mirror of
https://github.com/vlang/v.git
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336 lines
8.6 KiB
V
336 lines
8.6 KiB
V
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package base32 implements base32 encoding as specified by RFC 4648.
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// Based off: https://github.com/golang/go/blob/master/src/encoding/base32/base32.go
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// Last commit: https://github.com/golang/go/commit/e1b62efaf33988a5153510898d37309cee78f26e
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// TODO: standardize fn naming conventions & strip newlines on input & clean up an go remnant's
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module base32
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pub const (
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std_padding = `=` // Standard padding character
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no_padding = u8(-1) // No padding
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std_alphabet = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ234567'.bytes()
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hex_alphabet = '0123456789ABCDEFGHIJKLMNOPQRSTUV'.bytes()
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)
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struct Encoding {
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padding_char u8
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alphabet []u8
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mut:
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decode_map [256]u8
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}
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pub fn decode_string_to_string(src string) ?string {
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return decode_to_string(src.bytes())
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}
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pub fn decode_to_string(src []u8) ?string {
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res := decode(src)?
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return res.bytestr()
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}
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pub fn decode(src []u8) ?[]u8 {
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mut e := new_encoding(base32.std_alphabet)
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return e.decode(src)
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}
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pub fn encode_string_to_string(src string) string {
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return encode_to_string(src.bytes())
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}
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pub fn encode_to_string(src []u8) string {
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return encode(src).bytestr()
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}
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pub fn encode(src []u8) []u8 {
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e := new_encoding(base32.std_alphabet)
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return e.encode(src)
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}
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pub fn (enc &Encoding) encode_to_string(src []u8) string {
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return enc.encode(src).bytestr()
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}
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pub fn (enc &Encoding) encode_string_to_string(src string) string {
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return enc.encode(src.bytes()).bytestr()
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}
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pub fn new_std_encoding() Encoding {
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return new_encoding_with_padding(base32.std_alphabet, base32.std_padding)
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}
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pub fn new_std_encoding_with_padding(padding u8) Encoding {
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return new_encoding_with_padding(base32.std_alphabet, padding)
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}
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pub fn new_encoding(alphabet []u8) Encoding {
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return new_encoding_with_padding(alphabet, base32.std_padding)
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}
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pub fn new_encoding_with_padding(alphabet []u8, padding_char u8) Encoding {
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if padding_char == `\r` || padding_char == `\n` || padding_char > 0xff {
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panic('invalid padding')
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}
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for i := 0; i < alphabet.len; i++ {
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if alphabet[i] == padding_char {
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panic('padding contained in alphabet')
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}
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}
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mut decode_map := [256]u8{}
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for i in 0 .. alphabet.len {
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decode_map[alphabet[i]] = u8(i)
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}
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return Encoding{
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alphabet: alphabet
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padding_char: padding_char
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decode_map: decode_map
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}
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}
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fn (enc &Encoding) encode(src []u8) []u8 {
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mut buf := []u8{len: enc.encoded_len(src.len)}
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mut dst := unsafe { buf }
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enc.encode_(src, mut dst)
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return buf
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}
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// Encode encodes src using the encoding enc, writing
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// encoded_len(src.len) u8s to dst.
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//
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// The encoding pads the output to a multiple of 8 u8s,
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// so Encode is not appropriate for use on individual blocks
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// of a large data stream. Use new_encoder() instead.
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fn (enc &Encoding) encode_(src_ []u8, mut dst []u8) {
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mut src := unsafe { src_ }
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for src.len > 0 {
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mut b := [8]u8{}
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// Unpack 8x 5-bit source blocks into a 5 u8
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// destination quantum
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if src.len > 4 {
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b[7] = src[4] & 0x1F
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b[6] = src[4] >> 5
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}
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if src.len >= 4 {
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b[6] |= (src[3] << 3) & 0x1F
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b[5] = (src[3] >> 2) & 0x1F
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b[4] = src[3] >> 7
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}
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if src.len >= 3 {
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b[4] |= (src[2] << 1) & 0x1F
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b[3] = (src[2] >> 4) & 0x1F
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}
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if src.len >= 2 {
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b[3] |= (src[1] << 4) & 0x1F
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b[2] = (src[1] >> 1) & 0x1F
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b[1] = (src[1] >> 6) & 0x1F
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}
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if src.len >= 1 {
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b[1] |= (src[0] << 2) & 0x1F
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b[0] = src[0] >> 3
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}
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// Encode 5-bit blocks using the base32 alphabet
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if dst.len >= 8 {
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// Common case, unrolled for extra performance
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dst[0] = enc.alphabet[b[0] & 31]
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dst[1] = enc.alphabet[b[1] & 31]
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dst[2] = enc.alphabet[b[2] & 31]
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dst[3] = enc.alphabet[b[3] & 31]
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dst[4] = enc.alphabet[b[4] & 31]
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dst[5] = enc.alphabet[b[5] & 31]
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dst[6] = enc.alphabet[b[6] & 31]
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dst[7] = enc.alphabet[b[7] & 31]
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} else {
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for i := 0; i < dst.len; i++ {
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dst[i] = enc.alphabet[b[i] & 31]
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}
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}
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// Pad the final quantum
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if src.len < 5 {
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if enc.padding_char == base32.no_padding {
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break
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}
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dst[7] = enc.padding_char
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if src.len < 4 {
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dst[6] = enc.padding_char
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dst[5] = enc.padding_char
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if src.len < 3 {
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dst[4] = enc.padding_char
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if src.len < 2 {
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dst[3] = enc.padding_char
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dst[2] = enc.padding_char
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}
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}
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}
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break
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}
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src = src[5..]
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dst = dst[8..]
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}
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}
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fn (enc &Encoding) encoded_len(n int) int {
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if enc.padding_char == base32.no_padding {
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return (n * 8 + 4) / 5
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}
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return (n + 4) / 5 * 8
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}
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pub fn (enc &Encoding) decode_string(src string) ?[]u8 {
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return enc.decode(src.bytes())
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// mut buf := strip_newlines(src.bytes())
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// mut dst := unsafe { buf }
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// // l := strip_newlines(mut buf)
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// n, _ := enc.decode_(buf, mut dst)?
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// return buf[..n]
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}
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pub fn (enc &Encoding) decode_string_to_string(src string) ?string {
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decoded := enc.decode_string(src)?
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return decoded.bytestr()
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}
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pub fn (enc &Encoding) decode(src []u8) ?[]u8 {
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mut buf := []u8{len: src.len}
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// mut dst := unsafe { buf }
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// l := strip_newlines(mut dst, src)
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// n, _ := enc.decode_(src[..l], mut dst) or {
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// src := strip_newlines(src_)
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n, _ := enc.decode_(src, mut buf) or { return err }
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return buf[..n]
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}
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// decode is like Decode but returns an additional `end` value, which
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// indicates if end-of-message padding was encountered and thus any
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// additional data is an error. This method assumes that src has been
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// stripped of all supported whitespace (`\r` and `\n`).
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fn (enc &Encoding) decode_(src_ []u8, mut dst []u8) ?(int, bool) {
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mut src := unsafe { src_ }
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mut n := 0
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mut end := false
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// Lift the nil check outside of the loop.
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// _ = enc.decode_map
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mut dsti := 0
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olen := src.len
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for src.len > 0 && !end {
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// Decode quantum using the base32 alphabet
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mut dbuf := [8]u8{}
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mut dlen := 8
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for j := 0; j < 8; {
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if src.len == 0 {
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if enc.padding_char != base32.no_padding {
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// We have reached the end and are missing padding
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// return n, false, corrupt_input_error(olen - src.len - j)
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return error(corrupt_input_error_msg(olen - src.len - j))
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}
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// We have reached the end and are not expecting any padding
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dlen, end = j, true
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break
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}
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in0 := src[0]
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src = src[1..]
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if in0 == enc.padding_char && j >= 2 && src.len < 8 {
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// We`ve reached the end and there`s padding
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if src.len + j < 8 - 1 {
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// not enough padding
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// return n, false, corrupt_input_error(olen)
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return error(corrupt_input_error_msg(olen))
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}
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for k := 0; k < 8 - 1 - j; k++ {
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if src.len > k && src[k] != enc.padding_char {
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// incorrect padding
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// return n, false, corrupt_input_error(olen - src.len + k - 1)
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return error(corrupt_input_error_msg(olen - src.len + k - 1))
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}
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}
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dlen, end = j, true
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// 7, 5 and 2 are not valid padding lengths, and so 1, 3 and 6 are not
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// valid dlen values. See RFC 4648 Section 6 'Base 32 Encoding' listing
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// the five valid padding lengths, and Section 9 'Illustrations and
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// Examples' for an illustration for how the 1st, 3rd and 6th base32
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// src u8s do not yield enough information to decode a dst u8.
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if dlen == 1 || dlen == 3 || dlen == 6 {
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// return n, false, corrupt_input_error(olen - src.len - 1)
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return error(corrupt_input_error_msg(olen - src.len - 1))
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}
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break
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}
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dbuf[j] = enc.decode_map[in0]
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if dbuf[j] == 0xFF {
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// return n, false, corrupt_input_error(olen - src.len - 1)
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return error(corrupt_input_error_msg(olen - src.len - 1))
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}
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j++
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}
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// Pack 8x 5-bit source blocks into 5 u8 destination
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// quantum
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if dlen == 8 {
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dst[dsti + 4] = dbuf[6] << 5 | dbuf[7]
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n++
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}
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if dlen >= 7 {
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dst[dsti + 3] = dbuf[4] << 7 | dbuf[5] << 2 | dbuf[6] >> 3
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n++
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}
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if dlen >= 5 {
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dst[dsti + 2] = dbuf[3] << 4 | dbuf[4] >> 1
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n++
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}
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if dlen >= 4 {
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dst[dsti + 1] = dbuf[1] << 6 | dbuf[2] << 1 | dbuf[3] >> 4
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n++
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}
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if dlen >= 2 {
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dst[dsti + 0] = dbuf[0] << 3 | dbuf[1] >> 2
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n++
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}
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dsti += 5
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}
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return n, end
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}
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// stripNewlines removes newline characters and returns the number
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// of non-newline characters copied to dst.
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// fn strip_newlines(mut dst []u8, src []byte) int {
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// mut offset := 0
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// for b in src {
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// if b in [`\r`, `\n`] {
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// continue
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// }
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// dst[offset] = b
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// offset++
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// }
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// return offset
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// }
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fn strip_newlines(src []u8) []u8 {
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mut dst := []u8{}
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for b in src {
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if b in [`\r`, `\n`] {
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continue
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}
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dst << b
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}
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return dst
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}
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fn corrupt_input_error_msg(e int) string {
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// return error('illegal base32 data at input byte ' + strconv.FormatInt(int64(e), 10)
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return 'illegal base32 data at input byte ${e}'
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}
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