Power users hub
This is the place to come if you are an experienced user and want to learn more about customizing and extending LabRPS.
LabRPS is extensible by Python code that is run directly in the Python console, or that is loaded from modules at startup. This means that you can modify LabRPS without needing to recompile the program. For example, you can:
- Create and modify geometry: you can create a new object type, either from scratch or by adapting an existing type.
- Create custom tools and commands: add your own set of tools that run your code.
- Modify the interface: create toolbars to put your tools, create special windows, panels, or interfaces for interacting with your tools.
- Modify the scenegraph representation: LabRPS has separate processes for building up the geometry and displaying that geometry on screen. You have full access to the way the scene contents are displayed on screen, therefore you can modify that representation, interact with it, or add custom behaviour to it. You can also add custom screen widgets, like information, draggers, anchors or temporary entities.
If you'd like to contribute content to these pages, request a wiki account with editor permissions in the forum, and read the WikiPages for the general guidelines that you should follow. For other ways to contribute with the project, see the Help LabRPS page.
Customizing LabRPS
- Interface Customization: Starting with the beginning: Toolbars and shortcuts
- Working with Macros: Easily record often repeated tasks or Python code
- Macros recipes
- Customize Toolbars
- Installing more workbenches
Scripting in LabRPS
General
- Scripting and Macros - A list of relevant wiki pages
- Introduction to Python - See also other Python tutorials at the bottom of this page
- LabRPS scripting tutorial - A general look at Python scripting in LabRPS
- LabRPS Scripting Basics: Well, the basics
- LabRPS Manual - Section Python Scripting: Multi-chapter introduction to Python Scripting in LabRPS
- Gui Command: Adding custom commands to the GUI
- Using mixed Units in LabRPS
- Profiling the Python code
- Debugging the Python code
- Python Development Environment - A simplistic development environment for Python within LabRPS
Modules
The functionality of LabRPS is separated in Modules which deal with special data types and applications. LabRPS has built-in modules and Extension Modules (plug-ins). Once plugin modules are installed, they become availible to you as easily as the built-in modules. The modules described below are the default modules, includeed in every LabRPS installation.
- The Builtin modules are the principal LabRPS modules. They contain tools for manipulating general LabRPS configurations, documents and their contents.
- Workbench creation shows you how to create your own workbench
Working with Meshes
- Mesh Scripting: How to interact with the Mesh Workbench
Working with Parts
- The Part Workbench: How Open CASCADE Technology tools and structure is used in LabRPS
- Topological data scripting: How to interact with the Part Module
- PythonOCC: How to unleash the whole Open CASCADE power
- Mesh to Part: Converting between object types
Accessing the Coin scenegraph
- The Coin/Inventor scenegraph: How the LabRPS scene representation works
- Pivy: How to access and modify the scenegraph
Controlling the Qt interface
- PySide: How to access the interface, and modify its contents
- Using the LabRPS GUI in another Qt application with PyQt
Working with parametric objects
- Scripted objects: how to make 100% Python-scripted objects.
- Scripted objects with attachment: how to make scripted objects attachable to other objects.
- Scripted objects saving attributes: how to save and restore attributes of the proxy class with
dumps
andloads
. - Scripted objects migration: how to migrate old scripted objects to a new class.
Examples
- Code snippets : A collection of pieces of LabRPS Python code, to serve as ingredients in your scripts...
- Line drawing function: How to build a simple tool to draw lines
- Dialog creation: How to construct dialogs with Qt designer, and use them in LabRPS
- Embedding LabRPS: How to import LabRPS as a Python module in other applications
- The Draft Workbench adds basic 2d drawing functions to LabRPS. It is written entirely in Python, so it can be a good example if you want to write your own modules.
- LabRPS vector math library : A couple of handy functions to manipulate LabRPS vectors. This library is also included in the Draft module.
API Functions
The complete API documentation of LabRPS is located at http://www.labrps.com/api/ . It contains both C++ and Python APIs, and is not totally well formatted yet, which can be confusing when looking for python-only code. An easier to browse version can be found here. Note that it can be incomplete, since it is updated manually. For more accurate information, browse the modules directly from LabRPS's Python console.
Related: Exposing C++ to Python
Advanced modification
- Start up and Configuration: Startup and command line options
- Installing on Windows: Using the windows installer
- Compiling LabRPS on Windows and Compiling LabRPS on Linux
- Branding: Simple modifications you can do to the source code to change some aspects of LabRPS
- Extra python modules : Extend the LabRPS python interpreter with these powerful modules!
Python tutorials
These are good generic tutorials, not specific to LabRPS, that might interest you if you are totally new to python.
Python
- Official python tutorial - A very complete tutorial for discovering python
- Non-programmer tutorial for python - an excellent wikibook
- Python for newbies - one big tutorial covering all the basics
PySide - How to create and manage LabRPS's Qt UI interface from python
- PySide tutorial : A platform-agnostic tutorial showing the usage of PySide with examples
- PySide/PyQt tutorial : A easy to read tutorial that covers PySide and PyQt with examples
- PySide documentation : from the Qt Project (the people who wrote it all)
- Using QtCreator in PySide : also from the Qt Project
- PySide reference : endless detail on the minutiae of PySide and Qt, a reliable reference source
- PySide code snippets : a searchable database of PySide code snippets
The following two references are PyQt specific (not PySide) but may offer some information of use:
- Basic PyQt tutorial : A simple and short linux-based tutorial that will explain how to work with PyQt and Qt Designer
- Programming Qt applications in python : A more in-depth tutorial covering all the process of working with qt and python
Pivy - How to interact with LabRPS's 3D scenes
- Pivy - Embedding a Dynamic Scripting Language into a Scene Graph Library : Thesis that explains Pivy in detail
- High Level 3D Graphics Programming in Python : Pivy example from Pycon 2004
- Introducing Pivy into studierstube (Mirror) : A paper that is not really a tutorial, but that illustrates well how Pivy works (requires an academic account)
Community projects
On the Community portal, you can find other LabRPS-based projects run by the LabRPS users community. If you are starting a new LabRPS project, be sure to list it there! We also have a page with things you can do if you would like to Help LabRPS.
- Scientific literature: articles that reference or use the LabRPS system in different ways.
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- LabRPS scripting: Python, Introduction to Python, Python scripting tutorial, LabRPS Scripting Basics
- Modules: Units, Quantity
- Workbenches: Gui Commands, Commands
- Parametric objects: Scripted objects, Viewproviders
- Graphical interface: Interface creation, Interface creation completely in Python, PySide, PySide examples beginner, intermediate, advanced
- Macros: Macros, How to install macros
- Other: Expressions
- Hubs: User hub, Power users hub, Developer hub