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|
package lo
import (
"fmt"
"math/rand"
"golang.org/x/exp/constraints"
)
// import "golang.org/x/exp/constraints"
// IndexOf returns the index at which the first occurrence of a value is found in an array or return -1
// if the value cannot be found.
func IndexOf[T comparable](collection []T, element T) int {
for i, item := range collection {
if item == element {
return i
}
}
return -1
}
// LastIndexOf returns the index at which the last occurrence of a value is found in an array or return -1
// if the value cannot be found.
func LastIndexOf[T comparable](collection []T, element T) int {
length := len(collection)
for i := length - 1; i >= 0; i-- {
if collection[i] == element {
return i
}
}
return -1
}
// Find search an element in a slice based on a predicate. It returns element and true if element was found.
func Find[T any](collection []T, predicate func(item T) bool) (T, bool) {
for _, item := range collection {
if predicate(item) {
return item, true
}
}
var result T
return result, false
}
// FindIndexOf searches an element in a slice based on a predicate and returns the index and true.
// It returns -1 and false if the element is not found.
func FindIndexOf[T any](collection []T, predicate func(item T) bool) (T, int, bool) {
for i, item := range collection {
if predicate(item) {
return item, i, true
}
}
var result T
return result, -1, false
}
// FindLastIndexOf searches last element in a slice based on a predicate and returns the index and true.
// It returns -1 and false if the element is not found.
func FindLastIndexOf[T any](collection []T, predicate func(item T) bool) (T, int, bool) {
length := len(collection)
for i := length - 1; i >= 0; i-- {
if predicate(collection[i]) {
return collection[i], i, true
}
}
var result T
return result, -1, false
}
// FindOrElse search an element in a slice based on a predicate. It returns the element if found or a given fallback value otherwise.
func FindOrElse[T any](collection []T, fallback T, predicate func(item T) bool) T {
for _, item := range collection {
if predicate(item) {
return item
}
}
return fallback
}
// FindKey returns the key of the first value matching.
func FindKey[K comparable, V comparable](object map[K]V, value V) (K, bool) {
for k, v := range object {
if v == value {
return k, true
}
}
return Empty[K](), false
}
// FindKeyBy returns the key of the first element predicate returns truthy for.
func FindKeyBy[K comparable, V any](object map[K]V, predicate func(key K, value V) bool) (K, bool) {
for k, v := range object {
if predicate(k, v) {
return k, true
}
}
return Empty[K](), false
}
// FindUniques returns a slice with all the unique elements of the collection.
// The order of result values is determined by the order they occur in the collection.
func FindUniques[T comparable](collection []T) []T {
isDupl := make(map[T]bool, len(collection))
for _, item := range collection {
duplicated, ok := isDupl[item]
if !ok {
isDupl[item] = false
} else if !duplicated {
isDupl[item] = true
}
}
result := make([]T, 0, len(collection)-len(isDupl))
for _, item := range collection {
if duplicated := isDupl[item]; !duplicated {
result = append(result, item)
}
}
return result
}
// FindUniquesBy returns a slice with all the unique elements of the collection.
// The order of result values is determined by the order they occur in the array. It accepts `iteratee` which is
// invoked for each element in array to generate the criterion by which uniqueness is computed.
func FindUniquesBy[T any, U comparable](collection []T, iteratee func(item T) U) []T {
isDupl := make(map[U]bool, len(collection))
for _, item := range collection {
key := iteratee(item)
duplicated, ok := isDupl[key]
if !ok {
isDupl[key] = false
} else if !duplicated {
isDupl[key] = true
}
}
result := make([]T, 0, len(collection)-len(isDupl))
for _, item := range collection {
key := iteratee(item)
if duplicated := isDupl[key]; !duplicated {
result = append(result, item)
}
}
return result
}
// FindDuplicates returns a slice with the first occurrence of each duplicated elements of the collection.
// The order of result values is determined by the order they occur in the collection.
func FindDuplicates[T comparable](collection []T) []T {
isDupl := make(map[T]bool, len(collection))
for _, item := range collection {
duplicated, ok := isDupl[item]
if !ok {
isDupl[item] = false
} else if !duplicated {
isDupl[item] = true
}
}
result := make([]T, 0, len(collection)-len(isDupl))
for _, item := range collection {
if duplicated := isDupl[item]; duplicated {
result = append(result, item)
isDupl[item] = false
}
}
return result
}
// FindDuplicatesBy returns a slice with the first occurrence of each duplicated elements of the collection.
// The order of result values is determined by the order they occur in the array. It accepts `iteratee` which is
// invoked for each element in array to generate the criterion by which uniqueness is computed.
func FindDuplicatesBy[T any, U comparable](collection []T, iteratee func(item T) U) []T {
isDupl := make(map[U]bool, len(collection))
for _, item := range collection {
key := iteratee(item)
duplicated, ok := isDupl[key]
if !ok {
isDupl[key] = false
} else if !duplicated {
isDupl[key] = true
}
}
result := make([]T, 0, len(collection)-len(isDupl))
for _, item := range collection {
key := iteratee(item)
if duplicated := isDupl[key]; duplicated {
result = append(result, item)
isDupl[key] = false
}
}
return result
}
// Min search the minimum value of a collection.
// Returns zero value when collection is empty.
func Min[T constraints.Ordered](collection []T) T {
var min T
if len(collection) == 0 {
return min
}
min = collection[0]
for i := 1; i < len(collection); i++ {
item := collection[i]
if item < min {
min = item
}
}
return min
}
// MinBy search the minimum value of a collection using the given comparison function.
// If several values of the collection are equal to the smallest value, returns the first such value.
// Returns zero value when collection is empty.
func MinBy[T any](collection []T, comparison func(a T, b T) bool) T {
var min T
if len(collection) == 0 {
return min
}
min = collection[0]
for i := 1; i < len(collection); i++ {
item := collection[i]
if comparison(item, min) {
min = item
}
}
return min
}
// Max searches the maximum value of a collection.
// Returns zero value when collection is empty.
func Max[T constraints.Ordered](collection []T) T {
var max T
if len(collection) == 0 {
return max
}
max = collection[0]
for i := 1; i < len(collection); i++ {
item := collection[i]
if item > max {
max = item
}
}
return max
}
// MaxBy search the maximum value of a collection using the given comparison function.
// If several values of the collection are equal to the greatest value, returns the first such value.
// Returns zero value when collection is empty.
func MaxBy[T any](collection []T, comparison func(a T, b T) bool) T {
var max T
if len(collection) == 0 {
return max
}
max = collection[0]
for i := 1; i < len(collection); i++ {
item := collection[i]
if comparison(item, max) {
max = item
}
}
return max
}
// Last returns the last element of a collection or error if empty.
func Last[T any](collection []T) (T, error) {
length := len(collection)
if length == 0 {
var t T
return t, fmt.Errorf("last: cannot extract the last element of an empty slice")
}
return collection[length-1], nil
}
// Nth returns the element at index `nth` of collection. If `nth` is negative, the nth element
// from the end is returned. An error is returned when nth is out of slice bounds.
func Nth[T any, N constraints.Integer](collection []T, nth N) (T, error) {
n := int(nth)
l := len(collection)
if n >= l || -n > l {
var t T
return t, fmt.Errorf("nth: %d out of slice bounds", n)
}
if n >= 0 {
return collection[n], nil
}
return collection[l+n], nil
}
// Sample returns a random item from collection.
func Sample[T any](collection []T) T {
size := len(collection)
if size == 0 {
return Empty[T]()
}
return collection[rand.Intn(size)]
}
// Samples returns N random unique items from collection.
func Samples[T any](collection []T, count int) []T {
size := len(collection)
copy := append([]T{}, collection...)
results := []T{}
for i := 0; i < size && i < count; i++ {
copyLength := size - i
index := rand.Intn(size - i)
results = append(results, copy[index])
// Removes element.
// It is faster to swap with last element and remove it.
copy[index] = copy[copyLength-1]
copy = copy[:copyLength-1]
}
return results
}
|
