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247 lines
7.7 KiB
C
247 lines
7.7 KiB
C
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/*
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* The authors of this software are Rob Pike and Ken Thompson.
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* Copyright (c) 2002 by Lucent Technologies.
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* Permission to use, copy, modify, and distribute this software for any
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* purpose without fee is hereby granted, provided that this entire notice
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* is included in all copies of any software which is or includes a copy
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* or modification of this software and in all copies of the supporting
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* documentation for such software.
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* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR IMPLIED
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* WARRANTY. IN PARTICULAR, NEITHER THE AUTHORS NOR LUCENT TECHNOLOGIES MAKE ANY
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* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE MERCHANTABILITY
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* OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR PURPOSE.
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*/
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#ifndef _UTFH_
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#define _UTFH_ 1
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#include <stdint.h>
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typedef signed int Rune; /* Code-point values in Unicode 4.0 are 21 bits wide.*/
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enum
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{
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UTFmax = 4, /* maximum bytes per rune */
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Runesync = 0x80, /* cannot represent part of a UTF sequence (<) */
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Runeself = 0x80, /* rune and UTF sequences are the same (<) */
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Runeerror = 0xFFFD, /* decoding error in UTF */
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Runemax = 0x10FFFF, /* maximum rune value */
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};
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* rune routines
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*/
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/*
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* These routines were written by Rob Pike and Ken Thompson
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* and first appeared in Plan 9.
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* SEE ALSO
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* utf (7)
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* tcs (1)
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*/
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// runetochar copies (encodes) one rune, pointed to by r, to at most
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// UTFmax bytes starting at s and returns the number of bytes generated.
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int runetochar(char* s, const Rune* r);
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// chartorune copies (decodes) at most UTFmax bytes starting at s to
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// one rune, pointed to by r, and returns the number of bytes consumed.
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// If the input is not exactly in UTF format, chartorune will set *r
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// to Runeerror and return 1.
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//
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// Note: There is no special case for a "null-terminated" string. A
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// string whose first byte has the value 0 is the UTF8 encoding of the
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// Unicode value 0 (i.e., ASCII NULL). A byte value of 0 is illegal
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// anywhere else in a UTF sequence.
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int chartorune(Rune* r, const char* s);
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// charntorune is like chartorune, except that it will access at most
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// n bytes of s. If the UTF sequence is incomplete within n bytes,
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// charntorune will set *r to Runeerror and return 0. If it is complete
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// but not in UTF format, it will set *r to Runeerror and return 1.
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//
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// Added 2004-09-24 by Wei-Hwa Huang
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int charntorune(Rune* r, const char* s, int n);
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// isvalidcharntorune(str, n, r, consumed)
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// is a convenience function that calls "*consumed = charntorune(r, str, n)"
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// and returns an int (logically boolean) indicating whether the first
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// n bytes of str was a valid and complete UTF sequence.
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int isvalidcharntorune(const char* str, int n, Rune* r, int* consumed);
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// runelen returns the number of bytes required to convert r into UTF.
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int runelen(Rune r);
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// runenlen returns the number of bytes required to convert the n
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// runes pointed to by r into UTF.
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int runenlen(const Rune* r, int n);
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// fullrune returns 1 if the string s of length n is long enough to be
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// decoded by chartorune, and 0 otherwise. This does not guarantee
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// that the string contains a legal UTF encoding. This routine is used
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// by programs that obtain input one byte at a time and need to know
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// when a full rune has arrived.
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int fullrune(const char* s, int n);
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// The following routines are analogous to the corresponding string
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// routines with "utf" substituted for "str", and "rune" substituted
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// for "chr".
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// utflen returns the number of runes that are represented by the UTF
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// string s. (cf. strlen)
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int utflen(const char* s);
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// utfnlen returns the number of complete runes that are represented
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// by the first n bytes of the UTF string s. If the last few bytes of
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// the string contain an incompletely coded rune, utfnlen will not
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// count them; in this way, it differs from utflen, which includes
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// every byte of the string. (cf. strnlen)
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int utfnlen(const char* s, long n);
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// utfrune returns a pointer to the first occurrence of rune r in the
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// UTF string s, or 0 if r does not occur in the string. The NULL
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// byte terminating a string is considered to be part of the string s.
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// (cf. strchr)
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const char* utfrune(const char* s, Rune r);
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// utfrrune returns a pointer to the last occurrence of rune r in the
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// UTF string s, or 0 if r does not occur in the string. The NULL
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// byte terminating a string is considered to be part of the string s.
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// (cf. strrchr)
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const char* utfrrune(const char* s, Rune r);
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// utfutf returns a pointer to the first occurrence of the UTF string
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// s2 as a UTF substring of s1, or 0 if there is none. If s2 is the
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// null string, utfutf returns s1. (cf. strstr)
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const char* utfutf(const char* s1, const char* s2);
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// utfecpy copies UTF sequences until a null sequence has been copied,
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// but writes no sequences beyond es1. If any sequences are copied,
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// s1 is terminated by a null sequence, and a pointer to that sequence
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// is returned. Otherwise, the original s1 is returned. (cf. strecpy)
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char* utfecpy(char *s1, char *es1, const char *s2);
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// These functions are rune-string analogues of the corresponding
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// functions in strcat (3).
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//
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// These routines first appeared in Plan 9.
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// SEE ALSO
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// memmove (3)
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// rune (3)
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// strcat (2)
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//
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// BUGS: The outcome of overlapping moves varies among implementations.
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Rune* runestrcat(Rune* s1, const Rune* s2);
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Rune* runestrncat(Rune* s1, const Rune* s2, long n);
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const Rune* runestrchr(const Rune* s, Rune c);
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int runestrcmp(const Rune* s1, const Rune* s2);
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int runestrncmp(const Rune* s1, const Rune* s2, long n);
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Rune* runestrcpy(Rune* s1, const Rune* s2);
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Rune* runestrncpy(Rune* s1, const Rune* s2, long n);
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Rune* runestrecpy(Rune* s1, Rune* es1, const Rune* s2);
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Rune* runestrdup(const Rune* s);
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const Rune* runestrrchr(const Rune* s, Rune c);
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long runestrlen(const Rune* s);
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const Rune* runestrstr(const Rune* s1, const Rune* s2);
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// The following routines test types and modify cases for Unicode
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// characters. Unicode defines some characters as letters and
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// specifies three cases: upper, lower, and title. Mappings among the
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// cases are also defined, although they are not exhaustive: some
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// upper case letters have no lower case mapping, and so on. Unicode
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// also defines several character properties, a subset of which are
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// checked by these routines. These routines are based on Unicode
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// version 3.0.0.
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//
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// NOTE: The routines are implemented in C, so the boolean functions
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// (e.g., isupperrune) return 0 for false and 1 for true.
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//
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//
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// toupperrune, tolowerrune, and totitlerune are the Unicode case
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// mappings. These routines return the character unchanged if it has
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// no defined mapping.
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Rune toupperrune(Rune r);
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Rune tolowerrune(Rune r);
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Rune totitlerune(Rune r);
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// isupperrune tests for upper case characters, including Unicode
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// upper case letters and targets of the toupper mapping. islowerrune
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// and istitlerune are defined analogously.
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int isupperrune(Rune r);
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int islowerrune(Rune r);
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int istitlerune(Rune r);
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// isalpharune tests for Unicode letters; this includes ideographs in
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// addition to alphabetic characters.
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int isalpharune(Rune r);
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// isdigitrune tests for digits. Non-digit numbers, such as Roman
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// numerals, are not included.
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int isdigitrune(Rune r);
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// isideographicrune tests for ideographic characters and numbers, as
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// defined by the Unicode standard.
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int isideographicrune(Rune r);
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// isspacerune tests for whitespace characters, including "C" locale
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// whitespace, Unicode defined whitespace, and the "zero-width
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// non-break space" character.
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int isspacerune(Rune r);
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// (The comments in this file were copied from the manpage files rune.3,
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// isalpharune.3, and runestrcat.3. Some formatting changes were also made
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// to conform to Google style. /JRM 11/11/05)
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#ifdef __cplusplus
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}
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#endif
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#endif
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