mirror of
https://github.com/lexborisov/Modest
synced 2024-11-24 22:59:38 +03:00
396 lines
16 KiB
C
396 lines
16 KiB
C
/*
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Copyright (C) 2016-2017 Alexander Borisov
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin avl_treet, Fifth Floor, Boston, MA 02110-1301 USA
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Author: lex.borisov@gmail.com (Alexander Borisov)
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*/
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#include "myurl/punycode.h"
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mystatus_t myurl_punycode_encode_with_callback(const unsigned char* data, size_t data_size, mycore_string_raw_t* str_raw)
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{
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size_t i = 0;
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size_t cp_count = 0;
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while(i < data_size) {
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size_t n = myencoding_ascii_utf_8_length(data[i]);
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if(n == 1) {
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str_raw->data[ str_raw->length++ ] = data[i];
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}
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else if(n == 0)
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return MyURL_STATUS_ERROR;
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cp_count++;
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i += n;
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}
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if(str_raw->length) {
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str_raw->data[ str_raw->length++ ] = MyURL_PUNYCODE_CONST_DELIMITER;
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}
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while(i < data_size) {
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}
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return MyURL_STATUS_OK;
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}
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///*
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// punycode.c from RFC 3492
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// http://www.nicemice.net/idn/
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// Adam M. Costello
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// http://www.nicemice.net/amc/
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//
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// This is ANSI C code (C89) implementing Punycode (RFC 3492).
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//
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// */
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//
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//
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///************************************************************/
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///* Public interface (would normally go in its own .h file): */
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//
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//#include <limits.h>
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//
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//enum punycode_status {
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// punycode_success,
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// punycode_bad_input, /* Input is invalid. */
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// punycode_big_output, /* Output would exceed the space provided. */
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// punycode_overflow /* Input needs wider integers to process. */
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//};
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//
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//#if UINT_MAX >= (1 << 26) - 1
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//typedef unsigned int punycode_uint;
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//#else
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//typedef unsigned long punycode_uint;
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//#endif
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//
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//enum punycode_status punycode_encode(punycode_uint input_length,
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// const punycode_uint input[],
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// const unsigned char case_flags[],
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// punycode_uint *output_length,
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// char output[] );
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//
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///* punycode_encode() converts Unicode to Punycode. The input */
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///* is represented as an array of Unicode code points (not code */
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///* units; surrogate pairs are not allowed), and the output */
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///* will be represented as an array of ASCII code points. The */
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///* output string is *not* null-terminated; it will contain */
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///* zeros if and only if the input contains zeros. (Of course */
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///* the caller can leave room for a terminator and add one if */
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///* needed.) The input_length is the number of code points in */
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///* the input. The output_length is an in/out argument: the */
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///* caller passes in the maximum number of code points that it */
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///* can receive, and on successful return it will contain the */
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///* number of code points actually output. The case_flags array */
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///* holds input_length boolean values, where nonzero suggests that */
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///* the corresponding Unicode character be forced to uppercase */
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///* after being decoded (if possible), and zero suggests that */
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///* it be forced to lowercase (if possible). ASCII code points */
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///* are encoded literally, except that ASCII letters are forced */
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///* to uppercase or lowercase according to the corresponding */
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///* uppercase flags. If case_flags is a null pointer then ASCII */
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///* letters are left as they are, and other code points are */
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///* treated as if their uppercase flags were zero. The return */
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///* value can be any of the punycode_status values defined above */
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///* except punycode_bad_input; if not punycode_success, then */
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///* output_size and output might contain garbage. */
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//
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//enum punycode_status punycode_decode(punycode_uint input_length,
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// const char input[],
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// punycode_uint *output_length,
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// punycode_uint output[],
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// unsigned char case_flags[] );
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//
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///* punycode_decode() converts Punycode to Unicode. The input is */
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///* represented as an array of ASCII code points, and the output */
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///* will be represented as an array of Unicode code points. The */
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///* input_length is the number of code points in the input. The */
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///* output_length is an in/out argument: the caller passes in */
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///* the maximum number of code points that it can receive, and */
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///* on successful return it will contain the actual number of */
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///* code points output. The case_flags array needs room for at */
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///* least output_length values, or it can be a null pointer if the */
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///* case information is not needed. A nonzero flag suggests that */
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///* the corresponding Unicode character be forced to uppercase */
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///* by the caller (if possible), while zero suggests that it be */
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///* forced to lowercase (if possible). ASCII code points are */
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///* output already in the proper case, but their flags will be set */
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///* appropriately so that applying the flags would be harmless. */
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///* The return value can be any of the punycode_status values */
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///* defined above; if not punycode_success, then output_length, */
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///* output, and case_flags might contain garbage. On success, the */
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///* decoder will never need to write an output_length greater than */
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///* input_length, because of how the encoding is defined. */
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//
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///**********************************************************/
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///* Implementation (would normally go in its own .c file): */
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//
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//#include <string.h>
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//
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///*** Bootstring parameters for Punycode ***/
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//
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//enum { base = 36, tmin = 1, tmax = 26, skew = 38, damp = 700,
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// initial_bias = 72, initial_n = 0x80, delimiter = 0x2D };
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//
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///* basic(cp) tests whether cp is a basic code point: */
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//#define basic(cp) ((punycode_uint)(cp) < 0x80)
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//
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///* delim(cp) tests whether cp is a delimiter: */
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//#define delim(cp) ((cp) == delimiter)
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//
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///* decode_digit(cp) returns the numeric value of a basic code */
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///* point (for use in representing integers) in the range 0 to */
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///* base-1, or base if cp is does not represent a value. */
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//
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//static punycode_uint decode_digit(punycode_uint cp)
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//{
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// return cp - 48 < 10 ? cp - 22 : cp - 65 < 26 ? cp - 65 :
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// cp - 97 < 26 ? cp - 97 : base;
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//}
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//
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///* encode_digit(d,flag) returns the basic code point whose value */
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///* (when used for representing integers) is d, which needs to be in */
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///* the range 0 to base-1. The lowercase form is used unless flag is */
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///* nonzero, in which case the uppercase form is used. The behavior */
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///* is undefined if flag is nonzero and digit d has no uppercase form. */
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//
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//static char encode_digit(punycode_uint d, int flag)
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//{
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// return d + 22 + 75 * (d < 26) - ((flag != 0) << 5);
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// /* 0..25 map to ASCII a..z or A..Z */
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// /* 26..35 map to ASCII 0..9 */
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//}
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//
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///* flagged(bcp) tests whether a basic code point is flagged */
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///* (uppercase). The behavior is undefined if bcp is not a */
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///* basic code point. */
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//
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//#define flagged(bcp) ((punycode_uint)(bcp) - 65 < 26)
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//
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///* encode_basic(bcp,flag) forces a basic code point to lowercase */
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///* if flag is zero, uppercase if flag is nonzero, and returns */
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///* the resulting code point. The code point is unchanged if it */
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///* is caseless. The behavior is undefined if bcp is not a basic */
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///* code point. */
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//
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//static char encode_basic(punycode_uint bcp, int flag)
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//{
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// bcp -= (bcp - 97 < 26) << 5;
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// return bcp + ((!flag && (bcp - 65 < 26)) << 5);
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//}
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//
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///*** Platform-specific constants ***/
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//
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///* maxint is the maximum value of a punycode_uint variable: */
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//static const punycode_uint maxint = -1;
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///* Because maxint is unsigned, -1 becomes the maximum value. */
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//
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///*** Bias adaptation function ***/
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//
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//static punycode_uint adapt(punycode_uint delta, punycode_uint numpoints, int firsttime)
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//{
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// punycode_uint k;
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//
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// delta = firsttime ? delta / damp : delta >> 1;
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// /* delta >> 1 is a faster way of doing delta / 2 */
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// delta += delta / numpoints;
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//
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// for (k = 0; delta > ((base - tmin) * tmax) / 2; k += base) {
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// delta /= base - tmin;
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// }
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//
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// return k + (base - tmin + 1) * delta / (delta + skew);
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//}
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//
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///*** Main encode function ***/
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//
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//enum punycode_status punycode_encode(punycode_uint input_length,
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// const punycode_uint input[],
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// const unsigned char case_flags[],
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// punycode_uint *output_length,
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// char output[] )
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//{
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// punycode_uint n, delta, h, b, out, max_out, bias, j, m, q, k, t;
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//
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// /* Initialize the state: */
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//
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// n = initial_n;
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// delta = out = 0;
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// max_out = *output_length;
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// bias = initial_bias;
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//
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// /* Handle the basic code points: */
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// for (j = 0; j < input_length; ++j) {
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// if (basic(input[j])) {
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// if (max_out - out < 2) return punycode_big_output;
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// output[out++] =
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// case_flags ? encode_basic(input[j], case_flags[j]) : input[j];
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// }
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// /* else if (input[j] < n) return punycode_bad_input; */
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// /* (not needed for Punycode with unsigned code points) */
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// }
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//
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// h = b = out;
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//
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// /* h is the number of code points that have been handled, b is the */
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// /* number of basic code points, and out is the number of characters */
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// /* that have been output. */
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//
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// if (b > 0) output[out++] = delimiter;
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//
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// /* Main encoding loop: */
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//
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// while (h < input_length) {
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// /* All non-basic code points < n have been */
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// /* handled already. Find the next larger one: */
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//
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// for (m = maxint, j = 0; j < input_length; ++j) {
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// /* if (basic(input[j])) continue; */
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// /* (not needed for Punycode) */
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// if (input[j] >= n && input[j] < m) m = input[j];
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// }
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//
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// /* Increase delta enough to advance the decoder's */
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// /* <n,i> state to <m,0>, but guard against overflow: */
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//
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// if (m - n > (maxint - delta) / (h + 1)) return punycode_overflow;
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// delta += (m - n) * (h + 1);
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// n = m;
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//
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// for (j = 0; j < input_length; ++j) {
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// /* Punycode does not need to check whether input[j] is basic: */
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// if (input[j] < n /* || basic(input[j]) */ ) {
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// if (++delta == 0) return punycode_overflow;
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// }
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//
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// if (input[j] == n) {
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// /* Represent delta as a generalized variable-length integer: */
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//
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// for (q = delta, k = base; ; k += base) {
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// if (out >= max_out) return punycode_big_output;
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//
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// t = k <= bias /* + tmin */ ? tmin : /* +tmin not needed */
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// k >= bias + tmax ? tmax : k - bias;
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// if (q < t) break;
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// output[out++] = encode_digit(t + (q - t) % (base - t), 0);
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// q = (q - t) / (base - t);
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// }
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//
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// output[out++] = encode_digit(q, case_flags && case_flags[j]);
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// bias = adapt(delta, h + 1, h == b);
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// delta = 0;
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// ++h;
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// }
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// }
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//
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// ++delta, ++n;
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// }
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//
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// *output_length = out;
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// return punycode_success;
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//}
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//
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///*** Main decode function ***/
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//
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//enum punycode_status punycode_decode(punycode_uint input_length,
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// const char input[],
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// punycode_uint *output_length,
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// punycode_uint output[],
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// unsigned char case_flags[] )
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//{
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// punycode_uint n, out, i, max_out, bias,
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// b, j, in, oldi, w, k, digit, t;
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//
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// /* Initialize the state: */
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//
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// n = initial_n;
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// out = i = 0;
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// max_out = *output_length;
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// bias = initial_bias;
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//
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// /* Handle the basic code points: Let b be the number of input code */
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// /* points before the last delimiter, or 0 if there is none, then */
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// /* copy the first b code points to the output. */
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//
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// for (b = j = 0; j < input_length; ++j) if (delim(input[j])) b = j;
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// if (b > max_out) return punycode_big_output;
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//
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// for (j = 0; j < b; ++j) {
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// if (case_flags) case_flags[out] = flagged(input[j]);
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// if (!basic(input[j])) return punycode_bad_input;
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// output[out++] = input[j];
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// }
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//
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// /* Main decoding loop: Start just after the last delimiter if any */
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// /* basic code points were copied; start at the beginning otherwise. */
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//
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// for (in = b > 0 ? b + 1 : 0; in < input_length; ++out) {
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//
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// /* in is the index of the next character to be consumed, and */
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// /* out is the number of code points in the output array. */
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//
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// /* Decode a generalized variable-length integer into delta, */
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// /* which gets added to i. The overflow checking is easier */
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// /* if we increase i as we go, then subtract off its starting */
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// /* value at the end to obtain delta. */
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//
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// for (oldi = i, w = 1, k = base; ; k += base) {
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// if (in >= input_length) return punycode_bad_input;
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// digit = decode_digit(input[in++]);
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// if (digit >= base) return punycode_bad_input;
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// if (digit > (maxint - i) / w) return punycode_overflow;
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// i += digit * w;
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// t = k <= bias /* + tmin */ ? tmin : /* +tmin not needed */
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// k >= bias + tmax ? tmax : k - bias;
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// if (digit < t) break;
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// if (w > maxint / (base - t)) return punycode_overflow;
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// w *= (base - t);
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// }
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//
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// bias = adapt(i - oldi, out + 1, oldi == 0);
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//
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// /* i was supposed to wrap around from out+1 to 0, */
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// /* incrementing n each time, so we'll fix that now: */
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//
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// if (i / (out + 1) > maxint - n) return punycode_overflow;
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// n += i / (out + 1);
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// i %= (out + 1);
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//
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// /* Insert n at position i of the output: */
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//
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// /* not needed for Punycode: */
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// /* if (decode_digit(n) <= base) return punycode_invalid_input; */
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// if (out >= max_out) return punycode_big_output;
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//
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// if (case_flags) {
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// memmove(case_flags + i + 1, case_flags + i, out - i);
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//
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// /* Case of last character determines uppercase flag: */
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// case_flags[i] = flagged(input[in - 1]);
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// }
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//
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// memmove(output + i + 1, output + i, (out - i) * sizeof *output);
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// output[i++] = n;
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// }
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//
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// *output_length = out;
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// return punycode_success;
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//}
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//
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//
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