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 *******************************************************************************
23 * @file
24 *  ih264e_globals.h
25 *
26 * @brief
27 *  Contains declarations of global variables for H264 encoder
28 *
29 * @author
30 *  Ittiam
31 *
32 * @remarks
33 *
34 *******************************************************************************
35 */
36 
37 #ifndef IH264E_GLOBALS_H_
38 #define IH264E_GLOBALS_H_
39 
40 
41 /*****************************************************************************/
42 /* Extern global declarations                                                */
43 /*****************************************************************************/
44 
45 /**
46 ******************************************************************************
47 * @brief  Computes the lamda for varying quantizer scales that would be used to
48 * compute the RD cost while deciding on the MB modes.
49 * input  : qp
50 * output : lambda
51 * @remarks lambda = 0.85 * pow(2, (qp - 12)/3), when SSD is used as metric
52 * for computing distortion (Bit rate estimation for cost function of H.264/
53 * AVC by Mohd Golam Sarwer et. al.)  If the use of distortion metric is SAD
54 * rather than SSD in the stage of encoding, consider sqrt(lambda) simply to
55 * adjust lambda for the lack of squaring operation in the error computation
56 * (from rate distortion optimization for video compression by sullivan).
57 ******************************************************************************
58 */
59 extern const UWORD16 gu2_qp_lambda[52];
60 
61 /**
62 ******************************************************************************
63 * @brief  Computes the lamda for varying quantizer scales that would be used to
64 * compute the RD cost while deciding on the MB modes.
65 * input  : qp
66 * output : lambda
67 * @remarks lambda = pow(2, (qp - 12)/6). When Lagrangian multiplier is disabled
68 * the same constant is used across mode decision and mv decisions.
69 ******************************************************************************
70 */
71 extern const UWORD8 gu1_qp0[52];
72 
73 /**
74 ******************************************************************************
75 * @brief  unsigned exp. goulumb codelengths to assign cost to a coefficient of
76 * mb types.
77 * input  : Integer
78 * output : codelength
79 * @remarks Refer sec. 9-1 in h264 specification
80 ******************************************************************************
81 */
82 extern const UWORD8 u1_uev_codelength[32];
83 
84 /**
85 ******************************************************************************
86 * @brief  Look up table to assign cost to a coefficient of a residual block
87 * basing on its surrounding coefficients
88 * input  : Numbers of T1's
89 * output : coeff_cost
90 * @remarks Refer Section 2.3 Elimination of single coefficients in inter
91 * macroblocks in document JVT-O079
92 ******************************************************************************
93 */
94 extern const UWORD8 gu1_coeff_cost[6];
95 
96 /**
97 ******************************************************************************
98 * @brief  Indices map to raster scan for luma 4x4 block
99 * input  : scan index
100 * output : scan location
101 * @remarks The scan order assumes the stride to access the next row is 16
102 ******************************************************************************
103 */
104 extern const UWORD8 gu1_luma_scan_order[16];
105 
106 /**
107 ******************************************************************************
108 * @brief  Indices map to raster scan for chroma AC block
109 * input  : scan index
110 * output : scan location
111 * @remarks The scan order assumes the stride to access the next row is 32
112 ******************************************************************************
113 */
114 extern const UWORD8 gu1_chroma_scan_order[15];
115 
116 /**
117 ******************************************************************************
118 * @brief  Indices map to raster scan for luma 4x4 dc block
119 * input  : scan index
120 * output : scan location
121 * @remarks The scan order assumes the stride to access the next row is 16
122 ******************************************************************************
123 */
124 extern const UWORD8 gu1_luma_scan_order_dc[16];
125 
126 /**
127 ******************************************************************************
128 * @brief  Indices map to raster scan for chroma 2x2 dc block
129 * input  : scan index
130 * output : scan location
131 * @remarks The scan order assumes the stride to access the next row is 16
132 ******************************************************************************
133 */
134 extern const UWORD8 gu1_chroma_scan_order_dc[4];
135 
136 
137 /**
138 ******************************************************************************
139 * @brief  choice of motion vectors to be used during mv prediction
140 * input  : formatted reference idx comparison metric
141 * output : mv prediction has to be median or a simple straight forward selec
142 * tion from neighbors.
143 * @remarks If only one of the candidate blocks has a reference frame equal to
144     the current block then use the same block as the final predictor. A simple
145     look up table to assist this mv prediction condition
146 ******************************************************************************
147 */
148 extern const WORD8 gi1_mv_pred_condition[8];
149 
150 
151 /**
152 ******************************************************************************
153 * @brief  maps the h264 quantizer to the mpeg2 quantizer scale
154 * input  : h264 qp
155 * output : eqvivalent mpeg 2 qp
156 * @remarks mpeg2qscale = 2 ^ [((h264qp - 12) / 6) + 1]
157 ******************************************************************************
158 */
159 extern const UWORD8 gau1_h264_to_mpeg2_qmap[H264_QP_ELEM];
160 
161 /**
162 ******************************************************************************
163 * @brief  maps the mpeg2 quantizer to the h264 quantizer scale
164 * input  : mpeg2 qp
165 * output : eqvivalent h264q p
166 * @remarks  MPEG-2 dequantization: (2*QFij + k)*Wij*qscale/32
167 *      k = 0 (for intra)  k = sign(QFij)
168 *   H.264 dequantization: (QFij*R(QP%6,i,j))>>(6 - QP/6)
169 *
170 *   Excluding the portion of R(QP%6,i,j) that is due to
171 *   the DCT scale factors, the 6 entries after dividing by 64 (2^6)
172 *   correspond to dequant values of
173 *   2.5, 2.8125, 3.125, 3.5625, 3.9375, 4.4375.
174 *   (a=0.5 b=sqrt(2/5) - refer to JVT-B038.doc)
175 *
176 *   Assuming that h264Qp=12 corresponds to MPEG2 qscale of 2
177 *   (the actual mapping seems to be to MPEG2 qscale of 2.5),
178 *   and the fact that the effective h264 quantizer changes by
179 *   a factor of 2 for every 6 steps, the following mapping is
180 *   obtained:
181 *    h264qp = 6*(log2(mpeg2qscale/2)) + 12.
182 *
183 *   Note that the quant matrix entry assumed for the above
184 *   equality is 16. Hence when the mpeg2 quant matrix entries
185 *   are all 16, this lookup can be used as is (which is the
186 *   default inter quant matrix in mpeg-2).
187 ******************************************************************************
188 */
189 extern const UWORD8 gau1_mpeg2_to_h264_qmap[MPEG2_QP_ELEM];
190 
191 
192 #endif /* IH264E_GLOBALS_H_ */
193