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path: root/indra/llmessage/patch_code.cpp
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/**
 * @file patch_code.cpp
 * @brief Encode patch DCT data into bitcode.
 *
 * $LicenseInfo:firstyear=2000&license=viewerlgpl$
 * Second Life Viewer Source Code
 * Copyright (C) 2010, Linden Research, Inc.
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation;
 * version 2.1 of the License only.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 *
 * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
 * $/LicenseInfo$
 */

#include "linden_common.h"

#include "llmath.h"
#include "v3math.h"
#include "patch_dct.h"
#include "patch_code.h"
#include "llbitpack.h"

U32 gPatchSize, gWordBits;

void    init_patch_coding(LLBitPack &bitpack)
{
    bitpack.resetBitPacking();
}

void    code_patch_group_header(LLBitPack &bitpack, LLGroupHeader *gopp)
{
#ifdef LL_BIG_ENDIAN
    U8 *stride = (U8 *)&gopp->stride;
    bitpack.bitPack(&(stride[1]), 8);
    bitpack.bitPack(&(stride[0]), 8);
#else
    bitpack.bitPack((U8 *)&gopp->stride, 16);
#endif
    bitpack.bitPack((U8 *)&gopp->patch_size, 8);
    bitpack.bitPack((U8 *)&gopp->layer_type, 8);

    gPatchSize = gopp->patch_size;
}

void    code_patch_header(LLBitPack &bitpack, LLPatchHeader *ph, S32 *patch)
{
    S32     i, j, temp, patch_size = gPatchSize, wbits = (ph->quant_wbits & 0xf) + 2;
    U32     max_wbits = wbits + 5, min_wbits = wbits>>1;

    wbits = min_wbits;

    for (i = 0; i < (int) patch_size*patch_size; i++)
    {
        temp = patch[i];
        if (temp)
        {
            if (temp < 0)
                temp *= -1;
            for (j = max_wbits; j > (int) min_wbits; j--)
            {
                if (temp & (1<<j))
                {
                    if (j > wbits)
                        wbits = j;
                    break;
                }
            }
        }
    }

    wbits += 1;

    ph->quant_wbits &= 0xf0;

    if (  (wbits > 17)
        ||(wbits < 2))
    {
        LL_ERRS() << "Bits needed per word in code_patch_header out of legal range.  Adjust compression quatization." << LL_ENDL;
    }

    ph->quant_wbits |= (wbits - 2);

    bitpack.bitPack((U8 *)&ph->quant_wbits, 8);
#ifdef LL_BIG_ENDIAN
    U8 *offset = (U8 *)&ph->dc_offset;
    bitpack.bitPack(&(offset[3]), 8);
    bitpack.bitPack(&(offset[2]), 8);
    bitpack.bitPack(&(offset[1]), 8);
    bitpack.bitPack(&(offset[0]), 8);
#else
    bitpack.bitPack((U8 *)&ph->dc_offset, 32);
#endif
#ifdef LL_BIG_ENDIAN
    U8 *range = (U8 *)&ph->range;
    bitpack.bitPack(&(range[1]), 8);
    bitpack.bitPack(&(range[0]), 8);
#else
    bitpack.bitPack((U8 *)&ph->range, 16);
#endif
#ifdef LL_BIG_ENDIAN
    U8 *ids = (U8 *)&ph->patchids;
    bitpack.bitPack(&(ids[1]), 8);
    bitpack.bitPack(&(ids[0]), 2);
#else
    bitpack.bitPack((U8 *)&ph->patchids, 10);
#endif

    gWordBits = wbits;
}

void    code_end_of_data(LLBitPack &bitpack)
{
    bitpack.bitPack((U8 *)&END_OF_PATCHES, 8);
}

void code_patch(LLBitPack &bitpack, S32 *patch, S32 postquant)
{
    S32     i, j, patch_size = gPatchSize, wbits = gWordBits;
    S32     temp;
    bool    b_eob;

    if (  (postquant > patch_size*patch_size)
        ||(postquant < 0))
    {
        LL_ERRS() << "Bad postquant in code_patch!"  << LL_ENDL;
    }

    if (postquant)
        patch[patch_size*patch_size - postquant] = 0;

    for (i = 0; i < patch_size*patch_size; i++)
    {
        b_eob = false;
        temp = patch[i];
        if (!temp)
        {
            b_eob = true;
            for (j = i; j < patch_size*patch_size - postquant; j++)
            {
                if (patch[j])
                {
                    b_eob = false;
                    break;
                }
            }
            if (b_eob)
            {
                bitpack.bitPack((U8 *)&ZERO_EOB, 2);
                return;
            }
            else
            {
                bitpack.bitPack((U8 *)&ZERO_CODE, 1);
            }
        }
        else
        {
            if (temp < 0)
            {
                temp *= -1;
                if (temp > (1<<wbits))
                {
                    temp = (1<<wbits);
//                  printf("patch quatization exceeding allowable bits!");
                }
                bitpack.bitPack((U8 *)&NEGATIVE_VALUE, 3);
                bitpack.bitPack((U8 *)&temp, wbits);
            }
            else
            {
                if (temp > (1<<wbits))
                {
                    temp = (1<<wbits);
//                  printf("patch quatization exceeding allowable bits!");
                }
                bitpack.bitPack((U8 *)&POSITIVE_VALUE, 3);
                bitpack.bitPack((U8 *)&temp, wbits);
            }
        }
    }
}


void    end_patch_coding(LLBitPack &bitpack)
{
    bitpack.flushBitPack();
}

void    init_patch_decoding(LLBitPack &bitpack)
{
    bitpack.resetBitPacking();
}

void    decode_patch_group_header(LLBitPack &bitpack, LLGroupHeader *gopp)
{
    U16 retvalu16;

    retvalu16 = 0;
#ifdef LL_BIG_ENDIAN
    U8 *ret = (U8 *)&retvalu16;
    bitpack.bitUnpack(&(ret[1]), 8);
    bitpack.bitUnpack(&(ret[0]), 8);
#else
    bitpack.bitUnpack((U8 *)&retvalu16, 16);
#endif
    gopp->stride = retvalu16;

    U8 retvalu8 = 0;
    bitpack.bitUnpack(&retvalu8, 8);
    gopp->patch_size = retvalu8;

    retvalu8 = 0;
    bitpack.bitUnpack(&retvalu8, 8);
    gopp->layer_type = retvalu8;

    gPatchSize = gopp->patch_size;
}

void    decode_patch_header(LLBitPack &bitpack, LLPatchHeader *ph)
{
    U8 retvalu8;

    retvalu8 = 0;
    bitpack.bitUnpack(&retvalu8, 8);
    ph->quant_wbits = retvalu8;

    if (END_OF_PATCHES == ph->quant_wbits)
    {
        // End of data, blitz the rest.
        ph->dc_offset = 0;
        ph->range = 0;
        ph->patchids = 0;
        return;
    }

    U32 retvalu32 = 0;
#ifdef LL_BIG_ENDIAN
    U8 *ret = (U8 *)&retvalu32;
    bitpack.bitUnpack(&(ret[3]), 8);
    bitpack.bitUnpack(&(ret[2]), 8);
    bitpack.bitUnpack(&(ret[1]), 8);
    bitpack.bitUnpack(&(ret[0]), 8);
#else
    bitpack.bitUnpack((U8 *)&retvalu32, 32);
#endif
    ph->dc_offset = *(F32 *)&retvalu32;

    U16 retvalu16 = 0;
#ifdef LL_BIG_ENDIAN
    ret = (U8 *)&retvalu16;
    bitpack.bitUnpack(&(ret[1]), 8);
    bitpack.bitUnpack(&(ret[0]), 8);
#else
    bitpack.bitUnpack((U8 *)&retvalu16, 16);
#endif
    ph->range = retvalu16;

    retvalu16 = 0;
#ifdef LL_BIG_ENDIAN
    ret = (U8 *)&retvalu16;
    bitpack.bitUnpack(&(ret[1]), 8);
    bitpack.bitUnpack(&(ret[0]), 2);
#else
    bitpack.bitUnpack((U8 *)&retvalu16, 10);
#endif
    ph->patchids = retvalu16;

    gWordBits = (ph->quant_wbits & 0xf) + 2;
}

void    decode_patch(LLBitPack &bitpack, S32 *patches)
{
#ifdef LL_BIG_ENDIAN
    S32     i, j, patch_size = gPatchSize, wbits = gWordBits;
    U8      tempu8;
    U16     tempu16;
    U32     tempu32;
    for (i = 0; i < patch_size*patch_size; i++)
    {
        bitpack.bitUnpack((U8 *)&tempu8, 1);
        if (tempu8)
        {
            // either 0 EOB or Value
            bitpack.bitUnpack((U8 *)&tempu8, 1);
            if (tempu8)
            {
                // value
                bitpack.bitUnpack((U8 *)&tempu8, 1);
                if (tempu8)
                {
                    // negative
                    patches[i] = -1;
                }
                else
                {
                    // positive
                    patches[i] = 1;
                }
                if (wbits <= 8)
                {
                    bitpack.bitUnpack((U8 *)&tempu8, wbits);
                    patches[i] *= tempu8;
                }
                else if (wbits <= 16)
                {
                    tempu16 = 0;
                    U8 *ret = (U8 *)&tempu16;
                    bitpack.bitUnpack(&(ret[1]), 8);
                    bitpack.bitUnpack(&(ret[0]), wbits - 8);
                    patches[i] *= tempu16;
                }
                else if (wbits <= 24)
                {
                    tempu32 = 0;
                    U8 *ret = (U8 *)&tempu32;
                    bitpack.bitUnpack(&(ret[2]), 8);
                    bitpack.bitUnpack(&(ret[1]), 8);
                    bitpack.bitUnpack(&(ret[0]), wbits - 16);
                    patches[i] *= tempu32;
                }
                else if (wbits <= 32)
                {
                    tempu32 = 0;
                    U8 *ret = (U8 *)&tempu32;
                    bitpack.bitUnpack(&(ret[3]), 8);
                    bitpack.bitUnpack(&(ret[2]), 8);
                    bitpack.bitUnpack(&(ret[1]), 8);
                    bitpack.bitUnpack(&(ret[0]), wbits - 24);
                    patches[i] *= tempu32;
                }
            }
            else
            {
                for (j = i; j < patch_size*patch_size; j++)
                {
                    patches[j] = 0;
                }
                return;
            }
        }
        else
        {
            patches[i] = 0;
        }
    }
#else
    S32     i, j, patch_size = gPatchSize, wbits = gWordBits;
    U32     temp;
    for (i = 0; i < patch_size*patch_size; i++)
    {
        temp = 0;
        bitpack.bitUnpack((U8 *)&temp, 1);
        if (temp)
        {
            // either 0 EOB or Value
            temp = 0;
            bitpack.bitUnpack((U8 *)&temp, 1);
            if (temp)
            {
                // value
                temp = 0;
                bitpack.bitUnpack((U8 *)&temp, 1);
                if (temp)
                {
                    // negative
                    temp = 0;
                    bitpack.bitUnpack((U8 *)&temp, wbits);
                    patches[i] = temp;
                    patches[i] *= -1;
                }
                else
                {
                    // positive
                    temp = 0;
                    bitpack.bitUnpack((U8 *)&temp, wbits);
                    patches[i] = temp;
                }
            }
            else
            {
                for (j = i; j < patch_size*patch_size; j++)
                {
                    patches[j] = 0;
                }
                return;
            }
        }
        else
        {
            patches[i] = 0;
        }
    }
#endif
}