scalaz
.
effect
MonadControlIO
trait
MonadControlIO
[
F
[
_
]
]
extends
LiftControlIO
[
F
] with
Monad
[
F
]
Self Type
MonadControlIO
[
F
]
Source
MonadControlIO.scala
Linear Supertypes
Monad
[
F
],
Bind
[
F
],
Applicative
[
F
],
Pointed
[
F
],
Apply
[
F
],
Functor
[
F
],
LiftControlIO
[
F
],
AnyRef
,
Any
Ordering
Alphabetic
By inheritance
Inherited
MonadControlIO
Monad
Bind
Applicative
Pointed
Apply
Functor
LiftControlIO
AnyRef
Any
Hide All
Show all
Learn more about member selection
Visibility
Public
All
Type Members
trait
ApplicativeLaw
extends
Applicative.FunctorLaw
Definition Classes
Applicative
trait
FunctorLaw
extends
AnyRef
Definition Classes
Functor
trait
MonadLaw
extends
Monad.ApplicativeLaw
Definition Classes
Monad
Abstract Value Members
abstract
def
bind
[
A
,
B
]
(
fa:
F
[
A
]
)
(
f: (
A
) ⇒
F
[
B
]
)
:
F
[
B
]
Definition Classes
Bind
abstract
def
liftControlIO
[
A
]
(
f: (
IO.RunInBase
[
F
,
IO
]) ⇒
IO
[
A
]
)
:
F
[
A
]
Definition Classes
LiftControlIO
abstract
def
point
[
A
]
(
a: ⇒
A
)
:
F
[
A
]
Definition Classes
Pointed
Concrete Value Members
final
def
!=
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
final
def
!=
(
arg0:
Any
)
:
Boolean
Definition Classes
Any
final
def
##
()
:
Int
Definition Classes
AnyRef → Any
final
def
==
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
final
def
==
(
arg0:
Any
)
:
Boolean
Definition Classes
Any
def
ap
[
A
,
B
]
(
fa: ⇒
F
[
A
]
)
(
f: ⇒
F
[(
A
) ⇒
B
]
)
:
F
[
B
]
Definition Classes
Bind → Apply
def
ap2
[
A
,
B
,
C
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
)
(
f:
F
[(
A
,
B
) ⇒
C
]
)
:
F
[
C
]
Definition Classes
Apply
def
ap3
[
A
,
B
,
C
,
D
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
)
(
f:
F
[(
A
,
B
,
C
) ⇒
D
]
)
:
F
[
D
]
Definition Classes
Apply
def
ap4
[
A
,
B
,
C
,
D
,
E
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
)
(
f:
F
[(
A
,
B
,
C
,
D
) ⇒
E
]
)
:
F
[
E
]
Definition Classes
Apply
def
ap5
[
A
,
B
,
C
,
D
,
E
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
)
(
f:
F
[(
A
,
B
,
C
,
D
,
E
) ⇒
R
]
)
:
F
[
R
]
Definition Classes
Apply
def
ap6
[
A
,
B
,
C
,
D
,
E
,
FF
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
)
(
f:
F
[(
A
,
B
,
C
,
D
,
E
,
FF
) ⇒
R
]
)
:
F
[
R
]
Definition Classes
Apply
def
ap7
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
)
(
f:
F
[(
A
,
B
,
C
,
D
,
E
,
FF
,
G
) ⇒
R
]
)
:
F
[
R
]
Definition Classes
Apply
def
ap8
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
)
(
f:
F
[(
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
) ⇒
R
]
)
:
F
[
R
]
Definition Classes
Apply
def
apF
[
A
,
B
]
(
f: ⇒
F
[(
A
) ⇒
B
]
)
: (
F
[
A
]) ⇒
F
[
B
]
Definition Classes
Apply
def
applicativeLaw
:
ApplicativeLaw
Definition Classes
Applicative
val
applicativeSyntax
:
ApplicativeSyntax
[
F
]
Definition Classes
Applicative
def
apply
[
A
,
B
]
(
f: (
A
) ⇒
B
)
: (
F
[
A
]) ⇒
F
[
B
]
Definition Classes
Functor
val
applySyntax
:
ApplySyntax
[
F
]
Definition Classes
Apply
final
def
asInstanceOf
[
T0
]
:
T0
Definition Classes
Any
val
bindSyntax
:
BindSyntax
[
F
]
Definition Classes
Bind
def
clone
()
:
AnyRef
Attributes
protected[
java.lang
]
Definition Classes
AnyRef
Annotations
@throws
()
def
compose
[
G
[
_
]
]
(
implicit
G0:
Applicative
[
G
]
)
:
Applicative
[[α]
F
[
G
[
α
]]]
Definition Classes
Applicative
def
compose
[
G
[
_
]
]
(
implicit
G0:
Pointed
[
G
]
)
:
Pointed
[[α]
F
[
G
[
α
]]]
Definition Classes
Pointed
def
compose
[
G
[
_
]
]
(
implicit
G0:
Apply
[
G
]
)
:
Apply
[[α]
F
[
G
[
α
]]]
Definition Classes
Apply
def
compose
[
G
[
_
]
]
(
implicit
G0:
Functor
[
G
]
)
:
Functor
[[α]
F
[
G
[
α
]]]
Definition Classes
Functor
def
counzip
[
A
,
B
]
(
a:
\/
[
F
[
A
],
F
[
B
]]
)
:
F
[
\/
[
A
,
B
]]
Definition Classes
Functor
final
def
eq
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
def
equals
(
arg0:
Any
)
:
Boolean
Definition Classes
AnyRef → Any
def
filterM
[
A
]
(
l:
List
[
A
]
)
(
f: (
A
) ⇒
F
[
Boolean
]
)
:
F
[
List
[
A
]]
Definition Classes
Monad
def
finalize
()
:
Unit
Attributes
protected[
java.lang
]
Definition Classes
AnyRef
Annotations
@throws
()
def
flip
:
Applicative
[
F
]
Definition Classes
Applicative
def
fpair
[
A
]
(
fa:
F
[
A
]
)
:
F
[(
A
,
A
)]
Definition Classes
Functor
def
functorLaw
:
FunctorLaw
Definition Classes
Functor
val
functorSyntax
:
FunctorSyntax
[
F
]
Definition Classes
Functor
final
def
getClass
()
:
Class
[_]
Definition Classes
AnyRef → Any
def
hashCode
()
:
Int
Definition Classes
AnyRef → Any
def
ifM
[
B
]
(
value:
F
[
Boolean
]
,
ifTrue: ⇒
F
[
B
]
,
ifFalse: ⇒
F
[
B
]
)
:
F
[
B
]
Definition Classes
Bind
final
def
isInstanceOf
[
T0
]
:
Boolean
Definition Classes
Any
def
join
[
A
]
(
ffa:
F
[
F
[
A
]]
)
:
F
[
A
]
Definition Classes
Bind
def
lift10
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
],
F
[
H
],
F
[
I
],
F
[
J
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift11
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
],
F
[
H
],
F
[
I
],
F
[
J
],
F
[
K
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift12
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
L
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
L
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
],
F
[
H
],
F
[
I
],
F
[
J
],
F
[
K
],
F
[
L
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift2
[
A
,
B
,
C
]
(
f: (
A
,
B
) ⇒
C
)
: (
F
[
A
],
F
[
B
]) ⇒
F
[
C
]
Definition Classes
Apply
def
lift3
[
A
,
B
,
C
,
D
]
(
f: (
A
,
B
,
C
) ⇒
D
)
: (
F
[
A
],
F
[
B
],
F
[
C
]) ⇒
F
[
D
]
Definition Classes
Apply
def
lift4
[
A
,
B
,
C
,
D
,
E
]
(
f: (
A
,
B
,
C
,
D
) ⇒
E
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
]) ⇒
F
[
E
]
Definition Classes
Apply
def
lift5
[
A
,
B
,
C
,
D
,
E
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift6
[
A
,
B
,
C
,
D
,
E
,
FF
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift7
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift8
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
],
F
[
H
]) ⇒
F
[
R
]
Definition Classes
Apply
def
lift9
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
R
]
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
) ⇒
R
)
: (
F
[
A
],
F
[
B
],
F
[
C
],
F
[
D
],
F
[
E
],
F
[
FF
],
F
[
G
],
F
[
H
],
F
[
I
]) ⇒
F
[
R
]
Definition Classes
Apply
val
liftControlIOSyntax
:
LiftControlIOSyntax
[
F
]
Definition Classes
LiftControlIO
def
map
[
A
,
B
]
(
fa:
F
[
A
]
)
(
f: (
A
) ⇒
B
)
:
F
[
B
]
Definition Classes
Monad → Applicative → Functor
def
map10
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
,
fi: ⇒
F
[
I
]
,
fj: ⇒
F
[
J
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map11
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
,
fi: ⇒
F
[
I
]
,
fj: ⇒
F
[
J
]
,
fk: ⇒
F
[
K
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map12
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
L
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
,
fi: ⇒
F
[
I
]
,
fj: ⇒
F
[
J
]
,
fk: ⇒
F
[
K
]
,
fl: ⇒
F
[
L
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
J
,
K
,
L
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map2
[
A
,
B
,
C
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
)
(
f: (
A
,
B
) ⇒
C
)
:
F
[
C
]
Definition Classes
Applicative → Apply
def
map3
[
A
,
B
,
C
,
D
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
)
(
f: (
A
,
B
,
C
) ⇒
D
)
:
F
[
D
]
Definition Classes
Apply
def
map4
[
A
,
B
,
C
,
D
,
E
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
)
(
f: (
A
,
B
,
C
,
D
) ⇒
E
)
:
F
[
E
]
Definition Classes
Apply
def
map5
[
A
,
B
,
C
,
D
,
E
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
)
(
f: (
A
,
B
,
C
,
D
,
E
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map6
[
A
,
B
,
C
,
D
,
E
,
FF
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map7
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map8
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
map9
[
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
,
R
]
(
fa: ⇒
F
[
A
]
,
fb: ⇒
F
[
B
]
,
fc: ⇒
F
[
C
]
,
fd: ⇒
F
[
D
]
,
fe: ⇒
F
[
E
]
,
ff: ⇒
F
[
FF
]
,
fg: ⇒
F
[
G
]
,
fh: ⇒
F
[
H
]
,
fi: ⇒
F
[
I
]
)
(
f: (
A
,
B
,
C
,
D
,
E
,
FF
,
G
,
H
,
I
) ⇒
R
)
:
F
[
R
]
Definition Classes
Apply
def
mapply
[
A
,
B
]
(
a:
A
)
(
f:
F
[(
A
) ⇒
B
]
)
:
F
[
B
]
Definition Classes
Functor
val
monadControlIOSyntax
:
MonadControlIOSyntax
[
F
]
def
monadLaw
:
MonadLaw
Definition Classes
Monad
val
monadSyntax
:
MonadSyntax
[
F
]
Definition Classes
Monad
final
def
ne
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
final
def
notify
()
:
Unit
Definition Classes
AnyRef
final
def
notifyAll
()
:
Unit
Definition Classes
AnyRef
val
pointedSyntax
:
PointedSyntax
[
F
]
Definition Classes
Pointed
def
product
[
G
[
_
]
]
(
implicit
G0:
Applicative
[
G
]
)
:
Applicative
[[α](
F
[
α
],
G
[
α
])]
Definition Classes
Applicative
def
product
[
G
[
_
]
]
(
implicit
G0:
Pointed
[
G
]
)
:
Pointed
[[α](
F
[
α
],
G
[
α
])]
Definition Classes
Pointed
def
product
[
G
[
_
]
]
(
implicit
G0:
Apply
[
G
]
)
:
Apply
[[α](
F
[
α
],
G
[
α
])]
Definition Classes
Apply
def
product
[
G
[
_
]
]
(
implicit
G0:
Functor
[
G
]
)
:
Functor
[[α](
F
[
α
],
G
[
α
])]
Definition Classes
Functor
def
pure
[
A
]
(
a: ⇒
A
)
:
F
[
A
]
Definition Classes
Pointed
def
replicateM
[
A
]
(
n:
Int
,
fa:
F
[
A
]
)
:
F
[
List
[
A
]]
Definition Classes
Monad
def
replicateM_
[
A
]
(
n:
Int
,
fa:
F
[
A
]
)
:
F
[
Unit
]
Definition Classes
Monad
def
sequence
[
A
,
G
[
_
]
]
(
as:
G
[
F
[
A
]]
)
(
implicit
arg0:
Traverse
[
G
]
)
:
F
[
G
[
A
]]
Definition Classes
Applicative
def
strengthL
[
A
,
B
]
(
a:
A
,
f:
F
[
B
]
)
:
F
[(
A
,
B
)]
Definition Classes
Functor
def
strengthR
[
A
,
B
]
(
f:
F
[
A
]
,
b:
B
)
:
F
[(
A
,
B
)]
Definition Classes
Functor
final
def
synchronized
[
T0
]
(
arg0: ⇒
T0
)
:
T0
Definition Classes
AnyRef
def
toString
()
:
String
Definition Classes
AnyRef → Any
def
traverse
[
A
,
G
[
_
]
,
B
]
(
value:
G
[
A
]
)
(
f: (
A
) ⇒
F
[
B
]
)
(
implicit
G:
Traverse
[
G
]
)
:
F
[
G
[
B
]]
Definition Classes
Applicative
def
void
[
A
]
(
fa:
F
[
A
]
)
:
F
[
Unit
]
Definition Classes
Functor
final
def
wait
()
:
Unit
Definition Classes
AnyRef
Annotations
@throws
()
final
def
wait
(
arg0:
Long
,
arg1:
Int
)
:
Unit
Definition Classes
AnyRef
Annotations
@throws
()
final
def
wait
(
arg0:
Long
)
:
Unit
Definition Classes
AnyRef
Annotations
@throws
()
def
zip
:
Zip
[
F
]
Definition Classes
Apply
Inherited from
Monad
[
F
]
Inherited from
Bind
[
F
]
Inherited from
Applicative
[
F
]
Inherited from
Pointed
[
F
]
Inherited from
Apply
[
F
]
Inherited from
Functor
[
F
]
Inherited from
LiftControlIO
[
F
]
Inherited from
AnyRef
Inherited from
Any
No Group