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1 /******************************************************************************
2  *
3  * Copyright (C) 2015 The Android Open Source Project
4  *
5  * Licensed under the Apache License, Version 2.0 (the "License");
6  * you may not use this file except in compliance with the License.
7  * You may obtain a copy of the License at:
8  *
9  * http://www.apache.org/licenses/LICENSE-2.0
10  *
11  * Unless required by applicable law or agreed to in writing, software
12  * distributed under the License is distributed on an "AS IS" BASIS,
13  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14  * See the License for the specific language governing permissions and
15  * limitations under the License.
16  *
17  *****************************************************************************
18  * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
19 */
20 /*!
21  ***************************************************************************
22  * \file ih264d_cabac.h
23  *
24  * \brief
25  *    This file contains declarations of Binary decoding routines and tables.
26  *
27  * \date
28  *    04/02/2003
29  *
30  * \author  NS
31  ***************************************************************************
32  */
33 
34 #ifndef _IH264D_CABAC_H_
35 #define _IH264D_CABAC_H_
36 
37 #include "ih264_typedefs.h"
38 #include "ih264_macros.h"
39 #include "ih264_platform_macros.h"
40 #include "ih264d_bitstrm.h"
41 #include "ih264d_defs.h"
42 
43 #define   B_BITS    10
44 
45 #define   HALF      (1 << (B_BITS-1))
46 #define   QUARTER   (1 << (B_BITS-2))
47 
48 #define CTXT_UNUSED   {0,64}
49 #define NUM_MB_SKIP_CTXT  6
50 #define NUM_MB_TYPE_CTXT  9
51 #define NUM_SUBMB_TYPE_CTXT 7
52 #define NUM_REF_IDX_CTXT  6
53 #define NUM_MB_QP_DELTA 4
54 #define NUM_PRED_MODE 6
55 #define NUM_MB_FIELD    3
56 #define NUM_CBP 12
57 #define NUM_CTX_MVD 14
58 
59 /* Residual block cabac context parameters */
60 #define NUM_CTX_CAT 6
61 #define NUM_LUMA_CTX_CAT 3
62 #define NUM_CTX_CODED_BLOCK 4
63 /* Luma CtxSigCoeff + CtxLastCoeff = 15 + 15 = 30 */
64 #define NUM_LUMA_CTX_SIG_COEF 30
65 /* Chroma DC CtxSigCoeff + CtxLastCoeff = 3 + 3 = 6 */
66 #define NUM_CTX_CHROMA_DC_SIG_COEF 6
67 /* Chroma AC CtxSigCoeff + CtxLastCoeff = 14 + 14 = 28 */
68 #define NUM_CTX_CHROMA_AC_SIG_COEF 28
69 #define NUM_CTX_ABS_LEVEL 10
70 
71 #define LUMA_DC_CTXCAT    0
72 #define LUMA_AC_CTXCAT    1
73 #define LUMA_4X4_CTXCAT   2
74 #define CHROMA_DC_CTXCAT  3
75 #define CHROMA_AC_CTXCAT  4
76 #define LUMA_8X8_CTXCAT   5
77 
78 /*****************************************************************************/
79 /* Constant Macros                                                           */
80 /*****************************************************************************/
81 #define NUM_CABAC_CTXTS 460
82 #define QP_RANGE        52
83 #define NUM_CAB_INIT_IDC_PLUS_ONE 4
84 #define LAST_COEFF_CTXT_MINUS_SIG_COEFF_CTXT 61
85 #define LAST_COEFF_CTXT_MINUS_SIG_COEFF_CTXT_8X8 15
86 
87 /*bits 0 to 5 :state
88  bit 6:mps*/
89 typedef struct
90 {
91     UWORD8 u1_mps_state; /* state number */
92 } bin_ctxt_model_t;
93 
94 typedef struct
95 
96 {
97     /* Neighbour availability Variables needed to get CtxtInc, for CABAC */
98     UWORD8 u1_mb_type; /** macroblock type: I/P/B/SI/SP */
99     UWORD8 u1_cbp; /** Coded Block Pattern */
100     UWORD8 u1_intra_chroma_pred_mode;
101 
102     /*************************************************************************/
103     /*               Arrangnment of DC CSBP                                  */
104     /*        bits:  b7  b6  b5  b4  b3  b2  b1  b0                          */
105     /*        CSBP:   x   x   x   x   x  Vdc Udc Ydc                         */
106     /*************************************************************************/
107     UWORD8 u1_yuv_dc_csbp;
108     WORD8 i1_ref_idx[4];
109     UWORD8 u1_mv[4][4];
110     UWORD8 u1_transform8x8_ctxt;
111 } ctxt_inc_mb_info_t;
112 
113 #define ONE_RIGHT_SHIFTED_BY_8 1<<8
114 #define ONE_RIGHT_SHIFTED_BY_9    1<<9
115 #define ONE_RIGHT_SHIFTED_BY_14 1<<14
116 typedef struct
117 {
118     UWORD32 u4_code_int_range;
119     UWORD32 u4_code_int_val_ofst;
120     const void *cabac_table;
121     void * pv_codec_handle; /* For Error Handling */
122 } decoding_envirnoment_t;
123 
124 WORD32 ih264d_init_cabac_dec_envirnoment(decoding_envirnoment_t * ps_cab_env,
125                                        dec_bit_stream_t *ps_bitstrm);
126 
127 UWORD32 ih264d_decode_bin(UWORD32 u4_ctx_inc,
128                           bin_ctxt_model_t *ps_bin_ctxt,
129                           dec_bit_stream_t *ps_bitstrm,
130                           decoding_envirnoment_t *ps_cab_env);
131 UWORD8 ih264d_decode_terminate(decoding_envirnoment_t * ps_cab_env,
132                                dec_bit_stream_t * ps_bitstrm);
133 
134 UWORD32 ih264d_decode_bins_tunary(UWORD8 u1_max_bins,
135                                   UWORD32 u4_ctx_inc,
136                                   bin_ctxt_model_t *ps_src_bin_ctxt,
137                                   dec_bit_stream_t *ps_bitstrm,
138                                   decoding_envirnoment_t *ps_cab_env);
139 
140 UWORD32 ih264d_decode_bins(UWORD8 u1_max_bins,
141                            UWORD32 u4_ctx_inc,
142                            bin_ctxt_model_t *ps_src_bin_ctxt,
143                            dec_bit_stream_t *ps_bitstrm,
144                            decoding_envirnoment_t *ps_cab_env);
145 UWORD32 ih264d_decode_bins_unary(UWORD8 u1_max_bins,
146                                  UWORD32 u4_ctx_inc,
147                                  bin_ctxt_model_t *ps_src_bin_ctxt,
148                                  dec_bit_stream_t *ps_bitstrm,
149                                  decoding_envirnoment_t *ps_cab_env);
150 
151 UWORD32 ih264d_decode_bypass_bins_unary(decoding_envirnoment_t *ps_cab_env,
152                                         dec_bit_stream_t *ps_bitstrm);
153 
154 UWORD32 ih264d_decode_bypass_bins(decoding_envirnoment_t *ps_cab_env,
155                                   UWORD8 u1_max_bins,
156                                   dec_bit_stream_t *ps_bitstrm);
157 
158 /*****************************************************************************/
159 /* Function Macros                                                           */
160 /*****************************************************************************/
161 
162 /*****************************************************************************/
163 /* Defining a macro for renormalization*/
164 /*****************************************************************************/
165 
166 /*we renormalize every time the number bits(which are read ahead of time) we have
167  consumed in the u4_ofst exceeds 23*/
168 
169 #define RENORM_RANGE_OFFSET(u4_codeIntRange_m,u4_codeIntValOffset_m,u4_offset_m,pu4_buffer_m) \
170   {                                                                                         \
171     UWORD32 read_bits_m,u4_clz_m  ;                                                         \
172     u4_clz_m = CLZ(u4_codeIntRange_m);                                                  \
173     NEXTBITS(read_bits_m,(u4_offset_m+23),pu4_buffer_m,u4_clz_m)                            \
174     FLUSHBITS(u4_offset_m,(u4_clz_m))                                                       \
175     u4_codeIntRange_m = u4_codeIntRange_m << u4_clz_m;                                      \
176     u4_codeIntValOffset_m = (u4_codeIntValOffset_m << u4_clz_m) | read_bits_m;              \
177   }
178 
179 /*****************************************************************************/
180 /* Defining a macro for checking if the symbol is MPS*/
181 /*****************************************************************************/
182 
183 #define CHECK_IF_LPS(u4_codeIntRange_m,u4_codeIntValOffset_m,u4_symbol_m,                   \
184                     u4_codeIntRangeLPS_m,u1_mps_state_m,table_lookup_m)                     \
185 {                                                                                         \
186   if(u4_codeIntValOffset_m >= u4_codeIntRange_m)                                            \
187   {                                                                                         \
188       u4_symbol_m = 1 - u4_symbol_m;                                                        \
189       u4_codeIntValOffset_m -= u4_codeIntRange_m;                                           \
190       u4_codeIntRange_m = u4_codeIntRangeLPS_m;                                             \
191       u1_mps_state_m = (table_lookup_m >> 15) & 0x7F;                                       \
192   }                                                                                         \
193 }
194 
195 /*!
196  **************************************************************************
197  * \if Function name : DECODE_ONE_BIN_MACRO \endif
198  *
199  * \brief
200  *    This function implements decoding process of a decision as defined
201  *    in 9.3.3.2.2.
202  *
203  * \return
204  *    Returns symbol decoded.
205  *
206  * \note
207  *    It is specified in 9.3.3.2.3.2 that, one of the input to this function
208  *    is CtxIdx. CtxIdx is used to identify state and MPS of that context
209  *    (Refer Fig 9.11 - Flowchart for encoding a decision). To suffice that
210  *    here we pass a pointer bin_ctxt_model_t which contains these values.
211  *
212  **************************************************************************
213  */
214 
215 #define DECODE_ONE_BIN_MACRO(p_binCtxt_arg ,u4_code_int_range,u4_code_int_val_ofst,       \
216                      pu4_table_arg,                                                \
217                      p_DecBitStream_arg,u4_symbol)                                           \
218 {                                                                                       \
219     bin_ctxt_model_t *p_binCtxt_m = (bin_ctxt_model_t *) p_binCtxt_arg;                           \
220     dec_bit_stream_t *p_DecBitStream_m = (dec_bit_stream_t *) p_DecBitStream_arg;                 \
221     const UWORD32 *pu4_table_m = (const UWORD32 *) pu4_table_arg;                         \
222                                                                                         \
223     UWORD32 u4_quantCodeIntRange_m,u4_codeIntRangeLPS_m;                                    \
224     UWORD32 u1_mps_state_m;                                                               \
225     UWORD32 table_lookup_m;                                                               \
226     UWORD32 u4_clz_m;                                                                     \
227                                                                                         \
228     u1_mps_state_m = (p_binCtxt_m->u1_mps_state);                                           \
229     u4_clz_m = CLZ(u4_code_int_range);                                                  \
230     u4_quantCodeIntRange_m = u4_code_int_range << u4_clz_m;                                   \
231     u4_quantCodeIntRange_m = (u4_quantCodeIntRange_m >> 29) & 0x3;                          \
232     table_lookup_m = pu4_table_m[(u1_mps_state_m << 2)+u4_quantCodeIntRange_m];                 \
233     u4_codeIntRangeLPS_m = table_lookup_m & 0xff;                                           \
234                                                                                         \
235     u4_codeIntRangeLPS_m = u4_codeIntRangeLPS_m << (23 - u4_clz_m);                           \
236     u4_code_int_range = u4_code_int_range - u4_codeIntRangeLPS_m;                             \
237     u4_symbol = ((u1_mps_state_m>> 6) & 0x1);                                             \
238     /*if mps*/                                                                          \
239     u1_mps_state_m = (table_lookup_m >> 8) & 0x7F;                                          \
240     if(u4_code_int_val_ofst >= u4_code_int_range)                                          \
241   {                                                                                     \
242                                                                                         \
243     u4_symbol = 1 - u4_symbol;                                                          \
244     u4_code_int_val_ofst -= u4_code_int_range;                                             \
245     u4_code_int_range = u4_codeIntRangeLPS_m;                                               \
246     u1_mps_state_m = (table_lookup_m >> 15) & 0x7F;                                         \
247   }                                                                                     \
248     if(u4_code_int_range < ONE_RIGHT_SHIFTED_BY_8)                                        \
249     {                                                                                   \
250         UWORD32 *pu4_buffer,u4_offset;                                                  \
251         UWORD32 read_bits,u4_clz_m  ;                                                     \
252                                                                                         \
253         pu4_buffer = p_DecBitStream_m->pu4_buffer;                                         \
254         u4_offset = p_DecBitStream_m->u4_ofst;                                          \
255         u4_clz_m = CLZ(u4_code_int_range);                                              \
256         NEXTBITS(read_bits,(u4_offset+23),pu4_buffer,u4_clz_m)                            \
257         FLUSHBITS(u4_offset,(u4_clz_m))                                                   \
258         u4_code_int_range = u4_code_int_range << u4_clz_m;                                    \
259         u4_code_int_val_ofst= (u4_code_int_val_ofst << u4_clz_m) | read_bits;               \
260                                                                                         \
261                                                                                         \
262         p_DecBitStream_m->u4_ofst = u4_offset;                                          \
263     }                                                                                   \
264     p_binCtxt_m->u1_mps_state = u1_mps_state_m;                                             \
265 }
266 
267 #endif  /*  _IH264D_CABAC_H_ */
268