java.lang.Object
com.jnape.palatable.lambda.functor.builtin.Lazy<A>
Type Parameters:
A - the value type
All Implemented Interfaces:
Applicative<A,Lazy<?>>, Functor<A,Lazy<?>>, Monad<A,Lazy<?>>, MonadRec<A,Lazy<?>>, Traversable<A,Lazy<?>>
Direct Known Subclasses:
Lazy.Compose, Lazy.Later

public abstract class Lazy<A> extends Object implements MonadRec<A,Lazy<?>>, Traversable<A,Lazy<?>>
A Monad representing a lazily-computed value. Stack-safe.
  • Nested Class Summary

    Nested Classes
    Modifier and Type
    Class
    Description
    private static final class 
     
    private static final class 
     
  • Constructor Summary

    Constructors
    Modifier
    Constructor
    Description
    private
     
  • Method Summary

    Modifier and Type
    Method
    Description
    final <B> Lazy<B>
    Sequence both this Applicative and appB, discarding this Applicative's result and returning appB.
    final <B> Lazy<A>
    Sequence both this Applicative and appB, discarding appB's result and returning this Applicative.
    boolean
    equals(Object other)
     
    <B> Lazy<B>
    flatMap(Fn1<? super A,? extends Monad<B,Lazy<?>>> f)
    Chain dependent computations that may continue or short-circuit based on previous results.
    final <B> Lazy<B>
    fmap(Fn1<? super A,? extends B> fn)
    Covariantly transmute this functor's parameter using the given mapping function.
    int
     
    static <A> Lazy<A>
    lazy(A value)
    Lift a pure value into a lazy computation.
    static <A> Lazy<A>
    lazy(Fn0<A> fn0)
    Wrap a computation in a lazy computation.
    final <B> Lazy<B>
    pure(B b)
    Lift the value b into this applicative functor.
    static Pure<Lazy<?>>
    The canonical Pure instance for Lazy.
     
    <B> Lazy<B>
    trampolineM(Fn1<? super A,? extends MonadRec<RecursiveResult<A,B>,Lazy<?>>> fn)
    Given some operation yielding a RecursiveResult inside this MonadRec, internally trampoline the operation until it yields a termination instruction.
    <B, App extends Applicative<?, App>, TravB extends Traversable<B, Lazy<?>>, AppTrav extends Applicative<TravB, App>>
    AppTrav
    traverse(Fn1<? super A,? extends Applicative<B,App>> fn, Fn1<? super TravB,? extends AppTrav> pure)
    Apply fn to each element of this traversable from left to right, and collapse the results into a single resulting applicative, potentially with the assistance of the applicative's pure function.
    abstract A
    Returns the value represented by this lazy computation.
    <B> Lazy<B>
    zip(Applicative<Fn1<? super A,? extends B>,Lazy<?>> appFn)
    Given another instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports.

    Methods inherited from class java.lang.Object

    clone, finalize, getClass, notify, notifyAll, wait, wait, wait

    Methods inherited from interface com.jnape.palatable.lambda.functor.Functor

    coerce

    Methods inherited from interface com.jnape.palatable.lambda.monad.MonadRec

    lazyZip
  • Constructor Details

    • Lazy

      private Lazy()
  • Method Details

    • value

      public abstract A value()
      Returns the value represented by this lazy computation.
      Returns:
      the value
    • flatMap

      public <B> Lazy<B> flatMap(Fn1<? super A,? extends Monad<B,Lazy<?>>> f)
      Chain dependent computations that may continue or short-circuit based on previous results.
      Specified by:
      flatMap in interface Monad<A,Lazy<?>>
      Specified by:
      flatMap in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the resulting monad parameter type
      Parameters:
      f - the dependent computation over A
      Returns:
      the new monad instance
    • traverse

      public <B, App extends Applicative<?, App>, TravB extends Traversable<B, Lazy<?>>, AppTrav extends Applicative<TravB, App>> AppTrav traverse(Fn1<? super A,? extends Applicative<B,App>> fn, Fn1<? super TravB,? extends AppTrav> pure)
      Apply fn to each element of this traversable from left to right, and collapse the results into a single resulting applicative, potentially with the assistance of the applicative's pure function.
      Specified by:
      traverse in interface Traversable<A,Lazy<?>>
      Type Parameters:
      B - the resulting element type
      App - the result applicative type
      TravB - this Traversable instance over B
      AppTrav - the full inferred resulting type from the traversal
      Parameters:
      fn - the function to apply
      pure - the applicative pure function
      Returns:
      the traversed Traversable, wrapped inside an applicative
    • pure

      public final <B> Lazy<B> pure(B b)
      Lift the value b into this applicative functor.
      Specified by:
      pure in interface Applicative<A,Lazy<?>>
      Specified by:
      pure in interface Monad<A,Lazy<?>>
      Specified by:
      pure in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the type of the returned applicative's parameter
      Parameters:
      b - the value
      Returns:
      an instance of this applicative over b
    • fmap

      public final <B> Lazy<B> fmap(Fn1<? super A,? extends B> fn)
      Covariantly transmute this functor's parameter using the given mapping function. Generally this method is specialized to return an instance of the class implementing Functor.
      Specified by:
      fmap in interface Applicative<A,Lazy<?>>
      Specified by:
      fmap in interface Functor<A,Lazy<?>>
      Specified by:
      fmap in interface Monad<A,Lazy<?>>
      Specified by:
      fmap in interface MonadRec<A,Lazy<?>>
      Specified by:
      fmap in interface Traversable<A,Lazy<?>>
      Type Parameters:
      B - the new parameter type
      Parameters:
      fn - the mapping function
      Returns:
      a functor over B (the new parameter type)
    • zip

      public <B> Lazy<B> zip(Applicative<Fn1<? super A,? extends B>,Lazy<?>> appFn)
      Given another instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports.
      Specified by:
      zip in interface Applicative<A,Lazy<?>>
      Specified by:
      zip in interface Monad<A,Lazy<?>>
      Specified by:
      zip in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the resulting applicative parameter type
      Parameters:
      appFn - the other applicative instance
      Returns:
      the mapped applicative
    • discardL

      public final <B> Lazy<B> discardL(Applicative<B,Lazy<?>> appB)
      Sequence both this Applicative and appB, discarding this Applicative's result and returning appB. This is generally useful for sequentially performing side-effects.
      Specified by:
      discardL in interface Applicative<A,Lazy<?>>
      Specified by:
      discardL in interface Monad<A,Lazy<?>>
      Specified by:
      discardL in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the type of the returned Applicative's parameter
      Parameters:
      appB - the other Applicative
      Returns:
      appB
    • discardR

      public final <B> Lazy<A> discardR(Applicative<B,Lazy<?>> appB)
      Sequence both this Applicative and appB, discarding appB's result and returning this Applicative. This is generally useful for sequentially performing side-effects.
      Specified by:
      discardR in interface Applicative<A,Lazy<?>>
      Specified by:
      discardR in interface Monad<A,Lazy<?>>
      Specified by:
      discardR in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the type of appB's parameter
      Parameters:
      appB - the other Applicative
      Returns:
      this Applicative
    • trampolineM

      public <B> Lazy<B> trampolineM(Fn1<? super A,? extends MonadRec<RecursiveResult<A,B>,Lazy<?>>> fn)
      Given some operation yielding a RecursiveResult inside this MonadRec, internally trampoline the operation until it yields a termination instruction.

      Stack-safety depends on implementations guaranteeing that the growth of the call stack is a constant factor independent of the number of invocations of the operation. For various examples of how this can be achieved in stereotypical circumstances, see the referenced types.

      Specified by:
      trampolineM in interface MonadRec<A,Lazy<?>>
      Type Parameters:
      B - the ultimate resulting carrier type
      Parameters:
      fn - the function to internally trampoline
      Returns:
      the trampolined MonadRec
      See Also:
    • equals

      public boolean equals(Object other)
      Overrides:
      equals in class Object
    • hashCode

      public int hashCode()
      Overrides:
      hashCode in class Object
    • toString

      public String toString()
      Overrides:
      toString in class Object
    • lazy

      public static <A> Lazy<A> lazy(A value)
      Lift a pure value into a lazy computation.
      Type Parameters:
      A - the value type
      Parameters:
      value - the value
      Returns:
      the new Lazy
    • lazy

      public static <A> Lazy<A> lazy(Fn0<A> fn0)
      Wrap a computation in a lazy computation.
      Type Parameters:
      A - the value type
      Parameters:
      fn0 - the computation
      Returns:
      the new Lazy
    • pureLazy

      public static Pure<Lazy<?>> pureLazy()
      The canonical Pure instance for Lazy.
      Returns:
      the Pure instance