// Package filters defines the standard Liquid filters. package filters import ( "encoding/json" "fmt" "html" "math" "reflect" "regexp" "strings" "time" "unicode" "github.com/leekchan/timeutil" "github.com/osteele/liquid/expressions" "github.com/osteele/liquid/generics" ) // DefineStandardFilters defines the standard Liquid filters. func DefineStandardFilters() { // values expressions.DefineFilter("default", func(in, defaultValue interface{}) interface{} { if in == nil || in == false || generics.IsEmpty(in) { in = defaultValue } return in }) // dates expressions.DefineFilter("date", func(value time.Time, format interface{}) interface{} { form, ok := format.(string) if !ok { form = "%a, %b %d, %y" } // FIXME All the libraries I could find format 09:00 with "%-H" as "H" instead of "9". // This renders it as "09" instead of "9", which is still bad but better. form = strings.Replace(form, "%-", "%", -1) return timeutil.Strftime(&value, form) }) // lists expressions.DefineFilter("compact", func(values []interface{}) interface{} { out := []interface{}{} for _, value := range values { if value != nil { out = append(out, value) } } return out }) expressions.DefineFilter("join", joinFilter) expressions.DefineFilter("map", func(values []map[string]interface{}, key string) interface{} { out := []interface{}{} for _, obj := range values { out = append(out, obj[key]) } return out }) expressions.DefineFilter("reverse", reverseFilter) expressions.DefineFilter("sort", sortFilter) // https://shopify.github.io/liquid/ does not demonstrate first and last as filters, // but https://help.shopify.com/themes/liquid/filters/array-filters does expressions.DefineFilter("first", func(values []interface{}) interface{} { if len(values) == 0 { return nil } return values[0] }) expressions.DefineFilter("last", func(values []interface{}) interface{} { if len(values) == 0 { return nil } return values[len(values)-1] }) // numbers expressions.DefineFilter("abs", math.Abs) expressions.DefineFilter("ceil", math.Ceil) expressions.DefineFilter("floor", math.Floor) expressions.DefineFilter("modulo", math.Mod) expressions.DefineFilter("minus", func(a, b float64) float64 { return a - b }) expressions.DefineFilter("plus", func(a, b float64) float64 { return a + b }) expressions.DefineFilter("times", func(a, b float64) float64 { return a * b }) expressions.DefineFilter("divided_by", func(a float64, b interface{}) interface{} { switch bt := b.(type) { case int, int16, int32, int64: return int(a) / bt.(int) case float32, float64: return a / float64(b.(float64)) default: return nil } }) expressions.DefineFilter("round", func(n float64, places interface{}) float64 { pl, ok := places.(int) if !ok { pl = 0 } exp := math.Pow10(pl) return math.Floor(n*exp+0.5) / exp }) // sequences expressions.DefineFilter("size", generics.Length) // strings expressions.DefineFilter("append", func(s, suffix string) string { return s + suffix }) expressions.DefineFilter("capitalize", func(s, suffix string) string { if len(s) < 1 { return s } return strings.ToUpper(s[:1]) + s[1:] }) expressions.DefineFilter("downcase", func(s, suffix string) string { return strings.ToLower(s) }) expressions.DefineFilter("escape", html.EscapeString) expressions.DefineFilter("escape_once", func(s, suffix string) string { return html.EscapeString(html.UnescapeString(s)) }) // TODO test case for this expressions.DefineFilter("newline_to_br", func(s string) string { return strings.Replace(s, "\n", "
", -1) }) expressions.DefineFilter("prepend", func(s, prefix string) string { return prefix + s }) expressions.DefineFilter("remove", func(s, old string) string { return strings.Replace(s, old, "", -1) }) expressions.DefineFilter("remove_first", func(s, old string) string { return strings.Replace(s, old, "", 1) }) expressions.DefineFilter("replace", func(s, old, new string) string { return strings.Replace(s, old, new, -1) }) expressions.DefineFilter("replace_first", func(s, old, new string) string { return strings.Replace(s, old, new, 1) }) expressions.DefineFilter("slice", func(s string, start int, length interface{}) string { n, ok := length.(int) if !ok { n = 1 } if start < 0 { start = len(s) + start } if start >= len(s) { return "" } if start+n > len(s) { return s[start:] } return s[start : start+n] }) expressions.DefineFilter("split", splitFilter) expressions.DefineFilter("strip_html", func(s string) string { // TODO this probably isn't sufficient return regexp.MustCompile(`<.*?>`).ReplaceAllString(s, "") }) // TODO test case for this expressions.DefineFilter("strip_newlines", func(s string) string { return strings.Replace(s, "\n", "", -1) }) expressions.DefineFilter("strip", strings.TrimSpace) expressions.DefineFilter("lstrip", func(s string) string { return strings.TrimLeftFunc(s, unicode.IsSpace) }) expressions.DefineFilter("rstrip", func(s string) string { return strings.TrimRightFunc(s, unicode.IsSpace) }) expressions.DefineFilter("truncate", func(s string, n int, ellipsis interface{}) string { el, ok := ellipsis.(string) if !ok { el = "..." } if len(s) > n { s = s[:n-len(el)] + el } return s }) expressions.DefineFilter("upcase", func(s, suffix string) string { return strings.ToUpper(s) }) // debugging extensions // inspect is from Jekyll expressions.DefineFilter("inspect", func(value interface{}) string { s, err := json.Marshal(value) if err != nil { return fmt.Sprintf("%#v", value) } return string(s) }) expressions.DefineFilter("type", func(value interface{}) string { return reflect.TypeOf(value).String() }) } func joinFilter(in []interface{}, sep interface{}) interface{} { a := make([]string, len(in)) s := ", " if sep != nil { s = fmt.Sprint(sep) } for i, x := range in { a[i] = fmt.Sprint(x) } return strings.Join(a, s) } func reverseFilter(in []interface{}) interface{} { out := make([]interface{}, len(in)) for i, x := range in { out[len(out)-1-i] = x } return out } func sortFilter(in []interface{}, key interface{}) []interface{} { out := make([]interface{}, len(in)) for i, v := range in { out[i] = v } if key == nil { generics.Sort(out) } else { generics.SortByProperty(out, key.(string), true) } return out } func splitFilter(in, sep string) interface{} { return strings.Split(in, sep) }