Python Console
The Python Console is a quick way to execute commands,
with access to the entire Python API, command history and auto-complete.
The command prompt is typical for Python 3.x,
the interpreter is loaded and is ready to accept commands at the prompt >>>
.
The Python Console is a good way to explore the possibilities of Blender built-in Python. The Python Console can be used to test small bits of Python code which can then be pasted into larger scripts.
Interface
Main View
Key Bindings
Left / Right – Cursor motion.
Ctrl-Left / Ctrl-Right – Cursor motion, by word.
Backspace / Delete – Erase characters.
Ctrl-Backspace / Ctrl-Delete – Erase words.
Return – Execute command.
Shift-Return – Add to command history without executing.
Usage
Aliases
Some variables and modules are available for convenience:
C
: Quick access tobpy.context
.D
: Quick access tobpy.data
.bpy
: Top level Blender Python API module.
First Look at the Console Environment
To check what is loaded into the interpreter environment, type dir()
at the prompt and execute it.
Auto Completion
Now, type bpy.
and then press Tab and you will see the Console
auto-complete feature in action.
You will notice that a list of submodules inside of bpy
appear. These modules encapsulate all
that we can do with Blender Python API and are very powerful tools.
Lets list all the contents of bpy.app
module.
Notice the green output above the prompt where you enabled auto-completion.
What you see is the result of auto completion listing.
In the above listing all are module attributed names,
but if you see any name end with (
, then that is a function.
We will make use of this a lot to help our learning the API faster.
Now that you got a hang of this, lets proceed to investigate some of modules in bpy
.
Before Tinkering with the Modules
If you look at the 3D Viewport in the default Blender scene, you will notice three objects: Cube, Light and Camera.
All objects exist in a context and there can be various modes under which they are operated upon.
At any instance, only one object is active and there can be more than one selected object.
All objects are data in the blend-file.
There are operators/functions that create and modify these objects.
For all the scenarios listed above (not all were listed, mind you…)
the bpy
module provides functionality to access and modify data.
Examples
bpy.context
Muista
For the commands below to show the proper output, make sure you have selected object(s) in the 3D Viewport.
bpy.context.mode
Will print the current 3D Viewport mode (Object, Edit, Sculpt, etc.).
bpy.context.object
orbpy.context.active_object
Will give you access to the active object in the 3D Viewport.
Change the X location to a value of 1:
bpy.context.object.location.x = 1
Move the object from previous X location by 0.5 unit:
bpy.context.object.location.x += 0.5
Change the X, Y, Z location:
bpy.context.object.location = (1, 2, 3)
Change only the X, Y components:
bpy.context.object.location.xy = (1, 2)
The data type of object’s location:
type(bpy.context.object.location)
Now that is a lot of data that you have access to:
dir(bpy.context.object.location)
bpy.context.selected_objects
Will give access to a list of all selected objects.
Type this and then press Tab:
bpy.context.selected_objects
To print out the name of first object in the list:
bpy.context.selected_objects[0]
The complex one… But this prints a list of objects not including the active object:
[obj for obj in bpy.context.selected_objects if obj != bpy.context.object]
bpy.data
bpy.data
has functions and attributes that give you access to all the data in the blend-file.
You can access following data in the current blend-file: objects, meshes, materials, textures, scenes, screens, sounds, scripts, etc.
That is a lot of data.
bpy.ops
The tool system is built around the concept of operators. Operators are typically executed from buttons or menus but can be called directly from Python too.
See the bpy.ops API documentation for a list of all operators.