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Issue 2850032: ffmpeg update to june 23 version which fixes mp4 crash on still frames with 3... (Closed) Base URL: svn://chrome-svn/chrome/trunk/deps/third_party/ffmpeg/
Patch Set: Created 10 years, 6 months ago
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1 /*
2 * Header file for hardcoded Parametric Stereo tables
3 *
4 * Copyright (c) 2010 Alex Converse <alex.converse@gmail.com>
5 *
6 * This file is part of FFmpeg.
7 *
8 * FFmpeg is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU Lesser General Public
10 * License as published by the Free Software Foundation; either
11 * version 2.1 of the License, or (at your option) any later version.
12 *
13 * FFmpeg is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Lesser General Public License for more details.
17 *
18 * You should have received a copy of the GNU Lesser General Public
19 * License along with FFmpeg; if not, write to the Free Software
20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 */
22
23 #ifndef PS_TABLEGEN_H
24 #define PS_TABLEGEN_H
25
26 #include <stdint.h>
27 #include <math.h>
28
29 #if CONFIG_HARDCODED_TABLES
30 #define ps_tableinit()
31 #include "libavcodec/ps_tables.h"
32 #else
33 #include "../libavutil/common.h"
34 #ifndef M_SQRT1_2
35 #define M_SQRT1_2 0.70710678118654752440 /* 1/sqrt(2) */
36 #endif
37 #ifndef M_PI
38 #define M_PI 3.14159265358979323846 /* pi */
39 #endif
40 #ifndef M_SQRT2
41 #define M_SQRT2 1.41421356237309504880 /* sqrt(2) */
42 #endif
43 #define NR_ALLPASS_BANDS20 30
44 #define NR_ALLPASS_BANDS34 50
45 #define PS_AP_LINKS 3
46 static float pd_re_smooth[8*8*8];
47 static float pd_im_smooth[8*8*8];
48 static float HA[46][8][4];
49 static float HB[46][8][4];
50 static float f20_0_8 [ 8][7][2];
51 static float f34_0_12[12][7][2];
52 static float f34_1_8 [ 8][7][2];
53 static float f34_2_4 [ 4][7][2];
54 static float Q_fract_allpass[2][50][3][2];
55 static float phi_fract[2][50][2];
56
57 static const float g0_Q8[] = {
58 0.00746082949812f, 0.02270420949825f, 0.04546865930473f, 0.07266113929591f,
59 0.09885108575264f, 0.11793710567217f, 0.125f
60 };
61
62 static const float g0_Q12[] = {
63 0.04081179924692f, 0.03812810994926f, 0.05144908135699f, 0.06399831151592f,
64 0.07428313801106f, 0.08100347892914f, 0.08333333333333f
65 };
66
67 static const float g1_Q8[] = {
68 0.01565675600122f, 0.03752716391991f, 0.05417891378782f, 0.08417044116767f,
69 0.10307344158036f, 0.12222452249753f, 0.125f
70 };
71
72 static const float g2_Q4[] = {
73 -0.05908211155639f, -0.04871498374946f, 0.0f, 0.07778723915851f,
74 0.16486303567403f, 0.23279856662996f, 0.25f
75 };
76
77 static void make_filters_from_proto(float (*filter)[7][2], const float *proto, i nt bands)
78 {
79 int q, n;
80 for (q = 0; q < bands; q++) {
81 for (n = 0; n < 7; n++) {
82 double theta = 2 * M_PI * (q + 0.5) * (n - 6) / bands;
83 filter[q][n][0] = proto[n] * cos(theta);
84 filter[q][n][1] = proto[n] * -sin(theta);
85 }
86 }
87 }
88
89 static void ps_tableinit(void)
90 {
91 static const float ipdopd_sin[] = { 0, M_SQRT1_2, 1, M_SQRT1_2, 0, -M_SQRT 1_2, -1, -M_SQRT1_2 };
92 static const float ipdopd_cos[] = { 1, M_SQRT1_2, 0, -M_SQRT1_2, -1, -M_SQRT 1_2, 0, M_SQRT1_2 };
93 int pd0, pd1, pd2;
94
95 static const float iid_par_dequant[] = {
96 //iid_par_dequant_default
97 0.05623413251903, 0.12589254117942, 0.19952623149689, 0.31622776601684,
98 0.44668359215096, 0.63095734448019, 0.79432823472428, 1,
99 1.25892541179417, 1.58489319246111, 2.23872113856834, 3.16227766016838,
100 5.01187233627272, 7.94328234724282, 17.7827941003892,
101 //iid_par_dequant_fine
102 0.00316227766017, 0.00562341325190, 0.01, 0.01778279410039,
103 0.03162277660168, 0.05623413251903, 0.07943282347243, 0.11220184543020,
104 0.15848931924611, 0.22387211385683, 0.31622776601684, 0.39810717055350,
105 0.50118723362727, 0.63095734448019, 0.79432823472428, 1,
106 1.25892541179417, 1.58489319246111, 1.99526231496888, 2.51188643150958,
107 3.16227766016838, 4.46683592150963, 6.30957344480193, 8.91250938133745,
108 12.5892541179417, 17.7827941003892, 31.6227766016838, 56.2341325190349,
109 100, 177.827941003892, 316.227766016837,
110 };
111 static const float icc_invq[] = {
112 1, 0.937, 0.84118, 0.60092, 0.36764, 0, -0.589, -1
113 };
114 static const float acos_icc_invq[] = {
115 0, 0.35685527, 0.57133466, 0.92614472, 1.1943263, M_PI/2, 2.2006171, M_P I
116 };
117 int iid, icc;
118
119 int k, m;
120 static const int8_t f_center_20[] = {
121 -3, -1, 1, 3, 5, 7, 10, 14, 18, 22,
122 };
123 static const int8_t f_center_34[] = {
124 2, 6, 10, 14, 18, 22, 26, 30,
125 34,-10, -6, -2, 51, 57, 15, 21,
126 27, 33, 39, 45, 54, 66, 78, 42,
127 102, 66, 78, 90,102,114,126, 90,
128 };
129 static const float fractional_delay_links[] = { 0.43f, 0.75f, 0.347f };
130 const float fractional_delay_gain = 0.39f;
131
132 for (pd0 = 0; pd0 < 8; pd0++) {
133 float pd0_re = ipdopd_cos[pd0];
134 float pd0_im = ipdopd_sin[pd0];
135 for (pd1 = 0; pd1 < 8; pd1++) {
136 float pd1_re = ipdopd_cos[pd1];
137 float pd1_im = ipdopd_sin[pd1];
138 for (pd2 = 0; pd2 < 8; pd2++) {
139 float pd2_re = ipdopd_cos[pd2];
140 float pd2_im = ipdopd_sin[pd2];
141 float re_smooth = 0.25f * pd0_re + 0.5f * pd1_re + pd2_re;
142 float im_smooth = 0.25f * pd0_im + 0.5f * pd1_im + pd2_im;
143 float pd_mag = 1 / sqrt(im_smooth * im_smooth + re_smooth * re_s mooth);
144 pd_re_smooth[pd0*64+pd1*8+pd2] = re_smooth * pd_mag;
145 pd_im_smooth[pd0*64+pd1*8+pd2] = im_smooth * pd_mag;
146 }
147 }
148 }
149
150 for (iid = 0; iid < 46; iid++) {
151 float c = iid_par_dequant[iid]; //<Linear Inter-channel Intensity Differ ence
152 float c1 = (float)M_SQRT2 / sqrtf(1.0f + c*c);
153 float c2 = c * c1;
154 for (icc = 0; icc < 8; icc++) {
155 /*if (PS_BASELINE || ps->icc_mode < 3)*/ {
156 float alpha = 0.5f * acos_icc_invq[icc];
157 float beta = alpha * (c1 - c2) * (float)M_SQRT1_2;
158 HA[iid][icc][0] = c2 * cosf(beta + alpha);
159 HA[iid][icc][1] = c1 * cosf(beta - alpha);
160 HA[iid][icc][2] = c2 * sinf(beta + alpha);
161 HA[iid][icc][3] = c1 * sinf(beta - alpha);
162 } /* else */ {
163 float alpha, gamma, mu, rho;
164 float alpha_c, alpha_s, gamma_c, gamma_s;
165 rho = FFMAX(icc_invq[icc], 0.05f);
166 alpha = 0.5f * atan2f(2.0f * c * rho, c*c - 1.0f);
167 mu = c + 1.0f / c;
168 mu = sqrtf(1 + (4 * rho * rho - 4)/(mu * mu));
169 gamma = atanf(sqrtf((1.0f - mu)/(1.0f + mu)));
170 if (alpha < 0) alpha += M_PI/2;
171 alpha_c = cosf(alpha);
172 alpha_s = sinf(alpha);
173 gamma_c = cosf(gamma);
174 gamma_s = sinf(gamma);
175 HB[iid][icc][0] = M_SQRT2 * alpha_c * gamma_c;
176 HB[iid][icc][1] = M_SQRT2 * alpha_s * gamma_c;
177 HB[iid][icc][2] = -M_SQRT2 * alpha_s * gamma_s;
178 HB[iid][icc][3] = M_SQRT2 * alpha_c * gamma_s;
179 }
180 }
181 }
182
183 for (k = 0; k < NR_ALLPASS_BANDS20; k++) {
184 double f_center, theta;
185 if (k < FF_ARRAY_ELEMS(f_center_20))
186 f_center = f_center_20[k] * 0.125;
187 else
188 f_center = k - 6.5f;
189 for (m = 0; m < PS_AP_LINKS; m++) {
190 theta = -M_PI * fractional_delay_links[m] * f_center;
191 Q_fract_allpass[0][k][m][0] = cos(theta);
192 Q_fract_allpass[0][k][m][1] = sin(theta);
193 }
194 theta = -M_PI*fractional_delay_gain*f_center;
195 phi_fract[0][k][0] = cos(theta);
196 phi_fract[0][k][1] = sin(theta);
197 }
198 for (k = 0; k < NR_ALLPASS_BANDS34; k++) {
199 double f_center, theta;
200 if (k < FF_ARRAY_ELEMS(f_center_34))
201 f_center = f_center_34[k] / 24.;
202 else
203 f_center = k - 26.5f;
204 for (m = 0; m < PS_AP_LINKS; m++) {
205 theta = -M_PI * fractional_delay_links[m] * f_center;
206 Q_fract_allpass[1][k][m][0] = cos(theta);
207 Q_fract_allpass[1][k][m][1] = sin(theta);
208 }
209 theta = -M_PI*fractional_delay_gain*f_center;
210 phi_fract[1][k][0] = cos(theta);
211 phi_fract[1][k][1] = sin(theta);
212 }
213
214 make_filters_from_proto(f20_0_8, g0_Q8, 8);
215 make_filters_from_proto(f34_0_12, g0_Q12, 12);
216 make_filters_from_proto(f34_1_8, g1_Q8, 8);
217 make_filters_from_proto(f34_2_4, g2_Q4, 4);
218 }
219 #endif /* CONFIG_HARDCODED_TABLES */
220
221 #endif /* PS_TABLEGEN_H */
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