libvideoeditor/vss/common/inc/M4VIFI_Defines.h - 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        M4VIFI_Defines.h
  * @brief        Macro Definition
  * @note        This file defines all the macro used in the filter library
  ******************************************************************************
 */

 #ifndef _M4VIFI_DEFINES_H_
 #define _M4VIFI_DEFINES_H_

 /**
  *****************************************************************************
  *                    Macros used for color transform RGB565 to YUV
  *****************************************************************************
 */
 #define CST_RGB_16_SIZE 2
 #define Y16(r, g, b) CLIP(  ( ( (80593 * r)+(77855 * g)+(30728 * b)) >> 15))
 #define U16(r, g, b) CLIP(128+ ( ( -(45483 * r)-(43936 * g)+(134771 * b)) >> 15 ))
 #define V16(r, g, b) CLIP(128+ ( ( (134771 * r)-(55532 * g)-(21917 * b)) >> 15  ))


 /**
  *****************************************************************************
  *    Macros used for color transform YUV to RGB
  *    B = 1.164(Y - 16)                  + 2.018(U - 128)
  *  G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128)
  *  R = 1.164(Y - 16) + 1.596(V - 128)
  *  Above Conversion Formula is implemented for fixed point operation
  *****************************************************************************
 */

 #define CST_RGB_24_SIZE 3

 #ifdef __RGB_V1__
 #define DEMATRIX(Rx,Gx,Bx,Yx37,Ux,Vx) \
     Rx = CLIP(((Yx37 + (Vx * 51) + 16) >> 5) - 223); \
     Gx = CLIP(((Yx37 - ((Ux+(Vx<<1)) * 13) +16) >> 5) + 135); \
     Bx = CLIP(((Yx37 + (Ux * 65) + 16) >> 5) - 277)
 #else
 #define DEMATRIX(Rx,Gx,Bx,Yx2568,Ux,Vx) \
     Rx = CLIP(((Yx2568 +                 (Vx * 0x3343) + (M4VIFI_Int32)0xffe40800) >> 13)); \
     Gx = CLIP(((Yx2568 - (Ux * 0x0c92) - (Vx * 0x1a1e) + (M4VIFI_Int32)0x00110180) >> 13)); \
     Bx = CLIP(((Yx2568 + (Ux * 0x40cf)                    + (M4VIFI_Int32)0xffdd4200) >> 13));
 #endif /* __RGB_V1__ */

 /**
  *****************************************************************************
  *    Packing and Unpacking is different for little and big endian
  *  r, g, b, Rx, Gx, Bx are 8 bit color value
  *    a, data are 16 bit pixel value
  *****************************************************************************
  */

 /* Pack computations common for little endian and big endian modes */
 #define    PACK_BGR24(rgb_ptr,Rx,Gx,Bx) {rgb_ptr[0] = (M4VIFI_UInt8)Bx; rgb_ptr[1] =\
                          (M4VIFI_UInt8)Gx; rgb_ptr[2] = (M4VIFI_UInt8)Rx;}
 #define    PACK_RGB24(rgb_ptr,Rx,Gx,Bx) {rgb_ptr[0] = (M4VIFI_UInt8)Rx; rgb_ptr[1] =\
                          (M4VIFI_UInt8)Gx; rgb_ptr[2] = (M4VIFI_UInt8)Bx;}

 #ifdef BIG_ENDIAN
 #define    PACK_RGB565(a, Rx, Gx, Bx) (((Rx >> 3) << (11 + (a)))\
                  | ((Gx >> 2) << (5 + (a))) | ((Bx >> 3) << (a)))
 #define    PACK_BGR565(a, Rx, Gx, Bx) (((Bx >> 3) << (11 + (a)))\
                  | ((Gx >> 2) << (5 + (a))) | ((Rx >> 3) << (a)))
 #define GET_RGB565(r, g, b, data) {b = ((data) & 31); g =\
                      ((data >> 5) & 63); r = ((data >> 11) & 31);}
 #define GET_BGR565(b, g, r, data) \
     r = ((data) & 31); \
     g = ((data >> 5) & 63); \
     b = ((data >> 11) & 31 );
 #else /* LITTLE endian: 0x12345678 -> 78 56 34 12 */
 #define    PACK_RGB565(a, Rx, Gx, Bx) (((Bx >> 3) << (8 + (a))) \
                   | (((Gx >> 2)&0x7) << (13 + (a))) | ((Gx >> 5) << (a)) | ((Rx >> 3) << (3 + a)))
 #define    PACK_BGR565(a, Rx, Gx, Bx) (((Rx >> 3) << (11 + (a))) \
                   | ((Gx >> 2) << (5 + (a))) | ((Bx >> 3) << (a)))
 #define GET_RGB565(r, g, b, data) { b = (M4VIFI_UInt8)(((data) & 0x1F00) >> 8); g =\
              (M4VIFI_UInt8)((((data) & 0x7) << 3) | (((data) & 0xE000) >> 13)); r =\
              (M4VIFI_UInt8)(((data) & 0xF8) >> 3);}
 #define GET_BGR565(b, g, r, data) \
     b = ((data) & 31); \
     g = ((data >> 5) & 63); \
     r = ((data >> 11) & 31 );
 #endif /* BIG_ENDIAN */


 #define CST_RGB_24_SIZE 3
 #define Y24(r,g,b) CLIP(( ( (19595 * r) + (38470 * g) + (9437 * b) ) >>16))
 #define U24(r,g,b) CLIP(128 + ( ( -(11059 * r) - (21709 * g) + (32768 * b)) >>16))
 #define V24(r,g,b) CLIP(128 + ( ( (32768 * r) - (27426 * g) - (5329 * b))  >>16))
 #define GET_RGB24(r,g,b,s,o) r = s[o]; g = s[o + 1]; b = s[o + 2];

 /**
  ***********************************************************************************
  *                    Macro for clipping using the clipping matrix for RGB values
  ***********************************************************************************
 */
 /** Clip function ensures values with range of 0 and 255 */
 #define        CLIP(x)    *(M4VIFI_ClipTable_zero + (x))
 #define        CLIP_OVF        500
 #define     CLIP_LUT_SIZE     (256 + 2 * CLIP_OVF)
 /** Division table for RGB565 to HLS conversion */
 #define        DIVCLIP(x)    *(M4VIFI_DivTable_zero + (x))

 /**
  *****************************************************************************
  *                    Endianness (default configuration is Little Endian)
  *****************************************************************************
 */
 #if (!defined(LITTLE_ENDIAN) && !defined(BIG_ENDIAN))
 /** Default endian setting */
 #define LITTLE_ENDIAN
 #endif

 /**
  *****************************************************************************
  *                    Other macros and define
  *****************************************************************************
 */
 /** YUV plane index */
 #define PLANES    3
 #define YPlane    0
 #define UPlane    1
 #define VPlane    2

 /** Check for value is EVEN */
 #ifndef IS_EVEN
 #define IS_EVEN(a)    (!(a & 0x01))
 #endif

 /* Used for fixed point implementation */
 #ifndef MAX_SHORT
 #define MAX_SHORT    0x10000
 #endif

 #endif /* _M4VIFI_DEFINES_H_ */

 /* End of file M4VIFI_Defines.h */
	/*
	* 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 M4VIFI_Defines.h
	* @brief Macro Definition
	* @note This file defines all the macro used in the filter library
	******************************************************************************
	*/

	#ifndef _M4VIFI_DEFINES_H_
	#define _M4VIFI_DEFINES_H_

	/**
	*****************************************************************************
	* Macros used for color transform RGB565 to YUV
	*****************************************************************************
	*/
	#define CST_RGB_16_SIZE 2
	#define Y16(r, g, b) CLIP( ( ( (80593 * r)+(77855 * g)+(30728 * b)) >> 15))
	#define U16(r, g, b) CLIP(128+ ( ( -(45483 * r)-(43936 * g)+(134771 * b)) >> 15 ))
	#define V16(r, g, b) CLIP(128+ ( ( (134771 * r)-(55532 * g)-(21917 * b)) >> 15 ))


	/**
	*****************************************************************************
	* Macros used for color transform YUV to RGB
	* B = 1.164(Y - 16) + 2.018(U - 128)
	* G = 1.164(Y - 16) - 0.813(V - 128) - 0.391(U - 128)
	* R = 1.164(Y - 16) + 1.596(V - 128)
	* Above Conversion Formula is implemented for fixed point operation
	*****************************************************************************
	*/

	#define CST_RGB_24_SIZE 3

	#ifdef __RGB_V1__
	#define DEMATRIX(Rx,Gx,Bx,Yx37,Ux,Vx) \
	Rx = CLIP(((Yx37 + (Vx * 51) + 16) >> 5) - 223); \
	Gx = CLIP(((Yx37 - ((Ux+(Vx<<1)) * 13) +16) >> 5) + 135); \
	Bx = CLIP(((Yx37 + (Ux * 65) + 16) >> 5) - 277)
	#else
	#define DEMATRIX(Rx,Gx,Bx,Yx2568,Ux,Vx) \
	Rx = CLIP(((Yx2568 + (Vx * 0x3343) + (M4VIFI_Int32)0xffe40800) >> 13)); \
	Gx = CLIP(((Yx2568 - (Ux * 0x0c92) - (Vx * 0x1a1e) + (M4VIFI_Int32)0x00110180) >> 13)); \
	Bx = CLIP(((Yx2568 + (Ux * 0x40cf) + (M4VIFI_Int32)0xffdd4200) >> 13));
	#endif /* __RGB_V1__ */

	/**
	*****************************************************************************
	* Packing and Unpacking is different for little and big endian
	* r, g, b, Rx, Gx, Bx are 8 bit color value
	* a, data are 16 bit pixel value
	*****************************************************************************
	*/

	/* Pack computations common for little endian and big endian modes */
	#define PACK_BGR24(rgb_ptr,Rx,Gx,Bx) {rgb_ptr[0] = (M4VIFI_UInt8)Bx; rgb_ptr[1] =\
	(M4VIFI_UInt8)Gx; rgb_ptr[2] = (M4VIFI_UInt8)Rx;}
	#define PACK_RGB24(rgb_ptr,Rx,Gx,Bx) {rgb_ptr[0] = (M4VIFI_UInt8)Rx; rgb_ptr[1] =\
	(M4VIFI_UInt8)Gx; rgb_ptr[2] = (M4VIFI_UInt8)Bx;}

	#ifdef BIG_ENDIAN
	#define PACK_RGB565(a, Rx, Gx, Bx) (((Rx >> 3) << (11 + (a)))\
	\| ((Gx >> 2) << (5 + (a))) \| ((Bx >> 3) << (a)))
	#define PACK_BGR565(a, Rx, Gx, Bx) (((Bx >> 3) << (11 + (a)))\
	\| ((Gx >> 2) << (5 + (a))) \| ((Rx >> 3) << (a)))
	#define GET_RGB565(r, g, b, data) {b = ((data) & 31); g =\
	((data >> 5) & 63); r = ((data >> 11) & 31);}
	#define GET_BGR565(b, g, r, data) \
	r = ((data) & 31); \
	g = ((data >> 5) & 63); \
	b = ((data >> 11) & 31 );
	#else /* LITTLE endian: 0x12345678 -> 78 56 34 12 */
	#define PACK_RGB565(a, Rx, Gx, Bx) (((Bx >> 3) << (8 + (a))) \
	\| (((Gx >> 2)&0x7) << (13 + (a))) \| ((Gx >> 5) << (a)) \| ((Rx >> 3) << (3 + a)))
	#define PACK_BGR565(a, Rx, Gx, Bx) (((Rx >> 3) << (11 + (a))) \
	\| ((Gx >> 2) << (5 + (a))) \| ((Bx >> 3) << (a)))
	#define GET_RGB565(r, g, b, data) { b = (M4VIFI_UInt8)(((data) & 0x1F00) >> 8); g =\
	(M4VIFI_UInt8)((((data) & 0x7) << 3) \| (((data) & 0xE000) >> 13)); r =\
	(M4VIFI_UInt8)(((data) & 0xF8) >> 3);}
	#define GET_BGR565(b, g, r, data) \
	b = ((data) & 31); \
	g = ((data >> 5) & 63); \
	r = ((data >> 11) & 31 );
	#endif /* BIG_ENDIAN */


	#define CST_RGB_24_SIZE 3
	#define Y24(r,g,b) CLIP(( ( (19595 * r) + (38470 * g) + (9437 * b) ) >>16))
	#define U24(r,g,b) CLIP(128 + ( ( -(11059 * r) - (21709 * g) + (32768 * b)) >>16))
	#define V24(r,g,b) CLIP(128 + ( ( (32768 * r) - (27426 * g) - (5329 * b)) >>16))
	#define GET_RGB24(r,g,b,s,o) r = s[o]; g = s[o + 1]; b = s[o + 2];

	/**
	***********************************************************************************
	* Macro for clipping using the clipping matrix for RGB values
	***********************************************************************************
	*/
	/** Clip function ensures values with range of 0 and 255 */
	#define CLIP(x) *(M4VIFI_ClipTable_zero + (x))
	#define CLIP_OVF 500
	#define CLIP_LUT_SIZE (256 + 2 * CLIP_OVF)
	/** Division table for RGB565 to HLS conversion */
	#define DIVCLIP(x) *(M4VIFI_DivTable_zero + (x))

	/**
	*****************************************************************************
	* Endianness (default configuration is Little Endian)
	*****************************************************************************
	*/
	#if (!defined(LITTLE_ENDIAN) && !defined(BIG_ENDIAN))
	/** Default endian setting */
	#define LITTLE_ENDIAN
	#endif

	/**
	*****************************************************************************
	* Other macros and define
	*****************************************************************************
	*/
	/** YUV plane index */
	#define PLANES 3
	#define YPlane 0
	#define UPlane 1
	#define VPlane 2

	/** Check for value is EVEN */
	#ifndef IS_EVEN
	#define IS_EVEN(a) (!(a & 0x01))
	#endif

	/* Used for fixed point implementation */
	#ifndef MAX_SHORT
	#define MAX_SHORT 0x10000
	#endif

	#endif /* _M4VIFI_DEFINES_H_ */

	/* End of file M4VIFI_Defines.h */