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feat: pipeline to create a full mac app

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Chili Palmer
2026-05-30 21:21:07 +02:00
parent 360a8d971a
commit 1d17b6e884
12 changed files with 1061 additions and 6 deletions
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lib/bds/mac_bundle/icon.ex Normal file
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defmodule BDS.MacBundle.Icon do
@moduledoc """
Builds the macOS `AppIcon.icns` for the bDS2 bundle.
The source artwork is the legacy app's pen icon (a gold pen on a gold disc,
imported as `priv/desktop/macos/icon-source.svg`). The bundle icon recolours
the **blue** pen to **red** by rotating any colour whose hue sits in the blue
band, leaving the gold body and warm/neutral tones untouched. Recolouring the
SVG text is fully deterministic and unit-testable; rasterisation then uses the
bundled libvips (`Image`) so no extra system tooling is required for SVG→PNG.
`.icns` packaging itself shells out to the macOS-only `sips`/`iconutil`.
"""
# Hue band (degrees) that counts as "blue" and gets rotated to red.
@blue_low 195
@blue_high 265
# Rotation that maps the pen's ~218221° blues onto ~3581° (red).
@hue_shift 220
# Standard macOS iconset base sizes; each is emitted at @1x and @2x.
@iconset_sizes [16, 32, 128, 256, 512]
@doc "Absolute path to the (blue) source SVG bundled in priv."
@spec source_svg_path() :: String.t()
def source_svg_path do
Application.get_env(:bds, :mac_icon_source_svg) ||
Path.join(:code.priv_dir(:bds), "desktop/macos/icon-source.svg")
end
@doc "Default output path for the generated `.icns`."
@spec icns_path() :: String.t()
def icns_path, do: Path.join(:code.priv_dir(:bds), "desktop/macos/AppIcon.icns")
@doc """
Recolour a single `#RRGGBB` value. Blue-band colours are hue-rotated to red;
everything else is returned unchanged (byte-for-byte, no rounding drift).
"""
@spec recolor_color(String.t()) :: String.t()
def recolor_color("#" <> _ = hex) do
{r, g, b} = to_rgb(hex)
{h, s, l} = rgb_to_hsl(r, g, b)
if h >= @blue_low and h < @blue_high do
new_h = :math.fmod(h - @hue_shift + 360.0, 360.0)
{nr, ng, nb} = hsl_to_rgb(new_h, s, l)
to_hex(nr, ng, nb)
else
String.upcase(hex)
end
end
@doc "Recolour every `#RRGGBB` literal found in an SVG (or any text)."
@spec recolor_svg(String.t()) :: String.t()
def recolor_svg(svg) when is_binary(svg) do
Regex.replace(~r/#[0-9A-Fa-f]{6}/, svg, fn hex -> recolor_color(hex) end)
end
@doc """
Generate the `.icns` from the source SVG. Returns `{:ok, icns_path}`.
Steps: recolour SVG → render a 1024² PNG via libvips → emit the iconset sizes
with `sips` → pack with `iconutil`.
"""
@spec generate(keyword()) :: {:ok, String.t()} | {:error, term()}
def generate(opts \\ []) do
source = Keyword.get(opts, :source_svg, source_svg_path())
icns = Keyword.get(opts, :icns_path, icns_path())
png_1024 = Keyword.get(opts, :png_path, Path.rootname(icns) <> "-1024.png")
with {:ok, svg} <- File.read(source),
:ok <- render_png(recolor_svg(svg), png_1024, 1024),
{:ok, iconset} <- build_iconset(png_1024),
:ok <- run("iconutil", ["-c", "icns", "-o", icns, iconset]) do
File.rm_rf(iconset)
{:ok, icns}
end
end
@doc "Render an SVG string to a square PNG of `size` pixels via libvips."
@spec render_png(String.t(), String.t(), pos_integer()) :: :ok | {:error, term()}
def render_png(svg, png_path, size) do
with {:ok, image} <- Image.from_binary(svg),
{:ok, resized} <- Image.thumbnail(image, size, height: size),
{:ok, _} <- Image.write(resized, png_path) do
:ok
end
end
defp build_iconset(png_1024) do
iconset = Path.rootname(png_1024) <> ".iconset"
File.rm_rf!(iconset)
File.mkdir_p!(iconset)
Enum.reduce_while(@iconset_sizes, {:ok, iconset}, fn base, acc ->
with :ok <- emit_size(png_1024, iconset, base, 1),
:ok <- emit_size(png_1024, iconset, base, 2) do
{:cont, acc}
else
error -> {:halt, error}
end
end)
end
defp emit_size(png_1024, iconset, base, scale) do
px = base * scale
suffix = if scale == 1, do: "#{base}x#{base}", else: "#{base}x#{base}@2x"
out = Path.join(iconset, "icon_#{suffix}.png")
run("sips", ["-z", Integer.to_string(px), Integer.to_string(px), png_1024, "--out", out])
end
defp run(cmd, args) do
case System.cmd(cmd, args, stderr_to_stdout: true) do
{_out, 0} -> :ok
{out, status} -> {:error, {:command_failed, cmd, status, out}}
end
end
# ---- colour space helpers -------------------------------------------------
defp to_rgb("#" <> hex) do
{
String.to_integer(String.slice(hex, 0, 2), 16),
String.to_integer(String.slice(hex, 2, 2), 16),
String.to_integer(String.slice(hex, 4, 2), 16)
}
end
defp to_hex(r, g, b) do
"#" <> pad(r) <> pad(g) <> pad(b)
end
defp pad(v) do
v
|> max(0)
|> min(255)
|> Integer.to_string(16)
|> String.upcase()
|> String.pad_leading(2, "0")
end
defp rgb_to_hsl(r, g, b) do
rf = r / 255.0
gf = g / 255.0
bf = b / 255.0
max = Enum.max([rf, gf, bf])
min = Enum.min([rf, gf, bf])
l = (max + min) / 2.0
d = max - min
if d == 0.0 do
{0.0, 0.0, l}
else
s = if l > 0.5, do: d / (2.0 - max - min), else: d / (max + min)
h =
cond do
max == rf -> :math.fmod((gf - bf) / d + 6.0, 6.0)
max == gf -> (bf - rf) / d + 2.0
true -> (rf - gf) / d + 4.0
end
{h * 60.0, s, l}
end
end
defp hsl_to_rgb(_h, s, l) when s == 0.0 do
v = round(l * 255.0)
{v, v, v}
end
defp hsl_to_rgb(h, s, l) do
q = if l < 0.5, do: l * (1.0 + s), else: l + s - l * s
p = 2.0 * l - q
hk = h / 360.0
{
round(hue_to_channel(p, q, hk + 1.0 / 3.0) * 255.0),
round(hue_to_channel(p, q, hk) * 255.0),
round(hue_to_channel(p, q, hk - 1.0 / 3.0) * 255.0)
}
end
defp hue_to_channel(p, q, t) do
t = :math.fmod(t + 1.0, 1.0)
cond do
t < 1.0 / 6.0 -> p + (q - p) * 6.0 * t
t < 1.0 / 2.0 -> q
t < 2.0 / 3.0 -> p + (q - p) * (2.0 / 3.0 - t) * 6.0
true -> p
end
end
end