package sprig import ( "fmt" "reflect" "sort" ) // Reflection is used in these functions so that slices and arrays of strings, // ints, and other types not implementing []interface{} can be worked with. // For example, this is useful if you need to work on the output of regexs. func list(v ...interface{}) []interface{} { return v } func push(list interface{}, v interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() nl := make([]interface{}, l) for i := 0; i < l; i++ { nl[i] = l2.Index(i).Interface() } return append(nl, v) default: panic(fmt.Sprintf("Cannot push on type %s", tp)) } } func prepend(list interface{}, v interface{}) []interface{} { //return append([]interface{}{v}, list...) tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() nl := make([]interface{}, l) for i := 0; i < l; i++ { nl[i] = l2.Index(i).Interface() } return append([]interface{}{v}, nl...) default: panic(fmt.Sprintf("Cannot prepend on type %s", tp)) } } func last(list interface{}) interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() if l == 0 { return nil } return l2.Index(l - 1).Interface() default: panic(fmt.Sprintf("Cannot find last on type %s", tp)) } } func first(list interface{}) interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() if l == 0 { return nil } return l2.Index(0).Interface() default: panic(fmt.Sprintf("Cannot find first on type %s", tp)) } } func rest(list interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() if l == 0 { return nil } nl := make([]interface{}, l-1) for i := 1; i < l; i++ { nl[i-1] = l2.Index(i).Interface() } return nl default: panic(fmt.Sprintf("Cannot find rest on type %s", tp)) } } func initial(list interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() if l == 0 { return nil } nl := make([]interface{}, l-1) for i := 0; i < l-1; i++ { nl[i] = l2.Index(i).Interface() } return nl default: panic(fmt.Sprintf("Cannot find initial on type %s", tp)) } } func sortAlpha(list interface{}) []string { k := reflect.Indirect(reflect.ValueOf(list)).Kind() switch k { case reflect.Slice, reflect.Array: a := strslice(list) s := sort.StringSlice(a) s.Sort() return s } return []string{strval(list)} } func reverse(v interface{}) []interface{} { tp := reflect.TypeOf(v).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(v) l := l2.Len() // We do not sort in place because the incoming array should not be altered. nl := make([]interface{}, l) for i := 0; i < l; i++ { nl[l-i-1] = l2.Index(i).Interface() } return nl default: panic(fmt.Sprintf("Cannot find reverse on type %s", tp)) } } func compact(list interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() nl := []interface{}{} var item interface{} for i := 0; i < l; i++ { item = l2.Index(i).Interface() if !empty(item) { nl = append(nl, item) } } return nl default: panic(fmt.Sprintf("Cannot compact on type %s", tp)) } } func uniq(list interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() dest := []interface{}{} var item interface{} for i := 0; i < l; i++ { item = l2.Index(i).Interface() if !inList(dest, item) { dest = append(dest, item) } } return dest default: panic(fmt.Sprintf("Cannot find uniq on type %s", tp)) } } func inList(haystack []interface{}, needle interface{}) bool { for _, h := range haystack { if reflect.DeepEqual(needle, h) { return true } } return false } func without(list interface{}, omit ...interface{}) []interface{} { tp := reflect.TypeOf(list).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(list) l := l2.Len() res := []interface{}{} var item interface{} for i := 0; i < l; i++ { item = l2.Index(i).Interface() if !inList(omit, item) { res = append(res, item) } } return res default: panic(fmt.Sprintf("Cannot find without on type %s", tp)) } } func has(needle interface{}, haystack interface{}) bool { tp := reflect.TypeOf(haystack).Kind() switch tp { case reflect.Slice, reflect.Array: l2 := reflect.ValueOf(haystack) var item interface{} l := l2.Len() for i := 0; i < l; i++ { item = l2.Index(i).Interface() if reflect.DeepEqual(needle, item) { return true } } return false default: panic(fmt.Sprintf("Cannot find has on type %s", tp)) } }