idna/punycode.go - net - Git at Google

 // Code generated by running "go generate" in golang.org/x/text. DO NOT EDIT.

 // Copyright 2016 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 idna

 // This file implements the Punycode algorithm from RFC 3492.

 import (
 	"math"
 	"strings"
 	"unicode/utf8"
 )

 // These parameter values are specified in section 5.
 //
 // All computation is done with int32s, so that overflow behavior is identical
 // regardless of whether int is 32-bit or 64-bit.
 const (
 	base        int32 = 36
 	damp        int32 = 700
 	initialBias int32 = 72
 	initialN    int32 = 128
 	skew        int32 = 38
 	tmax        int32 = 26
 	tmin        int32 = 1
 )

 func punyError(s string) error { return &labelError{s, "A3"} }

 // decode decodes a string as specified in section 6.2.
 func decode(encoded string) (string, error) {
 	if encoded == "" {
 		return "", nil
 	}
 	pos := 1 + strings.LastIndex(encoded, "-")
 	if pos == 1 {
 		return "", punyError(encoded)
 	}
 	if pos == len(encoded) {
 		return encoded[:len(encoded)-1], nil
 	}
 	output := make([]rune, 0, len(encoded))
 	if pos != 0 {
 		for _, r := range encoded[:pos-1] {
 			output = append(output, r)
 		}
 	}
 	i, n, bias := int32(0), initialN, initialBias
 	overflow := false
 	for pos < len(encoded) {
 		oldI, w := i, int32(1)
 		for k := base; ; k += base {
 			if pos == len(encoded) {
 				return "", punyError(encoded)
 			}
 			digit, ok := decodeDigit(encoded[pos])
 			if !ok {
 				return "", punyError(encoded)
 			}
 			pos++
 			i, overflow = madd(i, digit, w)
 			if overflow {
 				return "", punyError(encoded)
 			}
 			t := k - bias
 			if k <= bias {
 				t = tmin
 			} else if k >= bias+tmax {
 				t = tmax
 			}
 			if digit < t {
 				break
 			}
 			w, overflow = madd(0, w, base-t)
 			if overflow {
 				return "", punyError(encoded)
 			}
 		}
 		if len(output) >= 1024 {
 			return "", punyError(encoded)
 		}
 		x := int32(len(output) + 1)
 		bias = adapt(i-oldI, x, oldI == 0)
 		n += i / x
 		i %= x
 		if n < 0 || n > utf8.MaxRune {
 			return "", punyError(encoded)
 		}
 		output = append(output, 0)
 		copy(output[i+1:], output[i:])
 		output[i] = n
 		i++
 	}
 	return string(output), nil
 }

 // encode encodes a string as specified in section 6.3 and prepends prefix to
 // the result.
 //
 // The "while h < length(input)" line in the specification becomes "for
 // remaining != 0" in the Go code, because len(s) in Go is in bytes, not runes.
 func encode(prefix, s string) (string, error) {
 	output := make([]byte, len(prefix), len(prefix)+1+2*len(s))
 	copy(output, prefix)
 	delta, n, bias := int32(0), initialN, initialBias
 	b, remaining := int32(0), int32(0)
 	for _, r := range s {
 		if r < 0x80 {
 			b++
 			output = append(output, byte(r))
 		} else {
 			remaining++
 		}
 	}
 	h := b
 	if b > 0 {
 		output = append(output, '-')
 	}
 	overflow := false
 	for remaining != 0 {
 		m := int32(0x7fffffff)
 		for _, r := range s {
 			if m > r && r >= n {
 				m = r
 			}
 		}
 		delta, overflow = madd(delta, m-n, h+1)
 		if overflow {
 			return "", punyError(s)
 		}
 		n = m
 		for _, r := range s {
 			if r < n {
 				delta++
 				if delta < 0 {
 					return "", punyError(s)
 				}
 				continue
 			}
 			if r > n {
 				continue
 			}
 			q := delta
 			for k := base; ; k += base {
 				t := k - bias
 				if k <= bias {
 					t = tmin
 				} else if k >= bias+tmax {
 					t = tmax
 				}
 				if q < t {
 					break
 				}
 				output = append(output, encodeDigit(t+(q-t)%(base-t)))
 				q = (q - t) / (base - t)
 			}
 			output = append(output, encodeDigit(q))
 			bias = adapt(delta, h+1, h == b)
 			delta = 0
 			h++
 			remaining--
 		}
 		delta++
 		n++
 	}
 	return string(output), nil
 }

 // madd computes a + (b * c), detecting overflow.
 func madd(a, b, c int32) (next int32, overflow bool) {
 	p := int64(b) * int64(c)
 	if p > math.MaxInt32-int64(a) {
 		return 0, true
 	}
 	return a + int32(p), false
 }

 func decodeDigit(x byte) (digit int32, ok bool) {
 	switch {
 	case '0' <= x && x <= '9':
 		return int32(x - ('0' - 26)), true
 	case 'A' <= x && x <= 'Z':
 		return int32(x - 'A'), true
 	case 'a' <= x && x <= 'z':
 		return int32(x - 'a'), true
 	}
 	return 0, false
 }

 func encodeDigit(digit int32) byte {
 	switch {
 	case 0 <= digit && digit < 26:
 		return byte(digit + 'a')
 	case 26 <= digit && digit < 36:
 		return byte(digit + ('0' - 26))
 	}
 	panic("idna: internal error in punycode encoding")
 }

 // adapt is the bias adaptation function specified in section 6.1.
 func adapt(delta, numPoints int32, firstTime bool) int32 {
 	if firstTime {
 		delta /= damp
 	} else {
 		delta /= 2
 	}
 	delta += delta / numPoints
 	k := int32(0)
 	for delta > ((base-tmin)*tmax)/2 {
 		delta /= base - tmin
 		k += base
 	}
 	return k + (base-tmin+1)*delta/(delta+skew)
 }
	// Code generated by running "go generate" in golang.org/x/text. DO NOT EDIT.

	// Copyright 2016 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 idna

	// This file implements the Punycode algorithm from RFC 3492.

	import (
	"math"
	"strings"
	"unicode/utf8"
	)

	// These parameter values are specified in section 5.
	//
	// All computation is done with int32s, so that overflow behavior is identical
	// regardless of whether int is 32-bit or 64-bit.
	const (
	base int32 = 36
	damp int32 = 700
	initialBias int32 = 72
	initialN int32 = 128
	skew int32 = 38
	tmax int32 = 26
	tmin int32 = 1
	)

	func punyError(s string) error { return &labelError{s, "A3"} }

	// decode decodes a string as specified in section 6.2.
	func decode(encoded string) (string, error) {
	if encoded == "" {
	return "", nil
	}
	pos := 1 + strings.LastIndex(encoded, "-")
	if pos == 1 {
	return "", punyError(encoded)
	}
	if pos == len(encoded) {
	return encoded[:len(encoded)-1], nil
	}
	output := make([]rune, 0, len(encoded))
	if pos != 0 {
	for _, r := range encoded[:pos-1] {
	output = append(output, r)
	}
	}
	i, n, bias := int32(0), initialN, initialBias
	overflow := false
	for pos < len(encoded) {
	oldI, w := i, int32(1)
	for k := base; ; k += base {
	if pos == len(encoded) {
	return "", punyError(encoded)
	}
	digit, ok := decodeDigit(encoded[pos])
	if !ok {
	return "", punyError(encoded)
	}
	pos++
	i, overflow = madd(i, digit, w)
	if overflow {
	return "", punyError(encoded)
	}
	t := k - bias
	if k <= bias {
	t = tmin
	} else if k >= bias+tmax {
	t = tmax
	}
	if digit < t {
	break
	}
	w, overflow = madd(0, w, base-t)
	if overflow {
	return "", punyError(encoded)
	}
	}
	if len(output) >= 1024 {
	return "", punyError(encoded)
	}
	x := int32(len(output) + 1)
	bias = adapt(i-oldI, x, oldI == 0)
	n += i / x
	i %= x
	if n < 0 \|\| n > utf8.MaxRune {
	return "", punyError(encoded)
	}
	output = append(output, 0)
	copy(output[i+1:], output[i:])
	output[i] = n
	i++
	}
	return string(output), nil
	}

	// encode encodes a string as specified in section 6.3 and prepends prefix to
	// the result.
	//
	// The "while h < length(input)" line in the specification becomes "for
	// remaining != 0" in the Go code, because len(s) in Go is in bytes, not runes.
	func encode(prefix, s string) (string, error) {
	output := make([]byte, len(prefix), len(prefix)+1+2*len(s))
	copy(output, prefix)
	delta, n, bias := int32(0), initialN, initialBias
	b, remaining := int32(0), int32(0)
	for _, r := range s {
	if r < 0x80 {
	b++
	output = append(output, byte(r))
	} else {
	remaining++
	}
	}
	h := b
	if b > 0 {
	output = append(output, '-')
	}
	overflow := false
	for remaining != 0 {
	m := int32(0x7fffffff)
	for _, r := range s {
	if m > r && r >= n {
	m = r
	}
	}
	delta, overflow = madd(delta, m-n, h+1)
	if overflow {
	return "", punyError(s)
	}
	n = m
	for _, r := range s {
	if r < n {
	delta++
	if delta < 0 {
	return "", punyError(s)
	}
	continue
	}
	if r > n {
	continue
	}
	q := delta
	for k := base; ; k += base {
	t := k - bias
	if k <= bias {
	t = tmin
	} else if k >= bias+tmax {
	t = tmax
	}
	if q < t {
	break
	}
	output = append(output, encodeDigit(t+(q-t)%(base-t)))
	q = (q - t) / (base - t)
	}
	output = append(output, encodeDigit(q))
	bias = adapt(delta, h+1, h == b)
	delta = 0
	h++
	remaining--
	}
	delta++
	n++
	}
	return string(output), nil
	}

	// madd computes a + (b * c), detecting overflow.
	func madd(a, b, c int32) (next int32, overflow bool) {
	p := int64(b) * int64(c)
	if p > math.MaxInt32-int64(a) {
	return 0, true
	}
	return a + int32(p), false
	}

	func decodeDigit(x byte) (digit int32, ok bool) {
	switch {
	case '0' <= x && x <= '9':
	return int32(x - ('0' - 26)), true
	case 'A' <= x && x <= 'Z':
	return int32(x - 'A'), true
	case 'a' <= x && x <= 'z':
	return int32(x - 'a'), true
	}
	return 0, false
	}

	func encodeDigit(digit int32) byte {
	switch {
	case 0 <= digit && digit < 26:
	return byte(digit + 'a')
	case 26 <= digit && digit < 36:
	return byte(digit + ('0' - 26))
	}
	panic("idna: internal error in punycode encoding")
	}

	// adapt is the bias adaptation function specified in section 6.1.
	func adapt(delta, numPoints int32, firstTime bool) int32 {
	if firstTime {
	delta /= damp
	} else {
	delta /= 2
	}
	delta += delta / numPoints
	k := int32(0)
	for delta > ((base-tmin)*tmax)/2 {
	delta /= base - tmin
	k += base
	}
	return k + (base-tmin+1)*delta/(delta+skew)
	}