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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "common/ustr.h"
#include "common/memorypool.h"
#include "common/util.h"
namespace Common {
extern MemoryPool *g_refCountPool;
static uint32 computeCapacity(uint32 len) {
// By default, for the capacity we use the next multiple of 32
return ((len + 32 - 1) & ~0x1F);
}
U32String::U32String(const value_type *str) : _size(0), _str(_storage) {
if (str == nullptr) {
_storage[0] = 0;
_size = 0;
} else {
uint32 len = 0;
const value_type *s = str;
while (*s++) {
++len;
}
initWithCStr(str, len);
}
}
U32String::U32String(const value_type *str, uint32 len) : _size(0), _str(_storage) {
initWithCStr(str, len);
}
U32String::U32String(const value_type *beginP, const value_type *endP) : _size(0), _str(_storage) {
assert(endP >= beginP);
initWithCStr(beginP, endP - beginP);
}
U32String::U32String(const U32String &str)
: _size(str._size) {
if (str.isStorageIntern()) {
// String in internal storage: just copy it
memcpy(_storage, str._storage, _builtinCapacity * sizeof(value_type));
_str = _storage;
} else {
// String in external storage: use refcount mechanism
str.incRefCount();
_extern._refCount = str._extern._refCount;
_extern._capacity = str._extern._capacity;
_str = str._str;
}
assert(_str != nullptr);
}
U32String::U32String(const char *str) : _size(0), _str(_storage) {
if (str == nullptr) {
_storage[0] = 0;
_size = 0;
} else {
initWithCStr(str, strlen(str));
}
}
U32String::U32String(const char *str, uint32 len) : _size(0), _str(_storage) {
initWithCStr(str, len);
}
U32String::U32String(const char *beginP, const char *endP) : _size(0), _str(_storage) {
assert(endP >= beginP);
initWithCStr(beginP, endP - beginP);
}
U32String::U32String(const String &str) : _size(0), _str(_storage) {
initWithCStr(str.c_str(), str.size());
}
U32String::~U32String() {
decRefCount(_extern._refCount);
}
U32String &U32String::operator=(const U32String &str) {
if (&str == this)
return *this;
if (str.isStorageIntern()) {
decRefCount(_extern._refCount);
_size = str._size;
_str = _storage;
memcpy(_str, str._str, (_size + 1) * sizeof(value_type));
} else {
str.incRefCount();
decRefCount(_extern._refCount);
_extern._refCount = str._extern._refCount;
_extern._capacity = str._extern._capacity;
_size = str._size;
_str = str._str;
}
return *this;
}
U32String &U32String::operator=(const String &str) {
initWithCStr(str.c_str(), str.size());
return *this;
}
U32String &U32String::operator=(const value_type *str) {
return U32String::operator=(U32String(str));
}
U32String &U32String::operator=(const char *str) {
initWithCStr(str, strlen(str));
return *this;
}
U32String &U32String::operator+=(const U32String &str) {
if (&str == this) {
return operator+=(U32String(str));
}
int len = str._size;
if (len > 0) {
ensureCapacity(_size + len, true);
memcpy(_str + _size, str._str, (len + 1) * sizeof(value_type));
_size += len;
}
return *this;
}
U32String &U32String::operator+=(value_type c) {
ensureCapacity(_size + 1, true);
_str[_size++] = c;
_str[_size] = 0;
return *this;
}
bool U32String::operator==(const U32String &x) const {
return equals(x);
}
bool U32String::operator==(const String &x) const {
return equals(x);
}
bool U32String::operator==(const value_type *x) const {
return equals(U32String(x));
}
bool U32String::operator==(const char *x) const {
return equals(x);
}
bool U32String::operator!=(const U32String &x) const {
return !equals(x);
}
bool U32String::operator!=(const String &x) const {
return !equals(x);
}
bool U32String::operator!=(const value_type *x) const {
return !equals(U32String(x));
}
bool U32String::operator!=(const char *x) const {
return !equals(x);
}
bool U32String::equals(const U32String &x) const {
if (this == &x || _str == x._str) {
return true;
}
if (x.size() != _size) {
return false;
}
return !memcmp(_str, x._str, _size * sizeof(value_type));
}
bool U32String::equals(const String &x) const {
if (x.size() != _size)
return false;
for (size_t idx = 0; idx < _size; ++idx)
if (_str[idx] != (value_type)x[idx])
return false;
return true;
}
bool U32String::contains(value_type x) const {
for (uint32 i = 0; i < _size; ++i) {
if (_str[i] == x) {
return true;
}
}
return false;
}
void U32String::deleteChar(uint32 p) {
assert(p < _size);
makeUnique();
while (p++ < _size)
_str[p - 1] = _str[p];
_size--;
}
void U32String::deleteLastChar() {
if (_size > 0)
deleteChar(_size - 1);
}
void U32String::erase(uint32 p, uint32 len) {
assert(p < _size);
makeUnique();
// If len == npos or p + len is over the end, remove all the way to the end
if (len == npos || p + len >= _size) {
// Delete char at p as well. So _size = (p - 1) + 1
_size = p;
// Null terminate
_str[_size] = 0;
return;
}
for ( ; p + len <= _size; p++) {
_str[p] = _str[p + len];
}
_size -= len;
}
void U32String::clear() {
decRefCount(_extern._refCount);
_size = 0;
_str = _storage;
_storage[0] = 0;
}
void U32String::toLowercase() {
makeUnique();
for (uint32 i = 0; i < _size; ++i) {
if (_str[i] < 128) {
_str[i] = tolower(_str[i]);
}
}
}
void U32String::toUppercase() {
makeUnique();
for (uint32 i = 0; i < _size; ++i) {
if (_str[i] < 128) {
_str[i] = toupper(_str[i]);
}
}
}
uint32 U32String::find(const U32String &str, uint32 pos) const {
if (pos >= _size) {
return npos;
}
const value_type *strP = str.c_str();
for (const_iterator cur = begin() + pos; *cur; ++cur) {
uint i = 0;
while (true) {
if (!strP[i]) {
return cur - begin();
}
if (cur[i] != strP[i]) {
break;
}
++i;
}
}
return npos;
}
void U32String::makeUnique() {
ensureCapacity(_size, true);
}
void U32String::ensureCapacity(uint32 new_size, bool keep_old) {
bool isShared;
uint32 curCapacity, newCapacity;
value_type *newStorage;
int *oldRefCount = _extern._refCount;
if (isStorageIntern()) {
isShared = false;
curCapacity = _builtinCapacity;
} else {
isShared = (oldRefCount && *oldRefCount > 1);
curCapacity = _extern._capacity;
}
// Special case: If there is enough space, and we do not share
// the storage, then there is nothing to do.
if (!isShared && new_size < curCapacity)
return;
if (isShared && new_size < _builtinCapacity) {
// We share the storage, but there is enough internal storage: Use that.
newStorage = _storage;
newCapacity = _builtinCapacity;
} else {
// We need to allocate storage on the heap!
// Compute a suitable new capacity limit
// If the current capacity is sufficient we use the same capacity
if (new_size < curCapacity)
newCapacity = curCapacity;
else
newCapacity = MAX(curCapacity * 2, computeCapacity(new_size + 1));
// Allocate new storage
newStorage = new value_type[newCapacity];
assert(newStorage);
}
// Copy old data if needed, elsewise reset the new storage.
if (keep_old) {
assert(_size < newCapacity);
memcpy(newStorage, _str, (_size + 1) * sizeof(value_type));
} else {
_size = 0;
newStorage[0] = 0;
}
// Release hold on the old storage ...
decRefCount(oldRefCount);
// ... in favor of the new storage
_str = newStorage;
if (!isStorageIntern()) {
// Set the ref count & capacity if we use an external storage.
// It is important to do this *after* copying any old content,
// else we would override data that has not yet been copied!
_extern._refCount = nullptr;
_extern._capacity = newCapacity;
}
}
void U32String::incRefCount() const {
assert(!isStorageIntern());
if (_extern._refCount == nullptr) {
if (g_refCountPool == nullptr) {
g_refCountPool = new MemoryPool(sizeof(int));
assert(g_refCountPool);
}
_extern._refCount = (int *)g_refCountPool->allocChunk();
*_extern._refCount = 2;
} else {
++(*_extern._refCount);
}
}
void U32String::decRefCount(int *oldRefCount) {
if (isStorageIntern())
return;
if (oldRefCount) {
--(*oldRefCount);
}
if (!oldRefCount || *oldRefCount <= 0) {
// The ref count reached zero, so we free the string storage
// and the ref count storage.
if (oldRefCount) {
assert(g_refCountPool);
g_refCountPool->freeChunk(oldRefCount);
}
delete[] _str;
// Even though _str points to a freed memory block now,
// we do not change its value, because any code that calls
// decRefCount will have to do this afterwards anyway.
}
}
void U32String::initWithCStr(const value_type *str, uint32 len) {
assert(str);
_storage[0] = 0;
_size = len;
if (len >= _builtinCapacity) {
// Not enough internal storage, so allocate more
_extern._capacity = computeCapacity(len + 1);
_extern._refCount = nullptr;
_str = new value_type[_extern._capacity];
assert(_str != nullptr);
}
// Copy the string into the storage area
memmove(_str, str, len * sizeof(value_type));
_str[len] = 0;
}
void U32String::initWithCStr(const char *str, uint32 len) {
assert(str);
_storage[0] = 0;
_size = len;
if (len >= _builtinCapacity) {
// Not enough internal storage, so allocate more
_extern._capacity = computeCapacity(len + 1);
_extern._refCount = nullptr;
_str = new value_type[_extern._capacity];
assert(_str != nullptr);
}
// Copy the string into the storage area
for (size_t idx = 0; idx < len; ++idx, ++str)
_str[idx] = (byte)(*str);
_str[len] = 0;
}
U32String operator+(const U32String &x, const U32String &y) {
U32String temp(x);
temp += y;
return temp;
}
} // End of namespace Common
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