wxWidgets/include/wx/buffer.h
Vadim Zeitlin f2c6e60762 Ensure wxCharTypeBuffer data is NUL-terminated after extend() call.
As wxCharTypeBuffer ctor taking the length NUL-terminates the buffer, it may
be expected that extend() does the same but it did not. Do add the NUL at the
end for consistency, even though it's not really needed for the existing code
using extend() in wxWidgets itself.

Closes #13885.

git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@70417 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2012-01-20 22:11:51 +00:00

612 lines
16 KiB
C++

///////////////////////////////////////////////////////////////////////////////
// Name: wx/buffer.h
// Purpose: auto buffer classes: buffers which automatically free memory
// Author: Vadim Zeitlin
// Modified by:
// Created: 12.04.99
// RCS-ID: $Id$
// Copyright: (c) 1998 Vadim Zeitlin <zeitlin@dptmaths.ens-cachan.fr>
// Licence: wxWindows licence
///////////////////////////////////////////////////////////////////////////////
#ifndef _WX_BUFFER_H
#define _WX_BUFFER_H
#include "wx/chartype.h"
#include "wx/wxcrtbase.h"
#include <stdlib.h> // malloc() and free()
class WXDLLIMPEXP_FWD_BASE wxCStrData;
// ----------------------------------------------------------------------------
// Special classes for (wide) character strings: they use malloc/free instead
// of new/delete
// ----------------------------------------------------------------------------
// helpers used by wxCharTypeBuffer
namespace wxPrivate
{
struct UntypedBufferData
{
enum Kind
{
Owned,
NonOwned
};
UntypedBufferData(void *str, size_t len, Kind kind = Owned)
: m_str(str), m_length(len), m_ref(1), m_owned(kind == Owned) {}
~UntypedBufferData()
{
if ( m_owned )
free(m_str);
}
void *m_str;
size_t m_length;
// "short" to have sizeof(Data)=12 on 32bit archs
unsigned short m_ref;
bool m_owned;
};
// NB: this is defined in string.cpp and not the (non-existent) buffer.cpp
WXDLLIMPEXP_BASE UntypedBufferData * GetUntypedNullData();
} // namespace wxPrivate
// Reference-counted character buffer for storing string data. The buffer
// is only valid for as long as the "parent" object that provided the data
// is valid; see wxCharTypeBuffer<T> for persistent variant.
template <typename T>
class wxScopedCharTypeBuffer
{
public:
typedef T CharType;
wxScopedCharTypeBuffer()
{
m_data = GetNullData();
}
// Creates "non-owned" buffer, i.e. 'str' is not owned by the buffer
// and doesn't get freed by dtor. Used e.g. to point to wxString's internal
// storage.
static
const wxScopedCharTypeBuffer CreateNonOwned(const CharType *str,
size_t len = wxNO_LEN)
{
if ( len == wxNO_LEN )
len = wxStrlen(str);
wxScopedCharTypeBuffer buf;
if ( str )
buf.m_data = new Data(const_cast<CharType*>(str), len, Data::NonOwned);
return buf;
}
// Creates "owned" buffer, i.e. takes over ownership of 'str' and frees it
// in dtor (if ref.count reaches 0).
static
const wxScopedCharTypeBuffer CreateOwned(CharType *str,
size_t len = wxNO_LEN )
{
if ( len == wxNO_LEN )
len = wxStrlen(str);
wxScopedCharTypeBuffer buf;
if ( str )
buf.m_data = new Data(str, len);
return buf;
}
wxScopedCharTypeBuffer(const wxScopedCharTypeBuffer& src)
{
m_data = src.m_data;
IncRef();
}
wxScopedCharTypeBuffer& operator=(const wxScopedCharTypeBuffer& src)
{
if ( &src == this )
return *this;
DecRef();
m_data = src.m_data;
IncRef();
return *this;
}
~wxScopedCharTypeBuffer()
{
DecRef();
}
// NB: this method is only const for backward compatibility. It used to
// be needed for auto_ptr-like semantics of the copy ctor, but now
// that ref-counting is used, it's not really needed.
CharType *release() const
{
if ( m_data == GetNullData() )
return NULL;
wxASSERT_MSG( m_data->m_owned, wxT("can't release non-owned buffer") );
wxASSERT_MSG( m_data->m_ref == 1, wxT("can't release shared buffer") );
CharType * const p = m_data->Get();
wxScopedCharTypeBuffer *self = const_cast<wxScopedCharTypeBuffer*>(this);
self->m_data->Set(NULL, 0);
self->DecRef();
return p;
}
void reset()
{
DecRef();
}
CharType *data() { return m_data->Get(); }
const CharType *data() const { return m_data->Get(); }
operator const CharType *() const { return data(); }
CharType operator[](size_t n) const { return data()[n]; }
size_t length() const { return m_data->m_length; }
protected:
// reference-counted data
struct Data : public wxPrivate::UntypedBufferData
{
Data(CharType *str, size_t len, Kind kind = Owned)
: wxPrivate::UntypedBufferData(str, len, kind)
{
}
CharType *Get() const { return static_cast<CharType *>(m_str); }
void Set(CharType *str, size_t len)
{
m_str = str;
m_length = len;
}
};
// placeholder for NULL string, to simplify this code
static Data *GetNullData()
{
return static_cast<Data *>(wxPrivate::GetUntypedNullData());
}
void IncRef()
{
if ( m_data == GetNullData() ) // exception, not ref-counted
return;
m_data->m_ref++;
}
void DecRef()
{
if ( m_data == GetNullData() ) // exception, not ref-counted
return;
if ( --m_data->m_ref == 0 )
delete m_data;
m_data = GetNullData();
}
// sets this object to a be copy of 'other'; if 'src' is non-owned,
// a deep copy is made and 'this' will contain new instance of the data
void MakeOwnedCopyOf(const wxScopedCharTypeBuffer& src)
{
this->DecRef();
if ( src.m_data == this->GetNullData() )
{
this->m_data = this->GetNullData();
}
else if ( src.m_data->m_owned )
{
this->m_data = src.m_data;
this->IncRef();
}
else
{
// if the scoped buffer had non-owned data, we have to make
// a copy here, because src.m_data->m_str is valid only for as long
// as 'src' exists
this->m_data = new Data
(
StrCopy(src.data(), src.length()),
src.length()
);
}
}
static CharType *StrCopy(const CharType *src, size_t len)
{
CharType *dst = (CharType*)malloc(sizeof(CharType) * (len + 1));
memcpy(dst, src, sizeof(CharType) * (len + 1));
return dst;
}
protected:
Data *m_data;
};
typedef wxScopedCharTypeBuffer<char> wxScopedCharBuffer;
typedef wxScopedCharTypeBuffer<wchar_t> wxScopedWCharBuffer;
// this buffer class always stores data in "owned" (persistent) manner
template <typename T>
class wxCharTypeBuffer : public wxScopedCharTypeBuffer<T>
{
protected:
typedef typename wxScopedCharTypeBuffer<T>::Data Data;
public:
typedef T CharType;
wxCharTypeBuffer(const CharType *str = NULL, size_t len = wxNO_LEN)
{
if ( str )
{
if ( len == wxNO_LEN )
len = wxStrlen(str);
this->m_data = new Data(this->StrCopy(str, len), len);
}
else
{
this->m_data = this->GetNullData();
}
}
wxCharTypeBuffer(size_t len)
{
this->m_data =
new Data((CharType *)malloc((len + 1)*sizeof(CharType)), len);
this->m_data->Get()[len] = (CharType)0;
}
wxCharTypeBuffer(const wxCharTypeBuffer& src)
: wxScopedCharTypeBuffer<T>(src) {}
wxCharTypeBuffer& operator=(const CharType *str)
{
this->DecRef();
if ( str )
this->m_data = new Data(wxStrdup(str), wxStrlen(str));
return *this;
}
wxCharTypeBuffer& operator=(const wxCharTypeBuffer& src)
{
wxScopedCharTypeBuffer<T>::operator=(src);
return *this;
}
wxCharTypeBuffer(const wxScopedCharTypeBuffer<T>& src)
{
this->MakeOwnedCopyOf(src);
}
wxCharTypeBuffer& operator=(const wxScopedCharTypeBuffer<T>& src)
{
MakeOwnedCopyOf(src);
return *this;
}
bool extend(size_t len)
{
wxASSERT_MSG( this->m_data->m_owned, "cannot extend non-owned buffer" );
wxASSERT_MSG( this->m_data->m_ref == 1, "can't extend shared buffer" );
CharType *str =
(CharType *)realloc(this->data(), (len + 1) * sizeof(CharType));
if ( !str )
return false;
// For consistency with the ctor taking just the length, NUL-terminate
// the buffer.
str[len] = (CharType)0;
if ( this->m_data == this->GetNullData() )
{
this->m_data = new Data(str, len);
}
else
{
this->m_data->Set(str, len);
this->m_data->m_owned = true;
}
return true;
}
void shrink(size_t len)
{
wxASSERT_MSG( this->m_data->m_owned, "cannot shrink non-owned buffer" );
wxASSERT_MSG( this->m_data->m_ref == 1, "can't shrink shared buffer" );
wxASSERT( len <= this->length() );
this->m_data->m_length = len;
this->data()[len] = 0;
}
};
WXDLLIMPEXP_TEMPLATE_INSTANCE_BASE( wxScopedCharTypeBuffer<char> )
WXDLLIMPEXP_TEMPLATE_INSTANCE_BASE( wxCharTypeBuffer<char> )
class wxCharBuffer : public wxCharTypeBuffer<char>
{
public:
typedef wxCharTypeBuffer<char> wxCharTypeBufferBase;
typedef wxScopedCharTypeBuffer<char> wxScopedCharTypeBufferBase;
wxCharBuffer(const wxCharTypeBufferBase& buf)
: wxCharTypeBufferBase(buf) {}
wxCharBuffer(const wxScopedCharTypeBufferBase& buf)
: wxCharTypeBufferBase(buf) {}
wxCharBuffer(const CharType *str = NULL) : wxCharTypeBufferBase(str) {}
wxCharBuffer(size_t len) : wxCharTypeBufferBase(len) {}
wxCharBuffer(const wxCStrData& cstr);
};
WXDLLIMPEXP_TEMPLATE_INSTANCE_BASE( wxScopedCharTypeBuffer<wchar_t> )
WXDLLIMPEXP_TEMPLATE_INSTANCE_BASE( wxCharTypeBuffer<wchar_t> )
class wxWCharBuffer : public wxCharTypeBuffer<wchar_t>
{
public:
typedef wxCharTypeBuffer<wchar_t> wxCharTypeBufferBase;
typedef wxScopedCharTypeBuffer<wchar_t> wxScopedCharTypeBufferBase;
wxWCharBuffer(const wxCharTypeBufferBase& buf)
: wxCharTypeBufferBase(buf) {}
wxWCharBuffer(const wxScopedCharTypeBufferBase& buf)
: wxCharTypeBufferBase(buf) {}
wxWCharBuffer(const CharType *str = NULL) : wxCharTypeBufferBase(str) {}
wxWCharBuffer(size_t len) : wxCharTypeBufferBase(len) {}
wxWCharBuffer(const wxCStrData& cstr);
};
// wxCharTypeBuffer<T> implicitly convertible to T*
template <typename T>
class wxWritableCharTypeBuffer : public wxCharTypeBuffer<T>
{
public:
typedef typename wxScopedCharTypeBuffer<T>::CharType CharType;
wxWritableCharTypeBuffer(const wxScopedCharTypeBuffer<T>& src)
: wxCharTypeBuffer<T>(src) {}
// FIXME-UTF8: this won't be needed after converting mb_str()/wc_str() to
// always return a buffer
// + we should derive this class from wxScopedCharTypeBuffer
// then
wxWritableCharTypeBuffer(const CharType *str = NULL)
: wxCharTypeBuffer<T>(str) {}
operator CharType*() { return this->data(); }
};
typedef wxWritableCharTypeBuffer<char> wxWritableCharBuffer;
typedef wxWritableCharTypeBuffer<wchar_t> wxWritableWCharBuffer;
#if wxUSE_UNICODE
#define wxWxCharBuffer wxWCharBuffer
#define wxMB2WXbuf wxWCharBuffer
#define wxWX2MBbuf wxCharBuffer
#if wxUSE_UNICODE_WCHAR
#define wxWC2WXbuf wxChar*
#define wxWX2WCbuf wxChar*
#elif wxUSE_UNICODE_UTF8
#define wxWC2WXbuf wxWCharBuffer
#define wxWX2WCbuf wxWCharBuffer
#endif
#else // ANSI
#define wxWxCharBuffer wxCharBuffer
#define wxMB2WXbuf wxChar*
#define wxWX2MBbuf wxChar*
#define wxWC2WXbuf wxCharBuffer
#define wxWX2WCbuf wxWCharBuffer
#endif // Unicode/ANSI
// ----------------------------------------------------------------------------
// A class for holding growable data buffers (not necessarily strings)
// ----------------------------------------------------------------------------
// This class manages the actual data buffer pointer and is ref-counted.
class wxMemoryBufferData
{
public:
// the initial size and also the size added by ResizeIfNeeded()
enum { DefBufSize = 1024 };
friend class wxMemoryBuffer;
// everyting is private as it can only be used by wxMemoryBuffer
private:
wxMemoryBufferData(size_t size = wxMemoryBufferData::DefBufSize)
: m_data(size ? malloc(size) : NULL), m_size(size), m_len(0), m_ref(0)
{
}
~wxMemoryBufferData() { free(m_data); }
void ResizeIfNeeded(size_t newSize)
{
if (newSize > m_size)
{
void *dataOld = m_data;
m_data = realloc(m_data, newSize + wxMemoryBufferData::DefBufSize);
if ( !m_data )
{
free(dataOld);
}
m_size = newSize + wxMemoryBufferData::DefBufSize;
}
}
void IncRef() { m_ref += 1; }
void DecRef()
{
m_ref -= 1;
if (m_ref == 0) // are there no more references?
delete this;
}
void *release()
{
if ( m_data == NULL )
return NULL;
wxASSERT_MSG( m_ref == 1, "can't release shared buffer" );
void *p = m_data;
m_data = NULL;
m_len =
m_size = 0;
return p;
}
// the buffer containing the data
void *m_data;
// the size of the buffer
size_t m_size;
// the amount of data currently in the buffer
size_t m_len;
// the reference count
size_t m_ref;
wxDECLARE_NO_COPY_CLASS(wxMemoryBufferData);
};
class wxMemoryBuffer
{
public:
// ctor and dtor
wxMemoryBuffer(size_t size = wxMemoryBufferData::DefBufSize)
{
m_bufdata = new wxMemoryBufferData(size);
m_bufdata->IncRef();
}
~wxMemoryBuffer() { m_bufdata->DecRef(); }
// copy and assignment
wxMemoryBuffer(const wxMemoryBuffer& src)
: m_bufdata(src.m_bufdata)
{
m_bufdata->IncRef();
}
wxMemoryBuffer& operator=(const wxMemoryBuffer& src)
{
if (&src != this)
{
m_bufdata->DecRef();
m_bufdata = src.m_bufdata;
m_bufdata->IncRef();
}
return *this;
}
// Accessors
void *GetData() const { return m_bufdata->m_data; }
size_t GetBufSize() const { return m_bufdata->m_size; }
size_t GetDataLen() const { return m_bufdata->m_len; }
bool IsEmpty() const { return GetDataLen() == 0; }
void SetBufSize(size_t size) { m_bufdata->ResizeIfNeeded(size); }
void SetDataLen(size_t len)
{
wxASSERT(len <= m_bufdata->m_size);
m_bufdata->m_len = len;
}
void Clear() { SetDataLen(0); }
// Ensure the buffer is big enough and return a pointer to it
void *GetWriteBuf(size_t sizeNeeded)
{
m_bufdata->ResizeIfNeeded(sizeNeeded);
return m_bufdata->m_data;
}
// Update the length after the write
void UngetWriteBuf(size_t sizeUsed) { SetDataLen(sizeUsed); }
// Like the above, but appends to the buffer
void *GetAppendBuf(size_t sizeNeeded)
{
m_bufdata->ResizeIfNeeded(m_bufdata->m_len + sizeNeeded);
return (char*)m_bufdata->m_data + m_bufdata->m_len;
}
// Update the length after the append
void UngetAppendBuf(size_t sizeUsed)
{
SetDataLen(m_bufdata->m_len + sizeUsed);
}
// Other ways to append to the buffer
void AppendByte(char data)
{
wxCHECK_RET( m_bufdata->m_data, wxT("invalid wxMemoryBuffer") );
m_bufdata->ResizeIfNeeded(m_bufdata->m_len + 1);
*(((char*)m_bufdata->m_data) + m_bufdata->m_len) = data;
m_bufdata->m_len += 1;
}
void AppendData(const void *data, size_t len)
{
memcpy(GetAppendBuf(len), data, len);
UngetAppendBuf(len);
}
operator const char *() const { return (const char*)GetData(); }
// gives up ownership of data, returns the pointer; after this call,
// data isn't freed by the buffer and its content is resent to empty
void *release()
{
return m_bufdata->release();
}
private:
wxMemoryBufferData* m_bufdata;
};
// ----------------------------------------------------------------------------
// template class for any kind of data
// ----------------------------------------------------------------------------
// TODO
#endif // _WX_BUFFER_H