULIB_SERIALIZE_ACCESS \
@@ -169,14 +366,14 @@ namespace uLib {
#define ULIB_CLASS_EXPORT_OBJECT_KEY(_FullNamespaceClass) \
BOOST_CLASS_EXPORT_KEY(_FullNamespaceClass)
#define _SERIALIZE_IMPL_SEQ \
(uLib::Archive::text_iarchive)(uLib::Archive::text_oarchive)( \
uLib::Archive:: \
hrt_iarchive)(uLib::Archive:: \
hrt_oarchive)(uLib::Archive:: \
xml_iarchive)(uLib::Archive:: \
xml_oarchive)(uLib::Archive:: \
log_archive)
#define _SERIALIZE_IMPL_SEQ \
(uLib::Archive::text_iarchive) \
(uLib::Archive::text_oarchive) \
(uLib::Archive::hrt_iarchive) \
(uLib::Archive::hrt_oarchive) \
(uLib::Archive::xml_iarchive) \
(uLib::Archive::xml_oarchive) \
(uLib::Archive::log_archive)
/** Solving virtual class check problem */
#define _ULIB_DETAIL_SPECIALIZE_IS_VIRTUAL_BASE(_Base, _Derived) \
@@ -247,6 +444,11 @@ namespace uLib {
template <class ArchiveT> \
void _Ob::save_override(ArchiveT &ar, const unsigned int version)
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
@@ -351,7 +553,8 @@ namespace uLib {
void serialize_parents(ArchiveT &ar, _Ob &ob, const unsigned int v) { \
/* PP serialize */ BOOST_PP_SEQ_FOR_EACH( \
_UNAR_OP, ob, BOOST_PP_TUPLE_TO_SEQ((__VA_ARGS__))); \
/* MPL serialize */ /*uLib::mpl::for_each<_Ob::BaseList>(uLib::detail::Serializable::serialize_baseobject<_Ob,ArchiveT>(ob,ar) );*/ } \
/* MPL serialize */ /*uLib::mpl::for_each<_Ob::BaseList> \
(uLib::detail::Serializable::serialize_baseobject<_Ob,ArchiveT>(ob,ar) );*/ }\
template <class ArchiveT> \
inline void load_construct_data(ArchiveT &ar, _Ob *ob, \
const unsigned int file_version) { \
@@ -374,10 +577,18 @@ namespace uLib {
_SERIALIZE_IMPL_SEQ) \
template <class ArchiveT> \
void boost::serialization::access2<_Ob>::save_override( \
ArchiveT &ar, _Ob &ob, const unsigned int version)
ArchiveT &ar, _Ob &ob, const unsigned int version)
#define _ULIB_DETAIL_UNINTRUSIVE_AR_(name) \
boost::serialization::make_nvp(BOOST_PP_STRINGIZE(name), ob.name)
#define _ULIB_DETAIL_UNINTRUSIVE_HR_(name) \
boost::serialization::make_hrp(BOOST_PP_STRINGIZE(name), ob.name)
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////

59
src/Core/Signal.h
View File

@@ -31,6 +31,8 @@
#include <boost/signals2/signal.hpp>
#include <boost/signals2/signal_type.hpp>
#include <boost/signals2/slot.hpp>
#include <boost/signals2/connection.hpp>
#include <boost/signals2/shared_connection_block.hpp>
#include "Function.h"
#include <boost/bind/bind.hpp>
@@ -43,17 +45,31 @@ using namespace boost::placeholders;
// Signals macro //
#define default(vlaue)
#define slots
#ifndef Q_MOC_RUN
#ifndef signals
#define signals /*virtual void init_signals();*/ public
#endif
#ifndef slots
#define slots
#endif
#ifndef emit
#define emit
#endif
#endif
#ifndef SLOT
#define SLOT(a) BOOST_STRINGIZE(a)
#endif
#ifndef SIGNAL
#define SIGNAL(a) BOOST_STRINGIZE(a)
#endif
#define _ULIB_DETAIL_SIGNAL_EMIT(_name, ...) \
do { \
BOOST_AUTO(sig, this->findOrAddSignal(&_name)); \
if (sig) \
sig->operator()(__VA_ARGS__); \
if (!this->signalsBlocked()) { \
BOOST_AUTO(sig, this->findOrAddSignal(&_name)); \
if (sig) \
sig->operator()(__VA_ARGS__); \
} \
} while (0)
/**
@@ -78,6 +94,9 @@ namespace uLib {
// TODO ...
typedef boost::signals2::signal_base SignalBase;
typedef boost::signals2::connection Connection;
typedef boost::signals2::shared_connection_block ConnectionBlock;
template <typename T> struct Signal {
typedef boost::signals2::signal<T> type;
@@ -92,57 +111,57 @@ struct ConnectSignal {};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 0> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(slof);
return reinterpret_cast<SigT *>(sigb)->connect(slof);
}
};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 1> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(boost::bind(slof, receiver));
return reinterpret_cast<SigT *>(sigb)->connect(boost::bind(slof, receiver));
}
};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 2> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(boost::bind(slof, receiver, _1));
return reinterpret_cast<SigT *>(sigb)->connect(boost::bind(slof, receiver, _1));
}
};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 3> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(
return reinterpret_cast<SigT *>(sigb)->connect(
boost::bind(slof, receiver, _1, _2));
}
};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 4> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(
return reinterpret_cast<SigT *>(sigb)->connect(
boost::bind(slof, receiver, _1, _2, _3));
}
};
template <typename FuncT, typename SigSignature>
struct ConnectSignal<FuncT, SigSignature, 5> {
static void connect(SignalBase *sigb, FuncT slof,
static Connection connect(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
typedef typename Signal<SigSignature>::type SigT;
reinterpret_cast<SigT *>(sigb)->connect(
return reinterpret_cast<SigT *>(sigb)->connect(
boost::bind(slof, receiver, _1, _2, _3, _4));
}
};
@@ -155,11 +174,11 @@ template <typename FuncT> SignalBase *NewSignal(FuncT f) {
}
template <typename SigSignature, typename FuncT>
void ConnectSignal(SignalBase *sigb, FuncT slof,
Connection ConnectSignal(SignalBase *sigb, FuncT slof,
typename FunctionPointer<FuncT>::Object *receiver) {
detail::ConnectSignal<FuncT, SigSignature,
FunctionPointer<FuncT>::arity>::connect(sigb, slof,
receiver);
return detail::ConnectSignal<FuncT, SigSignature,
FunctionPointer<FuncT>::arity>::connect(sigb, slof,
receiver);
}
} // namespace uLib

260
src/Core/SmartPointer.h
View File

@@ -3,7 +3,7 @@
////////////////////////////////////////////////////////////////////////////////
Copyright (c) 2014, Universita' degli Studi di Padova, INFN sez. di Padova
All rights reserved
All Padua preserved
Authors: Andrea Rigoni Garola < andrea.rigoni@pd.infn.it >
@@ -23,89 +23,233 @@
//////////////////////////////////////////////////////////////////////////////*/
#ifndef U_CORE_SMARTPOINTER_H
#define U_CORE_SMARTPOINTER_H
#include <atomic>
#include <functional>
#include <type_traits>
#include <boost/serialization/access.hpp>
#include <boost/serialization/nvp.hpp>
#include <boost/serialization/split_member.hpp>
namespace uLib {
template <typename T>
class SmartPointer {
typedef T element_type;
public:
/**
* @brief Internal control block for shared ownership across polymorphic SmartPointers.
*/
struct ControlBlock {
std::atomic<uint32_t> count;
std::function<void()> deleter;
explicit
SmartPointer(T* ptr = NULL) : m_counter(0) {
if(!ptr) ptr = new T;
explicit ControlBlock(uint32_t initial_count = 1) : count(initial_count) {}
private:
friend class boost::serialization::access;
template <class Archive>
void serialize(Archive& ar, const unsigned int /*version*/) {
// ControlBlock identity is tracked by Boost via the cb pointer in ReferenceCounter.
// We only save the count value.
uint32_t c = count.load();
ar & boost::serialization::make_nvp("count", c);
if constexpr (Archive::is_loading::value) count.store(c);
}
};
/**
* @brief A smart pointer implementation inspired by std::shared_ptr.
*/
template <typename T> class SmartPointer {
public:
using element_type = T;
/**
* @brief Nested reference counter structure.
* Preserved as a nested template for Boost serialization compatibility.
*/
struct ReferenceCounter {
T* ptr;
ControlBlock* cb;
ReferenceCounter() : ptr(nullptr), cb(nullptr) {}
explicit ReferenceCounter(T* p) : ptr(p), cb(new ControlBlock(1)) {
cb->deleter = [p]() { delete p; };
}
template <typename D>
ReferenceCounter(T* p, D d) : ptr(p), cb(new ControlBlock(1)) {
cb->deleter = [p, d]() { d(p); };
}
private:
friend class boost::serialization::access;
template <class Archive>
void serialize(Archive& ar, const unsigned int /*version*/) {
ar & boost::serialization::make_nvp("ptr", ptr);
ar & boost::serialization::make_nvp("cb", cb);
}
};
SmartPointer() noexcept : m_counter(nullptr) {}
SmartPointer(std::nullptr_t) noexcept : m_counter(nullptr) {}
/**
* @brief Constructor from raw pointer (Implicit conversion allowed for legacy compatibility).
*/
SmartPointer(T* ptr) : m_counter(nullptr) {
if (ptr) m_counter = new ReferenceCounter(ptr);
}
// TakeReference //
SmartPointer(T &ref) : m_counter(new ReferenceCounter(&ref,0)) { }
SmartPointer(const SmartPointer& copy) throw () {
acquire(copy.m_counter);
template <typename D>
SmartPointer(T* ptr, D deleter) : m_counter(nullptr) {
if (ptr) m_counter = new ReferenceCounter(ptr, deleter);
}
SmartPointer(SmartPointer * copy) throw () {
acquire(copy->m_counter);
SmartPointer(T &ref) : m_counter(new ReferenceCounter(&ref, [](T*){})) { }
SmartPointer(const SmartPointer& other) noexcept : m_counter(nullptr) {
acquire(other.m_counter);
}
virtual ~SmartPointer() { release(); }
SmartPointer(const SmartPointer* other) noexcept : m_counter(nullptr) {
if (other) acquire(other->m_counter);
}
SmartPointer & operator=(const SmartPointer& copy) {
if (this != &copy)
{
template <typename U, typename = std::enable_if_t<std::is_convertible_v<U*, T*>>>
SmartPointer(const SmartPointer<U>& other) noexcept : m_counter(nullptr) {
if (other.m_counter) {
m_counter = new ReferenceCounter();
m_counter->ptr = static_cast<T*>(other.m_counter->ptr);
m_counter->cb = other.m_counter->cb;
if (m_counter->cb) m_counter->cb->count.fetch_add(1, std::memory_order_relaxed);
}
}
template <typename U>
SmartPointer(const SmartPointer<U>& other, T* ptr) noexcept : m_counter(nullptr) {
if (other.m_counter) {
m_counter = new ReferenceCounter();
m_counter->ptr = ptr;
m_counter->cb = other.m_counter->cb;
if (m_counter->cb) m_counter->cb->count.fetch_add(1, std::memory_order_relaxed);
}
}
SmartPointer(SmartPointer&& other) noexcept : m_counter(other.m_counter) {
other.m_counter = nullptr;
}
~SmartPointer() { release(); }
SmartPointer& operator=(const SmartPointer& other) noexcept {
if (this != &other) {
release();
acquire(copy.m_counter);
acquire(other.m_counter);
}
return *this;
}
T & operator*() const throw () { return *m_counter->ptr; }
T * operator->() const throw () { return m_counter->ptr; }
T * get() const throw () {
return m_counter ? m_counter->ptr : 0; }
bool unique() const throw () {
return (m_counter ? m_counter->count == 1 : true); }
private:
struct ReferenceCounter
{
ReferenceCounter(T* ptr = 0, unsigned c = 1) : ptr(ptr), count(c) { }
T* ptr;
unsigned count;
} * m_counter;
// increment the count
void acquire(ReferenceCounter* c) throw ()
{
m_counter = c;
if (c && c->count>0) ++c->count;
SmartPointer& operator=(T* ptr) noexcept {
reset(ptr);
return *this;
}
// decrement the count, delete if it is 0
void release() {
if (m_counter) {
if (--m_counter->count == 0) {
delete m_counter->ptr;
}
if (m_counter->count <= 0) {
delete m_counter;
m_counter = NULL;
}
SmartPointer& operator=(SmartPointer&& other) noexcept {
if (this != &other) {
release();
m_counter = other.m_counter;
other.m_counter = nullptr;
}
return *this;
}
void reset(T* ptr = nullptr) {
release();
if (ptr) m_counter = new ReferenceCounter(ptr);
}
void swap(SmartPointer& other) noexcept {
std::swap(m_counter, other.m_counter);
}
T& operator*() const noexcept { return *(m_counter->ptr); }
T* operator->() const noexcept { return m_counter->ptr; }
T* get() const noexcept { return m_counter ? m_counter->ptr : nullptr; }
T* Get() const noexcept { return get(); }
operator T*() const noexcept { return get(); }
uint32_t use_count() const noexcept {
return (m_counter && m_counter->cb) ? m_counter->cb->count.load(std::memory_order_relaxed) : 0;
}
bool unique() const noexcept { return use_count() == 1; }
explicit operator bool() const noexcept { return get() != nullptr; }
BOOST_SERIALIZATION_SPLIT_MEMBER()
template <class Archive>
void save(Archive& ar, const unsigned int /*version*/) const {
ar & boost::serialization::make_nvp("counter", m_counter);
}
template <class Archive>
void load(Archive& ar, const unsigned int /*version*/) {
release();
ar & boost::serialization::make_nvp("counter", m_counter);
if (m_counter && m_counter->cb) {
m_counter->cb->count.fetch_add(1, std::memory_order_relaxed);
}
}
private:
template <typename U> friend class SmartPointer;
friend class boost::serialization::access;
ReferenceCounter* m_counter;
void acquire(ReferenceCounter* c) noexcept {
if (c) {
m_counter = new ReferenceCounter();
m_counter->ptr = c->ptr;
m_counter->cb = c->cb;
if (m_counter->cb) m_counter->cb->count.fetch_add(1, std::memory_order_relaxed);
}
}
void release() noexcept {
if (m_counter) {
if (m_counter->cb && m_counter->cb->count.fetch_sub(1, std::memory_order_acq_rel) == 1) {
if (m_counter->cb->deleter) m_counter->cb->deleter();
delete m_counter->cb;
}
delete m_counter;
m_counter = nullptr;
}
}
};
template <typename T, typename U>
SmartPointer<T> static_pointer_cast(const SmartPointer<U>& r) noexcept {
return SmartPointer<T>(r, static_cast<T*>(r.get()));
}
#endif // SMARTPOINTER_H
template <typename T, typename U>
SmartPointer<T> dynamic_pointer_cast(const SmartPointer<U>& r) noexcept {
if (auto p = dynamic_cast<T*>(r.get())) return SmartPointer<T>(r, p);
return SmartPointer<T>(nullptr);
}
template <typename T, typename U>
SmartPointer<T> const_pointer_cast(const SmartPointer<U>& r) noexcept {
return SmartPointer<T>(r, const_cast<T*>(r.get()));
}
template <typename T, typename U>
SmartPointer<T> reinterpret_pointer_cast(const SmartPointer<U>& r) noexcept {
return SmartPointer<T>(r, reinterpret_cast<T*>(r.get()));
}
} // namespace uLib
#endif // U_CORE_SMARTPOINTER_H

202
src/Core/Threads.cpp Normal file
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@@ -0,0 +1,202 @@
/*//////////////////////////////////////////////////////////////////////////////
// CMT Cosmic Muon Tomography project //////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
Copyright (c) 2014, Universita' degli Studi di Padova, INFN sez. di Padova
All rights reserved
Authors: Andrea Rigoni Garola < andrea.rigoni@pd.infn.it >
------------------------------------------------------------------
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3.0 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library.
//////////////////////////////////////////////////////////////////////////////*/
#include "Threads.h"
#include <chrono>
#ifdef _OPENMP
#include <omp.h>
#endif
#ifdef __linux__
#include <pthread.h>
#include <sched.h>
#endif
namespace uLib {
Thread::Thread() : m_Running(false) {}
Thread::~Thread() {
if (m_Thread.joinable()) {
m_Thread.detach();
}
}
void Thread::Start() {
Mutex::ScopedLock lock(m_ThreadMutex);
if (m_Running) return;
m_Running = true;
m_Thread = std::thread(&Thread::ThreadEntryPoint, this);
}
void Thread::Join() {
if (m_Thread.joinable()) {
m_Thread.join();
}
}
void Thread::Detach() {
if (m_Thread.joinable()) {
m_Thread.detach();
}
}
bool Thread::IsJoinable() const {
return m_Thread.joinable();
}
bool Thread::IsRunning() const {
return m_Running;
}
void Thread::Run() {
// Override in subclasses
}
void Thread::ThreadEntryPoint() {
this->Run();
m_Running = false;
}
void Thread::Sleep(int milliseconds) {
std::this_thread::sleep_for(std::chrono::milliseconds(milliseconds));
}
void Thread::Yield() {
std::this_thread::yield();
}
void Thread::SetAffinity(int cpu) {
#ifdef __linux__
if (m_Thread.joinable()) {
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(cpu, &cpuset);
pthread_setaffinity_np(m_Thread.native_handle(), sizeof(cpu_set_t), &cpuset);
}
#endif
}
void Thread::SetAffinity(const std::vector<int>& cpus) {
#ifdef __linux__
if (m_Thread.joinable()) {
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
for (int cpu : cpus) {
CPU_SET(cpu, &cpuset);
}
pthread_setaffinity_np(m_Thread.native_handle(), sizeof(cpu_set_t), &cpuset);
}
#endif
}
void Thread::SetNumThreads(int n) {
#ifdef _OPENMP
omp_set_num_threads(n);
#endif
}
int Thread::GetNumThreads() {
#ifdef _OPENMP
return omp_get_max_threads();
#else
return 1;
#endif
}
int Thread::GetThreadNum() {
#ifdef _OPENMP
return omp_get_thread_num();
#else
return 0;
#endif
}
// Team Implementation //
Team::Team(int num_threads) : m_Size(num_threads), m_UseOpenMP(false) {
#ifdef _OPENMP
m_UseOpenMP = true;
if (m_Size > 0) omp_set_num_threads(m_Size);
else m_Size = omp_get_max_threads();
#else
if (m_Size <= 0) m_Size = 1;
#endif
}
Team::~Team() {
Wait();
}
void Team::Run(Task* task) {
if (!task) return;
#ifdef _OPENMP
if (m_UseOpenMP) {
#pragma omp task
task->Execute();
return;
}
#endif
// Fallback to synchronous execution if no OpenMP
task->Execute();
}
void Team::Wait() {
#ifdef _OPENMP
if (m_UseOpenMP) {
#pragma omp taskwait
}
#endif
}
void Team::SetSize(int n) {
m_Size = n;
#ifdef _OPENMP
if (m_UseOpenMP) omp_set_num_threads(m_Size);
#endif
}
void Team::SetAffinity(const std::vector<int>& cpus) {
if (cpus.empty()) return;
#ifdef __linux__
#ifdef _OPENMP
if (m_UseOpenMP) {
#pragma omp parallel
{
int tid = omp_get_thread_num();
int cpu = cpus[tid % cpus.size()];
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(cpu, &cpuset);
pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset);
}
}
#endif
#endif
}
} // namespace uLib

147
src/Core/Threads.h Normal file
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@@ -0,0 +1,147 @@
/*//////////////////////////////////////////////////////////////////////////////
// CMT Cosmic Muon Tomography project //////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
Copyright (c) 2014, Universita' degli Studi di Padova, INFN sez. di Padova
All rights reserved
Authors: Andrea Rigoni Garola < andrea.rigoni@pd.infn.it >
------------------------------------------------------------------
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3.0 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library.
//////////////////////////////////////////////////////////////////////////////*/
#ifndef U_CORE_THREADS_H
#define U_CORE_THREADS_H
#include <thread>
#include <functional>
#include <atomic>
#include <vector>
#include <deque>
#include "Core/Monitor.h"
#include "Core/Object.h"
namespace uLib {
/**
* @brief Thread class wraps std::thread and provides a common interface.
*/
class Thread : public Object {
public:
Thread();
virtual ~Thread();
/** @brief Starts the thread by calling Run(). */
void Start();
/** @brief Joins the thread. */
void Join();
/** @brief Detaches the thread. */
void Detach();
/** @brief Returns true if the thread is currently joinable. */
bool IsJoinable() const;
/** @brief Returns true if the thread is currently running. */
bool IsRunning() const;
/** @brief The entry point for the thread. Override this in subclasses. */
virtual void Run();
/** @brief Static helper to sleep the current thread. */
static void Sleep(int milliseconds);
/** @brief Static helper to yield the current thread. */
static void Yield();
/** @brief Returns the native handle of the thread. */
std::thread::native_handle_type GetNativeHandle() { return m_Thread.native_handle(); }
/** @brief Sets CPU affinity for the thread. (Linux only) */
void SetAffinity(int cpu);
/** @brief Sets CPU affinity for the thread using a list of CPUs. (Linux only) */
void SetAffinity(const std::vector<int>& cpus);
// OpenMP Support //
/** @brief Sets the number of threads for OpenMP parallel regions. */
static void SetNumThreads(int n);
/** @brief Returns the number of threads for OpenMP parallel regions. */
static int GetNumThreads();
/** @brief Returns the ID of the current thread in an OpenMP parallel region. */
static int GetThreadNum();
protected:
// Internal thread entry point
void ThreadEntryPoint();
std::thread m_Thread;
std::atomic<bool> m_Running;
mutable Mutex m_ThreadMutex;
};
/**
* @brief Task class wraps a function call to be executed by a Team.
*/
class Task : public Object {
public:
Task(std::function<void()> func) : m_Func(func) {}
virtual ~Task() = default;
/** @brief Executes the task. */
virtual void Execute() { if (m_Func) m_Func(); }
protected:
std::function<void()> m_Func;
};
/**
* @brief Team class manages a group of threads and can execute Tasks.
* This is designed to be compatible with OpenMP tasks and teams.
*/
class Team : public Object {
public:
Team(int num_threads = -1);
virtual ~Team();
/** @brief Runs a task within the team. Uses OpenMP task if available. */
void Run(Task* task);
/** @brief Waits for all tasks in the team to finish. */
void Wait();
/** @brief Sets the number of threads for this team. */
void SetSize(int n);
/** @brief Returns the number of threads in the team. */
int GetSize() const { return m_Size; }
/** @brief Sets CPU affinity for all threads in the team. */
void SetAffinity(const std::vector<int>& cpus);
protected:
int m_Size;
bool m_UseOpenMP;
std::vector<Thread*> m_Threads;
};
} // namespace uLib
#endif // U_CORE_THREADS_H

2
src/Core/Types.h
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@@ -181,7 +181,7 @@ typedef bool Bool_t; // Boolean (0=false, 1=true) (bool)
\
public: \
typedef type_info::BaseClass BaseClass; \
virtual const char *type_name() const { return type_info::name; } \
virtual const char *type_name() const override { return type_info::name; } \
/**/
/**

105
src/Core/testing/AffinityTest.cpp Normal file
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@@ -0,0 +1,105 @@
#include "Core/Threads.h"
#include <iostream>
#include <vector>
#include <cassert>
#ifdef __linux__
#include <pthread.h>
#include <sched.h>
#endif
using namespace uLib;
std::vector<int> GetAvailableCpus() {
std::vector<int> available;
#ifdef __linux__
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
if (sched_getaffinity(0, sizeof(cpu_set_t), &cpuset) == 0) {
for (int i = 0; i < CPU_SETSIZE; ++i) {
if (CPU_ISSET(i, &cpuset)) {
available.push_back(i);
}
}
}
#endif
return available;
}
class TestThread : public Thread {
public:
void Run() override {
Thread::Sleep(200);
}
};
void TestThreadAffinity() {
std::cout << "Testing Thread Affinity..." << std::endl;
#ifdef __linux__
auto available = GetAvailableCpus();
if (available.empty()) {
std::cout << " No CPUs available for affinity test, skipping." << std::endl;
return;
}
int target_cpu = available[0];
std::cout << " Using CPU " << target_cpu << std::endl;
TestThread t;
t.Start();
t.SetAffinity(target_cpu);
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
int s = pthread_getaffinity_np(t.GetNativeHandle(), sizeof(cpu_set_t), &cpuset);
if (s != 0) {
std::cerr << "Error: pthread_getaffinity_np failed with code " << s << std::endl;
assert(false);
}
assert(CPU_ISSET(target_cpu, &cpuset));
t.Join();
std::cout << " Passed (Thread bound to CPU 0)." << std::endl;
#else
std::cout << " Affinity not supported on this OS, skipping." << std::endl;
#endif
}
void TestTeamAffinity() {
std::cout << "Testing Team Affinity..." << std::endl;
#ifdef __linux__
auto available = GetAvailableCpus();
if (available.size() < 2) {
std::cout << " Not enough CPUs available for Team affinity test, skipping." << std::endl;
return;
}
std::vector<int> cpus = {available[0], available[1]};
std::cout << " Using CPUs " << cpus[0] << ", " << cpus[1] << std::endl;
Team team(2);
team.SetAffinity(cpus);
// We check affinity inside a parallel region
#pragma omp parallel
{
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
pthread_getaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset);
int tid = Thread::GetThreadNum();
int expected_cpu = cpus[tid % cpus.size()];
assert(CPU_ISSET(expected_cpu, &cpuset));
}
std::cout << " Passed (Team threads bound correctly)." << std::endl;
#else
std::cout << " Affinity not supported on this OS, skipping." << std::endl;
#endif
}
// Helper to get native handle if needed (oops, I forgot to add it to Thread class)
// I'll add GetNativeHandle() to Thread class in Threads.h
int main() {
TestThreadAffinity();
TestTeamAffinity();
std::cout << "All Affinity tests finished!" << std::endl;
return 0;
}

12
src/Core/testing/CMakeLists.txt
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@@ -2,6 +2,8 @@
# TESTS
set( TESTS
SmartVectorTest
SmartPointerTest
ObjectWrapperTest
VectorTest
ObjectFlagsTest
ObjectParametersTest
@@ -21,6 +23,15 @@ set( TESTS
OptionsTest
PingPongTest
VectorMetaAllocatorTest
PropertyTypesTest
HRPTest
PropertyGroupingTest
MutexTest
ThreadsTest
OpenMPTest
TeamTest
AffinityTest
ReadOnlyPropertyTest
)
set(LIBRARIES
@@ -29,6 +40,7 @@ set(LIBRARIES
Boost::serialization
Boost::program_options
${ROOT_LIBRARIES}
OpenMP::OpenMP_CXX
)
uLib_add_tests(Core)

83
src/Core/testing/HRPTest.cpp Normal file
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@@ -0,0 +1,83 @@
#include <iostream>
#include <sstream>
#include "Core/Object.h"
#include "Core/Property.h"
#include "Core/Serializable.h"
#include "Core/Archives.h"
using namespace uLib;
struct SimpleObject {
int value;
std::string name;
template<class Archive>
void serialize(Archive & ar, const unsigned int version) {
ar & HRP(value);
ar & HRP(name);
}
};
struct DynamicObject : public Object {
float width;
int height;
DynamicObject() : width(10.0f), height(20) {
// Automatic registration of properties based on serialize/HRP
ULIB_ACTIVATE_PROPERTIES(*this);
}
template<class Archive>
void serialize(Archive & ar, const unsigned int version) {
ar & HRP(width);
ar & HRP(height);
}
};
int main() {
SimpleObject obj;
obj.value = 42;
obj.name = "TestObject";
std::cout << "Testing HRP Serialization to Log..." << std::endl;
std::stringstream ss;
{
uLib::Archive::log_archive ar(ss);
ar << boost::serialization::make_nvp("Object", obj);
}
std::cout << ss.str() << std::endl;
std::cout << "Testing HRP Serialization to HRT..." << std::endl;
ss.str("");
{
uLib::Archive::hrt_oarchive ar(ss);
ar << obj;
}
std::cout << ss.str() << std::endl;
std::cout << "Testing HRP Serialization to XML..." << std::endl;
ss.str("");
{
uLib::Archive::xml_oarchive ar(ss);
ar << boost::serialization::make_nvp("Object", obj);
}
std::cout << ss.str() << std::endl;
std::cout << "Testing Dynamic Property Creation via ULIB_ACTIVATE_PROPERTIES macro..." << std::endl;
DynamicObject dynObj;
// (properties were already created in DynamicObject constructor via macro)
std::cout << "Registered Properties in dynObj:" << std::endl;
const auto& props = dynObj.GetProperties();
for (auto* p : props) {
std::cout << " - [" << p->GetTypeName() << "] " << p->GetName() << " = " << p->GetValueAsString() << std::endl;
}
if (props.size() == 2) {
std::cout << "Dynamic Property Creation SUCCESS!" << std::endl;
} else {
std::cout << "Dynamic Property Creation FAILED (Expected 2, got " << props.size() << ")" << std::endl;
}
return 0;
}

109
src/Core/testing/MutexTest.cpp Normal file
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@@ -0,0 +1,109 @@
#include "Core/Monitor.h"
#include <iostream>
#include <chrono>
#include <thread>
#include <vector>
#include <cassert>
using namespace uLib;
void TestBasicLock() {
std::cout << "Testing basic Mutex Lock/Unlock..." << std::endl;
Mutex m;
m.Lock();
m.Unlock();
assert(m.TryLock());
m.Unlock();
std::cout << " Passed." << std::endl;
}
void TestScopedLock() {
std::cout << "Testing Mutex::ScopedLock..." << std::endl;
Mutex m;
{
Mutex::ScopedLock lock(m);
assert(!m.TryLock());
}
assert(m.TryLock());
m.Unlock();
std::cout << " Passed." << std::endl;
}
void TestTimedLock() {
std::cout << "Testing Mutex TryLockFor..." << std::endl;
Mutex m;
m.Lock();
auto start = std::chrono::steady_clock::now();
bool locked = m.TryLockFor(100);
auto end = std::chrono::steady_clock::now();
auto diff = std::chrono::duration_cast<std::chrono::milliseconds>(end - start).count();
assert(!locked);
assert(diff >= 100);
m.Unlock();
std::cout << " Passed (waited " << diff << "ms)." << std::endl;
}
void TestMacros() {
std::cout << "Testing ULIB_STATIC_LOCK and ULIB_MUTEX_LOCK macros..." << std::endl;
int counter = 0;
auto task = [&]() {
for(int i=0; i<500; ++i) {
ULIB_STATIC_LOCK(-1) {
counter++;
}
}
};
std::vector<std::thread> threads;
for(int i=0; i<4; ++i) threads.emplace_back(task);
for(auto& t : threads) t.join();
assert(counter == 2000);
Mutex m;
int counter2 = 0;
ULIB_MUTEX_LOCK(m, -1) {
counter2++;
}
assert(counter2 == 1);
std::cout << " Passed." << std::endl;
}
void TestMonitor() {
std::cout << "Testing Monitor pattern..." << std::endl;
struct Resource {
int value = 0;
void increment() { value++; }
};
Monitor<Resource> monitor(new Resource());
auto task = [&]() {
for(int i=0; i<1000; ++i) {
monitor.Access([](Resource& r) {
r.increment();
});
}
};
std::vector<std::thread> threads;
for(int i=0; i<5; ++i) threads.emplace_back(task);
for(auto& t : threads) t.join();
int final_value = monitor.Access([](Resource& r) { return r.value; });
assert(final_value == 5000);
std::cout << " Passed (final value: " << final_value << ")." << std::endl;
}
int main() {
TestBasicLock();
TestScopedLock();
TestTimedLock();
TestMacros();
TestMonitor();
std::cout << "All Mutex and Monitor tests passed!" << std::endl;
return 0;
}

28
src/Core/testing/ObjectWrapperTest.cpp Normal file
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@@ -0,0 +1,28 @@
#include "Core/ObjectFactory.h"
#include <iostream>
struct NonDefault {
NonDefault(int) {}
};
struct Default {
Default() : value(42) {}
int value;
};
int main() {
std::cout << "Testing ObjectWrapper with Default Constructible type..." << std::endl;
uLib::ObjectWrapper<Default> w1;
std::cout << "Testing ObjectWrapper with Non-Default Constructible type..." << std::endl;
NonDefault nd(10);
uLib::ObjectWrapper<NonDefault> w2(nd);
// The following would NOT compile without SFINAE:
// uLib::ObjectWrapper<NonDefault> w3;
std::cout << "Tests passed (compilation and manual instantiation)!" << std::endl;
return 0;
}

47
src/Core/testing/OpenMPTest.cpp Normal file
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@@ -0,0 +1,47 @@
#include "Core/Threads.h"
#include <iostream>
#include <cassert>
#ifdef _OPENMP
#include <omp.h>
#endif
using namespace uLib;
class OpenMPThread : public Thread {
public:
void Run() override {
#ifdef _OPENMP
Thread::SetNumThreads(2);
int max = Thread::GetNumThreads();
std::cout << " OpenMP max threads in uLib::Thread: " << max << std::endl;
int shared_counter = 0;
#pragma omp parallel reduction(+:shared_counter)
{
shared_counter += 1;
}
std::cout << " Parallel region executed with " << shared_counter << " threads." << std::endl;
assert(shared_counter <= max);
#else
std::cout << " OpenMP not available, skipping parallel check." << std::endl;
assert(Thread::GetNumThreads() == 1);
#endif
}
};
int main() {
std::cout << "Testing OpenMP compatibility..." << std::endl;
#ifdef _OPENMP
std::cout << " OpenMP is AVAILABLE." << std::endl;
#else
std::cout << " OpenMP is NOT available." << std::endl;
#endif
OpenMPThread t;
t.Start();
t.Join();
std::cout << "OpenMP compatibility test finished!" << std::endl;
return 0;
}

172
src/Core/testing/PropertiesTest.cpp
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@@ -23,74 +23,138 @@
//////////////////////////////////////////////////////////////////////////////*/
#include <iostream>
#include <boost/signals2/signal.hpp>
#include <fstream>
#include <string>
#include "Core/Object.h"
#include "Core/Property.h"
#include "Core/Archives.h"
#include "Core/Serializable.h"
#include "testing-prototype.h"
#define emit
template <typename T, bool copyable = true>
class property
{
typedef boost::signals2::signal<void(const property<T>& )> signal_t;
using namespace uLib;
/**
* @brief A test class to demonstrate property registration via SERIALIZE_OBJECT.
*/
class TestObject : public Object {
public:
property() : m_changed(new signal_t) {}
property(const T in) : value(in) , m_changed(new signal_t) {}
uLibTypeMacro(TestObject, Object)
inline operator T const & () const { return value; }
inline operator T & () { return value; }
inline T & operator = (const T &i) { value = i; return value; }
template <typename T2> T2 & operator = (const T2 &i) { T2 &guard = value; } // Assign exact identical types only.
inline signal_t & valueChanged() { return *m_changed; }
TestObject() : m_Value(10.5f), m_Status("Initialized"), m_Counter(0) {}
float m_Value;
std::string m_Status;
int m_Counter;
// Static properties (registered in constructor/initializer)
ULIB_PROPERTY(int, StaticProp, 42)
ULIB_SERIALIZE_ACCESS
template <typename Ar>
void serialize(Ar& ar, unsigned int version) {
ar & HRP("value", m_Value, "mm").range(0, 100).set_default(1.);
ar & HRP("status", m_Status);
ar & HRP("counter", m_Counter);
}
private:
T value;
boost::shared_ptr<signal_t> m_changed;
};
//template <typename T>
//class property <T,false> {
// typedef boost::signals2::signal<void( T )> signal_t;
class TestObject2 : public TestObject {
public:
uLibTypeMacro(TestObject2, TestObject)
//public:
// property() : m_changed() {}
// property(const T in) : value(in) , m_changed() {}
TestObject2() : TestObject(), m_Value2(20.5f) {}
// inline operator T const & () const { return value; }
// inline operator T & () { valueChanged()(value); return value; }
// inline T & operator = (const T &i) { value = i; valueChanged()(value); return value; }
// template <typename T2> T2 & operator = (const T2 &i) { T2 &guard = value; } // Assign exact identical types only.
// inline signal_t &valueChanged() { return m_changed; }
//private:
// property(const property<T> &);
// property<T> &operator = (const property<T>&);
// T value;
// signal_t m_changed;
//};
// test generic void function slot //
void PrintSlot(const property<int> &i) { std::cout << "slot called, new value = " << i << "!\n"; }
int main()
{
float m_Value2;
ULIB_SERIALIZE_ACCESS
};
ULIB_SERIALIZABLE_OBJECT(TestObject2)
ULIB_SERIALIZE_OBJECT(TestObject2, TestObject) {
std::cout << "Serializing TestObject2" << std::endl;
// ar & boost::serialization::make_hrp("value2", ob.m_Value2, "mm").set_default(1.);
ar & HRP("value2", ob.m_Value2, "mm").set_default(1.);
}
int main() {
BEGIN_TESTING(Properties Serialization)
TestObject obj;
// 1. Initial state: check static property
ASSERT_EQUAL(obj.StaticProp, 42);
// 2. Activate dynamic properties via the property_register_archive
// This calls the serialize method with a special archive that populates m_DynamicProperties
ULIB_ACTIVATE_PROPERTIES(obj);
const auto& props = obj.GetProperties();
// This is problematic because GetProperties currently returns d->m_Properties (only static)
// For now, let's just assert on the dynamic property presence if possible
PropertyBase* pVal = obj.GetProperty("value");
ASSERT_NOT_NULL(pVal);
ASSERT_EQUAL(pVal->GetValueAsString(), "10.5");
ASSERT_EQUAL(pVal->GetUnits(), "mm");
// Check other dynamic properties
ASSERT_NOT_NULL(obj.GetProperty("status"));
ASSERT_NOT_NULL(obj.GetProperty("counter"));
// 4. Serialization round-trip (XML)
{
std::ofstream ofs("test_props.xml");
Archive::xml_oarchive(ofs) << NVP("test_obj", obj);
}
TestObject obj2;
obj2.m_Value = 0;
obj2.m_Status = "";
{
std::ifstream ifs("test_props.xml");
Archive::xml_iarchive(ifs) >> NVP("test_obj", obj2);
}
ASSERT_EQUAL(obj2.m_Value, 10.5f);
ASSERT_EQUAL(obj2.m_Status, "Initialized");
TestObject2 obj3;
obj3.m_Value = 12.5;
obj3.m_Status = "Initialized";
obj3.m_Value2 = 22.5;
ULIB_ACTIVATE_PROPERTIES(obj3);
PropertyBase* pVal3 = obj3.GetProperty("value2");
ASSERT_NOT_NULL(pVal3);
ASSERT_EQUAL(pVal3->GetValueAsString(), "22.5");
ASSERT_EQUAL(pVal3->GetUnits(), "mm");
// 5. Serialization round-trip (XML)
{
std::ofstream ofs("test_props2.xml");
Archive::xml_oarchive(ofs) << NVP("test_obj2", obj3);
}
TestObject2 obj4;
obj4.m_Value = 0;
obj4.m_Status = "";
obj4.m_Value2 = 0;
ULIB_ACTIVATE_PROPERTIES(obj4);
{
std::ifstream ifs("test_props2.xml");
Archive::xml_iarchive(ifs) >> NVP("test_obj2", obj4);
}
ASSERT_EQUAL(obj4.m_Value, 12.5f);
ASSERT_EQUAL(obj4.m_Status, "Initialized");
ASSERT_EQUAL(obj4.m_Value2, 22.5f);
END_TESTING
}

78
src/Core/testing/PropertyGroupingTest.cpp Normal file
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@@ -0,0 +1,78 @@
#include <iostream>
#include <vector>
#include <string>
#include <cassert>
#include "Core/Object.h"
#include "Core/Property.h"
using namespace uLib;
struct Nested {
float x = 1.0f;
float y = 2.0f;
ULIB_SERIALIZE_ACCESS
template<class Archive>
void serialize(Archive & ar, const unsigned int version) {
ar & HRP(x);
ar & HRP(y);
}
};
class GroupObject : public Object {
uLibTypeMacro(GroupObject, Object)
public:
Nested position;
Nested orientation;
float weight = 50.0f;
ULIB_SERIALIZE_ACCESS
template<class Archive>
void serialize(Archive & ar, const unsigned int version) {
ar & boost::serialization::make_nvp("Position", position);
ar & boost::serialization::make_nvp("Orientation", orientation);
ar & HRP(weight);
}
};
int main() {
std::cout << "Testing Property Grouping..." << std::endl;
GroupObject obj;
ULIB_ACTIVATE_PROPERTIES(obj);
auto props = obj.GetProperties();
std::cout << "Registered " << props.size() << " properties." << std::endl;
for (auto* p : props) {
std::cout << "Prop: " << p->GetName()
<< " Group: " << p->GetGroup()
<< " Qualified: " << p->GetQualifiedName() << std::endl;
}
// Check if nested properties are registered
PropertyBase* p1 = obj.GetProperty("Position.x");
PropertyBase* p2 = obj.GetProperty("Position.y");
PropertyBase* p3 = obj.GetProperty("Orientation.x");
PropertyBase* p4 = obj.GetProperty("Orientation.y");
PropertyBase* p5 = obj.GetProperty("weight");
assert(p1 != nullptr && "Position.x not found");
assert(p2 != nullptr && "Position.y not found");
assert(p3 != nullptr && "Orientation.x not found");
assert(p4 != nullptr && "Orientation.y not found");
assert(p5 != nullptr && "weight not found");
assert(p1->GetGroup() == "Position");
assert(p2->GetGroup() == "Position");
assert(p3->GetGroup() == "Orientation");
assert(p4->GetGroup() == "Orientation");
assert(p5->GetGroup() == "");
assert(p1->GetQualifiedName() == "Position.x");
assert(p5->GetQualifiedName() == "weight");
std::cout << "Property Grouping Tests PASSED!" << std::endl;
return 0;
}

63
src/Core/testing/PropertySystemTest.cpp Normal file
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@@ -0,0 +1,63 @@
#include <iostream>
#include <sstream>
#include "Core/Object.h"
#include "Core/Property.h"
#include <cassert>
using namespace uLib;
class TestObject : public Object {
public:
uLibTypeMacro(TestObject, Object)
TestObject() : Object(),
IntProp(this, "IntProp", 10),
StringProp(this, "StringProp", "Initial")
{}
Property<int> IntProp;
Property<std::string> StringProp;
};
int main() {
TestObject obj;
std::cout << "Testing Properties..." << std::endl;
// 1. Check registration
const auto& props = obj.GetProperties();
assert(props.size() == 2);
assert(props[0]->GetName() == "IntProp");
assert(props[1]->GetName() == "StringProp");
// 2. Check value access and signals
bool signalCalled = false;
uLib::Object::connect(&obj.IntProp, &Property<int>::PropertyChanged, [&signalCalled]() {
signalCalled = true;
});
assert(obj.IntProp.Get() == 10);
obj.IntProp = 20;
assert(obj.IntProp.Get() == 20);
assert(signalCalled == true);
// 3. Check serialization
std::stringstream ss;
Object::SaveXml(ss, obj);
std::string xml = ss.str();
std::cout << "Serialized XML: \n" << xml << std::endl;
assert(xml.find("<IntProp>20</IntProp>") != std::string::npos);
assert(xml.find("<StringProp>Initial</StringProp>") != std::string::npos);
// 4. Check deserialization
TestObject obj2;
std::stringstream ss2(xml);
Object::LoadXml(ss2, obj2);
assert(obj2.IntProp.Get() == 20);
assert(obj2.StringProp.Get() == "Initial");
std::cout << "All Property Tests PASSED!" << std::endl;
return 0;
}

67
src/Core/testing/PropertyTypesTest.cpp Normal file
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@@ -0,0 +1,67 @@
#include <iostream>
#include <sstream>
#include <cassert>
#include "Core/Object.h"
#include "Core/Property.h"
#include "Math/Dense.h"
using namespace uLib;
class TestObject : public Object {
public:
uLibTypeMacro(TestObject, Object)
TestObject() : Object() {}
// Use new typedefs
StringProperty StringProp = StringProperty(this, "StringProp", "Initial");
IntProperty IntProp = IntProperty(this, "IntProp", 42);
FloatProperty FloatProp = FloatProperty(this, "FloatProp", 3.14f);
BoolProperty BoolProp = BoolProperty(this, "BoolProp", true);
// Use new macro
ULIB_PROPERTY(Matrix3f, MatrixProp, Matrix3f::Identity())
// Use new Dense typedefs
Vector3fProperty Vector3fProp = Vector3fProperty(this, "Vector3fProp", Vector3f(1.1f, 2.2f, 3.3f));
Matrix4fProperty Matrix4fProp = Matrix4fProperty(this, "Matrix4fProp", Matrix4f::Identity());
};
int main() {
TestObject obj;
std::cout << "Testing Property Types..." << std::endl;
// 1. Verify string representation
std::cout << "StringProp: " << obj.StringProp.GetValueAsString() << std::endl;
assert(obj.StringProp.GetValueAsString() == "Initial");
std::cout << "IntProp: " << obj.IntProp.GetValueAsString() << std::endl;
assert(obj.IntProp.GetValueAsString() == "42");
std::cout << "FloatProp: " << obj.FloatProp.GetValueAsString() << std::endl;
// boost::lexical_cast might have different precision, but for 3.14 it should be okay or we check find
assert(obj.FloatProp.GetValueAsString().find("3.14") != std::string::npos);
std::cout << "BoolProp: " << obj.BoolProp.GetValueAsString() << std::endl;
// Bool might be "1" or "true" depending on lexical_cast/stringstream
assert(obj.BoolProp.GetValueAsString() == "1" || obj.BoolProp.GetValueAsString() == "true");
// 2. Verify Matrix/Vector string representation (uses operator<<)
std::cout << "MatrixProp: \n" << obj.MatrixProp.GetValueAsString() << std::endl;
assert(obj.MatrixProp.GetValueAsString().find("1 0 0") != std::string::npos);
std::cout << "Vector3fProp: " << obj.Vector3fProp.GetValueAsString() << std::endl;
assert(obj.Vector3fProp.GetValueAsString().find("1.1 2.2 3.3") != std::string::npos);
std::cout << "Matrix4fProp: \n" << obj.Matrix4fProp.GetValueAsString() << std::endl;
assert(obj.Matrix4fProp.GetValueAsString().find("1 0 0 0") != std::string::npos);
// 3. Verify updates and signals
obj.IntProp = 100;
assert(obj.IntProp.Get() == 100);
assert(obj.IntProp.GetValueAsString() == "100");
std::cout << "All Property Type Tests PASSED!" << std::endl;
return 0;
}

82
src/Core/testing/ReadOnlyPropertyTest.cpp Normal file
View File

@@ -0,0 +1,82 @@
#include <iostream>
#include <vector>
#include <string>
#include <cassert>
#include "Core/Object.h"
#include "Core/Property.h"
#include "Core/Serializable.h"
#include "Core/Serializable.h"
using namespace uLib;
class ReadOnlyTestObject : public Object {
public:
int m_value;
int getValue() const { return m_value; }
enum State { State1, State2 };
State m_state;
State getState() const { return m_state; }
ReadOnlyTestObject() : m_value(10), m_state(State1) {
ULIB_ACTIVATE_PROPERTIES(*this);
}
template<class Archive>
void serialize(Archive & ar, const unsigned int version) {
// Lvalue reference - should be NOT read-only
ar & HRP("lvalue_prop", m_value);
// Rvalue from getter - should be read-only
ar & HRP("rvalue_prop", getValue());
// Enum lvalue - should be NOT read-only
ar & boost::serialization::make_hrp_enum("lvalue_enum", (int&)m_state, {"State1", "State2"});
// Enum rvalue - should be read-only
ar & boost::serialization::make_hrp_enum("rvalue_enum", (int)getState(), {"State1", "State2"});
}
};
int main() {
std::cout << "Testing Read-Only Property Feature..." << std::endl;
ReadOnlyTestObject obj;
const auto& props = obj.GetProperties();
std::cout << "Registered Properties in ReadOnlyTestObject:" << std::endl;
bool found_lvalue = false;
bool found_rvalue = false;
bool found_lvalue_enum = false;
bool found_rvalue_enum = false;
for (auto* p : props) {
bool ro = p->IsReadOnly();
std::cout << " - Name: " << p->GetName()
<< " | Type: " << p->GetTypeName()
<< " | ReadOnly: " << (ro ? "YES" : "NO") << std::endl;
if (p->GetName() == "lvalue_prop") {
if (ro) { std::cerr << "FAIL: lvalue_prop should NOT be read-only" << std::endl; return 1; }
found_lvalue = true;
} else if (p->GetName() == "rvalue_prop") {
if (!ro) { std::cerr << "FAIL: rvalue_prop SHOULD be read-only" << std::endl; return 1; }
found_rvalue = true;
} else if (p->GetName() == "lvalue_enum") {
if (ro) { std::cerr << "FAIL: lvalue_enum should NOT be read-only" << std::endl; return 1; }
found_lvalue_enum = true;
} else if (p->GetName() == "rvalue_enum") {
if (!ro) { std::cerr << "FAIL: rvalue_enum SHOULD be read-only" << std::endl; return 1; }
found_rvalue_enum = true;
}
}
if (found_lvalue && found_rvalue && found_lvalue_enum && found_rvalue_enum) {
std::cout << "TEST PASSED SUCCESSFULLY!" << std::endl;
return 0;
} else {
std::cerr << "TEST FAILED: Some properties were not found!" << std::endl;
return 1;
}
}

37
src/Core/testing/SerializeDreadDiamondTest.cpp
View File

@@ -40,7 +40,7 @@ struct A : Object {
};
ULIB_SERIALIZABLE_OBJECT(A)
ULIB_SERIALIZE_OBJECT(A, Object) { ar &AR(numa); }
ULIB_SERIALIZE_OBJECT(A, Object) { ar & AR(numa); }
struct B : virtual Object {
uLibTypeMacro(B, Object) B() : numb(5552369) {}
@@ -48,7 +48,7 @@ struct B : virtual Object {
};
ULIB_SERIALIZABLE_OBJECT(B)
ULIB_SERIALIZE_OBJECT(B, Object) { ar &AR(numb); }
ULIB_SERIALIZE_OBJECT(B, Object) { ar & AR(numb); }
struct C : B {
uLibTypeMacro(C, B) C() : numc(5552370) {}
@@ -56,7 +56,7 @@ struct C : B {
};
ULIB_SERIALIZABLE_OBJECT(C)
ULIB_SERIALIZE_OBJECT(C, B) { ar &AR(numc); }
ULIB_SERIALIZE_OBJECT(C, B) { ar & AR(numc); }
struct D : A, B {
uLibTypeMacro(D, A, B)
@@ -67,10 +67,33 @@ struct D : A, B {
};
ULIB_SERIALIZABLE_OBJECT(D)
ULIB_SERIALIZE_OBJECT(D, A, B) { ar &AR(numd); }
ULIB_SERIALIZE_OBJECT(D, A, B) { ar & AR(numd); }
int main() {
A o;
Archive::xml_oarchive(std::cout) << NVP(o);
BEGIN_TESTING(DreadDiamond Serialization)
D o;
C c;
c.numb = 123;
{
std::ofstream file("test.xml");
Archive::xml_oarchive(file) << NVP("dd_test", o) << NVP("c", c);
}
{
D o2;
C c2;
std::ifstream file("test.xml");
Archive::xml_iarchive(file) >> NVP("dd_test", o2) >> NVP("c", c2);
// D //
ASSERT_EQUAL(o.numa, o2.numa);
ASSERT_EQUAL(o.numb, o2.numb);
ASSERT_EQUAL(o.numd, o2.numd);
// C //
ASSERT_EQUAL(c.numb, c2.numb);
ASSERT_EQUAL(c.numc, c2.numc);
}
END_TESTING
}

95
src/Core/testing/SerializeTest.cpp
View File

@@ -143,22 +143,105 @@ int testing_hrt_class() {
}
a.a() = 0;
a.p_a = "zero string";
{
// ERRORE FIX !
// std::ifstream file("test.xml");
// Archive::hrt_iarchive(file) >> NVP(a);
}
Archive::hrt_oarchive(std::cout) << NVP(a);
return (a.a() == 5552368 && a.p_a == "A property string");
}
class B : public virtual Object {
uLibTypeMacro(B, Object)
ULIB_SERIALIZE_ACCESS
public:
B() : m_b(1234567), m_a(nullptr) {}
int m_b;
// reference to A (serializes through ID)
A *m_a;
};
ULIB_SERIALIZABLE_OBJECT(B)
ULIB_SERIALIZE_OBJECT(B, Object) {
ar & "Object B : " & "--> m_b = " & AR(m_b) & "--> m_a = " & AR(m_a);
}
class C : public virtual Object {
uLibTypeMacro(C, Object)
ULIB_SERIALIZE_ACCESS
public:
C() : m_c(1234566) {}
int m_c;
// reference to A (serializes through ID)
SmartPointer<A> m_a;
};
ULIB_SERIALIZABLE_OBJECT(C)
ULIB_SERIALIZE_OBJECT(C, Object) {
ar & "Object C : " & "--> m_c = " & AR(m_c) & "--> m_a = " & AR(m_a);
}
int test_referece_serialization() {
A a;
{
B b,b2 ;
b.m_a = &a;
b2.m_a = &a;
std::ofstream file("test_ref.xml");
Archive::xml_oarchive(file) << NVP(b) << NVP(b2);
}
B b,b2;
{
std::ifstream file("test_ref.xml");
Archive::xml_iarchive(file) >> NVP(b) >> NVP(b2);
}
return (b.m_a->a() == a.a() && b2.m_a->a() == a.a());
}
int test_referece_smartpointer_serialization() {
SmartPointer<A> a(new A());
a->init_properties();
{
C c, c2; c.m_a = a; c2.m_a = a;
std::ofstream file("test_ref_smartpointer.xml");
Archive::xml_oarchive(file) << NVP(c) << NVP(c2);
}
C c, c2;
{
std::ifstream file("test_ref_smartpointer.xml");
Archive::xml_iarchive(file) >> NVP(c) >> NVP(c2);
}
return (c.m_a->a() == a->a() && c2.m_a->a() == a->a());
}
int main() {
BEGIN_TESTING(Serialize Test);
TEST1(test_V3f());
TEST1(testing_xml_class());
// testing_hrt_class(); ///// << ERRORE in HRT with properties
TEST1(test_referece_serialization());
TEST1(test_referece_smartpointer_serialization());
// TEST1(testing_hrt_class());
END_TESTING;
}

56
src/Core/testing/SmartPointerTest.cpp
View File

@@ -27,6 +27,7 @@
#include <iostream>
#include "Core/Object.h"
#include "Core/SmartPointer.h"
#include "testing-prototype.h"
@@ -34,12 +35,12 @@ using namespace uLib;
namespace Test {
struct ObjectMockInterface {
struct ObjectMockInterface : public Object {
virtual void PrintValue()=0;
virtual int& Value()=0;
};
class ObjectMock : ObjectMockInterface {
class ObjectMock : public ObjectMockInterface {
int value;
public:
int& Value() { return value; }
@@ -72,13 +73,11 @@ int main () {
SmartPointer<Test::ObjectMock> spt(new Test::ObjectMock);
TEST1(test_smpt(spt));
}
// TEST NULL POINTER //
{
SmartPointer<Test::ObjectMock> spt;
TEST1(test_smpt(spt));
}
{
SmartPointer<Test::ObjectMock> spt = new SmartPointer<Test::ObjectMock>;
TEST1(test_smpt(spt));
TEST1(!spt);
}
// TAKE REFERENCE //
@@ -88,7 +87,50 @@ int main () {
TEST1(test_smpt(spt));
}
{
Test::ObjectMock obj;
SmartPointer<Object> spt1 = obj;
SmartPointer<Test::ObjectMock> spt2 = obj;
SmartPointer<Test::ObjectMockInterface> spt = obj;
}
{
Test::ObjectMock *obj = new Test::ObjectMock;
SmartPointer<Test::ObjectMock> spt(obj);
SmartPointer<Test::ObjectMock> spt2(spt);
SmartPointer<Test::ObjectMock> spt3(spt);
SmartPointer<Test::ObjectMock> spt4(spt2);
spt->Value() = 123;
spt2->Value() = 456;
spt3->Value() = 789;
spt4->Value() = 101112;
TEST1(spt->Value() == 101112);
TEST1(spt2->Value() == 101112);
TEST1(spt3->Value() == 101112);
TEST1(spt4->Value() == 101112);
}
{
SmartPointer<Test::ObjectMock> spt = new Test::ObjectMock;
spt->Value() = 12345;
TEST1(spt->Value() == 12345);
SmartPointer<Test::ObjectMock> spt2 = spt;
TEST1(spt2->Value() == 12345);
TEST1(spt.use_count() == 2);
}
{
// Using new with custom deleter
bool deleted = false;
{
SmartPointer<int> spt(new int(10), [&](int* p) {
deleted = true;
delete p;
});
TEST1(*spt == 10);
}
TEST1(deleted == true);
}
END_TESTING;
}

40
src/Core/testing/TeamTest.cpp Normal file
View File

@@ -0,0 +1,40 @@
#include "Core/Threads.h"
#include <iostream>
#include <atomic>
#include <cassert>
#include <vector>
using namespace uLib;
void TestTaskTeam() {
std::cout << "Testing Task and Team..." << std::endl;
std::atomic<int> counter(0);
auto task_func = [&]() {
counter++;
Thread::Sleep(10);
};
Team team(4);
std::cout << " Team size: " << team.GetSize() << std::endl;
#ifdef _OPENMP
#pragma omp parallel
#pragma omp single
#endif
{
for (int i = 0; i < 20; ++i) {
team.Run(new Task(task_func));
}
team.Wait();
}
assert(counter == 20);
std::cout << " Passed (counter: " << counter << ")." << std::endl;
}
int main() {
TestTaskTeam();
std::cout << "All Team tests passed!" << std::endl;
return 0;
}

72
src/Core/testing/ThreadsTest.cpp Normal file
View File

@@ -0,0 +1,72 @@
#include "Core/Threads.h"
#include <iostream>
#include <atomic>
#include <cassert>
using namespace uLib;
class MyThread : public Thread {
public:
MyThread() : counter(0) {}
void Run() override {
for (int i = 0; i < 5; ++i) {
counter++;
Thread::Sleep(10);
}
}
std::atomic<int> counter;
};
void TestBasicThread() {
std::cout << "Testing basic Thread lifecycle..." << std::endl;
MyThread t;
assert(!t.IsRunning());
t.Start();
assert(t.IsRunning());
t.Join();
assert(!t.IsRunning());
assert(t.counter == 5);
std::cout << " Passed." << std::endl;
}
void TestThreadDetach() {
std::cout << "Testing Thread Detach..." << std::endl;
std::atomic<bool> done(false);
// Using a lambda or a simple subclass
class DetachedThread : public Thread {
public:
DetachedThread(std::atomic<bool>& d) : m_done(d) {}
void Run() override {
Thread::Sleep(50);
m_done = true;
}
std::atomic<bool>& m_done;
};
{
DetachedThread* t = new DetachedThread(done);
t->Start();
t->Detach();
// The thread object 't' is still alive here,
// but it will be destroyed soon if we delete it.
// For a detached thread using members, we MUST keep it alive.
int wait_count = 0;
while(!done && wait_count < 20) {
Thread::Sleep(10);
wait_count++;
}
delete t;
}
assert(done);
std::cout << " Passed." << std::endl;
}
int main() {
TestBasicThread();
TestThreadDetach();
std::cout << "All Thread tests passed!" << std::endl;
return 0;
}

2
src/Core/testing/VectorTest.cpp
View File

@@ -38,7 +38,7 @@ inline const unsigned long VectorSplice(const _Tp &_it, const _Tp &_end,
_Tp it = _it;
_Tp end = _end - 1;
for (it; it != end;) {
for (; it != end;) {
if (_comp(*it, value))
it++;
else if (_comp(*end, value)) {

2
src/Core/testing/testing-prototype.h
View File

@@ -33,5 +33,7 @@ printf("..:: Testing " #name " ::..\n");
#define TEST1(val) _fail += (val)==0
#define TEST0(val) _fail += (val)!=0
#define ASSERT_EQUAL(a,b) if((a)!=(b)) { printf("Assertion failed: " #a " != " #b " at line %d\n", __LINE__); _fail++; }
#define ASSERT_NOT_NULL(ptr) if((ptr)==NULL) { printf("Assertion failed: " #ptr " is NULL at line %d\n", __LINE__); _fail++; }
#define END_TESTING return _fail;

12
src/Detectors/CMakeLists.txt
View File

@@ -1,12 +0,0 @@
set(HEADERS MuonScatter.h MuonError.h MuonEvent.h)
set(ULIB_SELECTED_MODULES ${ULIB_SELECTED_MODULES} Detectors PARENT_SCOPE)
install(FILES ${HEADERS}
DESTINATION ${INSTALL_INC_DIR}/Detectors)
if(BUILD_TESTING)
include(uLibTargetMacros)
add_subdirectory(testing)
endif()

114
src/Detectors/Solid.cpp
View File

@@ -1,114 +0,0 @@
/*//////////////////////////////////////////////////////////////////////////////
// CMT Cosmic Muon Tomography project //////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
Copyright (c) 2014, Universita' degli Studi di Padova, INFN sez. di Padova
All rights reserved
Authors: Andrea Rigoni Garola < andrea.rigoni@pd.infn.it >
------------------------------------------------------------------
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3.0 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library.
//////////////////////////////////////////////////////////////////////////////*/
// G4 Solid //
#include <Geant4/G4Material.hh>
#include <Geant4/G4NistManager.hh>
#include <Geant4/G4LogicalVolume.hh>
// Tessellated solid //
#include <Geant4/G4TessellatedSolid.hh>
#include <Geant4/G4TriangularFacet.hh>
#include <Geant4/G4ThreeVector.hh>
#include "Math/Dense.h"
#include "Solid.h"
namespace uLib {
class DetectorsSolidPimpl {
public:
static G4ThreeVector getG4Vector3f(const Vector3f &vector) {
return G4ThreeVector( vector(0), vector(1), vector(2) );
}
};
Solid::Solid() :
m_Logical (new G4LogicalVolume(NULL,NULL,"unnamed_solid")),
m_Material(NULL)
{}
Solid::Solid(const char *name) :
m_Logical(new G4LogicalVolume(NULL,NULL,name)),
m_Material(NULL)
{}
void Solid::SetNistMaterial(const char *name)
{
G4NistManager *nist = G4NistManager::Instance();
if (m_Material) delete m_Material;
m_Material = nist->FindOrBuildMaterial(name);
m_Logical->SetMaterial(m_Material);
}
void Solid::SetMaterial(G4Material *material)
{
if(material)
{
m_Material = material;
m_Logical->SetMaterial(material);
}
}
TessellatedSolid::TessellatedSolid(const char *name) :
BaseClass(name),
m_Solid(new G4TessellatedSolid(name))
{}
void TessellatedSolid::SetMesh(TriangleMesh &mesh)
{
G4TessellatedSolid *ts = this->m_Solid;
for (int i=0; i<mesh.Triangles().size(); ++i) {
const Vector3i &trg = mesh.Triangles().at(i);
G4TriangularFacet *facet = new G4TriangularFacet(
DetectorsSolidPimpl::getG4Vector3f(mesh.Points().at(trg(0))),
DetectorsSolidPimpl::getG4Vector3f(mesh.Points().at(trg(1))),
DetectorsSolidPimpl::getG4Vector3f(mesh.Points().at(trg(2))),
ABSOLUTE);
ts->AddFacet((G4VFacet *)facet);
}
this->m_Logical->SetSolid(ts);
}
}

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