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Support Variable in TensorFlow.Gradient and use in mnist example (#116)
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3 changed files with 33 additions and 19 deletions
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@ -24,7 +24,8 @@ import qualified Data.Vector as V
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import qualified TensorFlow.Core as TF
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import qualified TensorFlow.Gradient as TF
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import qualified TensorFlow.Ops as TF
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import qualified TensorFlow.Ops as TF hiding (initializedVariable, zeroInitializedVariable)
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import qualified TensorFlow.Variable as TF
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import TensorFlow.Examples.MNIST.InputData
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import TensorFlow.Examples.MNIST.Parse
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@ -68,13 +69,15 @@ createModel = do
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hiddenWeights <-
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TF.initializedVariable =<< randomParam numPixels [numPixels, numUnits]
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hiddenBiases <- TF.zeroInitializedVariable [numUnits]
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let hiddenZ = (images `TF.matMul` hiddenWeights) `TF.add` hiddenBiases
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let hiddenZ = (images `TF.matMul` TF.readValue hiddenWeights)
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`TF.add` TF.readValue hiddenBiases
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let hidden = TF.relu hiddenZ
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-- Logits.
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logitWeights <-
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TF.initializedVariable =<< randomParam numUnits [numUnits, numLabels]
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logitBiases <- TF.zeroInitializedVariable [numLabels]
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let logits = (hidden `TF.matMul` logitWeights) `TF.add` logitBiases
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let logits = (hidden `TF.matMul` TF.readValue logitWeights)
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`TF.add` TF.readValue logitBiases
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predict <- TF.render $ TF.cast $
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TF.argMax (TF.softmax logits) (TF.scalar (1 :: LabelType))
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@ -87,7 +90,7 @@ createModel = do
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grads <- TF.gradients loss params
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let lr = TF.scalar 0.00001
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applyGrad param grad = TF.assign param $ param `TF.sub` (lr `TF.mul` grad)
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applyGrad param grad = TF.assignAdd param (negate $ lr `TF.mul` grad)
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trainStep <- TF.group =<< zipWithM applyGrad params grads
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let correctPredictions = TF.equal predict labels
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@ -99,6 +99,7 @@ import TensorFlow.Tensor
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, tensorNodeName
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, renderedOutput
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, renderValue
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, ToTensor(..)
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)
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import TensorFlow.Types (Attribute, OneOf, TensorType, attrLens)
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import Proto.Tensorflow.Core.Framework.NodeDef
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@ -116,12 +117,13 @@ type GradientCompatible a =
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-- | Gradient of @y@ w.r.t. each element of @xs@.
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gradients :: forall a v1 v2 m . ( MonadBuild m
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, Rendered (Tensor v2)
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, GradientCompatible a
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)
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gradients :: forall a v1 t m . ( MonadBuild m
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, Rendered t
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, ToTensor t
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, GradientCompatible a
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)
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=> Tensor v1 a -- ^ The output of the graph.
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-> [Tensor v2 a] -- ^ Tensors for which gradients are computed.
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-> [t a] -- ^ Tensors for which gradients are computed.
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-> m [Tensor Value a]
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gradients y xs = build $ do
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-- The gradients are computed using "reverse accumulation", similarly to
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@ -171,10 +173,9 @@ gradients y xs = build $ do
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gradientMap <- graphGrads gr initPending
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-- Lookup the gradients for each x.
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forM xs $ \x ->
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let xName = tensorNodeName x
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in maybe (render $ zerosLike x) return $ do
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let Output i xName = renderedOutput x
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in maybe (render $ zerosLike $ toTensor x) return $ do
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n <- nodeMap ^. at xName
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let i = outputIndex $ renderedOutput x
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gradientMap ^. at n . nonEmpty . outputIxAt i
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outputIxAt :: OutputIx -> Lens' (IntMap.IntMap v) (Maybe v)
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@ -687,9 +688,16 @@ opGrad "Fill" _ _ [dz] = [Nothing, Just $ sum dz rx]
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where
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rx = rangeOfRank dz
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-- Treat read ops as an identity function on the variable. This allows us to
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-- take gradients w.r.t. to the variable handle instead of the result of a read
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-- op. If a variable is read multiple times, the gradients will propagate back
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-- through each read.
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opGrad "ReadVariableOp" _ _ [dz] = [Just $ expr dz]
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-- TODO(fmayle): These can go away if we properly prune the graph.
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opGrad "Const" _ _ _ = [Nothing, Nothing]
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opGrad "Placeholder" _ _ _ = []
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opGrad "VarHandleOp" _ _ _ = []
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opGrad "Variable" _ _ _ = []
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opGrad n nodeDef ins grads =
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@ -723,6 +731,7 @@ numOutputs o =
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"Neg" -> 1
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"Placeholder" -> 1
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"OneHot" -> 1
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"ReadVariableOp" -> 1
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"RefIdentity" -> 1
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"Relu" -> 1
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"ReluGrad" -> 1
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@ -737,6 +746,7 @@ numOutputs o =
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"Tile" -> 1
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"Transpose" -> 1
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"TruncatedNormal" -> 1
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"VarHandleOp" -> 1
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"Variable" -> 1
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"ZerosLike" -> 1
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"Fill" -> 1
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@ -31,9 +31,10 @@ import Control.Monad.IO.Class (liftIO)
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import qualified TensorFlow.Core as TF
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import qualified TensorFlow.GenOps.Core as TF (max, tile)
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import qualified TensorFlow.Gradient as TF
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import qualified TensorFlow.Ops as TF
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import qualified TensorFlow.Ops as TF hiding (zeroInitializedVariable)
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import qualified TensorFlow.Output as TF
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import qualified TensorFlow.Types as TF
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import qualified TensorFlow.Variable as TF
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import Proto.Tensorflow.Core.Framework.Graph (node)
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import Proto.Tensorflow.Core.Framework.NodeDef (op)
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@ -222,7 +223,7 @@ matMulGradient = testCase "matMulGradients" $ do
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let dfBuild = do
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x <- TF.render $ TF.zeros $ TF.Shape [3, 1 :: Int64]
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w <- TF.zeroInitializedVariable $ TF.Shape [1, 2 :: Int64]
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let f = x `TF.matMul` w :: TF.Tensor TF.Build Float
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let f = x `TF.matMul` TF.readValue w :: TF.Tensor TF.Build Float
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dfs <- TF.gradients f [x]
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return (x, dfs)
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@ -242,11 +243,11 @@ matMulGradGrad = testCase "matMulGradGrad" $ do
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let tower = do
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x <- TF.render $ TF.zeros $ TF.Shape [batch, 1]
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w <- TF.zeroInitializedVariable $ TF.Shape [1, width]
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let f = x `TF.matMul` w
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let f = x `TF.matMul` TF.readValue w
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[dfdx] <- TF.gradients f [x]
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let f'x = TF.reduceSum dfdx
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[dfdw] <- TF.gradients f'x [w] -- take gradient again (this time over w)
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return [TF.value w, dfdw]
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return [TF.readValue w, TF.expr dfdw]
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TF.runSession $ do
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[w, dfdw] <- TF.build tower
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@ -255,12 +256,12 @@ matMulGradGrad = testCase "matMulGradGrad" $ do
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let step = w `TF.add` dfdw
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w0 <- TF.run step
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liftIO $ ((V.fromList [4, 4 :: Float]) @=? w0)
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liftIO $ V.fromList [4, 4 :: Float] @=? w0
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-- test that gradient of matMul deals correctly with transpose_a and transpose_b
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matMulTransposeGradient :: (Bool, Bool) -> Test
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matMulTransposeGradient txw = testCase ("matMulTransposeGradients " ++ (show txw)) $ do
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matMulTransposeGradient txw = testCase ("matMulTransposeGradients " ++ show txw) $ do
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let (transposeX, transposeW) = txw
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let dfBuild = do
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@ -268,7 +269,7 @@ matMulTransposeGradient txw = testCase ("matMulTransposeGradients " ++ (show txw
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let xZeros = TF.zeros xShape
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x <- TF.render $ if transposeX then TF.matTranspose xZeros else xZeros
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variable <- TF.zeroInitializedVariable $ TF.Shape [1, 2 :: Int64]
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let wv = if transposeW then TF.matTranspose variable else TF.expr variable
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let wv = if transposeW then TF.matTranspose (TF.readValue variable) else TF.readValue variable
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let f = TF.matMul' (transAttrs transposeX transposeW) x wv :: TF.Tensor TF.Build Float
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w <- TF.render wv
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ds <- TF.gradients f [x, w]
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