ministring.cpp revision 6c6531128b39093daeac902a8705c0bdf15b31cc
/* $Id$ */
/** @file
* IPRT - Mini C++ string class.
*
* This is a base for both Utf8Str and other places where IPRT may want to use
* a lean C++ string class.
*/
/*
* Copyright (C) 2007-2011 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*******************************************************************************
* Header Files *
*******************************************************************************/
#include <iprt/cpp/ministring.h>
/*******************************************************************************
* Global Variables *
*******************************************************************************/
const size_t RTCString::npos = ~(size_t)0;
/*******************************************************************************
* Defined Constants And Macros *
*******************************************************************************/
/** Allocation block alignment used when appending bytes to a string. */
#define IPRT_MINISTRING_APPEND_ALIGNMENT 64
RTCString &RTCString::printf(const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
printfV(pszFormat, va);
va_end(va);
return *this;
}
/**
* Callback used with RTStrFormatV by RTCString::printfV.
*
* @returns The number of bytes added (not used).
*
* @param pvArg The string object.
* @param pachChars The characters to append.
* @param cbChars The number of characters. 0 on the final callback.
*/
/*static*/ DECLCALLBACK(size_t)
RTCString::printfOutputCallback(void *pvArg, const char *pachChars, size_t cbChars)
{
RTCString *pThis = (RTCString *)pvArg;
if (cbChars)
{
size_t cchBoth = pThis->m_cch + cbChars;
if (cchBoth >= pThis->m_cbAllocated)
{
/* Double the buffer size, if it's less that _4M. Align sizes like
for append. */
size_t cbAlloc = RT_ALIGN_Z(pThis->m_cbAllocated, IPRT_MINISTRING_APPEND_ALIGNMENT);
cbAlloc += RT_MIN(cbAlloc, _4M);
if (cbAlloc <= cchBoth)
cbAlloc = RT_ALIGN_Z(cchBoth + 1, IPRT_MINISTRING_APPEND_ALIGNMENT);
pThis->reserve(cbAlloc);
#ifndef RT_EXCEPTIONS_ENABLED
AssertReleaseReturn(pThis->capacity() > cchBoth, 0);
#endif
}
memcpy(&pThis->m_psz[pThis->m_cch], pachChars, cbChars);
pThis->m_cch = cchBoth;
pThis->m_psz[cchBoth] = '\0';
}
return cbChars;
}
RTCString &RTCString::printfV(const char *pszFormat, va_list va)
{
cleanup();
RTStrFormatV(printfOutputCallback, this, NULL, NULL, pszFormat, va);
return *this;
}
RTCString &RTCString::append(const RTCString &that)
{
size_t cchThat = that.length();
if (cchThat)
{
size_t cchThis = length();
size_t cchBoth = cchThis + cchThat;
if (cchBoth >= m_cbAllocated)
{
reserve(RT_ALIGN_Z(cchBoth + 1, IPRT_MINISTRING_APPEND_ALIGNMENT));
// calls realloc(cchBoth + 1) and sets m_cbAllocated; may throw bad_alloc.
#ifndef RT_EXCEPTIONS_ENABLED
AssertRelease(capacity() > cchBoth);
#endif
}
memcpy(m_psz + cchThis, that.m_psz, cchThat);
m_psz[cchBoth] = '\0';
m_cch = cchBoth;
}
return *this;
}
RTCString &RTCString::append(const char *pszThat)
{
size_t cchThat = strlen(pszThat);
if (cchThat)
{
size_t cchThis = length();
size_t cchBoth = cchThis + cchThat;
if (cchBoth >= m_cbAllocated)
{
reserve(RT_ALIGN_Z(cchBoth + 1, IPRT_MINISTRING_APPEND_ALIGNMENT));
// calls realloc(cchBoth + 1) and sets m_cbAllocated; may throw bad_alloc.
#ifndef RT_EXCEPTIONS_ENABLED
AssertRelease(capacity() > cchBoth);
#endif
}
memcpy(&m_psz[cchThis], pszThat, cchThat);
m_psz[cchBoth] = '\0';
m_cch = cchBoth;
}
return *this;
}
RTCString& RTCString::append(char ch)
{
Assert((unsigned char)ch < 0x80); /* Don't create invalid UTF-8. */
if (ch)
{
// allocate in chunks of 20 in case this gets called several times
if (m_cch + 1 >= m_cbAllocated)
{
reserve(RT_ALIGN_Z(m_cch + 2, IPRT_MINISTRING_APPEND_ALIGNMENT));
// calls realloc(cbBoth) and sets m_cbAllocated; may throw bad_alloc.
#ifndef RT_EXCEPTIONS_ENABLED
AssertRelease(capacity() > m_cch + 1);
#endif
}
m_psz[m_cch] = ch;
m_psz[++m_cch] = '\0';
}
return *this;
}
RTCString &RTCString::appendCodePoint(RTUNICP uc)
{
/*
* Single byte encoding.
*/
if (uc < 0x80)
return RTCString::append((char)uc);
/*
* Multibyte encoding.
* Assume max encoding length when resizing the string, that's simpler.
*/
AssertReturn(uc <= UINT32_C(0x7fffffff), *this);
if (m_cch + 6 >= m_cbAllocated)
{
reserve(RT_ALIGN_Z(m_cch + 6 + 1, IPRT_MINISTRING_APPEND_ALIGNMENT));
// calls realloc(cbBoth) and sets m_cbAllocated; may throw bad_alloc.
#ifndef RT_EXCEPTIONS_ENABLED
AssertRelease(capacity() > m_cch + 6);
#endif
}
char *pszNext = RTStrPutCp(&m_psz[m_cch], uc);
m_cch = pszNext - m_psz;
*pszNext = '\0';
return *this;
}
size_t RTCString::find(const char *pcszFind, size_t pos /*= 0*/) const
{
const char *pszThis, *p;
if ( ((pszThis = c_str()))
&& (pos < length())
&& ((p = strstr(pszThis + pos, pcszFind)))
)
return p - pszThis;
return npos;
}
void RTCString::findReplace(char cFind, char cReplace)
{
for (size_t i = 0; i < length(); ++i)
{
char *p = &m_psz[i];
if (*p == cFind)
*p = cReplace;
}
}
RTCString RTCString::substrCP(size_t pos /*= 0*/, size_t n /*= npos*/) const
{
RTCString ret;
if (n)
{
const char *psz;
if ((psz = c_str()))
{
RTUNICP cp;
// walk the UTF-8 characters until where the caller wants to start
size_t i = pos;
while (*psz && i--)
if (RT_FAILURE(RTStrGetCpEx(&psz, &cp)))
return ret; // return empty string on bad encoding
const char *pFirst = psz;
if (n == npos)
// all the rest:
ret = pFirst;
else
{
i = n;
while (*psz && i--)
if (RT_FAILURE(RTStrGetCpEx(&psz, &cp)))
return ret; // return empty string on bad encoding
size_t cbCopy = psz - pFirst;
if (cbCopy)
{
ret.reserve(cbCopy + 1); // may throw bad_alloc
#ifndef RT_EXCEPTIONS_ENABLED
AssertRelease(capacity() >= cbCopy + 1);
#endif
memcpy(ret.m_psz, pFirst, cbCopy);
ret.m_cch = cbCopy;
ret.m_psz[cbCopy] = '\0';
}
}
}
}
return ret;
}
bool RTCString::endsWith(const RTCString &that, CaseSensitivity cs /*= CaseSensitive*/) const
{
size_t l1 = length();
if (l1 == 0)
return false;
size_t l2 = that.length();
if (l1 < l2)
return false;
/** @todo r=bird: If l2 is 0, then m_psz can be NULL and we will crash. See
* also handling of l2 == in startsWith. */
size_t l = l1 - l2;
if (cs == CaseSensitive)
return ::RTStrCmp(&m_psz[l], that.m_psz) == 0;
return ::RTStrICmp(&m_psz[l], that.m_psz) == 0;
}
bool RTCString::startsWith(const RTCString &that, CaseSensitivity cs /*= CaseSensitive*/) const
{
size_t l1 = length();
size_t l2 = that.length();
if (l1 == 0 || l2 == 0) /** @todo r=bird: this differs from endsWith, and I think other IPRT code. If l2 == 0, it matches anything. */
return false;
if (l1 < l2)
return false;
if (cs == CaseSensitive)
return ::RTStrNCmp(m_psz, that.m_psz, l2) == 0;
return ::RTStrNICmp(m_psz, that.m_psz, l2) == 0;
}
bool RTCString::contains(const RTCString &that, CaseSensitivity cs /*= CaseSensitive*/) const
{
/** @todo r-bird: Not checking for NULL strings like startsWith does (and
* endsWith only does half way). */
if (cs == CaseSensitive)
return ::RTStrStr(m_psz, that.m_psz) != NULL;
return ::RTStrIStr(m_psz, that.m_psz) != NULL;
}
int RTCString::toInt(uint64_t &i) const
{
if (!m_psz)
return VERR_NO_DIGITS;
return RTStrToUInt64Ex(m_psz, NULL, 0, &i);
}
int RTCString::toInt(uint32_t &i) const
{
if (!m_psz)
return VERR_NO_DIGITS;
return RTStrToUInt32Ex(m_psz, NULL, 0, &i);
}
iprt::list<RTCString, RTCString *>
RTCString::split(const RTCString &a_rstrSep, SplitMode mode /* = RemoveEmptyParts */)
{
iprt::list<RTCString> strRet;
if (!m_psz)
return strRet;
if (a_rstrSep.isEmpty())
{
strRet.append(RTCString(m_psz));
return strRet;
}
size_t cch = m_cch;
char const *pszTmp = m_psz;
while (cch > 0)
{
char const *pszNext = strstr(pszTmp, a_rstrSep.c_str());
if (!pszNext)
{
strRet.append(RTCString(pszTmp, cch));
break;
}
size_t cchNext = pszNext - pszTmp;
if ( cchNext > 0
|| mode == KeepEmptyParts)
strRet.append(RTCString(pszTmp, cchNext));
pszTmp += cchNext + a_rstrSep.length();
cch -= cchNext + a_rstrSep.length();
}
return strRet;
}
/* static */
RTCString
RTCString::join(const iprt::list<RTCString, RTCString*> &a_rList,
const RTCString &a_rstrSep /* = "" */)
{
RTCString strRet;
if (a_rList.size() > 1)
{
for (size_t i = 0; i < a_rList.size() - 1; ++i)
strRet += a_rList.at(i) + a_rstrSep;
strRet += a_rList.last();
}
return strRet;
}
const RTCString operator+(const RTCString &a_rStr1, const RTCString &a_rStr2)
{
RTCString strRet(a_rStr1);
strRet += a_rStr2;
return strRet;
}
const RTCString operator+(const RTCString &a_rStr1, const char *a_pszStr2)
{
RTCString strRet(a_rStr1);
strRet += a_pszStr2;
return strRet;
}
const RTCString operator+(const char *a_psz1, const RTCString &a_rStr2)
{
RTCString strRet(a_psz1);
strRet += a_rStr2;
return strRet;
}