wip

src/musicplayer/ui/ansi.gleam

@@ -0,0 +1,42 @@
+import gleam/list
+import gleam/string
+import gleam/string_tree
+
+import musicplayer/ui/internal
+
+pub fn text(chars: String, x: Int, y: Int) {
+  internal.chars_at(chars, x, y)
+}
+
+pub fn box(x: Int, y: Int, width: Int, height: Int) -> String {
+  let box_chars = #("┌", "┐", "└", "┘", "─", "│")
+  let #(tl, tr, bl, br, h, v) = box_chars
+
+  // Add top of box
+  let tree =
+    string_tree.new()
+    |> string_tree.append(internal.chars_at(
+      tl <> string.repeat(h, width - 2) <> tr,
+      x,
+      y,
+    ))
+
+  // Add sides of box
+  let tree_with_sides =
+    list.range(1, height - 2)
+    |> list.map(fn(row) {
+      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.concat
+
+  // Add bottom of box
+  tree_with_sides
+  |> string_tree.append(internal.chars_at(
+    bl <> string.repeat(h, width - 2) <> br,
+    x,
+    y + height - 1,
+  ))
+  |> string_tree.to_string
+}

src/musicplayer/ui/layout.gleam

@@ -6,6 +6,7 @@ import gleam/string
 import gleam/string_tree
 
 import musicplayer/logging/logging
+import musicplayer/ui/ansi
 import musicplayer/ui/internal
 
 pub type Section {
@@ -42,63 +43,46 @@ pub fn new() -> Layout {
   let nodes =
     dict.from_list([
       #(
-        Section("Root"),
+        Root,
         Node(
           t: Container,
-          content: "container",
+          content: "Music Player",
           width_percent: 100,
           height_percent: 100,
-          children: [
-            Section("Row1"),
-            Section("Row2"),
-          ],
+          children: [Header, Search, PlaybackTime],
         ),
       ),
       #(
-        Section("Row1"),
+        Header,
         Node(
           t: Row,
-          content: "row 1",
+          content: "Foo (1) | Bar (2) | Baz (3)",
           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,
+          height_percent: 33,
           children: [],
         ),
       ),
       #(
-        Section("B"),
+        Search,
         Node(
-          t: Cell,
-          content: "cell 2",
-          width_percent: 50,
-          height_percent: 100,
+          t: Row,
+          content: "",
+          width_percent: 100,
+          height_percent: 33,
           children: [],
         ),
       ),
       #(
-        Section("Row2"),
+        PlaybackTime,
         Node(
           t: Row,
-          content: "row 1",
+          content: "00:00",
           width_percent: 100,
-          height_percent: 50,
+          height_percent: 33,
           children: [],
         ),
       ),
     ])
-
   Layout(width: 0, height: 0, nodes: nodes)
 }
 
@@ -138,13 +122,13 @@ pub fn render(layout: Layout) -> Nil {
   let container_top_left_x = 1
   let container_top_left_y = 1
 
-  let ansi_ops =
-    RenderOps(
-      draw_box: fn(tree, x, y, w, h) {
-        string_tree.append(tree, draw_box(x, y, w, h))
+  let ansi_renders =
+    Renders(
+      box: fn(tree, x, y, w, h) {
+        string_tree.append(tree, ansi.box(x, y, w, h))
       },
-      draw_text: fn(tree, text, x, y) {
-        string_tree.append(tree, internal.chars_at(text, x, y))
+      text: fn(tree, chars, x, y) {
+        string_tree.append(tree, ansi.text(chars, x, y))
       },
     )
 
@@ -156,18 +140,18 @@ pub fn render(layout: Layout) -> Nil {
     container_top_left_x,
     container_top_left_y,
     0,
-    Section("Root"),
+    Root,
     _,
-    ansi_ops,
+    ansi_renders,
   )
   |> string_tree.to_string
   |> internal.print
 }
 
-pub type RenderOps(ctx) {
-  RenderOps(
-    draw_box: fn(ctx, Int, Int, Int, Int) -> ctx,
-    draw_text: fn(ctx, String, Int, Int) -> ctx,
+pub type Renders(into) {
+  Renders(
+    text: fn(into, String, Int, Int) -> into,
+    box: fn(into, Int, Int, Int, Int) -> into,
   )
 }
 
@@ -181,15 +165,12 @@ pub fn render_generic(
   // State
   index: Int,
   from: Section,
-  current_ctx: ctx,
-  // <--- Generic State
-  ops: RenderOps(ctx),
-  // <--- The Strategy
-) -> ctx {
+  render_into: into,
+  renders: Renders(into),
+) -> into {
   case dict.get(layout.nodes, from) {
-    Error(_) -> current_ctx
+    Error(_) -> render_into
     Ok(node) -> {
-      // --- 1. MATH (Shared Logic) ---
       let margin = 2.0
 
       let width =
@@ -208,16 +189,14 @@ pub fn render_generic(
         Cell -> #(container_tl_x + { index * width }, container_tl_y)
       }
 
-      // --- 2. RENDER PARENT (Using Generic Ops) ---
-      // We modify the context using the provided functions
-      let ctx_with_parent =
-        current_ctx
-        |> ops.draw_box(cx, cy, width, height)
-        |> ops.draw_text(node.content, cx, cy)
+      let parent =
+        render_into
+        |> renders.box(cx, cy, width, height)
+        // + 2 for header margin
+        |> renders.text(node.content, cx + 2, cy)
 
-      // --- 3. RECURSE CHILDREN ---
       list.index_map(node.children, fn(child, i) { #(i, child) })
-      |> list.fold(ctx_with_parent, fn(acc_ctx, ic) {
+      |> list.fold(parent, fn(acc_into, ic) {
         let #(i, child) = ic
 
         let cw =
@@ -243,43 +222,10 @@ pub fn render_generic(
           child_origin_y,
           i,
           child,
-          acc_ctx,
-          ops,
+          acc_into,
+          renders,
         )
       })
     }
   }
 }
-
-fn draw_box(x: Int, y: Int, width: Int, height: Int) -> String {
-  let box_chars = #("┌", "┐", "└", "┘", "─", "│")
-  let #(tl, tr, bl, br, h, v) = box_chars
-
-  // Add top of box
-  let tree =
-    string_tree.new()
-    |> string_tree.append(internal.chars_at(
-      tl <> string.repeat(h, width - 2) <> tr,
-      x,
-      y,
-    ))
-
-  // Add sides of box
-  let tree_with_sides =
-    list.range(1, height - 2)
-    |> list.map(fn(row) {
-      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.concat
-
-  // Add bottom of box
-  tree_with_sides
-  |> string_tree.append(internal.chars_at(
-    bl <> string.repeat(h, width - 2) <> br,
-    x,
-    y + height - 1,
-  ))
-  |> string_tree.to_string
-}

src/musicplayer/ui/layout_examples/layout_examples.gleam

@@ -0,0 +1,82 @@
+import gleam/dict
+
+import musicplayer/ui/internal
+import musicplayer/ui/layout.{Container, Layout, Node, Section}
+import musicplayer/ui/layout_examples/wait_for_input.{wait_for_input}
+
+pub fn main() {
+  let assert Ok(width) = internal.io_get_columns()
+  let assert Ok(height) = internal.io_get_rows()
+
+  two_rows_with_cells(width, height)
+  |> layout.render
+
+  wait_for_input()
+}
+
+/// Two rows:
+/// First row has two cells
+/// Second row has no cells
+fn two_rows_with_cells(width: Int, height: Int) -> layout.Layout {
+  let 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: layout.Row,
+          content: "row 1",
+          width_percent: 100,
+          height_percent: 50,
+          children: [
+            Section("A"),
+            Section("A"),
+          ],
+        ),
+      ),
+      #(
+        Section("A"),
+        Node(
+          t: layout.Cell,
+          content: "cell 1",
+          width_percent: 50,
+          height_percent: 100,
+          children: [],
+        ),
+      ),
+      #(
+        Section("B"),
+        Node(
+          t: layout.Cell,
+          content: "cell 2",
+          width_percent: 50,
+          height_percent: 100,
+          children: [],
+        ),
+      ),
+      #(
+        Section("Row2"),
+        Node(
+          t: layout.Row,
+          content: "row 2",
+          width_percent: 100,
+          height_percent: 50,
+          children: [],
+        ),
+      ),
+    ])
+
+  Layout(width:, height:, nodes: nodes)
+}

src/musicplayer/ui/layout_examples/one.gleam

@@ -1,3 +0,0 @@
-pub fn main() {
-  echo "hello"
-}

src/musicplayer/ui/layout_examples/wait_for_input.gleam

@@ -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
+}

test/musicplayer/ui/layout_test.gleam

@@ -1,13 +1,11 @@
 import gleam/dict
-import gleam/float
-import gleam/int
-import gleam/list
+import gleam/io
 import gleam/string
 import gleeunit
+import gleeunit/should
+import musicplayer/ui/virtual_ansi
 
-import musicplayer/ui/layout.{
-  type Layout, type Section, Layout, Node, RenderOps, Section,
-}
+import musicplayer/ui/layout.{Layout, Node, Section}
 
 pub fn main() -> Nil {
   gleeunit.main()
@@ -102,133 +100,19 @@ container───────────────────────
 └──────────────────────────────────────────────────────────────────────────────┘
 "
 
-  let visual = render_to_visual(layout, Section("Root"), 80, 20)
-  assert visual == string.trim(expected)
-}
-
-pub type Screen =
-  dict.Dict(#(Int, Int), String)
-
-pub fn render_to_visual(
-  layout: Layout,
-  root: Section,
-  width: Int,
-  height: Int,
-) -> String {
-  // 1. Define the Strategy: How to draw on a Dict
-  let test_ops =
-    RenderOps(
-      draw_box: fn(screen, x, y, w, h) { plot_box(screen, x, y, w, h) },
-      draw_text: fn(screen, text, x, y) { plot_text(screen, text, x, y) },
-    )
-
-  // 2. Run the generic logic (reusing the exact math from your real app)
-  let final_screen =
-    layout.render_generic(
-      layout,
-      int.to_float(width),
-      int.to_float(height),
-      1,
-      // Start X (1-based for ANSI compatibility)
-      1,
-      // Start Y
-      0,
-      // Root index
-      root,
-      dict.new(),
-      // Initial Context
-      test_ops,
-    )
-
-  // 3. Convert the Grid to a Visual String
-  screen_to_string(final_screen)
-}
-
-// ----------------------------------------------------------------------------
-// Plotting Primitives (The "Graphics Engine" for Tests)
-// ----------------------------------------------------------------------------
-
-fn plot_text(screen: Screen, text: String, start_x: Int, y: Int) -> Screen {
-  // We use to_graphemes to ensure Unicode characters (like emoji or box lines)
-  // are treated as single visual units.
-  text
-  |> string.to_graphemes
-  |> list.index_fold(screen, fn(acc, char, i) {
-    dict.insert(acc, #(start_x + i, y), char)
-  })
-}
-
-fn plot_box(screen: Screen, x: Int, y: Int, w: Int, h: Int) -> Screen {
-  let box_chars = #("┌", "┐", "└", "┘", "─", "│")
-  let #(tl, tr, bl, br, hor, ver) = box_chars
-
-  // Don't draw impossible boxes
-  case w < 2 || h < 2 {
-    True -> screen
+  let visual =
+    virtual_ansi.render(layout, Section("Root"), layout.width, layout.height)
+  case visual == string.trim(expected) {
+    True -> Nil
     False -> {
-      screen
-      // 1. Corners
-      |> dict.insert(#(x, y), tl)
-      |> dict.insert(#(x + w - 1, y), tr)
-      |> dict.insert(#(x, y + h - 1), bl)
-      |> dict.insert(#(x + w - 1, y + h - 1), br)
-      // 2. Top and Bottom edges
-      |> plot_line_hor(x + 1, y, w - 2, hor)
-      |> plot_line_hor(x + 1, y + h - 1, w - 2, hor)
-      // 3. Side edges
-      |> plot_line_ver(x, y + 1, h - 2, ver)
-      |> plot_line_ver(x + w - 1, y + 1, h - 2, ver)
+      io.println("Test failed")
+      io.println("Expected:")
+      io.println(string.trim(expected))
+
+      io.println("Got:")
+      io.println(visual)
+
+      should.equal(visual, expected)
     }
   }
 }
-
-fn plot_line_hor(
-  screen: Screen,
-  x: Int,
-  y: Int,
-  len: Int,
-  char: String,
-) -> Screen {
-  list.range(0, len - 1)
-  |> list.fold(screen, fn(acc, i) { dict.insert(acc, #(x + i, y), char) })
-}
-
-fn plot_line_ver(
-  screen: Screen,
-  x: Int,
-  y: Int,
-  len: Int,
-  char: String,
-) -> Screen {
-  list.range(0, len - 1)
-  |> list.fold(screen, fn(acc, i) { dict.insert(acc, #(x, y + i), char) })
-}
-
-// ----------------------------------------------------------------------------
-// Output Formatting
-// ----------------------------------------------------------------------------
-
-fn screen_to_string(screen: Screen) -> String {
-  let keys = dict.keys(screen)
-
-  // Find the bounding box of the drawing
-  let max_x = list.fold(keys, 0, fn(m, k) { int.max(m, k.0) })
-  let max_y = list.fold(keys, 0, fn(m, k) { int.max(m, k.1) })
-
-  // We start from 1 because ANSI is 1-based
-  let min_y = list.fold(keys, 1000, fn(m, k) { int.min(m, k.1) })
-
-  list.range(min_y, max_y)
-  |> list.map(fn(y) {
-    list.range(1, max_x)
-    |> list.map(fn(x) {
-      case dict.get(screen, #(x, y)) {
-        Ok(char) -> char
-        Error(_) -> " "
-        // Fill gaps with space
-      }
-    })
-    |> string.join("")
-  })
-  |> string.join("\n")
-}

test/musicplayer/ui/virtual_ansi.gleam

@@ -0,0 +1,113 @@
+import gleam/dict
+import gleam/int
+import gleam/list
+import gleam/string
+
+import musicplayer/ui/layout.{type Layout, type Section, Renders}
+
+pub type Screen =
+  dict.Dict(#(Int, Int), String)
+
+pub fn render(layout: Layout, root: Section, width: Int, height: Int) -> String {
+  let test_renders =
+    Renders(
+      box: fn(screen, x, y, w, h) { box(screen, x, y, w, h) },
+      text: fn(screen, chars, x, y) { text(screen, chars, x, y) },
+    )
+
+  let screen =
+    layout.render_generic(
+      layout,
+      int.to_float(width),
+      int.to_float(height),
+      1,
+      1,
+      0,
+      root,
+      dict.new(),
+      test_renders,
+    )
+
+  screen_to_string(screen)
+}
+
+pub fn screen_to_string(screen: Screen) -> String {
+  let keys = dict.keys(screen)
+
+  // Find the bounding box of the drawing
+  let max_x = list.fold(keys, 0, fn(m, k) { int.max(m, k.0) })
+  let max_y = list.fold(keys, 0, fn(m, k) { int.max(m, k.1) })
+
+  // We start from 1 because ANSI is 1-based
+  let min_y = list.fold(keys, 1000, fn(m, k) { int.min(m, k.1) })
+
+  list.range(min_y, max_y)
+  |> list.map(fn(y) {
+    list.range(1, max_x)
+    |> list.map(fn(x) {
+      case dict.get(screen, #(x, y)) {
+        Ok(char) -> char
+        Error(_) -> " "
+        // Fill gaps with space
+      }
+    })
+    |> string.join("")
+  })
+  |> string.join("\n")
+}
+
+pub fn text(screen: Screen, text: String, start_x: Int, y: Int) -> Screen {
+  // We use to_graphemes to ensure Unicode characters (like emoji or box lines)
+  // are treated as single visual units
+  text
+  |> string.to_graphemes
+  |> list.index_fold(screen, fn(acc, char, i) {
+    dict.insert(acc, #(start_x + i, y), char)
+  })
+}
+
+pub fn box(screen: Screen, x: Int, y: Int, w: Int, h: Int) -> Screen {
+  let box_chars = #("┌", "┐", "└", "┘", "─", "│")
+  let #(tl, tr, bl, br, hor, ver) = box_chars
+
+  // Don't draw impossible boxes
+  case w < 2 || h < 2 {
+    True -> screen
+    False -> {
+      screen
+      // 1. Corners
+      |> dict.insert(#(x, y), tl)
+      |> dict.insert(#(x + w - 1, y), tr)
+      |> dict.insert(#(x, y + h - 1), bl)
+      |> dict.insert(#(x + w - 1, y + h - 1), br)
+      // 2. Top and Bottom edges
+      |> horizontal_line(x + 1, y, w - 2, hor)
+      |> horizontal_line(x + 1, y + h - 1, w - 2, hor)
+      // 3. Side edges
+      |> vertical_line(x, y + 1, h - 2, ver)
+      |> vertical_line(x + w - 1, y + 1, h - 2, ver)
+    }
+  }
+}
+
+fn horizontal_line(
+  screen: Screen,
+  x: Int,
+  y: Int,
+  len: Int,
+  char: String,
+) -> Screen {
+  list.range(0, len - 1)
+  |> list.fold(screen, fn(acc, i) { dict.insert(acc, #(x + i, y), char) })
+}
+
+fn vertical_line(
+  screen: Screen,
+  x: Int,
+  y: Int,
+  len: Int,
+  char: String,
+) -> Screen {
+  list.range(0, len - 1)
+  |> list.fold(screen, fn(acc, i) { dict.insert(acc, #(x, y + i), char) })
+}