ChristopheBelpaire/ml.exs

## ml.exs
Mix.install([{:axon, "~> 0.6"}, {:nx, "~> 0.7"}, {:exla, "~> 0.7"}, {:stb_image, "0.6.6"}, {:kino, "~> 0.8"}])


defmodule CatsAndDogs do
  def pipeline(paths, batch_size, target_height, target_width) do
    paths
    |> Enum.shuffle()
    |> Task.async_stream(&parse_image/1)
    |> Stream.filter(fn
       {:ok, {%StbImage{shape: {_, _, 3}}, _}} -> true
       _ -> false end)
    |> Stream.map(&to_tensors(&1, target_height, target_width))
    |> Stream.chunk_every(batch_size, batch_size, :discard)
    |> Stream.map(fn chunks ->
      {img_chunk, label_chunk} = Enum.unzip(chunks)
      {Nx.stack(img_chunk), Nx.stack(label_chunk)}
    end)
  end

  defp parse_image(path) do
   label = if String.contains?(path, "cat"), do: 0, else: 1
   case StbImage.read_file(path) do
      {:ok, img} -> {img, label}
      _error -> :error
    end
  end

  defp to_tensors({:ok, {img, label}}, target_height, target_width) do img_tensor =
    img
    |> StbImage.resize(target_height, target_width)
    |> StbImage.to_nx()
    |> Nx.divide(255)
    label_tensor = Nx.tensor([label])
    {img_tensor, label_tensor}
  end

end


{test_paths, train_paths} = Path.wildcard("/Users/christophebelpaire/perso/machine-learning-in-elixir/train-2/*.jpg")
|> Enum.shuffle()
|> Enum.split(1000)


target_height = 96
target_width = 96
batch_size = 32

train_pipeline = CatsAndDogs.pipeline(
  train_paths, batch_size, target_height, target_width
)
_test_pipeline = CatsAndDogs.pipeline(
  test_paths, batch_size, target_height, target_width
)


cnn_model =
  Axon.input("images", shape: {nil, 96, 96, 3})
  |> Axon.conv(32, kernel_size: {3, 3}, activation: :relu, padding: :same)
  |> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
  |> Axon.conv(64, kernel_size: {3, 3}, activation: :relu, padding: :same)
  |> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
  |> Axon.conv(128, kernel_size: {3, 3}, activation: :relu, padding: :same)
  |> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
  |> Axon.flatten()
  |> Axon.dense(128, activation: :relu)
  |> Axon.dense(1, activation: :sigmoid)


_cnn_trained_model_state =
    cnn_model
    |> Axon.Loop.trainer(:binary_cross_entropy, :adam)
    |> Axon.Loop.metric(:accuracy)
    |> Axon.Loop.run(train_pipeline, %{}, epochs: 5, compiler: EXLA)
	Mix.install([{:axon, "~> 0.6"}, {:nx, "~> 0.7"}, {:exla, "~> 0.7"}, {:stb_image, "0.6.6"}, {:kino, "~> 0.8"}])


	defmodule CatsAndDogs do
	def pipeline(paths, batch_size, target_height, target_width) do
	paths
	\|> Enum.shuffle()
	\|> Task.async_stream(&parse_image/1)
	\|> Stream.filter(fn
	{:ok, {%StbImage{shape: {_, _, 3}}, _}} -> true
	_ -> false end)
	\|> Stream.map(&to_tensors(&1, target_height, target_width))
	\|> Stream.chunk_every(batch_size, batch_size, :discard)
	\|> Stream.map(fn chunks ->
	{img_chunk, label_chunk} = Enum.unzip(chunks)
	{Nx.stack(img_chunk), Nx.stack(label_chunk)}
	end)
	end

	defp parse_image(path) do
	label = if String.contains?(path, "cat"), do: 0, else: 1
	case StbImage.read_file(path) do
	{:ok, img} -> {img, label}
	_error -> :error
	end
	end

	defp to_tensors({:ok, {img, label}}, target_height, target_width) do img_tensor =
	img
	\|> StbImage.resize(target_height, target_width)
	\|> StbImage.to_nx()
	\|> Nx.divide(255)
	label_tensor = Nx.tensor([label])
	{img_tensor, label_tensor}
	end

	end


	{test_paths, train_paths} = Path.wildcard("/Users/christophebelpaire/perso/machine-learning-in-elixir/train-2/*.jpg")
	\|> Enum.shuffle()
	\|> Enum.split(1000)


	target_height = 96
	target_width = 96
	batch_size = 32

	train_pipeline = CatsAndDogs.pipeline(
	train_paths, batch_size, target_height, target_width
	)
	_test_pipeline = CatsAndDogs.pipeline(
	test_paths, batch_size, target_height, target_width
	)



	cnn_model =
	Axon.input("images", shape: {nil, 96, 96, 3})
	\|> Axon.conv(32, kernel_size: {3, 3}, activation: :relu, padding: :same)
	\|> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
	\|> Axon.conv(64, kernel_size: {3, 3}, activation: :relu, padding: :same)
	\|> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
	\|> Axon.conv(128, kernel_size: {3, 3}, activation: :relu, padding: :same)
	\|> Axon.max_pool(kernel_size: {2, 2}, strides: [2, 2])
	\|> Axon.flatten()
	\|> Axon.dense(128, activation: :relu)
	\|> Axon.dense(1, activation: :sigmoid)


	_cnn_trained_model_state =
	cnn_model
	\|> Axon.Loop.trainer(:binary_cross_entropy, :adam)
	\|> Axon.Loop.metric(:accuracy)
	\|> Axon.Loop.run(train_pipeline, %{}, epochs: 5, compiler: EXLA)