libvideoeditor/osal/src/M4OSA_CharStar.c - platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2011 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 /**
  ************************************************************************
  * @file         M4DPAK_CharStar.c
  * @ingroup
   * @brief        definition of the Char Star set of functions.
  * @note         This file defines the Char Star set of functions.
  *
  ************************************************************************
 */


 #include "M4OSA_CharStar.h"
 #include "M4OSA_Memory.h"
 #include "M4OSA_Debug.h"

 /* WARNING: Specific Android */
 #include <stdio.h>
 #include <stdlib.h>
 #include <stdarg.h>
 #include <string.h>
 #include <errno.h>


 /**
  ************************************************************************
  * @brief      This function mimics the functionality of the libc's strncpy().
  * @note       It copies exactly len2Copy characters from pStrIn to pStrOut,
  *             truncating  pStrIn or adding null characters to pStrOut if
  *             necessary.
  *             - If len2Copy is less than or equal to the length of pStrIn,
  *               a null character is appended automatically to the copied
  *               string.
  *             - If len2Copy is greater than the length of pStrIn, pStrOut is
  *               padded with null characters up to length len2Copy.
  *             - pStrOut and pStrIn MUST NOT OVERLAP (this is NOT CHECKED).
  * @param      pStrOut: (OUT) Destination character string.
  * @param      pStrIn: (IN) Source character string.
  * @param      len2Copy: (IN) Maximum number of characters from pStrIn to copy.
  * @return     M4NO_ERROR: there is no error.
  * @return     M4ERR_PARAMETER: pStrIn or pStrOut is M4OSA_NULL.
   ************************************************************************
 */
 M4OSA_ERR M4OSA_chrNCopy(M4OSA_Char* pStrOut, M4OSA_Char   *pStrIn, M4OSA_UInt32 len2Copy)
 {
     M4OSA_TRACE1_3("M4OSA_chrNCopy\t(M4OSA_Char* %x,M4OSA_Char* %x,M4OSA_UInt32 %ld)",
         pStrOut,pStrIn,len2Copy);
     M4OSA_DEBUG_IF2((M4OSA_NULL == pStrOut),M4ERR_PARAMETER,
                             "M4OSA_chrNCopy:\tpStrOut is M4OSA_NULL");
     M4OSA_DEBUG_IF2((M4OSA_NULL == pStrIn),M4ERR_PARAMETER,
                             "M4OSA_chrNCopy:\tpStrIn is M4OSA_NULL");

     strncpy((char *)pStrOut, (const char *)pStrIn, (size_t)len2Copy);
     if(len2Copy <= (M4OSA_UInt32)strlen((const char *)pStrIn))
     {
         pStrOut[len2Copy] = '\0';
     }

     return M4NO_ERROR;
 }

 /**
  ************************************************************************
   * @brief      This function returns the boolean comparison of pStrIn1 and pStrIn2.
  * @note       The value returned in result is M4OSA_TRUE if the string
  *             pointed to by pStrIn1 is strictly identical to the string pointed
  *             to by pStrIn2, and M4OSA_FALSE otherwise.
  * @param      pStrIn1: (IN) First character string.
  * @param      pStrIn2: (IN) Second character string.
  * @param      cmpResult: (OUT) Comparison result.
  * @return     M4NO_ERROR: there is no error.
  * @return     M4ERR_PARAMETER: pStrIn1 pStrIn2 or cmpResult is M4OSA_NULL.
   ************************************************************************
 */
 M4OSA_ERR M4OSA_chrAreIdentical(M4OSA_Char* pStrIn1, M4OSA_Char* pStrIn2,
                                                             M4OSA_Bool* pResult)
 {
     M4OSA_UInt32 i32,len32;
     M4OSA_TRACE1_3("M4OSA_chrAreIdentical\t(M4OSA_Char* %x,M4OSA_Char* %x,"
         "M4OSA_Int32* %x)",pStrIn1,pStrIn2,pResult);
     M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn1, M4ERR_PARAMETER,
                                "M4OSA_chrAreIdentical:\tpStrIn1 is M4OSA_NULL");
     M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn2, M4ERR_PARAMETER,
                                "M4OSA_chrAreIdentical:\tpStrIn2 is M4OSA_NULL");
     M4OSA_DEBUG_IF2(M4OSA_NULL == pResult, M4ERR_PARAMETER,
                                "M4OSA_chrAreIdentical:\tpResult is M4OSA_NULL");

     len32 = (M4OSA_UInt32)strlen((const char *)pStrIn1);
     if(len32 != (M4OSA_UInt32)strlen((const char *)pStrIn2))
     {
         *pResult = M4OSA_FALSE;
         return M4NO_ERROR;
     }

     for(i32=0;i32<len32;i32++)
     {
         if(pStrIn1[i32] != pStrIn2[i32])
         {
             *pResult = M4OSA_FALSE;
             return M4NO_ERROR;
         }
     }

     *pResult = M4OSA_TRUE;

     return M4NO_ERROR;
 }


 /**
  ************************************************************************
  * @brief      This function gets a M4OSA_UInt32 from string.
  * @note       This function converts the first set of non-whitespace
  *             characters of pStrIn to a M4OSA_UInt32 value pVal, assuming a
  *             representation in base provided by the parameter base. pStrOut is
  *             set to the first character of the string following the last
  *             character of the number that has been converted.
  *             - in case of a failure during the conversion, pStrOut is not
  *               updated, and pVal is set to null.
  *             - in case of negative number, pStrOut is not updated, and pVal is
  *               set to null.
  *             - in case of numerical overflow, pVal is set to M4OSA_UINT32_MAX.
  *             - if pStrOut is not to be used, it can be set to M4OSA_NULL.
  * @param      pStrIn: (IN) Character string.
  * @param      pVal: (OUT) read value.
  * @param      pStrOut: (OUT) Output character string.
  * @param      base: (IN) Base of the character string representation.
  * @return     M4NO_ERROR: there is no error.
  * @return     M4ERR_PARAMETER: pStrIn or pVal is M4OSA_NULL.
  * @return     M4ERR_CHR_CONV_FAILED: conversion failure.
  * @return     M4WAR_CHR_NUM_RANGE: the character string represents a number
  *             greater than M4OSA_UINT32_MAX.
  * @return     M4WAR_CHR_NEGATIVE: the character string represents a negative
  *             number.
  ************************************************************************
 */
 M4OSA_ERR M4OSA_chrGetUInt32(M4OSA_Char*    pStrIn,
                              M4OSA_UInt32*    pVal,
                              M4OSA_Char**    pStrOut,
                              M4OSA_chrNumBase base)
 {
     M4OSA_UInt32 ul;
     char*        pTemp;

     M4OSA_TRACE1_4("M4OSA_chrGetUInt32\t(M4OSA_Char* %x, M4OSA_UInt32* %x"
         "M4OSA_Char** %x,M4OSA_chrNumBase %d)",pStrIn,pVal,pStrOut,base);
     M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn, M4ERR_PARAMETER,
                                    "M4OSA_chrGetUInt32:\tpStrIn is M4OSA_NULL");
     M4OSA_DEBUG_IF2(M4OSA_NULL == pVal, M4ERR_PARAMETER,
                                      "M4OSA_chrGetUInt32:\tpVal is M4OSA_NULL");

     errno = 0;
     switch(base)
     {
     case M4OSA_kchrDec:
         ul = strtoul((const char *)pStrIn, &pTemp, 10);
         break;
     case M4OSA_kchrHexa:
         ul = strtoul((const char *)pStrIn, &pTemp,16);
         break;
     case M4OSA_kchrOct:
         ul = strtoul((const char *)pStrIn, &pTemp,8);
         break;
     default:
         return M4ERR_PARAMETER;
     }

     /* has conversion failed ? */
     if((M4OSA_Char*)pTemp == pStrIn)
     {
         *pVal = 0;
         return M4ERR_CHR_CONV_FAILED;
     }

     /* was the number negative ? */
     if(*(pStrIn+strspn((const char *)pStrIn," \t")) == '-')
     {
         *pVal = 0;
         return M4WAR_CHR_NEGATIVE;
     }

     /* has an overflow occured ? */
     if(errno == ERANGE)
     {
         *pVal = M4OSA_UINT32_MAX;
         if(M4OSA_NULL != pStrOut)
         {
             *pStrOut = (M4OSA_Char*)pTemp;
         }
         return M4WAR_CHR_NUM_RANGE;
     }

     /* nominal case */
     *pVal = (M4OSA_UInt32)ul;
     if(M4OSA_NULL != pStrOut)
     {
         *pStrOut = (M4OSA_Char*)pTemp;
     }

     return M4NO_ERROR;
 }

 /**
  ************************************************************************
  * @brief      This function gets a M4OSA_UInt16 from string.
  * @note       This function converts the first set of non-whitespace
  *             characters of pStrIn to a M4OSA_UInt16 value pVal, assuming a
  *             representation in base provided by the parameter base. pStrOut is
  *             set to the first character of the string following the last
  *             character of the number that has been converted.
  *             - in case of a failure during the conversion, pStrOut is not
  *               updated, and pVal is set to null.
  *             - in case of negative number, pStrOut is not updated, and pVal is
  *               set to null.
  *             - in case of numerical overflow, pVal is set to M4OSA_UINT16_MAX.
  *             - if pStrOut is not to be used, it can be set to M4OSA_NULL.
  * @param      pStrIn: (IN) Character string.
  * @param      pVal: (OUT) read value.
  * @param      pStrOut: (OUT) Output character string.
  * @param      base: (IN) Base of the character string representation.
  * @return     M4NO_ERROR: there is no error.
  * @return     M4ERR_PARAMETER: pStrIn or pVal is M4OSA_NULL.
  * @return     M4ERR_CHR_CONV_FAILED: conversion failure.
  * @return     M4WAR_CHR_NUM_RANGE: the character string represents a number
  *             greater than M4OSA_UINT16_MAX.
  * @return     M4WAR_CHR_NEGATIVE: the character string represents a negative
  *             number.
  ************************************************************************
 */
 M4OSA_ERR M4OSA_chrGetUInt16 (M4OSA_Char* pStrIn, M4OSA_UInt16 *pVal,
                               M4OSA_Char** pStrOut, M4OSA_chrNumBase base)
 {
     M4OSA_UInt32 ul;
     char*        pTemp;

     M4OSA_TRACE1_4("M4OSA_chrGetUInt16\t(M4OSA_Char* %x, M4OSA_UInt16* %x"
         "M4OSA_Char** %x,M4OSA_chrNumBase %d)",pStrIn,pVal,pStrOut,base);
     M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn,M4ERR_PARAMETER,
                                    "M4OSA_chrGetUInt16:\tpStrIn is M4OSA_NULL");
     M4OSA_DEBUG_IF2(M4OSA_NULL == pVal, M4ERR_PARAMETER,
                                      "M4OSA_chrGetUInt16:\tpVal is M4OSA_NULL");

     switch(base)
     {
     case M4OSA_kchrDec:
         ul = strtoul((const char *)pStrIn, &pTemp,10);
         break;
     case M4OSA_kchrHexa:
         ul = strtoul((const char *)pStrIn, &pTemp,16);
         break;
     case M4OSA_kchrOct:
         ul = strtoul((const char *)pStrIn, &pTemp,8);
         break;
     default:
         return M4ERR_PARAMETER;
     }

     /* has conversion failed ? */
     if((M4OSA_Char*)pTemp == pStrIn)
     {
         *pVal = 0;
         return M4ERR_CHR_CONV_FAILED;
     }

     /* was the number negative ? */
     if(*(pStrIn+strspn((const char *)pStrIn," \t")) == '-')
     {
         *pVal = 0;
         return M4WAR_CHR_NEGATIVE;
     }

     /* has an overflow occured ? */
     if(ul>M4OSA_UINT16_MAX)
     {
         *pVal = M4OSA_UINT16_MAX;
         if(M4OSA_NULL != pStrOut)
         {
             *pStrOut = (M4OSA_Char*)pTemp;
         }
         return M4WAR_CHR_NUM_RANGE;
     }

     /* nominal case */
     *pVal = (M4OSA_UInt16)ul;
     if(M4OSA_NULL != pStrOut)
     {
         *pStrOut = (M4OSA_Char*)pTemp;
     }
     return M4NO_ERROR;
 }

 M4OSA_ERR M4OSA_chrSPrintf(M4OSA_Char  *pStrOut, M4OSA_UInt32 strOutMaxLen,
                            M4OSA_Char   *format, ...)
 {
     va_list       marker;
     M4OSA_Char   *pTemp;
     M4OSA_Char   *percentPointer;
     M4OSA_Char   *newFormat;
     M4OSA_Int32  newFormatLength=0;
     M4OSA_UInt32  count_ll = 0;
     M4OSA_UInt32  count_tm = 0;
     M4OSA_UInt32  count_aa = 0;
     M4OSA_UInt32  count;
     M4OSA_UInt32  nbChar;
     M4OSA_Int32     err;
     M4OSA_Char flagChar[]             = "'-+ #0";
     M4OSA_Char widthOrPrecisionChar[] = "*0123456789";
     M4OSA_Char otherPrefixChar[]      = "hlL";
     M4OSA_Char conversionChar[]       = "diouxXnfeEgGcCsSp%";

     M4OSA_TRACE1_3("M4OSA_chrSPrintf\t(M4OSA_Char* %x, M4OSA_UInt32 %ld"
         "M4OSA_Char* %x)",pStrOut,strOutMaxLen,format);
     M4OSA_DEBUG_IF2(M4OSA_NULL == pStrOut, M4ERR_PARAMETER,
                                     "M4OSA_chrSPrintf:\tpStrOut is M4OSA_NULL");
     M4OSA_DEBUG_IF2(M4OSA_NULL == format, M4ERR_PARAMETER,
                                      "M4OSA_chrSPrintf:\tformat is M4OSA_NULL");

     va_start(marker,format);

     /* count the number of %[flags][width][.precision]ll[conversion] */
     pTemp = format;
     while(*pTemp)
     {
         percentPointer = (M4OSA_Char *)strchr((const char *)pTemp,'%'); /* get the next percent character */
         if(!percentPointer)
             break;                            /* "This is the End", (c) J. Morrisson */
         pTemp = percentPointer+1;           /* span it */
         if(!*pTemp)
             break;                            /* "This is the End", (c) J. Morrisson */
         pTemp += strspn((const char *)pTemp,(const char *)flagChar);    /* span the optional flags */
         if(!*pTemp)
             break;                            /* "This is the End", (c) J. Morrisson */
         pTemp += strspn((const char *)pTemp,(const char *)widthOrPrecisionChar); /* span the optional width */
         if(!*pTemp)
             break;                            /* "This is the End", (c) J. Morrisson */
         if(*pTemp=='.')
         {
             pTemp++;
             pTemp += strspn((const char *)pTemp, (const char *)widthOrPrecisionChar); /* span the optional precision */
         }
         if(!*pTemp)
             break;                            /* "This is the End", (c) J. Morrisson */
         if(strlen((const char *)pTemp)>=2)
         {
             if(!strncmp((const char *)pTemp,"ll",2))
             {
                 count_ll++;                 /* I got ONE */
                 pTemp +=2;                  /* span the "ll" prefix */
             }
             else if(!strncmp((const char *)pTemp,"tm",2))
             {
                 count_tm++;
                 pTemp +=2;
             }
             else if(!strncmp((const char *)pTemp,"aa",2))
             {
                 count_aa++;
                 pTemp +=2;
             }
         }
         pTemp += strspn((const char *)pTemp, (const char *)otherPrefixChar); /* span the other optional prefix */
         if(!*pTemp)
             break;                        /* "This is the End", (c) J. Morrisson */
         pTemp += strspn((const char *)pTemp, (const char *)conversionChar);
         if(!*pTemp)
             break;                        /* "This is the End", (c) J. Morrisson */
     }

     count = count_ll + count_tm + count_aa;

     if(!count)
     {
         err= vsnprintf((char *)pStrOut, (size_t)strOutMaxLen + 1, (const char *)format, marker);
         va_end(marker);
         if ((err<0) || ((M4OSA_UInt32)err>strOutMaxLen))
         {
             pStrOut[strOutMaxLen] = '\0';
             return M4ERR_CHR_STR_OVERFLOW;
         }
         else
         {
             return M4NO_ERROR;
         }
     }


     newFormatLength = strlen((const char *)format) + 1;

     newFormatLength -= (count_ll+count_tm+count_aa);

     newFormat =(M4OSA_Char*)M4OSA_32bitAlignedMalloc(newFormatLength,
         M4OSA_CHARSTAR,(M4OSA_Char*)"M4OSA_chrPrintf: newFormat");
     if(M4OSA_NULL == newFormat)
         return M4ERR_ALLOC;
     newFormat[newFormatLength-1] = '\0';
     pTemp = newFormat;

     /* copy format to newFormat, replacing %[flags][width][.precision]ll[conversion]
      * by %[flags][width][.precision]I64[conversion] */
     while(*format)
     {
         nbChar = strcspn((const char *)format, "%");
         if(nbChar)
         {
             strncpy((char *)pTemp, (const char *)format, nbChar);      /* copy characters before the % character */
             format +=nbChar;
             pTemp   +=nbChar;
         }
         if(!*format) break;
         *pTemp++ = *format++;                 /* copy the % character */
         nbChar = strspn((const char *)format, (const char *)flagChar);
         if(nbChar)
         {
             strncpy((char *)pTemp, (const char *)format, nbChar);      /* copy the flag characters */
             format +=nbChar;
             pTemp   +=nbChar;
         }
         if(!*format) break;
         nbChar = strspn((const char *)format, (const char *)widthOrPrecisionChar);
         if(nbChar)
         {
             strncpy((char *)pTemp, (const char *)format, nbChar);      /* copy the width characters */
             format +=nbChar;
             pTemp   +=nbChar;
         }
         if(!*format) break;
         if(*format=='.')
         {
             *pTemp++ = *format++;              /* copy the dot character */
             if(!format) break;
             nbChar = strspn((const char *)format, (const char *)widthOrPrecisionChar);
             if(nbChar)
             {
                 strncpy((char *)pTemp, (const char *)format, nbChar);      /* copy the width characters */
                 format +=nbChar;
                 pTemp   +=nbChar;
             }
             if(!format) break;
         }
         if(strlen((const char *)format)>=2)
         {
             if(!strncmp((const char *)format, "ll", 2))
             {
                 *pTemp++ = 'l'; /* %l */
                 format +=2;                         /* span the "ll" prefix */
             }
             else if(!strncmp((const char *)format, "tm", 2))
             {
                 *pTemp++ = 'l'; /* %l */
                 format +=2;                         /* span the "tm" prefix */
             }
             else if(!strncmp((const char *)format, "aa", 2))
             {
                 *pTemp++ = 'l';
                 format +=2;                         /* span the "aa" prefix */
             }
         }
         nbChar = strspn((const char *)format, (const char *)otherPrefixChar);
         if(nbChar)
         {
             strncpy((char *)pTemp, (const char *)format, nbChar);      /* copy the other Prefix */
             format +=nbChar;
             pTemp   +=nbChar;
         }
         if(!*format) break;
         nbChar = strspn((const char *)format, (const char *)conversionChar);
         if(nbChar)
         {
             strncpy((char *)pTemp, (const char *)format, nbChar);
             format += nbChar;
             pTemp   += nbChar;
         }
         if(!*format) break;
     }

     /* Zero terminate the format string. */
     (*pTemp) = '\0';

     err = vsnprintf((char *)pStrOut, (size_t)strOutMaxLen + 1, (const char *)newFormat, marker);
     va_end(marker);
     free(newFormat);
     if ((err<0) || ((M4OSA_UInt32)err>strOutMaxLen))
     {
         pStrOut[strOutMaxLen] = '\0';
         return M4ERR_CHR_STR_OVERFLOW;
     }
     else
     {
         return M4NO_ERROR;
     }
 }
	/*
	* Copyright (C) 2011 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	/**
	************************************************************************
	* @file M4DPAK_CharStar.c
	* @ingroup
	* @brief definition of the Char Star set of functions.
	* @note This file defines the Char Star set of functions.
	*
	************************************************************************
	*/


	#include "M4OSA_CharStar.h"
	#include "M4OSA_Memory.h"
	#include "M4OSA_Debug.h"

	/* WARNING: Specific Android */
	#include <stdio.h>
	#include <stdlib.h>
	#include <stdarg.h>
	#include <string.h>
	#include <errno.h>


	/**
	************************************************************************
	* @brief This function mimics the functionality of the libc's strncpy().
	* @note It copies exactly len2Copy characters from pStrIn to pStrOut,
	* truncating pStrIn or adding null characters to pStrOut if
	* necessary.
	* - If len2Copy is less than or equal to the length of pStrIn,
	* a null character is appended automatically to the copied
	* string.
	* - If len2Copy is greater than the length of pStrIn, pStrOut is
	* padded with null characters up to length len2Copy.
	* - pStrOut and pStrIn MUST NOT OVERLAP (this is NOT CHECKED).
	* @param pStrOut: (OUT) Destination character string.
	* @param pStrIn: (IN) Source character string.
	* @param len2Copy: (IN) Maximum number of characters from pStrIn to copy.
	* @return M4NO_ERROR: there is no error.
	* @return M4ERR_PARAMETER: pStrIn or pStrOut is M4OSA_NULL.
	************************************************************************
	*/
	M4OSA_ERR M4OSA_chrNCopy(M4OSA_Char* pStrOut, M4OSA_Char *pStrIn, M4OSA_UInt32 len2Copy)
	{
	M4OSA_TRACE1_3("M4OSA_chrNCopy\t(M4OSA_Char* %x,M4OSA_Char* %x,M4OSA_UInt32 %ld)",
	pStrOut,pStrIn,len2Copy);
	M4OSA_DEBUG_IF2((M4OSA_NULL == pStrOut),M4ERR_PARAMETER,
	"M4OSA_chrNCopy:\tpStrOut is M4OSA_NULL");
	M4OSA_DEBUG_IF2((M4OSA_NULL == pStrIn),M4ERR_PARAMETER,
	"M4OSA_chrNCopy:\tpStrIn is M4OSA_NULL");

	strncpy((char )pStrOut, (const char )pStrIn, (size_t)len2Copy);
	if(len2Copy <= (M4OSA_UInt32)strlen((const char *)pStrIn))
	{
	pStrOut[len2Copy] = '\0';
	}

	return M4NO_ERROR;
	}

	/**
	************************************************************************
	* @brief This function returns the boolean comparison of pStrIn1 and pStrIn2.
	* @note The value returned in result is M4OSA_TRUE if the string
	* pointed to by pStrIn1 is strictly identical to the string pointed
	* to by pStrIn2, and M4OSA_FALSE otherwise.
	* @param pStrIn1: (IN) First character string.
	* @param pStrIn2: (IN) Second character string.
	* @param cmpResult: (OUT) Comparison result.
	* @return M4NO_ERROR: there is no error.
	* @return M4ERR_PARAMETER: pStrIn1 pStrIn2 or cmpResult is M4OSA_NULL.
	************************************************************************
	*/
	M4OSA_ERR M4OSA_chrAreIdentical(M4OSA_Char* pStrIn1, M4OSA_Char* pStrIn2,
	M4OSA_Bool* pResult)
	{
	M4OSA_UInt32 i32,len32;
	M4OSA_TRACE1_3("M4OSA_chrAreIdentical\t(M4OSA_Char* %x,M4OSA_Char* %x,"
	"M4OSA_Int32* %x)",pStrIn1,pStrIn2,pResult);
	M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn1, M4ERR_PARAMETER,
	"M4OSA_chrAreIdentical:\tpStrIn1 is M4OSA_NULL");
	M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn2, M4ERR_PARAMETER,
	"M4OSA_chrAreIdentical:\tpStrIn2 is M4OSA_NULL");
	M4OSA_DEBUG_IF2(M4OSA_NULL == pResult, M4ERR_PARAMETER,
	"M4OSA_chrAreIdentical:\tpResult is M4OSA_NULL");

	len32 = (M4OSA_UInt32)strlen((const char *)pStrIn1);
	if(len32 != (M4OSA_UInt32)strlen((const char *)pStrIn2))
	{
	*pResult = M4OSA_FALSE;
	return M4NO_ERROR;
	}

	for(i32=0;i32<len32;i32++)
	{
	if(pStrIn1[i32] != pStrIn2[i32])
	{
	*pResult = M4OSA_FALSE;
	return M4NO_ERROR;
	}
	}

	*pResult = M4OSA_TRUE;

	return M4NO_ERROR;
	}


	/**
	************************************************************************
	* @brief This function gets a M4OSA_UInt32 from string.
	* @note This function converts the first set of non-whitespace
	* characters of pStrIn to a M4OSA_UInt32 value pVal, assuming a
	* representation in base provided by the parameter base. pStrOut is
	* set to the first character of the string following the last
	* character of the number that has been converted.
	* - in case of a failure during the conversion, pStrOut is not
	* updated, and pVal is set to null.
	* - in case of negative number, pStrOut is not updated, and pVal is
	* set to null.
	* - in case of numerical overflow, pVal is set to M4OSA_UINT32_MAX.
	* - if pStrOut is not to be used, it can be set to M4OSA_NULL.
	* @param pStrIn: (IN) Character string.
	* @param pVal: (OUT) read value.
	* @param pStrOut: (OUT) Output character string.
	* @param base: (IN) Base of the character string representation.
	* @return M4NO_ERROR: there is no error.
	* @return M4ERR_PARAMETER: pStrIn or pVal is M4OSA_NULL.
	* @return M4ERR_CHR_CONV_FAILED: conversion failure.
	* @return M4WAR_CHR_NUM_RANGE: the character string represents a number
	* greater than M4OSA_UINT32_MAX.
	* @return M4WAR_CHR_NEGATIVE: the character string represents a negative
	* number.
	************************************************************************
	*/
	M4OSA_ERR M4OSA_chrGetUInt32(M4OSA_Char* pStrIn,
	M4OSA_UInt32* pVal,
	M4OSA_Char** pStrOut,
	M4OSA_chrNumBase base)
	{
	M4OSA_UInt32 ul;
	char* pTemp;

	M4OSA_TRACE1_4("M4OSA_chrGetUInt32\t(M4OSA_Char* %x, M4OSA_UInt32* %x"
	"M4OSA_Char** %x,M4OSA_chrNumBase %d)",pStrIn,pVal,pStrOut,base);
	M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn, M4ERR_PARAMETER,
	"M4OSA_chrGetUInt32:\tpStrIn is M4OSA_NULL");
	M4OSA_DEBUG_IF2(M4OSA_NULL == pVal, M4ERR_PARAMETER,
	"M4OSA_chrGetUInt32:\tpVal is M4OSA_NULL");

	errno = 0;
	switch(base)
	{
	case M4OSA_kchrDec:
	ul = strtoul((const char *)pStrIn, &pTemp, 10);
	break;
	case M4OSA_kchrHexa:
	ul = strtoul((const char *)pStrIn, &pTemp,16);
	break;
	case M4OSA_kchrOct:
	ul = strtoul((const char *)pStrIn, &pTemp,8);
	break;
	default:
	return M4ERR_PARAMETER;
	}

	/* has conversion failed ? */
	if((M4OSA_Char*)pTemp == pStrIn)
	{
	*pVal = 0;
	return M4ERR_CHR_CONV_FAILED;
	}

	/* was the number negative ? */
	if((pStrIn+strspn((const char )pStrIn," \t")) == '-')
	{
	*pVal = 0;
	return M4WAR_CHR_NEGATIVE;
	}

	/* has an overflow occured ? */
	if(errno == ERANGE)
	{
	*pVal = M4OSA_UINT32_MAX;
	if(M4OSA_NULL != pStrOut)
	{
	pStrOut = (M4OSA_Char)pTemp;
	}
	return M4WAR_CHR_NUM_RANGE;
	}

	/* nominal case */
	*pVal = (M4OSA_UInt32)ul;
	if(M4OSA_NULL != pStrOut)
	{
	pStrOut = (M4OSA_Char)pTemp;
	}

	return M4NO_ERROR;
	}

	/**
	************************************************************************
	* @brief This function gets a M4OSA_UInt16 from string.
	* @note This function converts the first set of non-whitespace
	* characters of pStrIn to a M4OSA_UInt16 value pVal, assuming a
	* representation in base provided by the parameter base. pStrOut is
	* set to the first character of the string following the last
	* character of the number that has been converted.
	* - in case of a failure during the conversion, pStrOut is not
	* updated, and pVal is set to null.
	* - in case of negative number, pStrOut is not updated, and pVal is
	* set to null.
	* - in case of numerical overflow, pVal is set to M4OSA_UINT16_MAX.
	* - if pStrOut is not to be used, it can be set to M4OSA_NULL.
	* @param pStrIn: (IN) Character string.
	* @param pVal: (OUT) read value.
	* @param pStrOut: (OUT) Output character string.
	* @param base: (IN) Base of the character string representation.
	* @return M4NO_ERROR: there is no error.
	* @return M4ERR_PARAMETER: pStrIn or pVal is M4OSA_NULL.
	* @return M4ERR_CHR_CONV_FAILED: conversion failure.
	* @return M4WAR_CHR_NUM_RANGE: the character string represents a number
	* greater than M4OSA_UINT16_MAX.
	* @return M4WAR_CHR_NEGATIVE: the character string represents a negative
	* number.
	************************************************************************
	*/
	M4OSA_ERR M4OSA_chrGetUInt16 (M4OSA_Char* pStrIn, M4OSA_UInt16 *pVal,
	M4OSA_Char** pStrOut, M4OSA_chrNumBase base)
	{
	M4OSA_UInt32 ul;
	char* pTemp;

	M4OSA_TRACE1_4("M4OSA_chrGetUInt16\t(M4OSA_Char* %x, M4OSA_UInt16* %x"
	"M4OSA_Char** %x,M4OSA_chrNumBase %d)",pStrIn,pVal,pStrOut,base);
	M4OSA_DEBUG_IF2(M4OSA_NULL == pStrIn,M4ERR_PARAMETER,
	"M4OSA_chrGetUInt16:\tpStrIn is M4OSA_NULL");
	M4OSA_DEBUG_IF2(M4OSA_NULL == pVal, M4ERR_PARAMETER,
	"M4OSA_chrGetUInt16:\tpVal is M4OSA_NULL");

	switch(base)
	{
	case M4OSA_kchrDec:
	ul = strtoul((const char *)pStrIn, &pTemp,10);
	break;
	case M4OSA_kchrHexa:
	ul = strtoul((const char *)pStrIn, &pTemp,16);
	break;
	case M4OSA_kchrOct:
	ul = strtoul((const char *)pStrIn, &pTemp,8);
	break;
	default:
	return M4ERR_PARAMETER;
	}

	/* has conversion failed ? */
	if((M4OSA_Char*)pTemp == pStrIn)
	{
	*pVal = 0;
	return M4ERR_CHR_CONV_FAILED;
	}

	/* was the number negative ? */
	if((pStrIn+strspn((const char )pStrIn," \t")) == '-')
	{
	*pVal = 0;
	return M4WAR_CHR_NEGATIVE;
	}

	/* has an overflow occured ? */
	if(ul>M4OSA_UINT16_MAX)
	{
	*pVal = M4OSA_UINT16_MAX;
	if(M4OSA_NULL != pStrOut)
	{
	pStrOut = (M4OSA_Char)pTemp;
	}
	return M4WAR_CHR_NUM_RANGE;
	}

	/* nominal case */
	*pVal = (M4OSA_UInt16)ul;
	if(M4OSA_NULL != pStrOut)
	{
	pStrOut = (M4OSA_Char)pTemp;
	}
	return M4NO_ERROR;
	}

	M4OSA_ERR M4OSA_chrSPrintf(M4OSA_Char *pStrOut, M4OSA_UInt32 strOutMaxLen,
	M4OSA_Char *format, ...)
	{
	va_list marker;
	M4OSA_Char *pTemp;
	M4OSA_Char *percentPointer;
	M4OSA_Char *newFormat;
	M4OSA_Int32 newFormatLength=0;
	M4OSA_UInt32 count_ll = 0;
	M4OSA_UInt32 count_tm = 0;
	M4OSA_UInt32 count_aa = 0;
	M4OSA_UInt32 count;
	M4OSA_UInt32 nbChar;
	M4OSA_Int32 err;
	M4OSA_Char flagChar[] = "'-+ #0";
	M4OSA_Char widthOrPrecisionChar[] = "*0123456789";
	M4OSA_Char otherPrefixChar[] = "hlL";
	M4OSA_Char conversionChar[] = "diouxXnfeEgGcCsSp%";

	M4OSA_TRACE1_3("M4OSA_chrSPrintf\t(M4OSA_Char* %x, M4OSA_UInt32 %ld"
	"M4OSA_Char* %x)",pStrOut,strOutMaxLen,format);
	M4OSA_DEBUG_IF2(M4OSA_NULL == pStrOut, M4ERR_PARAMETER,
	"M4OSA_chrSPrintf:\tpStrOut is M4OSA_NULL");
	M4OSA_DEBUG_IF2(M4OSA_NULL == format, M4ERR_PARAMETER,
	"M4OSA_chrSPrintf:\tformat is M4OSA_NULL");

	va_start(marker,format);

	/* count the number of %[flags][width][.precision]ll[conversion] */
	pTemp = format;
	while(*pTemp)
	{
	percentPointer = (M4OSA_Char )strchr((const char )pTemp,'%'); /* get the next percent character */
	if(!percentPointer)
	break; /* "This is the End", (c) J. Morrisson */
	pTemp = percentPointer+1; /* span it */
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	pTemp += strspn((const char )pTemp,(const char )flagChar); /* span the optional flags */
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	pTemp += strspn((const char )pTemp,(const char )widthOrPrecisionChar); /* span the optional width */
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	if(*pTemp=='.')
	{
	pTemp++;
	pTemp += strspn((const char )pTemp, (const char )widthOrPrecisionChar); /* span the optional precision */
	}
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	if(strlen((const char *)pTemp)>=2)
	{
	if(!strncmp((const char *)pTemp,"ll",2))
	{
	count_ll++; /* I got ONE */
	pTemp +=2; /* span the "ll" prefix */
	}
	else if(!strncmp((const char *)pTemp,"tm",2))
	{
	count_tm++;
	pTemp +=2;
	}
	else if(!strncmp((const char *)pTemp,"aa",2))
	{
	count_aa++;
	pTemp +=2;
	}
	}
	pTemp += strspn((const char )pTemp, (const char )otherPrefixChar); /* span the other optional prefix */
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	pTemp += strspn((const char )pTemp, (const char )conversionChar);
	if(!*pTemp)
	break; /* "This is the End", (c) J. Morrisson */
	}

	count = count_ll + count_tm + count_aa;

	if(!count)
	{
	err= vsnprintf((char )pStrOut, (size_t)strOutMaxLen + 1, (const char )format, marker);
	va_end(marker);
	if ((err<0) \|\| ((M4OSA_UInt32)err>strOutMaxLen))
	{
	pStrOut[strOutMaxLen] = '\0';
	return M4ERR_CHR_STR_OVERFLOW;
	}
	else
	{
	return M4NO_ERROR;
	}
	}


	newFormatLength = strlen((const char *)format) + 1;

	newFormatLength -= (count_ll+count_tm+count_aa);

	newFormat =(M4OSA_Char*)M4OSA_32bitAlignedMalloc(newFormatLength,
	M4OSA_CHARSTAR,(M4OSA_Char*)"M4OSA_chrPrintf: newFormat");
	if(M4OSA_NULL == newFormat)
	return M4ERR_ALLOC;
	newFormat[newFormatLength-1] = '\0';
	pTemp = newFormat;

	/* copy format to newFormat, replacing %[flags][width][.precision]ll[conversion]
	* by %[flags][width][.precision]I64[conversion] */
	while(*format)
	{
	nbChar = strcspn((const char *)format, "%");
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar); /* copy characters before the % character */
	format +=nbChar;
	pTemp +=nbChar;
	}
	if(!*format) break;
	pTemp++ = format++; /* copy the % character */
	nbChar = strspn((const char )format, (const char )flagChar);
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar); /* copy the flag characters */
	format +=nbChar;
	pTemp +=nbChar;
	}
	if(!*format) break;
	nbChar = strspn((const char )format, (const char )widthOrPrecisionChar);
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar); /* copy the width characters */
	format +=nbChar;
	pTemp +=nbChar;
	}
	if(!*format) break;
	if(*format=='.')
	{
	pTemp++ = format++; /* copy the dot character */
	if(!format) break;
	nbChar = strspn((const char )format, (const char )widthOrPrecisionChar);
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar); /* copy the width characters */
	format +=nbChar;
	pTemp +=nbChar;
	}
	if(!format) break;
	}
	if(strlen((const char *)format)>=2)
	{
	if(!strncmp((const char *)format, "ll", 2))
	{
	pTemp++ = 'l'; / %l */
	format +=2; /* span the "ll" prefix */
	}
	else if(!strncmp((const char *)format, "tm", 2))
	{
	pTemp++ = 'l'; / %l */
	format +=2; /* span the "tm" prefix */
	}
	else if(!strncmp((const char *)format, "aa", 2))
	{
	*pTemp++ = 'l';
	format +=2; /* span the "aa" prefix */
	}
	}
	nbChar = strspn((const char )format, (const char )otherPrefixChar);
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar); /* copy the other Prefix */
	format +=nbChar;
	pTemp +=nbChar;
	}
	if(!*format) break;
	nbChar = strspn((const char )format, (const char )conversionChar);
	if(nbChar)
	{
	strncpy((char )pTemp, (const char )format, nbChar);
	format += nbChar;
	pTemp += nbChar;
	}
	if(!*format) break;
	}

	/* Zero terminate the format string. */
	(*pTemp) = '\0';

	err = vsnprintf((char )pStrOut, (size_t)strOutMaxLen + 1, (const char )newFormat, marker);
	va_end(marker);
	free(newFormat);
	if ((err<0) \|\| ((M4OSA_UInt32)err>strOutMaxLen))
	{
	pStrOut[strOutMaxLen] = '\0';
	return M4ERR_CHR_STR_OVERFLOW;
	}
	else
	{
	return M4NO_ERROR;
	}
	}