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/*****************************************************************************
 *
 * Filename:
 * ---------
 *   yuv_rotator_api.h
 *
 * Project:
 * --------
 *   Maui
 *
 * Description:
 * ------------
 *   RGB Rotator
 *
 * Author:
 * -------
 * -------
 *
 *============================================================================
 *             HISTORY
 * Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *------------------------------------------------------------------------------
 * removed!
 *
 * removed!
 * removed!
 * removed!
 *
 * removed!
 * removed!
 * removed!
 *
 *------------------------------------------------------------------------------
 * Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *============================================================================
 ****************************************************************************/
#ifndef __YUV_ROTATOR_API_H__
#define __YUV_ROTATOR_API_H__

#include "kal_general_types.h"

#include "rotator_enum.h"

#include "gfx_cache_switch_behavior_enum.h"

typedef struct YUV_ROTATOR_HANDLE_STRUCT_T YUV_ROTATOR_HANDLE_STRUCT;

/**
 *  Init yuv rotator
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Rotator status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorInit(void);



/**
 *  Get yuv rotator handle
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Rotator status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorGetHandle(YUV_ROTATOR_HANDLE_STRUCT **handlePtr, ROTATOR_MODE_ENUM mode);



/**
 *  Release yuv rotator handle
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Rotator status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorReleaseHandle(YUV_ROTATOR_HANDLE_STRUCT *handle);



/**
 *  Setting the callback function for the RGB Rotator
 *  @return G2D_STATUS_ENUM : enumeration type of RGB Rotator status
 *  @remarks This function sets the callback function user defined.
 *           Only if the callback function is set, the interrupt of
 *           hardware RGB Rotator will be enable, else the interrupt will be
 *           disable
 *
 */
ROTATOR_STATUS_ENUM yuvRotatorSetCallbackFunction(YUV_ROTATOR_HANDLE_STRUCT *handle, ROTATOR_CALLBACK_FUNC_PTR yuvRotatorCallback);



/**
 *  Setting the source buffer information
 *  @param colorFormat  : enumeration type of source color format
 *  @param bufferAddr   : address pointer of source buffer
 *  @param bufferSize   : size of source buffer
 *  @param bufferWidth  : the source buffer width
 *  @param bufferHeight : the source buffer height
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetSrcBufferInfo(YUV_ROTATOR_HANDLE_STRUCT *handle,
                                               ROTATOR_COLOR_FORMAT_ENUM colorFormat,
                                               void *yBufferAddr, void *uBufferAddr, void *vBufferAddr,
                                               kal_uint32 yBufferSize, kal_uint32 uBufferSize, kal_uint32 vBufferSize,
                                               kal_uint32 bufferWidth, kal_uint32 bufferHeight);



/**
 *  Setting the destination buffer information
 *  @param colorFormat  : enumeration type of destination color format
 *  @param bufferAddr   : address pointer of destination buffer
 *  @param bufferSize   : size of destination buffer
 *  @param bufferWidth  : the destination buffer width
 *  @param bufferHeight : the destination buffer height
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetDstBufferInfo(YUV_ROTATOR_HANDLE_STRUCT *handle,
                                               ROTATOR_COLOR_FORMAT_ENUM colorFormat,
                                               void *yBufferAddr, void *uBufferAddr, void *vBufferAddr,
                                               kal_uint32 yBufferSize, kal_uint32 uBufferSize, kal_uint32 vBufferSize,
                                               kal_uint32 bufferWidth, kal_uint32 bufferHeight);



/**
 *  Setting the Destination buffer cache switch behavior
 */
ROTATOR_STATUS_ENUM yuvRotatorSetDstBufferSwitchBehavior(YUV_ROTATOR_HANDLE_STRUCT *handle, GFX_CACHE_SWITCH_BEHAVIOR_ENUM behavior);



/**
 *  Setting the source window information
 *  @param x : x-coordinate of top-left point in source window
 *  @param y : y-coordinate of top-left point in source window
 *  @param w : source window width
 *  @param h : source window height
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetSrcWindow(YUV_ROTATOR_HANDLE_STRUCT *handle, kal_int32 x, kal_int32 y, kal_uint32 w, kal_uint32 h);



/**
 *  Setting the destination window information
 *  @param x : x-coordinate of top-left point in destination  window
 *  @param y : y-coordinate of top-left point in destination  window
 *  @param w :  window width
 *  @param h :  window height
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetDstWindow(YUV_ROTATOR_HANDLE_STRUCT *handle, kal_int32 x, kal_int32 y, kal_uint32 w, kal_uint32 h);



/**
 *  Setting the rotation angle
 *  @param rotation     : rotation angle
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetRotation(YUV_ROTATOR_HANDLE_STRUCT *handle, ROTATOR_CW_ROTATE_ANGLE_ENUM rotation);



/**
 *  Abort the RGB Resizing process.
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorCheckAbortFunction(YUV_ROTATOR_HANDLE_STRUCT *handle, kal_int32 (*check_abort_func)(void));



/**
 *  Query the necessary working memory for the encoder.
 *  @param intMemBest  : pointer to unsigned int to obtain the max internal memory size
 *  @param intMemMin   : pointer to unsigned int to obtain the min internal memory size
 *  @param extMemBest  : pointer to unsigned int to obtain the max external memory size
 *  @param extMemMin   : pointer to unsigned int to obtain the min external memory size
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorQueryWorkingMemory(YUV_ROTATOR_HANDLE_STRUCT *handle, kal_uint32 *intMemBest, kal_uint32 *intMemMin,
                                                 kal_uint32 *extMemBest, kal_uint32 *extMemMin);




/**
 *  Set the necessary : working memory for the RGB Rotator.
 *  @param intMemAddr : pointer to starting address of the internal working memory
 *  @param intMemSize : size of the internal working memory
 *  @param extMemAddr : pointer to starting address of the external working memory
 *  @param extMemSize : size of the external working memory
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks
 */
ROTATOR_STATUS_ENUM yuvRotatorSetWorkingMemory(YUV_ROTATOR_HANDLE_STRUCT *handle, kal_uint32 *intMemAddr, kal_uint32 intMemSize,
                                               kal_uint32 *extMemAddr, kal_uint32 extMemSize);



/**
 *  Start the RGB Resizing
 *  @return ROTATOR_STATUS_ENUM : enumeration type of RGB Resize status
 *  @remarks This function start performing the RGB Resizing operation based \n
 *           on previous API setting
 */
ROTATOR_STATUS_ENUM yuvRotatorStart(YUV_ROTATOR_HANDLE_STRUCT **handle);




/**
 *  Getting the status of RGB Rotator
 *  @return : if the return is equal to ROTATOR_STATUS_BUSY, it means that the G2D engine is busy.\n
              if the return is equal to ROTATOR_STATUS_COMPLETE, it means that the G2D engine is busy.\n
 *            else the GRGB Rotator operation has error
 *  @remarks  This function provide the user to poll the status of RGB Rotator, if the callback function
 *            is not setted, user should use this function to check if the RGB Rotator is busy or not
 */
ROTATOR_STATUS_ENUM yuvRotatorGetStatus(YUV_ROTATOR_HANDLE_STRUCT *handle);

#endif