defmodule Membrane.Testing.Source do @moduledoc """ Testing Element for supplying data based on generator function or payloads passed through options. ## Example usage As mentioned earlier you can use this element in one of two ways, providing either a generator function or an `Enumerable.t`. If you provide an `Enumerable.t` with payloads, then each of those payloads will be wrapped in a `Membrane.Buffer` and sent through `:output` pad. ``` %Source{output: [0xA1, 0xB2, 0xC3, 0xD4]} ``` In order to specify `Membrane.Testing.Source` with generator function you need to provide initial state and function that matches `t:generator/0` type. This function should take state and demand size as its arguments and return a tuple consisting of actions that element will return during the `c:Membrane.Element.WithOutputPads.handle_demand/5` callback and new state. ``` generator_function = fn state, size -> #generate some buffers {actions, state + 1} end %Source{output: {1, generator_function}} ``` """ use Membrane.Source alias Membrane.Buffer alias Membrane.Element.Action @type generator :: (state :: any(), buffers_cnt :: pos_integer -> {[Action.t()], state :: any()}) def_output_pad :output, caps: :any def_options output: [ spec: {initial_state :: any(), generator} | Enum.t(), default: {0, &__MODULE__.default_buf_gen/2}, description: """ If `output` is an enumerable with `Membrane.Payload.t()` then buffer containing those payloads will be sent through the `:output` pad and followed by `t:Membrane.Element.Action.end_of_stream_t/0`. If `output` is a `{initial_state, function}` tuple then the the function will be invoked each time `handle_demand` is called. It is an action generator that takes two arguments. The first argument is the state that is initially set to `initial_state`. The second one defines the size of the demand. Such function should return `{actions, next_state}` where `actions` is a list of actions that will be returned from `handle_demand/4` and `next_state` is the value that will be used for the next call. """ ], caps: [ spec: struct(), default: %Membrane.RemoteStream{}, description: """ Caps to be sent before the `output`. """ ] @impl true def handle_init(opts) do opts = Map.from_struct(opts) case opts.output do {initial_state, generator} when is_function(generator) -> {:ok, opts |> Map.merge(%{generator_state: initial_state, output: generator})} _enumerable_output -> {:ok, opts} end end @impl true def handle_prepared_to_playing(_ctx, state) do {{:ok, caps: {:output, state.caps}}, state} end @impl true def handle_demand(:output, size, :buffers, _ctx, state) do {actions, state} = get_actions(state, size) {{:ok, actions}, state} end @spec default_buf_gen(integer(), integer()) :: {[Action.t()], integer()} def default_buf_gen(generator_state, size) do buffers = generator_state..(size + generator_state - 1) |> Enum.map(fn generator_state -> %Buffer{payload: <>} end) action = [buffer: {:output, buffers}] {action, generator_state + size} end @doc """ Creates output with generator function from list of buffers. """ @spec output_from_buffers([Buffer.t()]) :: {[Buffer.t()], generator()} def output_from_buffers(data) do fun = fn state, size -> {buffers, leftover} = Enum.split(state, size) buffer_action = [{:buffer, {:output, buffers}}] event_action = if leftover == [], do: [end_of_stream: :output], else: [] to_send = buffer_action ++ event_action {to_send, leftover} end {data, fun} end defp get_actions(%{generator_state: generator_state, output: actions_generator} = state, size) when is_function(actions_generator) do {actions, generator_state} = actions_generator.(generator_state, size) {actions, %{state | generator_state: generator_state}} end defp get_actions(%{output: output} = state, size) do {payloads, output} = Enum.split(output, size) buffers = Enum.map(payloads, &%Buffer{payload: &1}) actions = case output do [] -> [buffer: {:output, buffers}, end_of_stream: :output] _non_empty -> [buffer: {:output, buffers}] end {actions, %{state | output: output}} end end