/****************************************************************************

* *

* PrimeSense Sensor 5.x Alpha *

* Copyright (C) 2011 PrimeSense Ltd. *

* *

* This file is part of PrimeSense Sensor. *

* *

* PrimeSense Sensor 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. *

* *

* PrimeSense Sensor 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 PrimeSense Sensor. If not, see <http://www.gnu.org/licenses/>.*

* *

****************************************************************************/

//---------------------------------------------------------------------------

// Includes

//---------------------------------------------------------------------------

#include "XnImageProcessor.h"

#include "XnSensor.h"

#include <XnProfiling.h>

//---------------------------------------------------------------------------

// Code

//---------------------------------------------------------------------------

XnImageProcessor::XnImageProcessor(XnSensorImageStream* pStream, XnSensorStreamHelper* pHelper, XnFrameBufferManager* pBufferManager, XnBool bCompressedOutput /* = FALSE */) :

XnFrameStreamProcessor(pStream, pHelper, pBufferManager, XN_SENSOR_PROTOCOL_RESPONSE_IMAGE_START, XN_SENSOR_PROTOCOL_RESPONSE_IMAGE_END),

m_bCompressedOutput(bCompressedOutput)

{

}

XnImageProcessor::~XnImageProcessor()

{

// unregister from properties (otherwise, callbacks will be called with deleted pointer...)

GetStream()->XResProperty().OnChangeEvent().Unregister(m_hXResCallback);

GetStream()->YResProperty().OnChangeEvent().Unregister(m_hYResCallback);

GetStream()->m_FirmwareCropSizeX.OnChangeEvent().Unregister(m_hXCropCallback);

GetStream()->m_FirmwareCropSizeY.OnChangeEvent().Unregister(m_hYCropCallback);

GetStream()->m_FirmwareCropEnabled.OnChangeEvent().Unregister(m_hCropEnabledCallback);

}

XnStatus XnImageProcessor::Init()

{

XnStatus nRetVal = XN_STATUS_OK;

nRetVal = XnFrameStreamProcessor::Init();

XN_IS_STATUS_OK(nRetVal);

nRetVal = GetStream()->XResProperty().OnChangeEvent().Register(ActualResChangedCallback, this, m_hXResCallback);

XN_IS_STATUS_OK(nRetVal);

nRetVal = GetStream()->YResProperty().OnChangeEvent().Register(ActualResChangedCallback, this, m_hYResCallback);

XN_IS_STATUS_OK(nRetVal);

nRetVal = GetStream()->m_FirmwareCropSizeX.OnChangeEvent().Register(ActualResChangedCallback, this, m_hXCropCallback);

XN_IS_STATUS_OK(nRetVal);

nRetVal = GetStream()->m_FirmwareCropSizeY.OnChangeEvent().Register(ActualResChangedCallback, this, m_hYCropCallback);

XN_IS_STATUS_OK(nRetVal);

nRetVal = GetStream()->m_FirmwareCropEnabled.OnChangeEvent().Register(ActualResChangedCallback, this, m_hCropEnabledCallback);

XN_IS_STATUS_OK(nRetVal);

CalcActualRes();

return (XN_STATUS_OK);

}

XnUInt32 XnImageProcessor::CalculateExpectedSize()

{

XnUInt32 nExpectedDepthBufferSize = GetStream()->GetXRes() * GetStream()->GetYRes();

// when cropping is turned on, actual depth size is smaller

if (GetStream()->m_FirmwareCropEnabled.GetValue() == TRUE)

{

nExpectedDepthBufferSize = (XnUInt32)(GetStream()->m_FirmwareCropSizeX.GetValue() * GetStream()->m_FirmwareCropSizeY.GetValue());

}

nExpectedDepthBufferSize *= GetStream()->GetBytesPerPixel();

return nExpectedDepthBufferSize;

}

void XnImageProcessor::OnEndOfFrame(const XnSensorProtocolResponseHeader* pHeader)

{

if (!m_bCompressedOutput)

{

// make sure data size is right

XnUInt32 nExpectedSize = CalculateExpectedSize();

if (GetWriteBuffer()->GetSize() != nExpectedSize)

{

xnLogWarning(XN_MASK_SENSOR_READ, "Read: Image buffer is corrupt. Size is %u (!= %u)", GetWriteBuffer()->GetSize(), nExpectedSize);

FrameIsCorrupted();

}

}

// call base

XnFrameStreamProcessor::OnEndOfFrame(pHeader);

}

void XnImageProcessor::OnFrameReady(XnUInt32 nFrameID, XnUInt64 nFrameTS)

{

XnFrameStreamProcessor::OnFrameReady(nFrameID, nFrameTS);

m_pDevicePrivateData->pSensor->GetFPSCalculator()->MarkInputImage(nFrameID, nFrameTS);

}

void XnImageProcessor::CalcActualRes()

{

if (GetStream()->m_FirmwareCropEnabled.GetValue() == TRUE)

{

m_nActualXRes = (XnUInt32)GetStream()->m_FirmwareCropSizeX.GetValue();

m_nActualYRes = (XnUInt32)GetStream()->m_FirmwareCropSizeY.GetValue();

}

else

{

m_nActualXRes = GetStream()->GetXRes();

m_nActualYRes = GetStream()->GetYRes();

}

}

XnStatus XnImageProcessor::ActualResChangedCallback(const XnProperty* /*pSender*/, void* pCookie)

{

XnImageProcessor* pThis = (XnImageProcessor*)pCookie;

pThis->CalcActualRes();

return XN_STATUS_OK;

}