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// Copyright 2016 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#ifndef CORE_FXCRT_CFX_STRING_DATA_TEMPLATE_H_
#define CORE_FXCRT_CFX_STRING_DATA_TEMPLATE_H_
#include "core/fxcrt/fx_memory.h"
#include "core/fxcrt/fx_system.h"
#include "third_party/base/numerics/safe_math.h"
template <typename CharType>
class CFX_StringDataTemplate {
public:
static CFX_StringDataTemplate* Create(FX_STRSIZE nLen) {
ASSERT(nLen > 0);
// Calculate space needed for the fixed portion of the struct plus the
// NUL char that is not included in |m_nAllocLength|.
int overhead =
offsetof(CFX_StringDataTemplate, m_String) + sizeof(CharType);
pdfium::base::CheckedNumeric<int> nSize = nLen;
nSize *= sizeof(CharType);
nSize += overhead;
// Now round to an 8-byte boundary. We'd expect that this is the minimum
// granularity of any of the underlying allocators, so there may be cases
// where we can save a re-alloc when adding a few characters to a string
// by using this otherwise wasted space.
nSize += 7;
int totalSize = nSize.ValueOrDie() & ~7;
int usableLen = (totalSize - overhead) / sizeof(CharType);
ASSERT(usableLen >= nLen);
void* pData = FX_Alloc(uint8_t, totalSize);
return new (pData) CFX_StringDataTemplate(nLen, usableLen);
}
static CFX_StringDataTemplate* Create(const CFX_StringDataTemplate& other) {
CFX_StringDataTemplate* result = Create(other.m_nDataLength);
result->CopyContents(other);
return result;
}
static CFX_StringDataTemplate* Create(const CharType* pStr, FX_STRSIZE nLen) {
CFX_StringDataTemplate* result = Create(nLen);
result->CopyContents(pStr, nLen);
return result;
}
void Retain() { ++m_nRefs; }
void Release() {
if (--m_nRefs <= 0)
FX_Free(this);
}
bool CanOperateInPlace(FX_STRSIZE nTotalLen) const {
return m_nRefs <= 1 && nTotalLen <= m_nAllocLength;
}
void CopyContents(const CFX_StringDataTemplate& other) {
ASSERT(other.m_nDataLength <= m_nAllocLength);
FXSYS_memcpy(m_String, other.m_String,
(other.m_nDataLength + 1) * sizeof(CharType));
}
void CopyContents(const CharType* pStr, FX_STRSIZE nLen) {
ASSERT(nLen >= 0 && nLen <= m_nAllocLength);
FXSYS_memcpy(m_String, pStr, nLen * sizeof(CharType));
m_String[nLen] = 0;
}
void CopyContentsAt(FX_STRSIZE offset,
const CharType* pStr,
FX_STRSIZE nLen) {
ASSERT(offset >= 0 && nLen >= 0 && offset + nLen <= m_nAllocLength);
FXSYS_memcpy(m_String + offset, pStr, nLen * sizeof(CharType));
m_String[offset + nLen] = 0;
}
// To ensure ref counts do not overflow, consider the worst possible case:
// the entire address space contains nothing but pointers to this object.
// Since the count increments with each new pointer, the largest value is
// the number of pointers that can fit into the address space. The size of
// the address space itself is a good upper bound on it.
intptr_t m_nRefs;
// |FX_STRSIZE| is currently typedef'd as |int|.
// TODO(palmer): It should be a |size_t|, or at least unsigned.
// These lengths are in terms of number of characters, not bytes, and do not
// include the terminating NUL character, but the underlying buffer is sized
// to be capable of holding it.
FX_STRSIZE m_nDataLength;
FX_STRSIZE m_nAllocLength;
// Not really 1, variable size.
CharType m_String[1];
private:
CFX_StringDataTemplate(FX_STRSIZE dataLen, FX_STRSIZE allocLen)
: m_nRefs(0), m_nDataLength(dataLen), m_nAllocLength(allocLen) {
ASSERT(dataLen >= 0);
ASSERT(dataLen <= allocLen);
m_String[dataLen] = 0;
}
~CFX_StringDataTemplate() = delete;
};
extern template class CFX_StringDataTemplate<FX_CHAR>;
extern template class CFX_StringDataTemplate<FX_WCHAR>;
#endif // CORE_FXCRT_CFX_STRING_DATA_TEMPLATE_H_
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