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      1 /*
      2  * Copyright (C) 2011 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 /**
     17  ******************************************************************************
     18  * @file     M4VIFI_RGB565toYUV420.c
     19  * @brief    Contain video library function
     20  * @note     Color Conversion Filter
     21  *           -# Contains the format conversion filters from RGB565 to YUV420
     22  ******************************************************************************
     23 */
     24 
     25 /* Prototypes of functions, and type definitions */
     26 #include    "M4VIFI_FiltersAPI.h"
     27 /* Macro definitions */
     28 #include    "M4VIFI_Defines.h"
     29 /* Clip table declaration */
     30 #include    "M4VIFI_Clip.h"
     31 
     32 
     33 /**
     34  ******************************************************************************
     35  * M4VIFI_UInt8 M4VIFI_RGB565toYUV420 (void *pUserData,
     36  *                                     M4VIFI_ImagePlane *pPlaneIn,
     37  *                                   M4VIFI_ImagePlane *pPlaneOut)
     38  * @brief   transform RGB565 image to a YUV420 image.
     39  * @note    Convert RGB565 to YUV420,
     40  *          Loop on each row ( 2 rows by 2 rows )
     41  *              Loop on each column ( 2 col by 2 col )
     42  *                  Get 4 RGB samples from input data and build 4 output Y samples
     43  *                  and each single U & V data
     44  *              end loop on col
     45  *          end loop on row
     46  * @param   pUserData: (IN) User Specific Data
     47  * @param   pPlaneIn: (IN) Pointer to RGB565 Plane
     48  * @param   pPlaneOut: (OUT) Pointer to  YUV420 buffer Plane
     49  * @return  M4VIFI_OK: there is no error
     50  * @return  M4VIFI_ILLEGAL_FRAME_HEIGHT: YUV Plane height is ODD
     51  * @return  M4VIFI_ILLEGAL_FRAME_WIDTH:  YUV Plane width is ODD
     52  ******************************************************************************
     53 */
     54 M4VIFI_UInt8    M4VIFI_xVSS_RGB565toYUV420(void *pUserData, M4VIFI_ImagePlane *pPlaneIn,
     55                                                       M4VIFI_ImagePlane *pPlaneOut)
     56 {
     57     M4VIFI_UInt32   u32_width, u32_height;
     58     M4VIFI_UInt32   u32_stride_Y, u32_stride2_Y, u32_stride_U, u32_stride_V;
     59     M4VIFI_UInt32   u32_stride_rgb, u32_stride_2rgb;
     60     M4VIFI_UInt32   u32_col, u32_row;
     61 
     62     M4VIFI_Int32    i32_r00, i32_r01, i32_r10, i32_r11;
     63     M4VIFI_Int32    i32_g00, i32_g01, i32_g10, i32_g11;
     64     M4VIFI_Int32    i32_b00, i32_b01, i32_b10, i32_b11;
     65     M4VIFI_Int32    i32_y00, i32_y01, i32_y10, i32_y11;
     66     M4VIFI_Int32    i32_u00, i32_u01, i32_u10, i32_u11;
     67     M4VIFI_Int32    i32_v00, i32_v01, i32_v10, i32_v11;
     68     M4VIFI_UInt8    *pu8_yn, *pu8_ys, *pu8_u, *pu8_v;
     69     M4VIFI_UInt8    *pu8_y_data, *pu8_u_data, *pu8_v_data;
     70     M4VIFI_UInt8    *pu8_rgbn_data, *pu8_rgbn;
     71     M4VIFI_UInt16   u16_pix1, u16_pix2, u16_pix3, u16_pix4;
     72     M4VIFI_UInt8 count_null=0;
     73 
     74     /* Check planes height are appropriate */
     75     if( (pPlaneIn->u_height != pPlaneOut[0].u_height)           ||
     76         (pPlaneOut[0].u_height != (pPlaneOut[1].u_height<<1))   ||
     77         (pPlaneOut[0].u_height != (pPlaneOut[2].u_height<<1)))
     78     {
     79         return M4VIFI_ILLEGAL_FRAME_HEIGHT;
     80     }
     81 
     82     /* Check planes width are appropriate */
     83     if( (pPlaneIn->u_width != pPlaneOut[0].u_width)         ||
     84         (pPlaneOut[0].u_width != (pPlaneOut[1].u_width<<1)) ||
     85         (pPlaneOut[0].u_width != (pPlaneOut[2].u_width<<1)))
     86     {
     87         return M4VIFI_ILLEGAL_FRAME_WIDTH;
     88     }
     89 
     90     /* Set the pointer to the beginning of the output data buffers */
     91     pu8_y_data = pPlaneOut[0].pac_data + pPlaneOut[0].u_topleft;
     92     pu8_u_data = pPlaneOut[1].pac_data + pPlaneOut[1].u_topleft;
     93     pu8_v_data = pPlaneOut[2].pac_data + pPlaneOut[2].u_topleft;
     94 
     95     /* Set the pointer to the beginning of the input data buffers */
     96     pu8_rgbn_data   = pPlaneIn->pac_data + pPlaneIn->u_topleft;
     97 
     98     /* Get the size of the output image */
     99     u32_width = pPlaneOut[0].u_width;
    100     u32_height = pPlaneOut[0].u_height;
    101 
    102     /* Set the size of the memory jumps corresponding to row jump in each output plane */
    103     u32_stride_Y = pPlaneOut[0].u_stride;
    104     u32_stride2_Y = u32_stride_Y << 1;
    105     u32_stride_U = pPlaneOut[1].u_stride;
    106     u32_stride_V = pPlaneOut[2].u_stride;
    107 
    108     /* Set the size of the memory jumps corresponding to row jump in input plane */
    109     u32_stride_rgb = pPlaneIn->u_stride;
    110     u32_stride_2rgb = u32_stride_rgb << 1;
    111 
    112 
    113     /* Loop on each row of the output image, input coordinates are estimated from output ones */
    114     /* Two YUV rows are computed at each pass */
    115     for (u32_row = u32_height ;u32_row != 0; u32_row -=2)
    116     {
    117         /* Current Y plane row pointers */
    118         pu8_yn = pu8_y_data;
    119         /* Next Y plane row pointers */
    120         pu8_ys = pu8_yn + u32_stride_Y;
    121         /* Current U plane row pointer */
    122         pu8_u = pu8_u_data;
    123         /* Current V plane row pointer */
    124         pu8_v = pu8_v_data;
    125 
    126         pu8_rgbn = pu8_rgbn_data;
    127 
    128         /* Loop on each column of the output image */
    129         for (u32_col = u32_width; u32_col != 0 ; u32_col -=2)
    130         {
    131             /* Get four RGB 565 samples from input data */
    132             u16_pix1 = *( (M4VIFI_UInt16 *) pu8_rgbn);
    133             u16_pix2 = *( (M4VIFI_UInt16 *) (pu8_rgbn + CST_RGB_16_SIZE));
    134             u16_pix3 = *( (M4VIFI_UInt16 *) (pu8_rgbn + u32_stride_rgb));
    135             u16_pix4 = *( (M4VIFI_UInt16 *) (pu8_rgbn + u32_stride_rgb + CST_RGB_16_SIZE));
    136 
    137             /* Unpack RGB565 to 8bit R, G, B */
    138             /* (x,y) */
    139             GET_RGB565(i32_b00,i32_g00,i32_r00,u16_pix1);
    140             /* (x+1,y) */
    141             GET_RGB565(i32_b10,i32_g10,i32_r10,u16_pix2);
    142             /* (x,y+1) */
    143             GET_RGB565(i32_b01,i32_g01,i32_r01,u16_pix3);
    144             /* (x+1,y+1) */
    145             GET_RGB565(i32_b11,i32_g11,i32_r11,u16_pix4);
    146             /* If RGB is transparent color (0, 63, 0), we transform it to white (31,63,31) */
    147             if(i32_b00 == 0 && i32_g00 == 63 && i32_r00 == 0)
    148             {
    149                 i32_b00 = 31;
    150                 i32_r00 = 31;
    151             }
    152             if(i32_b10 == 0 && i32_g10 == 63 && i32_r10 == 0)
    153             {
    154                 i32_b10 = 31;
    155                 i32_r10 = 31;
    156             }
    157             if(i32_b01 == 0 && i32_g01 == 63 && i32_r01 == 0)
    158             {
    159                 i32_b01 = 31;
    160                 i32_r01 = 31;
    161             }
    162             if(i32_b11 == 0 && i32_g11 == 63 && i32_r11 == 0)
    163             {
    164                 i32_b11 = 31;
    165                 i32_r11 = 31;
    166             }
    167             /* Convert RGB value to YUV */
    168             i32_u00 = U16(i32_r00, i32_g00, i32_b00);
    169             i32_v00 = V16(i32_r00, i32_g00, i32_b00);
    170             /* luminance value */
    171             i32_y00 = Y16(i32_r00, i32_g00, i32_b00);
    172 
    173             i32_u10 = U16(i32_r10, i32_g10, i32_b10);
    174             i32_v10 = V16(i32_r10, i32_g10, i32_b10);
    175             /* luminance value */
    176             i32_y10 = Y16(i32_r10, i32_g10, i32_b10);
    177 
    178             i32_u01 = U16(i32_r01, i32_g01, i32_b01);
    179             i32_v01 = V16(i32_r01, i32_g01, i32_b01);
    180             /* luminance value */
    181             i32_y01 = Y16(i32_r01, i32_g01, i32_b01);
    182 
    183             i32_u11 = U16(i32_r11, i32_g11, i32_b11);
    184             i32_v11 = V16(i32_r11, i32_g11, i32_b11);
    185             /* luminance value */
    186             i32_y11 = Y16(i32_r11, i32_g11, i32_b11);
    187 
    188             /* Store luminance data */
    189             pu8_yn[0] = (M4VIFI_UInt8)i32_y00;
    190             pu8_yn[1] = (M4VIFI_UInt8)i32_y10;
    191             pu8_ys[0] = (M4VIFI_UInt8)i32_y01;
    192             pu8_ys[1] = (M4VIFI_UInt8)i32_y11;
    193             *pu8_u = (M4VIFI_UInt8)((i32_u00 + i32_u01 + i32_u10 + i32_u11 + 2) >> 2);
    194             *pu8_v = (M4VIFI_UInt8)((i32_v00 + i32_v01 + i32_v10 + i32_v11 + 2) >> 2);
    195             /* Prepare for next column */
    196             pu8_rgbn += (CST_RGB_16_SIZE<<1);
    197             /* Update current Y plane line pointer*/
    198             pu8_yn += 2;
    199             /* Update next Y plane line pointer*/
    200             pu8_ys += 2;
    201             /* Update U plane line pointer*/
    202             pu8_u ++;
    203             /* Update V plane line pointer*/
    204             pu8_v ++;
    205         } /* End of horizontal scanning */
    206 
    207         /* Prepare pointers for the next row */
    208         pu8_y_data += u32_stride2_Y;
    209         pu8_u_data += u32_stride_U;
    210         pu8_v_data += u32_stride_V;
    211         pu8_rgbn_data += u32_stride_2rgb;
    212 
    213 
    214     } /* End of vertical scanning */
    215 
    216     return M4VIFI_OK;
    217 }
    218 /* End of file M4VIFI_RGB565toYUV420.c */
    219 
    220