feat: Pipes.Construct
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@ -40,6 +40,8 @@ package:
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- unsafe-coerce: ">=6.0.0 <7.0.0"
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test:
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main: Test.Main
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build:
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strict: true
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dependencies:
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- console
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- gen
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@ -152,6 +152,9 @@ awaitReadableOrClosed s = do
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when (not ended && not closed && not readable)
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$ liftEither =<< parOneOf [ onceAff0 readableH s $> Right unit, onceAff0 closeH s $> Right unit, Left <$> onceAff1 errorH s ]
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awaitFinished :: forall s a. Write s a => s -> Aff Unit
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awaitFinished s = onceAff0 finishH s
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awaitWritableOrClosed :: forall s a. Write s a => s -> Aff Unit
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awaitWritableOrClosed s = do
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closed <- liftEffect $ isClosed s
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@ -184,3 +187,6 @@ errorH = EventHandle "error" mkEffectFn1
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endH :: forall s a. Write s a => EventHandle0 s
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endH = EventHandle "end" identity
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finishH :: forall s a. Write s a => EventHandle0 s
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finishH = EventHandle "finish" identity
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@ -2,12 +2,9 @@ module Pipes.Collect where
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import Prelude
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import Control.Monad.Maybe.Trans (MaybeT(..), runMaybeT)
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import Control.Monad.Rec.Class (class MonadRec, Step(..), tailRecM)
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import Control.Monad.ST.Class (liftST)
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import Control.Monad.Trans.Class (lift)
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import Data.Array.ST as Array.ST
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import Data.Either (hush)
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import Data.HashMap (HashMap)
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import Data.HashMap as HashMap
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import Data.Hashable (class Hashable)
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@ -15,45 +12,37 @@ import Data.List (List)
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import Data.List as List
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import Data.Map (Map)
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import Data.Map as Map
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import Data.Maybe (fromMaybe)
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import Data.Tuple.Nested (type (/\), (/\))
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import Effect.Class (class MonadEffect, liftEffect)
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import Foreign.Object (Object)
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import Foreign.Object.ST as Object.ST
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import Foreign.Object.ST.Unsafe as Object.ST.Unsafe
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import Pipes (next) as Pipes
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import Pipes.Core (Producer)
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-- | Fold every value produced
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-- |
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-- | Uses `MonadRec`, supporting producers of arbitrary length.
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fold :: forall a b m. MonadRec m => (b -> a -> b) -> b -> Producer a m Unit -> m b
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fold f b p =
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let
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insertNext b' p' = runMaybeT do
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a /\ p'' <- MaybeT $ hush <$> Pipes.next p'
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pure $ Loop $ f b' a /\ p''
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in
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flip tailRecM (b /\ p) \(b' /\ p') -> fromMaybe (Done b') <$> insertNext b' p'
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import Pipes.Internal (Proxy(..))
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-- | Fold every value produced with a monadic action
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-- |
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-- | Uses `MonadRec`, supporting producers of arbitrary length.
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traverse :: forall a b m. MonadRec m => (b -> a -> m b) -> b -> Producer a m Unit -> m b
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traverse f b p =
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let
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insertNext b' p' = runMaybeT do
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a /\ p'' <- MaybeT $ hush <$> Pipes.next p'
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b'' <- lift $ f b' a
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pure $ Loop $ b'' /\ p''
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in
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flip tailRecM (b /\ p) \(b' /\ p') -> fromMaybe (Done b') <$> insertNext b' p'
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traverse f b0 p0 =
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flip tailRecM (p0 /\ b0) \(p /\ b) ->
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case p of
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Respond a m -> Loop <$> (m unit /\ _) <$> f b a
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M m -> Loop <$> (_ /\ b) <$> m
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Request _ _ -> pure $ Done b
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Pure _ -> pure $ Done b
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-- | Fold every value produced
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-- |
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-- | Uses `MonadRec`, supporting producers of arbitrary length.
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fold :: forall a b m. MonadRec m => (b -> a -> b) -> b -> Producer a m Unit -> m b
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fold f b0 p0 = traverse (\b a -> pure $ f b a) b0 p0
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-- | Execute a monadic action on every item in a producer.
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-- |
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-- | Uses `MonadRec`, supporting producers of arbitrary length.
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foreach :: forall a m. MonadRec m => (a -> m Unit) -> Producer a m Unit -> m Unit
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foreach f = traverse (const f) unit
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foreach f p0 = traverse (\_ a -> f a) unit p0
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-- | Collect all values from a `Producer` into an array.
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toArray :: forall a m. MonadRec m => MonadEffect m => Producer a m Unit -> m (Array a)
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@ -1 +1,64 @@
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module Pipes.Construct where
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import Prelude
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import Control.Monad.Maybe.Trans (MaybeT(..), runMaybeT)
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import Control.Monad.Rec.Class (class MonadRec, Step(..), tailRecM)
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import Control.Monad.ST.Class (liftST)
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import Control.Monad.Trans.Class (lift)
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import Data.Array as Array
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import Data.Array.ST as Array.ST
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import Data.List (List)
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import Data.List as List
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import Data.Map (Map)
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import Data.Map.Internal as Map.Internal
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import Data.Maybe (fromMaybe)
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import Data.Tuple.Nested (type (/\), (/\))
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import Effect.Class (class MonadEffect, liftEffect)
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import Pipes (yield, (>->))
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import Pipes.Core (Producer)
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import Pipes.Prelude as Pipe
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import Pipes.Util as Pipe.Util
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-- Producer that will emit monotonically increasing integers
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-- ex `monotonic 0 -> 0 1 2 3 4 5 6 7 ..`
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monotonic :: forall m. MonadRec m => Int -> Producer Int m Unit
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monotonic start = flip tailRecM start \n -> yield n $> Loop (n + 1)
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-- Producer that will emit integers from `start` (inclusive) to `end` (exclusive)
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range :: forall m. MonadRec m => Int -> Int -> Producer Int m Unit
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range start end = monotonic start >-> Pipe.take end
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-- | Stack-safe producer that yields every value in an Array
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eachArray :: forall a m. MonadRec m => Array a -> Producer a m Unit
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eachArray as = monotonic 0 >-> Pipe.map (Array.index as) >-> Pipe.Util.whileJust
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-- | Stack-safe producer that yields every value in a List
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eachList :: forall a m. MonadRec m => List a -> Producer a m Unit
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eachList init =
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flip tailRecM init \as -> fromMaybe (Done unit) <$> runMaybeT do
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head <- MaybeT $ pure $ List.head as
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tail <- MaybeT $ pure $ List.tail as
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lift $ yield head
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pure $ Loop tail
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-- | Stack-safe producer that yields every value in a Map
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eachMap :: forall k v m. MonadEffect m => MonadRec m => Map k v -> Producer (k /\ v) m Unit
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eachMap init = do
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stack <- liftEffect $ liftST $ Array.ST.new
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let
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push a = void $ liftEffect $ liftST $ Array.ST.push a stack
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pop = liftEffect $ liftST $ Array.ST.pop stack
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flip tailRecM init case _ of
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Map.Internal.Leaf -> fromMaybe (Done unit) <$> runMaybeT do
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a <- MaybeT pop
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pure $ Loop a
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Map.Internal.Node _ _ k v Map.Internal.Leaf Map.Internal.Leaf -> do
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yield $ k /\ v
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pure $ Loop Map.Internal.Leaf
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Map.Internal.Node _ _ k v Map.Internal.Leaf r -> do
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yield $ k /\ v
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pure $ Loop r
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Map.Internal.Node a b k v l r -> do
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push $ Map.Internal.Node a b k v Map.Internal.Leaf r
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pure $ Loop l
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@ -58,6 +58,7 @@ fromWritable w =
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cleanup rmErrorListener = do
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liftEffect rmErrorListener
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liftEffect $ O.end w
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liftAff $ O.awaitFinished w
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pure $ Done unit
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go { error, cancel } = do
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@ -3,23 +3,35 @@ module Pipes.Util where
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import Prelude
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import Control.Monad.Maybe.Trans (MaybeT(..), runMaybeT)
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import Control.Monad.Rec.Class (class MonadRec, forever, whileJust)
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import Control.Monad.Rec.Class (class MonadRec, Step(..), forever, tailRecM)
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import Control.Monad.Rec.Class as Rec
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import Control.Monad.ST.Class (liftST)
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import Control.Monad.ST.Ref (STRef)
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import Control.Monad.ST.Ref as STRef
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import Control.Monad.Trans.Class (lift)
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import Data.Array.ST (STArray)
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import Data.Array.ST as Array.ST
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import Data.Either (hush)
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import Data.HashSet as HashSet
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import Data.Hashable (class Hashable, hash)
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import Data.List.NonEmpty (NonEmptyList)
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import Data.Maybe (Maybe(..))
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import Data.Maybe (Maybe(..), fromMaybe)
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import Data.Tuple.Nested (type (/\), (/\))
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import Effect.Class (class MonadEffect, liftEffect)
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import Pipes (await, yield)
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import Pipes.Core (Pipe)
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import Pipes as Pipes
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import Pipes.Core (Pipe, Producer)
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import Pipes.Internal (Proxy(..))
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-- | Re-yield all `Just`s, and close when `Nothing` is encountered
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whileJust :: forall m a. MonadRec m => Pipe (Maybe a) a m Unit
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whileJust = do
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first <- await
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flip tailRecM first $ \ma -> fromMaybe (Done unit) <$> runMaybeT do
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a <- MaybeT $ pure ma
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lift $ yield a
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lift $ Loop <$> await
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-- | Yields a separator value `sep` between received values
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-- |
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-- | ```purescript
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@ -33,7 +45,7 @@ intersperse sep = do
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getIsFirst = liftEffect $ liftST $ STRef.read isFirstST
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markNotFirst = void $ liftEffect $ liftST $ STRef.write false isFirstST
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whileJust $ runMaybeT do
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Rec.whileJust $ runMaybeT do
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a <- MaybeT await
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isFirst <- getIsFirst
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if isFirst then markNotFirst else lift $ yield $ Just sep
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@ -41,6 +53,16 @@ intersperse sep = do
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yield Nothing
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-- Pair every emitted value from 2 producers together, exiting when either exits.
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zip :: forall a b m. MonadRec m => Producer a m Unit -> Producer b m Unit -> Producer (a /\ b) m Unit
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zip as bs =
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flip tailRecM (as /\ bs) \(as' /\ bs') ->
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fromMaybe (Done unit) <$> runMaybeT do
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a /\ as'' <- MaybeT $ lift $ hush <$> Pipes.next as'
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b /\ bs'' <- MaybeT $ lift $ hush <$> Pipes.next bs'
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lift $ yield $ a /\ b
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pure $ Loop $ as'' /\ bs''
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-- | Accumulate values in chunks of a given size.
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-- |
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-- | If the pipe closes without yielding a multiple of `size` elements,
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@ -60,7 +82,7 @@ chunked size = do
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void $ flip STRef.write chunkST =<< Array.ST.new
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Array.ST.unsafeFreeze chunkArray
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whileJust $ runMaybeT do
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Rec.whileJust $ runMaybeT do
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a <- MaybeT await
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chunkPut a
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len <- chunkLength
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@ -9,12 +9,14 @@ import Test.Pipes.Node.Stream as Test.Pipes.Node.Stream
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import Test.Pipes.Node.Buffer as Test.Pipes.Node.Buffer
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import Test.Pipes.Node.FS as Test.Pipes.Node.FS
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import Test.Pipes.Collect as Test.Pipes.Collect
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import Test.Pipes.Construct as Test.Pipes.Construct
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import Test.Spec.Reporter (specReporter)
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import Test.Spec.Runner (defaultConfig, runSpec')
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main :: Effect Unit
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main = launchAff_ $ runSpec' (defaultConfig { failFast = true, timeout = Nothing }) [ specReporter ] do
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main = launchAff_ $ runSpec' (defaultConfig { exit = false, timeout = Nothing }) [ specReporter ] do
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Test.Pipes.Node.Stream.spec
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Test.Pipes.Node.Buffer.spec
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Test.Pipes.Node.FS.spec
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Test.Pipes.Collect.spec
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Test.Pipes.Construct.spec
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58
test/Test/Pipes.Construct.purs
Normal file
58
test/Test/Pipes.Construct.purs
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@ -0,0 +1,58 @@
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module Test.Pipes.Construct where
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import Prelude
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import Data.Array as Array
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import Data.List as List
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import Data.Map as Map
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import Data.Tuple.Nested (type (/\), (/\))
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import Effect.Class (liftEffect)
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import Pipes.Collect as Pipes.Collect
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import Pipes.Construct as Pipes.Construct
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import Test.Spec (Spec, describe, it)
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import Test.Spec.Assertions (shouldEqual)
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spec :: Spec Unit
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spec =
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describe "Test.Pipes.Construct" do
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describe "eachMap" do
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it "empty map" do
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kvs <- Pipes.Collect.toArray $ Pipes.Construct.eachMap Map.empty
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kvs `shouldEqual` ([] :: Array (Int /\ Int))
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it "nonempty map" do
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let
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exp = (\n -> n /\ n) <$> Array.range 0 99999
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map = Map.fromFoldable exp
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kvs <-
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liftEffect
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$ Pipes.Collect.toArray
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$ Pipes.Construct.eachMap
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$ map
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kvs `shouldEqual` exp
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describe "eachArray" do
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it "empty array" do
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kvs <- Pipes.Collect.toArray $ Pipes.Construct.eachArray []
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kvs `shouldEqual` ([] :: Array Int)
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it "nonempty array" do
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let
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inp = (\n -> n /\ n) <$> Array.range 0 99999
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kvs <-
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liftEffect
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$ Pipes.Collect.toArray
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$ Pipes.Construct.eachArray
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$ inp
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kvs `shouldEqual` inp
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describe "eachList" do
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it "empty list" do
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kvs <- Pipes.Collect.toArray $ Pipes.Construct.eachList List.Nil
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kvs `shouldEqual` ([] :: Array Int)
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it "nonempty list" do
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let
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inp = (\n -> n /\ n) <$> Array.range 0 99999
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kvs <-
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liftEffect
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$ Pipes.Collect.toArray
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$ Pipes.Construct.eachList
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$ List.fromFoldable
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$ inp
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kvs `shouldEqual` inp
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@ -34,7 +34,7 @@ spec = describe "Pipes.Node.FS" do
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s <- fold <$> Pipes.toListM (Pipes.Node.FS.read p >-> unEOS >-> Pipes.Node.Buffer.toString UTF8)
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s `shouldEqual` "foo"
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around tmpFile $ it "fails if the file already exists" \p -> do
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liftEffect $ FS.writeTextFile UTF8 "foo" p
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liftEffect $ FS.writeTextFile UTF8 p "foo"
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flip catchError (const $ pure unit) do
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Pipes.runEffect $ withEOS (yield "foo" >-> Pipes.Node.Buffer.fromString UTF8) >-> Pipes.Node.FS.create p
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fail "should have thrown"
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@ -44,7 +44,7 @@ spec = describe "Pipes.Node.FS" do
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contents <- liftEffect $ FS.readTextFile UTF8 p
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contents `shouldEqual` "foo"
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around tmpFile $ it "fails if the file already exists" \p -> do
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liftEffect $ FS.writeTextFile UTF8 "foo" p
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liftEffect $ FS.writeTextFile UTF8 p "foo"
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flip catchError (const $ pure unit) do
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Pipes.runEffect $ withEOS (yield "foo" >-> Pipes.Node.Buffer.fromString UTF8) >-> Pipes.Node.FS.create p
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fail "should have thrown"
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