Create a separate TensorProtoLens class.

Only a handful of types had sensible tensorVal implementations. This is now evident in type signatures at the expense of them being more verbose.
2024-11-23 03:19:44 +01:00 · 2016-11-02 16:16:16 -07:00 · 2016-11-02 16:16:16 -07:00 · e511f49828
commit e511f49828
parent 29f11d351d
7 changed files with 44 additions and 30 deletions
--- a/tensorflow-nn/src/TensorFlow/NN.hs
+++ b/tensorflow-nn/src/TensorFlow/NN.hs
@ -35,6 +35,7 @@ import TensorFlow.Tensor        ( Tensor(..)
                                , Value(..)
                                )
 import TensorFlow.Types         ( TensorType(..)
                                , TensorProtoLens
                                , OneOf
                                )
 import TensorFlow.Ops           ( zerosLike
@ -70,7 +71,7 @@ import TensorFlow.Ops           ( zerosLike
 --
 --  `logits` and `targets` must have the same type and shape.
 sigmoidCrossEntropyWithLogits
-  :: (OneOf '[Float, Double] a, TensorType a, Num a)
+  :: (OneOf '[Float, Double] a, TensorType a, TensorProtoLens a, Num a)
     => Tensor Value a          -- ^ __logits__
     -> Tensor Value a          -- ^ __targets__
     -> Build (Tensor Value a)
--- a/tensorflow-ops/src/TensorFlow/EmbeddingOps.hs
+++ b/tensorflow-ops/src/TensorFlow/EmbeddingOps.hs
@ -27,7 +27,7 @@ import Data.List (genericLength)
 import TensorFlow.Build (Build, colocateWith, render)
 import TensorFlow.Ops ()  -- Num instance for Tensor
 import TensorFlow.Tensor (Tensor, Value)
-import TensorFlow.Types (OneOf, TensorType)
+import TensorFlow.Types (OneOf, TensorType, TensorProtoLens)
 import qualified TensorFlow.GenOps.Core as CoreOps
 -- | Looks up `ids` in a list of embedding tensors.
@ -46,6 +46,7 @@ import qualified TensorFlow.GenOps.Core as CoreOps
 -- tensor. The returned tensor has shape `shape(ids) + shape(params)[1:]`.
 embeddingLookup :: forall a b v .
                   ( TensorType a
                   , TensorProtoLens b
                   , OneOf '[Int64, Int32] b
                   , Num b
                   )
--- a/tensorflow-ops/src/TensorFlow/Gradient.hs
+++ b/tensorflow-ops/src/TensorFlow/Gradient.hs
@ -94,13 +94,13 @@ import TensorFlow.Tensor
    , tensorOutput
    , tensorAttr
    )
-import TensorFlow.Types (OneOf, TensorType, attrLens)
+import TensorFlow.Types (OneOf, TensorType, TensorProtoLens, attrLens)
 import Proto.Tensorflow.Core.Framework.NodeDef
    (NodeDef, attr, input, op, name)
 type GradientCompatible a =
    -- TODO(fmayle): MaxPoolGrad doesn't support Double for some reason.
-    (Num a, OneOf '[ Float, Complex Float, Complex Double ] a)
+    (Num a, OneOf '[ Float, Complex Float, Complex Double ] a, TensorProtoLens a)
 -- TODO(fmayle): Support control flow.
 -- TODO(fmayle): Support gate_gradients-like option to avoid race conditions.
--- a/tensorflow-ops/src/TensorFlow/Ops.hs
+++ b/tensorflow-ops/src/TensorFlow/Ops.hs
@ -138,6 +138,7 @@ import qualified Prelude (abs)
 -- "neg 1 :: Tensor Value Float", it helps find the type of the subexpression
 -- "1".
 instance ( TensorType a
         , TensorProtoLens a
         , Num a
         , v ~ Value
         , OneOf '[ Double, Float, Int32, Int64
@ -191,7 +192,7 @@ initializedVariable initializer = do
 -- | Creates a zero-initialized variable with the given shape.
 zeroInitializedVariable
-  :: (TensorType a, Num a) =>
+  :: (TensorType a, TensorProtoLens a, Num a) =>
     TensorFlow.Types.Shape -> Build (Tensor TensorFlow.Tensor.Ref a)
 zeroInitializedVariable = initializedVariable . zeros
@ -238,7 +239,8 @@ restore path x = do
 --   element 0:   index (0, ..., 0)
 --   element 1:   index (0, ..., 1)
 --   ...
-constant :: forall a . TensorType a => Shape -> [a] -> Tensor Value a
+constant :: forall a . (TensorType a, TensorProtoLens a)
            => Shape -> [a] -> Tensor Value a
 constant (Shape shape') values
    | invalidLength = error invalidLengthMsg
    | otherwise = buildOp $ opDef "Const"
@ -258,11 +260,11 @@ constant (Shape shape') values
                & tensorVal .~ values
 -- | Create a constant vector.
-vector :: TensorType a => [a] -> Tensor Value a
+vector :: (TensorType a, TensorProtoLens a) => [a] -> Tensor Value a
 vector xs = constant [fromIntegral $ length xs] xs
 -- | Create a constant scalar.
-scalar :: forall a . TensorType a => a -> Tensor Value a
+scalar :: (TensorType a, TensorProtoLens a) => a -> Tensor Value a
 scalar x = constant [] [x]
 -- Random tensor from the unit normal distribution with bounded values.
@ -273,7 +275,8 @@ truncatedNormal = buildOp $ opDef "TruncatedNormal"
                          & opAttr "dtype" .~ tensorType (undefined :: a)
                          & opAttr "T" .~ tensorType (undefined :: Int64)
-zeros :: forall a . (Num a, TensorType a) => Shape -> Tensor Value a
+zeros :: (Num a, TensorType a, TensorProtoLens a)
 => Shape -> Tensor Value a
 zeros (Shape shape') = CoreOps.fill (vector $ map fromIntegral shape') (scalar 0)
 shape :: (TensorType t) => Tensor v1 t -> Tensor Value Int32
--- a/tensorflow-ops/tests/DataFlowOpsTest.hs
+++ b/tensorflow-ops/tests/DataFlowOpsTest.hs
@ -31,8 +31,9 @@ import qualified TensorFlow.Types as TF
 -- DynamicSplit is undone with DynamicStitch to get the original input
 -- back.
-testDynamicPartitionStitchInverse :: forall a.
+testDynamicPartitionStitchInverse ::
-    (TF.TensorType a, Show a, Eq a) => StitchExample a -> Property
+    forall a. (TF.TensorType a, TF.TensorProtoLens a, Show a, Eq a)
    => StitchExample a -> Property
 testDynamicPartitionStitchInverse (StitchExample numParts values partitions) =
   let splitParts :: [TF.Tensor TF.Value a] =
           CoreOps.dynamicPartition numParts (TF.vector values) partTensor
--- a/tensorflow-ops/tests/EmbeddingOpsTest.hs
+++ b/tensorflow-ops/tests/EmbeddingOpsTest.hs
@ -36,8 +36,9 @@ import qualified TensorFlow.Types as TF
 -- Verifies that direct gather is the same as dynamic split into
 -- partitions, followed by embedding lookup.
-testEmbeddingLookupUndoesSplit :: forall a. (TF.TensorType a, Show a, Eq a)
+testEmbeddingLookupUndoesSplit ::
-                               => LookupExample a -> Property
+    forall a. (TF.TensorType a, TF.TensorProtoLens a, Show a, Eq a)
    => LookupExample a -> Property
 testEmbeddingLookupUndoesSplit
    (LookupExample numParts
                   shape@(TF.Shape (firstDim : restDims))
--- a/tensorflow/src/TensorFlow/Types.hs
+++ b/tensorflow/src/TensorFlow/Types.hs
@ -28,6 +28,7 @@
 module TensorFlow.Types
    ( TensorType(..)
    , TensorProtoLens(..)
    , TensorData(..)
    , Shape(..)
    , protoShape
@ -76,13 +77,12 @@ import Proto.Tensorflow.Core.Framework.AttrValue
    )
 import Proto.Tensorflow.Core.Framework.Tensor as Tensor
    ( TensorProto(..)
-    , floatVal
+    , boolVal
    , doubleVal
    , floatVal
    , int64Val
    , intVal
    , stringVal
    , int64Val
    , stringVal
    , boolVal
    )
 import Proto.Tensorflow.Core.Framework.TensorShape
    ( TensorShapeProto(..)
@ -101,7 +101,6 @@ newtype TensorData a = TensorData { unTensorData :: FFI.TensorData }
 class TensorType a where
    tensorType :: a -> DataType
    tensorRefType :: a -> DataType
    tensorVal :: Lens' TensorProto [a]
    -- | Decode the bytes of a TensorData into a Vector.
    decodeTensorData :: TensorData a -> V.Vector a
    -- | Encode a Vector into a TensorData.
@ -113,6 +112,25 @@ class TensorType a where
    --   ...
    encodeTensorData :: Shape -> V.Vector a -> TensorData a
 -- | Class of types that can be used for constructing constant tensors.
 class TensorProtoLens a where
    tensorVal :: Lens' TensorProto [a]
 instance TensorProtoLens Float where
    tensorVal = floatVal
 instance TensorProtoLens Double where
    tensorVal = doubleVal
 instance TensorProtoLens Int32 where
    tensorVal = intVal
 instance TensorProtoLens Int64 where
    tensorVal = int64Val
 instance TensorProtoLens ByteString where
    tensorVal = stringVal
 -- All types, besides ByteString, are encoded as simple arrays and we can use
 -- Vector.Storable to encode/decode by type casting pointers.
@ -130,28 +148,24 @@ simpleEncode (Shape xs)
 instance TensorType Float where
    tensorType _ = DT_FLOAT
    tensorRefType _ = DT_FLOAT_REF
    tensorVal = floatVal
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Double where
    tensorType _ = DT_DOUBLE
    tensorRefType _ = DT_DOUBLE_REF
    tensorVal = doubleVal
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Int32 where
    tensorType _ = DT_INT32
    tensorRefType _ = DT_INT32_REF
    tensorVal = intVal
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Int64 where
    tensorType _ = DT_INT64
    tensorRefType _ = DT_INT64_REF
    tensorVal = int64Val
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
@ -161,40 +175,36 @@ integral = iso (fmap fromIntegral) (fmap fromIntegral)
 instance TensorType Word8 where
    tensorType _ = DT_UINT8
    tensorRefType _ = DT_UINT8_REF
    tensorVal = intVal . integral
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Word16 where
    tensorType _ = DT_UINT16
    tensorRefType _ = DT_UINT16_REF
    tensorVal = intVal . integral
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Int16 where
    tensorType _ = DT_INT16
    tensorRefType _ = DT_INT16_REF
    tensorVal = intVal . integral
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType Int8 where
    tensorType _ = DT_INT8
    tensorRefType _ = DT_INT8_REF
    tensorVal = intVal . integral
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType ByteString where
    tensorType _ = DT_STRING
    tensorRefType _ = DT_STRING_REF
    tensorVal = stringVal
    -- Encoded data layout (described in third_party/tensorflow/c/c_api.h):
    --   table offsets for each element :: [Word64]
    --   at each element offset:
    --     string length :: VarInt64
    --     string data   :: [Word8]
    -- C++ counterparts of these are TF_Tensor_{En,De}codeStrings.
    -- TODO(fmayle): Benchmark these functions.
    decodeTensorData tensorData =
        either (\err -> error $ "Malformed TF_STRING tensor; " ++ err) id $
@ -244,21 +254,18 @@ instance TensorType ByteString where
 instance TensorType Bool where
    tensorType _ = DT_BOOL
    tensorRefType _ = DT_BOOL_REF
    tensorVal = boolVal
    decodeTensorData = simpleDecode
    encodeTensorData = simpleEncode
 instance TensorType (Complex Float) where
    tensorType _ = DT_COMPLEX64
    tensorRefType _ = DT_COMPLEX64
    tensorVal = error "TODO (Complex Float)"
    decodeTensorData = error "TODO (Complex Float)"
    encodeTensorData = error "TODO (Complex Float)"
 instance TensorType (Complex Double) where
    tensorType _ = DT_COMPLEX128
    tensorRefType _ = DT_COMPLEX128
    tensorVal = error "TODO (Complex Double)"
    decodeTensorData = error "TODO (Complex Double)"
    encodeTensorData = error "TODO (Complex Double)"