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Overview ¶
Copyright (c) 2023 IBM Corp. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
Index ¶
- func Collect[K comparable, V, R any](f func(K, V) R) func(map[K]V) []R
- func ConstNil[K comparable, V any]() map[K]V
- func DeleteAt[K comparable, V any](k K) func(map[K]V) map[K]V
- func Empty[K comparable, V any]() map[K]V
- func Eq[K comparable, V any](e E.Eq[V]) E.Eq[map[K]V]
- func Filter[K comparable, V any](f func(K) bool) func(map[K]V) map[K]V
- func FilterMap[K comparable, V1, V2 any](f func(V1) O.Option[V2]) func(map[K]V1) map[K]V2
- func FilterMapWithIndex[K comparable, V1, V2 any](f func(K, V1) O.Option[V2]) func(map[K]V1) map[K]V2
- func FilterWithIndex[K comparable, V any](f func(K, V) bool) func(map[K]V) map[K]V
- func FromEntries[K comparable, V any](fa []T.Tuple2[K, V]) map[K]V
- func Has[K comparable, V any](k K, r map[K]V) bool
- func IsEmpty[K comparable, V any](r map[K]V) bool
- func IsNil[K comparable, V any](m map[K]V) bool
- func IsNonEmpty[K comparable, V any](r map[K]V) bool
- func IsNonNil[K comparable, V any](m map[K]V) bool
- func Keys[K comparable, V any](r map[K]V) []K
- func Lookup[K comparable, V any](k K) func(map[K]V) O.Option[V]
- func Map[K comparable, V, R any](f func(V) R) func(map[K]V) map[K]R
- func MapRef[K comparable, V, R any](f func(*V) R) func(map[K]V) map[K]R
- func MapRefWithIndex[K comparable, V, R any](f func(K, *V) R) func(map[K]V) map[K]R
- func MapWithIndex[K comparable, V, R any](f func(K, V) R) func(map[K]V) map[K]R
- func MonadMap[K comparable, V, R any](r map[K]V, f func(V) R) map[K]R
- func MonadMapRef[K comparable, V, R any](r map[K]V, f func(*V) R) map[K]R
- func MonadMapRefWithIndex[K comparable, V, R any](r map[K]V, f func(K, *V) R) map[K]R
- func MonadMapWithIndex[K comparable, V, R any](r map[K]V, f func(K, V) R) map[K]R
- func Reduce[K comparable, V, R any](f func(R, V) R, initial R) func(map[K]V) R
- func ReduceRef[K comparable, V, R any](f func(R, *V) R, initial R) func(map[K]V) R
- func ReduceRefWithIndex[K comparable, V, R any](f func(K, R, *V) R, initial R) func(map[K]V) R
- func ReduceWithIndex[K comparable, V, R any](f func(K, R, V) R, initial R) func(map[K]V) R
- func Sequence[K comparable, A, HKTA, HKTAA, HKTRA any](fof func(map[K]A) HKTRA, ...) HKTRA
- func Singleton[K comparable, V any](k K, v V) map[K]V
- func Size[K comparable, V any](r map[K]V) int
- func ToArray[K comparable, V any](r map[K]V) []T.Tuple2[K, V]
- func ToEntries[K comparable, V any](r map[K]V) []T.Tuple2[K, V]
- func Traverse[K comparable, A, B, HKTB, HKTAB, HKTRB any](fof func(map[K]B) HKTRB, ...) func(map[K]A) HKTRB
- func TraverseWithIndex[K comparable, A, B, HKTB, HKTAB, HKTRB any](fof func(map[K]B) HKTRB, ...) func(map[K]A) HKTRB
- func Union[K comparable, V any](m Mg.Magma[V]) func(map[K]V) func(map[K]V) map[K]V
- func UnionMonoid[K comparable, V any](s S.Semigroup[V]) M.Monoid[map[K]V]
- func UnionSemigroup[K comparable, V any](s S.Semigroup[V]) S.Semigroup[map[K]V]
- func UpsertAt[K comparable, V any](k K, v V) func(map[K]V) map[K]V
- func Values[K comparable, V any](r map[K]V) []V
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Collect ¶
func Collect[K comparable, V, R any](f func(K, V) R) func(map[K]V) []R
func DeleteAt ¶
func DeleteAt[K comparable, V any](k K) func(map[K]V) map[K]V
func Empty ¶
func Empty[K comparable, V any]() map[K]V
func Filter ¶
func Filter[K comparable, V any](f func(K) bool) func(map[K]V) map[K]V
Filter creates a new map with only the elements that match the predicate
func FilterMap ¶
func FilterMap[K comparable, V1, V2 any](f func(V1) O.Option[V2]) func(map[K]V1) map[K]V2
FilterMap creates a new map with only the elements for which the transformation function creates a Some
func FilterMapWithIndex ¶
func FilterMapWithIndex[K comparable, V1, V2 any](f func(K, V1) O.Option[V2]) func(map[K]V1) map[K]V2
FilterMapWithIndex creates a new map with only the elements for which the transformation function creates a Some
func FilterWithIndex ¶
func FilterWithIndex[K comparable, V any](f func(K, V) bool) func(map[K]V) map[K]V
FilterWithIndex creates a new map with only the elements that match the predicate
func FromEntries ¶
func FromEntries[K comparable, V any](fa []T.Tuple2[K, V]) map[K]V
func Has ¶
func Has[K comparable, V any](k K, r map[K]V) bool
func IsEmpty ¶
func IsEmpty[K comparable, V any](r map[K]V) bool
func IsNonEmpty ¶
func IsNonEmpty[K comparable, V any](r map[K]V) bool
func IsNonNil ¶
func IsNonNil[K comparable, V any](m map[K]V) bool
IsNonNil checks if the map is set to nil
func Keys ¶
func Keys[K comparable, V any](r map[K]V) []K
func Map ¶
func Map[K comparable, V, R any](f func(V) R) func(map[K]V) map[K]R
func MapRef ¶
func MapRef[K comparable, V, R any](f func(*V) R) func(map[K]V) map[K]R
func MapRefWithIndex ¶
func MapRefWithIndex[K comparable, V, R any](f func(K, *V) R) func(map[K]V) map[K]R
func MapWithIndex ¶
func MapWithIndex[K comparable, V, R any](f func(K, V) R) func(map[K]V) map[K]R
func MonadMap ¶
func MonadMap[K comparable, V, R any](r map[K]V, f func(V) R) map[K]R
func MonadMapRef ¶
func MonadMapRef[K comparable, V, R any](r map[K]V, f func(*V) R) map[K]R
func MonadMapRefWithIndex ¶
func MonadMapRefWithIndex[K comparable, V, R any](r map[K]V, f func(K, *V) R) map[K]R
func MonadMapWithIndex ¶
func MonadMapWithIndex[K comparable, V, R any](r map[K]V, f func(K, V) R) map[K]R
func Reduce ¶
func Reduce[K comparable, V, R any](f func(R, V) R, initial R) func(map[K]V) R
func ReduceRef ¶
func ReduceRef[K comparable, V, R any](f func(R, *V) R, initial R) func(map[K]V) R
func ReduceRefWithIndex ¶
func ReduceRefWithIndex[K comparable, V, R any](f func(K, R, *V) R, initial R) func(map[K]V) R
func ReduceWithIndex ¶
func ReduceWithIndex[K comparable, V, R any](f func(K, R, V) R, initial R) func(map[K]V) R
func Sequence ¶
func Sequence[K comparable, A, HKTA, HKTAA, HKTRA any]( fof func(map[K]A) HKTRA, fmap func(func(map[K]A) func(A) map[K]A) func(HKTRA) HKTAA, fap func(HKTA) func(HKTAA) HKTRA, ma map[K]HKTA) HKTRA
HKTA = HKT[A] HKTAA = HKT[func(A)map[K]A] HKTRA = HKT[map[K]A]
func Singleton ¶
func Singleton[K comparable, V any](k K, v V) map[K]V
func Size ¶
func Size[K comparable, V any](r map[K]V) int
func Traverse ¶
func Traverse[K comparable, A, B, HKTB, HKTAB, HKTRB any]( fof func(map[K]B) HKTRB, fmap func(func(map[K]B) func(B) map[K]B) func(HKTRB) HKTAB, fap func(HKTB) func(HKTAB) HKTRB, f func(A) HKTB) func(map[K]A) HKTRB
HKTA = HKT<A> HKTB = HKT<B> HKTAB = HKT<func(A)B> HKTRB = HKT<map[K]B>
func TraverseWithIndex ¶
func TraverseWithIndex[K comparable, A, B, HKTB, HKTAB, HKTRB any]( fof func(map[K]B) HKTRB, fmap func(func(map[K]B) func(B) map[K]B) func(HKTRB) HKTAB, fap func(HKTB) func(HKTAB) HKTRB, f func(K, A) HKTB) func(map[K]A) HKTRB
func UnionMonoid ¶
func UnionSemigroup ¶
func UpsertAt ¶
func UpsertAt[K comparable, V any](k K, v V) func(map[K]V) map[K]V
func Values ¶
func Values[K comparable, V any](r map[K]V) []V
Types ¶
This section is empty.
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