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Current Directory: /opt/golang/1.22.0/src/text/template
/opt/golang/1.22.0/src/text/template/
Viewing File: /opt/golang/1.22.0/src/text/template/funcs.go
// Copyright 2011 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 template import ( "errors" "fmt" "io" "net/url" "reflect" "strings" "sync" "unicode" "unicode/utf8" ) // FuncMap is the type of the map defining the mapping from names to functions. // Each function must have either a single return value, or two return values of // which the second has type error. In that case, if the second (error) // return value evaluates to non-nil during execution, execution terminates and // Execute returns that error. // // Errors returned by Execute wrap the underlying error; call errors.As to // unwrap them. // // When template execution invokes a function with an argument list, that list // must be assignable to the function's parameter types. Functions meant to // apply to arguments of arbitrary type can use parameters of type interface{} or // of type reflect.Value. Similarly, functions meant to return a result of arbitrary // type can return interface{} or reflect.Value. type FuncMap map[string]any // builtins returns the FuncMap. // It is not a global variable so the linker can dead code eliminate // more when this isn't called. See golang.org/issue/36021. // TODO: revert this back to a global map once golang.org/issue/2559 is fixed. func builtins() FuncMap { return FuncMap{ "and": and, "call": call, "html": HTMLEscaper, "index": index, "slice": slice, "js": JSEscaper, "len": length, "not": not, "or": or, "print": fmt.Sprint, "printf": fmt.Sprintf, "println": fmt.Sprintln, "urlquery": URLQueryEscaper, // Comparisons "eq": eq, // == "ge": ge, // >= "gt": gt, // > "le": le, // <= "lt": lt, // < "ne": ne, // != } } var builtinFuncsOnce struct { sync.Once v map[string]reflect.Value } // builtinFuncsOnce lazily computes & caches the builtinFuncs map. // TODO: revert this back to a global map once golang.org/issue/2559 is fixed. func builtinFuncs() map[string]reflect.Value { builtinFuncsOnce.Do(func() { builtinFuncsOnce.v = createValueFuncs(builtins()) }) return builtinFuncsOnce.v } // createValueFuncs turns a FuncMap into a map[string]reflect.Value func createValueFuncs(funcMap FuncMap) map[string]reflect.Value { m := make(map[string]reflect.Value) addValueFuncs(m, funcMap) return m } // addValueFuncs adds to values the functions in funcs, converting them to reflect.Values. func addValueFuncs(out map[string]reflect.Value, in FuncMap) { for name, fn := range in { if !goodName(name) { panic(fmt.Errorf("function name %q is not a valid identifier", name)) } v := reflect.ValueOf(fn) if v.Kind() != reflect.Func { panic("value for " + name + " not a function") } if !goodFunc(v.Type()) { panic(fmt.Errorf("can't install method/function %q with %d results", name, v.Type().NumOut())) } out[name] = v } } // addFuncs adds to values the functions in funcs. It does no checking of the input - // call addValueFuncs first. func addFuncs(out, in FuncMap) { for name, fn := range in { out[name] = fn } } // goodFunc reports whether the function or method has the right result signature. func goodFunc(typ reflect.Type) bool { // We allow functions with 1 result or 2 results where the second is an error. switch { case typ.NumOut() == 1: return true case typ.NumOut() == 2 && typ.Out(1) == errorType: return true } return false } // goodName reports whether the function name is a valid identifier. func goodName(name string) bool { if name == "" { return false } for i, r := range name { switch { case r == '_': case i == 0 && !unicode.IsLetter(r): return false case !unicode.IsLetter(r) && !unicode.IsDigit(r): return false } } return true } // findFunction looks for a function in the template, and global map. func findFunction(name string, tmpl *Template) (v reflect.Value, isBuiltin, ok bool) { if tmpl != nil && tmpl.common != nil { tmpl.muFuncs.RLock() defer tmpl.muFuncs.RUnlock() if fn := tmpl.execFuncs[name]; fn.IsValid() { return fn, false, true } } if fn := builtinFuncs()[name]; fn.IsValid() { return fn, true, true } return reflect.Value{}, false, false } // prepareArg checks if value can be used as an argument of type argType, and // converts an invalid value to appropriate zero if possible. func prepareArg(value reflect.Value, argType reflect.Type) (reflect.Value, error) { if !value.IsValid() { if !canBeNil(argType) { return reflect.Value{}, fmt.Errorf("value is nil; should be of type %s", argType) } value = reflect.Zero(argType) } if value.Type().AssignableTo(argType) { return value, nil } if intLike(value.Kind()) && intLike(argType.Kind()) && value.Type().ConvertibleTo(argType) { value = value.Convert(argType) return value, nil } return reflect.Value{}, fmt.Errorf("value has type %s; should be %s", value.Type(), argType) } func intLike(typ reflect.Kind) bool { switch typ { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: return true case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: return true } return false } // indexArg checks if a reflect.Value can be used as an index, and converts it to int if possible. func indexArg(index reflect.Value, cap int) (int, error) { var x int64 switch index.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: x = index.Int() case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: x = int64(index.Uint()) case reflect.Invalid: return 0, fmt.Errorf("cannot index slice/array with nil") default: return 0, fmt.Errorf("cannot index slice/array with type %s", index.Type()) } if x < 0 || int(x) < 0 || int(x) > cap { return 0, fmt.Errorf("index out of range: %d", x) } return int(x), nil } // Indexing. // index returns the result of indexing its first argument by the following // arguments. Thus "index x 1 2 3" is, in Go syntax, x[1][2][3]. Each // indexed item must be a map, slice, or array. func index(item reflect.Value, indexes ...reflect.Value) (reflect.Value, error) { item = indirectInterface(item) if !item.IsValid() { return reflect.Value{}, fmt.Errorf("index of untyped nil") } for _, index := range indexes { index = indirectInterface(index) var isNil bool if item, isNil = indirect(item); isNil { return reflect.Value{}, fmt.Errorf("index of nil pointer") } switch item.Kind() { case reflect.Array, reflect.Slice, reflect.String: x, err := indexArg(index, item.Len()) if err != nil { return reflect.Value{}, err } item = item.Index(x) case reflect.Map: index, err := prepareArg(index, item.Type().Key()) if err != nil { return reflect.Value{}, err } if x := item.MapIndex(index); x.IsValid() { item = x } else { item = reflect.Zero(item.Type().Elem()) } case reflect.Invalid: // the loop holds invariant: item.IsValid() panic("unreachable") default: return reflect.Value{}, fmt.Errorf("can't index item of type %s", item.Type()) } } return item, nil } // Slicing. // slice returns the result of slicing its first argument by the remaining // arguments. Thus "slice x 1 2" is, in Go syntax, x[1:2], while "slice x" // is x[:], "slice x 1" is x[1:], and "slice x 1 2 3" is x[1:2:3]. The first // argument must be a string, slice, or array. func slice(item reflect.Value, indexes ...reflect.Value) (reflect.Value, error) { item = indirectInterface(item) if !item.IsValid() { return reflect.Value{}, fmt.Errorf("slice of untyped nil") } if len(indexes) > 3 { return reflect.Value{}, fmt.Errorf("too many slice indexes: %d", len(indexes)) } var cap int switch item.Kind() { case reflect.String: if len(indexes) == 3 { return reflect.Value{}, fmt.Errorf("cannot 3-index slice a string") } cap = item.Len() case reflect.Array, reflect.Slice: cap = item.Cap() default: return reflect.Value{}, fmt.Errorf("can't slice item of type %s", item.Type()) } // set default values for cases item[:], item[i:]. idx := [3]int{0, item.Len()} for i, index := range indexes { x, err := indexArg(index, cap) if err != nil { return reflect.Value{}, err } idx[i] = x } // given item[i:j], make sure i <= j. if idx[0] > idx[1] { return reflect.Value{}, fmt.Errorf("invalid slice index: %d > %d", idx[0], idx[1]) } if len(indexes) < 3 { return item.Slice(idx[0], idx[1]), nil } // given item[i:j:k], make sure i <= j <= k. if idx[1] > idx[2] { return reflect.Value{}, fmt.Errorf("invalid slice index: %d > %d", idx[1], idx[2]) } return item.Slice3(idx[0], idx[1], idx[2]), nil } // Length // length returns the length of the item, with an error if it has no defined length. func length(item reflect.Value) (int, error) { item, isNil := indirect(item) if isNil { return 0, fmt.Errorf("len of nil pointer") } switch item.Kind() { case reflect.Array, reflect.Chan, reflect.Map, reflect.Slice, reflect.String: return item.Len(), nil } return 0, fmt.Errorf("len of type %s", item.Type()) } // Function invocation // call returns the result of evaluating the first argument as a function. // The function must return 1 result, or 2 results, the second of which is an error. func call(fn reflect.Value, args ...reflect.Value) (reflect.Value, error) { fn = indirectInterface(fn) if !fn.IsValid() { return reflect.Value{}, fmt.Errorf("call of nil") } typ := fn.Type() if typ.Kind() != reflect.Func { return reflect.Value{}, fmt.Errorf("non-function of type %s", typ) } if !goodFunc(typ) { return reflect.Value{}, fmt.Errorf("function called with %d args; should be 1 or 2", typ.NumOut()) } numIn := typ.NumIn() var dddType reflect.Type if typ.IsVariadic() { if len(args) < numIn-1 { return reflect.Value{}, fmt.Errorf("wrong number of args: got %d want at least %d", len(args), numIn-1) } dddType = typ.In(numIn - 1).Elem() } else { if len(args) != numIn { return reflect.Value{}, fmt.Errorf("wrong number of args: got %d want %d", len(args), numIn) } } argv := make([]reflect.Value, len(args)) for i, arg := range args { arg = indirectInterface(arg) // Compute the expected type. Clumsy because of variadics. argType := dddType if !typ.IsVariadic() || i < numIn-1 { argType = typ.In(i) } var err error if argv[i], err = prepareArg(arg, argType); err != nil { return reflect.Value{}, fmt.Errorf("arg %d: %w", i, err) } } return safeCall(fn, argv) } // safeCall runs fun.Call(args), and returns the resulting value and error, if // any. If the call panics, the panic value is returned as an error. func safeCall(fun reflect.Value, args []reflect.Value) (val reflect.Value, err error) { defer func() { if r := recover(); r != nil { if e, ok := r.(error); ok { err = e } else { err = fmt.Errorf("%v", r) } } }() ret := fun.Call(args) if len(ret) == 2 && !ret[1].IsNil() { return ret[0], ret[1].Interface().(error) } return ret[0], nil } // Boolean logic. func truth(arg reflect.Value) bool { t, _ := isTrue(indirectInterface(arg)) return t } // and computes the Boolean AND of its arguments, returning // the first false argument it encounters, or the last argument. func and(arg0 reflect.Value, args ...reflect.Value) reflect.Value { panic("unreachable") // implemented as a special case in evalCall } // or computes the Boolean OR of its arguments, returning // the first true argument it encounters, or the last argument. func or(arg0 reflect.Value, args ...reflect.Value) reflect.Value { panic("unreachable") // implemented as a special case in evalCall } // not returns the Boolean negation of its argument. func not(arg reflect.Value) bool { return !truth(arg) } // Comparison. // TODO: Perhaps allow comparison between signed and unsigned integers. var ( errBadComparisonType = errors.New("invalid type for comparison") errBadComparison = errors.New("incompatible types for comparison") errNoComparison = errors.New("missing argument for comparison") ) type kind int const ( invalidKind kind = iota boolKind complexKind intKind floatKind stringKind uintKind ) func basicKind(v reflect.Value) (kind, error) { switch v.Kind() { case reflect.Bool: return boolKind, nil case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: return intKind, nil case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: return uintKind, nil case reflect.Float32, reflect.Float64: return floatKind, nil case reflect.Complex64, reflect.Complex128: return complexKind, nil case reflect.String: return stringKind, nil } return invalidKind, errBadComparisonType } // isNil returns true if v is the zero reflect.Value, or nil of its type. func isNil(v reflect.Value) bool { if !v.IsValid() { return true } switch v.Kind() { case reflect.Chan, reflect.Func, reflect.Interface, reflect.Map, reflect.Pointer, reflect.Slice: return v.IsNil() } return false } // canCompare reports whether v1 and v2 are both the same kind, or one is nil. // Called only when dealing with nillable types, or there's about to be an error. func canCompare(v1, v2 reflect.Value) bool { k1 := v1.Kind() k2 := v2.Kind() if k1 == k2 { return true } // We know the type can be compared to nil. return k1 == reflect.Invalid || k2 == reflect.Invalid } // eq evaluates the comparison a == b || a == c || ... func eq(arg1 reflect.Value, arg2 ...reflect.Value) (bool, error) { arg1 = indirectInterface(arg1) if len(arg2) == 0 { return false, errNoComparison } k1, _ := basicKind(arg1) for _, arg := range arg2 { arg = indirectInterface(arg) k2, _ := basicKind(arg) truth := false if k1 != k2 { // Special case: Can compare integer values regardless of type's sign. switch { case k1 == intKind && k2 == uintKind: truth = arg1.Int() >= 0 && uint64(arg1.Int()) == arg.Uint() case k1 == uintKind && k2 == intKind: truth = arg.Int() >= 0 && arg1.Uint() == uint64(arg.Int()) default: if arg1.IsValid() && arg.IsValid() { return false, errBadComparison } } } else { switch k1 { case boolKind: truth = arg1.Bool() == arg.Bool() case complexKind: truth = arg1.Complex() == arg.Complex() case floatKind: truth = arg1.Float() == arg.Float() case intKind: truth = arg1.Int() == arg.Int() case stringKind: truth = arg1.String() == arg.String() case uintKind: truth = arg1.Uint() == arg.Uint() default: if !canCompare(arg1, arg) { return false, fmt.Errorf("non-comparable types %s: %v, %s: %v", arg1, arg1.Type(), arg.Type(), arg) } if isNil(arg1) || isNil(arg) { truth = isNil(arg) == isNil(arg1) } else { if !arg.Type().Comparable() { return false, fmt.Errorf("non-comparable type %s: %v", arg, arg.Type()) } truth = arg1.Interface() == arg.Interface() } } } if truth { return true, nil } } return false, nil } // ne evaluates the comparison a != b. func ne(arg1, arg2 reflect.Value) (bool, error) { // != is the inverse of ==. equal, err := eq(arg1, arg2) return !equal, err } // lt evaluates the comparison a < b. func lt(arg1, arg2 reflect.Value) (bool, error) { arg1 = indirectInterface(arg1) k1, err := basicKind(arg1) if err != nil { return false, err } arg2 = indirectInterface(arg2) k2, err := basicKind(arg2) if err != nil { return false, err } truth := false if k1 != k2 { // Special case: Can compare integer values regardless of type's sign. switch { case k1 == intKind && k2 == uintKind: truth = arg1.Int() < 0 || uint64(arg1.Int()) < arg2.Uint() case k1 == uintKind && k2 == intKind: truth = arg2.Int() >= 0 && arg1.Uint() < uint64(arg2.Int()) default: return false, errBadComparison } } else { switch k1 { case boolKind, complexKind: return false, errBadComparisonType case floatKind: truth = arg1.Float() < arg2.Float() case intKind: truth = arg1.Int() < arg2.Int() case stringKind: truth = arg1.String() < arg2.String() case uintKind: truth = arg1.Uint() < arg2.Uint() default: panic("invalid kind") } } return truth, nil } // le evaluates the comparison <= b. func le(arg1, arg2 reflect.Value) (bool, error) { // <= is < or ==. lessThan, err := lt(arg1, arg2) if lessThan || err != nil { return lessThan, err } return eq(arg1, arg2) } // gt evaluates the comparison a > b. func gt(arg1, arg2 reflect.Value) (bool, error) { // > is the inverse of <=. lessOrEqual, err := le(arg1, arg2) if err != nil { return false, err } return !lessOrEqual, nil } // ge evaluates the comparison a >= b. func ge(arg1, arg2 reflect.Value) (bool, error) { // >= is the inverse of <. lessThan, err := lt(arg1, arg2) if err != nil { return false, err } return !lessThan, nil } // HTML escaping. var ( htmlQuot = []byte("&#34;") // shorter than "&quot;" htmlApos = []byte("&#39;") // shorter than "&apos;" and apos was not in HTML until HTML5 htmlAmp = []byte("&amp;") htmlLt = []byte("&lt;") htmlGt = []byte("&gt;") htmlNull = []byte("\uFFFD") ) // HTMLEscape writes to w the escaped HTML equivalent of the plain text data b. func HTMLEscape(w io.Writer, b []byte) { last := 0 for i, c := range b { var html []byte switch c { case '\000': html = htmlNull case '"': html = htmlQuot case '\'': html = htmlApos case '&': html = htmlAmp case '<': html = htmlLt case '>': html = htmlGt default: continue } w.Write(b[last:i]) w.Write(html) last = i + 1 } w.Write(b[last:]) } // HTMLEscapeString returns the escaped HTML equivalent of the plain text data s. func HTMLEscapeString(s string) string { // Avoid allocation if we can. if !strings.ContainsAny(s, "'\"&<>\000") { return s } var b strings.Builder HTMLEscape(&b, []byte(s)) return b.String() } // HTMLEscaper returns the escaped HTML equivalent of the textual // representation of its arguments. func HTMLEscaper(args ...any) string { return HTMLEscapeString(evalArgs(args)) } // JavaScript escaping. var ( jsLowUni = []byte(`\u00`) hex = []byte("0123456789ABCDEF") jsBackslash = []byte(`\\`) jsApos = []byte(`\'`) jsQuot = []byte(`\"`) jsLt = []byte(`\u003C`) jsGt = []byte(`\u003E`) jsAmp = []byte(`\u0026`) jsEq = []byte(`\u003D`) ) // JSEscape writes to w the escaped JavaScript equivalent of the plain text data b. func JSEscape(w io.Writer, b []byte) { last := 0 for i := 0; i < len(b); i++ { c := b[i] if !jsIsSpecial(rune(c)) { // fast path: nothing to do continue } w.Write(b[last:i]) if c < utf8.RuneSelf { // Quotes, slashes and angle brackets get quoted. // Control characters get written as \u00XX. switch c { case '\\': w.Write(jsBackslash) case '\'': w.Write(jsApos) case '"': w.Write(jsQuot) case '<': w.Write(jsLt) case '>': w.Write(jsGt) case '&': w.Write(jsAmp) case '=': w.Write(jsEq) default: w.Write(jsLowUni) t, b := c>>4, c&0x0f w.Write(hex[t : t+1]) w.Write(hex[b : b+1]) } } else { // Unicode rune. r, size := utf8.DecodeRune(b[i:]) if unicode.IsPrint(r) { w.Write(b[i : i+size]) } else { fmt.Fprintf(w, "\\u%04X", r) } i += size - 1 } last = i + 1 } w.Write(b[last:]) } // JSEscapeString returns the escaped JavaScript equivalent of the plain text data s. func JSEscapeString(s string) string { // Avoid allocation if we can. if strings.IndexFunc(s, jsIsSpecial) < 0 { return s } var b strings.Builder JSEscape(&b, []byte(s)) return b.String() } func jsIsSpecial(r rune) bool { switch r { case '\\', '\'', '"', '<', '>', '&', '=': return true } return r < ' ' || utf8.RuneSelf <= r } // JSEscaper returns the escaped JavaScript equivalent of the textual // representation of its arguments. func JSEscaper(args ...any) string { return JSEscapeString(evalArgs(args)) } // URLQueryEscaper returns the escaped value of the textual representation of // its arguments in a form suitable for embedding in a URL query. func URLQueryEscaper(args ...any) string { return url.QueryEscape(evalArgs(args)) } // evalArgs formats the list of arguments into a string. It is therefore equivalent to // // fmt.Sprint(args...) // // except that each argument is indirected (if a pointer), as required, // using the same rules as the default string evaluation during template // execution. func evalArgs(args []any) string { ok := false var s string // Fast path for simple common case. if len(args) == 1 { s, ok = args[0].(string) } if !ok { for i, arg := range args { a, ok := printableValue(reflect.ValueOf(arg)) if ok { args[i] = a } // else let fmt do its thing } s = fmt.Sprint(args...) } return s }
webs 1.0 - Enhanced UI