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|
package otto
import (
"encoding/hex"
"math"
"net/url"
"regexp"
"strconv"
"strings"
"unicode/utf16"
"unicode/utf8"
)
// Global
func builtinGlobal_eval(call FunctionCall) Value {
src := call.Argument(0)
if !src.IsString() {
return src
}
runtime := call.runtime
program := runtime.cmpl_parseOrThrow(src.string(), nil)
if !call.eval {
// Not a direct call to eval, so we enter the global ExecutionContext
runtime.enterGlobalScope()
defer runtime.leaveScope()
}
returnValue := runtime.cmpl_evaluate_nodeProgram(program, true)
if returnValue.isEmpty() {
return Value{}
}
return returnValue
}
func builtinGlobal_isNaN(call FunctionCall) Value {
value := call.Argument(0).float64()
return toValue_bool(math.IsNaN(value))
}
func builtinGlobal_isFinite(call FunctionCall) Value {
value := call.Argument(0).float64()
return toValue_bool(!math.IsNaN(value) && !math.IsInf(value, 0))
}
// radix 3 => 2 (ASCII 50) +47
// radix 11 => A/a (ASCII 65/97) +54/+86
var parseInt_alphabetTable = func() []string {
table := []string{"", "", "01"}
for radix := 3; radix <= 36; radix += 1 {
alphabet := table[radix-1]
if radix <= 10 {
alphabet += string(radix + 47)
} else {
alphabet += string(radix+54) + string(radix+86)
}
table = append(table, alphabet)
}
return table
}()
func digitValue(chr rune) int {
switch {
case '0' <= chr && chr <= '9':
return int(chr - '0')
case 'a' <= chr && chr <= 'z':
return int(chr - 'a' + 10)
case 'A' <= chr && chr <= 'Z':
return int(chr - 'A' + 10)
}
return 36 // Larger than any legal digit value
}
func builtinGlobal_parseInt(call FunctionCall) Value {
input := strings.Trim(call.Argument(0).string(), builtinString_trim_whitespace)
if len(input) == 0 {
return NaNValue()
}
radix := int(toInt32(call.Argument(1)))
negative := false
switch input[0] {
case '+':
input = input[1:]
case '-':
negative = true
input = input[1:]
}
strip := true
if radix == 0 {
radix = 10
} else {
if radix < 2 || radix > 36 {
return NaNValue()
} else if radix != 16 {
strip = false
}
}
switch len(input) {
case 0:
return NaNValue()
case 1:
default:
if strip {
if input[0] == '0' && (input[1] == 'x' || input[1] == 'X') {
input = input[2:]
radix = 16
}
}
}
base := radix
index := 0
for ; index < len(input); index++ {
digit := digitValue(rune(input[index])) // If not ASCII, then an error anyway
if digit >= base {
break
}
}
input = input[0:index]
value, err := strconv.ParseInt(input, radix, 64)
if err != nil {
if err.(*strconv.NumError).Err == strconv.ErrRange {
base := float64(base)
// Could just be a very large number (e.g. 0x8000000000000000)
var value float64
for _, chr := range input {
digit := float64(digitValue(chr))
if digit >= base {
goto error
}
value = value*base + digit
}
if negative {
value *= -1
}
return toValue_float64(value)
}
error:
return NaNValue()
}
if negative {
value *= -1
}
return toValue_int64(value)
}
var parseFloat_matchBadSpecial = regexp.MustCompile(`[\+\-]?(?:[Ii]nf$|infinity)`)
var parseFloat_matchValid = regexp.MustCompile(`[0-9eE\+\-\.]|Infinity`)
func builtinGlobal_parseFloat(call FunctionCall) Value {
// Caveat emptor: This implementation does NOT match the specification
input := strings.Trim(call.Argument(0).string(), builtinString_trim_whitespace)
if parseFloat_matchBadSpecial.MatchString(input) {
return NaNValue()
}
value, err := strconv.ParseFloat(input, 64)
if err != nil {
for end := len(input); end > 0; end-- {
input := input[0:end]
if !parseFloat_matchValid.MatchString(input) {
return NaNValue()
}
value, err = strconv.ParseFloat(input, 64)
if err == nil {
break
}
}
if err != nil {
return NaNValue()
}
}
return toValue_float64(value)
}
// encodeURI/decodeURI
func _builtinGlobal_encodeURI(call FunctionCall, escape *regexp.Regexp) Value {
value := call.Argument(0)
var input []uint16
switch vl := value.value.(type) {
case []uint16:
input = vl
default:
input = utf16.Encode([]rune(value.string()))
}
if len(input) == 0 {
return toValue_string("")
}
output := []byte{}
length := len(input)
encode := make([]byte, 4)
for index := 0; index < length; {
value := input[index]
decode := utf16.Decode(input[index : index+1])
if value >= 0xDC00 && value <= 0xDFFF {
panic(call.runtime.panicURIError("URI malformed"))
}
if value >= 0xD800 && value <= 0xDBFF {
index += 1
if index >= length {
panic(call.runtime.panicURIError("URI malformed"))
}
// input = ..., value, value1, ...
value1 := input[index]
if value1 < 0xDC00 || value1 > 0xDFFF {
panic(call.runtime.panicURIError("URI malformed"))
}
decode = []rune{((rune(value) - 0xD800) * 0x400) + (rune(value1) - 0xDC00) + 0x10000}
}
index += 1
size := utf8.EncodeRune(encode, decode[0])
encode := encode[0:size]
output = append(output, encode...)
}
{
value := escape.ReplaceAllFunc(output, func(target []byte) []byte {
// Probably a better way of doing this
if target[0] == ' ' {
return []byte("%20")
}
return []byte(url.QueryEscape(string(target)))
})
return toValue_string(string(value))
}
}
var encodeURI_Regexp = regexp.MustCompile(`([^~!@#$&*()=:/,;?+'])`)
func builtinGlobal_encodeURI(call FunctionCall) Value {
return _builtinGlobal_encodeURI(call, encodeURI_Regexp)
}
var encodeURIComponent_Regexp = regexp.MustCompile(`([^~!*()'])`)
func builtinGlobal_encodeURIComponent(call FunctionCall) Value {
return _builtinGlobal_encodeURI(call, encodeURIComponent_Regexp)
}
// 3B/2F/3F/3A/40/26/3D/2B/24/2C/23
var decodeURI_guard = regexp.MustCompile(`(?i)(?:%)(3B|2F|3F|3A|40|26|3D|2B|24|2C|23)`)
func _decodeURI(input string, reserve bool) (string, bool) {
if reserve {
input = decodeURI_guard.ReplaceAllString(input, "%25$1")
}
input = strings.Replace(input, "+", "%2B", -1) // Ugly hack to make QueryUnescape work with our use case
output, err := url.QueryUnescape(input)
if err != nil || !utf8.ValidString(output) {
return "", true
}
return output, false
}
func builtinGlobal_decodeURI(call FunctionCall) Value {
output, err := _decodeURI(call.Argument(0).string(), true)
if err {
panic(call.runtime.panicURIError("URI malformed"))
}
return toValue_string(output)
}
func builtinGlobal_decodeURIComponent(call FunctionCall) Value {
output, err := _decodeURI(call.Argument(0).string(), false)
if err {
panic(call.runtime.panicURIError("URI malformed"))
}
return toValue_string(output)
}
// escape/unescape
func builtin_shouldEscape(chr byte) bool {
if 'A' <= chr && chr <= 'Z' || 'a' <= chr && chr <= 'z' || '0' <= chr && chr <= '9' {
return false
}
return !strings.ContainsRune("*_+-./", rune(chr))
}
const escapeBase16 = "0123456789ABCDEF"
func builtin_escape(input string) string {
output := make([]byte, 0, len(input))
length := len(input)
for index := 0; index < length; {
if builtin_shouldEscape(input[index]) {
chr, width := utf8.DecodeRuneInString(input[index:])
chr16 := utf16.Encode([]rune{chr})[0]
if 256 > chr16 {
output = append(output, '%',
escapeBase16[chr16>>4],
escapeBase16[chr16&15],
)
} else {
output = append(output, '%', 'u',
escapeBase16[chr16>>12],
escapeBase16[(chr16>>8)&15],
escapeBase16[(chr16>>4)&15],
escapeBase16[chr16&15],
)
}
index += width
} else {
output = append(output, input[index])
index += 1
}
}
return string(output)
}
func builtin_unescape(input string) string {
output := make([]rune, 0, len(input))
length := len(input)
for index := 0; index < length; {
if input[index] == '%' {
if index <= length-6 && input[index+1] == 'u' {
byte16, err := hex.DecodeString(input[index+2 : index+6])
if err == nil {
value := uint16(byte16[0])<<8 + uint16(byte16[1])
chr := utf16.Decode([]uint16{value})[0]
output = append(output, chr)
index += 6
continue
}
}
if index <= length-3 {
byte8, err := hex.DecodeString(input[index+1 : index+3])
if err == nil {
value := uint16(byte8[0])
chr := utf16.Decode([]uint16{value})[0]
output = append(output, chr)
index += 3
continue
}
}
}
output = append(output, rune(input[index]))
index += 1
}
return string(output)
}
func builtinGlobal_escape(call FunctionCall) Value {
return toValue_string(builtin_escape(call.Argument(0).string()))
}
func builtinGlobal_unescape(call FunctionCall) Value {
return toValue_string(builtin_unescape(call.Argument(0).string()))
}
|