libvideoeditor/vss/src/M4DECODER_Null.c - platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2011 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 /**
 *************************************************************************
  * @file    M4DECODER_Null.c
  * @brief   Implementation of the Null decoder public interface
  * @note    This file implements a "null" video decoder, i.e. a decoder
  *          that does nothing
 *************************************************************************
 */
 #include "NXPSW_CompilerSwitches.h"

 #include "M4OSA_Types.h"
 #include "M4OSA_Debug.h"
 #include "M4TOOL_VersionInfo.h"
 #include "M4DA_Types.h"
 #include "M4DECODER_Common.h"
 #include "M4DECODER_Null.h"

 /**
  ************************************************************************
  * NULL Video Decoder version information
  ************************************************************************
 */
 /* CHANGE_VERSION_HERE */
 #define M4DECODER_NULL_MAJOR    1
 #define M4DECODER_NULL_MINOR    0
 #define M4DECODER_NULL_REVISION 0

 /**
  ************************************************************************
  * structure    M4_VideoHandler_Context
  * @brief       Defines the internal context of a video decoder instance
  * @note        The context is allocated and freed by the video decoder
  ************************************************************************
 */
 typedef struct {
     void*                    m_pLibrary;            // Core library identifier
     M4OSA_Int32              m_DecoderId;           // Core decoder identifier
     M4OSA_Int32              m_RendererId;          // Core renderer identifier
     M4_VideoStreamHandler*   m_pVideoStreamhandler; // Video stream description
     M4_AccessUnit*           m_pNextAccessUnitToDecode; // Access unit used to
                                                         // read and decode one frame
     void*                    m_pUserData;           // Pointer to any user data
     M4READER_DataInterface*  m_pReader;             // Reader data interface
     M4OSA_Bool               m_bDoRendering;        // Decides if render required
     M4OSA_Int32              m_structSize;          // Size of the structure

     M4DECODER_OutputFilter* m_pVideoFilter;         // Color conversion filter
     M4VIFI_ImagePlane       *pDecYuvData;           // Pointer to Yuv data plane
     M4VIFI_ImagePlane       *pDecYuvWithEffect;     // Pointer to Yuv plane with color effect
     M4OSA_Bool               bYuvWithEffectSet;     // Original Yuv data OR Yuv with color effect

 } M4_VideoHandler_Context;

 /***********************************************************************/
 /************** M4DECODER_VideoInterface implementation ****************/
 /***********************************************************************/

 /**
  ************************************************************************
  * @brief   Creates an instance of the decoder
  * @note    Allocates the context
  *
  * @param   pContext:       (OUT)   Context of the decoder
  * @param   pStreamHandler: (IN)    Pointer to a video stream description
  * @param   pSrcInterface:  (IN)    Pointer to the M4READER_DataInterface
  *                                  structure that must be used by the
  *                                  decoder to read data from the stream
  * @param   pAccessUnit     (IN)    Pointer to an access unit
  *                                  (allocated by the caller) where decoded data
  *                                  are stored
  *
  * @return  M4NO_ERROR              There is no error
  * @return  M4ERR_STATE             State automaton is not applied
  * @return  M4ERR_ALLOC             A memory allocation has failed
  * @return  M4ERR_PARAMETER         At least one input parameter is not proper
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_create(M4OSA_Context *pContext,
                                 M4_StreamHandler *pStreamHandler,
                                 M4READER_GlobalInterface *pReaderGlobalInterface,
                                 M4READER_DataInterface *pReaderDataInterface,
                                 M4_AccessUnit* pAccessUnit,
                                 M4OSA_Void* pUserData) {

     M4_VideoHandler_Context* pStreamContext = M4OSA_NULL;

     *pContext = M4OSA_NULL;
     pStreamContext = (M4_VideoHandler_Context*)M4OSA_32bitAlignedMalloc (
                         sizeof(M4_VideoHandler_Context), M4DECODER_MPEG4,
                         (M4OSA_Char *)"M4_VideoHandler_Context");
     if (pStreamContext == 0) {
         return M4ERR_ALLOC;
     }

     pStreamContext->m_structSize = sizeof(M4_VideoHandler_Context);
     pStreamContext->m_pNextAccessUnitToDecode = M4OSA_NULL;
     pStreamContext->m_pLibrary              = M4OSA_NULL;
     pStreamContext->m_pVideoStreamhandler   = M4OSA_NULL;
     pStreamContext->m_DecoderId             = -1;
     pStreamContext->m_RendererId            = -1;

     pStreamContext->m_pUserData = M4OSA_NULL;
     pStreamContext->m_bDoRendering = M4OSA_TRUE;
     pStreamContext->m_pVideoFilter = M4OSA_NULL;
     pStreamContext->bYuvWithEffectSet = M4OSA_FALSE;

     *pContext=pStreamContext;
     return M4NO_ERROR;
 }

 /**
  ************************************************************************
  * @brief   Destroy the instance of the decoder
  * @note    After this call the context is invalid
  *
  * @param   context:    (IN)    Context of the decoder
  *
  * @return  M4NO_ERROR          There is no error
  * @return  M4ERR_PARAMETER     The context is invalid
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_destroy(M4OSA_Context pContext) {

     M4_VideoHandler_Context* pStreamContext = (M4_VideoHandler_Context*)pContext;

     M4OSA_DEBUG_IF1((M4OSA_NULL == pStreamContext),
         M4ERR_PARAMETER, "M4DECODER_NULL_destroy: invalid context pointer");

     free(pStreamContext);

     return M4NO_ERROR;
 }

 /**
  ************************************************************************
  * @brief   Get an option value from the decoder
  * @note    This function allows the caller to retrieve a property value:
  *
  * @param   context:    (IN)        Context of the decoder
  * @param   optionId:   (IN)        Indicates the option to get
  * @param   pValue:     (IN/OUT)    Pointer to structure or value where
  *                                  option is stored
  *
  * @return  M4NO_ERROR              There is no error
  * @return  M4ERR_PARAMETER         The context is invalid (in DEBUG only)
  * @return  M4ERR_BAD_OPTION_ID     When the option ID is not a valid one
  * @return  M4ERR_STATE             State automaton is not applied
  * @return  M4ERR_NOT_IMPLEMENTED   Function not implemented
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_getOption(M4OSA_Context context,
                                    M4OSA_OptionID optionId,
                                    M4OSA_DataOption  pValue) {

     return M4ERR_NOT_IMPLEMENTED;
 }

 /**
  ************************************************************************
  * @brief   Set an option value of the decoder
  * @note    Allows the caller to set a property value:
  *
  * @param   context:    (IN)        Context of the decoder
  * @param   optionId:   (IN)        Identifier indicating the option to set
  * @param   pValue:     (IN)        Pointer to structure or value
  *                                  where option is stored
  *
  * @return  M4NO_ERROR              There is no error
  * @return  M4ERR_BAD_OPTION_ID     The option ID is not a valid one
  * @return  M4ERR_STATE             State automaton is not applied
  * @return  M4ERR_PARAMETER         The option parameter is invalid
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_setOption(M4OSA_Context context,
                                    M4OSA_OptionID optionId,
                                    M4OSA_DataOption pValue) {

     M4DECODER_OutputFilter *pFilterOption;

     M4_VideoHandler_Context *pStreamContext =
         (M4_VideoHandler_Context*)context;

     M4OSA_ERR err = M4NO_ERROR;
     M4OSA_UInt32 height = 0;
     M4OSA_UInt8 *p_src,*p_des;
     M4VIFI_ImagePlane* pTempDecYuvData = M4OSA_NULL;

     switch (optionId) {
         case M4DECODER_kOptionID_DecYuvData:
             pStreamContext->pDecYuvData = (M4VIFI_ImagePlane *)pValue;
             break;

         case M4DECODER_kOptionID_YuvWithEffectContiguous:
             pStreamContext->pDecYuvWithEffect = (M4VIFI_ImagePlane *)pValue;
             break;

         case M4DECODER_kOptionID_EnableYuvWithEffect:
             pStreamContext->bYuvWithEffectSet = (M4OSA_Bool)pValue;
             break;

         case M4DECODER_kOptionID_YuvWithEffectNonContiguous:
             pTempDecYuvData =  (M4VIFI_ImagePlane *)pValue;

             p_des = pStreamContext->pDecYuvWithEffect[0].pac_data +
                  pStreamContext->pDecYuvWithEffect[0].u_topleft;
             p_src = pTempDecYuvData[0].pac_data +
                  pTempDecYuvData[0].u_topleft;

             for (height = 0; height<pStreamContext->pDecYuvWithEffect[0].u_height;
              height++) {
                 memcpy((void *)p_des, (void *)p_src,
                  pStreamContext->pDecYuvWithEffect[0].u_width);

                 p_des += pStreamContext->pDecYuvWithEffect[0].u_stride;
                 p_src += pTempDecYuvData[0].u_stride;
             }

             p_des = pStreamContext->pDecYuvWithEffect[1].pac_data +
              pStreamContext->pDecYuvWithEffect[1].u_topleft;
             p_src = pTempDecYuvData[1].pac_data +
              pTempDecYuvData[1].u_topleft;

             for (height = 0; height<pStreamContext->pDecYuvWithEffect[1].u_height;
              height++) {
                 memcpy((void *)p_des, (void *)p_src,
                  pStreamContext->pDecYuvWithEffect[1].u_width);

                 p_des += pStreamContext->pDecYuvWithEffect[1].u_stride;
                 p_src += pTempDecYuvData[1].u_stride;
             }

             p_des = pStreamContext->pDecYuvWithEffect[2].pac_data +
              pStreamContext->pDecYuvWithEffect[2].u_topleft;
             p_src = pTempDecYuvData[2].pac_data +
              pTempDecYuvData[2].u_topleft;

             for (height = 0; height<pStreamContext->pDecYuvWithEffect[2].u_height;
              height++) {
                 memcpy((void *)p_des, (void *)p_src,
                  pStreamContext->pDecYuvWithEffect[2].u_width);

                 p_des += pStreamContext->pDecYuvWithEffect[2].u_stride;
                 p_src += pTempDecYuvData[2].u_stride;
             }
             break;

         case M4DECODER_kOptionID_OutputFilter:
             pFilterOption = (M4DECODER_OutputFilter*)pValue;
             break;

         case M4DECODER_kOptionID_DeblockingFilter:
             err = M4ERR_BAD_OPTION_ID;
             break;

         default:
             err = M4ERR_BAD_OPTION_ID;
             break;
     }
     return err;
 }

 /**
  ************************************************************************
  * @brief   Decode video Access Units up to a target time
  * @note    Parse and decode the video until it can output a decoded image
  *          for which the composition time is equal or greater to the
  *          passed targeted time.
  *          The data are read from the reader data interface passed to
  *          M4DECODER_MPEG4_create.
  *
  * @param   context:    (IN)        Context of the decoder
  * @param   pTime:      (IN/OUT)    IN: Time to decode up to (in msec)
  *                                  OUT:Time of the last decoded frame (in msec)
  * @param   bJump:      (IN)        0 if no jump occured just before this call
  *                                  1 if a a jump has just been made
  * @return  M4NO_ERROR              there is no error
  * @return  M4ERR_PARAMETER         at least one parameter is not properly set
  * @return  M4WAR_NO_MORE_AU        there is no more access unit to decode (EOS)
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_decode(M4OSA_Context context,
                                 M4_MediaTime* pTime, M4OSA_Bool bJump,
                                 M4OSA_UInt32 tolerance) {

     // Do nothing; input time stamp itself returned
     return M4NO_ERROR;
 }

 /**
  ************************************************************************
  * @brief   Renders the video at the specified time.
  * @note
  * @param   context:     (IN)       Context of the decoder
  * @param   pTime:       (IN/OUT)   IN: Time to render to (in msecs)
  *                                  OUT:Time of the rendered frame (in ms)
  * @param   pOutputPlane:(OUT)      Output plane filled with decoded data
  * @param   bForceRender:(IN)       1 if the image must be rendered even it
  *                                  has been rendered already
  *                                  0 if not
  *
  * @return  M4NO_ERROR              There is no error
  * @return  M4ERR_PARAMETER         At least one parameter is not properly set
  * @return  M4ERR_STATE             State automaton is not applied
  * @return  M4ERR_ALLOC             There is no more available memory
  * @return  M4WAR_VIDEORENDERER_NO_NEW_FRAME    If the frame has already been rendered
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_render(M4OSA_Context context, M4_MediaTime* pTime,
                                 M4VIFI_ImagePlane* pOutputPlane,
                                 M4OSA_Bool bForceRender) {

     M4OSA_ERR err = M4NO_ERROR;
     M4OSA_UInt32 height;
     M4OSA_UInt8 *p_src,*p_des;
     M4_VideoHandler_Context*    pStreamContext =
         (M4_VideoHandler_Context*)context;

     if (pStreamContext->bYuvWithEffectSet == M4OSA_TRUE) {

         p_des = pOutputPlane[0].pac_data + pOutputPlane[0].u_topleft;
         p_src = pStreamContext->pDecYuvWithEffect[0].pac_data +
          pStreamContext->pDecYuvWithEffect[0].u_topleft;

         for (height = 0; height<pOutputPlane[0].u_height; height++) {
             memcpy((void *)p_des, (void *)p_src, pOutputPlane[0].u_width);
             p_des += pOutputPlane[0].u_stride;
             p_src += pStreamContext->pDecYuvWithEffect[0].u_stride;
         }

         p_des = pOutputPlane[1].pac_data + pOutputPlane[1].u_topleft;
         p_src = pStreamContext->pDecYuvWithEffect[1].pac_data +
          pStreamContext->pDecYuvWithEffect[1].u_topleft;

         for (height = 0; height<pOutputPlane[1].u_height; height++) {
             memcpy((void *)p_des, (void *)p_src, pOutputPlane[1].u_width);
             p_des += pOutputPlane[1].u_stride;
             p_src += pStreamContext->pDecYuvWithEffect[1].u_stride;
         }

         p_des = pOutputPlane[2].pac_data + pOutputPlane[2].u_topleft;
         p_src = pStreamContext->pDecYuvWithEffect[2].pac_data +
          pStreamContext->pDecYuvWithEffect[2].u_topleft;

         for (height = 0; height<pOutputPlane[2].u_height; height++) {
             memcpy((void *)p_des, (void *)p_src, pOutputPlane[2].u_width);
             p_des += pOutputPlane[2].u_stride;
             p_src += pStreamContext->pDecYuvWithEffect[2].u_stride;
         }
     } else {

         p_des = pOutputPlane[0].pac_data + pOutputPlane[0].u_topleft;
         p_src = pStreamContext->pDecYuvData[0].pac_data +
          pStreamContext->pDecYuvData[0].u_topleft;

         for (height = 0; height<pOutputPlane[0].u_height; height++) {
             memcpy((void *)p_des, (void *)p_src, pOutputPlane[0].u_width);
             p_des += pOutputPlane[0].u_stride;
             p_src += pStreamContext->pDecYuvData[0].u_stride;
         }

         p_des = pOutputPlane[1].pac_data + pOutputPlane[1].u_topleft;
         p_src = pStreamContext->pDecYuvData[1].pac_data +
          pStreamContext->pDecYuvData[1].u_topleft;

         for (height = 0; height<pOutputPlane[1].u_height; height++) {
             memcpy((void *)p_des, (void *)p_src, pOutputPlane[1].u_width);
             p_des += pOutputPlane[1].u_stride;
             p_src += pStreamContext->pDecYuvData[1].u_stride;
         }

         p_des = pOutputPlane[2].pac_data + pOutputPlane[2].u_topleft;
         p_src = pStreamContext->pDecYuvData[2].pac_data +
          pStreamContext->pDecYuvData[2].u_topleft;

         for (height = 0; height<pOutputPlane[2].u_height; height++) {
             memcpy((void *)p_des,(void *)p_src,pOutputPlane[2].u_width);
             p_des += pOutputPlane[2].u_stride;
             p_src += pStreamContext->pDecYuvData[2].u_stride;
         }
     }
     return err;
 }

 /**
  ************************************************************************
  * @brief Retrieves the interface implemented by the decoder
  * @param pDecoderType        : Pointer to a M4DECODER_VideoType
  *                             (allocated by the caller)
  *                             that will be filled with the decoder type
  * @param pDecoderInterface   : Address of a pointer that will be set to
  *                              the interface implemented by this decoder.
  *                              The interface is a structure allocated by
  *                              this function and must be freed by the caller.
  *
  * @returns : M4NO_ERROR  if OK
  *            M4ERR_ALLOC if allocation failed
  ************************************************************************
 */
 M4OSA_ERR M4DECODER_NULL_getInterface (M4DECODER_VideoType *pDecoderType,
                             M4DECODER_VideoInterface **pDecoderInterface) {

     *pDecoderInterface =
         (M4DECODER_VideoInterface*)M4OSA_32bitAlignedMalloc(
          sizeof(M4DECODER_VideoInterface),
          M4DECODER_MPEG4, (M4OSA_Char *)"M4DECODER_VideoInterface");

     if (M4OSA_NULL == *pDecoderInterface) {
         return M4ERR_ALLOC;
     }

     *pDecoderType = M4DECODER_kVideoTypeYUV420P;

     (*pDecoderInterface)->m_pFctCreate    = M4DECODER_NULL_create;
     (*pDecoderInterface)->m_pFctDestroy   = M4DECODER_NULL_destroy;
     (*pDecoderInterface)->m_pFctGetOption = M4DECODER_NULL_getOption;
     (*pDecoderInterface)->m_pFctSetOption = M4DECODER_NULL_setOption;
     (*pDecoderInterface)->m_pFctDecode    = M4DECODER_NULL_decode;
     (*pDecoderInterface)->m_pFctRender    = M4DECODER_NULL_render;

     return M4NO_ERROR;
 }
	/*
	* Copyright (C) 2011 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	/**
	*************************************************************************
	* @file M4DECODER_Null.c
	* @brief Implementation of the Null decoder public interface
	* @note This file implements a "null" video decoder, i.e. a decoder
	* that does nothing
	*************************************************************************
	*/
	#include "NXPSW_CompilerSwitches.h"

	#include "M4OSA_Types.h"
	#include "M4OSA_Debug.h"
	#include "M4TOOL_VersionInfo.h"
	#include "M4DA_Types.h"
	#include "M4DECODER_Common.h"
	#include "M4DECODER_Null.h"

	/**
	************************************************************************
	* NULL Video Decoder version information
	************************************************************************
	*/
	/* CHANGE_VERSION_HERE */
	#define M4DECODER_NULL_MAJOR 1
	#define M4DECODER_NULL_MINOR 0
	#define M4DECODER_NULL_REVISION 0

	/**
	************************************************************************
	* structure M4_VideoHandler_Context
	* @brief Defines the internal context of a video decoder instance
	* @note The context is allocated and freed by the video decoder
	************************************************************************
	*/
	typedef struct {
	void* m_pLibrary; // Core library identifier
	M4OSA_Int32 m_DecoderId; // Core decoder identifier
	M4OSA_Int32 m_RendererId; // Core renderer identifier
	M4_VideoStreamHandler* m_pVideoStreamhandler; // Video stream description
	M4_AccessUnit* m_pNextAccessUnitToDecode; // Access unit used to
	// read and decode one frame
	void* m_pUserData; // Pointer to any user data
	M4READER_DataInterface* m_pReader; // Reader data interface
	M4OSA_Bool m_bDoRendering; // Decides if render required
	M4OSA_Int32 m_structSize; // Size of the structure

	M4DECODER_OutputFilter* m_pVideoFilter; // Color conversion filter
	M4VIFI_ImagePlane *pDecYuvData; // Pointer to Yuv data plane
	M4VIFI_ImagePlane *pDecYuvWithEffect; // Pointer to Yuv plane with color effect
	M4OSA_Bool bYuvWithEffectSet; // Original Yuv data OR Yuv with color effect

	} M4_VideoHandler_Context;

	/***********************************************************************/
	/************ M4DECODER_VideoInterface implementation **************/
	/***********************************************************************/

	/**
	************************************************************************
	* @brief Creates an instance of the decoder
	* @note Allocates the context
	*
	* @param pContext: (OUT) Context of the decoder
	* @param pStreamHandler: (IN) Pointer to a video stream description
	* @param pSrcInterface: (IN) Pointer to the M4READER_DataInterface
	* structure that must be used by the
	* decoder to read data from the stream
	* @param pAccessUnit (IN) Pointer to an access unit
	* (allocated by the caller) where decoded data
	* are stored
	*
	* @return M4NO_ERROR There is no error
	* @return M4ERR_STATE State automaton is not applied
	* @return M4ERR_ALLOC A memory allocation has failed
	* @return M4ERR_PARAMETER At least one input parameter is not proper
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_create(M4OSA_Context *pContext,
	M4_StreamHandler *pStreamHandler,
	M4READER_GlobalInterface *pReaderGlobalInterface,
	M4READER_DataInterface *pReaderDataInterface,
	M4_AccessUnit* pAccessUnit,
	M4OSA_Void* pUserData) {

	M4_VideoHandler_Context* pStreamContext = M4OSA_NULL;

	*pContext = M4OSA_NULL;
	pStreamContext = (M4_VideoHandler_Context*)M4OSA_32bitAlignedMalloc (
	sizeof(M4_VideoHandler_Context), M4DECODER_MPEG4,
	(M4OSA_Char *)"M4_VideoHandler_Context");
	if (pStreamContext == 0) {
	return M4ERR_ALLOC;
	}

	pStreamContext->m_structSize = sizeof(M4_VideoHandler_Context);
	pStreamContext->m_pNextAccessUnitToDecode = M4OSA_NULL;
	pStreamContext->m_pLibrary = M4OSA_NULL;
	pStreamContext->m_pVideoStreamhandler = M4OSA_NULL;
	pStreamContext->m_DecoderId = -1;
	pStreamContext->m_RendererId = -1;

	pStreamContext->m_pUserData = M4OSA_NULL;
	pStreamContext->m_bDoRendering = M4OSA_TRUE;
	pStreamContext->m_pVideoFilter = M4OSA_NULL;
	pStreamContext->bYuvWithEffectSet = M4OSA_FALSE;

	*pContext=pStreamContext;
	return M4NO_ERROR;
	}

	/**
	************************************************************************
	* @brief Destroy the instance of the decoder
	* @note After this call the context is invalid
	*
	* @param context: (IN) Context of the decoder
	*
	* @return M4NO_ERROR There is no error
	* @return M4ERR_PARAMETER The context is invalid
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_destroy(M4OSA_Context pContext) {

	M4_VideoHandler_Context* pStreamContext = (M4_VideoHandler_Context*)pContext;

	M4OSA_DEBUG_IF1((M4OSA_NULL == pStreamContext),
	M4ERR_PARAMETER, "M4DECODER_NULL_destroy: invalid context pointer");

	free(pStreamContext);

	return M4NO_ERROR;
	}

	/**
	************************************************************************
	* @brief Get an option value from the decoder
	* @note This function allows the caller to retrieve a property value:
	*
	* @param context: (IN) Context of the decoder
	* @param optionId: (IN) Indicates the option to get
	* @param pValue: (IN/OUT) Pointer to structure or value where
	* option is stored
	*
	* @return M4NO_ERROR There is no error
	* @return M4ERR_PARAMETER The context is invalid (in DEBUG only)
	* @return M4ERR_BAD_OPTION_ID When the option ID is not a valid one
	* @return M4ERR_STATE State automaton is not applied
	* @return M4ERR_NOT_IMPLEMENTED Function not implemented
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_getOption(M4OSA_Context context,
	M4OSA_OptionID optionId,
	M4OSA_DataOption pValue) {

	return M4ERR_NOT_IMPLEMENTED;
	}

	/**
	************************************************************************
	* @brief Set an option value of the decoder
	* @note Allows the caller to set a property value:
	*
	* @param context: (IN) Context of the decoder
	* @param optionId: (IN) Identifier indicating the option to set
	* @param pValue: (IN) Pointer to structure or value
	* where option is stored
	*
	* @return M4NO_ERROR There is no error
	* @return M4ERR_BAD_OPTION_ID The option ID is not a valid one
	* @return M4ERR_STATE State automaton is not applied
	* @return M4ERR_PARAMETER The option parameter is invalid
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_setOption(M4OSA_Context context,
	M4OSA_OptionID optionId,
	M4OSA_DataOption pValue) {

	M4DECODER_OutputFilter *pFilterOption;

	M4_VideoHandler_Context *pStreamContext =
	(M4_VideoHandler_Context*)context;

	M4OSA_ERR err = M4NO_ERROR;
	M4OSA_UInt32 height = 0;
	M4OSA_UInt8 p_src,p_des;
	M4VIFI_ImagePlane* pTempDecYuvData = M4OSA_NULL;

	switch (optionId) {
	case M4DECODER_kOptionID_DecYuvData:
	pStreamContext->pDecYuvData = (M4VIFI_ImagePlane *)pValue;
	break;

	case M4DECODER_kOptionID_YuvWithEffectContiguous:
	pStreamContext->pDecYuvWithEffect = (M4VIFI_ImagePlane *)pValue;
	break;

	case M4DECODER_kOptionID_EnableYuvWithEffect:
	pStreamContext->bYuvWithEffectSet = (M4OSA_Bool)pValue;
	break;

	case M4DECODER_kOptionID_YuvWithEffectNonContiguous:
	pTempDecYuvData = (M4VIFI_ImagePlane *)pValue;

	p_des = pStreamContext->pDecYuvWithEffect[0].pac_data +
	pStreamContext->pDecYuvWithEffect[0].u_topleft;
	p_src = pTempDecYuvData[0].pac_data +
	pTempDecYuvData[0].u_topleft;

	for (height = 0; height<pStreamContext->pDecYuvWithEffect[0].u_height;
	height++) {
	memcpy((void )p_des, (void )p_src,
	pStreamContext->pDecYuvWithEffect[0].u_width);

	p_des += pStreamContext->pDecYuvWithEffect[0].u_stride;
	p_src += pTempDecYuvData[0].u_stride;
	}

	p_des = pStreamContext->pDecYuvWithEffect[1].pac_data +
	pStreamContext->pDecYuvWithEffect[1].u_topleft;
	p_src = pTempDecYuvData[1].pac_data +
	pTempDecYuvData[1].u_topleft;

	for (height = 0; height<pStreamContext->pDecYuvWithEffect[1].u_height;
	height++) {
	memcpy((void )p_des, (void )p_src,
	pStreamContext->pDecYuvWithEffect[1].u_width);

	p_des += pStreamContext->pDecYuvWithEffect[1].u_stride;
	p_src += pTempDecYuvData[1].u_stride;
	}

	p_des = pStreamContext->pDecYuvWithEffect[2].pac_data +
	pStreamContext->pDecYuvWithEffect[2].u_topleft;
	p_src = pTempDecYuvData[2].pac_data +
	pTempDecYuvData[2].u_topleft;

	for (height = 0; height<pStreamContext->pDecYuvWithEffect[2].u_height;
	height++) {
	memcpy((void )p_des, (void )p_src,
	pStreamContext->pDecYuvWithEffect[2].u_width);

	p_des += pStreamContext->pDecYuvWithEffect[2].u_stride;
	p_src += pTempDecYuvData[2].u_stride;
	}
	break;

	case M4DECODER_kOptionID_OutputFilter:
	pFilterOption = (M4DECODER_OutputFilter*)pValue;
	break;

	case M4DECODER_kOptionID_DeblockingFilter:
	err = M4ERR_BAD_OPTION_ID;
	break;

	default:
	err = M4ERR_BAD_OPTION_ID;
	break;
	}
	return err;
	}

	/**
	************************************************************************
	* @brief Decode video Access Units up to a target time
	* @note Parse and decode the video until it can output a decoded image
	* for which the composition time is equal or greater to the
	* passed targeted time.
	* The data are read from the reader data interface passed to
	* M4DECODER_MPEG4_create.
	*
	* @param context: (IN) Context of the decoder
	* @param pTime: (IN/OUT) IN: Time to decode up to (in msec)
	* OUT:Time of the last decoded frame (in msec)
	* @param bJump: (IN) 0 if no jump occured just before this call
	* 1 if a a jump has just been made
	* @return M4NO_ERROR there is no error
	* @return M4ERR_PARAMETER at least one parameter is not properly set
	* @return M4WAR_NO_MORE_AU there is no more access unit to decode (EOS)
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_decode(M4OSA_Context context,
	M4_MediaTime* pTime, M4OSA_Bool bJump,
	M4OSA_UInt32 tolerance) {

	// Do nothing; input time stamp itself returned
	return M4NO_ERROR;
	}

	/**
	************************************************************************
	* @brief Renders the video at the specified time.
	* @note
	* @param context: (IN) Context of the decoder
	* @param pTime: (IN/OUT) IN: Time to render to (in msecs)
	* OUT:Time of the rendered frame (in ms)
	* @param pOutputPlane:(OUT) Output plane filled with decoded data
	* @param bForceRender:(IN) 1 if the image must be rendered even it
	* has been rendered already
	* 0 if not
	*
	* @return M4NO_ERROR There is no error
	* @return M4ERR_PARAMETER At least one parameter is not properly set
	* @return M4ERR_STATE State automaton is not applied
	* @return M4ERR_ALLOC There is no more available memory
	* @return M4WAR_VIDEORENDERER_NO_NEW_FRAME If the frame has already been rendered
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_render(M4OSA_Context context, M4_MediaTime* pTime,
	M4VIFI_ImagePlane* pOutputPlane,
	M4OSA_Bool bForceRender) {

	M4OSA_ERR err = M4NO_ERROR;
	M4OSA_UInt32 height;
	M4OSA_UInt8 p_src,p_des;
	M4_VideoHandler_Context* pStreamContext =
	(M4_VideoHandler_Context*)context;

	if (pStreamContext->bYuvWithEffectSet == M4OSA_TRUE) {

	p_des = pOutputPlane[0].pac_data + pOutputPlane[0].u_topleft;
	p_src = pStreamContext->pDecYuvWithEffect[0].pac_data +
	pStreamContext->pDecYuvWithEffect[0].u_topleft;

	for (height = 0; height<pOutputPlane[0].u_height; height++) {
	memcpy((void )p_des, (void )p_src, pOutputPlane[0].u_width);
	p_des += pOutputPlane[0].u_stride;
	p_src += pStreamContext->pDecYuvWithEffect[0].u_stride;
	}

	p_des = pOutputPlane[1].pac_data + pOutputPlane[1].u_topleft;
	p_src = pStreamContext->pDecYuvWithEffect[1].pac_data +
	pStreamContext->pDecYuvWithEffect[1].u_topleft;

	for (height = 0; height<pOutputPlane[1].u_height; height++) {
	memcpy((void )p_des, (void )p_src, pOutputPlane[1].u_width);
	p_des += pOutputPlane[1].u_stride;
	p_src += pStreamContext->pDecYuvWithEffect[1].u_stride;
	}

	p_des = pOutputPlane[2].pac_data + pOutputPlane[2].u_topleft;
	p_src = pStreamContext->pDecYuvWithEffect[2].pac_data +
	pStreamContext->pDecYuvWithEffect[2].u_topleft;

	for (height = 0; height<pOutputPlane[2].u_height; height++) {
	memcpy((void )p_des, (void )p_src, pOutputPlane[2].u_width);
	p_des += pOutputPlane[2].u_stride;
	p_src += pStreamContext->pDecYuvWithEffect[2].u_stride;
	}
	} else {

	p_des = pOutputPlane[0].pac_data + pOutputPlane[0].u_topleft;
	p_src = pStreamContext->pDecYuvData[0].pac_data +
	pStreamContext->pDecYuvData[0].u_topleft;

	for (height = 0; height<pOutputPlane[0].u_height; height++) {
	memcpy((void )p_des, (void )p_src, pOutputPlane[0].u_width);
	p_des += pOutputPlane[0].u_stride;
	p_src += pStreamContext->pDecYuvData[0].u_stride;
	}

	p_des = pOutputPlane[1].pac_data + pOutputPlane[1].u_topleft;
	p_src = pStreamContext->pDecYuvData[1].pac_data +
	pStreamContext->pDecYuvData[1].u_topleft;

	for (height = 0; height<pOutputPlane[1].u_height; height++) {
	memcpy((void )p_des, (void )p_src, pOutputPlane[1].u_width);
	p_des += pOutputPlane[1].u_stride;
	p_src += pStreamContext->pDecYuvData[1].u_stride;
	}

	p_des = pOutputPlane[2].pac_data + pOutputPlane[2].u_topleft;
	p_src = pStreamContext->pDecYuvData[2].pac_data +
	pStreamContext->pDecYuvData[2].u_topleft;

	for (height = 0; height<pOutputPlane[2].u_height; height++) {
	memcpy((void )p_des,(void )p_src,pOutputPlane[2].u_width);
	p_des += pOutputPlane[2].u_stride;
	p_src += pStreamContext->pDecYuvData[2].u_stride;
	}
	}
	return err;
	}

	/**
	************************************************************************
	* @brief Retrieves the interface implemented by the decoder
	* @param pDecoderType : Pointer to a M4DECODER_VideoType
	* (allocated by the caller)
	* that will be filled with the decoder type
	* @param pDecoderInterface : Address of a pointer that will be set to
	* the interface implemented by this decoder.
	* The interface is a structure allocated by
	* this function and must be freed by the caller.
	*
	* @returns : M4NO_ERROR if OK
	* M4ERR_ALLOC if allocation failed
	************************************************************************
	*/
	M4OSA_ERR M4DECODER_NULL_getInterface (M4DECODER_VideoType *pDecoderType,
	M4DECODER_VideoInterface **pDecoderInterface) {

	*pDecoderInterface =
	(M4DECODER_VideoInterface*)M4OSA_32bitAlignedMalloc(
	sizeof(M4DECODER_VideoInterface),
	M4DECODER_MPEG4, (M4OSA_Char *)"M4DECODER_VideoInterface");

	if (M4OSA_NULL == *pDecoderInterface) {
	return M4ERR_ALLOC;
	}

	*pDecoderType = M4DECODER_kVideoTypeYUV420P;

	(*pDecoderInterface)->m_pFctCreate = M4DECODER_NULL_create;
	(*pDecoderInterface)->m_pFctDestroy = M4DECODER_NULL_destroy;
	(*pDecoderInterface)->m_pFctGetOption = M4DECODER_NULL_getOption;
	(*pDecoderInterface)->m_pFctSetOption = M4DECODER_NULL_setOption;
	(*pDecoderInterface)->m_pFctDecode = M4DECODER_NULL_decode;
	(*pDecoderInterface)->m_pFctRender = M4DECODER_NULL_render;

	return M4NO_ERROR;
	}