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28 #define HOUGH_MAX_OFFSET 90
29 #define MAX_FRAMERATE 60
33 #define DIR_PREV_END 2
34 #define DIR_NEXT_END 3
37 #define STATUS_END_REACHED 1
38 #define STATUS_BEGIN_REACHED 2
42 int i, j, tmp_i, tmp_j,count;
45 for (
i = 0, count = 0;
i < 242;
i++) {
46 for (j =
i + 1; j < 243; j++, count++) {
51 dist +=
FFABS((tmp_j % 3) - (tmp_i % 3));
54 }
while (tmp_i > 0 || tmp_j > 0);
63 for (
i = 0;
i < 28;
i += 4) {
64 val += av_popcount( (
first[
i] & second[
i] ) << 24 |
65 (
first[
i+1] & second[
i+1]) << 16 |
66 (
first[
i+2] & second[
i+2]) << 8 |
69 val += av_popcount( (
first[28] & second[28]) << 16 |
70 (
first[29] & second[29]) << 8 |
71 (
first[30] & second[30]) );
78 for (
i = 0;
i < 28;
i += 4) {
79 val += av_popcount( (
first[
i] | second[
i] ) << 24 |
80 (
first[
i+1] | second[
i+1]) << 16 |
81 (
first[
i+2] | second[
i+2]) << 8 |
84 val += av_popcount( (
first[28] | second[28]) << 16 |
85 (
first[29] | second[29]) << 8 |
86 (
first[30] | second[30]) );
93 unsigned int dist = 0;
102 dist += sc->
l1distlut[243*242/2 - (243-
s)*(242-
s)/2 +
f -
s - 1];
104 dist += sc->
l1distlut[243*242/2 - (243-
f)*(242-
f)/2 +
s -
f - 1];
117 int jaccarddist,
i, composdist = 0, cwthcount = 0;
118 for (
i = 0;
i < 5;
i++) {
123 if (++cwthcount > 2) {
128 composdist += jaccarddist;
144 if ((*second)->next) {
145 *second = (*second)->
next;
146 }
else if ((*first)->next) {
147 *second = secondstart;
148 *
first = (*first)->next;
159 if ((*second)->next) {
160 *second = (*second)->
next;
161 }
else if ((*first)->next) {
162 *second = secondstart;
163 *
first = (*first)->next;
177 size_t i, j, k, l, hmax = 0, score;
190 typedef struct hspace_elem {
204 hspace[
i][j].score = 0;
205 hspace[
i][j].dist = 99999;
212 pairs[
i].dist = 99999;
214 for (j = 0,
s = second; j <
COARSE_SIZE &&
s->next; j++,
s =
s->next) {
217 if (l1dist < sc->thl1) {
218 if (l1dist < pairs[
i].dist) {
220 pairs[
i].dist = l1dist;
221 pairs[
i].b_pos[0] = j;
223 }
else if (l1dist == pairs[
i].dist) {
224 pairs[
i].b[pairs[
i].size] =
s;
225 pairs[
i].b_pos[pairs[
i].size] = j;
232 if (
f->next ==
NULL) {
235 pairs[
i].dist = 99999;
241 for (j = 0; j < pairs[
i].size; j++) {
243 for (l = 0; l < pairs[k].size; l++) {
244 if (pairs[
i].
b[j] != pairs[k].
b[l]) {
246 m = (pairs[k].b_pos[l]-pairs[
i].b_pos[j]) / (k-
i);
251 if (pairs[
i].dist < pairs[k].dist) {
278 hmax = (
int) (0.7*hmax);
281 if (hmax < hspace[
i][j].score) {
293 c->framerateratio = (
i+1.0) / 30;
294 c->score = hspace[
i][j].score;
296 c->first = hspace[
i][j].a;
297 c->second = hspace[
i][j].b;
320 step = ((
int) 0.5 + fcount * frr)
321 -((
int) 0.5 + (fcount-1) * frr);
339 if ((*b)->next && (*b)->next->next) {
340 *
b = (*b)->next->next;
361 if ((*a)->next && (*a)->next->next) {
362 *
a = (*a)->next->next;
385 if ((*b)->prev && (*b)->prev->prev) {
386 *
b = (*b)->prev->prev;
407 if ((*a)->prev && (*a)->prev->prev) {
408 *
a = (*a)->prev->prev;
420 int dist, distsum = 0, bcount = 1, dir =
DIR_NEXT;
421 int fcount = 0, goodfcount = 0, gooda = 0, goodb = 0;
422 double meandist, minmeandist = bestmatch.
meandist;
423 int tolerancecount = 0;
427 for (; infos !=
NULL; infos = infos->
next) {
433 if (dist > sc->
thl1) {
434 if (
a->confidence >= 1 ||
b->confidence >= 1) {
439 if (tolerancecount > 2) {
460 if (
a->confidence < 1) gooda++;
461 if (
b->confidence < 1) goodb++;
479 if (sc->
thdi != 0 && bcount >= sc->
thdi) {
484 if (bcount < sc->thdi)
486 if ((
double) goodfcount / (
double) fcount < sc->thit)
488 if ((
double) goodfcount*0.5 <
FFMAX(gooda, goodb))
491 meandist = (double) goodfcount / (
double) distsum;
493 if (meandist < minmeandist ||
496 minmeandist = meandist;
540 cs =
first->coarsesiglist;
555 "indices of first frame: %"PRIu32
" and %"PRIu32
"\n",
561 for (
i = infos;
i !=
NULL;
i =
i->next) {
563 "ratio %f, offset %d\n",
i->first->index,
i->second->index,
564 i->framerateratio,
i->offset);
572 "ratio %f, offset %d, score %d, %d frames matching\n",
they must not be accessed directly The fifo field contains the frames that are queued in the input for processing by the filter The status_in and status_out fields contains the queued status(EOF or error) of the link
CoarseSignature * coarsesiglist
trying all byte sequences megabyte in length and selecting the best looking sequence will yield cases to try But a word about which is also called distortion Distortion can be quantified by almost any quality measurement one chooses the sum of squared differences is used but more complex methods that consider psychovisual effects can be used as well It makes no difference in this discussion First step
uint8_t l1distlut[243 *242/2]
static void fill_l1distlut(uint8_t lut[])
static MatchingInfo lookup_signatures(AVFilterContext *ctx, SignatureContext *sc, StreamContext *first, StreamContext *second, int mode)
static double val(void *priv, double ch)
trying all byte sequences megabyte in length and selecting the best looking sequence will yield cases to try But first
static MatchingInfo evaluate_parameters(AVFilterContext *ctx, SignatureContext *sc, MatchingInfo *infos, MatchingInfo bestmatch, int mode)
#define STATUS_END_REACHED
struct FineSignature * first
#define AV_LOG_DEBUG
Stuff which is only useful for libav* developers.
#define FFABS(a)
Absolute value, Note, INT_MIN / INT64_MIN result in undefined behavior as they are not representable ...
int av_log_get_level(void)
Get the current log level.
static MatchingInfo * get_matching_parameters(AVFilterContext *ctx, SignatureContext *sc, FineSignature *first, FineSignature *second)
compares framesignatures and sorts out signatures with a l1 distance above a given threshold.
Undefined Behavior In the C some operations are like signed integer dereferencing freed accessing outside allocated Undefined Behavior must not occur in a C it is not safe even if the output of undefined operations is unused The unsafety may seem nit picking but Optimizing compilers have in fact optimized code on the assumption that no undefined Behavior occurs Optimizing code based on wrong assumptions can and has in some cases lead to effects beyond the output of computations The signed integer overflow problem in speed critical code Code which is highly optimized and works with signed integers sometimes has the problem that often the output of the computation does not c
static int get_jaccarddist(SignatureContext *sc, CoarseSignature *first, CoarseSignature *second)
calculates the jaccard distance and evaluates a pair of coarse signatures as good
static int iterate_frame(double frr, FineSignature **a, FineSignature **b, int fcount, int *bcount, int dir)
static unsigned int union_word(const uint8_t *first, const uint8_t *second)
The reader does not expect b to be semantically here and if the code is changed by maybe adding a a division or other the signedness will almost certainly be mistaken To avoid this confusion a new type was SUINT is the C unsigned type but it holds a signed int to use the same example SUINT a
it s the only field you need to keep assuming you have a context There is some magic you don t need to care about around this just let it vf offset
static unsigned int get_l1dist(AVFilterContext *ctx, SignatureContext *sc, const uint8_t *first, const uint8_t *second)
#define i(width, name, range_min, range_max)
#define av_malloc_array(a, b)
#define AV_LOG_FATAL
Something went wrong and recovery is not possible.
static int find_next_coarsecandidate(SignatureContext *sc, CoarseSignature *secondstart, CoarseSignature **first, CoarseSignature **second, int start)
step through the coarsesignatures as long as a good candidate is found
struct CoarseSignature * next
struct FineSignature * second
struct MatchingInfo * next
struct FineSignature * first
static unsigned int intersection_word(const uint8_t *first, const uint8_t *second)
#define STATUS_BEGIN_REACHED
static void sll_free(MatchingInfo *sll)