openssl/MacOS/GetHTTPS.src/CPStringUtils.cpp

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/* ====================================================================
* Copyright (c) 1998-1999 The OpenSSL Project. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* 3. All advertising materials mentioning features or use of this
* software must display the following acknowledgment:
* "This product includes software developed by the OpenSSL Project
* for use in the OpenSSL Toolkit. (http://www.openssl.org/)"
*
* 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to
* endorse or promote products derived from this software without
* prior written permission. For written permission, please contact
* openssl-core@openssl.org.
*
* 5. Products derived from this software may not be called "OpenSSL"
* nor may "OpenSSL" appear in their names without prior written
* permission of the OpenSSL Project.
*
* 6. Redistributions of any form whatsoever must retain the following
* acknowledgment:
* "This product includes software developed by the OpenSSL Project
* for use in the OpenSSL Toolkit (http://www.openssl.org/)"
*
* THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY
* EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL PROJECT OR
* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
* ====================================================================
*
* This product includes cryptographic software written by Eric Young
* (eay@cryptsoft.com). This product includes software written by Tim
* Hudson (tjh@cryptsoft.com).
*
*/
#include "CPStringUtils.hpp"
#include "ErrorHandling.hpp"
#define kNumberFormatString "\p########0.00#######;-########0.00#######"
// Useful utility functions which could be optimized a whole lot
void CopyPStrToCStr(const unsigned char *thePStr,char *theCStr,const int maxCStrLength)
{
int i,numPChars;
if (thePStr != nil && theCStr != nil && maxCStrLength > 0)
{
numPChars = thePStr[0];
for (i = 0;;i++)
{
if (i >= numPChars || i >= maxCStrLength - 1)
{
theCStr[i] = 0;
break;
}
else
{
theCStr[i] = thePStr[i + 1];
}
}
}
}
void CopyPStrToPStr(const unsigned char *theSrcPStr,unsigned char *theDstPStr,const int maxDstStrLength)
{
int theMaxDstStrLength;
theMaxDstStrLength = maxDstStrLength;
if (theDstPStr != nil && theSrcPStr != nil && theMaxDstStrLength > 0)
{
if (theMaxDstStrLength > 255)
{
theMaxDstStrLength = 255;
}
if (theMaxDstStrLength - 1 < theSrcPStr[0])
{
BlockMove(theSrcPStr + 1,theDstPStr + 1,theMaxDstStrLength - 1);
theDstPStr[0] = theMaxDstStrLength - 1;
}
else
{
BlockMove(theSrcPStr,theDstPStr,theSrcPStr[0] + 1);
}
}
}
void CopyCStrToCStr(const char *theSrcCStr,char *theDstCStr,const int maxDstStrLength)
{
int i;
if (theDstCStr != nil && theSrcCStr != nil && maxDstStrLength > 0)
{
for (i = 0;;i++)
{
if (theSrcCStr[i] == 0 || i >= maxDstStrLength - 1)
{
theDstCStr[i] = 0;
break;
}
else
{
theDstCStr[i] = theSrcCStr[i];
}
}
}
}
void CopyCSubstrToCStr(const char *theSrcCStr,const int maxCharsToCopy,char *theDstCStr,const int maxDstStrLength)
{
int i;
if (theDstCStr != nil && theSrcCStr != nil && maxDstStrLength > 0)
{
for (i = 0;;i++)
{
if (theSrcCStr[i] == 0 || i >= maxDstStrLength - 1 || i >= maxCharsToCopy)
{
theDstCStr[i] = 0;
break;
}
else
{
theDstCStr[i] = theSrcCStr[i];
}
}
}
}
void CopyCSubstrToPStr(const char *theSrcCStr,const int maxCharsToCopy,unsigned char *theDstPStr,const int maxDstStrLength)
{
int i;
int theMaxDstStrLength;
theMaxDstStrLength = maxDstStrLength;
if (theDstPStr != nil && theSrcCStr != nil && theMaxDstStrLength > 0)
{
if (theMaxDstStrLength > 255)
{
theMaxDstStrLength = 255;
}
for (i = 0;;i++)
{
if (theSrcCStr[i] == 0 || i >= theMaxDstStrLength - 1 || i >= maxCharsToCopy)
{
theDstPStr[0] = i;
break;
}
else
{
theDstPStr[i + 1] = theSrcCStr[i];
}
}
}
}
void CopyCStrToPStr(const char *theSrcCStr,unsigned char *theDstPStr,const int maxDstStrLength)
{
int i;
int theMaxDstStrLength;
theMaxDstStrLength = maxDstStrLength;
if (theDstPStr != nil && theSrcCStr != nil && theMaxDstStrLength > 0)
{
if (theMaxDstStrLength > 255)
{
theMaxDstStrLength = 255;
}
for (i = 0;;i++)
{
if (i >= theMaxDstStrLength - 1 || theSrcCStr[i] == 0)
{
theDstPStr[0] = i;
break;
}
else
{
theDstPStr[i + 1] = theSrcCStr[i];
}
}
}
}
void ConcatPStrToCStr(const unsigned char *thePStr,char *theCStr,const int maxCStrLength)
{
int i,numPChars,cStrLength;
if (thePStr != nil && theCStr != nil && maxCStrLength > 0)
{
for (cStrLength = 0;theCStr[cStrLength] != 0;cStrLength++)
{
}
numPChars = thePStr[0];
for (i = 0;;i++)
{
if (i >= numPChars || cStrLength >= maxCStrLength - 1)
{
theCStr[cStrLength++] = 0;
break;
}
else
{
theCStr[cStrLength++] = thePStr[i + 1];
}
}
}
}
void ConcatPStrToPStr(const unsigned char *theSrcPStr,unsigned char *theDstPStr,const int maxDstStrLength)
{
int theMaxDstStrLength;
theMaxDstStrLength = maxDstStrLength;
if (theSrcPStr != nil && theDstPStr != nil && theMaxDstStrLength > 0)
{
if (theMaxDstStrLength > 255)
{
theMaxDstStrLength = 255;
}
if (theMaxDstStrLength - theDstPStr[0] - 1 < theSrcPStr[0])
{
BlockMove(theSrcPStr + 1,theDstPStr + theDstPStr[0] + 1,theMaxDstStrLength - 1 - theDstPStr[0]);
theDstPStr[0] = theMaxDstStrLength - 1;
}
else
{
BlockMove(theSrcPStr + 1,theDstPStr + theDstPStr[0] + 1,theSrcPStr[0]);
theDstPStr[0] += theSrcPStr[0];
}
}
}
void ConcatCStrToPStr(const char *theSrcCStr,unsigned char *theDstPStr,const int maxDstStrLength)
{
int i,thePStrLength;
int theMaxDstStrLength;
theMaxDstStrLength = maxDstStrLength;
if (theSrcCStr != nil && theDstPStr != nil && theMaxDstStrLength > 0)
{
if (theMaxDstStrLength > 255)
{
theMaxDstStrLength = 255;
}
thePStrLength = theDstPStr[0];
for (i = 0;;i++)
{
if (theSrcCStr[i] == 0 || thePStrLength >= theMaxDstStrLength - 1)
{
theDstPStr[0] = thePStrLength;
break;
}
else
{
theDstPStr[thePStrLength + 1] = theSrcCStr[i];
thePStrLength++;
}
}
}
}
void ConcatCStrToCStr(const char *theSrcCStr,char *theDstCStr,const int maxCStrLength)
{
int cStrLength;
if (theSrcCStr != nil && theDstCStr != nil && maxCStrLength > 0)
{
for (cStrLength = 0;theDstCStr[cStrLength] != 0;cStrLength++)
{
}
for (;;)
{
if (*theSrcCStr == 0 || cStrLength >= maxCStrLength - 1)
{
theDstCStr[cStrLength++] = 0;
break;
}
else
{
theDstCStr[cStrLength++] = *theSrcCStr++;
}
}
}
}
void ConcatCharToCStr(const char theChar,char *theDstCStr,const int maxCStrLength)
{
int cStrLength;
if (theDstCStr != nil && maxCStrLength > 0)
{
cStrLength = CStrLength(theDstCStr);
if (cStrLength < maxCStrLength - 1)
{
theDstCStr[cStrLength++] = theChar;
theDstCStr[cStrLength++] = '\0';
}
}
}
void ConcatCharToPStr(const char theChar,unsigned char *theDstPStr,const int maxPStrLength)
{
int pStrLength;
if (theDstPStr != nil && maxPStrLength > 0)
{
pStrLength = PStrLength(theDstPStr);
if (pStrLength < maxPStrLength - 1 && pStrLength < 255)
{
theDstPStr[pStrLength + 1] = theChar;
theDstPStr[0] += 1;
}
}
}
int CompareCStrs(const char *theFirstCStr,const char *theSecondCStr,const Boolean ignoreCase)
{
int returnValue;
char firstChar,secondChar;
returnValue = 0;
if (theFirstCStr != nil && theSecondCStr != nil)
{
for (;;)
{
firstChar = *theFirstCStr;
secondChar = *theSecondCStr;
if (ignoreCase == true)
{
if (firstChar >= 'A' && firstChar <= 'Z')
{
firstChar = 'a' + (firstChar - 'A');
}
if (secondChar >= 'A' && secondChar <= 'Z')
{
secondChar = 'a' + (secondChar - 'A');
}
}
if (firstChar == 0 && secondChar != 0)
{
returnValue = -1;
break;
}
else if (firstChar != 0 && secondChar == 0)
{
returnValue = 1;
break;
}
else if (firstChar == 0 && secondChar == 0)
{
returnValue = 0;
break;
}
else if (firstChar < secondChar)
{
returnValue = -1;
break;
}
else if (firstChar > secondChar)
{
returnValue = 1;
break;
}
theFirstCStr++;
theSecondCStr++;
}
}
return(returnValue);
}
Boolean CStrsAreEqual(const char *theFirstCStr,const char *theSecondCStr,const Boolean ignoreCase)
{
if (CompareCStrs(theFirstCStr,theSecondCStr,ignoreCase) == 0)
{
return true;
}
else
{
return false;
}
}
Boolean PStrsAreEqual(const unsigned char *theFirstPStr,const unsigned char *theSecondPStr,const Boolean ignoreCase)
{
if (ComparePStrs(theFirstPStr,theSecondPStr,ignoreCase) == 0)
{
return true;
}
else
{
return false;
}
}
int ComparePStrs(const unsigned char *theFirstPStr,const unsigned char *theSecondPStr,const Boolean ignoreCase)
{
int i,returnValue;
char firstChar,secondChar;
returnValue = 0;
if (theFirstPStr != nil && theSecondPStr != nil)
{
for (i = 1;;i++)
{
firstChar = theFirstPStr[i];
secondChar = theSecondPStr[i];
if (ignoreCase == true)
{
if (firstChar >= 'A' && firstChar <= 'Z')
{
firstChar = 'a' + (firstChar - 'A');
}
if (secondChar >= 'A' && secondChar <= 'Z')
{
secondChar = 'a' + (secondChar - 'A');
}
}
if (theFirstPStr[0] < i && theSecondPStr[0] >= i)
{
returnValue = -1;
break;
}
else if (theFirstPStr[0] >= i && theSecondPStr[0] < i)
{
returnValue = 1;
break;
}
else if (theFirstPStr[0] < i && theSecondPStr[0] < i)
{
returnValue = 0;
break;
}
else if (firstChar < secondChar)
{
returnValue = -1;
break;
}
else if (firstChar > secondChar)
{
returnValue = 1;
break;
}
}
}
return(returnValue);
}
int CompareCStrToPStr(const char *theCStr,const unsigned char *thePStr,const Boolean ignoreCase)
{
int returnValue;
char tempString[256];
returnValue = 0;
if (theCStr != nil && thePStr != nil)
{
CopyPStrToCStr(thePStr,tempString,sizeof(tempString));
returnValue = CompareCStrs(theCStr,tempString,ignoreCase);
}
return(returnValue);
}
void ConcatLongIntToCStr(const long theNum,char *theCStr,const int maxCStrLength,const int numDigits)
{
Str255 theStr255;
NumToString(theNum,theStr255);
if (numDigits > 0)
{
int charsToInsert;
charsToInsert = numDigits - PStrLength(theStr255);
if (charsToInsert > 0)
{
char tempString[256];
CopyCStrToCStr("",tempString,sizeof(tempString));
for (;charsToInsert > 0;charsToInsert--)
{
ConcatCStrToCStr("0",tempString,sizeof(tempString));
}
ConcatPStrToCStr(theStr255,tempString,sizeof(tempString));
CopyCStrToPStr(tempString,theStr255,sizeof(theStr255));
}
}
ConcatPStrToCStr(theStr255,theCStr,maxCStrLength);
}
void ConcatLongIntToPStr(const long theNum,unsigned char *thePStr,const int maxPStrLength,const int numDigits)
{
Str255 theStr255;
NumToString(theNum,theStr255);
if (numDigits > 0)
{
int charsToInsert;
charsToInsert = numDigits - PStrLength(theStr255);
if (charsToInsert > 0)
{
char tempString[256];
CopyCStrToCStr("",tempString,sizeof(tempString));
for (;charsToInsert > 0;charsToInsert--)
{
ConcatCStrToCStr("0",tempString,sizeof(tempString));
}
ConcatPStrToCStr(theStr255,tempString,sizeof(tempString));
CopyCStrToPStr(tempString,theStr255,sizeof(theStr255));
}
}
ConcatPStrToPStr(theStr255,thePStr,maxPStrLength);
}
void CopyCStrAndConcatLongIntToCStr(const char *theSrcCStr,const long theNum,char *theDstCStr,const int maxDstStrLength)
{
CopyCStrToCStr(theSrcCStr,theDstCStr,maxDstStrLength);
ConcatLongIntToCStr(theNum,theDstCStr,maxDstStrLength);
}
void CopyLongIntToCStr(const long theNum,char *theCStr,const int maxCStrLength,const int numDigits)
{
Str255 theStr255;
NumToString(theNum,theStr255);
if (numDigits > 0)
{
int charsToInsert;
charsToInsert = numDigits - PStrLength(theStr255);
if (charsToInsert > 0)
{
char tempString[256];
CopyCStrToCStr("",tempString,sizeof(tempString));
for (;charsToInsert > 0;charsToInsert--)
{
ConcatCStrToCStr("0",tempString,sizeof(tempString));
}
ConcatPStrToCStr(theStr255,tempString,sizeof(tempString));
CopyCStrToPStr(tempString,theStr255,sizeof(theStr255));
}
}
CopyPStrToCStr(theStr255,theCStr,maxCStrLength);
}
void CopyUnsignedLongIntToCStr(const unsigned long theNum,char *theCStr,const int maxCStrLength)
{
char tempString[256];
int srcCharIndex,dstCharIndex;
unsigned long tempNum,quotient,remainder;
if (theNum == 0)
{
CopyCStrToCStr("0",theCStr,maxCStrLength);
}
else
{
srcCharIndex = 0;
tempNum = theNum;
for (;;)
{
if (srcCharIndex >= sizeof(tempString) - 1 || tempNum == 0)
{
for (dstCharIndex = 0;;)
{
if (dstCharIndex >= maxCStrLength - 1 || srcCharIndex <= 0)
{
theCStr[dstCharIndex] = 0;
break;
}
theCStr[dstCharIndex++] = tempString[--srcCharIndex];
}
break;
}
quotient = tempNum / 10;
remainder = tempNum - (quotient * 10);
tempString[srcCharIndex] = '0' + remainder;
srcCharIndex++;
tempNum = quotient;
}
}
}
void CopyLongIntToPStr(const long theNum,unsigned char *thePStr,const int maxPStrLength,const int numDigits)
{
char tempString[256];
CopyLongIntToCStr(theNum,tempString,sizeof(tempString),numDigits);
CopyCStrToPStr(tempString,thePStr,maxPStrLength);
}
OSErr CopyLongIntToNewHandle(const long inTheLongInt,Handle *theHandle)
{
OSErr errCode = noErr;
char tempString[32];
CopyLongIntToCStr(inTheLongInt,tempString,sizeof(tempString));
errCode = CopyCStrToNewHandle(tempString,theHandle);
return(errCode);
}
OSErr CopyLongIntToExistingHandle(const long inTheLongInt,Handle theHandle)
{
OSErr errCode = noErr;
char tempString[32];
CopyLongIntToCStr(inTheLongInt,tempString,sizeof(tempString));
errCode = CopyCStrToExistingHandle(tempString,theHandle);
return(errCode);
}
OSErr CopyCStrToExistingHandle(const char *theCString,Handle theHandle)
{
OSErr errCode = noErr;
long stringLength;
if (theCString == nil)
{
SetErrorMessageAndBail(("CopyCStrToExistingHandle: Bad parameter, theCString == nil"));
}
if (theHandle == nil)
{
SetErrorMessageAndBail(("CopyCStrToExistingHandle: Bad parameter, theHandle == nil"));
}
if (*theHandle == nil)
{
SetErrorMessageAndBail(("CopyCStrToExistingHandle: Bad parameter, *theHandle == nil"));
}
stringLength = CStrLength(theCString) + 1;
SetHandleSize(theHandle,stringLength);
if (GetHandleSize(theHandle) < stringLength)
{
SetErrorMessageAndLongIntAndBail("CopyCStrToExistingHandle: Can't set Handle size, MemError() = ",MemError());
}
::BlockMove(theCString,*theHandle,stringLength);
EXITPOINT:
return(errCode);
}
OSErr CopyCStrToNewHandle(const char *theCString,Handle *theHandle)
{
OSErr errCode = noErr;
long stringLength;
if (theCString == nil)
{
SetErrorMessageAndBail(("CopyCStrToNewHandle: Bad parameter, theCString == nil"));
}
if (theHandle == nil)
{
SetErrorMessageAndBail(("CopyCStrToNewHandle: Bad parameter, theHandle == nil"));
}
stringLength = CStrLength(theCString) + 1;
*theHandle = NewHandle(stringLength);
if (*theHandle == nil)
{
SetErrorMessageAndLongIntAndBail("CopyCStrToNewHandle: Can't allocate Handle, MemError() = ",MemError());
}
::BlockMove(theCString,**theHandle,stringLength);
EXITPOINT:
return(errCode);
}
OSErr CopyPStrToNewHandle(const unsigned char *thePString,Handle *theHandle)
{
OSErr errCode = noErr;
long stringLength;
if (thePString == nil)
{
SetErrorMessageAndBail(("CopyPStrToNewHandle: Bad parameter, thePString == nil"));
}
if (theHandle == nil)
{
SetErrorMessageAndBail(("CopyPStrToNewHandle: Bad parameter, theHandle == nil"));
}
stringLength = PStrLength(thePString) + 1;
*theHandle = NewHandle(stringLength);
if (*theHandle == nil)
{
SetErrorMessageAndLongIntAndBail("CopyPStrToNewHandle: Can't allocate Handle, MemError() = ",MemError());
}
if (stringLength > 1)
{
BlockMove(thePString + 1,**theHandle,stringLength - 1);
}
(**theHandle)[stringLength - 1] = 0;
EXITPOINT:
return(errCode);
}
OSErr AppendPStrToHandle(const unsigned char *thePString,Handle theHandle,long *currentLength)
{
OSErr errCode = noErr;
char tempString[256];
CopyPStrToCStr(thePString,tempString,sizeof(tempString));
errCode = AppendCStrToHandle(tempString,theHandle,currentLength);
EXITPOINT:
return(errCode);
}
OSErr AppendCStrToHandle(const char *theCString,Handle theHandle,long *currentLength,long *maxLength)
{
OSErr errCode = noErr;
long handleMaxLength,handleCurrentLength,stringLength,byteCount;
if (theCString == nil)
{
SetErrorMessageAndBail(("AppendCStrToHandle: Bad parameter, theCString == nil"));
}
if (theHandle == nil)
{
SetErrorMessageAndBail(("AppendCStrToHandle: Bad parameter, theHandle == nil"));
}
if (maxLength != nil)
{
handleMaxLength = *maxLength;
}
else
{
handleMaxLength = GetHandleSize(theHandle);
}
if (currentLength != nil && *currentLength >= 0)
{
handleCurrentLength = *currentLength;
}
else
{
handleCurrentLength = CStrLength(*theHandle);
}
stringLength = CStrLength(theCString);
byteCount = handleCurrentLength + stringLength + 1;
if (byteCount > handleMaxLength)
{
SetHandleSize(theHandle,handleCurrentLength + stringLength + 1);
if (maxLength != nil)
{
*maxLength = GetHandleSize(theHandle);
handleMaxLength = *maxLength;
}
else
{
handleMaxLength = GetHandleSize(theHandle);
}
if (byteCount > handleMaxLength)
{
SetErrorMessageAndLongIntAndBail("AppendCStrToHandle: Can't increase Handle allocation, MemError() = ",MemError());
}
}
BlockMove(theCString,*theHandle + handleCurrentLength,stringLength + 1);
if (currentLength != nil)
{
*currentLength += stringLength;
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr AppendCharsToHandle(const char *theChars,const int numChars,Handle theHandle,long *currentLength,long *maxLength)
{
OSErr errCode = noErr;
long handleMaxLength,handleCurrentLength,byteCount;
if (theChars == nil)
{
SetErrorMessageAndBail(("AppendCharsToHandle: Bad parameter, theChars == nil"));
}
if (theHandle == nil)
{
SetErrorMessageAndBail(("AppendCharsToHandle: Bad parameter, theHandle == nil"));
}
if (maxLength != nil)
{
handleMaxLength = *maxLength;
}
else
{
handleMaxLength = GetHandleSize(theHandle);
}
if (currentLength != nil && *currentLength >= 0)
{
handleCurrentLength = *currentLength;
}
else
{
handleCurrentLength = CStrLength(*theHandle);
}
byteCount = handleCurrentLength + numChars + 1;
if (byteCount > handleMaxLength)
{
SetHandleSize(theHandle,handleCurrentLength + numChars + 1);
if (maxLength != nil)
{
*maxLength = GetHandleSize(theHandle);
handleMaxLength = *maxLength;
}
else
{
handleMaxLength = GetHandleSize(theHandle);
}
if (byteCount > handleMaxLength)
{
SetErrorMessageAndLongIntAndBail("AppendCharsToHandle: Can't increase Handle allocation, MemError() = ",MemError());
}
}
BlockMove(theChars,*theHandle + handleCurrentLength,numChars);
(*theHandle)[handleCurrentLength + numChars] = '\0';
if (currentLength != nil)
{
*currentLength += numChars;
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr AppendLongIntToHandle(const long inTheLongInt,Handle theHandle,long *currentLength)
{
OSErr errCode = noErr;
char tempString[32];
CopyLongIntToCStr(inTheLongInt,tempString,sizeof(tempString));
errCode = AppendCStrToHandle(tempString,theHandle,currentLength);
return(errCode);
}
long CStrLength(const char *theCString)
{
long cStrLength = 0;
if (theCString != nil)
{
for (cStrLength = 0;theCString[cStrLength] != 0;cStrLength++)
{
}
}
return(cStrLength);
}
long PStrLength(const unsigned char *thePString)
{
long pStrLength = 0;
if (thePString != nil)
{
pStrLength = thePString[0];
}
return(pStrLength);
}
void ZeroMem(void *theMemPtr,const unsigned long numBytes)
{
unsigned char *theBytePtr;
unsigned long *theLongPtr;
unsigned long numSingleBytes;
unsigned long theNumBytes;
theNumBytes = numBytes;
if (theMemPtr != nil && theNumBytes > 0)
{
theBytePtr = (unsigned char *) theMemPtr;
numSingleBytes = (unsigned long) theBytePtr & 0x0003;
while (numSingleBytes > 0)
{
*theBytePtr++ = 0;
theNumBytes--;
numSingleBytes--;
}
theLongPtr = (unsigned long *) theBytePtr;
while (theNumBytes >= 4)
{
*theLongPtr++ = 0;
theNumBytes -= 4;
}
theBytePtr = (unsigned char *) theLongPtr;
while (theNumBytes > 0)
{
*theBytePtr++ = 0;
theNumBytes--;
}
}
}
char *FindCharInCStr(const char theChar,const char *theCString)
{
char *theStringSearchPtr;
theStringSearchPtr = (char *) theCString;
if (theStringSearchPtr != nil)
{
while (*theStringSearchPtr != '\0' && *theStringSearchPtr != theChar)
{
theStringSearchPtr++;
}
if (*theStringSearchPtr == '\0')
{
theStringSearchPtr = nil;
}
}
return(theStringSearchPtr);
}
long FindCharOffsetInCStr(const char theChar,const char *theCString,const Boolean inIgnoreCase)
{
long theOffset = -1;
if (theCString != nil)
{
theOffset = 0;
if (inIgnoreCase)
{
char searchChar = theChar;
if (searchChar >= 'a' && searchChar <= 'z')
{
searchChar = searchChar - 'a' + 'A';
}
while (*theCString != 0)
{
char currentChar = *theCString;
if (currentChar >= 'a' && currentChar <= 'z')
{
currentChar = currentChar - 'a' + 'A';
}
if (currentChar == searchChar)
{
break;
}
theCString++;
theOffset++;
}
}
else
{
while (*theCString != 0 && *theCString != theChar)
{
theCString++;
theOffset++;
}
}
if (*theCString == 0)
{
theOffset = -1;
}
}
return(theOffset);
}
long FindCStrOffsetInCStr(const char *theCSubstring,const char *theCString,const Boolean inIgnoreCase)
{
long theOffset = -1;
if (theCSubstring != nil && theCString != nil)
{
for (theOffset = 0;;theOffset++)
{
if (theCString[theOffset] == 0)
{
theOffset = -1;
goto EXITPOINT;
}
for (const char *tempSubstringPtr = theCSubstring,*tempCStringPtr = theCString + theOffset;;tempSubstringPtr++,tempCStringPtr++)
{
if (*tempSubstringPtr == 0)
{
goto EXITPOINT;
}
else if (*tempCStringPtr == 0)
{
break;
}
char searchChar = *tempSubstringPtr;
char currentChar = *tempCStringPtr;
if (inIgnoreCase && searchChar >= 'a' && searchChar <= 'z')
{
searchChar = searchChar - 'a' + 'A';
}
if (inIgnoreCase && currentChar >= 'a' && currentChar <= 'z')
{
currentChar = currentChar - 'a' + 'A';
}
if (currentChar != searchChar)
{
break;
}
}
}
theOffset = -1;
}
EXITPOINT:
return(theOffset);
}
void InsertCStrIntoCStr(const char *theSrcCStr,const int theInsertionOffset,char *theDstCStr,const int maxDstStrLength)
{
int currentLength;
int insertLength;
int numCharsToInsert;
int numCharsToShift;
if (theDstCStr != nil && theSrcCStr != nil && maxDstStrLength > 0 && theInsertionOffset < maxDstStrLength - 1)
{
currentLength = CStrLength(theDstCStr);
insertLength = CStrLength(theSrcCStr);
if (theInsertionOffset + insertLength < maxDstStrLength - 1)
{
numCharsToInsert = insertLength;
}
else
{
numCharsToInsert = maxDstStrLength - 1 - theInsertionOffset;
}
if (numCharsToInsert + currentLength < maxDstStrLength - 1)
{
numCharsToShift = currentLength - theInsertionOffset;
}
else
{
numCharsToShift = maxDstStrLength - 1 - theInsertionOffset - numCharsToInsert;
}
if (numCharsToShift > 0)
{
BlockMove(theDstCStr + theInsertionOffset,theDstCStr + theInsertionOffset + numCharsToInsert,numCharsToShift);
}
if (numCharsToInsert > 0)
{
BlockMove(theSrcCStr,theDstCStr + theInsertionOffset,numCharsToInsert);
}
theDstCStr[theInsertionOffset + numCharsToInsert + numCharsToShift] = 0;
}
}
void InsertPStrIntoCStr(const unsigned char *theSrcPStr,const int theInsertionOffset,char *theDstCStr,const int maxDstStrLength)
{
int currentLength;
int insertLength;
int numCharsToInsert;
int numCharsToShift;
if (theDstCStr != nil && theSrcPStr != nil && maxDstStrLength > 0 && theInsertionOffset < maxDstStrLength - 1)
{
currentLength = CStrLength(theDstCStr);
insertLength = PStrLength(theSrcPStr);
if (theInsertionOffset + insertLength < maxDstStrLength - 1)
{
numCharsToInsert = insertLength;
}
else
{
numCharsToInsert = maxDstStrLength - 1 - theInsertionOffset;
}
if (numCharsToInsert + currentLength < maxDstStrLength - 1)
{
numCharsToShift = currentLength - theInsertionOffset;
}
else
{
numCharsToShift = maxDstStrLength - 1 - theInsertionOffset - numCharsToInsert;
}
if (numCharsToShift > 0)
{
BlockMove(theDstCStr + theInsertionOffset,theDstCStr + theInsertionOffset + numCharsToInsert,numCharsToShift);
}
if (numCharsToInsert > 0)
{
BlockMove(theSrcPStr + 1,theDstCStr + theInsertionOffset,numCharsToInsert);
}
theDstCStr[theInsertionOffset + numCharsToInsert + numCharsToShift] = 0;
}
}
OSErr InsertCStrIntoHandle(const char *theCString,Handle theHandle,const long inInsertOffset)
{
OSErr errCode;
int currentLength;
int insertLength;
SetErrorMessageAndBailIfNil(theCString,"InsertCStrIntoHandle: Bad parameter, theCString == nil");
SetErrorMessageAndBailIfNil(theHandle,"InsertCStrIntoHandle: Bad parameter, theHandle == nil");
currentLength = CStrLength(*theHandle);
if (currentLength + 1 > ::GetHandleSize(theHandle))
{
SetErrorMessageAndBail("InsertCStrIntoHandle: Handle has been overflowed");
}
if (inInsertOffset > currentLength)
{
SetErrorMessageAndBail("InsertCStrIntoHandle: Insertion offset is greater than string length");
}
insertLength = CStrLength(theCString);
::SetHandleSize(theHandle,currentLength + 1 + insertLength);
if (::GetHandleSize(theHandle) < currentLength + 1 + insertLength)
{
SetErrorMessageAndLongIntAndBail("InsertCStrIntoHandle: Can't expand storage for Handle, MemError() = ",MemError());
}
::BlockMove(*theHandle + inInsertOffset,*theHandle + inInsertOffset + insertLength,currentLength - inInsertOffset + 1);
::BlockMove(theCString,*theHandle + inInsertOffset,insertLength);
errCode = noErr;
EXITPOINT:
return(errCode);
}
void CopyCStrAndInsert1LongIntIntoCStr(const char *theSrcCStr,const long theNum,char *theDstCStr,const int maxDstStrLength)
{
CopyCStrAndInsertCStrLongIntIntoCStr(theSrcCStr,nil,theNum,theDstCStr,maxDstStrLength);
}
void CopyCStrAndInsert2LongIntsIntoCStr(const char *theSrcCStr,const long long1,const long long2,char *theDstCStr,const int maxDstStrLength)
{
const long theLongInts[] = { long1,long2 };
CopyCStrAndInsertCStrsLongIntsIntoCStr(theSrcCStr,nil,theLongInts,theDstCStr,maxDstStrLength);
}
void CopyCStrAndInsert3LongIntsIntoCStr(const char *theSrcCStr,const long long1,const long long2,const long long3,char *theDstCStr,const int maxDstStrLength)
{
const long theLongInts[] = { long1,long2,long3 };
CopyCStrAndInsertCStrsLongIntsIntoCStr(theSrcCStr,nil,theLongInts,theDstCStr,maxDstStrLength);
}
void CopyCStrAndInsertCStrIntoCStr(const char *theSrcCStr,const char *theInsertCStr,char *theDstCStr,const int maxDstStrLength)
{
const char *theCStrs[2] = { theInsertCStr,nil };
CopyCStrAndInsertCStrsLongIntsIntoCStr(theSrcCStr,theCStrs,nil,theDstCStr,maxDstStrLength);
}
void CopyCStrAndInsertCStrLongIntIntoCStr(const char *theSrcCStr,const char *theInsertCStr,const long theNum,char *theDstCStr,const int maxDstStrLength)
{
const char *theCStrs[2] = { theInsertCStr,nil };
const long theLongInts[1] = { theNum };
CopyCStrAndInsertCStrsLongIntsIntoCStr(theSrcCStr,theCStrs,theLongInts,theDstCStr,maxDstStrLength);
}
void CopyCStrAndInsertCStrsLongIntsIntoCStr(const char *theSrcCStr,const char **theInsertCStrs,const long *theLongInts,char *theDstCStr,const int maxDstStrLength)
{
int dstCharIndex,srcCharIndex,theMaxDstStrLength;
int theCStrIndex = 0;
int theLongIntIndex = 0;
theMaxDstStrLength = maxDstStrLength;
if (theDstCStr != nil && theSrcCStr != nil && theMaxDstStrLength > 0)
{
dstCharIndex = 0;
srcCharIndex = 0;
// Allow room for NULL at end of string
theMaxDstStrLength--;
for (;;)
{
// Hit end of buffer?
if (dstCharIndex >= theMaxDstStrLength)
{
theDstCStr[dstCharIndex++] = 0;
goto EXITPOINT;
}
// End of source string?
else if (theSrcCStr[srcCharIndex] == 0)
{
theDstCStr[dstCharIndex++] = 0;
goto EXITPOINT;
}
// Did we find a '%s'?
else if (theInsertCStrs != nil && theInsertCStrs[theCStrIndex] != nil && theSrcCStr[srcCharIndex] == '%' && theSrcCStr[srcCharIndex + 1] == 's')
{
// Skip over the '%s'
srcCharIndex += 2;
// Terminate the dest string and then concat the string
theDstCStr[dstCharIndex] = 0;
ConcatCStrToCStr(theInsertCStrs[theCStrIndex],theDstCStr,theMaxDstStrLength);
dstCharIndex = CStrLength(theDstCStr);
theCStrIndex++;
}
// Did we find a '%ld'?
else if (theLongInts != nil && theSrcCStr[srcCharIndex] == '%' && theSrcCStr[srcCharIndex + 1] == 'l' && theSrcCStr[srcCharIndex + 2] == 'd')
{
// Skip over the '%ld'
srcCharIndex += 3;
// Terminate the dest string and then concat the number
theDstCStr[dstCharIndex] = 0;
ConcatLongIntToCStr(theLongInts[theLongIntIndex],theDstCStr,theMaxDstStrLength);
theLongIntIndex++;
dstCharIndex = CStrLength(theDstCStr);
}
else
{
theDstCStr[dstCharIndex++] = theSrcCStr[srcCharIndex++];
}
}
}
EXITPOINT:
return;
}
OSErr CopyCStrAndInsertCStrLongIntIntoHandle(const char *theSrcCStr,const char *theInsertCStr,const long theNum,Handle *theHandle)
{
OSErr errCode;
long byteCount;
if (theHandle != nil)
{
byteCount = CStrLength(theSrcCStr) + CStrLength(theInsertCStr) + 32;
*theHandle = NewHandle(byteCount);
if (*theHandle == nil)
{
SetErrorMessageAndLongIntAndBail("CopyCStrAndInsertCStrLongIntIntoHandle: Can't allocate Handle, MemError() = ",MemError());
}
HLock(*theHandle);
CopyCStrAndInsertCStrLongIntIntoCStr(theSrcCStr,theInsertCStr,theNum,**theHandle,byteCount);
HUnlock(*theHandle);
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CopyIndexedWordToCStr(char *theSrcCStr,int whichWord,char *theDstCStr,int maxDstCStrLength)
{
OSErr errCode;
char *srcCharPtr,*dstCharPtr;
int wordCount;
int byteCount;
if (theSrcCStr == nil)
{
SetErrorMessageAndBail(("CopyIndexedWordToCStr: Bad parameter, theSrcCStr == nil"));
}
if (theDstCStr == nil)
{
SetErrorMessageAndBail(("CopyIndexedWordToCStr: Bad parameter, theDstCStr == nil"));
}
if (whichWord < 0)
{
SetErrorMessageAndBail(("CopyIndexedWordToCStr: Bad parameter, whichWord < 0"));
}
if (maxDstCStrLength <= 0)
{
SetErrorMessageAndBail(("CopyIndexedWordToCStr: Bad parameter, maxDstCStrLength <= 0"));
}
*theDstCStr = '\0';
srcCharPtr = theSrcCStr;
while (*srcCharPtr == ' ' || *srcCharPtr == '\t')
{
srcCharPtr++;
}
for (wordCount = 0;wordCount < whichWord;wordCount++)
{
while (*srcCharPtr != ' ' && *srcCharPtr != '\t' && *srcCharPtr != '\r' && *srcCharPtr != '\n' && *srcCharPtr != '\0')
{
srcCharPtr++;
}
if (*srcCharPtr == '\r' || *srcCharPtr == '\n' || *srcCharPtr == '\0')
{
errCode = noErr;
goto EXITPOINT;
}
while (*srcCharPtr == ' ' || *srcCharPtr == '\t')
{
srcCharPtr++;
}
if (*srcCharPtr == '\r' || *srcCharPtr == '\n' || *srcCharPtr == '\0')
{
errCode = noErr;
goto EXITPOINT;
}
}
dstCharPtr = theDstCStr;
byteCount = 0;
for(;;)
{
if (byteCount >= maxDstCStrLength - 1 || *srcCharPtr == '\0' || *srcCharPtr == ' ' || *srcCharPtr == '\t' || *srcCharPtr == '\r' || *srcCharPtr == '\n')
{
*dstCharPtr = '\0';
break;
}
*dstCharPtr++ = *srcCharPtr++;
byteCount++;
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CopyIndexedWordToNewHandle(char *theSrcCStr,int whichWord,Handle *outTheHandle)
{
OSErr errCode;
char *srcCharPtr;
int wordCount;
int byteCount;
if (theSrcCStr == nil)
{
SetErrorMessageAndBail(("CopyIndexedWordToNewHandle: Bad parameter, theSrcCStr == nil"));
}
if (outTheHandle == nil)
{
SetErrorMessageAndBail(("CopyIndexedWordToNewHandle: Bad parameter, outTheHandle == nil"));
}
if (whichWord < 0)
{
SetErrorMessageAndBail(("CopyIndexedWordToNewHandle: Bad parameter, whichWord < 0"));
}
*outTheHandle = nil;
srcCharPtr = theSrcCStr;
while (*srcCharPtr == ' ' || *srcCharPtr == '\t')
{
srcCharPtr++;
}
for (wordCount = 0;wordCount < whichWord;wordCount++)
{
while (*srcCharPtr != ' ' && *srcCharPtr != '\t' && *srcCharPtr != '\r' && *srcCharPtr != '\n' && *srcCharPtr != '\0')
{
srcCharPtr++;
}
if (*srcCharPtr == '\r' || *srcCharPtr == '\n' || *srcCharPtr == '\0')
{
break;
}
while (*srcCharPtr == ' ' || *srcCharPtr == '\t')
{
srcCharPtr++;
}
if (*srcCharPtr == '\r' || *srcCharPtr == '\n' || *srcCharPtr == '\0')
{
break;
}
}
for (byteCount = 0;;byteCount++)
{
if (srcCharPtr[byteCount] == ' ' || srcCharPtr[byteCount] == '\t' || srcCharPtr[byteCount] == '\r' || srcCharPtr[byteCount] == '\n' || srcCharPtr[byteCount] == '\0')
{
break;
}
}
*outTheHandle = NewHandle(byteCount + 1);
if (*outTheHandle == nil)
{
SetErrorMessageAndLongIntAndBail("CopyIndexedWordToNewHandle: Can't allocate Handle, MemError() = ",MemError());
}
::BlockMove(srcCharPtr,**outTheHandle,byteCount);
(**outTheHandle)[byteCount] = '\0';
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CopyIndexedLineToCStr(const char *theSrcCStr,int inWhichLine,int *lineEndIndex,Boolean *gotLastLine,char *theDstCStr,const int maxDstCStrLength)
{
OSErr errCode;
int theCurrentLine;
int theCurrentLineOffset;
int theEOSOffset;
if (theSrcCStr == nil)
{
SetErrorMessageAndBail(("CopyIndexedLineToCStr: Bad parameter, theSrcCStr == nil"));
}
if (theDstCStr == nil)
{
SetErrorMessageAndBail(("CopyIndexedLineToCStr: Bad parameter, theDstCStr == nil"));
}
if (inWhichLine < 0)
{
SetErrorMessageAndBail(("CopyIndexedLineToCStr: Bad parameter, inWhichLine < 0"));
}
if (maxDstCStrLength <= 0)
{
SetErrorMessageAndBail(("CopyIndexedLineToCStr: Bad parameter, maxDstCStrLength <= 0"));
}
if (gotLastLine != nil)
{
*gotLastLine = false;
}
*theDstCStr = 0;
theCurrentLineOffset = 0;
theCurrentLine = 0;
while (theCurrentLine < inWhichLine)
{
while (theSrcCStr[theCurrentLineOffset] != '\r' && theSrcCStr[theCurrentLineOffset] != 0)
{
theCurrentLineOffset++;
}
if (theSrcCStr[theCurrentLineOffset] == 0)
{
break;
}
theCurrentLineOffset++;
theCurrentLine++;
}
if (theSrcCStr[theCurrentLineOffset] == 0)
{
SetErrorMessageAndLongIntAndBail("CopyIndexedLineToCStr: Too few lines in source text, can't get line ",inWhichLine);
}
theEOSOffset = FindCharOffsetInCStr('\r',theSrcCStr + theCurrentLineOffset);
if (theEOSOffset >= 0)
{
CopyCSubstrToCStr(theSrcCStr + theCurrentLineOffset,theEOSOffset,theDstCStr,maxDstCStrLength);
if (gotLastLine != nil)
{
*gotLastLine = false;
}
if (lineEndIndex != nil)
{
*lineEndIndex = theEOSOffset;
}
}
else
{
theEOSOffset = CStrLength(theSrcCStr + theCurrentLineOffset);
CopyCSubstrToCStr(theSrcCStr + theCurrentLineOffset,theEOSOffset,theDstCStr,maxDstCStrLength);
if (gotLastLine != nil)
{
*gotLastLine = true;
}
if (lineEndIndex != nil)
{
*lineEndIndex = theEOSOffset;
}
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CopyIndexedLineToNewHandle(const char *theSrcCStr,int inWhichLine,Handle *outNewHandle)
{
OSErr errCode;
int theCurrentLine;
int theCurrentLineOffset;
int byteCount;
SetErrorMessageAndBailIfNil(theSrcCStr,"CopyIndexedLineToNewHandle: Bad parameter, theSrcCStr == nil");
SetErrorMessageAndBailIfNil(outNewHandle,"CopyIndexedLineToNewHandle: Bad parameter, outNewHandle == nil");
if (inWhichLine < 0)
{
SetErrorMessageAndBail(("CopyIndexedLineToNewHandle: Bad parameter, inWhichLine < 0"));
}
theCurrentLineOffset = 0;
theCurrentLine = 0;
while (theCurrentLine < inWhichLine)
{
while (theSrcCStr[theCurrentLineOffset] != '\r' && theSrcCStr[theCurrentLineOffset] != '\0')
{
theCurrentLineOffset++;
}
if (theSrcCStr[theCurrentLineOffset] == '\0')
{
break;
}
theCurrentLineOffset++;
theCurrentLine++;
}
if (theSrcCStr[theCurrentLineOffset] == '\0')
{
SetErrorMessageAndLongIntAndBail("CopyIndexedLineToNewHandle: Too few lines in source text, can't get line #",inWhichLine);
}
byteCount = 0;
while (theSrcCStr[theCurrentLineOffset + byteCount] != '\r' && theSrcCStr[theCurrentLineOffset + byteCount] != '\0')
{
byteCount++;
}
*outNewHandle = NewHandle(byteCount + 1);
if (*outNewHandle == nil)
{
SetErrorMessageAndLongIntAndBail("CopyIndexedLineToNewHandle: Can't allocate Handle, MemError() = ",MemError());
}
::BlockMove(theSrcCStr + theCurrentLineOffset,**outNewHandle,byteCount);
(**outNewHandle)[byteCount] = '\0';
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CountDigits(const char *inCStr,int *outNumIntegerDigits,int *outNumFractDigits)
{
OSErr errCode = noErr;
int numIntDigits = 0;
int numFractDigits = 0;
int digitIndex = 0;
SetErrorMessageAndBailIfNil(inCStr,"CountDigits: Bad parameter, theSrcCStr == nil");
SetErrorMessageAndBailIfNil(outNumIntegerDigits,"CountDigits: Bad parameter, outNumIntegerDigits == nil");
SetErrorMessageAndBailIfNil(outNumFractDigits,"CountDigits: Bad parameter, outNumFractDigits == nil");
digitIndex = 0;
while (inCStr[digitIndex] >= '0' && inCStr[digitIndex] <= '9')
{
digitIndex++;
numIntDigits++;
}
if (inCStr[digitIndex] == '.')
{
digitIndex++;
while (inCStr[digitIndex] >= '0' && inCStr[digitIndex] <= '9')
{
digitIndex++;
numFractDigits++;
}
}
*outNumIntegerDigits = numIntDigits;
*outNumFractDigits = numFractDigits;
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr ExtractIntFromCStr(const char *theSrcCStr,int *outInt,Boolean skipLeadingSpaces)
{
OSErr errCode;
int theCharIndex;
if (theSrcCStr == nil)
{
SetErrorMessageAndBail(("ExtractIntFromCStr: Bad parameter, theSrcCStr == nil"));
}
if (outInt == nil)
{
SetErrorMessageAndBail(("ExtractIntFromCStr: Bad parameter, outInt == nil"));
}
*outInt = 0;
theCharIndex = 0;
if (skipLeadingSpaces == true)
{
while (theSrcCStr[theCharIndex] == ' ')
{
theCharIndex++;
}
}
if (theSrcCStr[theCharIndex] < '0' || theSrcCStr[theCharIndex] > '9')
{
SetErrorMessageAndBail(("ExtractIntFromCStr: Bad parameter, theSrcCStr contains a bogus numeric representation"));
}
while (theSrcCStr[theCharIndex] >= '0' && theSrcCStr[theCharIndex] <= '9')
{
*outInt = (*outInt * 10) + (theSrcCStr[theCharIndex] - '0');
theCharIndex++;
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr ExtractIntFromPStr(const unsigned char *theSrcPStr,int *outInt,Boolean skipLeadingSpaces)
{
OSErr errCode;
char theCStr[256];
if (theSrcPStr == nil)
{
SetErrorMessageAndBail(("ExtractIntFromPStr: Bad parameter, theSrcPStr == nil"));
}
if (outInt == nil)
{
SetErrorMessageAndBail(("ExtractIntFromPStr: Bad parameter, outInt == nil"));
}
CopyPStrToCStr(theSrcPStr,theCStr,sizeof(theCStr));
errCode = ExtractIntFromCStr(theCStr,outInt,skipLeadingSpaces);
EXITPOINT:
return(errCode);
}
int CountOccurencesOfCharInCStr(const char inChar,const char *inSrcCStr)
{
int theSrcCharIndex;
int numOccurrences = -1;
if (inSrcCStr != nil && inChar != '\0')
{
numOccurrences = 0;
for (theSrcCharIndex = 0;inSrcCStr[theSrcCharIndex] != '\0';theSrcCharIndex++)
{
if (inSrcCStr[theSrcCharIndex] == inChar)
{
numOccurrences++;
}
}
}
return(numOccurrences);
}
int CountWordsInCStr(const char *inSrcCStr)
{
int numWords = -1;
if (inSrcCStr != nil)
{
numWords = 0;
// Skip lead spaces
while (*inSrcCStr == ' ')
{
inSrcCStr++;
}
while (*inSrcCStr != '\0')
{
numWords++;
while (*inSrcCStr != ' ' && *inSrcCStr != '\0')
{
inSrcCStr++;
}
while (*inSrcCStr == ' ')
{
inSrcCStr++;
}
}
}
return(numWords);
}
void ConvertCStrToUpperCase(char *theSrcCStr)
{
char *theCharPtr;
if (theSrcCStr != nil)
{
theCharPtr = theSrcCStr;
while (*theCharPtr != 0)
{
if (*theCharPtr >= 'a' && *theCharPtr <= 'z')
{
*theCharPtr = *theCharPtr - 'a' + 'A';
}
theCharPtr++;
}
}
}
void ExtractCStrItemFromCStr(const char *inSrcCStr,const char inItemDelimiter,const int inItemNumber,Boolean *foundItem,char *outDstCharPtr,const int inDstCharPtrMaxLength,const Boolean inTreatMultipleDelimsAsSingleDelim)
{
int theItem;
int theSrcCharIndex;
int theDstCharIndex;
if (foundItem != nil)
{
*foundItem = false;
}
if (outDstCharPtr != nil && inDstCharPtrMaxLength > 0 && inItemNumber >= 0 && inItemDelimiter != 0)
{
*outDstCharPtr = 0;
theSrcCharIndex = 0;
for (theItem = 0;theItem < inItemNumber;theItem++)
{
while (inSrcCStr[theSrcCharIndex] != inItemDelimiter && inSrcCStr[theSrcCharIndex] != '\0')
{
theSrcCharIndex++;
}
if (inSrcCStr[theSrcCharIndex] == inItemDelimiter)
{
theSrcCharIndex++;
if (inTreatMultipleDelimsAsSingleDelim)
{
while (inSrcCStr[theSrcCharIndex] == inItemDelimiter)
{
theSrcCharIndex++;
}
}
}
if (inSrcCStr[theSrcCharIndex] == '\0')
{
goto EXITPOINT;
}
}
if (foundItem != nil)
{
*foundItem = true;
}
theDstCharIndex = 0;
for (;;)
{
if (inSrcCStr[theSrcCharIndex] == 0 || inSrcCStr[theSrcCharIndex] == inItemDelimiter || theDstCharIndex >= inDstCharPtrMaxLength - 1)
{
outDstCharPtr[theDstCharIndex] = 0;
break;
}
outDstCharPtr[theDstCharIndex++] = inSrcCStr[theSrcCharIndex++];
}
}
EXITPOINT:
return;
}
OSErr ExtractCStrItemFromCStrIntoNewHandle(const char *inSrcCStr,const char inItemDelimiter,const int inItemNumber,Boolean *foundItem,Handle *outNewHandle,const Boolean inTreatMultipleDelimsAsSingleDelim)
{
OSErr errCode;
int theItem;
int theSrcCharIndex;
int theItemLength;
if (inSrcCStr == nil)
{
SetErrorMessage("ExtractCStrItemFromCStrIntoNewHandle: Bad parameter, inSrcCStr == nil");
errCode = kGenericError;
goto EXITPOINT;
}
if (outNewHandle == nil)
{
SetErrorMessage("ExtractCStrItemFromCStrIntoNewHandle: Bad parameter, outNewHandle == nil");
errCode = kGenericError;
goto EXITPOINT;
}
if (foundItem == nil)
{
SetErrorMessage("ExtractCStrItemFromCStrIntoNewHandle: Bad parameter, foundItem == nil");
errCode = kGenericError;
goto EXITPOINT;
}
if (inItemNumber < 0)
{
SetErrorMessage("ExtractCStrItemFromCStrIntoNewHandle: Bad parameter, inItemNumber < 0");
errCode = kGenericError;
goto EXITPOINT;
}
if (inItemDelimiter == 0)
{
SetErrorMessage("ExtractCStrItemFromCStrIntoNewHandle: Bad parameter, inItemDelimiter == 0");
errCode = kGenericError;
goto EXITPOINT;
}
*foundItem = false;
theSrcCharIndex = 0;
for (theItem = 0;theItem < inItemNumber;theItem++)
{
while (inSrcCStr[theSrcCharIndex] != inItemDelimiter && inSrcCStr[theSrcCharIndex] != '\0')
{
theSrcCharIndex++;
}
if (inSrcCStr[theSrcCharIndex] == inItemDelimiter)
{
theSrcCharIndex++;
if (inTreatMultipleDelimsAsSingleDelim)
{
while (inSrcCStr[theSrcCharIndex] == inItemDelimiter)
{
theSrcCharIndex++;
}
}
}
if (inSrcCStr[theSrcCharIndex] == '\0')
{
errCode = noErr;
goto EXITPOINT;
}
}
*foundItem = true;
for (theItemLength = 0;;theItemLength++)
{
if (inSrcCStr[theSrcCharIndex + theItemLength] == 0 || inSrcCStr[theSrcCharIndex + theItemLength] == inItemDelimiter)
{
break;
}
}
*outNewHandle = NewHandle(theItemLength + 1);
if (*outNewHandle == nil)
{
SetErrorMessageAndLongIntAndBail("ExtractCStrItemFromCStrIntoNewHandle: Can't allocate Handle, MemError() = ",MemError());
}
BlockMove(inSrcCStr + theSrcCharIndex,**outNewHandle,theItemLength);
(**outNewHandle)[theItemLength] = 0;
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr ExtractFloatFromCStr(const char *inCString,extended80 *outFloat)
{
OSErr errCode;
Str255 theStr255;
Handle theNumberPartsTableHandle = nil;
long theNumberPartsOffset,theNumberPartsLength;
FormatResultType theFormatResultType;
NumberParts theNumberPartsTable;
NumFormatStringRec theNumFormatStringRec;
if (inCString == nil)
{
SetErrorMessage("ExtractFloatFromCStr: Bad parameter, inCString == nil");
errCode = kGenericError;
goto EXITPOINT;
}
if (outFloat == nil)
{
SetErrorMessage("ExtractFloatFromCStr: Bad parameter, outFloat == nil");
errCode = kGenericError;
goto EXITPOINT;
}
// GetIntlResourceTable(smRoman,smNumberPartsTable,&theNumberPartsTableHandle,&theNumberPartsOffset,&theNumberPartsLength);
GetIntlResourceTable(GetScriptManagerVariable(smSysScript),smNumberPartsTable,&theNumberPartsTableHandle,&theNumberPartsOffset,&theNumberPartsLength);
if (theNumberPartsTableHandle == nil)
{
SetErrorMessage("ExtractFloatFromCStr: Can't get number parts table for converting string representations to/from numeric representations");
errCode = kGenericError;
goto EXITPOINT;
}
if (theNumberPartsLength > sizeof(theNumberPartsTable))
{
SetErrorMessage("ExtractFloatFromCStr: Number parts table has bad length");
errCode = kGenericError;
goto EXITPOINT;
}
BlockMove(*theNumberPartsTableHandle + theNumberPartsOffset,&theNumberPartsTable,theNumberPartsLength);
theFormatResultType = (FormatResultType) StringToFormatRec(kNumberFormatString,&theNumberPartsTable,&theNumFormatStringRec);
if (theFormatResultType != fFormatOK)
{
SetErrorMessage("ExtractFloatFromCStr: StringToFormatRec() != fFormatOK");
errCode = kGenericError;
goto EXITPOINT;
}
CopyCStrToPStr(inCString,theStr255,sizeof(theStr255));
theFormatResultType = (FormatResultType) StringToExtended(theStr255,&theNumFormatStringRec,&theNumberPartsTable,outFloat);
if (theFormatResultType != fFormatOK && theFormatResultType != fBestGuess)
{
SetErrorMessageAndLongIntAndBail("ExtractFloatFromCStr: StringToExtended() = ",theFormatResultType);
}
errCode = noErr;
EXITPOINT:
return(errCode);
}
OSErr CopyFloatToCStr(const extended80 *theFloat,char *theCStr,const int maxCStrLength,const int inMaxNumIntDigits,const int inMaxNumFractDigits)
{
OSErr errCode;
Str255 theStr255;
Handle theNumberPartsTableHandle = nil;
long theNumberPartsOffset,theNumberPartsLength;
FormatResultType theFormatResultType;
NumberParts theNumberPartsTable;
NumFormatStringRec theNumFormatStringRec;
if (theCStr == nil)
{
SetErrorMessage("CopyFloatToCStr: Bad parameter, theCStr == nil");
errCode = kGenericError;
goto EXITPOINT;
}
if (theFloat == nil)
{
SetErrorMessage("CopyFloatToCStr: Bad parameter, theFloat == nil");
errCode = kGenericError;
goto EXITPOINT;
}
// GetIntlResourceTable(smRoman,smNumberPartsTable,&theNumberPartsTableHandle,&theNumberPartsOffset,&theNumberPartsLength);
GetIntlResourceTable(GetScriptManagerVariable(smSysScript),smNumberPartsTable,&theNumberPartsTableHandle,&theNumberPartsOffset,&theNumberPartsLength);
if (theNumberPartsTableHandle == nil)
{
SetErrorMessage("CopyFloatToCStr: Can't get number parts table for converting string representations to/from numeric representations");
errCode = kGenericError;
goto EXITPOINT;
}
if (theNumberPartsLength > sizeof(theNumberPartsTable))
{
SetErrorMessage("CopyFloatToCStr: Number parts table has bad length");
errCode = kGenericError;
goto EXITPOINT;
}
BlockMove(*theNumberPartsTableHandle + theNumberPartsOffset,&theNumberPartsTable,theNumberPartsLength);
if (inMaxNumIntDigits >= 0 || inMaxNumFractDigits >= 0)
{
char numberFormat[64];
int numberFormatLength = 0;
for (int i = 0;i < inMaxNumIntDigits && numberFormatLength < sizeof(numberFormat) - 1;i++)
{
numberFormat[numberFormatLength++] = '0';
}
if (inMaxNumFractDigits > 0 && numberFormatLength < sizeof(numberFormat) - 1)
{
numberFormat[numberFormatLength++] = '.';
for (int i = 0;i < inMaxNumFractDigits && numberFormatLength < sizeof(numberFormat) - 1;i++)
{
numberFormat[numberFormatLength++] = '0';
}
}
if (numberFormatLength < sizeof(numberFormat) - 1)
{
numberFormat[numberFormatLength++] = ';';
}
if (numberFormatLength < sizeof(numberFormat) - 1)
{
numberFormat[numberFormatLength++] = '-';
}
for (int i = 0;i < inMaxNumIntDigits && numberFormatLength < sizeof(numberFormat) - 1;i++)
{
numberFormat[numberFormatLength++] = '0';
}
if (inMaxNumFractDigits > 0 && numberFormatLength < sizeof(numberFormat) - 1)
{
numberFormat[numberFormatLength++] = '.';
for (int i = 0;i < inMaxNumFractDigits && numberFormatLength < sizeof(numberFormat) - 1;i++)
{
numberFormat[numberFormatLength++] = '0';
}
}
numberFormat[numberFormatLength] = '\0';
Str255 tempStr255;
CopyCStrToPStr(numberFormat,tempStr255,sizeof(tempStr255));
theFormatResultType = (FormatResultType) StringToFormatRec(tempStr255,&theNumberPartsTable,&theNumFormatStringRec);
}
else
{
theFormatResultType = (FormatResultType) StringToFormatRec(kNumberFormatString,&theNumberPartsTable,&theNumFormatStringRec);
}
if (theFormatResultType != fFormatOK)
{
SetErrorMessage("CopyFloatToCStr: StringToFormatRec() != fFormatOK");
errCode = kGenericError;
goto EXITPOINT;
}
theFormatResultType = (FormatResultType) ExtendedToString(theFloat,&theNumFormatStringRec,&theNumberPartsTable,theStr255);
if (theFormatResultType != fFormatOK)
{
SetErrorMessage("CopyFloatToCStr: ExtendedToString() != fFormatOK");
errCode = kGenericError;
goto EXITPOINT;
}
CopyPStrToCStr(theStr255,theCStr,maxCStrLength);
errCode = noErr;
EXITPOINT:
return(errCode);
}
void SkipWhiteSpace(char **ioSrcCharPtr,const Boolean inStopAtEOL)
{
if (ioSrcCharPtr != nil && *ioSrcCharPtr != nil)
{
if (inStopAtEOL)
{
while ((**ioSrcCharPtr == ' ' || **ioSrcCharPtr == '\t') && **ioSrcCharPtr != '\r' && **ioSrcCharPtr != '\n')
{
*ioSrcCharPtr++;
}
}
else
{
while (**ioSrcCharPtr == ' ' || **ioSrcCharPtr == '\t')
{
*ioSrcCharPtr++;
}
}
}
}