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* Copyright (C) 1999-2011, International Business Machines
* Corporation and others. All Rights Reserved.
* ucnv_cnv.h:
* Definitions for converter implementations.
* Modification History:
* Date Name Description
* 05/09/00 helena Added implementation to handle fallback mappings.
* 06/29/2000 helena Major rewrite of the callback APIs.
#ifndef UCNV_CNV_H
#define UCNV_CNV_H
#include "unicode/utypes.h"
#include "unicode/ucnv.h"
#include "unicode/ucnv_err.h"
#include "unicode/uset.h"
#include "uset_imp.h"
/* this is used in fromUnicode DBCS tables as an "unassigned" marker */
#define missingCharMarker 0xFFFF
* #define missingUCharMarker 0xfffe
* commented out because there are actually two values used in toUnicode tables:
* U+fffe "unassigned"
* U+ffff "illegal"
/** Forward declaration, see ucnv_bld.h */
struct UConverterSharedData;
typedef struct UConverterSharedData UConverterSharedData;
/* function types for UConverterImpl ---------------------------------------- */
/* struct with arguments for UConverterLoad and ucnv_load() */
typedef struct {
int32_t size; /* sizeof(UConverterLoadArgs) */
int32_t nestedLoads; /* count nested ucnv_load() calls */
UBool onlyTestIsLoadable; /* input: don't actually load */
UBool reserved0; /* reserved - for good alignment of the pointers */
int16_t reserved; /* reserved - for good alignment of the pointers */
uint32_t options;
const char *pkg, *name, *locale;
} UConverterLoadArgs;
{ (int32_t)sizeof(UConverterLoadArgs), 0, FALSE, FALSE, 0, 0, NULL, NULL, NULL }
typedef void (*UConverterLoad) (UConverterSharedData *sharedData,
UConverterLoadArgs *pArgs,
const uint8_t *raw, UErrorCode *pErrorCode);
typedef void (*UConverterUnload) (UConverterSharedData *sharedData);
typedef void (*UConverterOpen) (UConverter *cnv, UConverterLoadArgs *pArgs, UErrorCode *pErrorCode);
typedef void (*UConverterClose) (UConverter *cnv);
typedef enum UConverterResetChoice {
} UConverterResetChoice;
typedef void (*UConverterReset) (UConverter *cnv, UConverterResetChoice choice);
* Converter implementation function(s) for ucnv_toUnicode().
* If the toUnicodeWithOffsets function pointer is NULL,
* then the toUnicode function will be used and the offsets will be set to -1.
* Must maintain state across buffers. Use toUBytes[toULength] for partial input
* sequences; it will be checked in ucnv.c at the end of the input stream
* to detect truncated input.
* Some converters may need additional detection and may then set U_TRUNCATED_CHAR_FOUND.
* The toUnicodeWithOffsets must write exactly as many offset values as target
* units. Write offset values of -1 for when the source index corresponding to
* the output unit is not known (e.g., the character started in an earlier buffer).
* The pArgs->offsets pointer need not be moved forward.
* At function return, either one of the following conditions must be true:
* - U_BUFFER_OVERFLOW_ERROR and the target is full: target==targetLimit
* - another error code with toUBytes[toULength] set to the offending input
* - no error, and the source is consumed: source==sourceLimit
* The ucnv.c code will handle the end of the input (reset)
* (reset, and truncation detection) and callbacks.
typedef void (*UConverterToUnicode) (UConverterToUnicodeArgs *, UErrorCode *);
* Same rules as for UConverterToUnicode.
* A lead surrogate is kept in fromUChar32 across buffers, and if an error
* occurs, then the offending input code point must be put into fromUChar32
* as well.
typedef void (*UConverterFromUnicode) (UConverterFromUnicodeArgs *, UErrorCode *);
* Converter implementation function for ucnv_convertEx(), for direct conversion
* between two charsets without pivoting through UTF-16.
* The rules are the same as for UConverterToUnicode and UConverterFromUnicode.
* In addition,
* - The toUnicode side must behave and keep state exactly like the
* UConverterToUnicode implementation for the same source charset.
* - A U_USING_DEFAULT_WARNING can be set to request to temporarily fall back
* to pivoting. When this function is called, the conversion framework makes
* sure that this warning is not set on input.
* - Continuing a partial match and flushing the toUnicode replay buffer
* are handled by pivoting, using the toUnicode and fromUnicode functions.
typedef void (*UConverterConvert) (UConverterFromUnicodeArgs *pFromUArgs,
UConverterToUnicodeArgs *pToUArgs,
UErrorCode *pErrorCode);
* Converter implementation function for ucnv_getNextUChar().
* If the function pointer is NULL, then the toUnicode function will be used.
* Will be called at a character boundary (toULength==0).
* May return with
* - U_INDEX_OUTOFBOUNDS_ERROR if there was no output for the input
* (the return value will be ignored)
* - U_TRUNCATED_CHAR_FOUND or another error code (never U_BUFFER_OVERFLOW_ERROR!)
* with toUBytes[toULength] set to the offending input
* (the return value will be ignored)
* - return UCNV_GET_NEXT_UCHAR_USE_TO_U, without moving the source pointer,
* to indicate that the ucnv.c code shall call the toUnicode function instead
* - return a real code point result
* Unless UCNV_GET_NEXT_UCHAR_USE_TO_U is returned, the source bytes must be consumed.
* The ucnv.c code will handle the end of the input (reset)
* (except for truncation detection!) and callbacks.
typedef UChar32 (*UConverterGetNextUChar) (UConverterToUnicodeArgs *, UErrorCode *);
typedef void (*UConverterGetStarters)(const UConverter* converter,
UBool starters[256],
UErrorCode *pErrorCode);
/* If this function pointer is null or if the function returns null
* the name field in static data struct should be returned by
* ucnv_getName() API function
typedef const char * (*UConverterGetName) (const UConverter *cnv);
* Write the codepage substitution character.
* If this function is not set, then ucnv_cbFromUWriteSub() writes
* the substitution character from UConverter.
* For stateful converters, it is typically necessary to handle this
* specificially for the converter in order to properly maintain the state.
typedef void (*UConverterWriteSub) (UConverterFromUnicodeArgs *pArgs, int32_t offsetIndex, UErrorCode *pErrorCode);
* For converter-specific safeClone processing
* If this function is not set, then ucnv_safeClone assumes that the converter has no private data that changes
* after the converter is done opening.
* If this function is set, then it is called just after a memcpy() of
* converter data to the new, empty converter, and is expected to set up
* the initial state of the converter. It is not expected to increment the
* reference counts of the standard data types such as the shared data.
typedef UConverter * (*UConverterSafeClone) (const UConverter *cnv,
void *stackBuffer,
int32_t *pBufferSize,
UErrorCode *status);
* Filters for some ucnv_getUnicodeSet() implementation code.
typedef enum UConverterSetFilter {
} UConverterSetFilter;
* Fills the set of Unicode code points that can be converted by an ICU converter.
* The API function ucnv_getUnicodeSet() clears the USet before calling
* the converter's getUnicodeSet() implementation; the converter should only
* add the appropriate code points to allow recursive use.
* For example, the ISO-2022-JP converter will call each subconverter's
* getUnicodeSet() implementation to consecutively add code points to
* the same USet, which will result in a union of the sets of all subconverters.
* For more documentation, see ucnv_getUnicodeSet() in ucnv.h.
typedef void (*UConverterGetUnicodeSet) (const UConverter *cnv,
const USetAdder *sa,
UConverterUnicodeSet which,
UErrorCode *pErrorCode);
* UConverterImpl contains all the data and functions for a converter type.
* Its function pointers work much like a C++ vtable.
* Many converter types need to define only a subset of the functions;
* when a function pointer is NULL, then a default action will be performed.
* Every converter type must implement toUnicode, fromUnicode, and getNextUChar,
* otherwise the converter may crash.
* Every converter type that has variable-length codepage sequences should
* also implement toUnicodeWithOffsets and fromUnicodeWithOffsets for
* correct offset handling.
* All other functions may or may not be implemented - it depends only on
* whether the converter type needs them.
* When open() fails, then close() will be called, if present.
struct UConverterImpl {
UConverterType type;
UConverterLoad load;
UConverterUnload unload;
UConverterOpen open;
UConverterClose close;
UConverterReset reset;
UConverterToUnicode toUnicode;
UConverterToUnicode toUnicodeWithOffsets;
UConverterFromUnicode fromUnicode;
UConverterFromUnicode fromUnicodeWithOffsets;
UConverterGetNextUChar getNextUChar;
UConverterGetStarters getStarters;
UConverterGetName getName;
UConverterWriteSub writeSub;
UConverterSafeClone safeClone;
UConverterGetUnicodeSet getUnicodeSet;
UConverterConvert toUTF8;
UConverterConvert fromUTF8;
extern const UConverterSharedData
_MBCSData, _Latin1Data,
_UTF8Data, _UTF16BEData, _UTF16LEData, _UTF32BEData, _UTF32LEData,
_LMBCSData1,_LMBCSData2, _LMBCSData3, _LMBCSData4, _LMBCSData5, _LMBCSData6,
_HZData,_ISCIIData, _SCSUData, _ASCIIData,
_UTF7Data, _Bocu1Data, _UTF16Data, _UTF32Data, _CESU8Data, _IMAPData, _CompoundTextData;
/** Always use fallbacks from codepage to Unicode */
#define TO_U_USE_FALLBACK(useFallback) TRUE
/** Use fallbacks from Unicode to codepage when cnv->useFallback or for private-use code points */
#define IS_PRIVATE_USE(c) ((uint32_t)((c)-0xe000)<0x1900 || (uint32_t)((c)-0xf0000)<0x20000)
#define FROM_U_USE_FALLBACK(useFallback, c) ((useFallback) || IS_PRIVATE_USE(c))
#define UCNV_FROM_U_USE_FALLBACK(cnv, c) FROM_U_USE_FALLBACK((cnv)->useFallback, c)
* Magic number for ucnv_getNextUChar(), returned by a
* getNextUChar() implementation to indicate to use the converter's toUnicode()
* instead of the native function.
* @internal
U_CFUNC void
ucnv_getCompleteUnicodeSet(const UConverter *cnv,
const USetAdder *sa,
UConverterUnicodeSet which,
UErrorCode *pErrorCode);
U_CFUNC void
ucnv_getNonSurrogateUnicodeSet(const UConverter *cnv,
const USetAdder *sa,
UConverterUnicodeSet which,
UErrorCode *pErrorCode);
U_CFUNC void
ucnv_fromUWriteBytes(UConverter *cnv,
const char *bytes, int32_t length,
char **target, const char *targetLimit,
int32_t **offsets,
int32_t sourceIndex,
UErrorCode *pErrorCode);
U_CFUNC void
ucnv_toUWriteUChars(UConverter *cnv,
const UChar *uchars, int32_t length,
UChar **target, const UChar *targetLimit,
int32_t **offsets,
int32_t sourceIndex,
UErrorCode *pErrorCode);
U_CFUNC void
ucnv_toUWriteCodePoint(UConverter *cnv,
UChar32 c,
UChar **target, const UChar *targetLimit,
int32_t **offsets,
int32_t sourceIndex,
UErrorCode *pErrorCode);
#endif /* UCNV_CNV */