gohttp/vendor/github.com/samber/lo/intersect.go

186 lines
4.1 KiB
Go

package lo
// Contains returns true if an element is present in a collection.
func Contains[T comparable](collection []T, element T) bool {
for _, item := range collection {
if item == element {
return true
}
}
return false
}
// ContainsBy returns true if predicate function return true.
func ContainsBy[T any](collection []T, predicate func(item T) bool) bool {
for _, item := range collection {
if predicate(item) {
return true
}
}
return false
}
// Every returns true if all elements of a subset are contained into a collection or if the subset is empty.
func Every[T comparable](collection []T, subset []T) bool {
for _, elem := range subset {
if !Contains(collection, elem) {
return false
}
}
return true
}
// EveryBy returns true if the predicate returns true for all of the elements in the collection or if the collection is empty.
func EveryBy[T any](collection []T, predicate func(item T) bool) bool {
for _, v := range collection {
if !predicate(v) {
return false
}
}
return true
}
// Some returns true if at least 1 element of a subset is contained into a collection.
// If the subset is empty Some returns false.
func Some[T comparable](collection []T, subset []T) bool {
for _, elem := range subset {
if Contains(collection, elem) {
return true
}
}
return false
}
// SomeBy returns true if the predicate returns true for any of the elements in the collection.
// If the collection is empty SomeBy returns false.
func SomeBy[T any](collection []T, predicate func(item T) bool) bool {
for _, v := range collection {
if predicate(v) {
return true
}
}
return false
}
// None returns true if no element of a subset are contained into a collection or if the subset is empty.
func None[T comparable](collection []T, subset []T) bool {
for _, elem := range subset {
if Contains(collection, elem) {
return false
}
}
return true
}
// NoneBy returns true if the predicate returns true for none of the elements in the collection or if the collection is empty.
func NoneBy[T any](collection []T, predicate func(item T) bool) bool {
for _, v := range collection {
if predicate(v) {
return false
}
}
return true
}
// Intersect returns the intersection between two collections.
func Intersect[T comparable](list1 []T, list2 []T) []T {
result := []T{}
seen := map[T]struct{}{}
for _, elem := range list1 {
seen[elem] = struct{}{}
}
for _, elem := range list2 {
if _, ok := seen[elem]; ok {
result = append(result, elem)
}
}
return result
}
// Difference returns the difference between two collections.
// The first value is the collection of element absent of list2.
// The second value is the collection of element absent of list1.
func Difference[T comparable](list1 []T, list2 []T) ([]T, []T) {
left := []T{}
right := []T{}
seenLeft := map[T]struct{}{}
seenRight := map[T]struct{}{}
for _, elem := range list1 {
seenLeft[elem] = struct{}{}
}
for _, elem := range list2 {
seenRight[elem] = struct{}{}
}
for _, elem := range list1 {
if _, ok := seenRight[elem]; !ok {
left = append(left, elem)
}
}
for _, elem := range list2 {
if _, ok := seenLeft[elem]; !ok {
right = append(right, elem)
}
}
return left, right
}
// Union returns all distinct elements from given collections.
// result returns will not change the order of elements relatively.
func Union[T comparable](lists ...[]T) []T {
result := []T{}
seen := map[T]struct{}{}
for _, list := range lists {
for _, e := range list {
if _, ok := seen[e]; !ok {
seen[e] = struct{}{}
result = append(result, e)
}
}
}
return result
}
// Without returns slice excluding all given values.
func Without[T comparable](collection []T, exclude ...T) []T {
result := make([]T, 0, len(collection))
for _, e := range collection {
if !Contains(exclude, e) {
result = append(result, e)
}
}
return result
}
// WithoutEmpty returns slice excluding empty values.
func WithoutEmpty[T comparable](collection []T) []T {
var empty T
result := make([]T, 0, len(collection))
for _, e := range collection {
if e != empty {
result = append(result, e)
}
}
return result
}