ArrT Class

DECLARATION
public static partial class ArrT
NAMESPACE
LanguageExt

Methods

appendT<SEMI, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Arr<Arr<A>> appendT<SEMI, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static HashSet<Arr<A>> appendT<SEMI, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Lst<Arr<A>> appendT<SEMI, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Option<Arr<A>> appendT<SEMI, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
Option<Arr<A>>
Option<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> appendT<SEMI, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> appendT<SEMI, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Task<Arr<A>> appendT<SEMI, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
Task<Arr<A>>
Task<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Try<Arr<A>> appendT<SEMI, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
Try<Arr<A>>
Try<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryAsync<Arr<A>> appendT<SEMI, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOption<Arr<A>> appendT<SEMI, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> appendT<SEMI, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> appendT<SEMI, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Seq<Arr<A>> appendT<SEMI, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Set<Arr<A>> appendT<SEMI, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
Set<Arr<A>>
Set<Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> appendT<SEMI, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Either<L, Arr<A>> appendT<SEMI, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
appendT<SEMI, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Semigroup append operation on the inner bound values

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> appendT<SEMI, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> which is the result of performing x ++ y
CONSTRAINTS
where SEMI : struct Semigroup<A>
applyT<A, B, C>(Func<A, B, C>, Arr<Arr<A>>, Arr<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Arr<Arr<A>>
Monad of Arr<Arr<A>>
fb
Arr<Arr<B>>
Monad of Arr<Arr<A>>
DECLARATION
[Pure]
public static Arr<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Arr<Arr<A>> fa, Arr<Arr<B>> fb)
RETURNS
Arr<Arr<C>>
Arr<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, HashSet<Arr<A>>, HashSet<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
HashSet<Arr<A>>
Monad of HashSet<Arr<A>>
fb
HashSet<Arr<B>>
Monad of HashSet<Arr<A>>
DECLARATION
[Pure]
public static HashSet<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, HashSet<Arr<A>> fa, HashSet<Arr<B>> fb)
RETURNS
HashSet<Arr<C>>
HashSet<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Lst<Arr<A>>, Lst<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Lst<Arr<A>>
Monad of Lst<Arr<A>>
fb
Lst<Arr<B>>
Monad of Lst<Arr<A>>
DECLARATION
[Pure]
public static Lst<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Lst<Arr<A>> fa, Lst<Arr<B>> fb)
RETURNS
Lst<Arr<C>>
Lst<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Option<Arr<A>>, Option<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Option<Arr<A>>
Monad of Option<Arr<A>>
fb
Option<Arr<B>>
Monad of Option<Arr<A>>
DECLARATION
[Pure]
public static Option<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Option<Arr<A>> fa, Option<Arr<B>> fb)
RETURNS
Option<Arr<C>>
Option<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, OptionAsync<Arr<A>>, OptionAsync<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
OptionAsync<Arr<A>>
Monad of OptionAsync<Arr<A>>
fb
OptionAsync<Arr<B>>
Monad of OptionAsync<Arr<A>>
DECLARATION
[Pure]
public static OptionAsync<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, OptionAsync<Arr<A>> fa, OptionAsync<Arr<B>> fb)
RETURNS
OptionAsync<Arr<C>>
OptionAsync<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
OptionUnsafe<Arr<A>>
Monad of OptionUnsafe<Arr<A>>
fb
OptionUnsafe<Arr<B>>
Monad of OptionUnsafe<Arr<A>>
DECLARATION
[Pure]
public static OptionUnsafe<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, OptionUnsafe<Arr<A>> fa, OptionUnsafe<Arr<B>> fb)
RETURNS
OptionUnsafe<Arr<C>>
OptionUnsafe<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Task<Arr<A>>, Task<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Task<Arr<A>>
Monad of Task<Arr<A>>
fb
Task<Arr<B>>
Monad of Task<Arr<A>>
DECLARATION
[Pure]
public static Task<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Task<Arr<A>> fa, Task<Arr<B>> fb)
RETURNS
Task<Arr<C>>
Task<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Try<Arr<A>>, Try<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Try<Arr<A>>
Monad of Try<Arr<A>>
fb
Try<Arr<B>>
Monad of Try<Arr<A>>
DECLARATION
[Pure]
public static Try<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Try<Arr<A>> fa, Try<Arr<B>> fb)
RETURNS
Try<Arr<C>>
Try<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, TryAsync<Arr<A>>, TryAsync<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
TryAsync<Arr<A>>
Monad of TryAsync<Arr<A>>
fb
TryAsync<Arr<B>>
Monad of TryAsync<Arr<A>>
DECLARATION
[Pure]
public static TryAsync<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, TryAsync<Arr<A>> fa, TryAsync<Arr<B>> fb)
RETURNS
TryAsync<Arr<C>>
TryAsync<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, TryOption<Arr<A>>, TryOption<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
TryOption<Arr<A>>
Monad of TryOption<Arr<A>>
fb
TryOption<Arr<B>>
Monad of TryOption<Arr<A>>
DECLARATION
[Pure]
public static TryOption<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, TryOption<Arr<A>> fa, TryOption<Arr<B>> fb)
RETURNS
TryOption<Arr<C>>
TryOption<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
TryOptionAsync<Arr<A>>
Monad of TryOptionAsync<Arr<A>>
fb
TryOptionAsync<Arr<B>>
Monad of TryOptionAsync<Arr<A>>
DECLARATION
[Pure]
public static TryOptionAsync<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, TryOptionAsync<Arr<A>> fa, TryOptionAsync<Arr<B>> fb)
RETURNS
TryOptionAsync<Arr<C>>
TryOptionAsync<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, IEnumerable<Arr<A>>, IEnumerable<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
IEnumerable<Arr<A>>
Monad of IEnumerable<Arr<A>>
fb
IEnumerable<Arr<B>>
Monad of IEnumerable<Arr<A>>
DECLARATION
[Pure]
public static IEnumerable<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, IEnumerable<Arr<A>> fa, IEnumerable<Arr<B>> fb)
RETURNS
IEnumerable<Arr<C>>
IEnumerable<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Seq<Arr<A>>, Seq<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Seq<Arr<A>>
Monad of Seq<Arr<A>>
fb
Seq<Arr<B>>
Monad of Seq<Arr<A>>
DECLARATION
[Pure]
public static Seq<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Seq<Arr<A>> fa, Seq<Arr<B>> fb)
RETURNS
Seq<Arr<C>>
Seq<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B, C>(Func<A, B, C>, Set<Arr<A>>, Set<Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Set<Arr<A>>
Monad of Set<Arr<A>>
fb
Set<Arr<B>>
Monad of Set<Arr<A>>
DECLARATION
[Pure]
public static Set<Arr<C>> applyT<A, B, C>(Func<A, B, C> fabc, Set<Arr<A>> fa, Set<Arr<B>> fb)
RETURNS
Set<Arr<C>>
Set<Arr<B>> which is the result of performing fabc(fa, fb)
applyT<A, B>(Func<A, B>, Arr<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Arr<Arr<A>>
Monad of Arr<Arr<A>>
DECLARATION
[Pure]
public static Arr<Arr<B>> applyT<A, B>(Func<A, B> fab, Arr<Arr<A>> fa)
RETURNS
Arr<Arr<B>>
Arr<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, HashSet<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
HashSet<Arr<A>>
Monad of HashSet<Arr<A>>
DECLARATION
[Pure]
public static HashSet<Arr<B>> applyT<A, B>(Func<A, B> fab, HashSet<Arr<A>> fa)
RETURNS
HashSet<Arr<B>>
HashSet<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Lst<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Lst<Arr<A>>
Monad of Lst<Arr<A>>
DECLARATION
[Pure]
public static Lst<Arr<B>> applyT<A, B>(Func<A, B> fab, Lst<Arr<A>> fa)
RETURNS
Lst<Arr<B>>
Lst<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Option<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Option<Arr<A>>
Monad of Option<Arr<A>>
DECLARATION
[Pure]
public static Option<Arr<B>> applyT<A, B>(Func<A, B> fab, Option<Arr<A>> fa)
RETURNS
Option<Arr<B>>
Option<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, OptionAsync<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
OptionAsync<Arr<A>>
Monad of OptionAsync<Arr<A>>
DECLARATION
[Pure]
public static OptionAsync<Arr<B>> applyT<A, B>(Func<A, B> fab, OptionAsync<Arr<A>> fa)
RETURNS
OptionAsync<Arr<B>>
OptionAsync<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, OptionUnsafe<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
OptionUnsafe<Arr<A>>
Monad of OptionUnsafe<Arr<A>>
DECLARATION
[Pure]
public static OptionUnsafe<Arr<B>> applyT<A, B>(Func<A, B> fab, OptionUnsafe<Arr<A>> fa)
RETURNS
OptionUnsafe<Arr<B>>
OptionUnsafe<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Task<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Task<Arr<A>>
Monad of Task<Arr<A>>
DECLARATION
[Pure]
public static Task<Arr<B>> applyT<A, B>(Func<A, B> fab, Task<Arr<A>> fa)
RETURNS
Task<Arr<B>>
Task<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Try<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Try<Arr<A>>
Monad of Try<Arr<A>>
DECLARATION
[Pure]
public static Try<Arr<B>> applyT<A, B>(Func<A, B> fab, Try<Arr<A>> fa)
RETURNS
Try<Arr<B>>
Try<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, TryAsync<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
TryAsync<Arr<A>>
Monad of TryAsync<Arr<A>>
DECLARATION
[Pure]
public static TryAsync<Arr<B>> applyT<A, B>(Func<A, B> fab, TryAsync<Arr<A>> fa)
RETURNS
TryAsync<Arr<B>>
TryAsync<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, TryOption<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
TryOption<Arr<A>>
Monad of TryOption<Arr<A>>
DECLARATION
[Pure]
public static TryOption<Arr<B>> applyT<A, B>(Func<A, B> fab, TryOption<Arr<A>> fa)
RETURNS
TryOption<Arr<B>>
TryOption<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, TryOptionAsync<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
TryOptionAsync<Arr<A>>
Monad of TryOptionAsync<Arr<A>>
DECLARATION
[Pure]
public static TryOptionAsync<Arr<B>> applyT<A, B>(Func<A, B> fab, TryOptionAsync<Arr<A>> fa)
RETURNS
TryOptionAsync<Arr<B>>
TryOptionAsync<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, IEnumerable<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
IEnumerable<Arr<A>>
Monad of IEnumerable<Arr<A>>
DECLARATION
[Pure]
public static IEnumerable<Arr<B>> applyT<A, B>(Func<A, B> fab, IEnumerable<Arr<A>> fa)
RETURNS
IEnumerable<Arr<B>>
IEnumerable<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Seq<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Seq<Arr<A>>
Monad of Seq<Arr<A>>
DECLARATION
[Pure]
public static Seq<Arr<B>> applyT<A, B>(Func<A, B> fab, Seq<Arr<A>> fa)
RETURNS
Seq<Arr<B>>
Seq<Arr<B>> which is the result of performing fab(fa)
applyT<A, B>(Func<A, B>, Set<Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Set<Arr<A>>
Monad of Set<Arr<A>>
DECLARATION
[Pure]
public static Set<Arr<B>> applyT<A, B>(Func<A, B> fab, Set<Arr<A>> fa)
RETURNS
Set<Arr<B>>
Set<Arr<B>> which is the result of performing fab(fa)
applyT<FAIL, A, B, C>(Func<A, B, C>, Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Validation<FAIL, Arr<A>>
Monad of Validation<FAIL, Arr<A>>
fb
Validation<FAIL, Arr<B>>
Monad of Validation<FAIL, Arr<A>>
DECLARATION
[Pure]
public static Validation<FAIL, Arr<C>> applyT<FAIL, A, B, C>(Func<A, B, C> fabc, Validation<FAIL, Arr<A>> fa, Validation<FAIL, Arr<B>> fb)
RETURNS
Validation<FAIL, Arr<C>>
Validation<FAIL, Arr<B>> which is the result of performing fabc(fa, fb)
applyT<FAIL, A, B>(Func<A, B>, Validation<FAIL, Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Validation<FAIL, Arr<A>>
Monad of Validation<FAIL, Arr<A>>
DECLARATION
[Pure]
public static Validation<FAIL, Arr<B>> applyT<FAIL, A, B>(Func<A, B> fab, Validation<FAIL, Arr<A>> fa)
RETURNS
Validation<FAIL, Arr<B>>
Validation<FAIL, Arr<B>> which is the result of performing fab(fa)
applyT<L, A, B, C>(Func<A, B, C>, Either<L, Arr<A>>, Either<L, Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
Either<L, Arr<A>>
Monad of Either<L, Arr<A>>
fb
Either<L, Arr<B>>
Monad of Either<L, Arr<A>>
DECLARATION
[Pure]
public static Either<L, Arr<C>> applyT<L, A, B, C>(Func<A, B, C> fabc, Either<L, Arr<A>> fa, Either<L, Arr<B>> fb)
RETURNS
Either<L, Arr<C>>
Either<L, Arr<B>> which is the result of performing fabc(fa, fb)
applyT<L, A, B, C>(Func<A, B, C>, EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<B>>)
SUMMARY

Apply fa and fb to fabc

PARAMETERS
fabc
Func<A, B, C>
Functor
fa
EitherUnsafe<L, Arr<A>>
Monad of EitherUnsafe<L, Arr<A>>
fb
EitherUnsafe<L, Arr<B>>
Monad of EitherUnsafe<L, Arr<A>>
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<C>> applyT<L, A, B, C>(Func<A, B, C> fabc, EitherUnsafe<L, Arr<A>> fa, EitherUnsafe<L, Arr<B>> fb)
RETURNS
EitherUnsafe<L, Arr<C>>
EitherUnsafe<L, Arr<B>> which is the result of performing fabc(fa, fb)
applyT<L, A, B>(Func<A, B>, Either<L, Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
Either<L, Arr<A>>
Monad of Either<L, Arr<A>>
DECLARATION
[Pure]
public static Either<L, Arr<B>> applyT<L, A, B>(Func<A, B> fab, Either<L, Arr<A>> fa)
RETURNS
Either<L, Arr<B>>
Either<L, Arr<B>> which is the result of performing fab(fa)
applyT<L, A, B>(Func<A, B>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Apply fa to fab

PARAMETERS
fab
Func<A, B>
Functor
fa
EitherUnsafe<L, Arr<A>>
Monad of EitherUnsafe<L, Arr<A>>
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<B>> applyT<L, A, B>(Func<A, B> fab, EitherUnsafe<L, Arr<A>> fa)
RETURNS
EitherUnsafe<L, Arr<B>>
EitherUnsafe<L, Arr<B>> which is the result of performing fab(fa)
bindT<A, B>(Arr<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Arr<Arr<B>> bindT<A, B>(Arr<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Arr<Arr<B>>
Arr<Arr<B>> which is the result of performing f(a)
bindT<A, B>(HashSet<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static HashSet<Arr<B>> bindT<A, B>(HashSet<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
HashSet<Arr<B>>
HashSet<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Lst<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Lst<Arr<B>> bindT<A, B>(Lst<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Lst<Arr<B>>
Lst<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Option<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Option<Arr<B>> bindT<A, B>(Option<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Option<Arr<B>>
Option<Arr<B>> which is the result of performing f(a)
bindT<A, B>(OptionAsync<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static OptionAsync<Arr<B>> bindT<A, B>(OptionAsync<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
OptionAsync<Arr<B>>
OptionAsync<Arr<B>> which is the result of performing f(a)
bindT<A, B>(OptionUnsafe<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static OptionUnsafe<Arr<B>> bindT<A, B>(OptionUnsafe<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
OptionUnsafe<Arr<B>>
OptionUnsafe<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Task<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Task<Arr<B>> bindT<A, B>(Task<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Task<Arr<B>>
Task<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Try<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Try<Arr<B>> bindT<A, B>(Try<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Try<Arr<B>>
Try<Arr<B>> which is the result of performing f(a)
bindT<A, B>(TryAsync<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static TryAsync<Arr<B>> bindT<A, B>(TryAsync<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
TryAsync<Arr<B>>
TryAsync<Arr<B>> which is the result of performing f(a)
bindT<A, B>(TryOption<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static TryOption<Arr<B>> bindT<A, B>(TryOption<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
TryOption<Arr<B>>
TryOption<Arr<B>> which is the result of performing f(a)
bindT<A, B>(TryOptionAsync<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static TryOptionAsync<Arr<B>> bindT<A, B>(TryOptionAsync<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
TryOptionAsync<Arr<B>>
TryOptionAsync<Arr<B>> which is the result of performing f(a)
bindT<A, B>(IEnumerable<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static IEnumerable<Arr<B>> bindT<A, B>(IEnumerable<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
IEnumerable<Arr<B>>
IEnumerable<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Seq<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Seq<Arr<B>> bindT<A, B>(Seq<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Seq<Arr<B>>
Seq<Arr<B>> which is the result of performing f(a)
bindT<A, B>(Set<Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Set<Arr<B>> bindT<A, B>(Set<Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Set<Arr<B>>
Set<Arr<B>> which is the result of performing f(a)
bindT<FAIL, A, B>(Validation<FAIL, Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Validation<FAIL, Arr<B>> bindT<FAIL, A, B>(Validation<FAIL, Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Validation<FAIL, Arr<B>>
Validation<FAIL, Arr<B>> which is the result of performing f(a)
bindT<L, A, B>(Either<L, Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static Either<L, Arr<B>> bindT<L, A, B>(Either<L, Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
Either<L, Arr<B>>
Either<L, Arr<B>> which is the result of performing f(a)
bindT<L, A, B>(EitherUnsafe<L, Arr<A>>, Func<A, Arr<B>>)
SUMMARY

Monadic bind operation

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Func<A, Arr<B>>
The bind function to apply
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<B>> bindT<L, A, B>(EitherUnsafe<L, Arr<A>> ma, Func<A, Arr<B>> f)
RETURNS
EitherUnsafe<L, Arr<B>>
EitherUnsafe<L, Arr<B>> which is the result of performing f(a)
compareT<ORD, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
compareT<ORD, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Ord compare operation on the inner bound values

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static int compareT<ORD, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
int
If x is less than y: -1. If x is greater than y: +1. If x is equal to y: 0
CONSTRAINTS
where ORD : struct Ord<A>
countT<A>(Arr<Arr<A>>)
SUMMARY

Finds the number of bound values in the Arr<Arr<A>>

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Arr<Arr<A>> ma)
RETURNS
int
Number of As in Arr<Arr<A>>
countT<A>(HashSet<Arr<A>>)
SUMMARY

Finds the number of bound values in the HashSet<Arr<A>>

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(HashSet<Arr<A>> ma)
RETURNS
int
Number of As in HashSet<Arr<A>>
countT<A>(Lst<Arr<A>>)
SUMMARY

Finds the number of bound values in the Lst<Arr<A>>

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Lst<Arr<A>> ma)
RETURNS
int
Number of As in Lst<Arr<A>>
countT<A>(Option<Arr<A>>)
SUMMARY

Finds the number of bound values in the Option<Arr<A>>

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Option<Arr<A>> ma)
RETURNS
int
Number of As in Option<Arr<A>>
countT<A>(OptionAsync<Arr<A>>)
SUMMARY

Finds the number of bound values in the OptionAsync<Arr<A>>

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(OptionAsync<Arr<A>> ma)
RETURNS
int
Number of As in OptionAsync<Arr<A>>
countT<A>(OptionUnsafe<Arr<A>>)
SUMMARY

Finds the number of bound values in the OptionUnsafe<Arr<A>>

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(OptionUnsafe<Arr<A>> ma)
RETURNS
int
Number of As in OptionUnsafe<Arr<A>>
countT<A>(Task<Arr<A>>)
SUMMARY

Finds the number of bound values in the Task<Arr<A>>

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Task<Arr<A>> ma)
RETURNS
int
Number of As in Task<Arr<A>>
countT<A>(Try<Arr<A>>)
SUMMARY

Finds the number of bound values in the Try<Arr<A>>

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Try<Arr<A>> ma)
RETURNS
int
Number of As in Try<Arr<A>>
countT<A>(TryAsync<Arr<A>>)
SUMMARY

Finds the number of bound values in the TryAsync<Arr<A>>

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(TryAsync<Arr<A>> ma)
RETURNS
int
Number of As in TryAsync<Arr<A>>
countT<A>(TryOption<Arr<A>>)
SUMMARY

Finds the number of bound values in the TryOption<Arr<A>>

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(TryOption<Arr<A>> ma)
RETURNS
int
Number of As in TryOption<Arr<A>>
countT<A>(TryOptionAsync<Arr<A>>)
SUMMARY

Finds the number of bound values in the TryOptionAsync<Arr<A>>

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(TryOptionAsync<Arr<A>> ma)
RETURNS
int
Number of As in TryOptionAsync<Arr<A>>
countT<A>(IEnumerable<Arr<A>>)
SUMMARY

Finds the number of bound values in the IEnumerable<Arr<A>>

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(IEnumerable<Arr<A>> ma)
RETURNS
int
Number of As in IEnumerable<Arr<A>>
countT<A>(Seq<Arr<A>>)
SUMMARY

Finds the number of bound values in the Seq<Arr<A>>

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Seq<Arr<A>> ma)
RETURNS
int
Number of As in Seq<Arr<A>>
countT<A>(Set<Arr<A>>)
SUMMARY

Finds the number of bound values in the Set<Arr<A>>

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<A>(Set<Arr<A>> ma)
RETURNS
int
Number of As in Set<Arr<A>>
countT<FAIL, A>(Validation<FAIL, Arr<A>>)
SUMMARY

Finds the number of bound values in the Validation<FAIL, Arr<A>>

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<FAIL, A>(Validation<FAIL, Arr<A>> ma)
RETURNS
int
Number of As in Validation<FAIL, Arr<A>>
countT<L, A>(Either<L, Arr<A>>)
SUMMARY

Finds the number of bound values in the Either<L, Arr<A>>

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<L, A>(Either<L, Arr<A>> ma)
RETURNS
int
Number of As in Either<L, Arr<A>>
countT<L, A>(EitherUnsafe<L, Arr<A>>)
SUMMARY

Finds the number of bound values in the EitherUnsafe<L, Arr<A>>

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the count operation on
DECLARATION
[Pure]
public static int countT<L, A>(EitherUnsafe<L, Arr<A>> ma)
RETURNS
int
Number of As in EitherUnsafe<L, Arr<A>>
divideT<NUM, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Arr<Arr<A>> divideT<NUM, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static HashSet<Arr<A>> divideT<NUM, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Lst<Arr<A>> divideT<NUM, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Option<Arr<A>> divideT<NUM, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
Option<Arr<A>>
Option<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> divideT<NUM, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> divideT<NUM, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Task<Arr<A>> divideT<NUM, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
Task<Arr<A>>
Task<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Try<Arr<A>> divideT<NUM, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
Try<Arr<A>>
Try<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryAsync<Arr<A>> divideT<NUM, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOption<Arr<A>> divideT<NUM, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> divideT<NUM, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> divideT<NUM, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Seq<Arr<A>> divideT<NUM, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Set<Arr<A>> divideT<NUM, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
Set<Arr<A>>
Set<Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> divideT<NUM, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Either<L, Arr<A>> divideT<NUM, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
divideT<NUM, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Divides x by y, which are both Num<A>s

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> divideT<NUM, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> which is the result of performing x / y
CONSTRAINTS
where NUM : struct Num<A>
equalsT<EQ, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
bool
Arr<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
bool
HashSet<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
bool
Lst<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
bool
Option<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
bool
OptionAsync<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
bool
OptionUnsafe<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
bool
Task<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
bool
Try<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
bool
TryAsync<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
bool
TryOption<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
bool
TryOptionAsync<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
bool
IEnumerable<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
bool
Seq<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
bool
Set<Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
bool
Validation<FAIL, Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
bool
Either<L, Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
equalsT<EQ, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Eq compare operation on the inner bound values

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static bool equalsT<EQ, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
bool
EitherUnsafe<L, Arr<A>> which is the result of performing x == y
CONSTRAINTS
where EQ : struct Eq<A>
existsT<A>(Arr<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Arr<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(HashSet<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(HashSet<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Lst<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Lst<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Option<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Option<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(OptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(OptionAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(OptionUnsafe<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(OptionUnsafe<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Task<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Task<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Try<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Try<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(TryAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(TryAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(TryOption<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(TryOption<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(TryOptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(TryOptionAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(IEnumerable<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(IEnumerable<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Seq<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Seq<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<A>(Set<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<A>(Set<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<FAIL, A>(Validation<FAIL, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<FAIL, A>(Validation<FAIL, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<L, A>(Either<L, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<L, A>(Either<L, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
existsT<L, A>(EitherUnsafe<L, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool existsT<L, A>(EitherUnsafe<L, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if any of the bound value(s) return true when applied to the predicate f. If there are no bound values then false is returned.
filterT<A>(Arr<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Arr<Arr<A>> filterT<A>(Arr<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> with the predicate f(a) applied
filterT<A>(HashSet<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static HashSet<Arr<A>> filterT<A>(HashSet<Arr<A>> ma, Func<A, bool> pred)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> with the predicate f(a) applied
filterT<A>(Lst<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Lst<Arr<A>> filterT<A>(Lst<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> with the predicate f(a) applied
filterT<A>(Option<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Option<Arr<A>> filterT<A>(Option<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Option<Arr<A>>
Option<Arr<A>> with the predicate f(a) applied
filterT<A>(OptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> filterT<A>(OptionAsync<Arr<A>> ma, Func<A, bool> pred)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> with the predicate f(a) applied
filterT<A>(OptionUnsafe<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> filterT<A>(OptionUnsafe<Arr<A>> ma, Func<A, bool> pred)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> with the predicate f(a) applied
filterT<A>(Task<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Task<Arr<A>> filterT<A>(Task<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Task<Arr<A>>
Task<Arr<A>> with the predicate f(a) applied
filterT<A>(Try<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Try<Arr<A>> filterT<A>(Try<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Try<Arr<A>>
Try<Arr<A>> with the predicate f(a) applied
filterT<A>(TryAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static TryAsync<Arr<A>> filterT<A>(TryAsync<Arr<A>> ma, Func<A, bool> pred)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> with the predicate f(a) applied
filterT<A>(TryOption<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static TryOption<Arr<A>> filterT<A>(TryOption<Arr<A>> ma, Func<A, bool> pred)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> with the predicate f(a) applied
filterT<A>(TryOptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> filterT<A>(TryOptionAsync<Arr<A>> ma, Func<A, bool> pred)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> with the predicate f(a) applied
filterT<A>(IEnumerable<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> filterT<A>(IEnumerable<Arr<A>> ma, Func<A, bool> pred)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> with the predicate f(a) applied
filterT<A>(Seq<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Seq<Arr<A>> filterT<A>(Seq<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> with the predicate f(a) applied
filterT<A>(Set<Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Set<Arr<A>> filterT<A>(Set<Arr<A>> ma, Func<A, bool> pred)
RETURNS
Set<Arr<A>>
Set<Arr<A>> with the predicate f(a) applied
filterT<FAIL, A>(Validation<FAIL, Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> filterT<FAIL, A>(Validation<FAIL, Arr<A>> ma, Func<A, bool> pred)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> with the predicate f(a) applied
filterT<L, A>(Either<L, Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static Either<L, Arr<A>> filterT<L, A>(Either<L, Arr<A>> ma, Func<A, bool> pred)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> with the predicate f(a) applied
filterT<L, A>(EitherUnsafe<L, Arr<A>>, Func<A, bool>)
SUMMARY

Filter operation. Applies the bound value to the predicate f. If true then that value is retained, else filtered out.

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
pred
Func<A, bool>
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> filterT<L, A>(EitherUnsafe<L, Arr<A>> ma, Func<A, bool> pred)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> with the predicate f(a) applied
foldBackT<S, A>(Arr<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Arr<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(HashSet<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(HashSet<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Lst<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Lst<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Option<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Option<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(OptionAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(OptionAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(OptionUnsafe<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(OptionUnsafe<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Task<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Task<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Try<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Try<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(TryAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(TryAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(TryOption<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(TryOption<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(TryOptionAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(TryOptionAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(IEnumerable<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(IEnumerable<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Seq<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Seq<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, A>(Set<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, A>(Set<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, FAIL, A>(Validation<FAIL, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, FAIL, A>(Validation<FAIL, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, L, A>(Either<L, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, L, A>(Either<L, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldBackT<S, L, A>(EitherUnsafe<L, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing (in the opposite direction to Fold) the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldBackT<S, L, A>(EitherUnsafe<L, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Arr<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Arr<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(HashSet<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(HashSet<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Lst<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Lst<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Option<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Option<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(OptionAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(OptionAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(OptionUnsafe<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(OptionUnsafe<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Task<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Task<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Try<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Try<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(TryAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(TryAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(TryOption<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(TryOption<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(TryOptionAsync<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(TryOptionAsync<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(IEnumerable<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(IEnumerable<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Seq<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Seq<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, A>(Set<Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, A>(Set<Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, FAIL, A>(Validation<FAIL, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, FAIL, A>(Validation<FAIL, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, L, A>(Either<L, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, L, A>(Either<L, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
foldT<S, L, A>(EitherUnsafe<L, Arr<A>>, S, Func<S, A, S>)
SUMMARY

Create an aggregate value by traversing the bound value(s) of the nested monadic type, whilst applying the aggregate state and bound value to f to produce the new aggregate state (which is then returned).

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
state
S
f
Func<S, A, S>
The folding function to apply
DECLARATION
[Pure]
public static S foldT<S, L, A>(EitherUnsafe<L, Arr<A>> ma, S state, Func<S, A, S> f)
RETURNS
S
The new aggregate state (which is then returned)
forallT<A>(Arr<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Arr<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(HashSet<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(HashSet<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Lst<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Lst<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Option<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Option<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(OptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(OptionAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(OptionUnsafe<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(OptionUnsafe<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Task<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Task<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Try<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Try<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(TryAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(TryAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(TryOption<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(TryOption<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(TryOptionAsync<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(TryOptionAsync<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(IEnumerable<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(IEnumerable<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Seq<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Seq<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<A>(Set<Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<A>(Set<Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<FAIL, A>(Validation<FAIL, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<FAIL, A>(Validation<FAIL, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<L, A>(Either<L, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<L, A>(Either<L, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
forallT<L, A>(EitherUnsafe<L, Arr<A>>, Func<A, bool>)
SUMMARY

Returns true if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Func<A, bool>
The predicate function
DECLARATION
[Pure]
public static bool forallT<L, A>(EitherUnsafe<L, Arr<A>> ma, Func<A, bool> f)
RETURNS
bool
True if all of the bound value(s) return true when applied to the predicate f. If there are no bound values then true is returned.
iterT<A>(Arr<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Arr<Arr<A>>

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Arr<Arr<A>> ma, Action<A> f)
iterT<A>(HashSet<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in HashSet<Arr<A>>

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(HashSet<Arr<A>> ma, Action<A> f)
iterT<A>(Lst<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Lst<Arr<A>>

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Lst<Arr<A>> ma, Action<A> f)
iterT<A>(Option<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Option<Arr<A>>

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Option<Arr<A>> ma, Action<A> f)
iterT<A>(OptionAsync<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in OptionAsync<Arr<A>>

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(OptionAsync<Arr<A>> ma, Action<A> f)
iterT<A>(OptionUnsafe<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in OptionUnsafe<Arr<A>>

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(OptionUnsafe<Arr<A>> ma, Action<A> f)
iterT<A>(Task<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Task<Arr<A>>

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Task<Arr<A>> ma, Action<A> f)
iterT<A>(Try<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Try<Arr<A>>

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Try<Arr<A>> ma, Action<A> f)
iterT<A>(TryAsync<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in TryAsync<Arr<A>>

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(TryAsync<Arr<A>> ma, Action<A> f)
iterT<A>(TryOption<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in TryOption<Arr<A>>

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(TryOption<Arr<A>> ma, Action<A> f)
iterT<A>(TryOptionAsync<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in TryOptionAsync<Arr<A>>

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(TryOptionAsync<Arr<A>> ma, Action<A> f)
iterT<A>(IEnumerable<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in IEnumerable<Arr<A>>

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(IEnumerable<Arr<A>> ma, Action<A> f)
iterT<A>(Seq<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Seq<Arr<A>>

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Seq<Arr<A>> ma, Action<A> f)
iterT<A>(Set<Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Set<Arr<A>>

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<A>(Set<Arr<A>> ma, Action<A> f)
iterT<FAIL, A>(Validation<FAIL, Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Validation<FAIL, Arr<A>>

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<FAIL, A>(Validation<FAIL, Arr<A>> ma, Action<A> f)
iterT<L, A>(Either<L, Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in Either<L, Arr<A>>

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<L, A>(Either<L, Arr<A>> ma, Action<A> f)
iterT<L, A>(EitherUnsafe<L, Arr<A>>, Action<A>)
SUMMARY

Side-effecting operation to iterate all of the bound value(s) in EitherUnsafe<L, Arr<A>>

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Action<A>
The action that contains the side-effects
DECLARATION
public static Unit iterT<L, A>(EitherUnsafe<L, Arr<A>> ma, Action<A> f)
mapT<A, B>(Arr<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Arr<B>> mapT<A, B>(Arr<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Arr<B>>
Arr<Arr<B>> which is the result of performing f(a)
mapT<A, B>(HashSet<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static HashSet<Arr<B>> mapT<A, B>(HashSet<Arr<A>> ma, Func<A, B> f)
RETURNS
HashSet<Arr<B>>
HashSet<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Lst<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Lst<Arr<B>> mapT<A, B>(Lst<Arr<A>> ma, Func<A, B> f)
RETURNS
Lst<Arr<B>>
Lst<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Option<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Option<Arr<B>> mapT<A, B>(Option<Arr<A>> ma, Func<A, B> f)
RETURNS
Option<Arr<B>>
Option<Arr<B>> which is the result of performing f(a)
mapT<A, B>(OptionAsync<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static OptionAsync<Arr<B>> mapT<A, B>(OptionAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
OptionAsync<Arr<B>>
OptionAsync<Arr<B>> which is the result of performing f(a)
mapT<A, B>(OptionUnsafe<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static OptionUnsafe<Arr<B>> mapT<A, B>(OptionUnsafe<Arr<A>> ma, Func<A, B> f)
RETURNS
OptionUnsafe<Arr<B>>
OptionUnsafe<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Task<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Task<Arr<B>> mapT<A, B>(Task<Arr<A>> ma, Func<A, B> f)
RETURNS
Task<Arr<B>>
Task<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Try<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Try<Arr<B>> mapT<A, B>(Try<Arr<A>> ma, Func<A, B> f)
RETURNS
Try<Arr<B>>
Try<Arr<B>> which is the result of performing f(a)
mapT<A, B>(TryAsync<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static TryAsync<Arr<B>> mapT<A, B>(TryAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
TryAsync<Arr<B>>
TryAsync<Arr<B>> which is the result of performing f(a)
mapT<A, B>(TryOption<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static TryOption<Arr<B>> mapT<A, B>(TryOption<Arr<A>> ma, Func<A, B> f)
RETURNS
TryOption<Arr<B>>
TryOption<Arr<B>> which is the result of performing f(a)
mapT<A, B>(TryOptionAsync<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static TryOptionAsync<Arr<B>> mapT<A, B>(TryOptionAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
TryOptionAsync<Arr<B>>
TryOptionAsync<Arr<B>> which is the result of performing f(a)
mapT<A, B>(IEnumerable<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static IEnumerable<Arr<B>> mapT<A, B>(IEnumerable<Arr<A>> ma, Func<A, B> f)
RETURNS
IEnumerable<Arr<B>>
IEnumerable<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Seq<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Seq<Arr<B>> mapT<A, B>(Seq<Arr<A>> ma, Func<A, B> f)
RETURNS
Seq<Arr<B>>
Seq<Arr<B>> which is the result of performing f(a)
mapT<A, B>(Set<Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Set<Arr<B>> mapT<A, B>(Set<Arr<A>> ma, Func<A, B> f)
RETURNS
Set<Arr<B>>
Set<Arr<B>> which is the result of performing f(a)
mapT<FAIL, A, B>(Validation<FAIL, Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Validation<FAIL, Arr<B>> mapT<FAIL, A, B>(Validation<FAIL, Arr<A>> ma, Func<A, B> f)
RETURNS
Validation<FAIL, Arr<B>>
Validation<FAIL, Arr<B>> which is the result of performing f(a)
mapT<L, A, B>(Either<L, Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Either<L, Arr<B>> mapT<L, A, B>(Either<L, Arr<A>> ma, Func<A, B> f)
RETURNS
Either<L, Arr<B>>
Either<L, Arr<B>> which is the result of performing f(a)
mapT<L, A, B>(EitherUnsafe<L, Arr<A>>, Func<A, B>)
SUMMARY

Functor map operation. This maps the bound value(s) of the nested monads using the provided function f.

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<B>> mapT<L, A, B>(EitherUnsafe<L, Arr<A>> ma, Func<A, B> f)
RETURNS
EitherUnsafe<L, Arr<B>>
EitherUnsafe<L, Arr<B>> which is the result of performing f(a)
plusT<NUM, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Arr<Arr<A>> plusT<NUM, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static HashSet<Arr<A>> plusT<NUM, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Lst<Arr<A>> plusT<NUM, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Option<Arr<A>> plusT<NUM, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
Option<Arr<A>>
Option<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> plusT<NUM, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> plusT<NUM, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Task<Arr<A>> plusT<NUM, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
Task<Arr<A>>
Task<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Try<Arr<A>> plusT<NUM, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
Try<Arr<A>>
Try<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryAsync<Arr<A>> plusT<NUM, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOption<Arr<A>> plusT<NUM, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> plusT<NUM, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> plusT<NUM, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Seq<Arr<A>> plusT<NUM, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Set<Arr<A>> plusT<NUM, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
Set<Arr<A>>
Set<Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> plusT<NUM, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Either<L, Arr<A>> plusT<NUM, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
plusT<NUM, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Adds the two inner Num<A> types together

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> plusT<NUM, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> which is the result of performing x + y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Arr<Arr<A>> productT<NUM, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static HashSet<Arr<A>> productT<NUM, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Lst<Arr<A>> productT<NUM, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Option<Arr<A>> productT<NUM, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
Option<Arr<A>>
Option<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> productT<NUM, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> productT<NUM, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Task<Arr<A>> productT<NUM, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
Task<Arr<A>>
Task<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Try<Arr<A>> productT<NUM, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
Try<Arr<A>>
Try<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryAsync<Arr<A>> productT<NUM, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOption<Arr<A>> productT<NUM, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> productT<NUM, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> productT<NUM, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Seq<Arr<A>> productT<NUM, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Set<Arr<A>> productT<NUM, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
Set<Arr<A>>
Set<Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> productT<NUM, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Either<L, Arr<A>> productT<NUM, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
productT<NUM, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Finds the product of two inner Num<A> types

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> productT<NUM, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> which is the result of performing x * y
CONSTRAINTS
where NUM : struct Num<A>
sequence<A>(Arr<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Arr<Arr<A>>, traverses the inner values of type A, and returns Arr<Arr<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Arr<A>> sequence<A>(Arr<Arr<A>> ma)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>>
sequence<A>(HashSet<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type HashSet<Arr<A>>, traverses the inner values of type A, and returns Arr<HashSet<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<HashSet<A>> sequence<A>(HashSet<Arr<A>> ma)
RETURNS
Arr<HashSet<A>>
Arr<HashSet<A>>
sequence<A>(Lst<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Lst<Arr<A>>, traverses the inner values of type A, and returns Arr<Lst<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Lst<A>> sequence<A>(Lst<Arr<A>> ma)
RETURNS
Arr<Lst<A>>
Arr<Lst<A>>
sequence<A>(Option<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Option<Arr<A>>, traverses the inner values of type A, and returns Arr<Option<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Option<A>> sequence<A>(Option<Arr<A>> ma)
RETURNS
Arr<Option<A>>
Arr<Option<A>>
sequence<A>(OptionAsync<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type OptionAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<OptionAsync<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<OptionAsync<A>> sequence<A>(OptionAsync<Arr<A>> ma)
RETURNS
Arr<OptionAsync<A>>
Arr<OptionAsync<A>>
sequence<A>(OptionUnsafe<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type OptionUnsafe<Arr<A>>, traverses the inner values of type A, and returns Arr<OptionUnsafe<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<OptionUnsafe<A>> sequence<A>(OptionUnsafe<Arr<A>> ma)
RETURNS
Arr<OptionUnsafe<A>>
Arr<OptionUnsafe<A>>
sequence<A>(Task<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Task<Arr<A>>, traverses the inner values of type A, and returns Arr<Task<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Task<A>> sequence<A>(Task<Arr<A>> ma)
RETURNS
Arr<Task<A>>
Arr<Task<A>>
sequence<A>(Try<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Try<Arr<A>>, traverses the inner values of type A, and returns Arr<Try<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Try<A>> sequence<A>(Try<Arr<A>> ma)
RETURNS
Arr<Try<A>>
Arr<Try<A>>
sequence<A>(TryAsync<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type TryAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<TryAsync<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<TryAsync<A>> sequence<A>(TryAsync<Arr<A>> ma)
RETURNS
Arr<TryAsync<A>>
Arr<TryAsync<A>>
sequence<A>(TryOption<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type TryOption<Arr<A>>, traverses the inner values of type A, and returns Arr<TryOption<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<TryOption<A>> sequence<A>(TryOption<Arr<A>> ma)
RETURNS
Arr<TryOption<A>>
Arr<TryOption<A>>
sequence<A>(TryOptionAsync<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type TryOptionAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<TryOptionAsync<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<TryOptionAsync<A>> sequence<A>(TryOptionAsync<Arr<A>> ma)
RETURNS
Arr<TryOptionAsync<A>>
Arr<TryOptionAsync<A>>
sequence<A>(IEnumerable<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type IEnumerable<Arr<A>>, traverses the inner values of type A, and returns Arr<IEnumerable<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<IEnumerable<A>> sequence<A>(IEnumerable<Arr<A>> ma)
RETURNS
Arr<IEnumerable<A>>
Arr<IEnumerable<A>>
sequence<A>(Seq<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Seq<Arr<A>>, traverses the inner values of type A, and returns Arr<Seq<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Seq<A>> sequence<A>(Seq<Arr<A>> ma)
RETURNS
Arr<Seq<A>>
Arr<Seq<A>>
sequence<A>(Set<Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Set<Arr<A>>, traverses the inner values of type A, and returns Arr<Set<A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse< A, A>(identity).

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Set<A>> sequence<A>(Set<Arr<A>> ma)
RETURNS
Arr<Set<A>>
Arr<Set<A>>
sequence<FAIL, A>(Validation<FAIL, Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Validation<FAIL, Arr<A>>, traverses the inner values of type A, and returns Arr<Validation<FAIL, A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse<FAIL, A, A>(identity).

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Validation<FAIL, A>> sequence<FAIL, A>(Validation<FAIL, Arr<A>> ma)
RETURNS
Arr<Validation<FAIL, A>>
Arr<Validation<FAIL, A>>
sequence<L, A>(Either<L, Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type Either<L, Arr<A>>, traverses the inner values of type A, and returns Arr<Either<L, A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse<L, A, A>(identity).

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<Either<L, A>> sequence<L, A>(Either<L, Arr<A>> ma)
RETURNS
Arr<Either<L, A>>
Arr<Either<L, A>>
sequence<L, A>(EitherUnsafe<L, Arr<A>>)
SUMMARY

Sequence operation. Takes a value of type EitherUnsafe<L, Arr<A>>, traverses the inner values of type A, and returns Arr<EitherUnsafe<L, A>>. So it 'flips' the types whilst maintaining the rules of the inner and outer types. This is the same as calling ma.Traverse<L, A, A>(identity).

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
DECLARATION
[Pure]
public static Arr<EitherUnsafe<L, A>> sequence<L, A>(EitherUnsafe<L, Arr<A>> ma)
RETURNS
Arr<EitherUnsafe<L, A>>
Arr<EitherUnsafe<L, A>>
subtractT<NUM, A>(Arr<Arr<A>>, Arr<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Arr<Arr<A>>
The left hand side of the operation
y
Arr<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Arr<Arr<A>> subtractT<NUM, A>(Arr<Arr<A>> x, Arr<Arr<A>> y)
RETURNS
Arr<Arr<A>>
Arr<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(HashSet<Arr<A>>, HashSet<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
HashSet<Arr<A>>
The left hand side of the operation
y
HashSet<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static HashSet<Arr<A>> subtractT<NUM, A>(HashSet<Arr<A>> x, HashSet<Arr<A>> y)
RETURNS
HashSet<Arr<A>>
HashSet<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Lst<Arr<A>>, Lst<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Lst<Arr<A>>
The left hand side of the operation
y
Lst<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Lst<Arr<A>> subtractT<NUM, A>(Lst<Arr<A>> x, Lst<Arr<A>> y)
RETURNS
Lst<Arr<A>>
Lst<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Option<Arr<A>>, Option<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Option<Arr<A>>
The left hand side of the operation
y
Option<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Option<Arr<A>> subtractT<NUM, A>(Option<Arr<A>> x, Option<Arr<A>> y)
RETURNS
Option<Arr<A>>
Option<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(OptionAsync<Arr<A>>, OptionAsync<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
OptionAsync<Arr<A>>
The left hand side of the operation
y
OptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionAsync<Arr<A>> subtractT<NUM, A>(OptionAsync<Arr<A>> x, OptionAsync<Arr<A>> y)
RETURNS
OptionAsync<Arr<A>>
OptionAsync<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(OptionUnsafe<Arr<A>>, OptionUnsafe<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
OptionUnsafe<Arr<A>>
The left hand side of the operation
y
OptionUnsafe<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static OptionUnsafe<Arr<A>> subtractT<NUM, A>(OptionUnsafe<Arr<A>> x, OptionUnsafe<Arr<A>> y)
RETURNS
OptionUnsafe<Arr<A>>
OptionUnsafe<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Task<Arr<A>>, Task<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Task<Arr<A>>
The left hand side of the operation
y
Task<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Task<Arr<A>> subtractT<NUM, A>(Task<Arr<A>> x, Task<Arr<A>> y)
RETURNS
Task<Arr<A>>
Task<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Try<Arr<A>>, Try<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Try<Arr<A>>
The left hand side of the operation
y
Try<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Try<Arr<A>> subtractT<NUM, A>(Try<Arr<A>> x, Try<Arr<A>> y)
RETURNS
Try<Arr<A>>
Try<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(TryAsync<Arr<A>>, TryAsync<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
TryAsync<Arr<A>>
The left hand side of the operation
y
TryAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryAsync<Arr<A>> subtractT<NUM, A>(TryAsync<Arr<A>> x, TryAsync<Arr<A>> y)
RETURNS
TryAsync<Arr<A>>
TryAsync<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(TryOption<Arr<A>>, TryOption<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
TryOption<Arr<A>>
The left hand side of the operation
y
TryOption<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOption<Arr<A>> subtractT<NUM, A>(TryOption<Arr<A>> x, TryOption<Arr<A>> y)
RETURNS
TryOption<Arr<A>>
TryOption<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(TryOptionAsync<Arr<A>>, TryOptionAsync<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
TryOptionAsync<Arr<A>>
The left hand side of the operation
y
TryOptionAsync<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static TryOptionAsync<Arr<A>> subtractT<NUM, A>(TryOptionAsync<Arr<A>> x, TryOptionAsync<Arr<A>> y)
RETURNS
TryOptionAsync<Arr<A>>
TryOptionAsync<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(IEnumerable<Arr<A>>, IEnumerable<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
IEnumerable<Arr<A>>
The left hand side of the operation
y
IEnumerable<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static IEnumerable<Arr<A>> subtractT<NUM, A>(IEnumerable<Arr<A>> x, IEnumerable<Arr<A>> y)
RETURNS
IEnumerable<Arr<A>>
IEnumerable<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Seq<Arr<A>>, Seq<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Seq<Arr<A>>
The left hand side of the operation
y
Seq<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Seq<Arr<A>> subtractT<NUM, A>(Seq<Arr<A>> x, Seq<Arr<A>> y)
RETURNS
Seq<Arr<A>>
Seq<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, A>(Set<Arr<A>>, Set<Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Set<Arr<A>>
The left hand side of the operation
y
Set<Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Set<Arr<A>> subtractT<NUM, A>(Set<Arr<A>> x, Set<Arr<A>> y)
RETURNS
Set<Arr<A>>
Set<Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, FAIL, A>(Validation<FAIL, Arr<A>>, Validation<FAIL, Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Validation<FAIL, Arr<A>>
The left hand side of the operation
y
Validation<FAIL, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Validation<FAIL, Arr<A>> subtractT<NUM, FAIL, A>(Validation<FAIL, Arr<A>> x, Validation<FAIL, Arr<A>> y)
RETURNS
Validation<FAIL, Arr<A>>
Validation<FAIL, Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, L, A>(Either<L, Arr<A>>, Either<L, Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
Either<L, Arr<A>>
The left hand side of the operation
y
Either<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static Either<L, Arr<A>> subtractT<NUM, L, A>(Either<L, Arr<A>> x, Either<L, Arr<A>> y)
RETURNS
Either<L, Arr<A>>
Either<L, Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
subtractT<NUM, L, A>(EitherUnsafe<L, Arr<A>>, EitherUnsafe<L, Arr<A>>)
SUMMARY

Finds the difference between two inner Num<A> types

PARAMETERS
x
EitherUnsafe<L, Arr<A>>
The left hand side of the operation
y
EitherUnsafe<L, Arr<A>>
The right hand side of the operation
DECLARATION
[Pure]
public static EitherUnsafe<L, Arr<A>> subtractT<NUM, L, A>(EitherUnsafe<L, Arr<A>> x, EitherUnsafe<L, Arr<A>> y)
RETURNS
EitherUnsafe<L, Arr<A>>
EitherUnsafe<L, Arr<A>> which is the result of performing x - y
CONSTRAINTS
where NUM : struct Num<A>
sumT<NumA, A>(Arr<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Arr<Arr<A>>

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Arr<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Arr<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(HashSet<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in HashSet<Arr<A>>

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(HashSet<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in HashSet<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Lst<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Lst<Arr<A>>

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Lst<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Lst<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Option<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Option<Arr<A>>

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Option<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Option<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(OptionAsync<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in OptionAsync<Arr<A>>

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(OptionAsync<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in OptionAsync<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(OptionUnsafe<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in OptionUnsafe<Arr<A>>

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(OptionUnsafe<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in OptionUnsafe<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Task<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Task<Arr<A>>

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Task<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Task<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Try<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Try<Arr<A>>

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Try<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Try<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(TryAsync<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in TryAsync<Arr<A>>

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(TryAsync<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in TryAsync<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(TryOption<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in TryOption<Arr<A>>

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(TryOption<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in TryOption<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(TryOptionAsync<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in TryOptionAsync<Arr<A>>

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(TryOptionAsync<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in TryOptionAsync<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(IEnumerable<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in IEnumerable<Arr<A>>

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(IEnumerable<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in IEnumerable<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Seq<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Seq<Arr<A>>

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Seq<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Seq<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, A>(Set<Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Set<Arr<A>>

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, A>(Set<Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Set<Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, FAIL, A>(Validation<FAIL, Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Validation<FAIL, Arr<A>>

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, FAIL, A>(Validation<FAIL, Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Validation<FAIL, Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, L, A>(Either<L, Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in Either<L, Arr<A>>

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, L, A>(Either<L, Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in Either<L, Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
sumT<NumA, L, A>(EitherUnsafe<L, Arr<A>>)
SUMMARY

Finds total of all the Num<A>s in EitherUnsafe<L, Arr<A>>

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the sum operation on
DECLARATION
[Pure]
public static A sumT<NumA, L, A>(EitherUnsafe<L, Arr<A>> ma)
RETURNS
A
Total of all Num<A>s in EitherUnsafe<L, Arr<A>>
CONSTRAINTS
where NumA : struct Num<A>
traverse<A, B>(Arr<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Arr<Arr<A>>, traverses the inner values of type A, and returns Arr<Arr<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Arr<Arr<A>>
The Arr<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Arr<B>> traverse<A, B>(Arr<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Arr<B>>
Arr<Arr<B>>
traverse<A, B>(HashSet<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type HashSet<Arr<A>>, traverses the inner values of type A, and returns Arr<HashSet<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
HashSet<Arr<A>>
The HashSet<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<HashSet<B>> traverse<A, B>(HashSet<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<HashSet<B>>
Arr<HashSet<B>>
traverse<A, B>(Lst<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Lst<Arr<A>>, traverses the inner values of type A, and returns Arr<Lst<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Lst<Arr<A>>
The Lst<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Lst<B>> traverse<A, B>(Lst<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Lst<B>>
Arr<Lst<B>>
traverse<A, B>(Option<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Option<Arr<A>>, traverses the inner values of type A, and returns Arr<Option<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Option<Arr<A>>
The Option<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Option<B>> traverse<A, B>(Option<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Option<B>>
Arr<Option<B>>
traverse<A, B>(OptionAsync<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type OptionAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<OptionAsync<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
OptionAsync<Arr<A>>
The OptionAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<OptionAsync<B>> traverse<A, B>(OptionAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<OptionAsync<B>>
Arr<OptionAsync<B>>
traverse<A, B>(OptionUnsafe<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type OptionUnsafe<Arr<A>>, traverses the inner values of type A, and returns Arr<OptionUnsafe<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
OptionUnsafe<Arr<A>>
The OptionUnsafe<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<OptionUnsafe<B>> traverse<A, B>(OptionUnsafe<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<OptionUnsafe<B>>
Arr<OptionUnsafe<B>>
traverse<A, B>(Task<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Task<Arr<A>>, traverses the inner values of type A, and returns Arr<Task<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Task<Arr<A>>
The Task<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Task<B>> traverse<A, B>(Task<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Task<B>>
Arr<Task<B>>
traverse<A, B>(Try<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Try<Arr<A>>, traverses the inner values of type A, and returns Arr<Try<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Try<Arr<A>>
The Try<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Try<B>> traverse<A, B>(Try<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Try<B>>
Arr<Try<B>>
traverse<A, B>(TryAsync<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type TryAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<TryAsync<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
TryAsync<Arr<A>>
The TryAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<TryAsync<B>> traverse<A, B>(TryAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<TryAsync<B>>
Arr<TryAsync<B>>
traverse<A, B>(TryOption<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type TryOption<Arr<A>>, traverses the inner values of type A, and returns Arr<TryOption<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
TryOption<Arr<A>>
The TryOption<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<TryOption<B>> traverse<A, B>(TryOption<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<TryOption<B>>
Arr<TryOption<B>>
traverse<A, B>(TryOptionAsync<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type TryOptionAsync<Arr<A>>, traverses the inner values of type A, and returns Arr<TryOptionAsync<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
TryOptionAsync<Arr<A>>
The TryOptionAsync<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<TryOptionAsync<B>> traverse<A, B>(TryOptionAsync<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<TryOptionAsync<B>>
Arr<TryOptionAsync<B>>
traverse<A, B>(IEnumerable<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type IEnumerable<Arr<A>>, traverses the inner values of type A, and returns Arr<IEnumerable<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
IEnumerable<Arr<A>>
The IEnumerable<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<IEnumerable<B>> traverse<A, B>(IEnumerable<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<IEnumerable<B>>
Arr<IEnumerable<B>>
traverse<A, B>(Seq<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Seq<Arr<A>>, traverses the inner values of type A, and returns Arr<Seq<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Seq<Arr<A>>
The Seq<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Seq<B>> traverse<A, B>(Seq<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Seq<B>>
Arr<Seq<B>>
traverse<A, B>(Set<Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Set<Arr<A>>, traverses the inner values of type A, and returns Arr<Set<B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Set<Arr<A>>
The Set<Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Set<B>> traverse<A, B>(Set<Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Set<B>>
Arr<Set<B>>
traverse<FAIL, A, B>(Validation<FAIL, Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Validation<FAIL, Arr<A>>, traverses the inner values of type A, and returns Arr<Validation<FAIL, B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Validation<FAIL, Arr<A>>
The Validation<FAIL, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Validation<FAIL, B>> traverse<FAIL, A, B>(Validation<FAIL, Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Validation<FAIL, B>>
Arr<Validation<FAIL, B>>
traverse<L, A, B>(Either<L, Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type Either<L, Arr<A>>, traverses the inner values of type A, and returns Arr<Either<L, B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
Either<L, Arr<A>>
The Either<L, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<Either<L, B>> traverse<L, A, B>(Either<L, Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<Either<L, B>>
Arr<Either<L, B>>
traverse<L, A, B>(EitherUnsafe<L, Arr<A>>, Func<A, B>)
SUMMARY

Traverse operation. Takes a value of type EitherUnsafe<L, Arr<A>>, traverses the inner values of type A, and returns Arr<EitherUnsafe<L, B>> (by applying a to f). So it 'flips' the types whilst maintaining the rules of the inner and outer types.

PARAMETERS
ma
EitherUnsafe<L, Arr<A>>
The EitherUnsafe<L, Arr<A>> to perform the operation on
f
Func<A, B>
The mapping function to apply
DECLARATION
[Pure]
public static Arr<EitherUnsafe<L, B>> traverse<L, A, B>(EitherUnsafe<L, Arr<A>> ma, Func<A, B> f)
RETURNS
Arr<EitherUnsafe<L, B>>
Arr<EitherUnsafe<L, B>>