lib/membrane/element/action.ex

defmodule Membrane.Element.Action do
  @moduledoc """
  This module contains type specifications of actions that can be returned
  from element callbacks.

  Returning actions is a way of element interaction with
  other elements and parts of framework. Each action may be returned by any
  callback unless explicitly stated otherwise.
  """

  alias Membrane.{Buffer, ChildNotification, Clock, Event, Pad, StreamFormat}

  @typedoc """
  Action that manages the end of the component setup.

  By default, component setup ends with the end of `c:Membrane.Element.Base.handle_setup/2` callback.
  If `{:setup, :incomplete}` is returned there, setup lasts until `{:setup, :complete}`
  is returned from antoher callback.

  Untils the setup lasts, the component won't enter `:playing` playback.
  """
  @type setup :: {:setup, :incomplete | :complete}

  @typedoc """
  Sends a message to the parent.
  """
  @type notify_parent :: {:notify_parent, ChildNotification.t()}

  @typedoc """
  Sends an event through a pad (input or output).

  Allowed only when playback is `playing`.
  """
  @type event :: {:event, {Pad.ref(), Event.t()}}

  @typedoc """
  Allows to split callback execution into multiple applications of another callback
  (called from now sub-callback).

  Executions are synchronous in the element process, and each of them passes
  subsequent arguments from the args_list, along with the element state (passed
  as the last argument each time).

  Return value of each execution of sub-callback can be any valid return value
  of the original callback (this also means sub-callback can return any action
  valid for the original callback, unless explicitly stated). Returned actions
  are executed immediately (they are NOT accumulated and executed after all
  sub-callback executions are finished).

  Useful when a long action is to be undertaken, and partial results need to
  be returned before entire process finishes.
  """
  @type split :: {:split, {callback_name :: atom, args_list :: [[any]]}}

  @typedoc """
  Sends stream format through a pad.

  The pad must have output direction. Sent stream format must fit constraints on the pad.

  Allowed only when playback is `playing`.
  """
  @type stream_format :: {:stream_format, {Pad.ref(), StreamFormat.t()}}

  @typedoc """
  Sends buffers through a pad.

  The pad must have output direction.

  Allowed only when playback is playing.
  """
  @type buffer :: {:buffer, {Pad.ref(), Buffer.t() | [Buffer.t()]}}

  @typedoc """
  Makes a demand on a pad.

  The pad must have input direction and work in `:manual` flow control mode. This action does NOT
  entail _sending_ demand through the pad, but just _requesting_ some amount
  of data from pad's internal queue, which _sends_ demands automatically when it
  runs out of data.
  If there is any data available at the pad, the data is passed to
  `c:Membrane.WithInputPads.handle_buffer/4` callback. Invoked callback is
  guaranteed not to receive more data than demanded.

  Demand size can be either a non-negative integer, that overrides existing demand,
  or a function that is passed current demand, and is to return the new demand. In case only pad
  is specified, the demand size defaults to 1.

  Allowed only when playback is playing.
  """
  @type demand :: {:demand, {Pad.ref(), demand_size} | Pad.ref()}
  @type demand_size :: pos_integer | (pos_integer() -> non_neg_integer())

  @typedoc """
  Pauses auto-demanding on the specific pad.

  The pad must have input direction and work in `:auto` flow control mode.

  This action does not guarantee that no more buffers will arrive on the specific pad,
  but ensures, that demand on this pad will not increase until returning
  `#{inspect(__MODULE__)}.resume_auto_demand()` action. Number of buffers, that will
  arrive on the pad, depends on the behaviour of the elements earlier in the pipeline.

  When auto-demanding is already paused, this action has no effect.
  """
  @type pause_auto_demand :: {:pause_auto_demand, Pad.ref() | [Pad.ref()]}

  @typedoc """
  Resumes auto-demanding on the specific pad.

  The pad must have input direction and work in `:auto` flow control mode.

  This action reverts the effects of `#{inspect(__MODULE__)}.pause_auto_demand()` action.

  When auto demanding is not paused, this action has no effect.
  """
  @type resume_auto_demand :: {:resume_auto_demand, Pad.ref() | [Pad.ref()]}

  @typedoc """
  Executes `c:Membrane.Element.WithOutputPads.handle_demand/5` callback
  for the given pad (or pads), that have demand greater than 0.

  The pad must have output direction and work in pull mode.

  ## Redemand in Sources and Endpoints

  In case of Sources and Endpoints, `:redemand` is just a helper that simplifies element's code.
  The element doesn't need to generate the whole demand synchronously at `handle_demand`
  or store current demand size in its state, but it can just generate one buffer
  and return `:redemand` action.
  If there is still one or more buffers to produce, returning `:redemand` triggers
  the next invocation of `handle_demand`. In such case, the element is to produce
  next buffer and call `:redemand` again.
  If there are no more buffers demanded, `handle_demand` is not invoked and
  the loop ends.
  One more advantage of the approach with `:redemand` action is that produced buffers
  are sent one after another in separate messages and this can possibly improve
  the latency.

  ## Redemand in Filters

  Redemand in Filters is useful in a situation where not the entire demand of
  output pad has been satisfied and there is a need to send a demand for additional
  buffers through the input pad.
  A typical example of this situation is a parser that has not demanded enough
  bytes to parse the whole frame.

  ## Usage limitations
  Allowed only when playback is playing.
  """
  @type redemand :: {:redemand, Pad.ref() | [Pad.ref()]}

  @typedoc """
  Sends buffers/stream format/event/end of stream to all output pads of element (or to input
  pads when event occurs on the output pad).

  Used by default implementations of
  `c:Membrane.Element.WithInputPads.handle_stream_format/4`,
  `c:Membrane.Element.Base.handle_event/4` and
  `c:Membrane.Element.WithInputPads.handle_end_of_stream/3` callbacks in filter.

  Allowed only when _all_ below conditions are met:
  - element is filter,
  - callback is `c:Membrane.Element.WithInputPads.handle_buffer/4`,
  `c:Membrane.Element.WithInputPads.handle_stream_format/4`,
  `c:Membrane.Element.Base.handle_event/4` or `c:Membrane.Element.WithInputPads.handle_end_of_stream/3`
  - playback is `playing`

  Keep in mind that `c:Membrane.WithInputPads.handle_buffer/4` can only
  forward buffers, `c:Membrane.Element.WithInputPads.handle_stream_format/4` - stream formats.
  `c:Membrane.Element.Base.handle_event/4` - events and
  `c:Membrane.Element.WithInputPads.handle_end_of_stream/3` - ends of streams.
  """
  @type forward ::
          {:forward, Buffer.t() | [Buffer.t()] | StreamFormat.t() | Event.t() | :end_of_stream}

  @typedoc """
  Starts a timer that will invoke `c:Membrane.Element.Base.handle_tick/3` callback
  every `interval` according to the given `clock`.

  The timer's `id` is passed to the `c:Membrane.Element.Base.handle_tick/3`
  callback and can be used for changing its interval via `t:timer_interval/0`
  or stopping it via `t:stop_timer/0`.

  If `interval` is set to `:no_interval`, the timer won't issue any ticks until
  the interval is set with `t:timer_interval/0` action.

  If no `clock` is passed, parent's clock is chosen.

  Timers use `Process.send_after/3` under the hood.
  """
  @type start_timer ::
          {:start_timer,
           {timer_id :: any, interval :: Ratio.t() | Membrane.Time.non_neg() | :no_interval}
           | {timer_id :: any, interval :: Ratio.t() | Membrane.Time.non_neg() | :no_interval,
              clock :: Clock.t()}}

  @typedoc """
  Changes interval of a timer started with `t:start_timer/0`.

  Permitted only from `c:Membrane.Element.Base.handle_tick/3`, unless the interval
  was previously set to `:no_interval`.

  If the `interval` is `:no_interval`, the timer won't issue any ticks until
  another `t:timer_interval/0` action. Otherwise, the timer will issue ticks every
  new `interval`. The next tick after interval change is scheduled at
  `new_interval + previous_time`, where previous_time is the time of the latest
  tick or the time of returning `t:start_timer/0` action if no tick has been
  sent yet. Note that if `current_time - previous_time > new_interval`, a burst
  of `div(current_time - previous_time, new_interval)` ticks is issued immediately.
  """
  @type timer_interval ::
          {:timer_interval,
           {timer_id :: any, interval :: Ratio.t() | Membrane.Time.non_neg() | :no_interval}}

  @typedoc """
  Stops a timer started with `t:start_timer/0` action.

  This action is atomic: stopping timer guarantees that no ticks will arrive from it.
  """
  @type stop_timer :: {:stop_timer, timer_id :: any}

  @typedoc """
  This action sets the latency for the element.

  This action is permitted only in callback `c:Membrane.Element.Base.handle_init/2`.
  """
  @type latency :: {:latency, latency :: Membrane.Time.non_neg()}

  @typedoc """
  Marks that processing via a pad (output) has been finished and the pad instance
  won't be used anymore.

  Triggers `end_of_stream/3` callback at the receiver element.
  Allowed only when playback is in playing state.
  """
  @type end_of_stream :: {:end_of_stream, Pad.ref()}

  @typedoc """
  Terminates element with given reason.

  Termination reason follows the OTP semantics:
  - Use `:normal` for graceful termination. Allowed only when the parent already requested termination,
    i.e. after `c:Membrane.Element.Base.handle_terminate_request/2` is called
  - If reason is neither `:normal`, `:shutdown` nor `{:shutdown, term}`, an error is logged
  """
  @type terminate :: {:terminate, reason :: :normal | :shutdown | {:shutdown, term} | term}

  @typedoc """
  Action that can be always returned from each of the callbacks.
  """
  @type common_actions ::
          notify_parent | start_timer | timer_interval | stop_timer | terminate | split

  @typedoc """
  Actions that can be returned from callbacks when the element is in `playback: :playing` state.
  """
  @type stream_actions ::
          event
          | stream_format
          | buffer
          | demand
          | pause_auto_demand
          | resume_auto_demand
          | end_of_stream
          | redemand

  @typedoc """
  Type that defines a union of actions that may be returned from most of the callbacks.

  Depending on element type, callback, current playback and other
  circumstances there may be different actions available.
  Check the typespec and documentation of particular callbacks
  for details.
  """
  @type t :: common_actions | stream_actions | latency | forward | setup
end