/usr/include/ni/XnBitSet.h is in libopenni-dev 1.5.4.0-14build1.
This file is owned by root:root, with mode 0o644.
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* *
* OpenNI 1.x Alpha *
* Copyright (C) 2011 PrimeSense Ltd. *
* *
* This file is part of OpenNI. *
* *
* OpenNI is free software: you can redistribute it and/or modify *
* it under the terms of the GNU Lesser General Public License as published *
* by the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* OpenNI 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 Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public License *
* along with OpenNI. If not, see <http://www.gnu.org/licenses/>. *
* *
****************************************************************************/
#ifndef __XNBITSET_H__
#define __XNBITSET_H__
#include <XnArray.h>
class XnBitSet
{
public:
XnBitSet() : m_nSize(0) {}
/** Reserves space in this bitset for the specified number of bits.
This saves you re-allocations and data copies if you know the size in advance. **/
XnStatus Reserve(XnUInt32 nBits)
{
return m_array.Reserve((nBits >> 5) + 1);
}
/** Sets the size of the bitset to the specified number of bits and sets them all to 0. **/
XnStatus SetSize(XnUInt32 nBits)
{
return m_array.SetSize((nBits >> 5) + 1, 0);
}
/** Sets the bit at nIndex to bValue. **/
XnStatus Set(XnUInt32 nIndex, XnBool bValue)
{
XnUInt32 nArrayIndex = (nIndex >> 5);
XnUInt32 nMask = (1 << ((~nIndex) & 0x1F));
XnUInt32 nOldVal = nArrayIndex < m_array.GetSize() ? m_array[nArrayIndex] : 0;
XnUInt32 nNewVal = bValue ? (nOldVal | nMask) : (nOldVal & (~nMask));
XnStatus nRetVal = m_array.Set(nArrayIndex, nNewVal, 0);
XN_IS_STATUS_OK(nRetVal);
m_nSize = XN_MAX(m_nSize, nIndex + 1);
return XN_STATUS_OK;
}
/** @returns the value of the bit specified by nIndex. **/
XnBool IsSet(XnUInt32 nIndex) const
{
XnUInt32 nArrayIndex = (nIndex >> 5);
if (nArrayIndex >= m_array.GetSize())
{
return FALSE;
}
return (m_array[nArrayIndex] & (1 << ((~nIndex) & 0x1F))) ? TRUE : FALSE;
}
/** Copies raw data from a buffer of dwords to this bitset. **/
XnStatus SetData(const XnUInt32* pData, XnUInt32 nSizeInDwords)
{
XnStatus nRetVal = m_array.SetData(pData, nSizeInDwords);
XN_IS_STATUS_OK(nRetVal);
m_nSize = (nSizeInDwords << 5);
return XN_STATUS_OK;
}
/** Copies raw data from a buffer of bytes to this bitset. **/
XnStatus SetDataBytes(const XnUInt8* pData, XnUInt32 nSizeInBytes)
{
//XnStatus nRetVal = m_array.SetData(reinterpret_cast<const XnUInt32*>(pData), XN_MAX(1, nSizeInBytes >> 2));
XnUInt32 nSizeInDwords = XN_MAX(1, nSizeInBytes >> 2);
XnStatus nRetVal = m_array.SetSize(nSizeInDwords);
XN_IS_STATUS_OK(nRetVal);
for (XnUInt32 nDwordIdx = 0, nByteIdx = 0; nDwordIdx < nSizeInDwords; nDwordIdx++, nByteIdx += 4)
{
m_array[nDwordIdx] = ((pData[nByteIdx] << 24) | (pData[nByteIdx + 1] << 16) | (pData[nByteIdx + 2] << 8) | pData[nByteIdx + 3] );
}
m_nSize = (nSizeInBytes << 3);
return XN_STATUS_OK;
}
/** @returns The raw data of this bitset as a buffer of dwords. **/
const XnUInt32* GetData() const
{
return m_array.GetData();
}
/** @returns The raw data of this bitset as a buffer of dwords. Allows modification of underlying data. **/
XnUInt32* GetData()
{
return m_array.GetData();
}
/** @returns size in bytes of this bitset. **/
XnUInt32 GetDataSize() const
{
return m_array.GetSize();
}
/** @returns size in bits of this bitset. **/
XnUInt32 GetSize() const
{
return m_nSize;
}
/** Clears data in this bitset and sets size to 0. **/
void Clear()
{
m_array.Clear();
m_nSize = 0;
}
/** @returns TRUE if this bitset is empty, FALSE otherwise. **/
XnBool IsEmpty() const
{
return m_array.IsEmpty();
}
private:
XnArray<XnUInt32> m_array;
XnUInt32 m_nSize;
};
#endif // __XNBITSET_H__
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