# This is not a real module, it's simply an introductory text. """ Blender Python related features =============================== L{Back to Main Page} Introduction: ============= This page describes special features available to BPython scripts: - Command line mode is accessible with the '-P' and '-b' Blender options. - Registration allows scripts to become available from some pre-defined menus in Blender, like Import, Export, Wizards and so on. - Script links are Blender Texts (scripts) executed when a particular event (redraws, .blend file loading, saving, frame changed, etc.) occurs. Now there are also "Space Handlers" to draw onto or get events from a given space (only 3D View now) in some window. - Proper documentation data is used by the 'Scripts Help Browser' script to show help information for any registered script. Your own GUI can use this facility with the L{Blender.ShowHelp} function. - Configuration is for data in your script that can be tweaked according to user taste or needs. Like documentation, this is another helper functionality -- you don't need to provide a GUI yourself to edit config data. Command line usage: =================== Specifying scripts: ------------------- The '-P' option followed either by: - a script filename (full pathname if not in the same folder where you run the command); - the name of a Text in a .blend file (that must also be specified) will open Blender and immediately run the given script. Example:: # open Blender and execute the given script: blender -P script.py Passing parameters: ------------------- To pass parameters to the script you can: - write them to a file before running Blender, then make your script parse that file; - set environment variables and access them with the 'os' module: Examples with parameters being passed to the script via command line:: # execute a command like: myvar=value blender -P script.py # and in script.py access myvar with os.getenv # (os.environ and os.setenv are also useful): # script.py: import os val = os.getenv('myvar') # To pass multiple parameters, simply write them in sequence, # separated by spaces: myvar1=value1 myvar2=value2 mystr="some string data" blender -P script.py Background mode: ---------------- In '-b' mode no windows will be opened: the program will run as a command line tool able to render stills and animations and execute any working Python script with complete access to loaded .blend's file contents. Once the task is completed, the program will exit. Background mode examples:: # Open Blender in background mode with file 'myfile.blend' # and run the script 'script.py': blender -b myfile.blend -P script.py # Note: a .blend file is always required. 'script.py' can be a file # in the file system or a Blender Text stored in 'myfile.blend'. # Let's assume 'script.py' has code to render the current frame; # this line will set the [s]tart and [e]nd (and so the current) frame to # frame 44 and call the script: blender -b myfile.blend -s 44 -e 44 -P script.py # Using now a script written to render animations, we set different # start and end frames and then execute this line: blender -b myfile.blend -s 1 -e 10 -P script.py # Note: we can also set frames and define if we want a single image or # an animation in the script body itself, naturally. The rendered pictures will be written to the default render folder, that can also be set via bpython (take a look at L{Render.RenderData}). Their names will be the equivalent frame number followed by the extension of the chosen image type: 0001.png, for example. To rename them to something else, coders can use the C{rename} function in the standard 'os' Python module. Reminder: if you just need to render, it's not necessary to have a script. Blender can create stills and animations with its own command line arguments. Example: - a single image at frame 44: blender -b myfile.blend -f 44 - an animation from frame 1 to 10: blender -b myfile.blend -s 1 -e 10 -a Script links: ============= Object script links: -------------------- Users can link Blender Text scripts and objects to have the script code executed when specific events occur to the objects. For example, if a Camera has an script link set to "FrameChanged", the script will be executed whenever the current frame is changed. Links can either be manually added by users on the Buttons window -> Scripts tab or created by another script (see, for example, L{Object.addScriptLink}). These are the types which can be linked to scripts: - Camera Data; - Lamp Data; - Materials; - Objects; - Scenes; - Worlds. And these are the available event choices: - Redraw; - FrameChanged; - Render; - OnLoad (*); - OnSave (*). (*) only available for scenes There are three L{Blender} module variables that script link authors should be aware of: - B{bylink}: True if the script is running as a script link; - B{link}: the object the running script was linked to (None if this is not a script link); - B{event}: the event type, if the running script is being executed as a script link. Example:: #script link import Blender if Blender.bylink: # we're running as a script link print "Event: %s for %s" % (Blender.event, Blender.link) B{Important note about "Render" events}: Each "Render" script link is executed twice: before rendering and after, for reverting changes and for possible clean up actions. Before rendering, 'Blender.event' will be "Render" and after rendering it will be "PostRender". Example:: # render script link import Blender event = Blender.event if event == "Render": # prepare for rendering create_my_very_detailed_mesh_data() elif event == "PostRender": # done rendering, clean up delete_my_very_detailed_mesh_data() As suggested by the example above, this is specially useful for script links that need to generate data only useful while rendering, or in case they need to switch between two mesh data objects, one meant for realtime display and the other, more detailed, for renders. Space Handler script links: --------------------------- This is a new kind of script linked to spaces in a given window. Right now only the 3D View has the necessary hooks, but the plan is to add access to other types, too. Just to clarify naming conventions: in Blender, a screen is partitioned in windows (also called areas) and each window can show any space. Spaces are: 3D View, Text Editor, Scripts, Buttons, User Preferences, Oops, etc. Space handlers are texts in the Text Editor, like other script links, but they need to have a special header to be recognized -- B{I{the first line in the text file}} must inform: 1. that they are space handlers; 2. the space they belong to; 3. whether they are EVENT or DRAW handlers. Example header for a 3D View EVENT handler:: # SPACEHANDLER.VIEW3D.EVENT Example header for a 3D View DRAW handler:: # SPACEHANDLER.VIEW3D.DRAW Available space handlers can be toggled "on" or "off" in the space header's B{View->Space Handler Scripts} submenu, by the user. EVENT space handler scripts are called by that space's event handling callback in Blender. The script receives the event B{before} it is further processed by the program. An EVENT handler script should check Blender.event (compare it against L{Draw} events) and either: - process it (the script must set Blender.event to None then); - ignore it. Setting C{Blender.event = None} tells Blender not to go on processing itself the event, because it was grabbed by the script. Example:: # SPACEHANDLER.VIEW3D.EVENT import Blender from Blender import Draw evt = Blender.event return_it = False if evt == DRAW.LEFTMOUSE: print "Swallowing the left mouse button press" elif evt == DRAW.AKEY: print "Swallowing an 'a' character" else: print "Let the 3D View itself process this event:", evt return_it = True # if Blender should not process itself the passed event: if not return_it: Blender.event = None DRAW space handlers are called by that space's drawing callback in Blender. The script is called B{after} the space has been drawn. Two of the L{Blender} module variables related to script links assume different roles for space handlers: - B{bylink} is the same: True if the script is running as a script link; - B{link}: integer from the L{Blender}.SpaceHandlers constant dictionary, tells what space this handler belongs to and the handler's type (EVENT, DRAW); - B{event}: - EVENT handlers: an input event (check keys and mouse events in L{Draw}) to be processed or ignored. - DRAW handlers: 0 always. B{Guidelines (important)}: - EVENT handlers can access and change Blender objects just like any other script, but they should not draw to the screen, B{use a DRAW handler to do that}. Specifically: L{Draw.Image} and the L{BGL} drawing functions should not be used inside an EVENT handler. - DRAW handlers should leave the space in the same state it was before they were executed. OpenGL attributes and the modelview and projection matrices are automatically saved (pushed) before a DRAW handler runs and restored (poped) after it finishes, no need to worry about that. Draw handlers should not grab events; - If script handlers need to pass information to each other (for example an EVENT handler passing info to a DRAW handler), use the L{Registry} module. - in short: use the event handler to deal with events and the draw handler to draw and your script will be following the recommended practices for Blender code. Registering scripts: ==================== To be registered a script needs two things: - to be either in the default scripts dir or in the user defined scripts path (see User Preferences window -> File Paths tab -> Python path); - to have a proper header. Try 'blender -d' to know where your default dir for scripts is, it will inform either the dir or the file with that info already parsed, which is in the same dir of the scripts folder. The header should be like this one (all double and single apostrophes below are required):: #!BPY # \"\"\" # Name: 'Script Name' # Blender: 233 # Group: 'Export' # Submenu: 'All' all # Submenu: 'Selected' sel # Submenu: 'Configure (gui)' gui # Tooltip: 'Export to some format.' # \"\"\" where: - B{Name} is the string that will appear in the menu; - B{Blender} is the minimum program version required to run the script; - B{Group} defines where the script will be put, see all groups in the Scripts Window's header, menu "Scripts"; - B{Submenu} adds optional submenus for further control; - B{Tooltip} is the (short) tooltip string for the menu entry. note: - all double and single apostrophes above are required; - you can "comment out" the header above, by starting lines with '#', like we did. This is not required (except for the first line, #!BPY, of course), but this way the header won't conflict with Python tools that you can use to generate documentation for your script code. Just remember to keep this header above any other line with triple double-quotes (\"\"\") in your script. Submenu lines are not required, use them if you want to provide extra options. To see which submenu the user chose, check the "__script__" dictionary in your code: __script__['arg'] has the defined keyword (the word after the submenu string name: all, sel or gui in the example above) of the chosen submenu. For example, if the user clicked on submenu 'Selected' above, __script__['arg'] will be "sel". If your script requires extra data or configuration files, there is a special folder where they can be saved: see 'datadir' in L{Blender.Get}. Documenting scripts: ==================== The "Scripts Help Browser" script in the Help menu can parse special variables from registered scripts and display help information for users. For that, authors only need to add proper information to their scripts, after the registration header. The expected variables: - __bpydoc__ (or __doc__) (type: string): - The main help text. Write a first short paragraph explaining what the script does, then add the rest of the help text, leaving a blank line between each new paragraph. To force line breaks you can use
tags. - __author__ (type: string or list of strings): - Author name(s). - __version__ (type: string): - Script version. A good recommendation is using a version number followed by the date in the format YYYY/MM/DD: "1.0 2005/12/31". - __url__ (type: string or list of strings): - Internet links that are shown as buttons in the help screen. Clicking them opens the user's default browser at the specified location. The expected format for each url entry is e.g. "Author's site, http://www.somewhere.com". The first part, before the comma (','), is used as the button's tooltip. There are two preset options: "blender" and "elysiun", which link to the Python forums at blender.org and elysiun.com, respectively. - __email__ (optional, type: string or list of strings): - Equivalent to __url__, but opens the user's default email client. You can write the email as someone:somewhere*com and the help script will substitute accordingly: someone@somewhere.com. This is only a minor help to hide emails from spammers, since your script may be available at some site. "scripts" is the available preset, with the email address of the mailing list devoted to scripting in Blender, bf-scripts-dev@blender.org. You should only use this one if you are subscribed to the list: http://projects.blender.org/mailman/listinfo/bf-scripts-dev for more information. Example:: __author__ = 'Mr. Author' __version__ = '1.0 2005/01/01' __url__ = ["Author's site, http://somewhere.com", "Support forum, http://somewhere.com/forum/", "blender", "elysiun"] __email__ = ["Mr. Author, mrauthor:somewhere*com", "scripts"] __bpydoc__ = \"\"\"\\ This script does this and that. Explaining better, this script helps you create ... You can write as many paragraphs as needed. Shortcuts:
Esc or Q: quit.
etc. Supported:
Meshes, metaballs. Known issues:
This is just an example, there's no actual script. Notes:
You can check scripts bundled with Blender to see more examples of how to add documentation to your own works. \"\"\" B{Note}: your own GUI or menu code can display documentation by calling the help browser with the L{Blender.ShowHelp} function. Configuring scripts: ==================== The L{Blender.Registry} module provides a simplified way to keep scripts configuration options in memory and also saved in config files. And with the "Scripts Config Editor" script in the System menu users can later view and edit the options easily. Let's first clarify what we mean by config options: they are simple data (bools, ints, floats, strings) used by programs to conform to user preferences. The buttons in Blender's User Preferences window are a good example. For example, a particular exporter might include: - SEPARATE_MATS = False: a bool variable (True / False) to determine if it should write materials to a separate file; - VERSION = 2: an int to define an specific version of the export format; - TEX_DIR = "/path/to/textures": a default texture dir to prepend to all exported texture filenames instead of their actual paths. The script needs to provide users a GUI to configure these options -- or else directly editing the source code would be the only way to change them. And to store changes made to the GUI so they can be reloaded any time the script is executed, programmers have to write and load their own config files (ideally at L{Blender.Get}('udatadir') or, if not available, L{Blender.Get}('datadir')). This section describes BPython facilities (based on the L{Registry} module and the config editor) that can take care of this in a simplified (and much recommended) way. Here's how it works:: # sample_exporter.py import Blender from Blender import Registry # First define all config variables with their default values: SEPARATE_MATERIALS = True VERSION = True TEX_DIR = '' EXPORT_DIR = '' # Then define a function to update the Registry: def registry_update(): # populate a dict with current config values: d = { 'SEPARATE_MATERIALS': SEPARATE_MATERIALS, 'VERSION': VERSION, 'TEX_DIR': TEX_DIR, 'EXPORT_DIR': EXPORT_DIR } # store the key (optional 3rd arg tells if # the data should also be written to a file): Registry.SetKey('sample_exporter', d, True) # (A good convention is to use the script name as Registry key) # Now we check if our key is available in the Registry or file system: regdict = Registry.GetKey('sample_exporter', True) # If this key already exists, update config variables with its values: if regdict: try: SEPARATE_MATERIALS = regdict['SEPARATE_MATERIALS'] VERSION = regdict['VERSION'] TEX_DIR = regdict['TEX_DIR'] EXPORT_DIR = regdict['EXPORT_DIR'] # if data was corrupted (or a new version of the script changed # (expanded, removed, renamed) the config vars and users may have # the old config file around): except: update_registry() # rewrite it else: # if the key doesn't exist yet, use our function to create it: update_registry() # ... Hint: nicer code than the simplistic example above can be written by keeping config var names in a list of strings and using the exec function. B{Note}: if your script's GUI lets users change config vars, call the registry_update() function in the button events callback to save the changes. On the other hand, you don't need to handle configuration in your own gui, it can be left for the 'Scripts Config Editor', which should have access to your script's config key as soon as the above code is executed once (as soon as SetKey is executed). B{Note} (limits for config vars): strings longer than 300 characters are clamped and the number of items in dictionaries, sequences and the config key itself is limited to 60. Scripts Configuration Editor: ----------------------------- This script should be available from the System menu in the Scripts window. It provides a GUI to view and edit saved configuration data, both from the Registry dictionary in memory and the scripts config data dir. This is useful for all scripts with config vars, but specially for those without GUI's, like most importers and exporters, since this editor will provide one for them. The example above already gives a good idea of how the information can be prepared to be accessible from this editor, but there is more worth knowing: 1. String vars that end with '_dir' or '_file' (can be upper case, too) are recognized as input boxes for dirs or files and a 'browse' button is added to their right side, to call the file selector. 2. Both key names and configuration variables names starting with an underscore ('_') are ignored by the editor. Programmers can use this feature for any key or config var that is not meant to be configured by this editor. 3. The following information refers to extra config variables that may be added specifically to aid the configuration editor script. To clarify, in the example code above these variables (the string 'script' and the dictionaries 'tooltips' and 'limits') would appear along with SEPARATE_MATERIALS, VERSION, TEX_DIR and EXPORT_DIR, wherever they are written. Minor note: these names are case insensitive: tooltips, TOOLTIPS, etc. are all recognized. 3.1 The config editor will try to display a 'help' button for a key, to show documentation for the script that owns it. To find this "owner script", it will first look for a config variable called 'script', a string containing the name of the owner Python file (with or without '.py' extension):: script = 'sample_exporter.py' If there is no such variable, the editor will check if the file formed by the key name and the '.py' extension exists. If both alternatives fail, no help button will be displayed. 3.2 You can define tooltips for the buttons that the editor creates for your config data (string input, toggle, number sliders). Simply create a dict called 'tooltips', where config var names are keys and their tooltips, values:: tooltips = { 'EXPORT_DIR': 'default folder where exported files should be saved', 'VERBOSE': 'print info and warning messages to the console', 'SEPARATE_MATERIALS': 'write materials to their own file' } 3.3 Int and float button sliders need min and max limits. This can be passed to the editor via a dict called 'limits' (ivar1, ivar2 and fvar are meant as extra config vars that might have been in the example code above):: limits = {'ivar1': [-10, 10], 'ivar2': [0, 100], 'fvar1': [-12.3, 15.4]} 4. The Config Editor itself maintains a Registry key called "General", with general options relevant to many scripts, like "verbose" to tell if the user wants messages printed to the console and "confirm overwrite", to know if a script should ask for confirmation before overwriting files (all exporters are recommended to access the General key and check this var -- L{sys.exists } tells if files or folders already exist). Hint: for actual examples, try the ac3d importer and exporter (it's enough to call them from the menus then cancel with ESC), as those have been updated to use this config system. After calling them their config data will be available in the Config Editor. We also recommend adding a section about config vars in your script's help info, as done in the ac3d ones. L{Back to Main Page} =============================== """