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// Copyright 2014 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_FX_BASIC_H_
#define CORE_FXCRT_FX_BASIC_H_
#include <algorithm>
#include <memory>
#include "core/fxcrt/cfx_retain_ptr.h"
#include "core/fxcrt/fx_memory.h"
#include "core/fxcrt/fx_stream.h"
#include "core/fxcrt/fx_string.h"
#include "core/fxcrt/fx_system.h"
class CFX_BinaryBuf {
public:
CFX_BinaryBuf();
explicit CFX_BinaryBuf(FX_STRSIZE size);
~CFX_BinaryBuf();
uint8_t* GetBuffer() const { return m_pBuffer.get(); }
FX_STRSIZE GetSize() const { return m_DataSize; }
void Clear();
void EstimateSize(FX_STRSIZE size, FX_STRSIZE alloc_step = 0);
void AppendBlock(const void* pBuf, FX_STRSIZE size);
void AppendString(const CFX_ByteString& str) {
AppendBlock(str.c_str(), str.GetLength());
}
void AppendByte(uint8_t byte) {
ExpandBuf(1);
m_pBuffer.get()[m_DataSize++] = byte;
}
void InsertBlock(FX_STRSIZE pos, const void* pBuf, FX_STRSIZE size);
void Delete(int start_index, int count);
// Releases ownership of |m_pBuffer| and returns it.
std::unique_ptr<uint8_t, FxFreeDeleter> DetachBuffer();
protected:
void ExpandBuf(FX_STRSIZE size);
FX_STRSIZE m_AllocStep;
FX_STRSIZE m_AllocSize;
FX_STRSIZE m_DataSize;
std::unique_ptr<uint8_t, FxFreeDeleter> m_pBuffer;
};
class CFX_ByteTextBuf : public CFX_BinaryBuf {
public:
FX_STRSIZE GetLength() const { return m_DataSize; }
CFX_ByteString MakeString() const {
return CFX_ByteString(m_pBuffer.get(), m_DataSize);
}
CFX_ByteStringC AsStringC() const {
return CFX_ByteStringC(m_pBuffer.get(), m_DataSize);
}
void AppendChar(int ch) { AppendByte(static_cast<uint8_t>(ch)); }
CFX_ByteTextBuf& operator<<(int i);
CFX_ByteTextBuf& operator<<(uint32_t i);
CFX_ByteTextBuf& operator<<(double f);
CFX_ByteTextBuf& operator<<(const FX_CHAR* pStr) {
return *this << CFX_ByteStringC(pStr);
}
CFX_ByteTextBuf& operator<<(const CFX_ByteString& str) {
return *this << str.AsStringC();
}
CFX_ByteTextBuf& operator<<(const CFX_ByteStringC& lpsz);
CFX_ByteTextBuf& operator<<(const CFX_ByteTextBuf& buf);
};
class CFX_WideTextBuf : public CFX_BinaryBuf {
public:
void AppendChar(FX_WCHAR wch);
FX_STRSIZE GetLength() const { return m_DataSize / sizeof(FX_WCHAR); }
FX_WCHAR* GetBuffer() const {
return reinterpret_cast<FX_WCHAR*>(m_pBuffer.get());
}
CFX_WideStringC AsStringC() const {
return CFX_WideStringC(reinterpret_cast<const FX_WCHAR*>(m_pBuffer.get()),
m_DataSize / sizeof(FX_WCHAR));
}
CFX_WideString MakeString() const {
return CFX_WideString(reinterpret_cast<const FX_WCHAR*>(m_pBuffer.get()),
m_DataSize / sizeof(FX_WCHAR));
}
void Delete(int start_index, int count) {
CFX_BinaryBuf::Delete(start_index * sizeof(FX_WCHAR),
count * sizeof(FX_WCHAR));
}
CFX_WideTextBuf& operator<<(int i);
CFX_WideTextBuf& operator<<(double f);
CFX_WideTextBuf& operator<<(const FX_WCHAR* lpsz);
CFX_WideTextBuf& operator<<(const CFX_WideStringC& str);
CFX_WideTextBuf& operator<<(const CFX_WideString& str);
CFX_WideTextBuf& operator<<(const CFX_WideTextBuf& buf);
};
class CFX_FileBufferArchive {
public:
CFX_FileBufferArchive();
~CFX_FileBufferArchive();
void Clear();
bool Flush();
int32_t AppendBlock(const void* pBuf, size_t size);
int32_t AppendByte(uint8_t byte);
int32_t AppendDWord(uint32_t i);
int32_t AppendString(const CFX_ByteStringC& lpsz);
void AttachFile(const CFX_RetainPtr<IFX_WriteStream>& pFile);
private:
static const size_t kBufSize = 32768;
size_t m_Length;
std::unique_ptr<uint8_t, FxFreeDeleter> m_pBuffer;
CFX_RetainPtr<IFX_WriteStream> m_pFile;
};
class CFX_CharMap {
public:
static CFX_ByteString GetByteString(uint16_t codepage,
const CFX_WideStringC& wstr);
static CFX_WideString GetWideString(uint16_t codepage,
const CFX_ByteStringC& bstr);
CFX_CharMap() = delete;
};
class CFX_UTF8Decoder {
public:
CFX_UTF8Decoder() { m_PendingBytes = 0; }
void Clear();
void Input(uint8_t byte);
void AppendChar(uint32_t ch);
void ClearStatus() { m_PendingBytes = 0; }
CFX_WideStringC GetResult() const { return m_Buffer.AsStringC(); }
protected:
int m_PendingBytes;
uint32_t m_PendingChar;
CFX_WideTextBuf m_Buffer;
};
class CFX_UTF8Encoder {
public:
CFX_UTF8Encoder() {}
void Input(FX_WCHAR unicode);
void AppendStr(const CFX_ByteStringC& str) { m_Buffer << str; }
CFX_ByteStringC GetResult() const { return m_Buffer.AsStringC(); }
protected:
CFX_ByteTextBuf m_Buffer;
};
class CFX_BasicArray {
protected:
explicit CFX_BasicArray(int unit_size);
CFX_BasicArray(const CFX_BasicArray&) = delete;
~CFX_BasicArray();
bool SetSize(int nNewSize);
bool Append(const CFX_BasicArray& src);
bool Copy(const CFX_BasicArray& src);
uint8_t* InsertSpaceAt(int nIndex, int nCount);
bool RemoveAt(int nIndex, int nCount);
bool InsertAt(int nStartIndex, const CFX_BasicArray* pNewArray);
const void* GetDataPtr(int index) const;
protected:
uint8_t* m_pData;
int m_nSize;
int m_nMaxSize;
int m_nUnitSize;
};
template <class TYPE>
class CFX_ArrayTemplate : public CFX_BasicArray {
public:
CFX_ArrayTemplate() : CFX_BasicArray(sizeof(TYPE)) {}
int GetSize() const { return m_nSize; }
int GetUpperBound() const { return m_nSize - 1; }
bool SetSize(int nNewSize) { return CFX_BasicArray::SetSize(nNewSize); }
void RemoveAll() { SetSize(0); }
const TYPE GetAt(int nIndex) const {
if (nIndex < 0 || nIndex >= m_nSize) {
PDFIUM_IMMEDIATE_CRASH();
}
return ((const TYPE*)m_pData)[nIndex];
}
bool SetAt(int nIndex, TYPE newElement) {
if (nIndex < 0 || nIndex >= m_nSize) {
return false;
}
((TYPE*)m_pData)[nIndex] = newElement;
return true;
}
TYPE& ElementAt(int nIndex) {
if (nIndex < 0 || nIndex >= m_nSize) {
PDFIUM_IMMEDIATE_CRASH();
}
return ((TYPE*)m_pData)[nIndex];
}
const TYPE* GetData() const { return (const TYPE*)m_pData; }
TYPE* GetData() { return (TYPE*)m_pData; }
bool SetAtGrow(int nIndex, TYPE newElement) {
if (nIndex < 0)
return false;
if (nIndex >= m_nSize && !SetSize(nIndex + 1))
return false;
((TYPE*)m_pData)[nIndex] = newElement;
return true;
}
bool Add(TYPE newElement) {
if (m_nSize < m_nMaxSize) {
m_nSize++;
} else if (!SetSize(m_nSize + 1)) {
return false;
}
((TYPE*)m_pData)[m_nSize - 1] = newElement;
return true;
}
bool Append(const CFX_ArrayTemplate& src) {
return CFX_BasicArray::Append(src);
}
bool Copy(const CFX_ArrayTemplate& src) { return CFX_BasicArray::Copy(src); }
TYPE* GetDataPtr(int index) {
return (TYPE*)CFX_BasicArray::GetDataPtr(index);
}
TYPE* AddSpace() { return (TYPE*)CFX_BasicArray::InsertSpaceAt(m_nSize, 1); }
TYPE* InsertSpaceAt(int nIndex, int nCount) {
return (TYPE*)CFX_BasicArray::InsertSpaceAt(nIndex, nCount);
}
const TYPE operator[](int nIndex) const {
if (nIndex < 0 || nIndex >= m_nSize) {
*(volatile char*)0 = '\0';
}
return ((const TYPE*)m_pData)[nIndex];
}
TYPE& operator[](int nIndex) {
if (nIndex < 0 || nIndex >= m_nSize) {
*(volatile char*)0 = '\0';
}
return ((TYPE*)m_pData)[nIndex];
}
bool InsertAt(int nIndex, TYPE newElement, int nCount = 1) {
if (!InsertSpaceAt(nIndex, nCount)) {
return false;
}
while (nCount--) {
((TYPE*)m_pData)[nIndex++] = newElement;
}
return true;
}
bool RemoveAt(int nIndex, int nCount = 1) {
return CFX_BasicArray::RemoveAt(nIndex, nCount);
}
bool InsertAt(int nStartIndex, const CFX_BasicArray* pNewArray) {
return CFX_BasicArray::InsertAt(nStartIndex, pNewArray);
}
int Find(TYPE data, int iStart = 0) const {
if (iStart < 0) {
return -1;
}
for (; iStart < (int)m_nSize; iStart++)
if (((TYPE*)m_pData)[iStart] == data) {
return iStart;
}
return -1;
}
};
template <class DataType, int FixedSize>
class CFX_FixedBufGrow {
public:
explicit CFX_FixedBufGrow(int data_size) {
if (data_size > FixedSize) {
m_pGrowData.reset(FX_Alloc(DataType, data_size));
return;
}
FXSYS_memset(m_FixedData, 0, sizeof(DataType) * FixedSize);
}
operator DataType*() { return m_pGrowData ? m_pGrowData.get() : m_FixedData; }
private:
DataType m_FixedData[FixedSize];
std::unique_ptr<DataType, FxFreeDeleter> m_pGrowData;
};
class CFX_BitStream {
public:
void Init(const uint8_t* pData, uint32_t dwSize);
uint32_t GetBits(uint32_t nBits);
void ByteAlign();
bool IsEOF() { return m_BitPos >= m_BitSize; }
void SkipBits(uint32_t nBits) { m_BitPos += nBits; }
void Rewind() { m_BitPos = 0; }
uint32_t GetPos() const { return m_BitPos; }
uint32_t BitsRemaining() const {
return m_BitSize >= m_BitPos ? m_BitSize - m_BitPos : 0;
}
protected:
uint32_t m_BitPos;
uint32_t m_BitSize;
const uint8_t* m_pData;
};
class IFX_Pause {
public:
virtual ~IFX_Pause() {}
virtual bool NeedToPauseNow() = 0;
};
template <typename T>
class CFX_AutoRestorer {
public:
explicit CFX_AutoRestorer(T* location)
: m_Location(location), m_OldValue(*location) {}
~CFX_AutoRestorer() { *m_Location = m_OldValue; }
private:
T* const m_Location;
const T m_OldValue;
};
#define FX_DATALIST_LENGTH 1024
template <size_t unit>
class CFX_SortListArray {
protected:
struct DataList {
int32_t start;
int32_t count;
uint8_t* data;
};
public:
CFX_SortListArray() : m_CurList(0) {}
~CFX_SortListArray() { Clear(); }
void Clear() {
for (int32_t i = m_DataLists.GetUpperBound(); i >= 0; i--) {
DataList list = m_DataLists.ElementAt(i);
FX_Free(list.data);
}
m_DataLists.RemoveAll();
m_CurList = 0;
}
void Append(int32_t nStart, int32_t nCount) {
if (nStart < 0) {
return;
}
while (nCount > 0) {
int32_t temp_count = std::min(nCount, FX_DATALIST_LENGTH);
DataList list;
list.data = FX_Alloc2D(uint8_t, temp_count, unit);
list.start = nStart;
list.count = temp_count;
Append(list);
nCount -= temp_count;
nStart += temp_count;
}
}
uint8_t* GetAt(int32_t nIndex) {
if (nIndex < 0) {
return nullptr;
}
if (m_CurList < 0 || m_CurList >= m_DataLists.GetSize()) {
return nullptr;
}
DataList* pCurList = m_DataLists.GetDataPtr(m_CurList);
if (!pCurList || nIndex < pCurList->start ||
nIndex >= pCurList->start + pCurList->count) {
pCurList = nullptr;
int32_t iStart = 0;
int32_t iEnd = m_DataLists.GetUpperBound();
int32_t iMid = 0;
while (iStart <= iEnd) {
iMid = (iStart + iEnd) / 2;
DataList* list = m_DataLists.GetDataPtr(iMid);
if (nIndex < list->start) {
iEnd = iMid - 1;
} else if (nIndex >= list->start + list->count) {
iStart = iMid + 1;
} else {
pCurList = list;
m_CurList = iMid;
break;
}
}
}
return pCurList ? pCurList->data + (nIndex - pCurList->start) * unit
: nullptr;
}
protected:
void Append(const DataList& list) {
int32_t iStart = 0;
int32_t iEnd = m_DataLists.GetUpperBound();
int32_t iFind = 0;
while (iStart <= iEnd) {
int32_t iMid = (iStart + iEnd) / 2;
DataList* cur_list = m_DataLists.GetDataPtr(iMid);
if (list.start < cur_list->start + cur_list->count) {
iEnd = iMid - 1;
} else {
if (iMid == iEnd) {
iFind = iMid + 1;
break;
}
DataList* next_list = m_DataLists.GetDataPtr(iMid + 1);
if (list.start < next_list->start) {
iFind = iMid + 1;
break;
} else {
iStart = iMid + 1;
}
}
}
m_DataLists.InsertAt(iFind, list);
}
int32_t m_CurList;
CFX_ArrayTemplate<DataList> m_DataLists;
};
template <typename T1, typename T2>
class CFX_ListArrayTemplate {
public:
void Clear() { m_Data.Clear(); }
void Add(int32_t nStart, int32_t nCount) { m_Data.Append(nStart, nCount); }
T2& operator[](int32_t nIndex) {
uint8_t* data = m_Data.GetAt(nIndex);
ASSERT(data);
return (T2&)(*(volatile T2*)data);
}
T2* GetPtrAt(int32_t nIndex) { return (T2*)m_Data.GetAt(nIndex); }
protected:
T1 m_Data;
};
typedef CFX_ListArrayTemplate<CFX_SortListArray<sizeof(FX_FILESIZE)>,
FX_FILESIZE>
CFX_FileSizeListArray;
#ifdef PDF_ENABLE_XFA
class IFX_Retainable {
public:
virtual uint32_t Retain() = 0;
virtual uint32_t Release() = 0;
protected:
virtual ~IFX_Retainable() {}
};
#define FX_IsOdd(a) ((a)&1)
#endif // PDF_ENABLE_XFA
class CFX_Vector_3by1 {
public:
CFX_Vector_3by1() : a(0.0f), b(0.0f), c(0.0f) {}
CFX_Vector_3by1(FX_FLOAT a1, FX_FLOAT b1, FX_FLOAT c1)
: a(a1), b(b1), c(c1) {}
FX_FLOAT a;
FX_FLOAT b;
FX_FLOAT c;
};
class CFX_Matrix_3by3 {
public:
CFX_Matrix_3by3()
: a(0.0f),
b(0.0f),
c(0.0f),
d(0.0f),
e(0.0f),
f(0.0f),
g(0.0f),
h(0.0f),
i(0.0f) {}
CFX_Matrix_3by3(FX_FLOAT a1,
FX_FLOAT b1,
FX_FLOAT c1,
FX_FLOAT d1,
FX_FLOAT e1,
FX_FLOAT f1,
FX_FLOAT g1,
FX_FLOAT h1,
FX_FLOAT i1)
: a(a1), b(b1), c(c1), d(d1), e(e1), f(f1), g(g1), h(h1), i(i1) {}
CFX_Matrix_3by3 Inverse();
CFX_Matrix_3by3 Multiply(const CFX_Matrix_3by3& m);
CFX_Vector_3by1 TransformVector(const CFX_Vector_3by1& v);
FX_FLOAT a;
FX_FLOAT b;
FX_FLOAT c;
FX_FLOAT d;
FX_FLOAT e;
FX_FLOAT f;
FX_FLOAT g;
FX_FLOAT h;
FX_FLOAT i;
};
uint32_t GetBits32(const uint8_t* pData, int bitpos, int nbits);
#endif // CORE_FXCRT_FX_BASIC_H_
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