/* ********************************************************************** * Copyright (C) 1999-2001, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * ucnv.h: * External APIs for the ICU's codeset conversion library * Bertrand A. Damiba * * Modification History: * * Date Name Description * 04/04/99 helena Fixed internal header inclusion. * 05/11/00 helena Added setFallback and usesFallback APIs. * 06/29/2000 helena Major rewrite of the callback APIs. * 12/07/2000 srl Update of documentation */ /** * \file * \brief C API: Character conversion * *

Character Conversion C API

* */ #ifndef UCNV_H #define UCNV_H /* Forward declaring the UConverter structure */ struct UConverter; typedef struct UConverter UConverter; #include "unicode/utypes.h" #include "unicode/ucnv_err.h" U_CDECL_BEGIN /* maximum length of the converter names */ #define UCNV_MAX_CONVERTER_NAME_LENGTH 60 #define UCNV_MAX_FULL_FILE_NAME_LENGTH (600+UCNV_MAX_CONVERTER_NAME_LENGTH) #define UCNV_SI 0x0F /*Shift in for EBDCDIC_STATEFUL and iso2022 states */ #define UCNV_SO 0x0E /*Shift out for EBDCDIC_STATEFUL and iso2022 states */ /** * Enum for specifying basic types of converters * @see ucnv_getType */ typedef enum { UCNV_UNSUPPORTED_CONVERTER = -1, UCNV_SBCS = 0, UCNV_DBCS = 1, UCNV_MBCS = 2, UCNV_LATIN_1 = 3, UCNV_UTF8 = 4, UCNV_UTF16_BigEndian = 5, UCNV_UTF16_LittleEndian = 6, UCNV_UTF32_BigEndian = 7, UCNV_UTF32_LittleEndian = 8, UCNV_EBCDIC_STATEFUL = 9, UCNV_ISO_2022 = 10, UCNV_LMBCS_1 = 11, UCNV_LMBCS_2, UCNV_LMBCS_3, UCNV_LMBCS_4, UCNV_LMBCS_5, UCNV_LMBCS_6, UCNV_LMBCS_8, UCNV_LMBCS_11, UCNV_LMBCS_16, UCNV_LMBCS_17, UCNV_LMBCS_18, UCNV_LMBCS_19, UCNV_LMBCS_LAST = UCNV_LMBCS_19, UCNV_HZ, UCNV_SCSU, UCNV_ISCII, UCNV_US_ASCII, UCNV_UTF7, /* Number of converter types for which we have conversion routines. */ UCNV_NUMBER_OF_SUPPORTED_CONVERTER_TYPES } UConverterType; /** * Enum for specifying which platform a converter ID refers to. * The use of platform/CCSID is not recommended. See ucnv_openCCSID(). * * @see ucnv_getPlatform * @see ucnv_openCCSID * @see ucnv_getCCSID */ typedef enum { UCNV_UNKNOWN = -1, UCNV_IBM = 0 } UConverterPlatform; /** * Function pointer for error callback in the codepage to unicode direction. * Called when an error has occured in conversion to unicode, or on open/close of the callback (see reason). * @param context Pointer to the callback's private data * @param args Information about the conversion in progress * @param codePoints Points to 'length' bytes of the concerned codepage sequence * @param length Size (in bytes) of the concerned codepage sequence * @param reason Defines the reason the callback was invoked * @see ucnv_setToUCallBack * @see UConverterToUnicodeArgs */ typedef void (*UConverterToUCallback) ( const void* context, UConverterToUnicodeArgs *args, const char *codePoints, int32_t length, UConverterCallbackReason reason, UErrorCode *); /** * Function pointer for error callback in the unicode to codepage direction. * Called when an error has occured in conversion from unicode, or on open/close of the callback (see reason). * @param context Pointer to the callback's private data * @param args Information about the conversion in progress * @param codeUnits Points to 'length' UChars of the concerned Unicode sequence * @param length Size (in bytes) of the concerned codepage sequence * @param codePoint Single UChar32 (UTF-32) containing the concerend Unicode codepoint. * @param reason Defines the reason the callback was invoked * @see ucnv_setFromUCallBack */ typedef void (*UConverterFromUCallback) ( const void* context, UConverterFromUnicodeArgs *args, const UChar* codeUnits, int32_t length, UChar32 codePoint, UConverterCallbackReason reason, UErrorCode *); U_CDECL_END /** * Character that separates converter names from options and options from each other. * @see ucnv_open */ #define UCNV_OPTION_SEP_CHAR ',' /** * String version of UCNV_OPTION_SEP_CHAR. * @see ucnv_open */ #define UCNV_OPTION_SEP_STRING "," /** * Character that separates a converter option from its value. * @see ucnv_open */ #define UCNV_VALUE_SEP_CHAR '=' /** * String version of UCNV_VALUE_SEP_CHAR. * @see ucnv_open */ #define UCNV_VALUE_SEP_STRING "=" /** * Converter option for specifying a locale. * @see ucnv_open */ #define UCNV_LOCALE_OPTION_STRING ",locale=" /** * Do a fuzzy compare of a two converter/alias names. The comparison * is case-insensitive. It also ignores the characters '-', '_', and * ' ' (dash, underscore, and space). Thus the strings "UTF-8", * "utf_8", and "Utf 8" are exactly equivalent. * * @param name1 a converter name or alias, zero-terminated * @param name2 a converter name or alias, zero-terminated * @return 0 if the names match, or a negative value if the name1 * lexically precedes name2, or a positive value if the name1 * lexically follows name2. * @draft */ U_CAPI int U_EXPORT2 ucnv_compareNames(const char *name1, const char *name2); /** * Creates a UConverter object with the names specified as a C string. * The actual name will be resolved with the alias file * using a case-insensitive string comparison that ignores * the delimiters '-', '_', and ' ' (dash, underscore, and space). * E.g., the names "UTF8", "utf-8", and "Utf 8" are all equivalent. * If NULL is passed for the converter name, it will create one with the * getDefaultName return value. * *

A converter name for ICU 1.5 and above may contain options * like a locale specification to control the specific behavior of * the newly instantiated converter. * The meaning of the options depends on the particular converter. * If an option is not defined for or recognized by a given converter, then it is ignored.

* *

Options are appended to the converter name string, with a * UCNV_OPTION_SEP_CHAR between the name and the first option and * also between adjacent options.

* * @param converterName : name of the uconv table, may have options appended * @param err outgoing error status U_MEMORY_ALLOCATION_ERROR, TABLE_NOT_FOUND * @return the created Unicode converter object, or NULL if an error occured * @see ucnv_openU * @see ucnv_openCCSID * @see ucnv_close * @stable */ U_CAPI UConverter* U_EXPORT2 ucnv_open (const char *converterName, UErrorCode * err); /** * Creates a Unicode converter with the names specified as unicode string. * The name should be limited to the ASCII-7 alphanumerics range. * The actual name will be resolved with the alias file * using a case-insensitive string comparison that ignores * the delimiters '-', '_', and ' ' (dash, underscore, and space). * E.g., the names "UTF8", "utf-8", and "Utf 8" are all equivalent. * If NULL is passed for the converter name, it will create * one with the ucnv_getDefaultName() return value. * @param converterName : name of the uconv table in a zero terminated * Unicode string * @param err outgoing error status U_MEMORY_ALLOCATION_ERROR, * TABLE_NOT_FOUND * @return the created Unicode converter object, or NULL if an * error occured * @see ucnv_open * @see ucnv_openCCSID * @see ucnv_close * @see ucnv_getDefaultName * @stable */ U_CAPI UConverter* U_EXPORT2 ucnv_openU (const UChar * name, UErrorCode * err); /** * Creates a UConverter object from a CCSID number and platform pair. * Note that the usefulness of this function is limited to platforms with numeric * encoding IDs. Only IBM and Microsoft platforms use numeric (16-bit) identifiers for * encodings. * * In addition, IBM CCSIDs and Unicode conversion tables are not 1:1 related. * For many IBM CCSIDs there are multiple (up to six) Unicode conversion tables, and * for some Unicode conversion tables there are multiple CCSIDs. * Some "alternate" Unicode conversion tables are provided by the * IBM CDRA conversion table registry. * The most prominent example of a systematic modification of conversion tables that is * not provided in the form of conversion table files in the repository is * that S/390 Unix System Services swaps the codes for Line Feed and New Line in all * EBCDIC codepages, which requires such a swap in the Unicode conversion tables as well. * * Only IBM default conversion tables are accessible with ucnv_openCCSID(). * ucnv_getCCSID() will return the same CCSID for all conversion tables that are associated * with that CCSID. * * Currently, the only "platform" supported in the ICU converter API is UCNV_IBM. * * In summary, the use of CCSIDs and the associated API functions is not recommended. * * In order to open a converter with the default IBM CDRA Unicode conversion table, * you can use this function or use the prefix "ibm-": * \code * char name[20]; * sprintf(name, "ibm-%hu", ccsid); * cnv=ucnv_open(name, &errorCode); * \endcode * * In order to open a converter with the IBM S/390 Unix System Services variant of a Unicode/EBCDIC conversion table, * you can use the prefix "ibm-" together with the suffix "-s390": * \code * char name[20]; * sprintf(name, "ibm-%hu-s390", ccsid); * cnv=ucnv_open(name, &errorCode); * \endcode * * In order to open a converter from a Microsoft codepage number, use the prefix "cp": * \code * char name[20]; * sprintf(name, "cp%hu", codepageID); * cnv=ucnv_open(name, &errorCode); * \endcode * * @param codepage codepage number to create * @param platform the platform in which the codepage number exists * @param err error status U_MEMORY_ALLOCATION_ERROR, TABLE_NOT_FOUND * @return the created Unicode converter object, or NULL if an error * occured. * @see ucnv_open * @see ucnv_openU * @see ucnv_close * @see ucnv_getCCSID * @see ucnv_getPlatform * @see UConverterPlatform * @stable */ U_CAPI UConverter* U_EXPORT2 ucnv_openCCSID (int32_t codepage, UConverterPlatform platform, UErrorCode * err); /** * Thread safe cloning operation * @param cnv converter to be cloned * @param stackBuffer user allocated space for the new clone. If NULL new memory will be allocated. * If buffer is not large enough, new memory will be allocated. * Clients can use the U_CNV_SAFECLONE_BUFFERSIZE. This will probably be enough to avoid memory allocations. * @param pBufferSize pointer to size of allocated space. * If *pBufferSize == 0, a sufficient size for use in cloning will * be returned ('pre-flighting') * If *pBufferSize is not enough for a stack-based safe clone, * new memory will be allocated. * @param status to indicate whether the operation went on smoothly or there were errors * An informational status value, U_SAFECLONE_ALLOCATED_ERROR, is used if any allocations were necessary. * @return pointer to the new clone * @draft API 1.8 freeze */ U_CAPI UConverter * ucnv_safeClone(const UConverter *cnv, void *stackBuffer, int32_t *pBufferSize, UErrorCode *status); #define U_CNV_SAFECLONE_BUFFERSIZE 512 /** * Deletes the unicode converter and releases resources associated * with just this instance. * Does not free up shared converter tables. * * @param converter the converter object to be deleted * @see ucnv_open * @see ucnv_openU * @see ucnv_openCCSID * @stable */ U_CAPI void U_EXPORT2 ucnv_close (UConverter * converter); /** * Fills in the output parameter, subChars, with the substitution characters * as multiple bytes. * * @param converter the Unicode converter * @param subChars the subsitution characters * @param len on input the capacity of subChars, on output the number * of bytes copied to it * @param err the outgoing error status code. * If the substitution character array is too small, an * U_INDEX_OUTOFBOUNDS_ERROR will be returned. * @see ucnv_setSubstChars * @stable */ U_CAPI void U_EXPORT2 ucnv_getSubstChars (const UConverter * converter, char *subChars, int8_t * len, UErrorCode * err); /** * Sets the substitution chars when converting from unicode to a codepage. The * substitution is specified as a string of 1-4 bytes, and may contain * NULL byte. * @param converter the Unicode converter * @param subChars the substitution character byte sequence we want set * @param len the number of bytes in subChars * @param err the error status code. U_INDEX_OUTOFBOUNDS_ERROR if * len is bigger than the maximum number of bytes allowed in subchars * @see ucnv_getSubstChars * @stable */ U_CAPI void U_EXPORT2 ucnv_setSubstChars (UConverter * converter, const char *subChars, int8_t len, UErrorCode * err); /** * Fills in the output parameter, errBytes, with the error characters from the * last failing conversion. * * @param converter the Unicode converter * @param errBytes the codepage bytes which were in error * @param len on input the capacity of errBytes, on output the number of * bytes which were copied to it * @param err the error status code. * If the substitution character array is too small, an * U_INDEX_OUTOFBOUNDS_ERROR will be returned. * @stable */ U_CAPI void U_EXPORT2 ucnv_getInvalidChars (const UConverter * converter, char *errBytes, int8_t * len, UErrorCode * err); /** * Fills in the output parameter, errChars, with the error characters from the * last failing conversion. * * @param converter the Unicode converter * @param errUChars the UChars which were in error * @param len on input the capacity of errUChars, on output the number of * UChars which were copied to it * @param err the error status code. * If the substitution character array is too small, an * U_INDEX_OUTOFBOUNDS_ERROR will be returned. * @stable */ U_CAPI void U_EXPORT2 ucnv_getInvalidUChars (const UConverter * converter, UChar *errUChars, int8_t * len, UErrorCode * err); /** * Resets the state of a converter to the default state. This is used * in the case of an error, to restart a conversion from a known default state. * It will also empty the internal output buffers. * @param converter the Unicode converter * @stable */ U_CAPI void U_EXPORT2 ucnv_reset (UConverter * converter); /** * Resets the to-Unicode part of a converter state to the default state. * This is used in the case of an error to restart a conversion to * Unicode to a known default state. It will also empty the internal * output buffers used for the conversion to Unicode codepoints. * @param converter the Unicode converter * @draft */ U_CAPI void ucnv_resetToUnicode(UConverter *converter); /** * Resets the from-Unicode part of a converter state to the default state. * This is used in the case of an error to restart a conversion from * Unicode to a known default state. It will also empty the internal output * buffers used for the conversion from Unicode codepoints. * @param converter the Unicode converter * @draft */ U_CAPI void ucnv_resetFromUnicode(UConverter *converter); /** * Returns the maximum length of bytes used by a character. This varies * between 1 and 4 * @param converter the Unicode converter * @return the maximum number of bytes allowed by this particular converter * @see ucnv_getMinCharSize * @stable */ U_CAPI int8_t U_EXPORT2 ucnv_getMaxCharSize (const UConverter * converter); /** * Returns the minimum byte length for characters in this codepage. * This is either 1 or 2 for all supported codepages. * @param converter the Unicode converter * @return the minimum number of bytes allowed by this particular converter * @see ucnv_getMaxCharSize * @stable */ U_CAPI int8_t U_EXPORT2 ucnv_getMinCharSize (const UConverter * converter); /** * Returns the display name of the converter passed in based on the Locale * passed in. If the locale contains no display name, the internal ASCII * name will be filled in. * * @param converter the Unicode converter. * @param displayLocale is the specific Locale we want to localised for * @param displayName user provided buffer to be filled in * @param displayNameCapacty size of displayName Buffer * @param err error status code * @return displayNameLength number of UChar needed in displayName * @see ucnv_getName * @stable */ U_CAPI int32_t U_EXPORT2 ucnv_getDisplayName (const UConverter * converter, const char *displayLocale, UChar * displayName, int32_t displayNameCapacity, UErrorCode * err); /** * Gets the internal, canonical name of the converter (zero-terminated). * The lifetime of the returned string will be that of the converter * passed to this function. * @param converter the Unicode converter * @param err UErrorCode status * @return the internal name of the converter * @see ucnv_getDisplayName * @stable */ U_CAPI const char * U_EXPORT2 ucnv_getName (const UConverter * converter, UErrorCode * err); /** * Gets a codepage number associated with the converter. This is not guaranteed * to be the one used to create the converter. Some converters do not represent * platform registered codepages and return zero for the codepage number. * The error code fill-in parameter indicates if the codepage number * is available. * Does not check if the converter is NULL or if converter's data * table is NULL. * * Important: The use of CCSIDs is not recommended because it is limited * to only two platforms in principle and only one (UCNV_IBM) in the current * ICU converter API. * Also, CCSIDs are insufficient to identify IBM Unicode conversion tables precisely. * For more details see ucnv_openCCSID(). * * @param converter the Unicode converter * @param err the error status code. * @return If any error occurrs, -1 will be returned otherwise, the codepage number * will be returned * @see ucnv_openCCSID * @see ucnv_getPlatform * @stable */ U_CAPI int32_t U_EXPORT2 ucnv_getCCSID (const UConverter * converter, UErrorCode * err); /** * Gets a codepage platform associated with the converter. Currently, * only UCNV_IBM will be returned. * Does not test if the converter is NULL or if converter's data * table is NULL. * @param converter the Unicode converter * @param err the error status code. * @return The codepage platform * @stable */ U_CAPI UConverterPlatform U_EXPORT2 ucnv_getPlatform (const UConverter * converter, UErrorCode * err); /** * Gets the type of the converter * e.g. SBCS, MBCS, DBCS, UTF8, UTF16_BE, UTF16_LE, ISO_2022, * EBCDIC_STATEFUL, LATIN_1 * @param converter a valid, opened converter * @return the type of the converter * @stable */ U_CAPI UConverterType U_EXPORT2 ucnv_getType (const UConverter * converter); /** * Gets the "starter" (lead) bytes for converters of type MBCS. * Will fill in an U_ILLEGAL_ARGUMENT_ERROR if converter passed in * is not MBCS. Fills in an array of type UBool, with the value of the byte * as offset to the array. For example, if (starters[0x20] == TRUE) at return, * it means that the byte 0x20 is a starter byte in this converter. * Context pointers are always owned by the caller. * * @param converter a valid, opened converter of type MBCS * @param starters an array of size 256 to be filled in * @param err error status, U_ILLEGAL_ARGUMENT_ERROR if the * converter is not a type which can return starters. * @see ucnv_getType * @stable */ U_CAPI void U_EXPORT2 ucnv_getStarters(const UConverter* converter, UBool starters[256], UErrorCode* err); /** * Gets the current calback function used by the converter when an illegal * or invalid codepage sequence is found. * Context pointers are always owned by the caller. * * @param converter the unicode converter * @param action fillin: returns the callback function pointer * @param context fillin: returns the callback's private void* context * @see ucnv_setToUCallBack * @stable */ U_CAPI void U_EXPORT2 ucnv_getToUCallBack (const UConverter * converter, UConverterToUCallback *action, const void **context); /** * Gets the current callback function used by the converter when illegal * or invalid Unicode sequence is found. * Context pointers are always owned by the caller. * * @param converter the unicode converter * @param action fillin: returns the callback function pointer * @param context fillin: returns the callback's private void* context * @see ucnv_setFromUCallBack * @stable */ U_CAPI void U_EXPORT2 ucnv_getFromUCallBack (const UConverter * converter, UConverterFromUCallback *action, const void **context); /** * Changes the callback function used by the converter when * an illegal or invalid sequence is found. * Context pointers are always owned by the caller. * * @param converter the unicode converter * @param newAction the new callback function * @param newContext the new toUnicode callback context pointer * @param oldAction fillin: returns the old callback function pointer * @param oldContext fillin: returns the old callback's private void* context * @param err The error code status * @see ucnv_getToUCallBack * @stable */ U_CAPI void U_EXPORT2 ucnv_setToUCallBack (UConverter * converter, UConverterToUCallback newAction, const void* newContext, UConverterToUCallback *oldAction, const void** oldContext, UErrorCode * err); /** * Changes the current callback function used by the converter when * an illegal or invalid sequence is found. * Context pointers are always owned by the caller. * * @param converter the unicode converter * @param newAction the new callback function * @param newContext the new fromUnicode callback context pointer * @param oldAction fillin: returns the old callback function pointer * @param oldContext fillin: returns the old callback's private void* context * @param err The error code status * @see ucnv_getFromUCallBack * @stable */ U_CAPI void U_EXPORT2 ucnv_setFromUCallBack (UConverter * converter, UConverterFromUCallback newAction, const void *newContext, UConverterFromUCallback *oldAction, const void **oldContext, UErrorCode * err); /** * Converts an array of unicode characters to an array of codepage * characters. This function is optimized for converting a continuous * stream of data in buffer-sized chunks, where the entire source and * target does not fit in available buffers. * * The source pointer is an in/out parameter. It starts out pointing where the * conversion is to begin, and ends up pointing after the last UChar consumed. * * Target similarly starts out pointer at the first available byte in the output * buffer, and ends up pointing after the last byte written to the output. * * The converter always attempts to consume the entire source buffer, unless * (1.) the target buffer is full, or (2.) a failing error is returned from the * current callback function. When a successful error status has been * returned, it means that all of the source buffer has been * consumed. At that point, the caller should reset the source and * sourceLimit pointers to point to the next chunk. * * This is a stateful conversion. Additionally, even when all source data has * been consumed, some data may be in the converters' internal state. * Call this function repeatedly, updating the target pointers with * the next empty chunk of target in case of a * U_BUFFER_OVERFLOW_ERROR, and updating the source pointers * with the next chunk of source when a successful error status is * returned, until there are no more chunks of source data. * @param converter the Unicode converter * @param target I/O parameter. Input : Points to the beginning of the buffer to copy * codepage characters to. Output : points to after the last codepage character copied * to target. * @param targetLimit the pointer just after last of the target buffer * @param source I/O parameter, pointer to pointer to the source Unicode character buffer. * @param sourceLimit the pointer just after the last of the source buffer * @param offsets if NULL is passed, nothing will happen to it, otherwise it needs to have the same number * of allocated cells as target. Will fill in offsets from target to source pointer * e.g: offsets[3] is equal to 6, it means that the target[3] was a result of transcoding source[6] * For output data carried across calls, and other data without a specific source character * (such as from escape sequences or callbacks) -1 will be placed for offsets. * @param flush set to TRUE if the current source buffer is the last available * chunk of the source, FALSE otherwise. Note that if a failing status is returned, * this function may have to be called multiple times wiht flush set to TRUE until * the source buffer is consumed. * @param err the error status. U_ILLEGAL_ARGUMENT_ERROR will be set if the * converter is NULL. * U_BUFFER_OVERFLOW_ERROR will be set if the target is full and there is * still data to be written to the target. * @see ucnv_fromUChars * @see ucnv_convert * @see ucnv_getMinCharSize * @see ucnv_setToUCallBack * @draft backslash versus Yen sign in shift-JIS */ U_CAPI void U_EXPORT2 ucnv_fromUnicode (UConverter * converter, char **target, const char *targetLimit, const UChar ** source, const UChar * sourceLimit, int32_t* offsets, UBool flush, UErrorCode * err); /** * Converts a buffer of codepage bytes into an array of unicode UChars * characters. This function is optimized for converting a continuous * stream of data in buffer-sized chunks, where the entire source and * target does not fit in available buffers. * * The source pointer is an in/out parameter. It starts out pointing where the * conversion is to begin, and ends up pointing after the last byte of source consumed. * * Target similarly starts out pointer at the first available UChar in the output * buffer, and ends up pointing after the last UChar written to the output. * It does NOT necessarily keep UChar sequences together. * * The converter always attempts to consume the entire source buffer, unless * (1.) the target buffer is full, or (2.) a failing error is returned from the * current callback function. When a successful error status has been * returned, it means that all of the source buffer has been * consumed. At that point, the caller should reset the source and * sourceLimit pointers to point to the next chunk. * * This is a stateful conversion. Additionally, even when all source data has * been consumed, some data may be in the converters' internal state. * Call this function repeatedly, updating the target pointers with * the next empty chunk of target in case of a * U_BUFFER_OVERFLOW_ERROR, and updating the source pointers * with the next chunk of source when a successful error status is * returned, until there are no more chunks of source data. * @param converter the Unicode converter * @param target I/O parameter. Input : Points to the beginning of the buffer to copy * UChars into. Output : points to after the last UChar copied. * @param targetLimit the pointer just after the end of the target buffer * @param source I/O parameter, pointer to pointer to the source codepage buffer. * @param sourceLimit the pointer to the byte after the end of the source buffer * @param offsets if NULL is passed, nothing will happen to it, otherwise it needs to have the same number * of allocated cells as target. Will fill in offsets from target to source pointer * e.g: offsets[3] is equal to 6, it means that the target[3] was a result of transcoding source[6] * For output data carried across calls, and other data without a specific source character * (such as from escape sequences or callbacks) -1 will be placed for offsets. * @param flush set to TRUE if the current source buffer is the last available * chunk of the source, FALSE otherwise. Note that if a failing status is returned, * this function may have to be called multiple times wiht flush set to TRUE until * the source buffer is consumed. * @param err the error status. U_ILLEGAL_ARGUMENT_ERROR will be set if the * converter is NULL. * U_BUFFER_OVERFLOW_ERROR will be set if the target is full and there is * still data to be written to the target. * @see ucnv_fromUChars * @see ucnv_convert * @see ucnv_getMinCharSize * @see ucnv_setFromUCallBack * @see ucnv_getNextUChar * @draft backslash versus Yen sign in shift-JIS * @stable */ U_CAPI void U_EXPORT2 ucnv_toUnicode (UConverter * converter, UChar ** target, const UChar * targetLimit, const char **source, const char *sourceLimit, int32_t* offsets, UBool flush, UErrorCode * err); /** * Converts the source Unicode string into the target codepage with the * specified Unicode converter. If any problems during conversion * are encountered, the currently installed fromUnicode callback will be used. * This function is a more convenient but less efficient version of \Ref{ucnv_fromUnicode}. * targetLength may be 0 if you only want to know the exact number of * target bytes required. * The maximum target buffer size required (barring callbacks) will be * sourceLength*ucnv_getMaxCharSize() * @param converter the Unicode converter * @param target the target buffer (not zero-terminated * because the structure of codepages varies. There is * not a reliable way to produce a terminator.) * @param targetCapacity the number of bytes available in the target buffer * @param source the source Unicode string * @param sourceLength the length of the source string. If -1 is passed in as the * value, the source buffer is a zero terminated string and whole source buffer * will be converted. * @param err the error status code. * U_ILLEGAL_ARGUMENT_ERROR is returned if the converter is NULL * or the source or target string is empty. * U_BUFFER_OVERFLOW_ERROR will be set if the target is full and * there is still input left in the source. * @return number of bytes needed in target, regardless of targetCapacity * @see ucnv_fromUnicode * @see ucnv_convert * @draft backslash versus Yen sign in shift-JIS */ U_CAPI int32_t U_EXPORT2 ucnv_fromUChars (const UConverter * converter, char *target, int32_t targetCapacity, const UChar * source, int32_t sourceLength, UErrorCode * err); /** * Converts the source string in codepage encoding into the target string in * Unicode encoding. For example, if a JIS converter is used, the source * string in JIS encoding will be converted into Unicode and placed into * the provided target buffer. If any problems during conversion * are encountered, the currently installed fromUnicode callback will be used. * Barring callbacks which may write longer sequences, the target buffer should * be of size 1+(2*(sourceLen / ucnv_getMinCharSize())) because the worst case * is that each source sequence is the minimum size, and that sequence produces * a surrogate pair. (plus the zero termination). * A zero-terminator will be placed at the end of the target buffer. * This function is a more convenient but less efficient version of \Ref{ucnv_toUnicode}. * @param converter the Unicode converter * @param source the source string in codepage encoding * @param target the target string in Unicode encoding * @param targetCapacity capacity of the target buffer * @param sourceSize : Number of bytes in source to be transcoded * @param err the error status code * U_MEMORY_ALLOCATION_ERROR will be returned if the * the internal process buffer cannot be allocated for transcoding. * U_ILLEGAL_ARGUMENT_ERROR is returned if the converter is NULL or * if the source or target string is empty. * U_BUFFER_OVERFLOW_ERROR will be set if the target is full and there is still input left in the source. * @return the number of UChar needed in target (including the zero terminator) * @see ucnv_getNextUChar * @see ucnv_toUnicode * @see ucnv_convert * @stable */ U_CAPI int32_t U_EXPORT2 ucnv_toUChars (const UConverter * converter, UChar * target, int32_t targetCapacity, const char *source, int32_t sourceSize, UErrorCode * err); /******************************** * Will convert a codepage buffer into unicode one character at a time. *

This function was written to be efficient when transcoding small * amounts of data at a time. * In that case it will be more efficient than \Ref{ucnv_toUnicode}. * When converting large buffers use \Ref{ucnv_toUnicode}.

* *

Handling of surrogate pairs and supplementary-plane code points:
* There are two different kinds of codepages that provide mappings for surrogate characters: *

* * @param converter an open UConverter * @param source the address of a pointer to the codepage buffer, will be * updated to point after the bytes consumed in the conversion call. * @param sourceLimit points to the end of the input buffer * @param err fills in error status (see ucnv_toUnicode) * U_INDEX_OUTOFBOUNDS_ERROR will be set if the input * is empty or does not convert to any output (e.g.: pure state-change * codes SI/SO, escape sequences for ISO 2022, * or if the callback did not output anything, ...). * This function will not set a U_BUFFER_OVERFLOW_ERROR because * the "buffer" is the return code. However, there might be subsequent output * stored in the converter object * that will be returned in following calls to this function. * @return a UChar32 resulting from the partial conversion of source * @see ucnv_toUnicode * @see ucnv_toUChars * @see ucnv_convert * @stable */ U_CAPI UChar32 U_EXPORT2 ucnv_getNextUChar (UConverter * converter, const char **source, const char * sourceLimit, UErrorCode * err); /************************** * Will convert a sequence of bytes from one codepage to another. * This is NOT AN EFFICIENT way to transcode. * use \Ref{ucnv_toUnicode} and \Ref{ucnv_fromUnicode} for efficiency. * @param toConverterName The name of the converter that will be used * in conversion from unicode into the output buffer * @param fromConverterName: The name of the converter that will be used * in conversion from the source buffer into intermediate unicode. * @param target Pointer to the output buffer * @param targetCapacity capacity of the target, in bytes * @param source Pointer to the input buffer * @param sourceLength capacity of the source, in bytes * @param err error status. * U_BUFFER_OVERFLOW_ERROR will be set if the target is full and there is still input left in the source. * @return will be filled in with the number of bytes needed in target * @see ucnv_fromUnicode * @see ucnv_toUnicode * @see ucnv_fromUChars * @see ucnv_toUChars * @see ucnv_getNextUChar * @draft backslash versus Yen sign in shift-JIS */ U_CAPI int32_t U_EXPORT2 ucnv_convert (const char *toConverterName, const char *fromConverterName, char *target, int32_t targetCapacity, const char *source, int32_t sourceLength, UErrorCode * err); /** * Frees up memory occupied by unused, cached converter shared data. * * @return the number of cached converters successfully deleted * @see ucnv_close * @stable * @system SYSTEM API */ U_CAPI int32_t U_EXPORT2 ucnv_flushCache (void); /** * returns the number of available converters, as per the alias file. * * @return the number of available converters * @see ucnv_getAvailableName * @stable */ U_CAPI int32_t U_EXPORT2 ucnv_countAvailable (void); /** * Gets the name of the specified converter from a list of all converters * contaied in the alias file. * @param n the index to a converter available on the system (in the range [0..ucnv_countAvaiable()]) * @return a pointer a string (library owned), or NULL if the index is out of bounds. * @see ucnv_countAvailable * @stable */ U_CAPI const char* U_EXPORT2 ucnv_getAvailableName (int32_t n); /** * Gives the number of aliases for a given converter or alias name. * Note that additional aliases are recognized by ucnv_open(). * This method only enumerates the listed entries in the alias file. * @param alias alias name * @param pErrorCode error status * @return number of names on alias list for given alias * @stable */ U_CAPI uint16_t ucnv_countAliases(const char *alias, UErrorCode *pErrorCode); /** * Gives the name of the alias at given index of alias list. * Note that additional aliases are recognized by ucnv_open(). * This method only enumerates the listed entries in the alias file. * @param alias alias name * @param n index in alias list * @param pErrorCode result of operation * @return returns the name of the alias at given index * @see ucnv_countAliases * @stable */ U_CAPI const char * ucnv_getAlias(const char *alias, uint16_t n, UErrorCode *pErrorCode); /** * Fill-up the list of alias names for the given alias. * Note that additional aliases are recognized by ucnv_open(). * This method only enumerates the listed entries in the alias file. * @param alias alias name * @param aliases fill-in list, aliases is a pointer to an array of * ucnv_countAliases() string-pointers * (const char *) that will be filled in. * The strings themselves are owned by the library. * @param pErrorCode result of operation * @stable */ U_CAPI void ucnv_getAliases(const char *alias, const char **aliases, UErrorCode *pErrorCode); /** * Gives the number of standards associated to converter names. * @return number of standards * @stable */ U_CAPI uint16_t U_EXPORT2 ucnv_countStandards(void); /** * Gives the name of the standard at given index of standard list. * @param n index in standard list * @param pErrorCode result of operation * @return returns the name of the standard at given index. Owned by the library. * @stable */ U_CAPI const char * U_EXPORT2 ucnv_getStandard(uint16_t n, UErrorCode *pErrorCode); /** * Returns a standard name for a given converter name. * * @param name original converter name * @param standard name of the standard governing the names; MIME and IANA * are such standards * @return returns the standard converter name; * if a standard converter name cannot be determined, * then NULL is returned. Owned by the library. * @stable */ U_CAPI const char * U_EXPORT2 ucnv_getStandardName(const char *name, const char *standard, UErrorCode *pErrorCode); /** * returns the current default converter name. * * @return returns the current default converter name; * if a default converter name cannot be determined, * then NULL is returned. * Storage owned by the library * @see ucnv_setDefaultName * @stable */ U_CAPI const char * U_EXPORT2 ucnv_getDefaultName (void); /** * sets the current default converter name. Caller must own the storage for 'name' * and preserve it indefinitely. * @param name the converter name to be the default (must exist). * @see ucnv_getDefaultName * @system SYSTEM API */ U_CAPI void U_EXPORT2 ucnv_setDefaultName (const char *name); /** * Fixes the backslash character mismapping. For example, in SJIS, the backslash * character in the ASCII portion is also used to represent the yen currency sign. * When mapping from Unicode character 0x005C, it's unclear whether to map the * character back to yen or backslash in SJIS. This function will take the input * buffer and replace all the yen sign characters with backslash. This is necessary * when the user tries to open a file with the input buffer on Windows. * This function will test the converter to see whether such mapping is * required. * @param cnv The converter representing the target codepage. * @param source the input buffer to be fixed * @param sourceLength the length of the input buffer * @see ucnv_isAmbiguous * @draft */ U_CAPI void U_EXPORT2 ucnv_fixFileSeparator(const UConverter *cnv, UChar* source, int32_t sourceLen); /** * Determines if the converter contains ambiguous mappings of the same * character or not. * @return TRUE if the converter contains ambiguous mapping of the same * character, FALSE otherwise. * @draft */ U_CAPI UBool U_EXPORT2 ucnv_isAmbiguous(const UConverter *cnv); /** * Sets the converter to use fallback mapping or not. * @param cnv The converter to set the fallback mapping usage on. * @param usesFallback TRUE if the user wants the converter to take advantage of the fallback * mapping, FALSE otherwise. * @draft */ U_CAPI void U_EXPORT2 ucnv_setFallback(UConverter *cnv, UBool usesFallback); /** * Determines if the converter uses fallback mappings or not. * @return TRUE if the converter uses fallback, FALSE otherwise. * @draft */ U_CAPI UBool U_EXPORT2 ucnv_usesFallback(const UConverter *cnv); #endif /*_UCNV*/