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#include "zstring.h"
#include "globalFunctions.h"
#ifdef FFS_WIN
#include <wx/msw/wrapwin.h> //includes "windows.h"
#endif //FFS_WIN
#ifdef __WXDEBUG__
AllocationCount::~AllocationCount()
{
if (count != 0)
#ifdef FFS_WIN
MessageBox(NULL, wxT("Fatal Error! Allocation problem with Zstring! (No problem if it occurs while Unit testing only!)"), wxString::Format(wxT("%i"), count), 0);
#else
std::abort();
#endif
}
AllocationCount& AllocationCount::getGlobal()
{
static AllocationCount global;
return global;
}
#endif
#ifdef FFS_WIN
int FreeFileSync::compareStringsWin32(const wchar_t* a, const wchar_t* b, const int aCount, const int bCount)
{
//DON'T use lstrcmpi() here! It uses word sort, which unfortunately is NOT always a strict weak sorting function for some locales (e.g. swedish)
//Use CompareString() with "SORT_STRINGSORT" instead!!!
const int rv = CompareString(
LOCALE_USER_DEFAULT, //locale identifier
NORM_IGNORECASE | SORT_STRINGSORT, //comparison-style options
a, //pointer to first string
aCount, //size, in bytes or characters, of first string
b, //pointer to second string
bCount); //size, in bytes or characters, of second string
if (rv == 0)
throw RuntimeException(wxString(wxT("Error comparing strings!")));
else
return rv - 2; //convert to C-style string compare result
}
#endif
Zstring& Zstring::Replace(const DefaultChar* old, const DefaultChar* replacement, bool replaceAll)
{
const size_t oldLen = defaultLength(old);
const size_t replacementLen = defaultLength(replacement);
size_t pos = 0;
while (true)
{
pos = find(old, pos);
if (pos == npos)
break;
replace(pos, oldLen, replacement, replacementLen);
pos += replacementLen; //move past the string that was replaced
// stop now?
if (!replaceAll)
break;
}
return *this;
}
bool matchesHelper(const DefaultChar* string, const DefaultChar* mask)
{
for (DefaultChar ch; (ch = *mask) != 0; ++mask)
{
switch (ch)
{
case DefaultChar('?'):
if (*string == 0)
return false;
else
++string;
break;
case DefaultChar('*'):
//advance to next non-*/? char
do
{
++mask;
ch = *mask;
}
while (ch == DefaultChar('*') || ch == DefaultChar('?'));
//if match ends with '*':
if (ch == DefaultChar(0))
return true;
++mask;
while ((string = defaultStrFind(string, ch)) != NULL)
{
if (matchesHelper(string + 1, mask))
return true;
++string;
}
return false;
default:
if (*string != ch)
return false;
else
++string;
}
}
return *string == 0;
}
bool Zstring::Matches(const DefaultChar* mask) const
{
return matchesHelper(c_str(), mask);
}
bool Zstring::Matches(const DefaultChar* name, const DefaultChar* mask)
{
return matchesHelper(name, mask);
}
Zstring& Zstring::Trim(bool fromRight)
{
const size_t thisLen = length();
if (thisLen == 0)
return *this;
if (fromRight)
{
const DefaultChar* cursor = data + thisLen - 1;
while (cursor != data - 1 && defaultIsWhiteSpace(*cursor)) //break when pointing one char further than last skipped element
--cursor;
++cursor;
const size_t newLength = cursor - data;
if (newLength != thisLen)
{
if (descr->refCount > 1) //allocate new string
*this = Zstring(data, newLength);
else //overwrite this strin
{
descr->length = newLength;
data[newLength] = DefaultChar(0);
}
}
}
else
{
DefaultChar* cursor = data;
DefaultChar ch;
while ((ch = *cursor) != 0 && defaultIsWhiteSpace(ch))
++cursor;
const size_t diff = cursor - data;
if (diff)
{
if (descr->refCount > 1) //allocate new string
*this = Zstring(cursor, thisLen - diff);
else
{ //overwrite this string
data = cursor; //no problem when deallocating data, since descr points to begin of allocated area
descr->capacity -= diff;
descr->length -= diff;
}
}
}
return *this;
}
Zstring& Zstring::MakeLower()
{
const size_t thisLen = length();
if (thisLen == 0)
return *this;
if (descr->refCount > 1) //allocate new string
{
StringDescriptor* newDescr;
DefaultChar* newData;
allocate(thisLen, newDescr, newData);
for (unsigned int i = 0; i < thisLen; ++i)
newData[i] = defaultToLower(data[i]);
newData[thisLen] = 0;
decRef();
descr = newDescr;
data = newData;
}
else
{ //overwrite this string
for (unsigned int i = 0; i < thisLen; ++i)
data[i] = defaultToLower(data[i]);
}
return *this;
}
//###############################################################
//std::string functions
Zstring Zstring::substr(size_t pos, size_t len) const
{
if (len == npos)
{
assert(pos <= length());
return Zstring(c_str() + pos, length() - pos); //reference counting not used: different length
}
else
{
assert(length() - pos >= len);
return Zstring(c_str() + pos, len);
}
}
size_t Zstring::rfind(const DefaultChar ch, size_t pos) const
{
const size_t thisLen = length();
if (thisLen == 0)
return npos;
if (pos == npos)
pos = thisLen - 1;
else
assert(pos <= length());
do //pos points to last char of the string
{
if (data[pos] == ch)
return pos;
}
while (--pos != static_cast<size_t>(-1));
return npos;
}
Zstring& Zstring::replace(size_t pos1, size_t n1, const DefaultChar* str, size_t n2)
{
assert(str < c_str() || c_str() + length() < str); //str mustn't point to data in this string
assert(n1 <= length() - pos1);
const size_t oldLen = length();
if (oldLen == 0)
{
assert(pos1 == 0 && n1 == 0);
return *this = Zstring(str, n2);
}
const size_t newLen = oldLen - n1 + n2;
if (n1 < n2 || descr->refCount > 1)
{ //allocate a new string
StringDescriptor* newDescr;
DefaultChar* newData;
allocate(newLen, newDescr, newData);
//assemble new string with replacement
memcpy(newData, data, pos1 * sizeof(DefaultChar));
memcpy(newData + pos1, str, n2 * sizeof(DefaultChar));
memcpy(newData + pos1 + n2, data + pos1 + n1, (oldLen - pos1 - n1) * sizeof(DefaultChar));
newData[newLen] = 0;
decRef();
data = newData;
descr = newDescr;
}
else //overwrite current string: case "n2 == 0" is handled implicitly
{
memcpy(data + pos1, str, n2 * sizeof(DefaultChar));
if (n1 > n2)
{
memmove(data + pos1 + n2, data + pos1 + n1, (oldLen - pos1 - n1) * sizeof(DefaultChar));
data[newLen] = 0;
descr->length = newLen;
}
}
return *this;
}
Zstring& Zstring::operator=(const DefaultChar* source)
{
const size_t sourceLen = defaultLength(source);
if (sourceLen == 0)
return *this = Zstring();
if (descr->refCount > 1 || descr->capacity < sourceLen) //allocate new string
*this = Zstring(source, sourceLen);
else
{ //overwrite this string
memcpy(data, source, sourceLen * sizeof(DefaultChar));
data[sourceLen] = 0;
descr->length = sourceLen;
}
return *this;
}
Zstring& Zstring::operator+=(const Zstring& other)
{
const size_t otherLen = other.length();
if (otherLen != 0)
{
const size_t thisLen = length();
const size_t newLen = thisLen + otherLen;
copyBeforeWrite(newLen);
memcpy(data + thisLen, other.c_str(), otherLen * sizeof(DefaultChar));
data[newLen] = 0;
descr->length = newLen;
}
return *this;
}
Zstring& Zstring::operator+=(const DefaultChar* other)
{
const size_t otherLen = defaultLength(other);
if (otherLen != 0)
{
const size_t thisLen = length();
const size_t newLen = thisLen + otherLen;
copyBeforeWrite(newLen);
memcpy(data + thisLen, other, otherLen * sizeof(DefaultChar));
data[newLen] = 0;
descr->length = newLen;
}
return *this;
}
Zstring& Zstring::operator+=(DefaultChar ch)
{
const size_t oldLen = length();
copyBeforeWrite(oldLen + 1);
data[oldLen] = ch;
data[oldLen + 1] = 0;
++descr->length;
return *this;
}
void Zstring::copyBeforeWrite(const size_t capacityNeeded)
{
assert(capacityNeeded != 0);
if (descr->refCount > 1)
{ //allocate a new string
const size_t oldLength = length();
assert(oldLength <= getCapacityToAllocate(capacityNeeded));
StringDescriptor* newDescr;
DefaultChar* newData;
allocate(capacityNeeded, newDescr, newData);
newDescr->length = oldLength;
if (oldLength)
{
memcpy(newData, data, oldLength * sizeof(DefaultChar));
newData[oldLength] = 0;
}
decRef();
descr = newDescr;
data = newData;
}
else if (descr->capacity < capacityNeeded)
{ //try to resize the current string (allocate anew if necessary)
const size_t newCapacity = getCapacityToAllocate(capacityNeeded);
descr = (StringDescriptor*) realloc(descr, sizeof(StringDescriptor) + (newCapacity + 1) * sizeof(DefaultChar));
if (descr == NULL)
throw std::bad_alloc();
data = (DefaultChar*)(descr + 1);
descr->capacity = newCapacity;
}
}
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