multimedia/device/mpp/include/hi_comm_sns.h

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/******************************************************************************
Copyright (C), 2001-2011, Hisilicon Tech. Co., Ltd.
******************************************************************************
File Name : hi_comm_sns.h
Version : Initial Draft
Author : Hisilicon multimedia software group
Created : 2011/01/05
Description :
History :
1.Date : 2011/01/05
Author : x00100808
Modification: Created file
******************************************************************************/
#ifndef __HI_COMM_SNS_H__
#define __HI_COMM_SNS_H__
#include "hi_type.h"
#include "hi_common.h"
#include "hi_comm_isp.h"
#ifdef __cplusplus
#if __cplusplus
extern "C"{
#endif
#endif /* End of #ifdef __cplusplus */
typedef struct hiISP_CMOS_BLACK_LEVEL_S
{
HI_BOOL bUpdate;
HI_U16 au16BlackLevel[4];
} ISP_CMOS_BLACK_LEVEL_S;
#define HI_ISP_NR_CALIB_COEF_COL (4)
#define HI_ISP_NR_PARA_LUT_COUNT (6)
#define HI_ISP_NR_ISO_LEVEL_MAX (16)
#define HI_ISP_LSC_LIGHT_NUM (3)
#define RGBIR_MATRIX_NUM (15)
typedef struct hiISP_NR_CABLI_PARA_S
{
HI_U8 u8CalicoefRow;
HI_FLOAT (*pCalibcoef)[HI_ISP_NR_CALIB_COEF_COL];
}ISP_NR_CABLI_PARA_S;
typedef struct hiISP_NR_ISO_PARA_TABLE_S
{
HI_U16 u16Threshold;
HI_U16 u8varStrength;
HI_U16 u8fixStrength;
HI_U8 u8LowFreqSlope;
}ISP_NR_ISO_PARA_TABLE_S;
typedef struct hiISP_CMOS_NOISE_TABLE_S
{
/*noise reduction calibration para*/
ISP_NR_CABLI_PARA_S stNrCaliPara;
/*noise reduction iso para*/
ISP_NR_ISO_PARA_TABLE_S stIsoParaTable[HI_ISP_NR_ISO_LEVEL_MAX];
} ISP_CMOS_NOISE_TABLE_S;
typedef struct hiISP_CMOS_COMPANDER_S
{
HI_U32 u32BitDepthIn;
HI_U32 u32BitDepthOut;
HI_U32 u32X0;
HI_U32 u32Y0;
HI_U32 u32X1;
HI_U32 u32Y1;
HI_U32 u32X2;
HI_U32 u32Y2;
HI_U32 u32X3;
HI_U32 u32Y3;
HI_U32 u32Xmax;
HI_U32 u32Ymax;
}ISP_CMOS_COMPANDER_S;
typedef struct hiISP_CMOS_DEMOSAIC_S
{
/*For Demosaic*/
HI_BOOL bEnable;
HI_U8 u8VhLimit; /* RW,Range: [0x0, 0xFF] */
HI_U8 u8VhOffset; /* RW,Range: [0x0, 0xFF] */
HI_U16 u16VhSlope; /* RW,Range: [0x0, 0xFF] */
/*False Color*/
HI_BOOL bFcrEnable;
HI_U8 au8FcrStrength[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8FcrThreshold[ISP_AUTO_ISO_STENGTH_NUM];
/*For Ahd*/
HI_U16 u16UuSlope;
HI_U16 au16NpOffset[ISP_AUTO_ISO_STENGTH_NUM];
} ISP_CMOS_DEMOSAIC_S;
#define HI_ISP_SHARPEN_PARA_NUM (3)
typedef struct hiISP_CMOS_RGBSHARPEN_S
{
HI_BOOL abEnPixSel[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8MaxSharpAmt1[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8MaxEdgeAmt[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8SharpThd2[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8EdgeThd2[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8OvershootAmt[ISP_AUTO_ISO_STENGTH_NUM];
HI_U8 au8UndershootAmt[ISP_AUTO_ISO_STENGTH_NUM];
} ISP_CMOS_RGBSHARPEN_S;
typedef struct hiISP_CMOS_DRC_S
{
HI_BOOL bEnable;
HI_U8 u8SpatialVar;
HI_U8 u8RangeVar;
HI_U8 u8Asymmetry;
HI_U8 u8SecondPole;
HI_U8 u8Stretch;
HI_U8 u8LocalMixingBrigtht;
HI_U8 u8LocalMixingDark;
HI_U8 u8LocalMixingThres;
HI_U16 u16DarkGainLmtY;
HI_U16 u16DarkGainLmtC;
HI_U16 u16BrightGainLmt;
} ISP_CMOS_DRC_S;
#define GAMMA_FE0_LUT_SIZE 33
#define GAMMA_FE1_LUT_SIZE 257
typedef struct hiISP_CMOS_GAMMAFE_S
{
HI_BOOL bValid; /* wdr sensor should set */
HI_U16 au16Gammafe0[GAMMA_FE0_LUT_SIZE];
HI_U16 au16Gammafe1[GAMMA_FE1_LUT_SIZE];
} ISP_CMOS_GAMMAFE_S;
#define CMOS_SHADING_TABLE_NODE_NUMBER_MAX (129)
typedef struct hiISP_CMOS_SHADING_S
{
HI_BOOL bValid;
HI_U16 u16RCenterX;
HI_U16 u16RCenterY;
HI_U16 u16GCenterX;
HI_U16 u16GCenterY;
HI_U16 u16BCenterX;
HI_U16 u16BCenterY;
HI_U16 au16RShadingTbl[CMOS_SHADING_TABLE_NODE_NUMBER_MAX];
HI_U16 au16GShadingTbl[CMOS_SHADING_TABLE_NODE_NUMBER_MAX];
HI_U16 au16BShadingTbl[CMOS_SHADING_TABLE_NODE_NUMBER_MAX];
HI_U16 u16ROffCenter;
HI_U16 u16GOffCenter;
HI_U16 u16BOffCenter;
HI_U16 u16TblNodeNum;
} ISP_CMOS_SHADING_S;
#define GAMMA_NODE_NUMBER 257
typedef struct hiISP_CMOS_GAMMA_S
{
HI_BOOL bValid;
HI_U16 au16Gamma[GAMMA_NODE_NUMBER];
} ISP_CMOS_GAMMA_S;
#define HI_ISP_UVNR_SIGMA_PRECISION (1)
typedef struct hiISP_CMOS_UVNR_S
{
HI_S32 UVNR_lutSigma [ISP_AUTO_ISO_STENGTH_NUM];
HI_S8 Coring_lutLimit [ISP_AUTO_ISO_STENGTH_NUM];
HI_S8 UVNR_blendRatio [ISP_AUTO_ISO_STENGTH_NUM];
} ISP_CMOS_UVNR_S;
typedef struct hiISP_CMOS_SENSOR_MAX_RESOLUTION_S
{
HI_U32 u32MaxWidth;
HI_U32 u32MaxHeight;
}ISP_CMOS_SENSOR_MAX_RESOLUTION_S;
typedef struct hiISP_CMOS_DPC_S
{
//HI_U8 u8IRChannel;// 1 yes;0 no
//HI_U8 u8IRPosition;//0:Gb,1:Gr
HI_U16 au16Slope[ISP_AUTO_ISO_STENGTH_NUM];
HI_U16 au16BlendRatio[ISP_AUTO_ISO_STENGTH_NUM];
} ISP_CMOS_DPC_S;
#define HI_ISP_LSC_GRID_POINTS (289)
typedef struct hiISP_LSC_CABLI_TABLE_S
{
HI_U32 au32R_Gain[HI_ISP_LSC_GRID_POINTS];
HI_U32 au32Gr_Gain[HI_ISP_LSC_GRID_POINTS];
HI_U32 au32Gb_Gain[HI_ISP_LSC_GRID_POINTS];
HI_U32 au32B_Gain[HI_ISP_LSC_GRID_POINTS];
}ISP_LSC_CABLI_TABLE_S;
typedef struct hiISP_CMOS_LSC_S
{
ISP_LSC_CABLI_TABLE_S stLscParaTable[HI_ISP_LSC_LIGHT_NUM];
}ISP_CMOS_LSC_S;
typedef enum hiISP_CMOS_IRPOS_TYPE_E
{
ISP_CMOS_IRPOS_TYPE_GR = 0x0,
ISP_CMOS_IRPOS_TYPE_GB,
ISP_CMOS_IRPOS_TYPE_BUTT
}ISP_CMOS_IRPOS_TYPE_E;
typedef enum hiISP_CMOS_OP_TYPE_E
{
OP_CMOS_TYPE_AUTO = 0,
OP_CMOS_TYPE_MANUAL = 1,
OP_CMOS_TYPE_BUTT
} ISP_CMOS_OP_TYPE_E;
typedef struct hiISP_CMOS_RGBIR_ATTR_S
{
HI_BOOL bEnable; /*RW, Range: [false, true] Rgbir moudle enable */
ISP_CMOS_IRPOS_TYPE_E enIrPosType; /*RW, Range: [0, 1] Rgbir moudle ir position: 0 Gr, 1 Gb */
HI_U16 u16OverExpThresh; /*RW, Range: [0,4095] Rgbir moudle over exposure threshold*/
}ISP_CMOS_RGBIR_ATTR_S;
typedef struct hiISP_CMOS_RGBIR_CTRL_S
{
HI_BOOL bIrOutEn; /*RW, Range: [false, true] Rgbir moudle output ir image enable */
HI_BOOL bIrFilterEn; /*RW, Range: [false, true] Rgbir moudle noise filter enable */
HI_BOOL bRemovelEn; /*RW, Range: [false, true] Rgbir moudle removel ir enable */
ISP_CMOS_OP_TYPE_E enCompType; /*RW, Range: [false, true] Rgbir moudle after removel ir, compensation type 0:auto,1:manul */
HI_U16 u16ManuGain; /*RW, Range: [256,1023] Rgbir moudle after removel ir, manul-compensation gain,2bit integer,8bit decimal */
HI_S16 as16ScaleCoef[RGBIR_MATRIX_NUM]; /*RW, Range: [-512,511] Rgbir moudle removel ir translate matrix,bit9:signed bit,bit8:integer bit,bit7_0:decimal bit*/
}ISP_CMOS_RGBIR_CTRL_S;
typedef struct hiISP_CMOS_RGBIR_S
{
HI_BOOL bValid; /* if bValid is false, below paramter is not setted in xxx_cmos.c*/
ISP_CMOS_RGBIR_ATTR_S stRgbirAttr;
ISP_CMOS_RGBIR_CTRL_S stRgbirCtrl;
}ISP_CMOS_RGBIR_S;
typedef struct hiISP_CMOS_GE_S
{
HI_BOOL bEnable;
HI_U8 u8Slope;
HI_U8 u8Sensitivity;
HI_U16 u16Threshold;
HI_U16 u16SensiThreshold;
HI_U16 au16Strength[ISP_AUTO_ISO_STENGTH_NUM];
}ISP_CMOS_GE_S;
typedef struct hiISP_CMOS_DEFAULT_S
{
ISP_CMOS_DRC_S stDrc;
ISP_CMOS_NOISE_TABLE_S stNoiseTbl;
ISP_CMOS_DEMOSAIC_S stDemosaic;
ISP_CMOS_GAMMAFE_S stGammafe;
ISP_CMOS_GAMMA_S stGamma;
ISP_CMOS_RGBSHARPEN_S stRgbSharpen;
ISP_CMOS_UVNR_S stUvnr;
ISP_CMOS_DPC_S stDpc;
ISP_CMOS_LSC_S stLsc;
ISP_CMOS_RGBIR_S stRgbir;
ISP_CMOS_GE_S stGe;
ISP_CMOS_COMPANDER_S stCompander;
ISP_CMOS_SENSOR_MAX_RESOLUTION_S stSensorMaxResolution;
} ISP_CMOS_DEFAULT_S;
typedef struct hiISP_CMOS_SENSOR_IMAGE_MODE_S
{
HI_U16 u16Width;
HI_U16 u16Height;
HI_FLOAT f32Fps;
}ISP_CMOS_SENSOR_IMAGE_MODE_S;
typedef struct hiISP_SENSOR_EXP_FUNC_S
{
HI_VOID(*pfn_cmos_sensor_init)(HI_VOID);
HI_VOID(*pfn_cmos_sensor_exit)(HI_VOID);
HI_VOID(*pfn_cmos_sensor_global_init)(HI_VOID);
HI_S32(*pfn_cmos_set_image_mode)(ISP_CMOS_SENSOR_IMAGE_MODE_S *pstSensorImageMode);
HI_VOID(*pfn_cmos_set_wdr_mode)(HI_U8 u8Mode);
/* the algs get data which is associated with sensor, except 3a */
HI_U32(*pfn_cmos_get_isp_default)(ISP_CMOS_DEFAULT_S *pstDef);
HI_U32(*pfn_cmos_get_isp_black_level)(ISP_CMOS_BLACK_LEVEL_S *pstBlackLevel);
HI_U32(*pfn_cmos_get_sns_reg_info)(ISP_SNS_REGS_INFO_S *pstSnsRegsInfo);
/* the function of sensor set pixel detect */
HI_VOID(*pfn_cmos_set_pixel_detect)(HI_BOOL bEnable);
} ISP_SENSOR_EXP_FUNC_S;
typedef struct hiISP_SENSOR_REGISTER_S
{
ISP_SENSOR_EXP_FUNC_S stSnsExp;
} ISP_SENSOR_REGISTER_S;
#ifdef __cplusplus
#if __cplusplus
}
#endif
#endif /* End of #ifdef __cplusplus */
#endif /*__HI_COMM_SNS_H__ */