# Examples ```elixir Mix.install([ :pngex, :kino ]) ``` ## Color Types ### Avaiable formats See [README's Avaiable formats section](https://hexdocs.pm/pngex/readme.html#avaiable-formats). ### RGB / 8 bits per channel ```elixir bitmap = Enum.flat_map(0..65535, fn n -> r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) [r, g, b] end) image = Pngex.new() |> Pngex.set_type(:rgb) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### RGBA / 8 bits per channel ```elixir bitmap = Enum.flat_map(0..65535, fn n -> r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) a = if r + g >= 128 && r + g < 384, do: 255, else: 0 [r, g, b, a] end) image = Pngex.new() |> Pngex.set_type(:rgba) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Indexed (Palette) / 8 bits per channel ```elixir palette = Enum.map(0..255, fn n -> {n, 255, 255 - n} end) bitmap = Enum.map(0..65535, fn n -> rem(n, 256) end) image = Pngex.new() |> Pngex.set_type(:indexed) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.set_palette(palette) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Indexed (Palette) / 1 bit per channel ```elixir palette = [ {0, 255, 255}, {255, 255, 0} ] bitmap = Enum.map(0..65535, fn n -> rem(div(rem(n, 256), 16) + div(n, 4096), 2) end) image = Pngex.new() |> Pngex.set_type(:indexed) |> Pngex.set_depth(:depth1) |> Pngex.set_size(256, 256) |> Pngex.set_palette(palette) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Grayscale / 8 bits per channel ```elixir bitmap = Enum.map(0..65535, fn n -> rem(n, 256) end) image = Pngex.new() |> Pngex.set_type(:gray) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Grayscale / 1 bit per channel ```elixir bitmap = Enum.map(0..65535, fn n -> rem(div(rem(n, 256), 16) + div(n, 4096), 2) end) image = Pngex.new() |> Pngex.set_type(:gray) |> Pngex.set_depth(:depth1) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Grayscale and Alpha / 8 bits per channel ```elixir bitmap = Enum.flat_map(0..65535, fn n -> x = rem(n, 256) y = div(n, 256) alpha = if x + y >= 128 && x + y < 384, do: 255, else: 0 [rem(n, 256), alpha] end) image = Pngex.new() |> Pngex.set_type(:gray_and_alpha) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ## Bitmap Data You can use binary, list of integers and list of tuples. ### Binary | type | example | | ----------------- | ----------------------------------------- | | `:rgb` | `<<r0, g0, b0, r1, g1, b1, ...>>` | | `:rgba` | `<<r0, g0, b0, a0, r1, g1, b1, a1, ...>>` | | `:gray` | `<<c0, c1, ...>` | | `:gray_and_alpha` | `<<c0, a0, c1, a1, ...>>` | | `:indexed` | `<<c0, c1, ...>` | #### RGB / 8 bits per channel ```elixir bitmap = for n <- 0..65535, into: <<>> do r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) <<r, g, b>> end image = Pngex.new() |> Pngex.set_type(:rgb) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` #### RGB / 16 bits per channel ```elixir bitmap = for n <- 0..65535, into: <<>> do r = div(n, 65536) g = rem(n, 65536) b = 65536 - max(r, g) <<r::16, g::16, b::16>> end image = Pngex.new() |> Pngex.set_type(:rgb) |> Pngex.set_depth(:depth16) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### Indexed (Palette) / 1 bit per channel ```elixir palette = [ {0, 255, 255}, {255, 255, 0} ] bitmap = for n <- 0..65535, into: <<>> do pixel = rem(div(rem(n, 256), 16) + div(n, 4096), 2) <<pixel::1>> end image = Pngex.new() |> Pngex.set_type(:indexed) |> Pngex.set_depth(:depth1) |> Pngex.set_size(256, 256) |> Pngex.set_palette(palette) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` #### Grayscale / 1 bit per channel ```elixir bitmap = for n <- 0..65535, into: <<>> do pixel = rem(div(rem(n, 256), 16) + div(n, 4096), 2) <<pixel::1>> end image = Pngex.new() |> Pngex.set_type(:gray) |> Pngex.set_depth(:depth1) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### List of Integers | type | example | | ----------------- | --------------------------------------- | | `:rgb` | `[r0, g0, b0, r1, g1, b1, ...]` | | `:rgba` | `[r0, g0, b0, a0, r1, g1, b1, a1, ...]` | | `:gray` | `[c0, c1, ...]` | | `:gray_and_alpha` | `[c0, a0, c1, a1, ...]` | | `:indexed` | `[c0, c1, ...]` | #### RGB / 8 bits per channel ```elixir bitmap = for n <- 0..65535 do r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) [r, g, b] end |> List.flatten() image = Pngex.new() |> Pngex.set_type(:rgb) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` ### List of Tuples | type | example | | ------- | ------------------------------------------- | | `:rgb` | `[{r0, g0, b0}, {r1, g1, b1}, ...]` | | `:rgba` | `[{r0, g0, b0, a0}, {r1, g1, b1, a1}, ...]` | #### RGB / 8 bits per channel ```elixir bitmap = for n <- 0..65535 do r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) {r, g, b} end image = Pngex.new() |> Pngex.set_type(:rgb) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ``` #### RGBA / 8 bits per channel ```elixir bitmap = for n <- 0..65535 do r = div(n, 256) g = rem(n, 256) b = 255 - max(r, g) a = if r + g >= 128 && r + g < 384, do: 255, else: 0 {r, g, b, a} end image = Pngex.new() |> Pngex.set_type(:rgba) |> Pngex.set_depth(:depth8) |> Pngex.set_size(256, 256) |> Pngex.generate(bitmap) image |> IO.iodata_to_binary() |> Kino.Image.new(:png) ```