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funcs.go
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funcs.go
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// 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 (
"bytes"
"errors"
"fmt"
"io"
"net/url"
"reflect"
"strings"
"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.
type FuncMap map[string]interface{}
var builtins = FuncMap{
"and": and,
"call": call,
"html": HTMLEscaper,
"index": index,
"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 builtinFuncs = createValueFuncs(builtins)
// 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 {
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 checks that 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
}
// findFunction looks for a function in the template, and global map.
func findFunction(name string, tmpl *Template) (reflect.Value, bool) {
if tmpl != nil && tmpl.common != nil {
if fn := tmpl.execFuncs[name]; fn.IsValid() {
return fn, true
}
}
if fn := builtinFuncs[name]; fn.IsValid() {
return fn, true
}
return reflect.Value{}, false
}
// 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 interface{}, indices ...interface{}) (interface{}, error) {
v := reflect.ValueOf(item)
for _, i := range indices {
index := reflect.ValueOf(i)
var isNil bool
if v, isNil = indirect(v); isNil {
return nil, fmt.Errorf("index of nil pointer")
}
switch v.Kind() {
case reflect.Array, reflect.Slice, reflect.String:
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())
default:
return nil, fmt.Errorf("cannot index slice/array with type %s", index.Type())
}
if x < 0 || x >= int64(v.Len()) {
return nil, fmt.Errorf("index out of range: %d", x)
}
v = v.Index(int(x))
case reflect.Map:
if !index.IsValid() {
index = reflect.Zero(v.Type().Key())
}
if !index.Type().AssignableTo(v.Type().Key()) {
return nil, fmt.Errorf("%s is not index type for %s", index.Type(), v.Type())
}
if x := v.MapIndex(index); x.IsValid() {
v = x
} else {
v = reflect.Zero(v.Type().Elem())
}
default:
return nil, fmt.Errorf("can't index item of type %s", v.Type())
}
}
return v.Interface(), nil
}
// Length
// length returns the length of the item, with an error if it has no defined length.
func length(item interface{}) (int, error) {
v, isNil := indirect(reflect.ValueOf(item))
if isNil {
return 0, fmt.Errorf("len of nil pointer")
}
switch v.Kind() {
case reflect.Array, reflect.Chan, reflect.Map, reflect.Slice, reflect.String:
return v.Len(), nil
}
return 0, fmt.Errorf("len of type %s", v.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 interface{}, args ...interface{}) (interface{}, error) {
v := reflect.ValueOf(fn)
typ := v.Type()
if typ.Kind() != reflect.Func {
return nil, fmt.Errorf("non-function of type %s", typ)
}
if !goodFunc(typ) {
return nil, 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 nil, 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 nil, fmt.Errorf("wrong number of args: got %d want %d", len(args), numIn)
}
}
argv := make([]reflect.Value, len(args))
for i, arg := range args {
value := reflect.ValueOf(arg)
// Compute the expected type. Clumsy because of variadics.
var argType reflect.Type
if !typ.IsVariadic() || i < numIn-1 {
argType = typ.In(i)
} else {
argType = dddType
}
if !value.IsValid() && canBeNil(argType) {
value = reflect.Zero(argType)
}
if !value.Type().AssignableTo(argType) {
return nil, fmt.Errorf("arg %d has type %s; should be %s", i, value.Type(), argType)
}
argv[i] = value
}
result := v.Call(argv)
if len(result) == 2 && !result[1].IsNil() {
return result[0].Interface(), result[1].Interface().(error)
}
return result[0].Interface(), nil
}
// Boolean logic.
func truth(a interface{}) bool {
t, _ := isTrue(reflect.ValueOf(a))
return t
}
// and computes the Boolean AND of its arguments, returning
// the first false argument it encounters, or the last argument.
func and(arg0 interface{}, args ...interface{}) interface{} {
if !truth(arg0) {
return arg0
}
for i := range args {
arg0 = args[i]
if !truth(arg0) {
break
}
}
return arg0
}
// or computes the Boolean OR of its arguments, returning
// the first true argument it encounters, or the last argument.
func or(arg0 interface{}, args ...interface{}) interface{} {
if truth(arg0) {
return arg0
}
for i := range args {
arg0 = args[i]
if truth(arg0) {
break
}
}
return arg0
}
// not returns the Boolean negation of its argument.
func not(arg interface{}) (truth bool) {
truth, _ = isTrue(reflect.ValueOf(arg))
return !truth
}
// 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
integerKind
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
}
// eq evaluates the comparison a == b || a == c || ...
func eq(arg1 interface{}, arg2 ...interface{}) (bool, error) {
v1 := reflect.ValueOf(arg1)
k1, err := basicKind(v1)
if err != nil {
return false, err
}
if len(arg2) == 0 {
return false, errNoComparison
}
for _, arg := range arg2 {
v2 := reflect.ValueOf(arg)
k2, err := basicKind(v2)
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 = v1.Int() >= 0 && uint64(v1.Int()) == v2.Uint()
case k1 == uintKind && k2 == intKind:
truth = v2.Int() >= 0 && v1.Uint() == uint64(v2.Int())
default:
return false, errBadComparison
}
} else {
switch k1 {
case boolKind:
truth = v1.Bool() == v2.Bool()
case complexKind:
truth = v1.Complex() == v2.Complex()
case floatKind:
truth = v1.Float() == v2.Float()
case intKind:
truth = v1.Int() == v2.Int()
case stringKind:
truth = v1.String() == v2.String()
case uintKind:
truth = v1.Uint() == v2.Uint()
default:
panic("invalid kind")
}
}
if truth {
return true, nil
}
}
return false, nil
}
// ne evaluates the comparison a != b.
func ne(arg1, arg2 interface{}) (bool, error) {
// != is the inverse of ==.
equal, err := eq(arg1, arg2)
return !equal, err
}
// lt evaluates the comparison a < b.
func lt(arg1, arg2 interface{}) (bool, error) {
v1 := reflect.ValueOf(arg1)
k1, err := basicKind(v1)
if err != nil {
return false, err
}
v2 := reflect.ValueOf(arg2)
k2, err := basicKind(v2)
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 = v1.Int() < 0 || uint64(v1.Int()) < v2.Uint()
case k1 == uintKind && k2 == intKind:
truth = v2.Int() >= 0 && v1.Uint() < uint64(v2.Int())
default:
return false, errBadComparison
}
} else {
switch k1 {
case boolKind, complexKind:
return false, errBadComparisonType
case floatKind:
truth = v1.Float() < v2.Float()
case intKind:
truth = v1.Int() < v2.Int()
case stringKind:
truth = v1.String() < v2.String()
case uintKind:
truth = v1.Uint() < v2.Uint()
default:
panic("invalid kind")
}
}
return truth, nil
}
// le evaluates the comparison <= b.
func le(arg1, arg2 interface{}) (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 interface{}) (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 interface{}) (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(""") // shorter than """
htmlApos = []byte("'") // shorter than "'" and apos was not in HTML until HTML5
htmlAmp = []byte("&")
htmlLt = []byte("<")
htmlGt = []byte(">")
)
// 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 '"':
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.IndexAny(s, `'"&<>`) < 0 {
return s
}
var b bytes.Buffer
HTMLEscape(&b, []byte(s))
return b.String()
}
// HTMLEscaper returns the escaped HTML equivalent of the textual
// representation of its arguments.
func HTMLEscaper(args ...interface{}) string {
return HTMLEscapeString(evalArgs(args))
}
// JavaScript escaping.
var (
jsLowUni = []byte(`\u00`)
hex = []byte("0123456789ABCDEF")
jsBackslash = []byte(`\\`)
jsApos = []byte(`\'`)
jsQuot = []byte(`\"`)
jsLt = []byte(`\x3C`)
jsGt = []byte(`\x3E`)
)
// 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)
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 bytes.Buffer
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 ...interface{}) 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 ...interface{}) 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 []interface{}) 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 left fmt do its thing
}
s = fmt.Sprint(args...)
}
return s
}