{-# LANGUAGE BangPatterns #-} -- | -- Module : Data.Massiv.Array.Ops.Slice -- Copyright : (c) Alexey Kuleshevich 2018-2019 -- License : BSD3 -- Maintainer : Alexey Kuleshevich <lehins@yandex.ru> -- Stability : experimental -- Portability : non-portable -- module Data.Massiv.Array.Ops.Slice ( -- ** From the outside (!>) , (!?>) , (??>) -- ** From the inside , (<!) , (<!?) , (<??) -- ** From within , (<!>) , (<!?>) , (<??>) ) where import Control.Monad (unless) import Data.Massiv.Core.Common infixl 4 !>, !?>, ??>, <!, <!?, <??, <!>, <!?>, <??> -- | /O(1)/ - Slices the array from the outside. For 2-dimensional array this will -- be equivalent of taking a row. Throws an error when index is out of bounds. -- -- ===__Examples__ -- -- You could say that slicing from outside is synonymous to slicing from the end or slicing at the -- highermost dimension. For example with rank-3 arrays outer slice would be equivalent to getting a -- page: -- -- >>> import Data.Massiv.Array -- >>> arr = makeArrayR U Seq (Sz (3 :> 2 :. 4)) fromIx3 -- >>> arr -- Array U Seq (Sz (3 :> 2 :. 4)) -- [ [ [ (0,0,0), (0,0,1), (0,0,2), (0,0,3) ] -- , [ (0,1,0), (0,1,1), (0,1,2), (0,1,3) ] -- ] -- , [ [ (1,0,0), (1,0,1), (1,0,2), (1,0,3) ] -- , [ (1,1,0), (1,1,1), (1,1,2), (1,1,3) ] -- ] -- , [ [ (2,0,0), (2,0,1), (2,0,2), (2,0,3) ] -- , [ (2,1,0), (2,1,1), (2,1,2), (2,1,3) ] -- ] -- ] -- >>> arr !> 2 -- Array M Seq (Sz (2 :. 4)) -- [ [ (2,0,0), (2,0,1), (2,0,2), (2,0,3) ] -- , [ (2,1,0), (2,1,1), (2,1,2), (2,1,3) ] -- ] -- -- There is nothing wrong with chaining, mixing and matching slicing operators, or even using them -- to index arrays: -- -- >>> arr !> 2 !> 0 !> 3 -- (2,0,3) -- >>> arr !> 2 <! 3 ! 0 -- (2,0,3) -- >>> (arr !> 2 !> 0 !> 3) == (arr ! 2 :> 0 :. 3) -- True -- -- -- @since 0.1.0 (!>) :: OuterSlice r ix e => Array r ix e -> Int -> Elt r ix e (!>) !arr !ix = either throw id (arr !?> ix) {-# INLINE (!>) #-} -- | /O(1)/ - Just like `!>` slices the array from the outside, but returns -- `Nothing` when index is out of bounds. -- -- @since 0.1.0 (!?>) :: (MonadThrow m, OuterSlice r ix e) => Array r ix e -> Int -> m (Elt r ix e) (!?>) !arr !i | isSafeIndex sz i = pure $ unsafeOuterSlice arr i | otherwise = throwM $ IndexOutOfBoundsException sz i where !sz = fst (unconsSz (size arr)) {-# INLINE (!?>) #-} -- | /O(1)/ - Safe slicing continuation from the outside. Similarly to (`!>`) slices the array from -- the outside, but takes `Maybe` array as input and returns `Nothing` when index is out of bounds. -- -- ===__Examples__ -- -- >>> import Data.Massiv.Array -- >>> arr = makeArrayR U Seq (Sz (3 :> 2 :. 4)) fromIx3 -- >>> arr !?> 2 ??> 0 ??> 3 :: Maybe Ix3T -- Just (2,0,3) -- >>> arr !?> 2 ??> 0 ??> -1 :: Maybe Ix3T -- Nothing -- >>> arr !?> 2 ??> -10 ?? 1 -- *** Exception: IndexOutOfBoundsException: -10 not safe for (Sz1 2) -- -- @since 0.1.0 (??>) :: (MonadThrow m, OuterSlice r ix e) => m (Array r ix e) -> Int -> m (Elt r ix e) (??>) marr !ix = marr >>= (!?> ix) {-# INLINE (??>) #-} -- | /O(1)/ - Safe slice from the inside -- -- @since 0.1.0 (<!?) :: (MonadThrow m, InnerSlice r ix e) => Array r ix e -> Int -> m (Elt r ix e) (<!?) !arr !i | isSafeIndex m i = pure $ unsafeInnerSlice arr sz i | otherwise = throwM $ IndexOutOfBoundsException m i where !sz@(_, m) = unsnocSz (size arr) {-# INLINE (<!?) #-} -- | /O(1)/ - Similarly to (`!>`) slice an array from an opposite direction. -- -- @since 0.1.0 (<!) :: InnerSlice r ix e => Array r ix e -> Int -> Elt r ix e (<!) !arr !ix = case arr <!? ix of Right res -> res Left exc -> throw exc {-# INLINE (<!) #-} -- | /O(1)/ - Safe slicing continuation from the inside -- -- @since 0.1.0 (<??) :: (MonadThrow m, InnerSlice r ix e) => m (Array r ix e) -> Int -> m (Elt r ix e) (<??) marr !ix = marr >>= (<!? ix) {-# INLINE (<??) #-} -- | /O(1)/ - Same as (`<!>`), but fails gracefully with a `Nothing`, instead of an error -- -- @since 0.1.0 (<!?>) :: (MonadThrow m, Slice r ix e) => Array r ix e -> (Dim, Int) -> m (Elt r ix e) (<!?>) !arr (dim, i) = do (m, szl) <- pullOutSzM (size arr) dim unless (isSafeIndex m i) $ throwM $ IndexOutOfBoundsException m i start <- setDimM zeroIndex dim i cutSz <- insertSzM szl dim oneSz unsafeSlice arr start cutSz dim {-# INLINE (<!?>) #-} -- prop> arr !> i == arr <!> (dimensions (size arr), i) -- prop> arr <! i == arr <!> (1,i) -- -- | /O(1)/ - Slices the array in any available dimension. Throws an error when -- index is out of bounds or dimensions is invalid. -- -- @since 0.1.0 (<!>) :: Slice r ix e => Array r ix e -> (Dim, Int) -> Elt r ix e (<!>) !arr !dix = case arr <!?> dix of Right res -> res Left exc -> throw exc {-# INLINE (<!>) #-} -- | /O(1)/ - Safe slicing continuation from within. -- -- @since 0.1.0 (<??>) :: (MonadThrow m, Slice r ix e) => m (Array r ix e) -> (Dim, Int) -> m (Elt r ix e) (<??>) !marr !ix = marr >>= (<!?> ix) {-# INLINE (<??>) #-}