atitc.cpp 7.3 KB

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/****************************************************************************
 Copyright (c) 2013-2016 Chukong Technologies Inc.
 Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
 
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 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.
 
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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#include "base/atitc.h"
//Decode ATITC encode block to 4x4 RGB32 pixels
static void atitc_decode_block(uint8_t **blockData,
                              uint32_t *decodeBlockData,
                              unsigned int stride,
                              bool oneBitAlphaFlag,
                              uint64_t alpha,
                              ATITCDecodeFlag decodeFlag)
{
    unsigned int colorValue0 = 0 , colorValue1 = 0, initAlpha = (!oneBitAlphaFlag * 255u) << 24;
    unsigned int rb0 = 0, rb1 = 0, rb2 = 0, rb3 = 0, g0 = 0, g1 = 0, g2 = 0, g3 = 0;
    bool msb = 0;

    uint32_t colors[4], pixelsIndex = 0;

    /* load the two color values*/
    memcpy((void *)&colorValue0, *blockData, 2);
    (*blockData) += 2;

    memcpy((void *)&colorValue1, *blockData, 2);
    (*blockData) += 2;

    //extract the msb flag
    msb = (colorValue0 & 0x8000) != 0;

    /* the channel is r5g6b5 , 16 bits */
    rb0  = (colorValue0 << 3 | colorValue0 << 9) & 0xf800f8;
    rb1  = (colorValue1 << 3 | colorValue1 << 8) & 0xf800f8;
    g0   = (colorValue0 << 6) & 0x00fc00;
    g1   = (colorValue1 << 5) & 0x00fc00;
    g0  += (g0 >> 6) & 0x000300;
    g1  += (g1 >> 6) & 0x000300;

    /* interpolate the other two color values */
    if (!msb)
    {
        colors[0] = rb0 + g0 + initAlpha;
        colors[3] = rb1 + g1 + initAlpha;

        rb2 = (((2*rb0 + rb1) * 21) >> 6) & 0xff00ff;
        rb3 = (((2*rb1 + rb0) * 21) >> 6) & 0xff00ff;
        g2  = (((2*g0 + g1 ) * 21) >> 6) & 0x00ff00;
        g3  = (((2*g1 + g0 ) * 21) >> 6) & 0x00ff00;

        colors[2] = rb3 + g3 + initAlpha;
        colors[1] = rb2 + g2 + initAlpha;
    }
    else
    {
        colors[2] = rb0 + g0 + initAlpha;
        colors[3] = rb1 + g1 + initAlpha;

        rb2 = (rb0 - (rb1 >> 2)) & 0xff00ff;
        g2  = (g0 - (g1 >> 2)) & 0x00ff00;
        colors[0] = 0 ;

         colors[1] = rb2 + g2 + initAlpha;
    }

    /*read the pixelsIndex , 2bits per pixel, 4 bytes */
    memcpy((void*)&pixelsIndex, *blockData, 4);
    (*blockData) += 4;

    if (ATITCDecodeFlag::ATC_INTERPOLATED_ALPHA == decodeFlag)
    {
        // atitc_interpolated_alpha use interpolate alpha
        // 8-Alpha block: derive the other six alphas.
        // Bit code 000 = alpha0, 001 = alpha1, other are interpolated.
        unsigned int alphaArray[8];

        alphaArray[0] = (alpha ) & 0xff ;
        alphaArray[1] = (alpha >> 8) & 0xff ;

        if (alphaArray[0] >= alphaArray[1])
        {
            alphaArray[2] = (alphaArray[0]*6 + alphaArray[1]*1) / 7;
            alphaArray[3] = (alphaArray[0]*5 + alphaArray[1]*2) / 7;
            alphaArray[4] = (alphaArray[0]*4 + alphaArray[1]*3) / 7;
            alphaArray[5] = (alphaArray[0]*3 + alphaArray[1]*4) / 7;
            alphaArray[6] = (alphaArray[0]*2 + alphaArray[1]*5) / 7;
            alphaArray[7] = (alphaArray[0]*1 + alphaArray[1]*6) / 7;
        }
        else if (alphaArray[0] < alphaArray[1])
        {
            alphaArray[2] = (alphaArray[0]*4 + alphaArray[1]*1) / 5;
            alphaArray[3] = (alphaArray[0]*3 + alphaArray[1]*2) / 5;
            alphaArray[4] = (alphaArray[0]*2 + alphaArray[1]*3) / 5;
            alphaArray[5] = (alphaArray[0]*1 + alphaArray[1]*4) / 5;
            alphaArray[6] = 0;
            alphaArray[7] = 255;
        }

        // read the flowing 48bit indices (16*3)
        alpha >>= 16;

        for (int y = 0; y < 4; ++y)
        {
            for (int x = 0; x < 4; ++x)
            {
                decodeBlockData[x] = (alphaArray[alpha & 5] << 24) + colors[pixelsIndex & 3];
                pixelsIndex >>= 2;
                alpha >>= 3;
            }
            decodeBlockData += stride;
        }
    } //if (atc_interpolated_alpha == comFlag)
    else
    {
        /* atc_rgb atc_explicit_alpha use explicit alpha */

        for (int y = 0; y < 4; ++y)
        {
            for (int x = 0; x < 4; ++x)
           {
                initAlpha   = (static_cast<int>(alpha) & 0x0f) << 28;
                initAlpha   += initAlpha >> 4;
                decodeBlockData[x] = initAlpha + colors[pixelsIndex & 3];
                pixelsIndex >>= 2;
                alpha       >>= 4;
            }
            decodeBlockData += stride;
        }
    }
}

//Decode ATITC encode data to RGB32
void atitc_decode(uint8_t *encodeData,             //in_data
                 uint8_t *decodeData,              //out_data
                 const int pixelsWidth,
                 const int pixelsHeight,
                 ATITCDecodeFlag decodeFlag)
{
    uint32_t *decodeBlockData = (uint32_t *)decodeData;

    for (int block_y = 0; block_y < pixelsHeight / 4; ++block_y, decodeBlockData += 3 * pixelsWidth)   //stride = 3*width
    {
        for (int block_x = 0; block_x < pixelsWidth / 4; ++block_x, decodeBlockData += 4)            //skip 4 pixels
        {
            uint64_t blockAlpha = 0;

            switch (decodeFlag)
            {
                case ATITCDecodeFlag::ATC_RGB:
                {
                    atitc_decode_block(&encodeData, decodeBlockData, pixelsWidth, 0, 0LL, ATITCDecodeFlag::ATC_RGB);
                }
                    break;
                case ATITCDecodeFlag::ATC_EXPLICIT_ALPHA:
                {
                    memcpy((void *)&blockAlpha, encodeData, 8);
                    encodeData += 8;
                    atitc_decode_block(&encodeData, decodeBlockData, pixelsWidth, 1, blockAlpha, ATITCDecodeFlag::ATC_EXPLICIT_ALPHA);
                }
                    break;
                case ATITCDecodeFlag::ATC_INTERPOLATED_ALPHA:
                {
                    memcpy((void *)&blockAlpha, encodeData, 8);
                    encodeData += 8;
                    atitc_decode_block(&encodeData, decodeBlockData, pixelsWidth, 1, blockAlpha, ATITCDecodeFlag::ATC_INTERPOLATED_ALPHA);
                }
                    break;
                default:
                    break;
            }//switch
        }//for block_x
    }//for block_y
}