Camera tracking: support of tripod motion solving
Expose option into interface to use modal solver which currently supports only tripod motion. This solver requires two tracks at least to reconstruct motion. Using more tracks aren't improving solution in general, just adds instability into solution and slows down things a lot. Refirement of camera intrinsics is supported by this solver. To use this solver just activate "Tripod Motion" checkbox in solver panel.
This commit is contained in:
Sergey Sharybin
82
extern/libmv/libmv-capi.cpp
vendored
82
extern/libmv/libmv-capi.cpp
vendored
@@ -54,6 +54,7 @@
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#include "libmv/simple_pipeline/pipeline.h"
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#include "libmv/simple_pipeline/camera_intrinsics.h"
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#include "libmv/simple_pipeline/rigid_registration.h"
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#include "libmv/simple_pipeline/modal_solver.h"
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#include <stdlib.h>
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#include <assert.h>
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@@ -384,6 +385,31 @@ int libmv_refineParametersAreValid(int parameters) {
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LIBMV_REFINE_RADIAL_DISTORTION_K1));
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}
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void libmv_solveRefineIntrinsics(libmv::Tracks *tracks, libmv::CameraIntrinsics *intrinsics,
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libmv::EuclideanReconstruction *reconstruction, int refine_intrinsics,
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reconstruct_progress_update_cb progress_update_callback, void *callback_customdata)
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{
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/* only a few combinations are supported but trust the caller */
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int libmv_refine_flags = 0;
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if (refine_intrinsics & LIBMV_REFINE_FOCAL_LENGTH) {
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libmv_refine_flags |= libmv::BUNDLE_FOCAL_LENGTH;
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}
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if (refine_intrinsics & LIBMV_REFINE_PRINCIPAL_POINT) {
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libmv_refine_flags |= libmv::BUNDLE_PRINCIPAL_POINT;
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}
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if (refine_intrinsics & LIBMV_REFINE_RADIAL_DISTORTION_K1) {
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libmv_refine_flags |= libmv::BUNDLE_RADIAL_K1;
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}
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if (refine_intrinsics & LIBMV_REFINE_RADIAL_DISTORTION_K2) {
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libmv_refine_flags |= libmv::BUNDLE_RADIAL_K2;
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}
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progress_update_callback(callback_customdata, 1.0, "Refining solution");
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libmv::EuclideanBundleCommonIntrinsics(*(libmv::Tracks *)tracks, libmv_refine_flags,
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reconstruction, intrinsics);
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}
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libmv_Reconstruction *libmv_solveReconstruction(libmv_Tracks *tracks, int keyframe1, int keyframe2,
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int refine_intrinsics, double focal_length, double principal_x, double principal_y, double k1, double k2, double k3,
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@@ -423,24 +449,48 @@ libmv_Reconstruction *libmv_solveReconstruction(libmv_Tracks *tracks, int keyfra
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libmv::EuclideanCompleteReconstruction(normalized_tracks, reconstruction, &update_callback);
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if (refine_intrinsics) {
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/* only a few combinations are supported but trust the caller */
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int libmv_refine_flags = 0;
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if (refine_intrinsics & LIBMV_REFINE_FOCAL_LENGTH) {
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libmv_refine_flags |= libmv::BUNDLE_FOCAL_LENGTH;
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}
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if (refine_intrinsics & LIBMV_REFINE_PRINCIPAL_POINT) {
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libmv_refine_flags |= libmv::BUNDLE_PRINCIPAL_POINT;
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}
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if (refine_intrinsics & LIBMV_REFINE_RADIAL_DISTORTION_K1) {
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libmv_refine_flags |= libmv::BUNDLE_RADIAL_K1;
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}
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if (refine_intrinsics & LIBMV_REFINE_RADIAL_DISTORTION_K2) {
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libmv_refine_flags |= libmv::BUNDLE_RADIAL_K2;
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libmv_solveRefineIntrinsics((libmv::Tracks *)tracks, intrinsics, reconstruction,
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refine_intrinsics, progress_update_callback, callback_customdata);
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}
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progress_update_callback(callback_customdata, 1.0, "Refining solution");
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libmv::EuclideanBundleCommonIntrinsics(*(libmv::Tracks *)tracks, libmv_refine_flags,
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reconstruction, intrinsics);
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progress_update_callback(callback_customdata, 1.0, "Finishing solution");
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libmv_reconstruction->tracks = *(libmv::Tracks *)tracks;
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libmv_reconstruction->error = libmv::EuclideanReprojectionError(*(libmv::Tracks *)tracks, *reconstruction, *intrinsics);
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return (libmv_Reconstruction *)libmv_reconstruction;
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}
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struct libmv_Reconstruction *libmv_solveModal(struct libmv_Tracks *tracks, int refine_intrinsics, double focal_length,
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double principal_x, double principal_y, double k1, double k2, double k3,
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reconstruct_progress_update_cb progress_update_callback, void *callback_customdata)
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{
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/* Invert the camera intrinsics. */
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libmv::vector<libmv::Marker> markers = ((libmv::Tracks*)tracks)->AllMarkers();
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libmv_Reconstruction *libmv_reconstruction = new libmv_Reconstruction();
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libmv::EuclideanReconstruction *reconstruction = &libmv_reconstruction->reconstruction;
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libmv::CameraIntrinsics *intrinsics = &libmv_reconstruction->intrinsics;
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ReconstructUpdateCallback update_callback =
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ReconstructUpdateCallback(progress_update_callback, callback_customdata);
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intrinsics->SetFocalLength(focal_length, focal_length);
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intrinsics->SetPrincipalPoint(principal_x, principal_y);
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intrinsics->SetRadialDistortion(k1, k2, k3);
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for (int i = 0; i < markers.size(); ++i) {
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intrinsics->InvertIntrinsics(markers[i].x,
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markers[i].y,
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&(markers[i].x),
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&(markers[i].y));
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}
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libmv::Tracks normalized_tracks(markers);
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libmv::ModalSolver(normalized_tracks, reconstruction, &update_callback);
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if (refine_intrinsics) {
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libmv_solveRefineIntrinsics((libmv::Tracks *)tracks, intrinsics, reconstruction,
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refine_intrinsics, progress_update_callback, callback_customdata);
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}
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progress_update_callback(callback_customdata, 1.0, "Finishing solution");
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3
extern/libmv/libmv-capi.h
vendored
3
extern/libmv/libmv-capi.h
vendored
@@ -68,6 +68,9 @@ int libmv_refineParametersAreValid(int parameters);
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struct libmv_Reconstruction *libmv_solveReconstruction(struct libmv_Tracks *tracks, int keyframe1, int keyframe2,
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int refine_intrinsics, double focal_length, double principal_x, double principal_y, double k1, double k2, double k3,
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reconstruct_progress_update_cb progress_update_callback, void *callback_customdata);
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struct libmv_Reconstruction *libmv_solveModal(struct libmv_Tracks *tracks, int refine_intrinsics, double focal_length,
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double principal_x, double principal_y, double k1, double k2, double k3,
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reconstruct_progress_update_cb progress_update_callback, void *callback_customdata);
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int libmv_reporojectionPointForTrack(struct libmv_Reconstruction *libmv_reconstruction, int track, double pos[3]);
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double libmv_reporojectionErrorForTrack(struct libmv_Reconstruction *libmv_reconstruction, int track);
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double libmv_reporojectionErrorForImage(struct libmv_Reconstruction *libmv_reconstruction, int image);
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@@ -227,7 +227,11 @@ class CLIP_PT_tools_solve(Panel):
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else "Object Motion")
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col.operator("clip.clear_solution")
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col = layout.column()
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col.prop(settings, "use_tripod_solver")
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col = layout.column(align=True)
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col.active = not settings.use_tripod_solver
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col.prop(settings, "keyframe_a")
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col.prop(settings, "keyframe_b")
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@@ -1523,6 +1523,7 @@ typedef struct MovieReconstructContext {
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#endif
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char object_name[MAX_NAME];
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int is_camera;
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short motion_flag;
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float focal_length;
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float principal_point[2];
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@@ -1752,7 +1753,11 @@ int BKE_tracking_can_reconstruct(MovieTracking *tracking, MovieTrackingObject *o
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#if WITH_LIBMV
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ListBase *tracksbase = BKE_tracking_object_tracks(tracking, object);
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if (count_tracks_on_both_keyframes(tracking, tracksbase)<8) {
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if (tracking->settings.motion_flag & TRACKING_MOTION_MODAL) {
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/* TODO: check for number of tracks? */
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return TRUE;
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}
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else if (count_tracks_on_both_keyframes(tracking, tracksbase) < 8) {
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BLI_strncpy(error_msg, "At least 8 common tracks on both of keyframes are needed for reconstruction", error_size);
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return FALSE;
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@@ -1782,6 +1787,7 @@ MovieReconstructContext* BKE_tracking_reconstruction_context_new(MovieTracking *
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BLI_strncpy(context->object_name, object->name, sizeof(context->object_name));
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context->is_camera = object->flag & TRACKING_OBJECT_CAMERA;
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context->motion_flag = tracking->settings.motion_flag;
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context->tracks_map = tracks_map_new(context->object_name, context->is_camera, num_tracks, 0);
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@@ -1894,6 +1900,15 @@ void BKE_tracking_solve_reconstruction(MovieReconstructContext *context, short *
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progressdata.stats_message = stats_message;
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progressdata.message_size = message_size;
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if (context->motion_flag & TRACKING_MOTION_MODAL) {
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context->reconstruction = libmv_solveModal(context->tracks,
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context->refine_flags,
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context->focal_length,
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context->principal_point[0], context->principal_point[1],
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context->k1, context->k2, context->k3,
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solve_reconstruction_update_cb, &progressdata);
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}
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else {
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context->reconstruction = libmv_solveReconstruction(context->tracks,
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context->keyframe1, context->keyframe2,
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context->refine_flags,
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@@ -1901,6 +1916,7 @@ void BKE_tracking_solve_reconstruction(MovieReconstructContext *context, short *
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context->principal_point[0], context->principal_point[1],
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context->k1, context->k2, context->k3,
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solve_reconstruction_update_cb, &progressdata);
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}
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error = libmv_reprojectionError(context->reconstruction);
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@@ -123,7 +123,7 @@ typedef struct MovieTrackingSettings {
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short default_pattern_match; /* re-adjust every N frames */
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short default_flag; /* default flags like color channels used by default */
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short pod;
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short motion_flag; /* flags describes motion type */
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/* ** common tracker settings ** */
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short speed; /* speed of tracking */
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@@ -131,8 +131,8 @@ typedef struct MovieTrackingSettings {
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/* ** reconstruction settings ** */
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int keyframe1, keyframe2; /* two keyframes for reconstrution initialization */
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/* ** which camera intrinsics to refine. uses on the REFINE_* flags */
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short refine_camera_intrinsics, pad23;
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/* which camera intrinsics to refine. uses on the REFINE_* flags */
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short refine_camera_intrinsics, pad2;
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/* ** tool settings ** */
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@@ -243,6 +243,11 @@ enum {
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/* MovieTrackingSettings->flag */
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#define TRACKING_SETTINGS_SHOW_DEFAULT_EXPANDED (1<<0)
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/* MovieTrackingSettings->motion_flag */
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#define TRACKING_MOTION_TRIPOD (1<<0)
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#define TRACKING_MOTION_MODAL (TRACKING_MOTION_TRIPOD)
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/* MovieTrackingSettings->speed */
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#define TRACKING_SPEED_FASTEST 0
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#define TRACKING_SPEED_REALTIME 1
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@@ -607,6 +607,12 @@ static void rna_def_trackingSettings(BlenderRNA *brna)
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RNA_def_property_ui_text(prop, "Show Expanded", "Show the expanded in the user interface");
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RNA_def_property_ui_icon(prop, ICON_TRIA_RIGHT, 1);
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/* solver settings */
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prop = RNA_def_property(srna, "use_tripod_solver", PROP_BOOLEAN, PROP_NONE);
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RNA_def_property_clear_flag(prop, PROP_ANIMATABLE);
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RNA_def_property_boolean_sdna(prop, NULL, "motion_flag", TRACKING_MOTION_TRIPOD);
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RNA_def_property_ui_text(prop, "Tripod Motion", "Tracking footage is shooted by tripod camera and should use special sovler for this");
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/* limit frames */
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prop = RNA_def_property(srna, "default_frames_limit", PROP_INT, PROP_NONE);
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RNA_def_property_clear_flag(prop, PROP_ANIMATABLE);
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