.. _pythonreference: Python Reference ================ VapourSynth is separated into a core library and a Python module. This section explains how the core library is exposed through Python and some of the special things unique to Python scripting, such as slicing and output. .. note:: Any script executed through the vsscript api (that means vspipe, avfs, vsvfw or other API users) will have __name__ set to "__vapoursynth__" unlike normal Python scripts where it usually is "__main__". VapourSynth Structure ##################### Most operations in the VapourSynth library are performed through the core object. This core may load plugins, which all end up in their own unit, or namespace, so to say, to avoid naming conflicts in the contained functions. For this reason you call a plugin function with *core.unit.Function()*. All arguments to functions have names that are lowercase and all function names are CamelCase. Unit names are also lowercase and usually short. This is good to remember. Slicing and Other Syntactic Sugar ################################# The VideoNode class (always called "clip" in practice) supports the full range of indexing and slicing operations in Python. If you do perform a slicing operation on a clip, you will get a new clip back with the desired frames. Note that frame numbers, like python arrays, start counting at 0. Here are a few examples. Make a single frame clip containing frame number 5:: video = clip[5] Make a clip containing frames 6 to 9 (unlike Trim, the end value of python slicing is not inclusive):: video = clip[6:10] Select even numbered frames:: video = clip[::2] Select odd numbered frames:: video = clip[1::2] Negative step is also allowed, so this reverses a clip:: video = clip[::-1] It may all be combined at once to confuse people, just like normal Python slicing:: video = clip[-400:-800:-5] Filters can be chained with a dot, it mostly works like Avisynth:: clip = core.ffms2.Source("asdf.mov") clip = clip.std.Trim(first=100, last=2000).std.FlipVertical() The addition operator can be used to splice clips together:: clip4 = clip1 + clip2 + clip3 Which is equivalent to:: clip4 = core.std.Splice([core.std.Splice([clip1, clip2], mismatch=False), clip3], mismatch=False) The multiplication operator can be used to loop a clip:: clip = clip * 42 Which is equivalent to:: clip = core.std.Loop(clip, times=42) Note that multiplication by 0 is a special case that will repeat the clip up to the maximum frame count. Python Keywords as Filter Arguments ################################### If a filter's argument happens to be a Python keyword, you may prepend an underscore to the argument's name when invoking the filter. The Python module will strip one leading underscore from all filter arguments before passing them to the filters. :: clip = core.plugin.Filter(clip, _lambda=1) Another way to deal with such arguments is to place them in a dictionary:: args = { "lambda": 1 } clip = core.plugin.Filter(clip, **args) Windows File Paths (Strings With Backslashes) ############################################# If you have a string containing backslashes, you must either prefix the string with "r", or duplicate every single backslash. The reason is that the backslash is an escape character in Python. Incorrect; Python will think "\\A" and "\\G" are supposed to mean something special:: core.avs.LoadPlugin("B:\Avisynth plugins\GuavaComb.dll") Correct; Python will think "\\\\" means something special, namely a single backslash:: core.avs.LoadPlugin("B:\\Avisynth plugins\\GuavaComb.dll") Correct; Python will not consider any combination of characters special:: core.avs.LoadPlugin(r"B:\Avisynth plugins\GuavaComb.dll") Additionally, if the string is a Windows file path, it can also be written with forward slashes instead of backslashes:: core.avs.LoadPlugin("B:/Avisynth plugins/GuavaComb.dll") Output ###### The normal way of specifying the clip(s) to output is to call *clip.set_output()*. All standard VapourSynth components only use output index 0, except for vspipe where it's configurable but defaults to 0. There are also other variables that can be set to control how a format is output. For example, setting *enable_v210=True* changes the packing of the YUV422P10 format to one that is common in professional software (like Adobe products). An example on how to get v210 output:: some_clip = core.resize.Bicubic(clip, format=vs.YUV422P10) some_clip.set_output() enable_v210 = True Raw Access to Frame Data ######################## The VideoFrame class simply contains one picture and all the metadata associated with it. It is possible to access the raw data using ctypes and some persistence. The three relevant functions are *get_read_ptr(plane)*, *get_write_ptr(plane)*, and *get_stride(plane)*, all of which take the plane to access as an argument. Accessing the data is a bit trickier as *get_read_ptr()* and *get_write_ptr()* only return a pointer. To get a frame simply call *get_frame(n)* on a clip. Should you desire to get all frames in a clip, use this code:: for frame in clip.frames(): # Do stuff with your frame pass Classes and Functions ##################### .. py:attribute:: core Gets the singleton Core object. If it is the first time the function is called, the Core will be instantiated with the default options. This is the preferred way to reference the core. .. py:function:: get_core([threads = 0, add_cache = True]) Deprecated, use the *core* attribute instead. Get the singleton Core object. If it is the first time the function is called, the Core will be instantiated with the given options. If the Core has already been instantiated, all options are ignored. Setting *threads* to a value greater than zero overrides the autodetection. .. py:function:: set_message_handler(handler_func) Sets a function to handle all debug output and fatal errors. The function should have the form *handler(level, message)*, where level corresponds to the vapoursynth.mt constants. Passing *None* restores the default handler, which prints to stderr. .. py:function:: get_outputs() Return a read-only mapping of all outputs registered on the current node. The mapping will automatically update when a new output is registered. .. py:function:: get_output([index = 0]) Get a previously set output node. Throws an error if the index hasn't been set. Will return an AlphaOutputTuple when *alpha* was passed to *VideoNode.set_output*. .. py:function:: clear_output([index = 0]) Clears a clip previously set for output. .. py:function:: clear_outputs() Clears all clips set for output in the current environment. .. py:function:: construct_signature(signature[, injected=None]) Creates a *inspect.Signature* object for the given registration signature. If *injected* is not None, the default of the first argument of the signature will be replaced with the value supplied with injected. .. py:class:: Core The *Core* class uses a singleton pattern. Use the *core* attribute to obtain an instance. All loaded plugins are exposed as attributes of the core object. These attributes in turn hold the functions contained in the plugin. Use *get_plugins()* to obtain a full list of all currently loaded plugins you may call this way. .. py:attribute:: num_threads The number of concurrent threads used by the core. Can be set to change the number. Setting to a value less than one makes it default to the number of hardware threads. .. py:attribute:: add_cache For debugging purposes only. When set to *False* no caches will be automatically inserted between filters. .. py:attribute:: max_cache_size Set the upper framebuffer cache size after which memory is aggressively freed. The value is in megabytes. .. py:method:: set_max_cache_size(mb) Deprecated, use *max_cache_size* instead. .. py:method:: get_plugins() Returns a dict containing all loaded plugins and their functions. .. py:method:: list_functions() Works similar to *get_plugins()* but returns a human-readable string. .. py:method:: register_format(color_family, sample_type, bits_per_sample, subsampling_w, subsampling_h) Register a new Format object or obtain a reference to an existing one if it has already been registered. Invalid formats throw an exception. .. py:method:: get_format(id) Retrieve a Format object corresponding to the specified id. Returns None if there is no format with that *id*. .. py:method:: version() Returns version information as a string. .. py:method:: version_number() Returns the core version as a number. .. py:class:: VideoNode Represents a video clip. The class itself supports indexing and slicing to perform trim, reverse and selectevery operations. Several operators are also defined for the VideoNode class: addition appends clips and multiplication repeats them. Note that slicing and indexing always return a new VideoNode object and not a VideoFrame. .. py:attribute:: format A Format object describing the frame data. If the format can change between frames, this value is None. .. py:attribute:: width The width of the video. This value will be 0 if the width and height can change between frames. .. py:attribute:: height The height of the video. This value will be 0 if the width and height can change between frames. .. py:attribute:: num_frames The number of frames in the clip. .. py:attribute:: fps The framerate represented as a *Fraction*. It is 0/1 when the clip has a variable framerate. .. py:attribute:: fps_num Deprecated, use *fps.numerator* instead The numerator of the framerate. If the clip has variable framerate, the value will be 0. .. py:attribute:: fps_den Deprecated, use *fps.denominator* instead The denominator of the framerate. If the clip has variable framerate, the value will be 0. .. py:attribute:: flags Special flags set for this clip. This attribute should normally be ignored. .. py:method:: get_frame(n) Returns a VideoFrame from position *n*. .. py:method:: get_frame_async(n) Returns a concurrent.futures.Future-object which result will be a VideoFrame instance or sets the exception thrown when rendering the frame. *The future will always be in the running or completed state* .. py:method:: get_frame_async_raw(n, cb: callable) First form of this method. It will call the callback from another thread as soon as the frame is rendered. The `result`-value passed to the callback will either be a VideoFrame-instance on success or a Error-instance on failure. *This method is intended for glue code. For normal use, use get_frame_async instead.* :param n: The frame number :param cb: A callback in the form `cb(node, n, result)` .. py:method:: get_frame_async_raw(n, cb: Future[, wrapper: callable = None]) Second form of this method. It will take a Future-like object (including asyncio.Future or similar) and set its result or exception according to the result of the function. The optional `wrapper`-parameter is intended for calls like asyncio.EventLoop.call_soon_threadsafe in which all calls to its future-object must be wrapped. *This method is intended for glue code. For normal use, use get_frame_async instead.* :param n: The frame number :param cb: The future-object whose result will be set. :param wrapper: A wrapper-callback which is responsible for moving the result across thread boundaries. If not given, the result of the future will be set in a random thread. .. py:method:: set_output(index = 0, alpha = None) Set the clip to be accessible for output. This is the standard way to specify which clip(s) to output. All VapourSynth tools (vsvfw, vsfs, vspipe) use the clip in *index* 0. It's possible to specify an additional containing the *alpha* to output at the same time. Currently only vspipe takes *alpha* into consideration when outputting. .. py:method:: output(fileobj[, y4m = False, prefetch = 0, progress_update = None]) Write the whole clip to the specified file handle. It is possible to pipe to stdout by specifying *sys.stdout* as the file. YUV4MPEG2 headers will be added when *y4m* is true. The current progress can be reported by passing a callback function of the form *func(current_frame, total_frames)* to *progress_update*. The *prefetch* argument is only for debugging purposes and should never need to be changed. .. py:class:: AlphaOutputTuple This class is returned by get_output. If a *alpha* was passed to set_output, *get_output* will return an object of this type. .. py:attribute:: clip A VideoNode-instance containing the color planes. .. py:attribute:: alpha A VideoNode-instance containing the alpha planes. .. py:class:: VideoFrame This class represents a video frame and all metadata attached to it. .. py:attribute:: format A Format object describing the frame data. .. py:attribute:: width The width of the frame. .. py:attribute:: height The height of the frame. .. py:attribute:: readonly If *readonly* is True, the frame data and properties cannot be modified. .. py:attribute:: props This attribute holds all the frame's properties as a dict. They are also mapped as sub-attributes for compatibility with older scripts. .. py:method:: copy() Returns a writable copy of the frame. .. py:method:: get_read_ptr(plane) Returns a pointer to the raw frame data. The data may not be modified. .. py:method:: get_read_array(plane) Returns a memoryview of the frame data that's only valid as long as the VideoFrame object exists. The data may not be modified. .. py:method:: get_write_ptr(plane) Returns a pointer to the raw frame data. It may be modified using ctypes or some other similar python package. .. py:method:: get_write_array(plane) Returns a memoryview of the frame data that's only valid as long as the VideoFrame object exists. .. py:method:: get_stride(plane) Returns the stride between lines in a *plane*. .. py:class:: Format This class represents all information needed to describe a frame format. It holds the general color type, subsampling, number of planes and so on. The names map directly to the C API so consult it for more detailed information. .. py:attribute:: id A unique *id* identifying the format. .. py:attribute:: name A human readable name of the format. .. py:attribute:: color_family Which group of colorspaces the format describes. .. py:attribute:: sample_type If the format is integer or floating point based. .. py:attribute:: bits_per_sample How many bits are used to store one sample in one plane. .. py:attribute:: bytes_per_sample The actual storage is padded up to 2^n bytes for efficiency. .. py:attribute:: subsampling_w The subsampling for the second and third plane in the horizontal direction. .. py:attribute:: subsampling_h The subsampling for the second and third plane in the vertical direction. .. py:attribute:: num_planes The number of planes the format has. .. py:method:: replace(core=None, **kwargs) Returns a new format with the given modifications. The only supported attributes that can be replaced are `color_family`, `sample_type`, `bits_per_sample`, `subsampling_w`, `subsampling_h`. The optional `core`-parameter defines on which core the new format should be registered. This is usually not needed and defaults to the core of the current environment. .. py:class:: Plugin Plugin is a class that represents a loaded plugin and its namespace. .. py:attribute:: name The namespace of the plugin. .. py:method:: get_functions() Returns a dict containing all the functions in the plugin. You can access it by calling *core.std.get_functions()*. Replace *std* with the namespace of the plugin you want to query. .. py:method:: list_functions() Works similar to *get_functions()* but returns a human-readable string. .. py:class:: Function Function is a simple wrapper class for a function provided by a VapourSynth plugin. Its main purpose is to be called and nothing else. .. py:attribute:: name The function name. Identical to the string used to register the function. .. py:attribute:: plugin The *Plugin* object the function belongs to. .. py:attribute:: signature Raw function signature string. Identical to the string used to register the function. .. py:class:: Environment This class represents an environment. It is a context-manager allowing you to switch to this environment at will. But it is faster than using the equivalent evaluate_script-function as it does not impose additional exception handling. .. code:: env = vpy_current_environment() # sometime later with env: # Do stuff inside this env. .. py:function:: is_single() Returns True if the script is _not_ running inside a vsscript-Environment. If it is running inside a vsscript-Environment, it returns False. .. py:attribute:: env_id Return -1 if the script is not running inside a vsscript-Environment. Otherwise, it will return the current environment-id. .. py:attribute:: single See is_single() .. py:attribute:: alive Has the environment been destroyed by the underlying application? .. py:function:: vpy_current_environment() Returns an Environment-object representing the environment the script is currently running in. It will raise an error if we are currently not inside any script-environment while vsscript is being used. This function is intended for Python-based editors using vsscript. .. py:class:: Func Func is a simple wrapper class for VapourSynth VSFunc objects. Its main purpose is to be called and manage reference counting. .. py:exception:: Error The standard exception class. This exception is thrown on most errors encountered in VapourSynth. Color Family Constants ###################### The color family constants describe groups of formats and the basic way their color information is stored. You should be familiar with all of them apart from maybe *YCOCG* and *COMPAT*. The latter is a special junk category for non-planar formats. These are the declared constants in the module:: RGB YUV GRAY YCOCG COMPAT Format Constants ################ Format constants exactly describe a format. All common and even more uncommon formats have handy constants predefined so in practice no one should really need to register one of their own. These values are mostly used by the resizers to specify which format to convert to. The naming system is quite simple. First the color family, then the subsampling (only YUV has it) and after that how many bits per sample in one plane. The exception to this rule is RGB, which has the bits for all 3 planes added together. The long list of values:: GRAY8 GRAY16 GRAYH GRAYS YUV420P8 YUV422P8 YUV444P8 YUV410P8 YUV411P8 YUV440P8 YUV420P9 YUV422P9 YUV444P9 YUV420P10 YUV422P10 YUV444P10 YUV420P12 YUV422P12 YUV444P12 YUV420P14 YUV422P14 YUV444P14 YUV420P16 YUV422P16 YUV444P16 YUV444PH YUV444PS RGB24 RGB27 RGB30 RGB48 RGBH RGBS COMPATBGR32 COMPATYUY2 Sample Type Constants ##################### :: INTEGER FLOAT