scuffed-code/icu4c/source/common/ucnv.c

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/*
******************************************************************************
*
* Copyright (C) 1998-2001, International Business Machines
* Corporation and others. All Rights Reserved.
*
******************************************************************************
*
* ucnv.c:
* Implements APIs for the ICU's codeset conversion library;
* mostly calls through internal functions;
* created by Bertrand A. Damiba
*
* Modification History:
*
* Date Name Description
* 04/04/99 helena Fixed internal header inclusion.
* 05/09/00 helena Added implementation to handle fallback mappings.
* 06/20/2000 helena OS/400 port changes; mostly typecast.
*/
#include "unicode/utypes.h"
#include "unicode/ustring.h"
#include "unicode/uloc.h"
#include "unicode/ures.h"
#include "unicode/ucnv.h"
#include "unicode/ucnv_err.h"
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#include "cmemory.h"
#include "cstring.h"
#include "umutex.h"
#include "uhash.h"
#include "ustr_imp.h"
#include "ucnv_imp.h"
#include "ucnv_io.h"
#include "ucnv_cnv.h"
#include "ucnv_bld.h"
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#if 0
/* debugging for converters */
# include <stdio.h>
void UCNV_DEBUG_LOG(char *what, char *who, void *p, int l)
{
static FILE *f = NULL;
if(f==NULL)
{
f = fopen("c:\\UCNV_DEBUG_LOG.txt", "w");
}
fprintf(f, "%-20s %-10s %p@%d\n",
who,what,p,l);
fflush(f);
}
# define UCNV_DEBUG_LOG(x,y,z) UCNV_DEBUG_LOG(x,y,z,__LINE__)
#else
# define UCNV_DEBUG_LOG(x,y,z)
#endif
/* size of intermediate and preflighting buffers in ucnv_convert() */
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#define CHUNK_SIZE 5*1024
typedef struct UAmbiguousConverter {
const char *name;
const UChar variant5c;
} UAmbiguousConverter;
static const UAmbiguousConverter ambiguousConverters[]={
{ "ibm-942_P120-2000", 0xa5 },
{ "ibm-943_P130-2000", 0xa5 },
{ "ibm-33722", 0xa5 },
{ "ibm-949_P110-2000", 0x20a9 },
{ "ibm-1363_P110-2000", 0x20a9 },
{ "ISO_2022,locale=ko,version=0", 0x20a9 }
};
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const char* ucnv_getDefaultName ()
{
return ucnv_io_getDefaultConverterName();
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}
void ucnv_setDefaultName (const char *converterName)
{
ucnv_io_setDefaultConverterName(converterName);
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}
/*Calls through createConverter */
UConverter* ucnv_open (const char *name,
UErrorCode * err)
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{
if (err == NULL || U_FAILURE (*err)) {
return NULL;
}
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return ucnv_createConverter (name, err);
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}
/*Extracts the UChar* to a char* and calls through createConverter */
UConverter* ucnv_openU (const UChar * name,
UErrorCode * err)
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{
char asciiName[UCNV_MAX_CONVERTER_NAME_LENGTH];
if (U_FAILURE (*err))
return NULL;
if (name == NULL)
return ucnv_open (NULL, err);
if (u_strlen (name) > UCNV_MAX_CONVERTER_NAME_LENGTH)
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{
*err = U_ILLEGAL_ARGUMENT_ERROR;
return NULL;
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}
return ucnv_open (u_austrcpy (asciiName, name), err);
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}
/*Assumes a $platform-#codepage.$CONVERTER_FILE_EXTENSION scheme and calls
*through createConverter*/
UConverter* ucnv_openCCSID (int32_t codepage,
UConverterPlatform platform,
UErrorCode * err)
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{
char myName[UCNV_MAX_CONVERTER_NAME_LENGTH];
int32_t myNameLen;
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if (U_FAILURE (*err))
return NULL;
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ucnv_copyPlatformString (myName, platform);
myNameLen = uprv_strlen(myName);
myName[myNameLen++] = '-';
myName[myNameLen] = 0;
T_CString_integerToString (myName + myNameLen, codepage, 10);
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return ucnv_createConverter (myName, err);
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}
/* Creating a temporary stack-based object that can be used in one thread,
and created from a converter that is shared across threads.
*/
UConverter *ucnv_safeClone(const UConverter* cnv, void *stackBuffer, int32_t *pBufferSize, UErrorCode *status)
{
UConverter * localConverter;
int32_t bufferSizeNeeded;
char *stackBufferChars = (char *)stackBuffer;
if (status == NULL || U_FAILURE(*status)){
return 0;
}
if (!pBufferSize || !cnv){
*status = U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
/* Pointers on 64-bit platforms need to be aligned
* on a 64-bit boundry in memory.
*/
if (U_ALIGNMENT_OFFSET(stackBuffer) != 0) {
int32_t offsetUp = (int32_t)U_ALIGNMENT_OFFSET_UP(stackBufferChars);
*pBufferSize -= offsetUp;
stackBufferChars += offsetUp;
}
stackBuffer = (void *)stackBufferChars;
if (cnv->sharedData->impl->safeClone != NULL) {
/* call the custom safeClone function for sizing */
bufferSizeNeeded = 0;
cnv->sharedData->impl->safeClone(cnv, stackBuffer, &bufferSizeNeeded, status);
}
else
{
bufferSizeNeeded = sizeof(UConverter);
}
if (*pBufferSize <= 0){ /* 'preflighting' request - set needed size into *pBufferSize */
*pBufferSize = bufferSizeNeeded;
return 0;
}
if (*pBufferSize < bufferSizeNeeded || stackBuffer == NULL)
{
/* allocate one here...*/
localConverter = ucnv_createConverter (ucnv_getName (cnv, status), status);
if (U_SUCCESS(*status))
{
*status = U_SAFECLONE_ALLOCATED_ERROR;
}
} else {
if (cnv->sharedData->impl->safeClone != NULL) {
/* call the custom safeClone function */
localConverter = cnv->sharedData->impl->safeClone(cnv, stackBuffer, pBufferSize, status);
}
else
{
localConverter = (UConverter *)stackBuffer;
uprv_memcpy(localConverter, cnv, sizeof(UConverter));
localConverter->isCopyLocal = TRUE;
}
}
return localConverter;
}
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/*Decreases the reference counter in the shared immutable section of the object
*and frees the mutable part*/
void ucnv_close (UConverter * converter)
{
/* first, notify the callback functions that the converter is closed */
UConverterToUnicodeArgs toUArgs = {
sizeof(UConverterToUnicodeArgs),
TRUE,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL
};
UConverterFromUnicodeArgs fromUArgs = {
sizeof(UConverterFromUnicodeArgs),
TRUE,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL
};
UErrorCode errorCode;
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if (converter == NULL)
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{
return;
}
toUArgs.converter = fromUArgs.converter = converter;
errorCode = U_ZERO_ERROR;
converter->fromCharErrorBehaviour(converter->toUContext, &toUArgs, NULL, 0, UCNV_CLOSE, &errorCode);
errorCode = U_ZERO_ERROR;
converter->fromUCharErrorBehaviour(converter->fromUContext, &fromUArgs, NULL, 0, 0, UCNV_CLOSE, &errorCode);
if (converter->sharedData->impl->close != NULL) {
converter->sharedData->impl->close(converter);
}
if(!converter->isCopyLocal){
if (converter->sharedData->referenceCounter != ~0) {
umtx_lock (NULL);
if (converter->sharedData->referenceCounter != 0) {
converter->sharedData->referenceCounter--;
}
umtx_unlock (NULL);
}
uprv_free (converter);
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}
return;
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}
/*returns a single Name from the list, will return NULL if out of bounds
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*/
const char* ucnv_getAvailableName (int32_t n)
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{
if (0 <= n && n <= 0xffff) {
UErrorCode err = U_ZERO_ERROR;
const char *name = ucnv_io_getAvailableConverter((uint16_t)n, &err);
if (U_SUCCESS(err)) {
return name;
}
}
return NULL;
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}
int32_t ucnv_countAvailable ()
{
UErrorCode err = U_ZERO_ERROR;
return ucnv_io_countAvailableConverters(&err);
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}
U_CAPI uint16_t
ucnv_countAliases(const char *alias, UErrorCode *pErrorCode)
{
const char *p;
return ucnv_io_getAliases(alias, &p, pErrorCode);
}
U_CAPI const char *
ucnv_getAlias(const char *alias, uint16_t n, UErrorCode *pErrorCode)
{
return ucnv_io_getAlias(alias, n, pErrorCode);
}
U_CAPI void
ucnv_getAliases(const char *alias, const char **aliases, UErrorCode *pErrorCode)
{
const char *p;
uint16_t count=ucnv_io_getAliases(alias, &p, pErrorCode);
while(count>0) {
*aliases++=p;
/* skip a name, first the canonical converter name */
p+=uprv_strlen(p)+1;
--count;
}
}
U_CAPI uint16_t
ucnv_countStandards(void)
{
UErrorCode err = U_ZERO_ERROR;
return ucnv_io_countStandards(&err);
}
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void ucnv_getSubstChars (const UConverter * converter,
char *mySubChar,
int8_t * len,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return;
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if (*len < converter->subCharLen) /*not enough space in subChars */
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{
*err = U_INDEX_OUTOFBOUNDS_ERROR;
return;
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}
uprv_memcpy (mySubChar, converter->subChar, converter->subCharLen); /*fills in the subchars */
*len = converter->subCharLen; /*store # of bytes copied to buffer */
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}
void ucnv_setSubstChars (UConverter * converter,
const char *mySubChar,
int8_t len,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return;
/*Makes sure that the subChar is within the codepages char length boundaries */
if ((len > converter->sharedData->staticData->maxBytesPerChar)
|| (len < converter->sharedData->staticData->minBytesPerChar))
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{
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
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}
uprv_memcpy (converter->subChar, mySubChar, len); /*copies the subchars */
converter->subCharLen = len; /*sets the new len */
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/*
* There is currently (2001Feb) no separate API to set/get subChar1.
* In order to always have subChar written after it is explicitly set,
* we set subChar1 to 0.
*/
converter->subChar1 = 0;
return;
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}
int32_t
ucnv_getDisplayName(const UConverter *cnv,
const char *displayLocale,
UChar *displayName, int32_t displayNameCapacity,
UErrorCode *pErrorCode) {
UResourceBundle *rb;
const UChar *name;
int32_t length;
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/* check arguments */
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
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}
if(cnv==NULL || displayNameCapacity<0 || (displayNameCapacity>0 && displayName==NULL)) {
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
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}
/* open the resource bundle and get the display name string */
rb=ures_open(NULL, displayLocale, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
return 0;
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}
/* use the internal name as the key */
name=ures_getStringByKey(rb, cnv->sharedData->staticData->name, &length, pErrorCode);
ures_close(rb);
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if(U_SUCCESS(*pErrorCode)) {
/* copy the string */
u_memcpy(displayName, name, uprv_min(length, displayNameCapacity)*U_SIZEOF_UCHAR);
} else {
/* convert the internal name into a Unicode string */
*pErrorCode=U_ZERO_ERROR;
length=uprv_strlen(cnv->sharedData->staticData->name);
u_charsToUChars(cnv->sharedData->staticData->name, displayName, uprv_min(length, displayNameCapacity));
}
return u_terminateUChars(displayName, displayNameCapacity, length, pErrorCode);
}
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/*resets the internal states of a converter
*goal : have the same behaviour than a freshly created converter
*/
static void _reset(UConverter *converter, UConverterResetChoice choice) {
/* first, notify the callback functions that the converter is reset */
UConverterToUnicodeArgs toUArgs = {
sizeof(UConverterToUnicodeArgs),
TRUE,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL
};
UConverterFromUnicodeArgs fromUArgs = {
sizeof(UConverterFromUnicodeArgs),
TRUE,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL
};
UErrorCode errorCode;
if(converter == NULL) {
return;
}
toUArgs.converter = fromUArgs.converter = converter;
if(choice<=UCNV_RESET_TO_UNICODE) {
errorCode = U_ZERO_ERROR;
converter->fromCharErrorBehaviour(converter->toUContext, &toUArgs, NULL, 0, UCNV_RESET, &errorCode);
}
if(choice!=UCNV_RESET_TO_UNICODE) {
errorCode = U_ZERO_ERROR;
converter->fromUCharErrorBehaviour(converter->fromUContext, &fromUArgs, NULL, 0, 0, UCNV_RESET, &errorCode);
}
/* now reset the converter itself */
if(choice<=UCNV_RESET_TO_UNICODE) {
converter->toUnicodeStatus = converter->sharedData->toUnicodeStatus;
converter->UCharErrorBufferLength = 0;
}
if(choice!=UCNV_RESET_TO_UNICODE) {
converter->fromUnicodeStatus = 0;
converter->charErrorBufferLength = 0;
}
if (converter->sharedData->impl->reset != NULL) {
/* call the custom reset function */
converter->sharedData->impl->reset(converter, choice);
} else if(choice<=UCNV_RESET_TO_UNICODE) {
converter->mode = UCNV_SI;
}
}
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void ucnv_reset(UConverter *converter)
{
_reset(converter, UCNV_RESET_BOTH);
}
void ucnv_resetToUnicode(UConverter *converter)
{
_reset(converter, UCNV_RESET_TO_UNICODE);
}
void ucnv_resetFromUnicode(UConverter *converter)
{
_reset(converter, UCNV_RESET_FROM_UNICODE);
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}
int8_t ucnv_getMaxCharSize (const UConverter * converter)
{
return converter->sharedData->staticData->maxBytesPerChar;
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}
int8_t ucnv_getMinCharSize (const UConverter * converter)
{
return converter->sharedData->staticData->minBytesPerChar;
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}
const char* ucnv_getName (const UConverter * converter, UErrorCode * err)
{
if (U_FAILURE (*err))
return NULL;
if(converter->sharedData->impl->getName){
const char* temp= converter->sharedData->impl->getName(converter);
if(temp)
return temp;
}
return converter->sharedData->staticData->name;
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}
int32_t ucnv_getCCSID (const UConverter * converter,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return -1;
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return converter->sharedData->staticData->codepage;
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}
UConverterPlatform ucnv_getPlatform (const UConverter * converter,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return UCNV_UNKNOWN;
return (UConverterPlatform)converter->sharedData->staticData->platform;
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}
U_CAPI void U_EXPORT2
ucnv_getToUCallBack (const UConverter * converter,
UConverterToUCallback *action,
const void **context)
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{
*action = converter->fromCharErrorBehaviour;
*context = converter->toUContext;
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}
U_CAPI void U_EXPORT2
ucnv_getFromUCallBack (const UConverter * converter,
UConverterFromUCallback *action,
const void **context)
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{
*action = converter->fromUCharErrorBehaviour;
*context = converter->fromUContext;
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}
void ucnv_setToUCallBack (UConverter * converter,
UConverterToUCallback newAction,
const void* newContext,
UConverterToUCallback *oldAction,
const void** oldContext,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return;
*oldAction = converter->fromCharErrorBehaviour;
converter->fromCharErrorBehaviour = newAction;
*oldContext = converter->toUContext;
converter->toUContext = newContext;
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}
void ucnv_setFromUCallBack (UConverter * converter,
UConverterFromUCallback newAction,
const void* newContext,
UConverterFromUCallback *oldAction,
const void** oldContext,
UErrorCode * err)
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{
if (U_FAILURE (*err))
return;
*oldAction = converter->fromUCharErrorBehaviour;
converter->fromUCharErrorBehaviour = newAction;
*oldContext = converter->fromUContext;
converter->fromUContext = newContext;
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}
void ucnv_fromUnicode (UConverter * _this,
char **target,
const char *targetLimit,
const UChar ** source,
const UChar * sourceLimit,
int32_t* offsets,
UBool flush,
UErrorCode * err)
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{
UConverterFromUnicodeArgs args;
const char *t;
/*
* Check parameters in for all conversions
*/
if (err == NULL || U_FAILURE (*err)) {
return;
}
if (_this == NULL || target == NULL || source == NULL) {
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
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t = *target;
if (targetLimit < t || sourceLimit < *source)
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{
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
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}
/*
* Make sure that the target buffer size does not exceed the number range for int32_t
* because some functions use the size rather than comparing pointers.
* size_t is guaranteed to be unsigned.
*/
if((size_t)(targetLimit - t) > (size_t)0x7fffffff && targetLimit > t)
{
targetLimit = t + 0x7fffffff;
}
/*
* Deal with stored carry over data. This is done in the common location
* to avoid doing it for each conversion.
*/
if (_this->charErrorBufferLength > 0)
{
int32_t myTargetIndex = 0;
ucnv_flushInternalCharBuffer (_this,
(char *)t,
&myTargetIndex,
targetLimit - *target,
offsets?&offsets:NULL,
err);
*target += myTargetIndex;
if (U_FAILURE (*err))
return;
}
args.converter = _this;
args.flush = flush;
args.offsets = offsets;
args.source = *source;
args.sourceLimit = sourceLimit;
args.target = *target;
args.targetLimit = targetLimit;
args.size = sizeof(args);
if (offsets)
{
if (_this->sharedData->impl->fromUnicodeWithOffsets != NULL)
{
_this->sharedData->impl->fromUnicodeWithOffsets(&args, err);
*source = args.source;
*target = args.target;
return;
}
else {
/* there is no implementation that sets offsets, set them all to -1 */
int32_t i, targetSize = targetLimit - *target;
for (i=0; i<targetSize; i++) {
offsets[i] = -1;
}
}
}
/*calls the specific conversion routines */
_this->sharedData->impl->fromUnicode(&args, err);
*source = args.source;
*target = args.target;
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}
void ucnv_toUnicode (UConverter * _this,
UChar ** target,
const UChar * targetLimit,
const char **source,
const char *sourceLimit,
int32_t* offsets,
UBool flush,
UErrorCode * err)
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{
UConverterToUnicodeArgs args;
const UChar *t;
/*
* Check parameters in for all conversions
*/
if (err == NULL || U_FAILURE (*err)) {
return;
}
if (_this == NULL || target == NULL || source == NULL) {
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
t = *target;
if (targetLimit < t || sourceLimit < *source) {
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
/*
* Make sure that the target buffer size does not exceed the number range for int32_t
* because some functions use the size rather than comparing pointers.
* size_t is guaranteed to be unsigned.
*/
if((size_t)(targetLimit - t) > (size_t)0x3fffffff && targetLimit > t) {
targetLimit = t + 0x3fffffff;
}
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/*
* Deal with stored carry over data. This is done in the common location
* to avoid doing it for each conversion.
*/
if (_this->UCharErrorBufferLength > 0)
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{
int32_t myTargetIndex = 0;
ucnv_flushInternalUnicodeBuffer (_this,
(UChar *)t,
&myTargetIndex,
targetLimit - *target,
offsets?&offsets:NULL,
err);
*target += myTargetIndex;
if (U_FAILURE (*err))
return;
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}
args.converter = _this;
args.flush = flush;
args.offsets = offsets;
args.source = (char *) *source;
args.sourceLimit = sourceLimit;
args.target = *target;
args.targetLimit = targetLimit;
args.size = sizeof(args);
if (offsets) {
if (_this->sharedData->impl->toUnicodeWithOffsets != NULL) {
_this->sharedData->impl->toUnicodeWithOffsets(&args, err);
*source = args.source;
*target = args.target;
return;
} else {
/* there is no implementation that sets offsets, set them all to -1 */
int32_t i, targetSize = targetLimit - *target;
for (i=0; i<targetSize; i++) {
offsets[i] = -1;
}
}
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}
/*calls the specific conversion routines */
_this->sharedData->impl->toUnicode(&args, err);
*source = args.source;
*target = args.target;
return;
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}
int32_t
ucnv_fromUChars(UConverter *cnv,
char *dest, int32_t destCapacity,
const UChar *src, int32_t srcLength,
UErrorCode *pErrorCode) {
const UChar *srcLimit;
char *originalDest, *destLimit;
int32_t destLength;
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/* check arguments */
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
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}
if( cnv==NULL ||
destCapacity<0 || (destCapacity>0 && dest==NULL) ||
srcLength<-1 || (srcLength!=0 && src==NULL)
) {
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
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}
/* initialize */
ucnv_resetFromUnicode(cnv);
originalDest=dest;
if(srcLength==-1) {
srcLength=u_strlen(src);
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}
if(srcLength>0) {
srcLimit=src+srcLength;
destLimit=dest+destCapacity;
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/* pin the destination limit to U_MAX_PTR; NULL check is for OS/400 */
if(destLimit<dest || (destLimit==NULL && dest!=NULL)) {
destLimit=(char *)U_MAX_PTR(dest);
}
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/* perform the conversion */
ucnv_fromUnicode(cnv, &dest, destLimit, &src, srcLimit, 0, TRUE, pErrorCode);
destLength=(int32_t)(dest-originalDest);
/* if an overflow occurs, then get the preflighting length */
if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
char buffer[1024];
destLimit=buffer+sizeof(buffer);
do {
dest=buffer;
*pErrorCode=U_ZERO_ERROR;
ucnv_fromUnicode(cnv, &dest, destLimit, &src, srcLimit, 0, TRUE, pErrorCode);
destLength+=(int32_t)(dest-buffer);
} while(*pErrorCode==U_BUFFER_OVERFLOW_ERROR);
}
} else {
destLength=0;
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}
return u_terminateChars(originalDest, destCapacity, destLength, pErrorCode);
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}
int32_t
ucnv_toUChars(UConverter *cnv,
UChar *dest, int32_t destCapacity,
const char *src, int32_t srcLength,
UErrorCode *pErrorCode) {
const char *srcLimit;
UChar *originalDest, *destLimit;
int32_t destLength;
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/* check arguments */
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
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}
if( cnv==NULL ||
destCapacity<0 || (destCapacity>0 && dest==NULL) ||
srcLength<-1 || (srcLength!=0 && src==NULL))
{
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
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}
/* initialize */
ucnv_resetToUnicode(cnv);
originalDest=dest;
if(srcLength==-1) {
srcLength=uprv_strlen(src);
}
if(srcLength>0) {
srcLimit=src+srcLength;
destLimit=dest+destCapacity;
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/* pin the destination limit to U_MAX_PTR; NULL check is for OS/400 */
if(destLimit<dest || (destLimit==NULL && dest!=NULL)) {
destLimit=(UChar *)U_MAX_PTR(dest);
}
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/* perform the conversion */
ucnv_toUnicode(cnv, &dest, destLimit, &src, srcLimit, 0, TRUE, pErrorCode);
destLength=(int32_t)(dest-originalDest);
/* if an overflow occurs, then get the preflighting length */
if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR)
{
UChar buffer[1024];
destLimit=buffer+sizeof(buffer)/U_SIZEOF_UCHAR;
do {
dest=buffer;
*pErrorCode=U_ZERO_ERROR;
ucnv_toUnicode(cnv, &dest, destLimit, &src, srcLimit, 0, TRUE, pErrorCode);
destLength+=(int32_t)(dest-buffer);
}
while(*pErrorCode==U_BUFFER_OVERFLOW_ERROR);
}
} else {
destLength=0;
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}
return u_terminateUChars(originalDest, destCapacity, destLength, pErrorCode);
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}
UChar32 ucnv_getNextUChar(UConverter * converter,
const char **source,
const char *sourceLimit,
UErrorCode * err)
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{
UConverterToUnicodeArgs args;
UChar32 ch;
if(err == NULL || U_FAILURE(*err)) {
return 0xffff;
}
if(converter == NULL || source == NULL || sourceLimit < *source) {
*err = U_ILLEGAL_ARGUMENT_ERROR;
return 0xffff;
}
/* In case internal data had been stored
* we return the first UChar32 in the internal buffer,
* and update the internal state accordingly
*/
if (converter->UCharErrorBufferLength > 0)
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{
UTextOffset i = 0;
UChar32 myUChar;
UTF_NEXT_CHAR(converter->UCharErrorBuffer, i, sizeof(converter->UCharErrorBuffer), myUChar);
/*In this memmove we update the internal buffer by
*popping the first character.
*Note that in the call itself we decrement
*UCharErrorBufferLength
*/
uprv_memmove (converter->UCharErrorBuffer,
converter->UCharErrorBuffer + i,
(converter->UCharErrorBufferLength - i) * sizeof (UChar));
converter->UCharErrorBufferLength -= (int8_t)i;
return myUChar;
}
/*calls the specific conversion routines */
/*as dictated in a code review, avoids a switch statement */
args.converter = converter;
args.flush = TRUE;
args.offsets = NULL;
args.source = *source;
args.sourceLimit = sourceLimit;
args.target = NULL;
args.targetLimit = NULL;
args.size = sizeof(args);
if (converter->sharedData->impl->getNextUChar != NULL)
{
ch = converter->sharedData->impl->getNextUChar(&args, err);
} else {
/* default implementation */
ch = ucnv_getNextUCharFromToUImpl(&args, converter->sharedData->impl->toUnicode, FALSE, err);
}
*source = args.source;
return ch;
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}
int32_t
ucnv_convert(const char *toConverterName, const char *fromConverterName,
char *target, int32_t targetSize,
const char *source, int32_t sourceSize,
UErrorCode *pErrorCode) {
UChar pivotBuffer[CHUNK_SIZE];
UChar *pivot, *pivot2;
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UConverter *inConverter, *outConverter;
char *myTarget;
const char *sourceLimit;
const char *targetLimit;
int32_t targetCapacity=0;
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if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
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}
if(sourceSize<0 || targetSize<0 || source==NULL
|| (targetSize>0 && target==NULL))
{
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
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/* if there is no input data, we're done */
if(sourceSize==0) {
return 0;
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}
/* create the converters */
inConverter=ucnv_open(fromConverterName, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
return 0;
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}
outConverter=ucnv_open(toConverterName, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
ucnv_close(inConverter);
return 0;
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}
/* set up the other variables */
sourceLimit=source+sourceSize;
pivot=pivot2=pivotBuffer;
myTarget=target;
targetCapacity=0;
if(targetSize>0) {
/* perform real conversion */
/*
* loops until the input buffer is completely consumed
* or an error is encountered;
* first we convert from inConverter codepage to Unicode
* then from Unicode to outConverter codepage
*/
targetLimit=target+targetSize;
do {
pivot=pivotBuffer;
ucnv_toUnicode(inConverter,
&pivot, pivotBuffer+CHUNK_SIZE,
&source, sourceLimit,
NULL,
TRUE,
pErrorCode);
/* U_BUFFER_OVERFLOW_ERROR only means that the pivot buffer is full */
if(U_SUCCESS(*pErrorCode) || *pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
*pErrorCode=U_ZERO_ERROR;
pivot2=pivotBuffer;
ucnv_fromUnicode(outConverter,
&myTarget, targetLimit,
(const UChar **)&pivot2, pivot,
NULL,
(UBool)(source==sourceLimit),
pErrorCode);
/*
* If this overflows the real target, then we must stop
* converting and preflight with the loop below.
*/
}
} while(U_SUCCESS(*pErrorCode) && source!=sourceLimit);
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targetCapacity=myTarget-target;
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}
/*
* If the output buffer is exhausted (or we are only "preflighting"), we need to stop writing
* to it but continue the conversion in order to store in targetSize
* the number of bytes that was required.
*/
if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR || targetSize==0)
{
char targetBuffer[CHUNK_SIZE];
targetLimit=targetBuffer+CHUNK_SIZE;
do {
/* since the pivot buffer may still contain some characters, start with emptying it */
*pErrorCode=U_ZERO_ERROR;
while(pivot2!=pivot && U_SUCCESS(*pErrorCode)) {
myTarget=targetBuffer;
ucnv_fromUnicode(outConverter,
&myTarget, targetLimit,
(const UChar **)&pivot2, pivot,
NULL,
(UBool)(source==sourceLimit),
pErrorCode);
targetCapacity+=(myTarget-targetBuffer);
if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
*pErrorCode=U_ZERO_ERROR;
}
}
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if(U_FAILURE(*pErrorCode)) {
/* an error occurred: done */
break;
}
if(source==sourceLimit) {
/*
* source is consumed:
* done, and set the buffer overflow error as
* the result for the entire function
*/
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
break;
}
/* now convert from the source into the pivot buffer again */
pivot=pivot2=pivotBuffer;
ucnv_toUnicode(inConverter,
&pivot, pivotBuffer+CHUNK_SIZE,
&source, sourceLimit,
NULL,
TRUE,
pErrorCode);
}
while(U_SUCCESS(*pErrorCode) || *pErrorCode==U_BUFFER_OVERFLOW_ERROR);
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}
ucnv_close (inConverter);
ucnv_close (outConverter);
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return u_terminateChars(target, targetSize, targetCapacity, pErrorCode);
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}
UConverterType ucnv_getType(const UConverter* converter)
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{
int8_t type = converter->sharedData->staticData->conversionType;
if(type == UCNV_MBCS) {
return _MBCSGetType(converter);
}
return (UConverterType)type;
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}
void ucnv_getStarters(const UConverter* converter,
UBool starters[256],
UErrorCode* err)
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{
if (err == NULL || U_FAILURE(*err)) {
return;
}
if(converter->sharedData->impl->getStarters != NULL) {
converter->sharedData->impl->getStarters(converter, starters, err);
} else {
*err = U_ILLEGAL_ARGUMENT_ERROR;
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}
}
static const UAmbiguousConverter *ucnv_getAmbiguous(const UConverter *cnv)
{
UErrorCode errorCode;
const char *name;
int32_t i;
if(cnv==NULL) {
return NULL;
}
errorCode=U_ZERO_ERROR;
name=ucnv_getName(cnv, &errorCode);
if(U_FAILURE(errorCode)) {
return NULL;
}
for(i=0; i<(int32_t)(sizeof(ambiguousConverters)/sizeof(UAmbiguousConverter)); ++i)
{
if(0==uprv_strcmp(name, ambiguousConverters[i].name))
{
return ambiguousConverters+i;
}
}
return NULL;
}
void ucnv_fixFileSeparator(const UConverter *cnv,
UChar* source,
int32_t sourceLength) {
const UAmbiguousConverter *a;
int32_t i;
UChar variant5c;
if(cnv==NULL || source==NULL || sourceLength<=0 || (a=ucnv_getAmbiguous(cnv))==NULL)
{
return;
}
variant5c=a->variant5c;
for(i=0; i<sourceLength; ++i) {
if(source[i]==variant5c) {
source[i]=0x5c;
}
}
}
UBool ucnv_isAmbiguous(const UConverter *cnv) {
return (UBool)(ucnv_getAmbiguous(cnv)!=NULL);
}
void ucnv_setFallback(UConverter *cnv, UBool usesFallback)
{
cnv->useFallback = usesFallback;
}
UBool ucnv_usesFallback(const UConverter *cnv)
{
return cnv->useFallback;
}
void
ucnv_getInvalidChars (const UConverter * converter,
char *errBytes,
int8_t * len,
UErrorCode * err)
{
if (err == NULL || U_FAILURE(*err))
{
return;
}
if (len == NULL || errBytes == NULL || converter == NULL)
{
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
if (*len < converter->invalidCharLength)
{
*err = U_INDEX_OUTOFBOUNDS_ERROR;
return;
}
if ((*len = converter->invalidCharLength) > 0)
{
uprv_memcpy (errBytes, converter->invalidCharBuffer, *len);
}
}
void
ucnv_getInvalidUChars (const UConverter * converter,
UChar *errChars,
int8_t * len,
UErrorCode * err)
{
if (err == NULL || U_FAILURE(*err))
{
return;
}
if (len == NULL || errChars == NULL || converter == NULL)
{
*err = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
if (*len < converter->invalidUCharLength)
{
*err = U_INDEX_OUTOFBOUNDS_ERROR;
return;
}
if ((*len = converter->invalidUCharLength) > 0)
{
uprv_memcpy (errChars, converter->invalidUCharBuffer, sizeof(UChar) * (*len));
}
}
/*
* Hey, Emacs, please set the following:
*
* Local Variables:
* indent-tabs-mode: nil
* End:
*
*/