1*b2055c35SXin Li // Copyright 2016 Google Inc. All Rights Reserved.
2*b2055c35SXin Li //
3*b2055c35SXin Li // Use of this source code is governed by a BSD-style license
4*b2055c35SXin Li // that can be found in the COPYING file in the root of the source
5*b2055c35SXin Li // tree. An additional intellectual property rights grant can be found
6*b2055c35SXin Li // in the file PATENTS. All contributing project authors may
7*b2055c35SXin Li // be found in the AUTHORS file in the root of the source tree.
8*b2055c35SXin Li // -----------------------------------------------------------------------------
9*b2055c35SXin Li //
10*b2055c35SXin Li // VP8EstimateQuality(): rough encoding quality estimate
11*b2055c35SXin Li //
12*b2055c35SXin Li // Author: Skal ([email protected])
13*b2055c35SXin Li
14*b2055c35SXin Li #include "extras/extras.h"
15*b2055c35SXin Li #include "webp/decode.h"
16*b2055c35SXin Li
17*b2055c35SXin Li #include <math.h>
18*b2055c35SXin Li
19*b2055c35SXin Li //------------------------------------------------------------------------------
20*b2055c35SXin Li
21*b2055c35SXin Li #define INVALID_BIT_POS (1ull << 63)
22*b2055c35SXin Li
23*b2055c35SXin Li // In most cases, we don't need to use a full arithmetic decoder, since
24*b2055c35SXin Li // all the header's bits are written using a uniform probability of 128.
25*b2055c35SXin Li // We can just parse the header as if it was bits (works in 99.999% cases).
GetBit(const uint8_t * const data,size_t nb,uint64_t max_size,uint64_t * const bit_pos)26*b2055c35SXin Li static WEBP_INLINE uint32_t GetBit(const uint8_t* const data, size_t nb,
27*b2055c35SXin Li uint64_t max_size, uint64_t* const bit_pos) {
28*b2055c35SXin Li uint32_t val = 0;
29*b2055c35SXin Li if (*bit_pos + nb <= 8 * max_size) {
30*b2055c35SXin Li while (nb-- > 0) {
31*b2055c35SXin Li const uint64_t p = (*bit_pos)++;
32*b2055c35SXin Li const int bit = !!(data[p >> 3] & (128 >> ((p & 7))));
33*b2055c35SXin Li val = (val << 1) | bit;
34*b2055c35SXin Li }
35*b2055c35SXin Li } else {
36*b2055c35SXin Li *bit_pos = INVALID_BIT_POS;
37*b2055c35SXin Li }
38*b2055c35SXin Li return val;
39*b2055c35SXin Li }
40*b2055c35SXin Li
41*b2055c35SXin Li #define GET_BIT(n) GetBit(data, (n), size, &bit_pos)
42*b2055c35SXin Li #define CONDITIONAL_SKIP(n) (GET_BIT(1) ? GET_BIT((n)) : 0)
43*b2055c35SXin Li
VP8EstimateQuality(const uint8_t * const data,size_t size)44*b2055c35SXin Li int VP8EstimateQuality(const uint8_t* const data, size_t size) {
45*b2055c35SXin Li size_t pos = 0;
46*b2055c35SXin Li uint64_t bit_pos;
47*b2055c35SXin Li uint64_t sig = 0x00;
48*b2055c35SXin Li int ok = 0;
49*b2055c35SXin Li int Q = -1;
50*b2055c35SXin Li WebPBitstreamFeatures features;
51*b2055c35SXin Li
52*b2055c35SXin Li if (data == NULL) return -1;
53*b2055c35SXin Li
54*b2055c35SXin Li if (WebPGetFeatures(data, size, &features) != VP8_STATUS_OK) {
55*b2055c35SXin Li return -1; // invalid file
56*b2055c35SXin Li }
57*b2055c35SXin Li if (features.format == 2) return 101; // lossless
58*b2055c35SXin Li if (features.format == 0 || features.has_animation) return -1; // mixed
59*b2055c35SXin Li
60*b2055c35SXin Li while (pos < size) {
61*b2055c35SXin Li sig = (sig >> 8) | ((uint64_t)data[pos++] << 40);
62*b2055c35SXin Li if ((sig >> 24) == 0x2a019dull) {
63*b2055c35SXin Li ok = 1;
64*b2055c35SXin Li break;
65*b2055c35SXin Li }
66*b2055c35SXin Li }
67*b2055c35SXin Li if (!ok) return -1;
68*b2055c35SXin Li if (pos + 4 > size) return -1;
69*b2055c35SXin Li
70*b2055c35SXin Li // Skip main Header
71*b2055c35SXin Li // width = (data[pos + 0] | (data[pos + 1] << 8)) & 0x3fff;
72*b2055c35SXin Li // height = (data[pos + 2] | (data[pos + 3] << 8)) & 0x3fff;
73*b2055c35SXin Li pos += 4;
74*b2055c35SXin Li bit_pos = pos * 8;
75*b2055c35SXin Li
76*b2055c35SXin Li GET_BIT(2); // colorspace + clamp type
77*b2055c35SXin Li
78*b2055c35SXin Li // Segment header
79*b2055c35SXin Li if (GET_BIT(1)) { // use_segment_
80*b2055c35SXin Li int s;
81*b2055c35SXin Li const int update_map = GET_BIT(1);
82*b2055c35SXin Li if (GET_BIT(1)) { // update data
83*b2055c35SXin Li const int absolute_delta = GET_BIT(1);
84*b2055c35SXin Li int q[4] = { 0, 0, 0, 0 };
85*b2055c35SXin Li for (s = 0; s < 4; ++s) {
86*b2055c35SXin Li if (GET_BIT(1)) {
87*b2055c35SXin Li q[s] = GET_BIT(7);
88*b2055c35SXin Li if (GET_BIT(1)) q[s] = -q[s]; // sign
89*b2055c35SXin Li }
90*b2055c35SXin Li }
91*b2055c35SXin Li if (absolute_delta) Q = q[0]; // just use the first segment's quantizer
92*b2055c35SXin Li for (s = 0; s < 4; ++s) CONDITIONAL_SKIP(7); // filter strength
93*b2055c35SXin Li }
94*b2055c35SXin Li if (update_map) {
95*b2055c35SXin Li for (s = 0; s < 3; ++s) CONDITIONAL_SKIP(8);
96*b2055c35SXin Li }
97*b2055c35SXin Li }
98*b2055c35SXin Li // Filter header
99*b2055c35SXin Li GET_BIT(1 + 6 + 3); // simple + level + sharpness
100*b2055c35SXin Li if (GET_BIT(1)) { // use_lf_delta
101*b2055c35SXin Li if (GET_BIT(1)) { // update lf_delta?
102*b2055c35SXin Li int n;
103*b2055c35SXin Li for (n = 0; n < 4 + 4; ++n) CONDITIONAL_SKIP(6);
104*b2055c35SXin Li }
105*b2055c35SXin Li }
106*b2055c35SXin Li // num partitions
107*b2055c35SXin Li GET_BIT(2);
108*b2055c35SXin Li
109*b2055c35SXin Li // ParseQuant
110*b2055c35SXin Li {
111*b2055c35SXin Li const int base_q = GET_BIT(7);
112*b2055c35SXin Li /* dqy1_dc = */ CONDITIONAL_SKIP(5);
113*b2055c35SXin Li /* dqy2_dc = */ CONDITIONAL_SKIP(5);
114*b2055c35SXin Li /* dqy2_ac = */ CONDITIONAL_SKIP(5);
115*b2055c35SXin Li /* dquv_dc = */ CONDITIONAL_SKIP(5);
116*b2055c35SXin Li /* dquv_ac = */ CONDITIONAL_SKIP(5);
117*b2055c35SXin Li
118*b2055c35SXin Li if (Q < 0) Q = base_q;
119*b2055c35SXin Li }
120*b2055c35SXin Li if (bit_pos == INVALID_BIT_POS) return -1;
121*b2055c35SXin Li
122*b2055c35SXin Li // base mapping
123*b2055c35SXin Li Q = (127 - Q) * 100 / 127;
124*b2055c35SXin Li // correction for power-law behavior in low range
125*b2055c35SXin Li if (Q < 80) {
126*b2055c35SXin Li Q = (int)(pow(Q / 80., 1. / 0.38) * 80);
127*b2055c35SXin Li }
128*b2055c35SXin Li return Q;
129*b2055c35SXin Li }
130