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In addition, you can now fetch TensorData directly. This might be useful in scenarios where you feed the result of a computation back in, like RNN. Before: benchmarking feedFetch/4 byte time 83.31 μs (81.88 μs .. 84.75 μs) 0.997 R² (0.994 R² .. 0.998 R²) mean 87.32 μs (86.06 μs .. 88.83 μs) std dev 4.580 μs (3.698 μs .. 5.567 μs) variance introduced by outliers: 55% (severely inflated) benchmarking feedFetch/4 KiB time 114.9 μs (111.5 μs .. 118.2 μs) 0.996 R² (0.994 R² .. 0.998 R²) mean 117.3 μs (116.2 μs .. 118.6 μs) std dev 3.877 μs (3.058 μs .. 5.565 μs) variance introduced by outliers: 31% (moderately inflated) benchmarking feedFetch/4 MiB time 109.0 ms (107.9 ms .. 110.7 ms) 1.000 R² (0.999 R² .. 1.000 R²) mean 108.6 ms (108.2 ms .. 109.2 ms) std dev 740.2 μs (353.2 μs .. 1.186 ms) After: benchmarking feedFetch/4 byte time 82.92 μs (80.55 μs .. 85.24 μs) 0.996 R² (0.993 R² .. 0.998 R²) mean 83.58 μs (82.34 μs .. 84.89 μs) std dev 4.327 μs (3.664 μs .. 5.375 μs) variance introduced by outliers: 54% (severely inflated) benchmarking feedFetch/4 KiB time 85.69 μs (83.81 μs .. 87.30 μs) 0.997 R² (0.996 R² .. 0.999 R²) mean 86.99 μs (86.11 μs .. 88.15 μs) std dev 3.608 μs (2.854 μs .. 5.273 μs) variance introduced by outliers: 43% (moderately inflated) benchmarking feedFetch/4 MiB time 1.582 ms (1.509 ms .. 1.677 ms) 0.970 R² (0.936 R² .. 0.993 R²) mean 1.645 ms (1.554 ms .. 1.981 ms) std dev 490.6 μs (138.9 μs .. 1.067 ms) variance introduced by outliers: 97% (severely inflated)
188 lines
7.4 KiB
Haskell
188 lines
7.4 KiB
Haskell
-- Copyright 2016 TensorFlow authors.
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--
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-- Licensed under the Apache License, Version 2.0 (the "License");
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-- you may not use this file except in compliance with the License.
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-- You may obtain a copy of the License at
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--
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-- http://www.apache.org/licenses/LICENSE-2.0
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--
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-- Unless required by applicable law or agreed to in writing, software
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-- distributed under the License is distributed on an "AS IS" BASIS,
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-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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-- See the License for the specific language governing permissions and
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-- limitations under the License.
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{-# LANGUAGE FlexibleContexts #-}
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{-# LANGUAGE RankNTypes #-}
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{-# LANGUAGE ScopedTypeVariables #-}
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-- | Tests for EmbeddingOps.
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module Main where
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import Data.Int (Int32, Int64)
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import Data.List (genericLength)
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import Google.Test (googleTest)
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import TensorFlow.EmbeddingOps (embeddingLookup)
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import Test.Framework (Test)
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import Test.Framework.Providers.QuickCheck2 (testProperty)
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import Test.HUnit ((@=?))
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import Test.Framework.Providers.HUnit (testCase)
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import Test.QuickCheck (Arbitrary(..), Property, choose, vectorOf)
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import Test.QuickCheck.Monadic (monadicIO, run)
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import TensorFlow.Test (assertAllClose)
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import qualified Data.Vector as V
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import qualified TensorFlow.GenOps.Core as CoreOps
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import qualified TensorFlow.Ops as TF
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import qualified TensorFlow.Session as TF
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import qualified TensorFlow.Tensor as TF
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import qualified TensorFlow.Types as TF
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import qualified TensorFlow.Gradient as TF
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import qualified TensorFlow.Build as TF
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import qualified TensorFlow.Nodes as TF
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buildAndRun :: TF.Fetchable t a => TF.Build t -> IO a
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buildAndRun = TF.runSession . TF.buildAnd TF.run
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-- | Tries to perform a simple embedding lookup, with two partitions.
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testEmbeddingLookupHasRightShapeWithPartition :: Test
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testEmbeddingLookupHasRightShapeWithPartition =
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testCase "testEmbeddingLookupHasRightShapeWithPartition" $ do
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let embShape = TF.Shape [1, 3] -- Consider a 3-dim embedding of two items.
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let embedding1 = [1, 1, 1 :: Int32]
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let embedding2 = [0, 0, 0 :: Int32]
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let embedding = [ TF.constant embShape embedding1
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, TF.constant embShape embedding2
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]
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let idValues = [0, 1 :: Int32]
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let ids = TF.constant (TF.Shape [1, 2]) idValues
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let op = embeddingLookup embedding ids
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(values, shape) <- buildAndRun $ do
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vs <- op
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return (vs, TF.shape vs)
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-- This is the shape that is returned in the equiv. Python.
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shape @=? V.fromList [1, 2, 3]
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-- "[0, 1]" should pull out the resulting vector.
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values @=? V.fromList [1, 1, 1, 0, 0, 0]
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-- | Tries to perform a simple embedding lookup, with only a single partition.
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testEmbeddingLookupHasRightShape :: Test
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testEmbeddingLookupHasRightShape =
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testCase "testEmbeddingLookupHasRightShape" $ do
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-- Consider a 3-dim embedding of two items
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let embShape = TF.Shape [2, 3]
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let embeddingInit = [ 1, 1, 1
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, 0, 0, 0 :: Int32
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]
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let embedding = TF.constant embShape embeddingInit
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let idValues = [0, 1 :: Int32]
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let ids = TF.constant (TF.Shape [1, 2]) idValues
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let op = embeddingLookup [embedding] ids
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(values, shape) <- buildAndRun $ do
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vs <- op
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return (vs, TF.shape vs)
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-- This is the shape that is returned in the equiv. Python.
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shape @=? V.fromList [1, 2, 3]
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-- "[0, 1]" should pull out the resulting vector.
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values @=? V.fromList [1, 1, 1, 0, 0, 0]
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-- | Check that we can calculate gradients w.r.t embeddings.
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testEmbeddingLookupGradients :: Test
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testEmbeddingLookupGradients = testCase "testEmbeddingLookupGradients" $ do
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-- Agrees with "embedding", so gradient should be zero.
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let xVals = V.fromList ([20, 20 :: Float])
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let shape = TF.Shape [2]
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gs <- TF.runSession $ do
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grads <- TF.build $ do
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let embShape = TF.Shape [2, 1]
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let embeddingInit = [1, 20 ::Float]
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let idValues = [1, 1 :: Int32]
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let ids = TF.constant (TF.Shape [1, 2]) idValues
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x <- TF.placeholder (TF.Shape [2])
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embedding <- TF.initializedVariable
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=<< TF.render (TF.constant embShape embeddingInit)
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op <- embeddingLookup [embedding] ids
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let twoNorm = CoreOps.square $ TF.abs (op - x)
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loss = TF.mean twoNorm (TF.scalar (0 :: Int32))
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grad <- fmap head (TF.gradients loss [embedding])
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return $ \xs -> TF.runWithFeeds [TF.feed x xs] grad
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grads (TF.encodeTensorData shape xVals :: TF.TensorData Float)
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-- Gradients should be zero (or close)
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assertAllClose gs (V.fromList ([0, 0 :: Float]))
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-- Verifies that direct gather is the same as dynamic split into
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-- partitions, followed by embedding lookup.
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testEmbeddingLookupUndoesSplit ::
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forall a. (TF.TensorDataType V.Vector a, Show a, Eq a)
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=> LookupExample a -> Property
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testEmbeddingLookupUndoesSplit
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(LookupExample numParts
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shape@(TF.Shape (firstDim : restDims))
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values
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indices) =
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let modShardedValues :: [TF.Tensor TF.Value a] =
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CoreOps.dynamicPartition numParts shapedValues cyclicCounter
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cyclicCounter :: TF.Tensor TF.Value Int32 =
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TF.vector [0..fromIntegral firstDim-1]
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`CoreOps.mod` fromIntegral numParts
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indicesVector = TF.vector indices
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directs = CoreOps.gather shapedValues indicesVector
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shapedValues = TF.constant shape values
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in monadicIO $ run $ do
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(shapeOut, got, want :: V.Vector a) <-
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TF.runSession $ TF.buildAnd TF.run $ do
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embeddings <- embeddingLookup modShardedValues indicesVector
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return (TF.cast (TF.shape embeddings), embeddings, directs)
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-- Checks the explicitly documented invariant of embeddingLookup.
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shapeOut @=? V.fromList (genericLength indices : restDims)
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got @=? want
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testEmbeddingLookupUndoesSplit _ = error "Bug in Arbitrary (LookupExample)"
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-- | Consistent set of parameters for EmbeddingLookupUndoesSplit.
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data LookupExample a = LookupExample
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Int64 -- ^ number of ways to split.
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TF.Shape -- ^ shape of the generated tensor
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[a] -- ^ data for the tensor
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[Int32] -- ^ indices to split the tensor by
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deriving Show
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instance Arbitrary a => Arbitrary (LookupExample a) where
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arbitrary = do
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rank <- choose (1, 4)
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-- Takes rank-th root of 100 to cap the tensor size.
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let maxDim = fromIntegral (ceiling doubleMaxDim :: Int64)
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doubleMaxDim :: Double
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doubleMaxDim = 100 ** (1 / fromIntegral rank)
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shape@(firstDim : _) <- vectorOf rank (choose (1, maxDim))
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values <- vectorOf (fromIntegral $ product shape) arbitrary
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numParts <- choose (2, 15)
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indSize <- choose (0, fromIntegral $ firstDim - 1)
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indices <- vectorOf indSize (choose (0, fromIntegral firstDim - 1))
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return $ LookupExample numParts (TF.Shape shape) values indices
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main :: IO ()
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main = googleTest
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[ testProperty "EmbeddingLookupUndoesSplit"
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(testEmbeddingLookupUndoesSplit :: LookupExample Double -> Property)
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, testEmbeddingLookupHasRightShape
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, testEmbeddingLookupHasRightShapeWithPartition
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, testEmbeddingLookupGradients
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]
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