{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE UndecidableInstances #-}
module TensorFlow.Nodes where
import Control.Applicative (liftA2, liftA3)
import Data.Functor.Identity (Identity)
import Data.Map.Strict (Map)
import Data.Monoid ((<>))
import Data.Set (Set)
import Data.Text (Text)
import qualified Data.Map.Strict as Map
import qualified Data.Set as Set
import TensorFlow.Build
import TensorFlow.Output
import TensorFlow.Tensor
import TensorFlow.Types
import qualified TensorFlow.Internal.FFI as FFI
class Nodes t where
getNodes :: t -> Build (Set NodeName)
class Nodes t => Fetchable t a where
getFetch :: t -> Build (Fetch a)
data Fetch a = Fetch
{
fetches :: Set Text
, fetchRestore :: Map Text FFI.TensorData -> a
}
instance Functor Fetch where
fmap f (Fetch fetch restore) = Fetch fetch (f . restore)
instance Applicative Fetch where
pure x = Fetch Set.empty (const x)
Fetch fetch restore <*> Fetch fetch' restore' =
Fetch (fetch <> fetch') (restore <*> restore')
nodesUnion :: (Monoid b, Traversable t, Applicative f) => t (f b) -> f b
nodesUnion = fmap (foldMap id) . sequenceA
instance (Nodes t1, Nodes t2) => Nodes (t1, t2) where
getNodes (x, y) = nodesUnion [getNodes x, getNodes y]
instance (Nodes t1, Nodes t2, Nodes t3) => Nodes (t1, t2, t3) where
getNodes (x, y, z) = nodesUnion [getNodes x, getNodes y, getNodes z]
instance (Fetchable t1 a1, Fetchable t2 a2) => Fetchable (t1, t2) (a1, a2) where
getFetch (x, y) = liftA2 (,) <$> getFetch x <*> getFetch y
instance (Fetchable t1 a1, Fetchable t2 a2, Fetchable t3 a3)
=> Fetchable (t1, t2, t3) (a1, a2, a3) where
getFetch (x, y, z) =
liftA3 (,,) <$> getFetch x <*> getFetch y <*> getFetch z
instance Nodes t => Nodes [t] where
getNodes = nodesUnion . map getNodes
instance Fetchable t a => Fetchable [t] [a] where
getFetch ts = sequenceA <$> mapM getFetch ts
instance Nodes t => Nodes (Maybe t) where
getNodes = nodesUnion . fmap getNodes
instance Fetchable t a => Fetchable (Maybe t) (Maybe a) where
getFetch = fmap sequenceA . mapM getFetch
instance Nodes ControlNode where
getNodes (ControlNode o) = pure $ Set.singleton o
instance a ~ () => Fetchable ControlNode a where
getFetch _ = return $ pure ()
instance Nodes (ListOf f '[]) where
getNodes _ = return Set.empty
instance (Nodes (f a), Nodes (ListOf f as)) => Nodes (ListOf f (a ': as)) where
getNodes (x :/ xs) = liftA2 Set.union (getNodes x) (getNodes xs)
instance l ~ List '[] => Fetchable (ListOf f '[]) l where
getFetch _ = return $ pure Nil
instance (Fetchable (f t) a, Fetchable (ListOf f ts) (List as), i ~ Identity)
=> Fetchable (ListOf f (t ': ts)) (ListOf i (a ': as)) where
getFetch (x :/ xs) = liftA2 (\y ys -> y /:/ ys) <$> getFetch x <*> getFetch xs
instance Nodes (Tensor v a) where
getNodes (Tensor o) = Set.singleton . outputNodeName <$> toBuild o
fetchTensorVector :: forall a v . (TensorType a)
=> Tensor v a -> Build (Fetch (TensorData a))
fetchTensorVector (Tensor o) = do
outputName <- encodeOutput <$> toBuild o
pure $ Fetch (Set.singleton outputName) $ \tensors ->
let tensorData = tensors Map.! outputName
expectedType = tensorType (undefined :: a)
actualType = FFI.tensorDataType tensorData
badTypeError = error $ "Bad tensor type: expected "
++ show expectedType
++ ", got "
++ show actualType
in if expectedType /= actualType
then badTypeError
else TensorData tensorData
instance (TensorType a, a ~ a') => Fetchable (Tensor v a) (TensorData a') where
getFetch = fetchTensorVector
instance (TensorType a, TensorDataType s a, a ~ a') => Fetchable (Tensor v a) (s a') where
getFetch t = fmap decodeTensorData <$> fetchTensorVector t