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forgejo/modules/util/slice.go
Jason Song 477a1cc40e
Improve utils of slices (#22379)
- Move the file `compare.go` and `slice.go` to `slice.go`.
- Fix `ExistsInSlice`, it's buggy
  - It uses `sort.Search`, so it assumes that the input slice is sorted.
- It passes `func(i int) bool { return slice[i] == target })` to
`sort.Search`, that's incorrect, check the doc of `sort.Search`.
- Conbine `IsInt64InSlice(int64, []int64)` and `ExistsInSlice(string,
[]string)` to `SliceContains[T]([]T, T)`.
- Conbine `IsSliceInt64Eq([]int64, []int64)` and `IsEqualSlice([]string,
[]string)` to `SliceSortedEqual[T]([]T, T)`.
- Add `SliceEqual[T]([]T, T)` as a distinction from
`SliceSortedEqual[T]([]T, T)`.
- Redesign `RemoveIDFromList([]int64, int64) ([]int64, bool)` to
`SliceRemoveAll[T]([]T, T) []T`.
- Add `SliceContainsFunc[T]([]T, func(T) bool)` and
`SliceRemoveAllFunc[T]([]T, func(T) bool)` for general use.
- Add comments to explain why not `golang.org/x/exp/slices`.
- Add unit tests.
2023-01-11 13:31:16 +08:00

90 lines
2.4 KiB
Go

// Copyright 2022 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
// Most of the functions in this file can have better implementations with "golang.org/x/exp/slices".
// However, "golang.org/x/exp" is experimental and unreliable, we shouldn't use it.
// So lets waiting for the "slices" has be promoted to the main repository one day.
package util
import "strings"
// SliceContains returns true if the target exists in the slice.
func SliceContains[T comparable](slice []T, target T) bool {
return SliceContainsFunc(slice, func(t T) bool { return t == target })
}
// SliceContainsFunc returns true if any element in the slice satisfies the targetFunc.
func SliceContainsFunc[T any](slice []T, targetFunc func(T) bool) bool {
for _, v := range slice {
if targetFunc(v) {
return true
}
}
return false
}
// SliceContainsString sequential searches if string exists in slice.
func SliceContainsString(slice []string, target string, insensitive ...bool) bool {
if len(insensitive) != 0 && insensitive[0] {
target = strings.ToLower(target)
return SliceContainsFunc(slice, func(t string) bool { return strings.ToLower(t) == target })
}
return SliceContains(slice, target)
}
// SliceSortedEqual returns true if the two slices will be equal when they get sorted.
// It doesn't require that the slices have been sorted, and it doesn't sort them either.
func SliceSortedEqual[T comparable](s1, s2 []T) bool {
if len(s1) != len(s2) {
return false
}
counts := make(map[T]int, len(s1))
for _, v := range s1 {
counts[v]++
}
for _, v := range s2 {
counts[v]--
}
for _, v := range counts {
if v != 0 {
return false
}
}
return true
}
// SliceEqual returns true if the two slices are equal.
func SliceEqual[T comparable](s1, s2 []T) bool {
if len(s1) != len(s2) {
return false
}
for i, v := range s1 {
if s2[i] != v {
return false
}
}
return true
}
// SliceRemoveAll removes all the target elements from the slice.
func SliceRemoveAll[T comparable](slice []T, target T) []T {
return SliceRemoveAllFunc(slice, func(t T) bool { return t == target })
}
// SliceRemoveAllFunc removes all elements which satisfy the targetFunc from the slice.
func SliceRemoveAllFunc[T comparable](slice []T, targetFunc func(T) bool) []T {
idx := 0
for _, v := range slice {
if targetFunc(v) {
continue
}
slice[idx] = v
idx++
}
return slice[:idx]
}