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alex:main alex:box-with-heading alex:layout alex:dynamic-layout-dimensions alex:section-content
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compare: alex:main
Branches Tags
alex:box-with-heading alex:main alex:layout alex:dynamic-layout-dimensions alex:section-content

7 Commits
1732b12fbe ... main

Author SHA1 Message Date
Alexander Heldt
0c4c085dd0 Add ability to switch View 2025-12-25 19:50:05 +01:00
Alexander Heldt
a3c5c203f1 wip set view 2025-12-25 17:51:32 +01:00
Alexander Heldt
0ef94d7c89 Key handling is state aware 
By forwarding all `Key`s to the agent and allow it to decide what should
be done, instead of converting the `Key` to a `Control` and then decide
what should be done
 2025-12-25 17:49:34 +01:00
Alexander Heldt
9d54495a4b Update search when Backspace is received 2025-12-21 17:11:36 +01:00
Alexander Heldt
95eaeb60f4 Layout consist of multiple Views 2025-12-21 13:21:14 +01:00
Alexander Heldt
ed69566f6f Plot layout on a grid 
Redraw all x,y coordinates on screen Instead of using ANSI codes,
to be avoid clearing the screen which introduces flickering in TMUX
 2025-12-20 14:05:25 +01:00
Alexander Heldt
b5965360eb Rework Layout 
To be a based on a dictionary, where each node child is just a key in
the dictionary and the value is the node itself
 2025-12-11 20:42:49 +01:00
11 changed files with 673 additions and 468 deletions
Expand all files Collapse all files

56
src/musicplayer/control.gleam
View File

@@ -1,30 +1,58 @@
import gleam/string
import musicplayer/ui/layout
import musicplayer/input/key.{type Key} import musicplayer/input/key.{type Key}
pub type Mode {
Idle
Searching(input: String)
}
pub type Control { pub type Control {
TogglePlayPause TogglePlayPause
Search Search(input: String, capturing: Bool)
Raw(String) SetView(view_idx: layout.ViewIdx)
Return
Backspace
Exit Exit
} }
pub fn from_key(key: Key) -> Result(Control, Nil) { pub fn from_key(key: Key, mode: Mode) -> Result(Control, Nil) {
case mode {
Idle -> idle_from_key(key)
Searching(input) -> searching_from_key(key, input)
}
}
pub fn idle_from_key(key: Key) -> Result(Control, Nil) {
case key { case key {
key.Return -> Ok(Return) key.Char(char) -> {
key.Backspace -> Ok(Backspace) case char {
key.Char(char) -> Ok(char_control(char)) // Views are zero indexed
"1" -> Ok(SetView(0))
"2" -> Ok(SetView(1))
" " -> Ok(TogglePlayPause)
"/" -> Ok(Search(input: "", capturing: True))
"q" -> Ok(Exit)
// NOOP
_ -> Error(Nil)
}
}
// NOOP
_ -> Error(Nil) _ -> Error(Nil)
} }
} }
fn char_control(char: String) -> Control { pub fn searching_from_key(key: Key, input: String) -> Result(Control, Nil) {
case char { case key {
" " -> TogglePlayPause key.Char(char) -> Ok(Search(input <> char, True))
"/" -> Search key.Backspace -> Ok(Search(string.drop_end(input, 1), True))
"q" -> Exit key.Return -> Ok(Search(input, False))
_ -> Raw(char)
// NOOP
_ -> Error(Nil)
} }
} }

129
src/musicplayer/musicplayer.gleam
View File

@@ -1,9 +1,8 @@
import gleam/erlang/process.{type Name, type Pid, type Subject} import gleam/erlang/process.{type Name, type Pid, type Subject}
import gleam/otp/actor import gleam/otp/actor
import gleam/result
import gleam/string import gleam/string
import musicplayer/control.{type Control} import musicplayer/control.{type Mode}
import musicplayer/input/key.{type Key} import musicplayer/input/key.{type Key}
import musicplayer/logging/logging import musicplayer/logging/logging
import musicplayer/mpv/control as mpv_control import musicplayer/mpv/control as mpv_control
@@ -11,19 +10,9 @@ import musicplayer/time/time
import musicplayer/ui/control as ui_control import musicplayer/ui/control as ui_control
import musicplayer/ui/layout import musicplayer/ui/layout
type Mode {
Idle
Searching
}
type Input {
Input(capturing: Bool, content: String)
}
type State { type State {
State( State(
mode: Mode, mode: Mode,
input: Input,
ui: Subject(ui_control.Control), ui: Subject(ui_control.Control),
mpv: Subject(mpv_control.Control), mpv: Subject(mpv_control.Control),
) )
@@ -36,10 +25,8 @@ pub fn new(
) -> Result(Pid, String) { ) -> Result(Pid, String) {
let input_keys = process.named_subject(input_keys_name) let input_keys = process.named_subject(input_keys_name)
let input = Input(False, "")
case case
actor.new(State(Idle, input, ui, mpv)) actor.new(State(control.Idle, ui, mpv))
|> actor.on_message(handle_message) |> actor.on_message(handle_message)
|> actor.start |> actor.start
{ {
@@ -49,75 +36,53 @@ pub fn new(
logging.log("musicplayer - started") logging.log("musicplayer - started")
process.spawn(fn() { process.spawn(fn() {
let assert Ok(_) = process.register(process.self(), input_keys_name) let assert Ok(_) = process.register(process.self(), input_keys_name)
handle_key(musicplayer, input_keys) forward_key(musicplayer, input_keys)
}) })
process.spawn(fn() { update_playback_time_loop(mpv, ui, 1000) }) process.spawn(fn() { update_playback_time_loop(mpv, ui, 250) })
Ok(pid) Ok(pid)
} }
} }
} }
fn handle_message(state: State, control: Control) -> actor.Next(State, Control) { fn handle_message(state: State, key: Key) -> actor.Next(State, Key) {
case control { case control.from_key(key, state.mode) {
control.Search -> { Error(_) -> actor.continue(state)
logging.log("musicplayer - initiating search") Ok(c) ->
case c {
update_search(state.ui, "searching: ") control.SetView(view_idx) -> {
actor.continue(
State(
..state,
mode: Searching,
input: Input(..state.input, capturing: True),
),
)
}
control.Raw(content) -> {
logging.log("musicplayer - recieved raw input: " <> content)
let content = case state.mode {
Idle -> state.input.content
Searching -> {
let updated = state.input.content <> content
update_search(state.ui, "searching: " <> updated)
updated
}
}
actor.continue(State(..state, input: Input(..state.input, content:)))
}
control.Backspace -> {
logging.log("musicplayer - recieved backspace")
let content = case state.mode {
Idle -> state.input.content
Searching -> string.drop_end(state.input.content, 1)
}
actor.continue(State(..state, input: Input(..state.input, content:)))
}
control.Return -> {
logging.log( logging.log(
"musicplayer - recieved return. `input.capture`: " "musicplayer - setting current view to: "
<> string.inspect(view_idx),
)
update_current_view(state.ui, view_idx)
actor.continue(state)
}
control.Search(input, capturing) -> {
case capturing {
True -> {
logging.log("musicplayer - searching: " <> input)
update_search(state.ui, "searching: " <> input)
actor.continue(State(..state, mode: control.Searching(input)))
}
False -> {
logging.log(
"musicplayer - recieved return. `input`: "
<> "'" <> "'"
<> state.input.content <> input
<> "'", <> "'",
) )
// Note: state.input.content is now the final input, use it update_search(state.ui, "")
// before it is reset
case state.mode {
Idle -> Nil
Searching -> update_search(state.ui, "")
}
actor.continue( actor.continue(State(..state, mode: control.Idle))
State(..state, mode: Idle, input: Input(capturing: False, content: "")), }
) }
} }
control.TogglePlayPause -> { control.TogglePlayPause -> {
logging.log("musicplayer - toggling play/pause") logging.log("musicplayer - toggling play/pause")
@@ -128,16 +93,21 @@ fn handle_message(state: State, control: Control) -> actor.Next(State, Control)
control.Exit -> { control.Exit -> {
logging.log("musicplayer - initiating musicplayer shutdown") logging.log("musicplayer - initiating musicplayer shutdown")
// Close `mpv` socket // Close `mpv` socket
process.call(state.mpv, 1000, fn(reply_to) { mpv_control.Exit(reply_to) }) process.call(state.mpv, 1000, fn(reply_to) {
mpv_control.Exit(reply_to)
})
// Reset terminal state (show cursor etc.) // Reset terminal state (show cursor etc.)
process.call(state.ui, 1000, fn(reply_to) { ui_control.Exit(reply_to) }) process.call(state.ui, 1000, fn(reply_to) {
ui_control.Exit(reply_to)
})
logging.log("musicplayer - stopped") logging.log("musicplayer - stopped")
actor.stop() actor.stop()
} }
} }
}
} }
fn update_playback_time_loop( fn update_playback_time_loop(
@@ -185,14 +155,21 @@ fn update_search(ui: Subject(ui_control.Control), content: String) -> Nil {
process.send(ui, ui_control.UpdateState(layout.Search, content)) process.send(ui, ui_control.UpdateState(layout.Search, content))
} }
/// `handle_key` listens to a subject onto which `input` will send messages with `Key`s fn update_current_view(
fn handle_key(musicplayer: Subject(Control), input_keys: Subject(Key)) -> Nil { ui: Subject(ui_control.Control),
view_idx: layout.ViewIdx,
) {
process.send(ui, ui_control.SetView(view_idx))
}
/// `forward_key` listens to a subject onto which `input` will send messages with `Key`s
/// that is then forwarded to the `musicplayer` agent to handle
fn forward_key(musicplayer: Subject(Key), input_keys: Subject(Key)) -> Nil {
let _ = let _ =
process.new_selector() process.new_selector()
|> process.select(input_keys) |> process.select(input_keys)
|> process.selector_receive_forever |> process.selector_receive_forever
|> control.from_key |> process.send(musicplayer, _)
|> result.map(process.send(musicplayer, _))
handle_key(musicplayer, input_keys) forward_key(musicplayer, input_keys)
} }

5
src/musicplayer/ui/control.gleam
View File

@@ -1,10 +1,11 @@
import gleam/erlang/process.{type Subject} import gleam/erlang/process.{type Subject}
import musicplayer/ui/layout.{type Section} import musicplayer/ui/layout.{type Section, type ViewIdx}
pub type Control { pub type Control {
UpdateDimensions(width: Int, height: Int) UpdateDimensions(columns: Int, rows: Int)
UpdateState(section: Section, content: String) UpdateState(section: Section, content: String)
SetView(view_idx: ViewIdx)
Exit(reply_to: Subject(Nil)) Exit(reply_to: Subject(Nil))
} }

14
src/musicplayer/ui/internal.gleam
View File

@@ -3,6 +3,16 @@ import gleam/io
// https://en.wikipedia.org/wiki/ANSI_escape_code#Control_Sequence_Introducer_commands // https://en.wikipedia.org/wiki/ANSI_escape_code#Control_Sequence_Introducer_commands
pub const move_to_home = "\u{001B}[H"
pub const disable_auto_wrap = "\u{001B}[?7l"
pub const enable_auto_wrap = "\u{001B}[?7h"
pub fn update(frame: String) -> Nil {
io.print(disable_auto_wrap <> move_to_home <> frame <> enable_auto_wrap)
}
pub fn clear_screen() -> Nil { pub fn clear_screen() -> Nil {
io.print("\u{001B}[2J\u{001B}[H") io.print("\u{001B}[2J\u{001B}[H")
} }
@@ -12,10 +22,6 @@ pub fn chars_at(chars: String, x: Int, y: Int) -> String {
seq <> chars seq <> chars
} }
pub fn print(chars: String) -> Nil {
io.print(chars)
}
pub fn hide_cursor() -> Nil { pub fn hide_cursor() -> Nil {
io.print("\u{001B}[?25l") io.print("\u{001B}[?25l")
} }

413
src/musicplayer/ui/layout.gleam
View File

@@ -1,121 +1,101 @@
import gleam/dict import gleam/dict
import gleam/float
import gleam/int import gleam/int
import gleam/list import gleam/list
import gleam/pair
import gleam/set
import gleam/string import gleam/string
import gleam/string_tree.{type StringTree}
import musicplayer/logging/logging
import musicplayer/ui/internal import musicplayer/ui/internal
import musicplayer/ui/plot.{type Buffer}
pub type Layout { pub const root_section = "reserved_root_section"
Layout(width: Int, height: Int, nodes: dict.Dict(Section, Node))
}
pub type Section { pub type Section {
Section(String) Section(String)
Root
Header Header
Search Search
PlaybackTime PlaybackTime
} }
// pub type Section { pub type Dimension {
// Root Percent(width: Int, height: Int)
// Header // TODO add Flex that flows
// Search }
// PlaybackTime
// Test pub type Style {
Style(dimensions: Dimension)
// Row1
// A
// B
// Row2
// C
// D
// }
pub type NodeType {
Container
Row
Cell
} }
/// A Nodes width and height is in percentage (of the available width/height of its parent Node)
pub type Node { pub type Node {
Node( Row(content: String, style: Style, children: List(Section))
t: NodeType, Cell(content: String, style: Style)
content: String, }
width_percent: Int,
height_percent: Int, pub type ViewIdx =
children: List(Section), Int
pub type View =
dict.Dict(Section, Node)
// Layout consists of a list Views, and only one View is rendered at a time
pub type Layout {
Layout(
columns: Int,
rows: Int,
current_view: ViewIdx,
views: dict.Dict(ViewIdx, View),
) )
} }
pub fn new() -> Layout { pub fn new(
let nodes = columns: Int,
dict.from_list([ rows: Int,
#( views: List(List(#(Section, Node))),
Section("Root"), ) -> Layout {
Node( let views =
t: Container, list.index_map(views, fn(view_nodes, i) { #(i, view_nodes) })
content: "container", |> list.fold(dict.new(), fn(view_acc, iv) {
width_percent: 100, let #(i, view_nodes) = iv
height_percent: 100,
children: [
Section("Row1"),
Section("Row2"),
],
),
),
#(
Section("Row1"),
Node(
t: Row,
content: "row 1",
width_percent: 100,
height_percent: 50,
children: [
Section("A"),
Section("A"),
],
),
),
#(
Section("A"),
Node(
t: Cell,
content: "cell 1",
width_percent: 50,
height_percent: 100,
children: [],
),
),
#(
Section("B"),
Node(
t: Cell,
content: "cell 2",
width_percent: 50,
height_percent: 100,
children: [],
),
),
#(
Section("Row2"),
Node(
t: Row,
content: "row 1",
width_percent: 100,
height_percent: 50,
children: [],
),
),
])
Layout(width: 0, height: 0, nodes: nodes) dict.insert(view_acc, i, view_loop(i, view_nodes))
})
Layout(columns:, rows:, current_view: 0, views:)
}
fn view_loop(i: ViewIdx, view_nodes: List(#(Section, Node))) -> View {
let children =
view_nodes
|> list.flat_map(fn(node) {
case pair.second(node) {
Row(children: c, ..) -> c
Cell(..) -> []
}
})
|> set.from_list
// All sections that are not children of other nodes will be added as
// children to the root
let orphans =
view_nodes
|> list.map(pair.first)
|> list.filter(fn(node) { !set.contains(children, node) })
dict.from_list(view_nodes)
|> dict.insert(
view_index_section(i),
Row(
content: "",
style: Style(dimensions: Percent(width: 100, height: 100)),
children: orphans,
),
)
}
/// Takes a ViewIndex and create a Section key from it
fn view_index_section(view_idx: ViewIdx) -> Section {
Section(string.append("view_", int.to_string(view_idx)))
} }
pub fn update_section( pub fn update_section(
@@ -123,157 +103,146 @@ pub fn update_section(
section: Section, section: Section,
content: String, content: String,
) -> Layout { ) -> Layout {
case dict.get(layout.nodes, section) { case dict.get(layout.views, layout.current_view) {
Error(_) -> layout Error(_) -> layout
Ok(node) -> Ok(view) ->
case dict.get(view, section) {
Error(_) -> layout
Ok(node) -> {
let updated_node = case node {
Cell(..) -> Cell(..node, content: content)
Row(..) -> Row(..node, content: content)
}
let updated_view = dict.insert(view, section, updated_node)
Layout( Layout(
..layout, ..layout,
nodes: dict.insert( views: dict.insert(layout.views, layout.current_view, updated_view),
layout.nodes,
section,
Node(..node, content: content),
),
) )
} }
}
}
} }
pub fn update_dimensions(layout: Layout, width: Int, height: Int) -> Layout { pub fn update_dimensions(layout: Layout, columns: Int, rows: Int) -> Layout {
Layout(..layout, width:, height:) Layout(..layout, columns:, rows:)
}
pub fn update_current_view(layout: Layout, view_idx: ViewIdx) -> Layout {
Layout(..layout, current_view: view_idx)
} }
pub fn render(layout: Layout) -> Nil { pub fn render(layout: Layout) -> Nil {
internal.clear_screen() let context =
[layout.width, layout.height] RenderContext(
|> list.map(int.to_string) parent_width: layout.columns,
|> string.join(" ") parent_height: layout.rows,
|> string.append("layout - render: ", _) parent_top_left_x: 1,
|> logging.log parent_top_left_y: 1,
position_index: 0,
let container_width = int.to_float(layout.width) )
let container_height = int.to_float(layout.height)
let container_top_left_x = 1 case dict.get(layout.views, layout.current_view) {
let container_top_left_y = 1 Error(_) -> Nil
Ok(view) -> {
string_tree.new() let buffer: Buffer = dict.new()
|> render_loop(
layout, render_loop(
container_width, view,
container_height, context,
container_top_left_x, view_index_section(layout.current_view),
container_top_left_y, buffer,
0, )
Section("Root"), |> plot.flush_buffer(layout.columns, layout.rows)
_, |> internal.update
}
}
}
pub type RenderContext {
RenderContext(
parent_width: Int,
parent_height: Int,
parent_top_left_x: Int,
parent_top_left_y: Int,
position_index: Int,
) )
|> string_tree.to_string
|> internal.print
} }
pub fn render_loop( pub fn render_loop(
layout: Layout, view: View,
container_width: Float, context: RenderContext,
container_height: Float,
container_top_left_x: Int,
container_top_left_y: Int,
index: Int,
from: Section, from: Section,
tree: StringTree, buffer: Buffer,
) -> StringTree { ) -> Buffer {
let margin = 2.0 case dict.get(view, from) {
Error(_) -> buffer
case dict.get(layout.nodes, from) {
Error(_) -> tree
Ok(node) -> { Ok(node) -> {
let final_tree = // Margin between container and the node being rendered
list.index_map(node.children, fn(child, i) { #(i, child) }) let margin = 2
|> list.fold(tree, fn(updated_tree: StringTree, ic: #(Int, Section)) {
let #(node_width, node_height) = case node.style.dimensions {
Percent(width:, height:) -> {
let width = { context.parent_width * width } / 100
let height = { context.parent_height * height } / 100
#(width, height)
}
}
// Check if this node should be placed to the left or below the parent
let #(node_top_left_x, node_top_left_y) = case node {
Row(..) -> #(
context.parent_top_left_x,
context.parent_top_left_y + { context.position_index * node_height },
)
Cell(..) -> #(
context.parent_top_left_x + { context.position_index * node_width },
context.parent_top_left_y,
)
}
let parent =
plot.box(
buffer,
node_top_left_x,
node_top_left_y,
node_width,
node_height,
)
|> plot.text(node.content, node_top_left_x, node_top_left_y)
case node {
Cell(..) -> parent
Row(children:, ..) -> {
list.index_map(children, fn(child, i) { #(i, child) })
|> list.fold(parent, fn(acc_buffer, ic) {
let #(i, child) = ic let #(i, child) = ic
let cw = let #(child_width, child_height) = case node.style.dimensions {
container_width Percent(width:, height:) -> {
*. { int.to_float(node.width_percent) /. 100.0 } let width = { { context.parent_width * width } / 100 } - margin
-. margin
|> float.floor
let ch =
container_height
*. { int.to_float(node.height_percent) /. 100.0 }
-. margin
|> float.floor
let cx = container_top_left_x + 1
let cy = container_top_left_y + 1
render_loop(layout, cw, ch, cx, cy, i, child, updated_tree)
})
logging.log("section: " <> string.inspect(from))
logging.log("section type: " <> string.inspect(node.t))
logging.log("index: " <> string.inspect(index))
logging.log("container width: " <> float.to_string(container_width))
logging.log("container height: " <> float.to_string(container_height))
let width =
container_width *. { int.to_float(node.width_percent) /. 100.0 }
|> float.floor
|> float.truncate
let height = let height =
container_height *. { int.to_float(node.height_percent) /. 100.0 } { { context.parent_height * height } / 100 } - margin
|> float.floor
|> float.truncate
logging.log("section width: " <> int.to_string(width)) #(width, height)
logging.log("section height: " <> int.to_string(height))
let #(cx, cy) = case node.t {
Container -> #(container_top_left_x, container_top_left_y)
Row -> #(
container_top_left_x,
container_top_left_y + { index * height },
)
Cell -> #(
container_top_left_x + { index * width },
container_top_left_y,
)
}
logging.log("cx: " <> int.to_string(cx))
logging.log("cy: " <> int.to_string(cy))
final_tree
|> string_tree.append(draw_box(cx, cy, width, height))
// Box heading
|> string_tree.append(internal.chars_at(node.content, cx, cy))
} }
} }
}
fn draw_box(x: Int, y: Int, width: Int, height: Int) -> String { let context =
let box_tree = string_tree.new() RenderContext(
let box_chars = #("", "", "", "", "", "") parent_width: child_width,
let #(tl, tr, bl, br, h, v) = box_chars parent_height: child_height,
parent_top_left_x: context.parent_top_left_x + 1,
let box_tree = parent_top_left_y: context.parent_top_left_y + 1,
string_tree.append( position_index: i,
box_tree,
internal.chars_at(tl <> string.repeat(h, width - 2) <> tr, x, y),
) )
let box_trees = render_loop(view, context, child, acc_buffer)
list.range(1, height - 2)
|> list.map(fn(row) {
box_tree
|> string_tree.append(internal.chars_at(v, x, y + row))
|> string_tree.append(internal.chars_at(v, x + width - 1, y + row))
}) })
}
string_tree.append( }
string_tree.concat(box_trees), }
internal.chars_at( }
bl <> string.repeat(h, width - 2) <> br,
x,
y + height - 1,
),
)
|> string_tree.to_string
} }

58
src/musicplayer/ui/layout_examples/layout_examples.gleam Normal file
View File

@@ -0,0 +1,58 @@
import musicplayer/ui/internal
import musicplayer/ui/layout.{Percent, Section, Style}
import musicplayer/ui/layout_examples/wait_for_input.{wait_for_input}
pub fn main() {
let assert Ok(columns) = internal.io_get_columns()
let assert Ok(rows) = internal.io_get_rows()
two_rows_with_cells(columns, rows)
|> layout.render
wait_for_input()
}
/// Two rows:
/// First row has two cells
/// Second row has no cells
fn two_rows_with_cells(columns: Int, rows: Int) -> layout.Layout {
let views = [
[
#(
Section("Row1"),
layout.Row(
content: "row 1",
style: Style(dimensions: Percent(width: 100, height: 50)),
children: [
Section("A"),
Section("B"),
],
),
),
#(
Section("A"),
layout.Cell(
content: "cell 1",
style: Style(dimensions: Percent(width: 50, height: 50)),
),
),
#(
Section("B"),
layout.Cell(
content: "cell 2",
style: Style(dimensions: Percent(width: 50, height: 50)),
),
),
#(
Section("Row2"),
layout.Row(
content: "row 2",
style: Style(dimensions: Percent(width: 50, height: 50)),
children: [],
),
),
],
]
layout.new(columns, rows, views)
}

15
src/musicplayer/ui/layout_examples/wait_for_input.gleam Normal file
View File

@@ -0,0 +1,15 @@
import gleam/erlang/process.{type Name}
import musicplayer/input/input
import musicplayer/input/key.{type Key}
pub fn wait_for_input() {
let input_keys_name: Name(Key) = process.new_name("input_keys")
let assert Ok(_) = process.register(process.self(), input_keys_name)
input.new(input_keys_name)
process.new_selector()
|> process.select(process.named_subject(input_keys_name))
|> process.selector_receive_forever
}

72
src/musicplayer/ui/plot.gleam Normal file
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@@ -0,0 +1,72 @@
import gleam/dict.{type Dict}
import gleam/list
import gleam/string
pub type Buffer =
Dict(#(Int, Int), String)
pub fn flush_buffer(buffer: Buffer, columns: Int, rows: Int) -> String {
list.range(1, rows)
|> list.map(fn(y) {
list.range(1, columns)
|> list.map(fn(x) {
case dict.get(buffer, #(x, y)) {
Ok(char) -> char
Error(_) -> " "
}
})
|> string.join("")
})
|> string.join("\r\n")
}
pub fn text(buffer: Buffer, text: String, x: Int, y: Int) -> Buffer {
text
|> string.to_graphemes
|> list.index_fold(buffer, fn(acc, char, i) {
dict.insert(acc, #(x + i, y), char)
})
}
pub fn box(buffer: Buffer, x: Int, y: Int, width: Int, height: Int) -> Buffer {
// TODO move box style to `layout.Style`
let box_chars = #("", "", "", "", "", "")
let #(tl, tr, bl, br, hor, ver) = box_chars
case width < 2 || height < 2 {
True -> buffer
False -> {
buffer
|> dict.insert(#(x, y), tl)
|> dict.insert(#(x + width - 1, y), tr)
|> dict.insert(#(x, y + height - 1), bl)
|> dict.insert(#(x + width - 1, y + height - 1), br)
|> horizontal_line(x + 1, y, width - 2, hor)
|> horizontal_line(x + 1, y + height - 1, width - 2, hor)
|> vertical_line(x, y + 1, height - 2, ver)
|> vertical_line(x + width - 1, y + 1, height - 2, ver)
}
}
}
fn horizontal_line(
buffer: Buffer,
x: Int,
y: Int,
len: Int,
char: String,
) -> Buffer {
list.range(0, len - 1)
|> list.fold(buffer, fn(acc, i) { dict.insert(acc, #(x + i, y), char) })
}
fn vertical_line(
buffer: Buffer,
x: Int,
y: Int,
len: Int,
char: String,
) -> Buffer {
list.range(0, len - 1)
|> list.fold(buffer, fn(acc, i) { dict.insert(acc, #(x, y + i), char) })
}

106
src/musicplayer/ui/ui.gleam
View File

@@ -3,7 +3,6 @@ import gleam/int
import gleam/list import gleam/list
import gleam/otp/actor import gleam/otp/actor
import gleam/string import gleam/string
import gleam/string_tree.{type StringTree}
import musicplayer/logging/logging import musicplayer/logging/logging
import musicplayer/ui/control.{type Control} import musicplayer/ui/control.{type Control}
@@ -18,7 +17,69 @@ pub fn new() -> Result(Subject(Control), String) {
let redraw_name = process.new_name("redraw") let redraw_name = process.new_name("redraw")
let redraw: Subject(Layout) = process.named_subject(redraw_name) let redraw: Subject(Layout) = process.named_subject(redraw_name)
let layout = layout.new() let layout =
[
[
#(
layout.Header,
layout.Row(
content: "Foo <1> | Bar (2)",
style: layout.Style(dimensions: layout.Percent(
width: 100,
height: 50,
)),
children: [],
),
),
#(
layout.PlaybackTime,
layout.Row(
content: "00:00",
style: layout.Style(dimensions: layout.Percent(
width: 100,
height: 50,
)),
children: [],
),
),
],
[
#(
layout.Header,
layout.Row(
content: "Foo (1) | Bar <2>",
style: layout.Style(dimensions: layout.Percent(
width: 100,
height: 33,
)),
children: [],
),
),
#(
layout.Search,
layout.Row(
content: "",
style: layout.Style(dimensions: layout.Percent(
width: 100,
height: 33,
)),
children: [],
),
),
#(
layout.PlaybackTime,
layout.Row(
content: "00:00",
style: layout.Style(dimensions: layout.Percent(
width: 100,
height: 33,
)),
children: [],
),
),
],
]
|> layout.new(0, 0, _)
case case
actor.new(State(redraw, layout)) actor.new(State(redraw, layout))
@@ -52,19 +113,19 @@ fn handle_message(
control: Control, control: Control,
) -> actor.Next(State(redraw, layout), Control) { ) -> actor.Next(State(redraw, layout), Control) {
case control { case control {
control.UpdateDimensions(width, height) -> { control.UpdateDimensions(columns, rows) -> {
let current_dimensions = #(state.layout.width, state.layout.height) let current_dimensions = #(state.layout.columns, state.layout.rows)
case #(width, height) == current_dimensions { case #(columns, rows) == current_dimensions {
True -> actor.continue(state) True -> actor.continue(state)
False -> { False -> {
[width, height] [columns, rows]
|> list.map(int.to_string) |> list.map(int.to_string)
|> string.join(" ") |> string.join(" ")
|> string.append("ui - updating dimensions: ", _) |> string.append("ui - updating dimensions: ", _)
|> logging.log |> logging.log
let layout = layout.update_dimensions(state.layout, width, height) let layout = layout.update_dimensions(state.layout, columns, rows)
process.send(state.redraw, layout) process.send(state.redraw, layout)
actor.continue(State(..state, layout:)) actor.continue(State(..state, layout:))
@@ -83,6 +144,12 @@ fn handle_message(
process.send(reply_to, Nil) process.send(reply_to, Nil)
actor.stop() actor.stop()
} }
control.SetView(view_idx) -> {
let layout = layout.update_current_view(state.layout, view_idx)
actor.send(state.redraw, layout)
actor.continue(State(..state, layout:))
}
} }
} }
@@ -104,28 +171,3 @@ fn update_dimensions_on_interval(ui: Subject(Control), interval_ms: Int) {
process.sleep(interval_ms) process.sleep(interval_ms)
update_dimensions_on_interval(ui, interval_ms) update_dimensions_on_interval(ui, interval_ms)
} }
// fn render_layout(layout: Layout, from: Section) -> Nil {
// string_tree.new()
// |> render_layout_loop(layout, from, _)
// |> string_tree.to_string
// |> ui_internal.print
// }
// fn render_layout_loop(
// layout: Layout,
// from: Section,
// tree: StringTree,
// ) -> StringTree {
// case dict.get(layout.nodes, from) {
// Error(_) -> tree
// Ok(node) -> {
// let acc_after_children =
// list.fold(node.children, tree, fn(current_acc, child_id) {
// render_layout_loop(layout, child_id, current_acc)
// })
// acc_after_children
// |> string_tree.append(ui_internal.chars_at(node.content, node.x, node.y))
// }
// }
// }

22
test/musicplayer/control_test.gleam
View File

@@ -1,7 +1,7 @@
import gleam/list import gleam/list
import gleeunit import gleeunit
import musicplayer/control.{type Control} import musicplayer/control.{type Control, type Mode}
import musicplayer/input/key.{type Key, Char} import musicplayer/input/key.{type Key, Char}
pub fn main() -> Nil { pub fn main() -> Nil {
@@ -9,16 +9,24 @@ pub fn main() -> Nil {
} }
type TestCase { type TestCase {
TestCase(key: Key, expected: Result(Control, Nil)) TestCase(key: Key, mode: Mode, expected: Result(Control, Nil))
} }
pub fn control_from_key_test() { pub fn control_from_key_test() {
let test_cases = [ let idle_tests = [
TestCase(Char(" "), Ok(control.TogglePlayPause)), TestCase(Char(" "), control.Idle, Ok(control.TogglePlayPause)),
TestCase(Char("q"), Ok(control.Exit)), TestCase(Char("/"), control.Idle, Ok(control.Search("", True))),
TestCase(Char("q"), control.Idle, Ok(control.Exit)),
] ]
list.each(test_cases, fn(tc) { let search_tests = [
assert tc.expected == control.from_key(tc.key) TestCase(Char("a"), control.Searching(""), Ok(control.Search("a", True))),
TestCase(Char("b"), control.Searching("a"), Ok(control.Search("ab", True))),
]
let test_cases = [idle_tests, search_tests]
list.each(list.flatten(test_cases), fn(tc) {
assert tc.expected == control.from_key(tc.key, tc.mode)
}) })
} }

191
test/musicplayer/ui/layout_test.gleam
View File

@@ -1,87 +1,116 @@
// import gleam/dict import gleam/dict
// import gleam/int import gleam/io
// import gleeunit import gleam/string
import gleeunit
import gleeunit/should
// import musicplayer/ui/layout.{type Node, Layout, Section} import musicplayer/ui/layout.{Percent, RenderContext, Section, Style}
import musicplayer/ui/plot
// pub fn main() -> Nil { pub fn main() -> Nil {
// gleeunit.main() gleeunit.main()
// } }
// pub fn foo_test() { pub fn percent_layout_test() {
// let expected = "" let views = [
[
#(
Section("Row1"),
layout.Row(
content: "row 1",
style: Style(dimensions: Percent(width: 100, height: 50)),
children: [
Section("A"),
Section("B"),
],
),
),
#(
Section("A"),
layout.Cell(
content: "cell 1",
style: Style(dimensions: Percent(width: 50, height: 100)),
),
),
#(
Section("B"),
layout.Cell(
content: "cell 2",
style: Style(dimensions: Percent(width: 50, height: 100)),
),
),
#(
Section("Row2"),
layout.Row(
content: "row 1",
style: Style(dimensions: Percent(width: 100, height: 50)),
children: [],
),
),
],
]
// let layout = let columns = 80
// Layout( let rows = 20
// width: 80, let layout = layout.new(columns, rows, views)
// height: 20,
// nodes:,
// dict.from_list([
// #(
// Section("Root"),
// Node(
// t: Container,
// content: "container",
// width_percent: 100,
// height_percent: 100,
// children: [
// Section("Row1"),
// Section("Row2"),
// ],
// ),
// ),
// #(
// Section("Row1"),
// Node(
// t: Row,
// content: "row 1",
// width_percent: 100,
// height_percent: 50,
// children: [
// Section("A"),
// Section("B"),
// ],
// ),
// ),
// #(
// Section("A"),
// Node(
// t: Cell,
// content: "cell 1",
// width_percent: 50,
// height_percent: 100,
// children: [],
// ),
// ),
// #(
// B,
// Node(
// t: Cell,
// content: "cell 2",
// width_percent: 50,
// height_percent: 100,
// children: [],
// ),
// ),
// #(
// Section("Row2"),
// Node(
// t: Row,
// content: "row 1",
// width_percent: 100,
// height_percent: 50,
// children: [],
// ),
// ),
// ]),
// )
// let container_width = int.to_float(layout.width) let expected =
// let container_height = int.to_float(layout.height) "
// let container_top_left_x = 1 ┌──────────────────────────────────────────────────────────────────────────────┐
// let container_top_left_y = 1 │row 1────────────────────────────────────────────────────────────────────────┐│
││cell 1───────────────────────────────┐cell 2───────────────────────────────┐││
│││ ││ │││
│││ ││ │││
│││ ││ │││
│││ ││ │││
│││ ││ │││
││└────────────────────────────────────┘└────────────────────────────────────┘││
│└────────────────────────────────────────────────────────────────────────────┘│
│row 1────────────────────────────────────────────────────────────────────────┐│
││ ││
││ ││
││ ││
││ ││
││ ││
││ ││
││ ││
│└────────────────────────────────────────────────────────────────────────────┘│
└──────────────────────────────────────────────────────────────────────────────┘
"
|> string.replace(each: "\n", with: "\r\n")
|> string.trim
// let assert Ok(data) = let context =
// layout.render_loop(layout, container_width, container_height) RenderContext(
// assert data == 123.456789 parent_width: layout.columns,
// } parent_height: layout.rows,
parent_top_left_x: 1,
parent_top_left_y: 1,
position_index: 0,
)
let assert Ok(view) = dict.get(layout.views, layout.current_view)
let flushed =
layout.render_loop(
view,
context,
Section(string.append("view_", string.inspect(layout.current_view))),
dict.new(),
)
|> plot.flush_buffer(layout.columns, layout.rows)
case flushed == expected {
True -> Nil
False -> {
io.println("Test failed")
io.println("Expected:")
io.println(string.trim(expected))
io.println("Got:")
io.println(flushed)
should.equal(flushed, expected)
}
}
}