Alexander Nozik
72ead21ef0
# Conflicts: # build.gradle.kts # demo/js-playground/src/jsMain/kotlin/JsPlaygroundApp.kt # demo/js-playground/src/jsMain/kotlin/gravityDemo.kt # demo/js-playground/src/jsMain/kotlin/markupComponent.kt # visionforge-core/api/visionforge-core.api # visionforge-threejs/src/jsMain/kotlin/space/kscience/visionforge/solid/three/ThreePlugin.kt |
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visionforge-server | ||
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DataForge Visualization Platform
Table of Contents
- Introduction
- Requirements
- Features
- About DataForge
- Modules contained in this repository
- Visualization for External Systems
- Demonstrations
Introduction
This repository contains a DataForge-based framework used for visualization in various scientific applications.
The main framework's use case for now is 3D visualization for particle physics experiments. Other applications including 2D plots are planned for the future.
The project is developed as a Kotlin multiplatform application, currently targeting browser JavaScript and JVM.
Requirements
JVM backend requires JDK 11 or later
Features
The main framework's features for now include:
- 3D visualization of complex experimental set-ups
- Event display such as particle tracks, etc.
- Scales up to few hundred thousands of elements
- Camera move, rotate, zoom-in and zoom-out
- Scene graph as an object tree with property editor
- Settings export and import
- Multiple platform support
About DataForge
DataForge is a software framework for automated scientific data processing. DataForge Visualization
Platform uses some of the concepts and modules of DataForge, including: Meta
, Configuration
, Context
,
Provider
, and some others.
To learn more about DataForge, please consult the following URLs:
- Kotlin multiplatform implementation of DataForge
- DataForge documentation
- Original implementation of DataForge
Modules contained in this repository
cern-root-loader
Maturity: EXPERIMENTAL
demo
Maturity: EXPERIMENTAL
ui
Maturity: EXPERIMENTAL
visionforge-core
Maturity: DEVELOPMENT
visionforge-gdml
Maturity: EXPERIMENTAL
visionforge-jupyter
Common visionforge jupyter module
Maturity: EXPERIMENTAL
visionforge-markdown
Maturity: EXPERIMENTAL
visionforge-plotly
Maturity: EXPERIMENTAL
visionforge-server
Maturity: EXPERIMENTAL
visionforge-solid
Maturity: DEVELOPMENT
visionforge-tables
Maturity: PROTOTYPE
visionforge-threejs
Maturity: EXPERIMENTAL
demo/gdml
Maturity: EXPERIMENTAL
demo/js-playground
Maturity: EXPERIMENTAL
demo/muon-monitor
Maturity: EXPERIMENTAL
demo/playground
Maturity: EXPERIMENTAL
demo/sat-demo
Maturity: EXPERIMENTAL
demo/solid-showcase
Maturity: EXPERIMENTAL
ui/bootstrap
Maturity: EXPERIMENTAL
ui/compose
Maturity: EXPERIMENTAL
ui/react
Maturity: EXPERIMENTAL
ui/ring
Maturity: EXPERIMENTAL
visionforge-jupyter/visionforge-jupyter-common
Jupyter api artifact including all common modules
Maturity: EXPERIMENTAL
visionforge-threejs/visionforge-threejs-server
Maturity: EXPERIMENTAL
Class diagram:
Prototypes
One of the important features of the framework is support for 3D object prototypes (sometimes also referred to as templates). The idea is that prototype geometry can be rendered once and reused for multiple objects. This helps to significantly decrease memory usage.
The prototypes
property tree is defined in SolidGroup
class via PrototypeHolder
interface, and
SolidReference
class helps to reuse a template object.
Styles
VisionGroup
has a styleSheet
property that can optionally define styles at the Group's
level. Styles are applied to child (descendant) objects using Vision.styles: List<String>
property.
visionforge-threejs
Visualization for External Systems
The visionforge
framework can be used to visualize geometry and events from external,
non-Kotlin based systems, such as ROOT. This will require a plugin to convert data model
of the external system to that of visionforge
. Performing such integration is a work
currently in progress.
Demonstrations
The demo
module contains several example projects (demonstrations) of using the visionforge
framework.
They are briefly described in this section, for more details please consult the corresponding per-project
README file.
Simple Example - Solid Showcase
Contains a simple demonstration with a grid including a few shapes that you can rotate, move camera, and so on. Some shapes will also periodically change their color and visibility.
Example view:
Full-Stack Application Example - Muon Monitor Visualization
A full-stack application example, showing the Muon Monitor experiment set-up.
Example view:
GDML Example
Visualization example for geometry defined as GDML file.
Example view:
Stability and documentation
VisionForge is a modular library. Different modules provide different features with different API stability guarantees. All core modules are released with the same version, but with different API change policy. The features are described in module definitions below. The module stability could have the following levels:
- PROTOTYPE. On this level there are no compatibility guarantees. All methods and classes form those modules could break any moment. You can still use it, but be sure to fix the specific version.
- EXPERIMENTAL. The general API is decided, but some changes could be made. Volatile API is marked
with
@DFExperimental
or other stability warning annotations. - DEVELOPMENT. API breaking generally follows semantic versioning ideology. There could be changes in minor versions, but not in patch versions. API is protected with binary-compatibility-validator tool.
- STABLE. The API stabilized. Breaking changes are allowed only in major releases.
Additionally, one should note that the VisionForge Json format impacts the reproducibility of stored vision fragments. There should not be any breaks of the format between major releases. All problems should be reported.
The documentation for the project is a work in progress. Please report any issues with missing, vague or wrong information. The contributions into documentation are quite welcome.
Thanks and references
The original three.js bindings were made by Lars Ivar Hatledal, but the project is discontinued right now.
All other libraries are explicitly shown as dependencies. We would like to express specific thanks to JetBrains Kotlin-JS team for consulting us during the work.