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tensorflow-haskell/tensorflow-ops/tests/EmbeddingOpsTest.hs
fkm3 f170df9d13 Support fetching storable vectors + use them in benchmark (#50)
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)
2016-12-14 18:53:06 -08:00

188 lines
7.4 KiB
Haskell

-- Copyright 2016 TensorFlow authors.
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
-- | Tests for EmbeddingOps.
module Main where
import Data.Int (Int32, Int64)
import Data.List (genericLength)
import Google.Test (googleTest)
import TensorFlow.EmbeddingOps (embeddingLookup)
import Test.Framework (Test)
import Test.Framework.Providers.QuickCheck2 (testProperty)
import Test.HUnit ((@=?))
import Test.Framework.Providers.HUnit (testCase)
import Test.QuickCheck (Arbitrary(..), Property, choose, vectorOf)
import Test.QuickCheck.Monadic (monadicIO, run)
import TensorFlow.Test (assertAllClose)
import qualified Data.Vector as V
import qualified TensorFlow.GenOps.Core as CoreOps
import qualified TensorFlow.Ops as TF
import qualified TensorFlow.Session as TF
import qualified TensorFlow.Tensor as TF
import qualified TensorFlow.Types as TF
import qualified TensorFlow.Gradient as TF
import qualified TensorFlow.Build as TF
import qualified TensorFlow.Nodes as TF
buildAndRun :: TF.Fetchable t a => TF.Build t -> IO a
buildAndRun = TF.runSession . TF.buildAnd TF.run
-- | Tries to perform a simple embedding lookup, with two partitions.
testEmbeddingLookupHasRightShapeWithPartition :: Test
testEmbeddingLookupHasRightShapeWithPartition =
testCase "testEmbeddingLookupHasRightShapeWithPartition" $ do
let embShape = TF.Shape [1, 3] -- Consider a 3-dim embedding of two items.
let embedding1 = [1, 1, 1 :: Int32]
let embedding2 = [0, 0, 0 :: Int32]
let embedding = [ TF.constant embShape embedding1
, TF.constant embShape embedding2
]
let idValues = [0, 1 :: Int32]
let ids = TF.constant (TF.Shape [1, 2]) idValues
let op = embeddingLookup embedding ids
(values, shape) <- buildAndRun $ do
vs <- op
return (vs, TF.shape vs)
-- This is the shape that is returned in the equiv. Python.
shape @=? V.fromList [1, 2, 3]
-- "[0, 1]" should pull out the resulting vector.
values @=? V.fromList [1, 1, 1, 0, 0, 0]
-- | Tries to perform a simple embedding lookup, with only a single partition.
testEmbeddingLookupHasRightShape :: Test
testEmbeddingLookupHasRightShape =
testCase "testEmbeddingLookupHasRightShape" $ do
-- Consider a 3-dim embedding of two items
let embShape = TF.Shape [2, 3]
let embeddingInit = [ 1, 1, 1
, 0, 0, 0 :: Int32
]
let embedding = TF.constant embShape embeddingInit
let idValues = [0, 1 :: Int32]
let ids = TF.constant (TF.Shape [1, 2]) idValues
let op = embeddingLookup [embedding] ids
(values, shape) <- buildAndRun $ do
vs <- op
return (vs, TF.shape vs)
-- This is the shape that is returned in the equiv. Python.
shape @=? V.fromList [1, 2, 3]
-- "[0, 1]" should pull out the resulting vector.
values @=? V.fromList [1, 1, 1, 0, 0, 0]
-- | Check that we can calculate gradients w.r.t embeddings.
testEmbeddingLookupGradients :: Test
testEmbeddingLookupGradients = testCase "testEmbeddingLookupGradients" $ do
-- Agrees with "embedding", so gradient should be zero.
let xVals = V.fromList ([20, 20 :: Float])
let shape = TF.Shape [2]
gs <- TF.runSession $ do
grads <- TF.build $ do
let embShape = TF.Shape [2, 1]
let embeddingInit = [1, 20 ::Float]
let idValues = [1, 1 :: Int32]
let ids = TF.constant (TF.Shape [1, 2]) idValues
x <- TF.placeholder (TF.Shape [2])
embedding <- TF.initializedVariable
=<< TF.render (TF.constant embShape embeddingInit)
op <- embeddingLookup [embedding] ids
let twoNorm = CoreOps.square $ TF.abs (op - x)
loss = TF.mean twoNorm (TF.scalar (0 :: Int32))
grad <- fmap head (TF.gradients loss [embedding])
return $ \xs -> TF.runWithFeeds [TF.feed x xs] grad
grads (TF.encodeTensorData shape xVals :: TF.TensorData Float)
-- Gradients should be zero (or close)
assertAllClose gs (V.fromList ([0, 0 :: Float]))
-- Verifies that direct gather is the same as dynamic split into
-- partitions, followed by embedding lookup.
testEmbeddingLookupUndoesSplit ::
forall a. (TF.TensorDataType V.Vector a, Show a, Eq a)
=> LookupExample a -> Property
testEmbeddingLookupUndoesSplit
(LookupExample numParts
shape@(TF.Shape (firstDim : restDims))
values
indices) =
let modShardedValues :: [TF.Tensor TF.Value a] =
CoreOps.dynamicPartition numParts shapedValues cyclicCounter
cyclicCounter :: TF.Tensor TF.Value Int32 =
TF.vector [0..fromIntegral firstDim-1]
`CoreOps.mod` fromIntegral numParts
indicesVector = TF.vector indices
directs = CoreOps.gather shapedValues indicesVector
shapedValues = TF.constant shape values
in monadicIO $ run $ do
(shapeOut, got, want :: V.Vector a) <-
TF.runSession $ TF.buildAnd TF.run $ do
embeddings <- embeddingLookup modShardedValues indicesVector
return (TF.cast (TF.shape embeddings), embeddings, directs)
-- Checks the explicitly documented invariant of embeddingLookup.
shapeOut @=? V.fromList (genericLength indices : restDims)
got @=? want
testEmbeddingLookupUndoesSplit _ = error "Bug in Arbitrary (LookupExample)"
-- | Consistent set of parameters for EmbeddingLookupUndoesSplit.
data LookupExample a = LookupExample
Int64 -- ^ number of ways to split.
TF.Shape -- ^ shape of the generated tensor
[a] -- ^ data for the tensor
[Int32] -- ^ indices to split the tensor by
deriving Show
instance Arbitrary a => Arbitrary (LookupExample a) where
arbitrary = do
rank <- choose (1, 4)
-- Takes rank-th root of 100 to cap the tensor size.
let maxDim = fromIntegral (ceiling doubleMaxDim :: Int64)
doubleMaxDim :: Double
doubleMaxDim = 100 ** (1 / fromIntegral rank)
shape@(firstDim : _) <- vectorOf rank (choose (1, maxDim))
values <- vectorOf (fromIntegral $ product shape) arbitrary
numParts <- choose (2, 15)
indSize <- choose (0, fromIntegral $ firstDim - 1)
indices <- vectorOf indSize (choose (0, fromIntegral firstDim - 1))
return $ LookupExample numParts (TF.Shape shape) values indices
main :: IO ()
main = googleTest
[ testProperty "EmbeddingLookupUndoesSplit"
(testEmbeddingLookupUndoesSplit :: LookupExample Double -> Property)
, testEmbeddingLookupHasRightShape
, testEmbeddingLookupHasRightShapeWithPartition
, testEmbeddingLookupGradients
]