com
.
twitter
.
algebird
MapRing
class
MapRing
[
K
,
V
]
extends
MapGroup
[
K
,
V
] with
Ring
[
Map
[
K
,
V
]]
You can think of this as a Sparse vector ring
Linear Supertypes
Ring
[
Map
[
K
,
V
]],
MapGroup
[
K
,
V
],
Group
[
Map
[
K
,
V
]],
MapMonoid
[
K
,
V
],
Monoid
[
Map
[
K
,
V
]],
Semigroup
[
Map
[
K
,
V
]],
Serializable
,
AnyRef
,
Any
Ordering
Alphabetic
By inheritance
Inherited
MapRing
Ring
MapGroup
Group
MapMonoid
Monoid
Semigroup
Serializable
AnyRef
Any
Hide All
Show all
Learn more about member selection
Visibility
Public
All
Instance Constructors
new
MapRing
()
(
implicit
ring:
Ring
[
V
]
)
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
final
def
asInstanceOf
[
T0
]
:
T0
Definition Classes
Any
def
assertNotZero
(
v:
Map
[
K
,
V
]
)
:
Unit
Definition Classes
Monoid
def
clone
()
:
AnyRef
Attributes
protected[
java.lang
]
Definition Classes
AnyRef
Annotations
@throws
()
final
def
eq
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
def
equals
(
arg0:
Any
)
:
Boolean
Definition Classes
AnyRef → Any
def
finalize
()
:
Unit
Attributes
protected[
java.lang
]
Definition Classes
AnyRef
Annotations
@throws
()
final
def
getClass
()
:
Class
[_]
Definition Classes
AnyRef → Any
implicit
val
group
:
Group
[
V
]
Definition Classes
MapGroup
def
hashCode
()
:
Int
Definition Classes
AnyRef → Any
final
def
isInstanceOf
[
T0
]
:
Boolean
Definition Classes
Any
def
isNonZero
(
x:
Map
[
K
,
V
]
)
:
Boolean
Definition Classes
MapMonoid
→
Monoid
→
Semigroup
def
minus
(
l:
Map
[
K
,
V
]
,
r:
Map
[
K
,
V
]
)
:
Map
[
K
,
V
]
Definition Classes
Group
final
def
ne
(
arg0:
AnyRef
)
:
Boolean
Definition Classes
AnyRef
def
negate
(
kv:
Map
[
K
,
V
]
)
:
Map
[
K
,
V
]
Definition Classes
MapGroup
→
Group
def
nonZeroOption
(
v:
Map
[
K
,
V
]
)
:
Option
[
Map
[
K
,
V
]]
Definition Classes
Monoid
final
def
notify
()
:
Unit
Definition Classes
AnyRef
final
def
notifyAll
()
:
Unit
Definition Classes
AnyRef
def
one
:
Nothing
Definition Classes
MapRing
→
Ring
def
plus
(
x:
Map
[
K
,
V
]
,
y:
Map
[
K
,
V
]
)
:
Map
[
K
,
V
]
Definition Classes
MapMonoid
→
Semigroup
def
product
(
iter:
TraversableOnce
[
Map
[
K
,
V
]]
)
:
Map
[
K
,
V
]
Definition Classes
Ring
implicit
val
ring
:
Ring
[
V
]
implicit
val
semigroup
:
Semigroup
[
V
]
Definition Classes
MapMonoid
final
def
synchronized
[
T0
]
(
arg0: ⇒
T0
)
:
T0
Definition Classes
AnyRef
def
times
(
x:
Map
[
K
,
V
]
,
y:
Map
[
K
,
V
]
)
:
Map
[
K
,
V
]
Definition Classes
MapRing
→
Ring
def
toString
()
:
String
Definition Classes
AnyRef → Any
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
()
lazy val
zero
:
Map
[
K
,
V
]
Definition Classes
MapMonoid
→
Monoid
Deprecated Value Members
def
sum
(
vs:
TraversableOnce
[
Map
[
K
,
V
]]
)
:
Map
[
K
,
V
]
Definition Classes
Monoid
Annotations
@deprecated
Deprecated
Just use Monoid.sum
Inherited from
Ring
[
Map
[
K
,
V
]]
Inherited from
MapGroup
[
K
,
V
]
Inherited from
Group
[
Map
[
K
,
V
]]
Inherited from
MapMonoid
[
K
,
V
]
Inherited from
Monoid
[
Map
[
K
,
V
]]
Inherited from
Semigroup
[
Map
[
K
,
V
]]
Inherited from
Serializable
Inherited from
AnyRef
Inherited from
Any
Ungrouped
You can think of this as a Sparse vector ring