scuffed-code/icu4c/source/extra/ustdio/ustdio.c

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/*
*******************************************************************************
*
* Copyright (C) 1998-1999, International Business Machines
* Corporation and others. All Rights Reserved.
*
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*******************************************************************************
*
* File ustdio.c
*
* Modification History:
*
* Date Name Description
* 11/18/98 stephen Creation.
* 03/12/99 stephen Modified for new C API.
* 07/19/99 stephen Fixed read() and gets()
*******************************************************************************
*/
#include "unicode/ustdio.h"
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#include "ufile.h"
#include "ufmt_cmn.h"
#include "unicode/ucnv.h"
#include "unicode/ustring.h"
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#include <string.h>
static const UChar DELIMITERS [] = { 0x000A, 0x0000 };
#define DELIM_CR 0x000D
#define DELIM_LF 0x000A
#define IS_STRING_DELIMITER(s) (UBool)( (s) == DELIM_CR || \
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(s) == DELIM_LF )
/* Input/output */
int32_t
u_fputs(const UChar *s,
UFILE *f)
{
int32_t count = u_file_write(s, u_strlen(s), f);
count += u_file_write(DELIMITERS, u_strlen(DELIMITERS), f);
return count;
}
int32_t
u_fputc(UChar uc,
UFILE *f)
{
return u_file_write(&uc, 1, f) == 1 ? uc : EOF;
}
int32_t
u_file_write( const UChar *chars,
int32_t count,
UFILE *f)
{
/* Set up conversion parameters */
UErrorCode status = U_ZERO_ERROR;
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const UChar *mySource = chars;
const UChar *sourceAlias = chars;
const UChar *mySourceEnd = chars + count;
char *myTarget = f->fCharBuffer;
int32_t bufferSize = UFILE_CHARBUFFER_SIZE;
int32_t written = 0;
/* Perform the conversion in a loop */
do {
status = U_ZERO_ERROR;
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sourceAlias = mySource;
if(f->fConverter != NULL) { /* We have a valid converter */
ucnv_fromUnicode(f->fConverter,
&myTarget,
f->fCharBuffer + bufferSize,
&mySource,
mySourceEnd,
NULL,
TRUE,
&status);
} else { /*weiv: do the invariant conversion */
u_UCharsToChars(mySource, myTarget, count);
myTarget += count;
}
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/* write the converted bytes */
fwrite(f->fCharBuffer,
sizeof(char),
myTarget - f->fCharBuffer,
f->fFile);
written += (myTarget - f->fCharBuffer);
myTarget = f->fCharBuffer;
}
while(status == U_BUFFER_OVERFLOW_ERROR);
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/* return # of chars written */
return written;
}
/* private function used for buffering input */
void
ufile_fill_uchar_buffer(UFILE *f)
{
UErrorCode status;
const char *mySource;
const char *mySourceEnd;
UChar *myTarget;
int32_t bufferSize;
int32_t maxCPBytes;
int32_t bytesRead;
int32_t availLength;
int32_t dataSize;
/* shift the buffer if it isn't empty */
dataSize = f->fUCLimit - f->fUCPos;
if(dataSize != 0) {
memmove(f->fUCBuffer,
f->fUCPos,
dataSize * sizeof(UChar));
}
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/* record how much buffer space is available */
availLength = UFILE_UCHARBUFFER_SIZE - dataSize;
/* Determine the # of codepage bytes needed to fill our UChar buffer */
/* weiv: if converter is NULL, we use invariant converter with charwidth = 1)*/
maxCPBytes = availLength / (f->fConverter!=NULL?(2*ucnv_getMinCharSize(f->fConverter)):1);
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/* Read in the data to convert */
bytesRead = fread(f->fCharBuffer,
sizeof(char),
ufmt_min(maxCPBytes, UFILE_CHARBUFFER_SIZE),
f->fFile);
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/* Set up conversion parameters */
status = U_ZERO_ERROR;
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mySource = f->fCharBuffer;
mySourceEnd = f->fCharBuffer + bytesRead;
myTarget = f->fUCBuffer + dataSize;
bufferSize = UFILE_UCHARBUFFER_SIZE;
if(f->fConverter != NULL) { /* We have a valid converter */
/* Perform the conversion */
ucnv_toUnicode(f->fConverter,
&myTarget,
f->fUCBuffer + bufferSize,
&mySource,
mySourceEnd,
NULL,
(UBool)(feof(f->fFile) != 0),
&status);
} else { /*weiv: do the invariant conversion */
u_charsToUChars(mySource, myTarget, bytesRead);
myTarget += bytesRead;
}
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/* update the pointers into our array */
f->fUCPos = f->fUCBuffer;
f->fUCLimit = myTarget;
}
UChar*
u_fgets(UFILE *f,
int32_t n,
UChar *s)
{
int32_t dataSize;
int32_t read;
int32_t count;
UChar *alias;
/* fill the buffer */
ufile_fill_uchar_buffer(f);
/* subtract 1 from n to compensate for the terminator */
--n;
/* determine the amount of data in the buffer */
dataSize = f->fUCLimit - f->fUCPos;
/* if the buffer contains more data than requested, operate on the buffer */
if(dataSize > n) {
/* find the first occurrence of a delimiter character */
alias = f->fUCPos;
count = 0;
while( ! IS_STRING_DELIMITER(*alias) && count < n) {
++count;
alias++;
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}
/* copy the characters into the target*/
memcpy(s, f->fUCPos, count * sizeof(UChar));
/* add the terminator */
s[count] = 0x0000;
/* update the current buffer position */
f->fUCPos += count;
/* refill the buffer */
ufile_fill_uchar_buffer(f);
/* skip over any remaining delimiters */
while(IS_STRING_DELIMITER(*(f->fUCPos)) && f->fUCPos < f->fUCLimit)
(f->fUCPos)++;
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/* return s */
return s;
}
/* otherwise, iteratively fill the buffer and copy */
read = 0;
do {
/* determine the amount of data in the buffer */
dataSize = f->fUCLimit - f->fUCPos;
/* find the first occurrence of a delimiter character, if present */
alias = f->fUCPos;
count = 0;
while( ! IS_STRING_DELIMITER(*alias) && alias < f->fUCLimit && count < n) {
++count;
alias++;
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}
/* copy the current data in the buffer */
memcpy(s + read, f->fUCPos, count * sizeof(UChar));
/* update number of items read */
read += count;
/* update the current buffer position */
f->fUCPos += count;
/* if we found a delimiter */
if(alias < f->fUCLimit) {
/* refill the buffer */
ufile_fill_uchar_buffer(f);
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/* skip over any remaining delimiters */
while(IS_STRING_DELIMITER(*(f->fUCPos)) && f->fUCPos < f->fUCLimit)
(f->fUCPos)++;
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/* break out */
break;
}
/* refill the buffer */
ufile_fill_uchar_buffer(f);
} while(dataSize != 0 && read < n);
/* if 0 characters were read, return 0 */
if(read == 0)
return 0;
/* add the terminator and return s */
s[read] = 0x0000;
return s;
}
UChar
u_fgetc(UFILE *f)
{
/* if we have an available character in the buffer, return it */
if(f->fUCPos < f->fUCLimit)
return *(f->fUCPos)++;
/* otherwise, fill the buffer and return the next character */
else {
ufile_fill_uchar_buffer(f);
if(f->fUCPos < f->fUCLimit)
return *(f->fUCPos)++;
else
return 0xFFFF;
}
}
/* u_unescapeAt() callback to return a UChar from a UFILE */
static UChar _charAt(int32_t offset, void *context) {
return ((UFILE*) context)->fUCPos[offset];
}
/* Read a UChar from a UFILE and process escape sequences */
UChar32
u_fgetcx(UFILE *f) {
int32_t length;
int32_t offset;
UChar32 c32;
UChar c16;
/* Fill the buffer if it is empty */
if (f->fUCPos >= f->fUCLimit) {
ufile_fill_uchar_buffer(f);
}
/* Get the next character in the buffer */
if (f->fUCPos < f->fUCLimit) {
c16 = *(f->fUCPos)++;
} else {
c16 = U_EOF;
}
/* If it isn't a backslash, return it */
if (c16 != 0x005C /*'\\'*/) {
return c16;
}
/* Determine the amount of data in the buffer */
length = f->fUCLimit - f->fUCPos;
/* The longest escape sequence is \Uhhhhhhhh; make sure
we have at least that many characters */
if (length < 10) {
/* fill the buffer */
ufile_fill_uchar_buffer(f);
length = f->fUCLimit - f->fUCPos;
}
/* Process the escape */
offset = 0;
c32 = u_unescapeAt(_charAt, &offset, length, (void*)f);
/* Update the current buffer position */
f->fUCPos += offset;
return c32;
}
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UChar
u_fungetc(UChar c,
UFILE *f)
{
/* if we're at the beginning of the buffer, sorry! */
if(f->fUCPos == f->fUCBuffer)
return 0xFFFF;
/* otherwise, put the character back */
else {
*--(f->fUCPos) = c;
return c;
}
}
int32_t
u_file_read( UChar *chars,
int32_t count,
UFILE *f)
{
int32_t dataSize;
int32_t read;
/* fill the buffer */
ufile_fill_uchar_buffer(f);
/* determine the amount of data in the buffer */
dataSize = f->fUCLimit - f->fUCPos;
/* if the buffer contains the amount requested, just copy */
if(dataSize > count) {
memcpy(chars, f->fUCPos, count * sizeof(UChar));
/* update the current buffer position */
f->fUCPos += count;
/* return # of chars read */
return count;
}
/* otherwise, iteratively fill the buffer and copy */
read = 0;
do {
/* determine the amount of data in the buffer */
dataSize = f->fUCLimit - f->fUCPos;
/* copy the current data in the buffer */
memcpy(chars + read, f->fUCPos, dataSize * sizeof(UChar));
/* update number of items read */
read += dataSize;
/* update the current buffer position */
f->fUCPos += dataSize;
/* refill the buffer */
ufile_fill_uchar_buffer(f);
} while(dataSize != 0 && read < count);
return read;
}