griefith/test2
1
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity
Files
03e04d4db78972709ea9c6889afcf72fdaae80a2
test2/source/blender/blenkernel/intern/tracking_plane_tracker.c
Sergey Sharybin 28cd16ec44 Cleanup: Tracking, reduce scope of variables 
Mainly affects for() loops.

The reason why loop parameter was declared outside of the loop roots
back to the times when not all compilers supported C99.
2020-02-07 12:01:50 +01:00

241 lines
8.3 KiB
C
Raw Blame History

/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2011 Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup bke
*
* This file contains implementation of plane tracker.
*/
#include "MEM_guardedalloc.h"
#include "DNA_movieclip_types.h"
#include "BLI_utildefines.h"
#include "BLI_math.h"
#include "BKE_tracking.h"
#include "libmv-capi.h"
typedef double Vec2[2];
static int point_markers_correspondences_on_both_image(
MovieTrackingPlaneTrack *plane_track, int frame1, int frame2, Vec2 **x1_r, Vec2 **x2_r)
{
Vec2 *x1, *x2;
*x1_r = x1 = MEM_mallocN(sizeof(*x1) * plane_track->point_tracksnr, "point correspondences x1");
*x2_r = x2 = MEM_mallocN(sizeof(*x1) * plane_track->point_tracksnr, "point correspondences x2");
int correspondence_index = 0;
for (int i = 0; i < plane_track->point_tracksnr; i++) {
MovieTrackingTrack *point_track = plane_track->point_tracks[i];
MovieTrackingMarker *point_marker1, *point_marker2;
point_marker1 = BKE_tracking_marker_get_exact(point_track, frame1);
point_marker2 = BKE_tracking_marker_get_exact(point_track, frame2);
if (point_marker1 != NULL && point_marker2 != NULL) {
/* Here conversion from float to double happens. */
x1[correspondence_index][0] = point_marker1->pos[0];
x1[correspondence_index][1] = point_marker1->pos[1];
x2[correspondence_index][0] = point_marker2->pos[0];
x2[correspondence_index][1] = point_marker2->pos[1];
correspondence_index++;
}
}
return correspondence_index;
}
/* NOTE: frame number should be in clip space, not scene space */
static void track_plane_from_existing_motion(MovieTrackingPlaneTrack *plane_track,
int start_frame,
int direction,
bool retrack)
{
MovieTrackingPlaneMarker *start_plane_marker = BKE_tracking_plane_marker_get(plane_track,
start_frame);
MovieTrackingPlaneMarker *keyframe_plane_marker = NULL;
MovieTrackingPlaneMarker new_plane_marker;
int frame_delta = direction > 0 ? 1 : -1;
if (plane_track->flag & PLANE_TRACK_AUTOKEY) {
/* Find a keyframe in given direction. */
for (int current_frame = start_frame;; current_frame += frame_delta) {
MovieTrackingPlaneMarker *next_plane_marker = BKE_tracking_plane_marker_get_exact(
plane_track, current_frame + frame_delta);
if (next_plane_marker == NULL) {
break;
}
if ((next_plane_marker->flag & PLANE_MARKER_TRACKED) == 0) {
keyframe_plane_marker = next_plane_marker;
break;
}
}
}
else {
start_plane_marker->flag |= PLANE_MARKER_TRACKED;
}
new_plane_marker = *start_plane_marker;
new_plane_marker.flag |= PLANE_MARKER_TRACKED;
for (int current_frame = start_frame;; current_frame += frame_delta) {
MovieTrackingPlaneMarker *next_plane_marker = BKE_tracking_plane_marker_get_exact(
plane_track, current_frame + frame_delta);
Vec2 *x1, *x2;
double H_double[3][3];
float H[3][3];
/* As soon as we meet keyframed plane, we stop updating the sequence. */
if (next_plane_marker && (next_plane_marker->flag & PLANE_MARKER_TRACKED) == 0) {
/* Don't override keyframes if track is in auto-keyframe mode */
if (plane_track->flag & PLANE_TRACK_AUTOKEY) {
break;
}
}
const int num_correspondences = point_markers_correspondences_on_both_image(
plane_track, current_frame, current_frame + frame_delta, &x1, &x2);
if (num_correspondences < 4) {
MEM_freeN(x1);
MEM_freeN(x2);
break;
}
libmv_homography2DFromCorrespondencesEuc(x1, x2, num_correspondences, H_double);
copy_m3_m3d(H, H_double);
for (int i = 0; i < 4; i++) {
float vec[3] = {0.0f, 0.0f, 1.0f}, vec2[3];
copy_v2_v2(vec, new_plane_marker.corners[i]);
/* Apply homography */
mul_v3_m3v3(vec2, H, vec);
/* Normalize. */
vec2[0] /= vec2[2];
vec2[1] /= vec2[2];
copy_v2_v2(new_plane_marker.corners[i], vec2);
}
new_plane_marker.framenr = current_frame + frame_delta;
if (!retrack && keyframe_plane_marker && next_plane_marker &&
(plane_track->flag & PLANE_TRACK_AUTOKEY)) {
float fac = ((float)next_plane_marker->framenr - start_plane_marker->framenr) /
((float)keyframe_plane_marker->framenr - start_plane_marker->framenr);
fac = 3 * fac * fac - 2 * fac * fac * fac;
for (int i = 0; i < 4; i++) {
interp_v2_v2v2(new_plane_marker.corners[i],
new_plane_marker.corners[i],
next_plane_marker->corners[i],
fac);
}
}
BKE_tracking_plane_marker_insert(plane_track, &new_plane_marker);
MEM_freeN(x1);
MEM_freeN(x2);
}
}
/* NOTE: frame number should be in clip space, not scene space */
void BKE_tracking_track_plane_from_existing_motion(MovieTrackingPlaneTrack *plane_track,
int start_frame)
{
track_plane_from_existing_motion(plane_track, start_frame, 1, false);
track_plane_from_existing_motion(plane_track, start_frame, -1, false);
}
static MovieTrackingPlaneMarker *find_plane_keyframe(MovieTrackingPlaneTrack *plane_track,
int start_frame,
int direction)
{
MovieTrackingPlaneMarker *plane_marker = BKE_tracking_plane_marker_get(plane_track, start_frame);
int index = plane_marker - plane_track->markers;
int frame_delta = direction > 0 ? 1 : -1;
while (index >= 0 && index < plane_track->markersnr) {
if ((plane_marker->flag & PLANE_MARKER_TRACKED) == 0) {
return plane_marker;
}
plane_marker += frame_delta;
}
return NULL;
}
void BKE_tracking_retrack_plane_from_existing_motion_at_segment(
MovieTrackingPlaneTrack *plane_track, int start_frame)
{
MovieTrackingPlaneMarker *prev_plane_keyframe, *next_plane_keyframe;
prev_plane_keyframe = find_plane_keyframe(plane_track, start_frame, -1);
next_plane_keyframe = find_plane_keyframe(plane_track, start_frame, 1);
if (prev_plane_keyframe != NULL && next_plane_keyframe != NULL) {
/* First we track from left keyframe to the right one without any blending. */
track_plane_from_existing_motion(plane_track, prev_plane_keyframe->framenr, 1, true);
/* And then we track from the right keyframe to the left one, so shape blends in nicely */
track_plane_from_existing_motion(plane_track, next_plane_keyframe->framenr, -1, false);
}
else if (prev_plane_keyframe != NULL) {
track_plane_from_existing_motion(plane_track, prev_plane_keyframe->framenr, 1, true);
}
else if (next_plane_keyframe != NULL) {
track_plane_from_existing_motion(plane_track, next_plane_keyframe->framenr, -1, true);
}
}
BLI_INLINE void float_corners_to_double(/*const*/ float corners[4][2], double double_corners[4][2])
{
copy_v2db_v2fl(double_corners[0], corners[0]);
copy_v2db_v2fl(double_corners[1], corners[1]);
copy_v2db_v2fl(double_corners[2], corners[2]);
copy_v2db_v2fl(double_corners[3], corners[3]);
}
void BKE_tracking_homography_between_two_quads(/*const*/ float reference_corners[4][2],
/*const*/ float corners[4][2],
float H[3][3])
{
Vec2 x1[4], x2[4];
double H_double[3][3];
float_corners_to_double(reference_corners, x1);
float_corners_to_double(corners, x2);
libmv_homography2DFromCorrespondencesEuc(x1, x2, 4, H_double);
copy_m3_m3d(H, H_double);
}
Reference in New Issue View Git Blame Copy Permalink