762 lines
14 KiB
C
762 lines
14 KiB
C
/**
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* FreeRDP: A Remote Desktop Protocol Implementation
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* RemoteFX Codec Library - RLGR
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*
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* Copyright 2011 Vic Lee
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/**
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* This implementation of RLGR refers to
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* [MS-RDPRFX] 3.1.8.1.7.3 RLGR1/RLGR3 Pseudocode
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*/
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#include <freerdp/config.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <winpr/crt.h>
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#include <winpr/print.h>
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#include <winpr/sysinfo.h>
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#include <winpr/bitstream.h>
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#include <winpr/intrin.h>
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#include "rfx_bitstream.h"
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#include "rfx_rlgr.h"
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/* Constants used in RLGR1/RLGR3 algorithm */
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#define KPMAX (80) /* max value for kp or krp */
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#define LSGR (3) /* shift count to convert kp to k */
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#define UP_GR (4) /* increase in kp after a zero run in RL mode */
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#define DN_GR (6) /* decrease in kp after a nonzero symbol in RL mode */
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#define UQ_GR (3) /* increase in kp after nonzero symbol in GR mode */
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#define DQ_GR (3) /* decrease in kp after zero symbol in GR mode */
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/* Returns the least number of bits required to represent a given value */
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#define GetMinBits(_val, _nbits) \
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do \
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{ \
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UINT32 _v = _val; \
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_nbits = 0; \
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while (_v) \
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{ \
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_v >>= 1; \
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_nbits++; \
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} \
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} while (0)
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/*
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* Update the passed parameter and clamp it to the range [0, KPMAX]
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* Return the value of parameter right-shifted by LSGR
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*/
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#define UpdateParam(_param, _deltaP, _k) \
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do \
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{ \
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_param += _deltaP; \
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if (_param > KPMAX) \
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_param = KPMAX; \
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if (_param < 0) \
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_param = 0; \
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_k = (_param >> LSGR); \
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} while (0)
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static BOOL g_LZCNT = FALSE;
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static INIT_ONCE rfx_rlgr_init_once = INIT_ONCE_STATIC_INIT;
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static BOOL CALLBACK rfx_rlgr_init(PINIT_ONCE once, PVOID param, PVOID* context)
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{
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g_LZCNT = IsProcessorFeaturePresentEx(PF_EX_LZCNT);
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return TRUE;
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}
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static INLINE UINT32 lzcnt_s(UINT32 x)
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{
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if (!x)
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return 32;
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if (!g_LZCNT)
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{
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UINT32 y;
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int n = 32;
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y = x >> 16;
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if (y != 0)
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{
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n = n - 16;
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x = y;
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}
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y = x >> 8;
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if (y != 0)
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{
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n = n - 8;
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x = y;
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}
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y = x >> 4;
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if (y != 0)
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{
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n = n - 4;
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x = y;
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}
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y = x >> 2;
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if (y != 0)
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{
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n = n - 2;
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x = y;
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}
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y = x >> 1;
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if (y != 0)
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return n - 2;
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return n - x;
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}
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return __lzcnt(x);
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}
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int rfx_rlgr_decode(RLGR_MODE mode, const BYTE* pSrcData, UINT32 SrcSize, INT16* pDstData,
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UINT32 DstSize)
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{
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int vk;
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int run;
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int cnt;
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int size;
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int nbits;
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size_t offset;
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INT16 mag;
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UINT32 k;
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INT32 kp;
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UINT32 kr;
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INT32 krp;
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UINT16 code;
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UINT32 sign;
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UINT32 nIdx;
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UINT32 val1;
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UINT32 val2;
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INT16* pOutput;
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wBitStream* bs;
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wBitStream s_bs;
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InitOnceExecuteOnce(&rfx_rlgr_init_once, rfx_rlgr_init, NULL, NULL);
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k = 1;
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kp = k << LSGR;
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kr = 1;
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krp = kr << LSGR;
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if ((mode != RLGR1) && (mode != RLGR3))
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mode = RLGR1;
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if (!pSrcData || !SrcSize)
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return -1;
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if (!pDstData || !DstSize)
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return -1;
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pOutput = pDstData;
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bs = &s_bs;
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BitStream_Attach(bs, pSrcData, SrcSize);
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BitStream_Fetch(bs);
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while ((BitStream_GetRemainingLength(bs) > 0) && ((pOutput - pDstData) < DstSize))
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{
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if (k)
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{
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/* Run-Length (RL) Mode */
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run = 0;
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/* count number of leading 0s */
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cnt = lzcnt_s(bs->accumulator);
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk = cnt;
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while ((cnt == 32) && (BitStream_GetRemainingLength(bs) > 0))
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{
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BitStream_Shift32(bs);
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cnt = lzcnt_s(bs->accumulator);
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk += cnt;
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}
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BitStream_Shift(bs, (vk % 32));
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if (BitStream_GetRemainingLength(bs) < 1)
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break;
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BitStream_Shift(bs, 1);
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while (vk--)
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{
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run += (1 << k); /* add (1 << k) to run length */
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/* update k, kp params */
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kp += UP_GR;
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if (kp > KPMAX)
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kp = KPMAX;
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k = kp >> LSGR;
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}
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/* next k bits contain run length remainder */
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if (BitStream_GetRemainingLength(bs) < k)
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break;
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bs->mask = ((1 << k) - 1);
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run += ((bs->accumulator >> (32 - k)) & bs->mask);
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BitStream_Shift(bs, k);
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/* read sign bit */
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if (BitStream_GetRemainingLength(bs) < 1)
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break;
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sign = (bs->accumulator & 0x80000000) ? 1 : 0;
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BitStream_Shift(bs, 1);
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/* count number of leading 1s */
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cnt = lzcnt_s(~(bs->accumulator));
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk = cnt;
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while ((cnt == 32) && (BitStream_GetRemainingLength(bs) > 0))
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{
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BitStream_Shift32(bs);
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cnt = lzcnt_s(~(bs->accumulator));
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk += cnt;
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}
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BitStream_Shift(bs, (vk % 32));
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if (BitStream_GetRemainingLength(bs) < 1)
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break;
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BitStream_Shift(bs, 1);
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/* next kr bits contain code remainder */
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if (BitStream_GetRemainingLength(bs) < kr)
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break;
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bs->mask = ((1 << kr) - 1);
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if (kr > 0)
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code = (UINT16)((bs->accumulator >> (32 - kr)) & bs->mask);
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else
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code = 0;
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BitStream_Shift(bs, kr);
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/* add (vk << kr) to code */
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code |= (vk << kr);
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if (!vk)
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{
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/* update kr, krp params */
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krp -= 2;
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if (krp < 0)
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krp = 0;
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kr = krp >> LSGR;
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}
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else if (vk != 1)
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{
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/* update kr, krp params */
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krp += vk;
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if (krp > KPMAX)
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krp = KPMAX;
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kr = krp >> LSGR;
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}
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/* update k, kp params */
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kp -= DN_GR;
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if (kp < 0)
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kp = 0;
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k = kp >> LSGR;
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/* compute magnitude from code */
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if (sign)
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mag = ((INT16)(code + 1)) * -1;
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else
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mag = (INT16)(code + 1);
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/* write to output stream */
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offset = (pOutput - pDstData);
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size = run;
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if ((offset + size) > DstSize)
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size = DstSize - offset;
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if (size)
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{
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ZeroMemory(pOutput, size * sizeof(INT16));
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pOutput += size;
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}
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if ((pOutput - pDstData) < DstSize)
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{
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*pOutput = mag;
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pOutput++;
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}
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}
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else
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{
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/* Golomb-Rice (GR) Mode */
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/* count number of leading 1s */
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cnt = lzcnt_s(~(bs->accumulator));
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk = cnt;
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while ((cnt == 32) && (BitStream_GetRemainingLength(bs) > 0))
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{
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BitStream_Shift32(bs);
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cnt = lzcnt_s(~(bs->accumulator));
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nbits = BitStream_GetRemainingLength(bs);
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if (cnt > nbits)
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cnt = nbits;
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vk += cnt;
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}
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BitStream_Shift(bs, (vk % 32));
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if (BitStream_GetRemainingLength(bs) < 1)
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break;
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BitStream_Shift(bs, 1);
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/* next kr bits contain code remainder */
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if (BitStream_GetRemainingLength(bs) < kr)
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break;
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bs->mask = ((1 << kr) - 1);
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if (kr > 0)
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code = (UINT16)((bs->accumulator >> (32 - kr)) & bs->mask);
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else
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code = 0;
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BitStream_Shift(bs, kr);
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/* add (vk << kr) to code */
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code |= (vk << kr);
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if (!vk)
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{
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/* update kr, krp params */
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krp -= 2;
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if (krp < 0)
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krp = 0;
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kr = krp >> LSGR;
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}
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else if (vk != 1)
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{
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/* update kr, krp params */
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krp += vk;
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if (krp > KPMAX)
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krp = KPMAX;
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kr = krp >> LSGR;
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}
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if (mode == RLGR1) /* RLGR1 */
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{
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if (!code)
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{
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/* update k, kp params */
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kp += UQ_GR;
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if (kp > KPMAX)
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kp = KPMAX;
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k = kp >> LSGR;
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mag = 0;
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}
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else
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{
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/* update k, kp params */
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kp -= DQ_GR;
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if (kp < 0)
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kp = 0;
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k = kp >> LSGR;
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/*
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* code = 2 * mag - sign
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* sign + code = 2 * mag
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*/
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if (code & 1)
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mag = ((INT16)((code + 1) >> 1)) * -1;
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else
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mag = (INT16)(code >> 1);
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}
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if ((pOutput - pDstData) < DstSize)
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{
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*pOutput = mag;
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pOutput++;
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}
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}
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else if (mode == RLGR3) /* RLGR3 */
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{
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nIdx = 0;
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if (code)
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{
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mag = (UINT32)code;
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nIdx = 32 - lzcnt_s(mag);
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}
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if (BitStream_GetRemainingLength(bs) < nIdx)
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break;
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bs->mask = ((1 << nIdx) - 1);
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if (nIdx > 0)
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val1 = ((bs->accumulator >> (32 - nIdx)) & bs->mask);
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else
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val1 = 0;
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BitStream_Shift(bs, nIdx);
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val2 = code - val1;
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if (val1 && val2)
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{
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/* update k, kp params */
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kp -= (2 * DQ_GR);
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if (kp < 0)
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kp = 0;
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k = kp >> LSGR;
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}
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else if (!val1 && !val2)
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{
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/* update k, kp params */
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kp += (2 * UQ_GR);
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if (kp > KPMAX)
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kp = KPMAX;
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k = kp >> LSGR;
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}
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if (val1 & 1)
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mag = ((INT16)((val1 + 1) >> 1)) * -1;
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else
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mag = (INT16)(val1 >> 1);
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if ((pOutput - pDstData) < DstSize)
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{
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*pOutput = mag;
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pOutput++;
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}
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if (val2 & 1)
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mag = ((INT16)((val2 + 1) >> 1)) * -1;
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else
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mag = (INT16)(val2 >> 1);
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if ((pOutput - pDstData) < DstSize)
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{
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*pOutput = mag;
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pOutput++;
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}
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}
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}
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}
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offset = (pOutput - pDstData);
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if (offset < DstSize)
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{
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size = DstSize - offset;
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ZeroMemory(pOutput, size * 2);
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pOutput += size;
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}
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offset = (pOutput - pDstData);
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if (offset != DstSize)
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return -1;
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return 1;
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}
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/* Returns the next coefficient (a signed int) to encode, from the input stream */
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#define GetNextInput(_n) \
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do \
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{ \
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if (data_size > 0) \
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{ \
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_n = *data++; \
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data_size--; \
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} \
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else \
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{ \
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_n = 0; \
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} \
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} while (0)
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/* Emit bitPattern to the output bitstream */
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#define OutputBits(numBits, bitPattern) rfx_bitstream_put_bits(bs, bitPattern, numBits)
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/* Emit a bit (0 or 1), count number of times, to the output bitstream */
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#define OutputBit(count, bit) \
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do \
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{ \
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UINT16 _b = (bit ? 0xFFFF : 0); \
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int _c = (count); \
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for (; _c > 0; _c -= 16) \
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rfx_bitstream_put_bits(bs, _b, (_c > 16 ? 16 : _c)); \
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} while (0)
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/* Converts the input value to (2 * abs(input) - sign(input)), where sign(input) = (input < 0 ? 1 :
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* 0) and returns it */
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#define Get2MagSign(input) ((input) >= 0 ? 2 * (input) : -2 * (input)-1)
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/* Outputs the Golomb/Rice encoding of a non-negative integer */
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#define CodeGR(krp, val) rfx_rlgr_code_gr(bs, krp, val)
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static void rfx_rlgr_code_gr(RFX_BITSTREAM* bs, int* krp, UINT32 val)
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{
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int kr = *krp >> LSGR;
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/* unary part of GR code */
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UINT32 vk = (val) >> kr;
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OutputBit(vk, 1);
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OutputBit(1, 0);
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/* remainder part of GR code, if needed */
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if (kr)
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{
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OutputBits(kr, val & ((1 << kr) - 1));
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}
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/* update krp, only if it is not equal to 1 */
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if (vk == 0)
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{
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UpdateParam(*krp, -2, kr);
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}
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else if (vk > 1)
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{
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UpdateParam(*krp, vk, kr);
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}
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}
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int rfx_rlgr_encode(RLGR_MODE mode, const INT16* data, UINT32 data_size, BYTE* buffer,
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UINT32 buffer_size)
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{
|
|
int k;
|
|
int kp;
|
|
int krp;
|
|
RFX_BITSTREAM* bs;
|
|
int processed_size;
|
|
|
|
if (!(bs = (RFX_BITSTREAM*)calloc(1, sizeof(RFX_BITSTREAM))))
|
|
return 0;
|
|
|
|
rfx_bitstream_attach(bs, buffer, buffer_size);
|
|
|
|
/* initialize the parameters */
|
|
k = 1;
|
|
kp = 1 << LSGR;
|
|
krp = 1 << LSGR;
|
|
|
|
/* process all the input coefficients */
|
|
while (data_size > 0)
|
|
{
|
|
int input;
|
|
|
|
if (k)
|
|
{
|
|
int numZeros;
|
|
int runmax;
|
|
int mag;
|
|
int sign;
|
|
|
|
/* RUN-LENGTH MODE */
|
|
|
|
/* collect the run of zeros in the input stream */
|
|
numZeros = 0;
|
|
GetNextInput(input);
|
|
while (input == 0 && data_size > 0)
|
|
{
|
|
numZeros++;
|
|
GetNextInput(input);
|
|
}
|
|
|
|
// emit output zeros
|
|
runmax = 1 << k;
|
|
while (numZeros >= runmax)
|
|
{
|
|
OutputBit(1, 0); /* output a zero bit */
|
|
numZeros -= runmax;
|
|
UpdateParam(kp, UP_GR, k); /* update kp, k */
|
|
runmax = 1 << k;
|
|
}
|
|
|
|
/* output a 1 to terminate runs */
|
|
OutputBit(1, 1);
|
|
|
|
/* output the remaining run length using k bits */
|
|
OutputBits(k, numZeros);
|
|
|
|
/* note: when we reach here and the last byte being encoded is 0, we still
|
|
need to output the last two bits, otherwise mstsc will crash */
|
|
|
|
/* encode the nonzero value using GR coding */
|
|
mag = (input < 0 ? -input : input); /* absolute value of input coefficient */
|
|
sign = (input < 0 ? 1 : 0); /* sign of input coefficient */
|
|
|
|
OutputBit(1, sign); /* output the sign bit */
|
|
CodeGR(&krp, mag ? mag - 1 : 0); /* output GR code for (mag - 1) */
|
|
|
|
UpdateParam(kp, -DN_GR, k);
|
|
}
|
|
else
|
|
{
|
|
/* GOLOMB-RICE MODE */
|
|
|
|
if (mode == RLGR1)
|
|
{
|
|
UINT32 twoMs;
|
|
|
|
/* RLGR1 variant */
|
|
|
|
/* convert input to (2*magnitude - sign), encode using GR code */
|
|
GetNextInput(input);
|
|
twoMs = Get2MagSign(input);
|
|
CodeGR(&krp, twoMs);
|
|
|
|
/* update k, kp */
|
|
/* NOTE: as of Aug 2011, the algorithm is still wrongly documented
|
|
and the update direction is reversed */
|
|
if (twoMs)
|
|
{
|
|
UpdateParam(kp, -DQ_GR, k);
|
|
}
|
|
else
|
|
{
|
|
UpdateParam(kp, UQ_GR, k);
|
|
}
|
|
}
|
|
else /* mode == RLGR3 */
|
|
{
|
|
UINT32 twoMs1;
|
|
UINT32 twoMs2;
|
|
UINT32 sum2Ms;
|
|
UINT32 nIdx;
|
|
|
|
/* RLGR3 variant */
|
|
|
|
/* convert the next two input values to (2*magnitude - sign) and */
|
|
/* encode their sum using GR code */
|
|
|
|
GetNextInput(input);
|
|
twoMs1 = Get2MagSign(input);
|
|
GetNextInput(input);
|
|
twoMs2 = Get2MagSign(input);
|
|
sum2Ms = twoMs1 + twoMs2;
|
|
|
|
CodeGR(&krp, sum2Ms);
|
|
|
|
/* encode binary representation of the first input (twoMs1). */
|
|
GetMinBits(sum2Ms, nIdx);
|
|
OutputBits(nIdx, twoMs1);
|
|
|
|
/* update k,kp for the two input values */
|
|
|
|
if (twoMs1 && twoMs2)
|
|
{
|
|
UpdateParam(kp, -2 * DQ_GR, k);
|
|
}
|
|
else if (!twoMs1 && !twoMs2)
|
|
{
|
|
UpdateParam(kp, 2 * UQ_GR, k);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
rfx_bitstream_flush(bs);
|
|
processed_size = rfx_bitstream_get_processed_bytes(bs);
|
|
free(bs);
|
|
|
|
return processed_size;
|
|
}
|