Move all code into musicplayer module

Extract reading of input i/o to input
And add the ability of other modules to listen to either the final result (a `Key`) or tap into the input as it is read
2025-11-22 19:03:49 +01:00 · 2025-11-21 20:06:39 +01:00 · 2025-11-19 18:27:30 +01:00 · 2025-11-19 18:27:30 +01:00 · 2025-11-19 18:27:30 +01:00 · 2025-11-19 17:46:58 +01:00
19 changed files with 685 additions and 106 deletions
--- a/gleam.toml
+++ b/gleam.toml
@@ -14,6 +14,10 @@ version = "1.0.0"
 [dependencies]
 gleam_stdlib = ">= 0.44.0 and < 2.0.0"
 gleam_otp = ">= 1.2.0 and < 2.0.0"
 gleam_erlang = ">= 1.3.0 and < 2.0.0"
 simplifile = ">= 2.3.1 and < 3.0.0"
 gleam_json = ">= 3.1.0 and < 4.0.0"
 [dev-dependencies]
 gleeunit = ">= 1.0.0 and < 2.0.0"
--- a/manifest.toml
+++ b/manifest.toml
@@ -2,10 +2,19 @@
 # You typically do not need to edit this file
 packages = [
  { name = "filepath", version = "1.1.2", build_tools = ["gleam"], requirements = ["gleam_stdlib"], otp_app = "filepath", source = "hex", outer_checksum = "B06A9AF0BF10E51401D64B98E4B627F1D2E48C154967DA7AF4D0914780A6D40A" },
  { name = "gleam_erlang", version = "1.3.0", build_tools = ["gleam"], requirements = ["gleam_stdlib"], otp_app = "gleam_erlang", source = "hex", outer_checksum = "1124AD3AA21143E5AF0FC5CF3D9529F6DB8CA03E43A55711B60B6B7B3874375C" },
  { name = "gleam_json", version = "3.1.0", build_tools = ["gleam"], requirements = ["gleam_stdlib"], otp_app = "gleam_json", source = "hex", outer_checksum = "44FDAA8847BE8FC48CA7A1C089706BD54BADCC4C45B237A992EDDF9F2CDB2836" },
  { name = "gleam_otp", version = "1.2.0", build_tools = ["gleam"], requirements = ["gleam_erlang", "gleam_stdlib"], otp_app = "gleam_otp", source = "hex", outer_checksum = "BA6A294E295E428EC1562DC1C11EA7530DCB981E8359134BEABC8493B7B2258E" },
  { name = "gleam_stdlib", version = "0.65.0", build_tools = ["gleam"], requirements = [], otp_app = "gleam_stdlib", source = "hex", outer_checksum = "7C69C71D8C493AE11A5184828A77110EB05A7786EBF8B25B36A72F879C3EE107" },
  { name = "gleeunit", version = "1.9.0", build_tools = ["gleam"], requirements = ["gleam_stdlib"], otp_app = "gleeunit", source = "hex", outer_checksum = "DA9553CE58B67924B3C631F96FE3370C49EB6D6DC6B384EC4862CC4AAA718F3C" },
  { name = "simplifile", version = "2.3.1", build_tools = ["gleam"], requirements = ["filepath", "gleam_stdlib"], otp_app = "simplifile", source = "hex", outer_checksum = "957E0E5B75927659F1D2A1B7B75D7B9BA96FAA8D0C53EA71C4AD9CD0C6B848F6" },
 ]
 [requirements]
 gleam_erlang = { version = ">= 1.3.0 and < 2.0.0" }
 gleam_json = { version = ">= 3.1.0 and < 4.0.0" }
 gleam_otp = { version = ">= 1.2.0 and < 2.0.0" }
 gleam_stdlib = { version = ">= 0.44.0 and < 2.0.0" }
 gleeunit = { version = ">= 1.0.0 and < 2.0.0" }
 simplifile = { version = ">= 2.3.1 and < 3.0.0" }
--- a/src/musicplayer.gleam
+++ b/src/musicplayer.gleam
@@ -1,41 +1,22 @@
-import gleam/io
+import gleam/erlang/process.{type Name}
-import tcp/reason
+import musicplayer/input/input.{type Listener}
-import tcp/tcp
+import musicplayer/input/key.{type Key}
 import musicplayer/mpv/mpv
 pub fn main() -> Nil {
-  let socket_path = "/tmp/musicplayer.sock"
+  let exit = process.new_subject()
-  case tcp.connect(socket_path) {
+  // `inject_input` is created by name to allow the `input` process that
-    Error(r) ->
+  // owns `read_input` to be able to register and receive from it,
-      io.println("Failed to connect to socket: " <> reason.to_string(r))
+  //  while the any other processes can use the name reference to
-    Ok(socket) -> {
+  // inject input
-      io.println("connected")
+  let inject_input_name: Name(Key) = process.new_name("inject_input")
-      let messages = ["hello, \n", "world!\n"]
+  let assert Ok(mpv_listener) = mpv.new(exit)
-      messages |> send_messages(socket, _)
+  let listeners: List(Listener) = [mpv_listener]
-      io.println("closing")
+  input.new(listeners, inject_input_name)
-      tcp.close(socket)
+  process.receive_forever(exit)
    }
  }
 }
 fn send_messages(socket: tcp.Socket, messages: List(String)) -> Nil {
  case messages {
    [] -> Nil
    [message, ..rest] -> {
      send_message(socket, message)
      send_messages(socket, rest)
    }
  }
 }
 fn send_message(socket: tcp.Socket, message: String) -> Nil {
  case tcp.send(socket, message) {
    Error(r) ->
      io.println("Failed to send message to socket: " <> reason.to_string(r))
    Ok(_) -> io.println("Sent message to socket")
  }
 }
--- a/src/musicplayer/input/input.gleam
+++ b/src/musicplayer/input/input.gleam
@@ -0,0 +1,59 @@
 import gleam/erlang/process.{type Name, type Subject}
 import gleam/list
 import gleam/option.{type Option, None, Some}
 import musicplayer/input/key.{type Key}
 pub type Listener {
  InputListener(final: Subject(Key), tap: Option(Subject(List(String))))
 }
 /// `new` accepts a list of listeners that are composed of two subjects;
 ///   - one to get the final `Key` and
 ///   - one to tap the input as it is read from i/o
 /// and
 ///   - a subject name that is used to create a `Subject` that other processes
 ///     know they can inject a `Key` into the input with
 pub fn new(listeners: List(Listener), inject_input_name: Name(Key)) -> Nil {
  let _ =
    process.spawn(fn() {
      let inject_input: Subject(Key) = process.named_subject(inject_input_name)
      let assert Ok(_) = process.register(process.self(), inject_input_name)
      // Extract all finals and taps (that are defined)
      let #(finals, taps) =
        list.fold(listeners, #([], []), fn(acc, listener) {
          let #(finals, taps) = acc
          let finals = [listener.final, ..finals]
          let taps = case listener.tap {
            Some(t) -> [t, ..taps]
            None -> taps
          }
          #(finals, taps)
        })
      read_input(finals, taps, inject_input)
    })
  Nil
 }
 fn read_input(
  finals: List(Subject(Key)),
  taps: List(Subject(List(String))),
  inject_input: Subject(Key),
 ) -> Nil {
  let buffer = case process.receive(inject_input, 1) {
    Ok(key.Continue(buffer)) -> buffer
    Ok(_) | Error(_) -> []
  }
  let _ =
    key.read_input_until_key(buffer, taps)
    |> fn(k) { list.each(finals, process.send(_, k)) }
  read_input(finals, taps, inject_input)
 }
--- a/src/musicplayer/input/internal.gleam
+++ b/src/musicplayer/input/internal.gleam
@@ -0,0 +1,15 @@
 import gleam/erlang/atom
 pub fn read_input() -> String {
  io_get_chars("", 1)
 }
 pub type NotUsed
 // https://www.erlang.org/doc/apps/stdlib/shell.html#start_interactive/1
@external(erlang, "shell", "start_interactive")
 pub fn shell_start_interactive(options: #(atom.Atom, atom.Atom)) -> NotUsed
 // https://www.erlang.org/doc/apps/stdlib/io.html#get_chars/2
@external(erlang, "io", "get_chars")
 fn io_get_chars(prompt: String, count: Int) -> String
--- a/src/musicplayer/input/key.gleam
+++ b/src/musicplayer/input/key.gleam
@@ -0,0 +1,79 @@
 import gleam/erlang/atom
 import gleam/erlang/process.{type Subject}
 import gleam/list
 import gleam/string
 import musicplayer/input/internal as internal_input
 pub type Key {
  Char(String)
  Input(String)
  Left
  Right
  Up
  Down
  Continue(buffer: List(String))
  Unknown
 }
 pub const esc = "\u{001B}"
 // control sequence introducer
 pub const csi = "["
 // input introducer
 pub const input_introducer = "::"
 pub fn from_list(l: List(String)) -> Key {
  case l {
    [e, c, "D"] if e == esc && c == csi -> Left
    [e, c, "C"] if e == esc && c == csi -> Right
    [e, c, "A"] if e == esc && c == csi -> Up
    [e, c, "B"] if e == esc && c == csi -> Down
    [e, c] if e == esc && c == csi -> Continue(l)
    [ci] | [ci, _] if ci == input_introducer -> Continue(l)
    [ii, cmd, tail] if ii == input_introducer -> {
      case tail {
        // Return
        "\r" -> Input(cmd)
        // Backspace
        "\u{007F}" -> Continue([ii, string.drop_end(cmd, 1)])
        _ -> Continue([ii, cmd <> tail])
      }
    }
    [e] if e == esc -> Continue(l)
    [char] -> Char(char)
    [] -> Continue([])
    _ -> Unknown
  }
 }
 pub fn start_raw_shell() {
  let no_shell = atom.create("noshell")
  let raw = atom.create("raw")
  internal_input.shell_start_interactive(#(no_shell, raw))
 }
 pub fn read_input_until_key(
  l: List(String),
  taps: List(Subject(List(String))),
 ) -> Key {
  case
    internal_input.read_input()
    |> list.wrap
    |> list.append(l, _)
    |> from_list
  {
    Continue(l) -> {
      list.each(taps, process.send(_, l))
      read_input_until_key(l, taps)
    }
    k -> k
  }
 }
--- a/src/musicplayer/mpv/control.gleam
+++ b/src/musicplayer/mpv/control.gleam
@@ -0,0 +1,74 @@
 import gleam/json
 import gleam/result
 import gleam/string
 import musicplayer/input/key.{type Key}
 import musicplayer/mpv/internal as internal_control
 import musicplayer/tcp/reason.{type Reason}
 import musicplayer/tcp/tcp.{type Socket}
 pub type Control {
  TogglePlayPause
  Exit
 }
 pub type ControlError {
  ControlError(details: String)
 }
 pub fn from_key(key: Key) -> Result(Control, Nil) {
  case key {
    key.Char(char) -> char_control(char)
    _ -> Error(Nil)
  }
 }
 fn char_control(char: String) -> Result(Control, Nil) {
  case char {
    " " -> Ok(TogglePlayPause)
    "q" -> Ok(Exit)
    _ -> Error(Nil)
  }
 }
 pub fn toggle_play_pause(socket: Socket) -> Result(Nil, ControlError) {
  let command =
    json.object([#("command", json.array(["cycle", "pause"], of: json.string))])
  case send_command(socket, command) {
    Error(r) -> Error(ControlError(reason.to_string(r)))
    Ok(_) -> Ok(Nil)
  }
 }
 // https://mpv.io/manual/master/#command-interface-playback-time
 pub type PlaybackTime {
  PlaybackTime(data: Float)
 }
 pub fn get_playback_time(socket: Socket) -> Result(PlaybackTime, ControlError) {
  let command =
    json.object([
      #(
        "command",
        json.array(["get_property_string", "playback-time"], of: json.string),
      ),
    ])
  case send_command(socket, command) {
    Error(r) -> Error(ControlError(reason.to_string(r)))
    Ok(json_string) ->
      case internal_control.parse_playback_time(json_string) {
        Error(e) -> Error(ControlError(string.inspect(e)))
        Ok(data) -> Ok(PlaybackTime(data))
      }
  }
 }
 fn send_command(socket: Socket, command: json.Json) -> Result(String, Reason) {
  result.try(tcp.send(socket, json.to_string(command) <> "\n"), fn(_) {
    let timeout_ms = 10_000
    tcp.receive(socket, timeout_ms)
  })
 }
--- a/src/musicplayer/mpv/internal.gleam
+++ b/src/musicplayer/mpv/internal.gleam
@@ -0,0 +1,25 @@
 import gleam/dynamic/decode
 import gleam/float
 import gleam/json
 import gleam/string
 pub fn parse_playback_time(
  json_string: String,
 ) -> Result(Float, json.DecodeError) {
  let decoder = {
    let float_dececoder = fn(data_string) {
      case float.parse(data_string) {
        Error(_) -> decode.failure(0.0, "data")
        Ok(float_value) -> decode.success(float_value)
      }
    }
    use data <- decode.field(
      "data",
      decode.then(decode.string, float_dececoder),
    )
    decode.success(data)
  }
  json.parse(from: string.trim(json_string), using: decoder)
 }
--- a/src/musicplayer/mpv/mpv.gleam
+++ b/src/musicplayer/mpv/mpv.gleam
@@ -0,0 +1,89 @@
 import gleam/erlang/process.{type Subject}
 import gleam/float
 import gleam/option.{None}
 import gleam/otp/actor
 import gleam/result
 import gleam/string
 import musicplayer/input/input.{type Listener, InputListener}
 import musicplayer/input/key.{type Key}
 import musicplayer/mpv/control.{type Control}
 import musicplayer/tcp/reason
 import musicplayer/tcp/tcp.{type Socket}
 type State(socket, exit) {
  State(socket: Socket, exit: Subject(Nil))
 }
 pub fn new(exit: Subject(Nil)) -> Result(Listener, String) {
  // TODO start up mvp here, currently hi-jacking `naviterm`s socket
  let socket_path = "/tmp/naviterm_mpv"
  case tcp.connect(socket_path) {
    Error(r) -> Error("Could not connect to mpv: " <> reason.to_string(r))
    Ok(socket) -> {
      let final_input_name = process.new_name("mpv_final_input")
      let final_input: Subject(Key) = process.named_subject(final_input_name)
      case
        actor.new(State(socket, exit))
        |> actor.on_message(handle_message)
        |> actor.start
      {
        Error(start_error) ->
          Error("Could not start actor: " <> string.inspect(start_error))
        Ok(actor.Started(data:, ..)) -> {
          echo "waiting for input"
          key.start_raw_shell()
          process.spawn(fn() {
            let assert Ok(_) =
              process.register(process.self(), final_input_name)
            handle_key(final_input, data)
          })
          Ok(InputListener(final: final_input, tap: None))
        }
      }
    }
  }
 }
 fn handle_message(
  state: State(socket, exit),
  control: Control,
 ) -> actor.Next(State(socket, exit), Control) {
  case control {
    control.TogglePlayPause -> {
      echo "toggling play/pause"
      let _ =
        result.map_error(control.toggle_play_pause(state.socket), fn(err) {
          echo "Could not toggle play/pause: " <> err.details
        })
      let _ =
        result.map(control.get_playback_time(state.socket), fn(playback) {
          echo "playback: " <> float.to_string(playback.data)
        })
      actor.continue(state)
    }
    control.Exit -> {
      process.send(state.exit, Nil)
      actor.stop()
    }
  }
 }
 /// `handle_key` listens to a subject onto which `input` will send messages with
 /// parsed `Key`s which will be mapped to `Control`s (if possible)
 fn handle_key(final_input: Subject(Key), subject: Subject(Control)) -> Nil {
  let _ =
    process.receive_forever(final_input)
    |> control.from_key
    |> result.map(process.send(subject, _))
  handle_key(final_input, subject)
 }
--- a/src/musicplayer/tcp/reason.gleam
+++ b/src/musicplayer/tcp/reason.gleam
--- a/src/musicplayer/tcp/tcp.gleam
+++ b/src/musicplayer/tcp/tcp.gleam
@@ -0,0 +1,117 @@
 import gleam/bit_array
 import gleam/erlang/atom
 import gleam/result
 import musicplayer/tcp/reason.{type Reason}
 pub type Socket
 // https://www.erlang.org/doc/apps/kernel/inet#t:address_family/0
 // local socket
 type Local {
  Local(socket_path: String)
 }
 type ModeValue {
  Binary
 }
 type TCPOption {
  Active(Bool)
  Mode(ModeValue)
  Reuseaddr(Bool)
  Ifaddr(Local)
  ExitOnClose(Bool)
 }
 pub fn listen(socket_path: String) -> Result(Socket, Reason) {
  let options = [
    Mode(Binary),
    Active(False),
    Reuseaddr(True),
    Ifaddr(Local(socket_path)),
    ExitOnClose(False),
  ]
  // port zero with `local` address
  let port = 0
  gen_tcp_listen(port, options)
 }
 pub fn accept(listen_socket: Socket) -> Result(Socket, Reason) {
  gen_tcp_accept(listen_socket)
 }
 pub fn receive(socket: Socket, timeout: Int) -> Result(String, Reason) {
  // Get all bytes
  let length = 0
  use bits <- result.try(gen_tcp_recv(socket, length, timeout))
  case bits |> bit_array.to_string {
    // TODO what error is best?
    Error(_) -> Error(reason.Ebadmsg)
    Ok(s) -> Ok(s)
  }
 }
 pub fn connect(socket_path: String) -> Result(Socket, Reason) {
  let options = [Mode(Binary), Active(False)]
  // port zero with `local` address
  let port = 0
  // timeout in ms
  let timeout = 1000
  gen_tcp_connect(Local(socket_path), port, options, timeout)
 }
 pub fn send(socket: Socket, message: String) -> Result(Nil, Reason) {
  gen_tcp_send(socket, bit_array.from_string(message))
 }
 pub fn close(socket: Socket) -> Nil {
  gen_tcp_close(socket)
 }
 pub fn shutdown(socket: Socket) -> Result(Nil, Reason) {
  let how = atom.create("write")
  gen_tcp_shutdown(socket, how)
 }
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#listen/2
@external(erlang, "gen_tcp", "listen")
 fn gen_tcp_listen(port: Int, option: List(TCPOption)) -> Result(Socket, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#accept/1
@external(erlang, "gen_tcp", "accept")
 fn gen_tcp_accept(listen_socket: Socket) -> Result(Socket, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#recv/3
@external(erlang, "gen_tcp", "recv")
 fn gen_tcp_recv(
  socket: Socket,
  length: Int,
  timeout: Int,
 ) -> Result(BitArray, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#connect/4
@external(erlang, "gen_tcp", "connect")
 fn gen_tcp_connect(
  address: Local,
  port: Int,
  options: List(TCPOption),
  timeout: Int,
 ) -> Result(Socket, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#send/2
@external(erlang, "tcp_ffi", "send")
 fn gen_tcp_send(socket: Socket, packet: BitArray) -> Result(Nil, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#close/1
@external(erlang, "gen_tcp", "close")
 fn gen_tcp_close(socket: Socket) -> Nil
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#shutdown/2
@external(erlang, "tcp_ffi", "shutdown")
 fn gen_tcp_shutdown(socket: Socket, how: atom.Atom) -> Result(Nil, Reason)
--- a/src/musicplayer/tcp/tcp_ffi.erl
+++ b/src/musicplayer/tcp/tcp_ffi.erl
@@ -0,0 +1,14 @@
 -module(tcp_ffi).
 -export([send/2, shutdown/2]).
 send(Socket, Packet) ->
  case gen_tcp:send(Socket, Packet) of
    ok -> {ok, nil};
    Res -> Res
  end.
 shutdown(Socket, How) ->
  case gen_tcp:shutdown(Socket, How) of
    ok -> {ok, nil};
    Res -> Res
  end.
--- a/src/tcp/tcp.gleam
+++ b/src/tcp/tcp.gleam
@@ -1,57 +0,0 @@
 import gleam/bytes_tree
 import tcp/reason.{type Reason}
 pub type Socket
 // https://www.erlang.org/doc/apps/kernel/inet#t:address_family/0
 // local socket
 type Local {
  Local(socket_path: String)
 }
 type ModeValue {
  Binary
 }
 type TCPOption {
  Active(Bool)
  Mode(ModeValue)
 }
 pub fn connect(socket_path: String) -> Result(Socket, Reason) {
  let options = [Mode(Binary), Active(False)]
  // timeout in ms
  let timeout = 1000
  gen_tcp_connect(Local(socket_path), 0, options, timeout)
 }
 pub fn send(socket: Socket, message: String) -> Result(Nil, Reason) {
  gen_tcp_send(socket, bytes_tree.from_string(message))
 }
 pub fn close(socket: Socket) -> Nil {
  gen_tcp_close(socket)
 }
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#connect/4
@external(erlang, "gen_tcp", "connect")
 fn gen_tcp_connect(
  address: Local,
  port: Int,
  options: List(TCPOption),
  timeout: Int,
 ) -> Result(Socket, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#send/2
@external(erlang, "tcp_ffi", "send")
 fn gen_tcp_send(
  socket: Socket,
  packet: bytes_tree.BytesTree,
 ) -> Result(Nil, Reason)
 // https://www.erlang.org/doc/apps/kernel/gen_tcp.html#close/1
@external(erlang, "gen_tcp", "close")
 fn gen_tcp_close(socket: Socket) -> Nil
--- a/src/tcp/tcp_ffi.erl
+++ b/src/tcp/tcp_ffi.erl
@@ -1,8 +0,0 @@
 -module(tcp_ffi).
 -export([send/2]).
 send(Socket, Packet) ->
  case gen_tcp:send(Socket, Packet) of
    ok -> {ok, nil};
    Res -> Res
  end.
--- a/test/echo_server.gleam
+++ b/test/echo_server.gleam
@@ -0,0 +1,81 @@
 import gleam/erlang/process.{type Subject}
 import gleam/io
 import gleam/otp/actor
 import gleam/result
 import gleam/string
 import musicplayer/tcp/reason.{type Reason}
 import musicplayer/tcp/tcp
 pub type Message {
  Shutdown
  ReadyToAccept(subject: Subject(Message), listen_socket: tcp.Socket)
 }
 pub fn new(socket_path: String) -> Result(tcp.Socket, String) {
  let server = actor.new(Nil) |> actor.on_message(handle_message) |> actor.start
  case tcp.listen(socket_path), server {
    Error(r), _ -> Error(reason.to_string(r))
    _, Error(start_error) ->
      case start_error {
        actor.InitExited(_) -> Error("InitExited")
        actor.InitFailed(_) -> Error("InitFailed")
        actor.InitTimeout -> Error("InitTimeout")
      }
    Ok(listen_socket), Ok(b) -> {
      let subject = b.data
      actor.send(subject, ReadyToAccept(subject, listen_socket))
      Ok(listen_socket)
    }
  }
 }
 fn handle_message(_: Nil, message: Message) -> actor.Next(Nil, Message) {
  case message {
    Shutdown -> actor.stop()
    ReadyToAccept(subject, listen_socket) -> {
      case tcp.accept(listen_socket) {
        Error(r) ->
          actor.stop_abnormal(
            "Could not accept connection :" <> reason.to_string(r),
          )
        Ok(socket) -> {
          case receive_from_connection(socket) {
            Error(r) ->
              io.println_error(
                "Failed to receive from connection :" <> reason.to_string(r),
              )
            Ok(_) -> Nil
          }
          actor.send(subject, ReadyToAccept(subject, listen_socket))
          actor.continue(Nil)
        }
      }
    }
  }
 }
 fn receive_from_connection(socket: tcp.Socket) -> Result(Nil, Reason) {
  result.try(receive_until_closed(socket, ""), fn(data) {
    let _ = tcp.send(socket, data)
    tcp.close(socket)
    Ok(Nil)
  })
 }
 fn receive_until_closed(
  socket: tcp.Socket,
  result: String,
 ) -> Result(String, Reason) {
  case tcp.receive(socket, 10_000) {
    Error(reason.Closed) -> Ok(result)
    Error(err) -> Error(err)
    Ok(data) -> {
      let result = data |> string.append(result, _)
      receive_until_closed(socket, result)
    }
  }
 }
--- a/test/musicplayer/input/input_test.gleam
+++ b/test/musicplayer/input/input_test.gleam
@@ -0,0 +1,42 @@
 import gleam/list
 import gleeunit
 import musicplayer/input/key.{type Key, Char, csi, esc, input_introducer as ii}
 pub fn main() -> Nil {
  gleeunit.main()
 }
 type TestCase {
  TestCase(input: List(String), expected: Key)
 }
 pub fn key_from_list_test() {
  let base_tests = [TestCase([], key.Continue([]))]
  let char_tests = [TestCase(["c"], Char("c"))]
  let escape_tests = [
    TestCase([esc, csi], key.Continue([esc, csi])),
    TestCase([esc], key.Continue([esc])),
    TestCase([esc, csi, "D"], key.Left),
    TestCase([esc, csi, "C"], key.Right),
    TestCase([esc, csi, "A"], key.Up),
    TestCase([esc, csi, "B"], key.Down),
  ]
  let input_tests = [
    TestCase([ii], key.Continue([ii])),
    TestCase([ii, "a"], key.Continue([ii, "a"])),
    TestCase([ii, "a", "b"], key.Continue([ii, "ab"])),
    TestCase([ii, "ab", "\u{007F}"], key.Continue([ii, "a"])),
    TestCase([ii, "ab", "\r"], key.Input("ab")),
  ]
  let test_cases = [base_tests, char_tests, escape_tests, input_tests]
  list.each(list.flatten(test_cases), fn(tc) {
    assert tc.expected == key.from_list(tc.input)
  })
 }
--- a/test/musicplayer/mpv/control_test.gleam
+++ b/test/musicplayer/mpv/control_test.gleam
@@ -0,0 +1,33 @@
 import gleam/list
 import gleeunit
 import musicplayer/input/key.{type Key, Char}
 import musicplayer/mpv/control.{type Control}
 import musicplayer/mpv/internal as control_internal
 pub fn main() -> Nil {
  gleeunit.main()
 }
 type TestCase {
  TestCase(key: Key, expected: Result(Control, Nil))
 }
 pub fn control_from_key_test() {
  let test_cases = [
    TestCase(Char(" "), Ok(control.TogglePlayPause)),
    TestCase(Char("q"), Ok(control.Exit)),
  ]
  list.each(test_cases, fn(tc) {
    assert tc.expected == control.from_key(tc.key)
  })
 }
 pub fn parse_playback_time_test() {
  let json_string =
    "{\"data\":\"123.456789\",\"request_id\":0,\"error\":\"success\"}\n"
  let assert Ok(data) = control_internal.parse_playback_time(json_string)
  assert data == 123.456789
 }
--- a/test/musicplayer/tcp/tcp_test.gleam
+++ b/test/musicplayer/tcp/tcp_test.gleam
@@ -0,0 +1,30 @@
 import gleam/list
 import gleeunit
 import simplifile
 import echo_server
 import musicplayer/tcp/tcp
 pub fn main() -> Nil {
  gleeunit.main()
 }
 pub fn tcp_send_shutdown_receive_test() {
  let socket_path = "/tmp/musicplayer-test.sock"
  let assert Ok(_) = echo_server.new(socket_path)
  let assert Ok(socket) = tcp.connect(socket_path)
  let messages = ["hello, ", "world!\n"]
  list.each(messages, fn(message) {
    let assert Ok(_) = tcp.send(socket, message)
  })
  let assert Ok(_) = tcp.shutdown(socket)
  let timeout_ms = 100
  assert Ok("hello, world!\n") == tcp.receive(socket, timeout_ms)
  // TODO find better way to always do cleanup
  simplifile.delete(socket_path)
 }
--- a/test/musicplayer_test.gleam
+++ b/test/musicplayer_test.gleam
@@ -3,11 +3,3 @@ import gleeunit
 pub fn main() -> Nil {
  gleeunit.main()
 }
 // gleeunit test functions end in `_test`
 pub fn hello_world_test() {
  let name = "Joe"
  let greeting = "Hello, " <> name <> "!"
  assert greeting == "Hello, Joe!"
 }
Author	SHA1	Message	Date
Alexander Heldt	d01b6d3f18	Move all code into `musicplayer` module	2025-11-22 19:03:49 +01:00
Alexander Heldt	249b0671e4	Extract reading of input i/o to `input` And add the ability of other modules to listen to either the final result (a `Key`) or tap into the input as it is read	2025-11-21 20:06:39 +01:00
Alexander Heldt	b69852f7ba	Add ability to listen (tap) the `input` By doing something like ``` fn input_output_loop(input_output: Subject(List(String))) -> Nil { let output = process.receive_forever(input_output) echo output input_output_loop(input_output) } ```	2025-11-19 18:27:30 +01:00
Alexander Heldt	3f86b881c3	Add ability to inject characters into the `input`	2025-11-19 18:27:30 +01:00
Alexander Heldt	fee776b352	Add ability to create character sequences as `Input`	2025-11-19 18:27:30 +01:00
Alexander Heldt	78cc3647c7	Correct `io_get_chars` comment/documentation	2025-11-19 17:46:58 +01:00
Alexander Heldt	1c47a84750	Extract `mpv/key` to `input` To separate the concern from `mpv`	2025-11-18 18:39:20 +01:00
Alexander Heldt	417b5a2559	Add ability to get `playback-time`	2025-11-16 16:23:16 +01:00
Alexander Heldt	94212996d2	Map `Key` to `Control`	2025-11-16 16:21:54 +01:00
Alexander Heldt	702313eac2	Restructure `mpv/internal` package	2025-11-16 16:04:06 +01:00
Alexander Heldt	ebdba09bc2	Remove unused `Reason.Overflow`	2025-11-16 10:40:03 +01:00
Alexander Heldt	c9931ff4d9	Remove unused `Key.Empty`	2025-11-15 14:31:46 +01:00
Alexander Heldt	bc5297196e	Add ability to listen to input	2025-11-15 14:23:56 +01:00
Alexander Heldt	1dcbff3e22	Move `echo_server` to tests	2025-11-14 19:11:42 +01:00
Alexander Heldt	a1971693ef	TCP echo server	2025-11-14 18:41:29 +01:00