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// Copyright 2023 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package slices_test import ( "cmp" "fmt" "slices" "strconv" "strings" ) func ExampleBinarySearch() { names := []string{"Alice", "Bob", "Vera"} n, found := slices.BinarySearch(names, "Vera") fmt.Println("Vera:", n, found) n, found = slices.BinarySearch(names, "Bill") fmt.Println("Bill:", n, found) // Output: // Vera: 2 true // Bill: 1 false } func ExampleBinarySearchFunc() { type Person struct { Name string Age int } people := []Person{ {"Alice", 55}, {"Bob", 24}, {"Gopher", 13}, } n, found := slices.BinarySearchFunc(people, Person{"Bob", 0}, func(a, b Person) int { return cmp.Compare(a.Name, b.Name) }) fmt.Println("Bob:", n, found) // Output: // Bob: 1 true } func ExampleCompact() { seq := []int{0, 1, 1, 2, 3, 5, 8} seq = slices.Compact(seq) fmt.Println(seq) // Output: // [0 1 2 3 5 8] } func ExampleCompactFunc() { names := []string{"bob", "Bob", "alice", "Vera", "VERA"} names = slices.CompactFunc(names, strings.EqualFold) fmt.Println(names) // Output: // [bob alice Vera] } func ExampleCompare() { names := []string{"Alice", "Bob", "Vera"} fmt.Println("Equal:", slices.Compare(names, []string{"Alice", "Bob", "Vera"})) fmt.Println("V < X:", slices.Compare(names, []string{"Alice", "Bob", "Xena"})) fmt.Println("V > C:", slices.Compare(names, []string{"Alice", "Bob", "Cat"})) fmt.Println("3 > 2:", slices.Compare(names, []string{"Alice", "Bob"})) // Output: // Equal: 0 // V < X: -1 // V > C: 1 // 3 > 2: 1 } func ExampleCompareFunc() { numbers := []int{0, 43, 8} strings := []string{"0", "0", "8"} result := slices.CompareFunc(numbers, strings, func(n int, s string) int { sn, err := strconv.Atoi(s) if err != nil { return 1 } return cmp.Compare(n, sn) }) fmt.Println(result) // Output: // 1 } func ExampleContainsFunc() { numbers := []int{0, 42, -10, 8} hasNegative := slices.ContainsFunc(numbers, func(n int) bool { return n < 0 }) fmt.Println("Has a negative:", hasNegative) hasOdd := slices.ContainsFunc(numbers, func(n int) bool { return n%2 != 0 }) fmt.Println("Has an odd number:", hasOdd) // Output: // Has a negative: true // Has an odd number: false } func ExampleDelete() { letters := []string{"a", "b", "c", "d", "e"} letters = slices.Delete(letters, 1, 4) fmt.Println(letters) // Output: // [a e] } func ExampleDeleteFunc() { seq := []int{0, 1, 1, 2, 3, 5, 8} seq = slices.DeleteFunc(seq, func(n int) bool { return n%2 != 0 // delete the odd numbers }) fmt.Println(seq) // Output: // [0 2 8] } func ExampleEqual() { numbers := []int{0, 42, 8} fmt.Println(slices.Equal(numbers, []int{0, 42, 8})) fmt.Println(slices.Equal(numbers, []int{10})) // Output: // true // false } func ExampleEqualFunc() { numbers := []int{0, 42, 8} strings := []string{"000", "42", "0o10"} equal := slices.EqualFunc(numbers, strings, func(n int, s string) bool { sn, err := strconv.ParseInt(s, 0, 64) if err != nil { return false } return n == int(sn) }) fmt.Println(equal) // Output: // true } func ExampleIndex() { numbers := []int{0, 42, 8} fmt.Println(slices.Index(numbers, 8)) fmt.Println(slices.Index(numbers, 7)) // Output: // 2 // -1 } func ExampleIndexFunc() { numbers := []int{0, 42, -10, 8} i := slices.IndexFunc(numbers, func(n int) bool { return n < 0 }) fmt.Println("First negative at index", i) // Output: // First negative at index 2 } func ExampleInsert() { names := []string{"Alice", "Bob", "Vera"} names = slices.Insert(names, 1, "Bill", "Billie") names = slices.Insert(names, len(names), "Zac") fmt.Println(names) // Output: // [Alice Bill Billie Bob Vera Zac] } func ExampleIsSorted() { fmt.Println(slices.IsSorted([]string{"Alice", "Bob", "Vera"})) fmt.Println(slices.IsSorted([]int{0, 2, 1})) // Output: // true // false } func ExampleIsSortedFunc() { names := []string{"alice", "Bob", "VERA"} isSortedInsensitive := slices.IsSortedFunc(names, func(a, b string) int { return cmp.Compare(strings.ToLower(a), strings.ToLower(b)) }) fmt.Println(isSortedInsensitive) fmt.Println(slices.IsSorted(names)) // Output: // true // false } func ExampleMax() { numbers := []int{0, 42, -10, 8} fmt.Println(slices.Max(numbers)) // Output: // 42 } func ExampleMaxFunc() { type Person struct { Name string Age int } people := []Person{ {"Gopher", 13}, {"Alice", 55}, {"Vera", 24}, {"Bob", 55}, } firstOldest := slices.MaxFunc(people, func(a, b Person) int { return cmp.Compare(a.Age, b.Age) }) fmt.Println(firstOldest.Name) // Output: // Alice } func ExampleMin() { numbers := []int{0, 42, -10, 8} fmt.Println(slices.Min(numbers)) // Output: // -10 } func ExampleMinFunc() { type Person struct { Name string Age int } people := []Person{ {"Gopher", 13}, {"Bob", 5}, {"Vera", 24}, {"Bill", 5}, } firstYoungest := slices.MinFunc(people, func(a, b Person) int { return cmp.Compare(a.Age, b.Age) }) fmt.Println(firstYoungest.Name) // Output: // Bob } func ExampleReplace() { names := []string{"Alice", "Bob", "Vera", "Zac"} names = slices.Replace(names, 1, 3, "Bill", "Billie", "Cat") fmt.Println(names) // Output: // [Alice Bill Billie Cat Zac] } func ExampleReverse() { names := []string{"alice", "Bob", "VERA"} slices.Reverse(names) fmt.Println(names) // Output: // [VERA Bob alice] } func ExampleSort() { smallInts := []int8{0, 42, -10, 8} slices.Sort(smallInts) fmt.Println(smallInts) // Output: // [-10 0 8 42] } func ExampleSortFunc_caseInsensitive() { names := []string{"Bob", "alice", "VERA"} slices.SortFunc(names, func(a, b string) int { return cmp.Compare(strings.ToLower(a), strings.ToLower(b)) }) fmt.Println(names) // Output: // [alice Bob VERA] } func ExampleSortFunc_multiField() { type Person struct { Name string Age int } people := []Person{ {"Gopher", 13}, {"Alice", 55}, {"Bob", 24}, {"Alice", 20}, } slices.SortFunc(people, func(a, b Person) int { if n := cmp.Compare(a.Name, b.Name); n != 0 { return n } // If names are equal, order by age return cmp.Compare(a.Age, b.Age) }) fmt.Println(people) // Output: // [{Alice 20} {Alice 55} {Bob 24} {Gopher 13}] } func ExampleSortStableFunc() { type Person struct { Name string Age int } people := []Person{ {"Gopher", 13}, {"Alice", 20}, {"Bob", 24}, {"Alice", 55}, } // Stable sort by name, keeping age ordering of Alices intact slices.SortStableFunc(people, func(a, b Person) int { return cmp.Compare(a.Name, b.Name) }) fmt.Println(people) // Output: // [{Alice 20} {Alice 55} {Bob 24} {Gopher 13}] }