Pivy/tr

Introduction
Pivy is a Python binding library for Coin, the 3D-rendering library used in FreeCAD to display things in the 3D view. When imported in a running Python interpreter, Pivy allows us to communicate directly with any running Coin scenegraph, such as the FreeCAD 3D views, or even to create new ones. Pivy is not required to compile FreeCAD, but it is required at runtime when running Python-based workbenches that creates shapes on screen, like Draft and Arch. Because of this, Pivy is normally installed when installing a distribution of FreeCAD.

The Coin library is divided into several pieces, Coin itself for manipulating scenegraphs, and bindings for several GUI systems, such as Windows or Qt. Those modules are available to Pivy too, depending if they are present on the system. The Coin module is always present, and it is what we will use anyway, since we won't need to care about anchoring our 3D display in any interface, it is already done by FreeCAD itself. All we need to do is this:

Accessing and modifying the scenegraph
We saw in the Scenegraph page how a typical Coin scene is organized. Everything that appears in a 3D view is a coin scenegraph, organized the same way. We have one root node, and all objects on the screen are its children.

FreeCAD has an easy way to access the root node of a 3D view scenegraph:

This will return the root node:

We can inspect the immediate children of our scene:

Some of those nodes, such as SoSeparators or SoGroups, can have children themselves. The complete list of the available coin objects can be found in the official coin documentation.

Let's try to add something to our scenegraph now. We'll add a nice red cube:

and here is our (nice) red cube. Now, let's try this:

See? everything is still accessible and modifiable on-the-fly. No need to recompute or redraw anything, coin takes care of everything. You can add stuff to your scenegraph, change properties, hide stuff, show temporary objects, anything. Of course, this only concerns the display in the 3D view. That display gets recomputed by FreeCAD on file open, and when an object needs recomputing. So, if you change the aspect of an existing FreeCAD object, those changes will be lost if the object gets recomputed or when you reopen the file.

A key to work with scenegraphs in your scripts is to be able to access certain properties of the nodes you added when needed. For example, if we wanted to move our cube, we would have added a SoTranslation node to our custom node, and it would have looked like this:

Remember that in an openInventor scenegraph, the order is important. A node affects what comes next, so you can say something like: color red, cube, color yellow, sphere, and you will get a red cube and a yellow sphere. If we added the translation now to our existing custom node, it would come after the cube, and not affect it. If we had inserted it when creating it, like here above, we could now do:

And our cube would jump 2 units to the right. Finally, removing something is done with:

Using callback mechanisms
A callback mechanism is a system that permits a library that you are using, such as our coin library, to call you back, that is, to call a certain function from your currently running python object. This is extremely useful, because that way coin can notify you if some specific event occurs in the scene. Coin can watch very different things, such as mouse position, clicks of a mouse button, keyboard keys being pressed, and many other things.

FreeCAD features an easy way to use such callbacks:

The callback has to be initiated from an object, because that object must still be running when the callback will occur. See also a complete list of possible events and their parameters, or the official Coin documentation.

Documentation
Unfortunately, Pivy itself doesn't have its own documentation. However, since it is an accurate wrapper of the Coin library, you can read the C++ reference for information. In this case, you need to translate the C++ class naming style to Python style.

In C++:

In Pivy:


 * Coin3d homepage
 * Pivy homepage
 * Coin Documentation, at University of Colorado
 * Coin Documentation, at BitBucket