/* * ***** BEGIN GPL LICENSE BLOCK ***** * * 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) 2013 Blender Foundation. * All rights reserved. * * Contributor(s): Blender Foundation, * Sergey Sharybin * * ***** END GPL LICENSE BLOCK ***** */ #ifndef WITH_LIBMV #include "libmv-capi.h" #include #include /* ************ Logging ************ */ void libmv_initLogging(const char * /*argv0*/) { } void libmv_startDebugLogging(void) { } void libmv_setLoggingVerbosity(int /*verbosity*/) { } /* ************ Planar tracker ************ */ /* TrackRegion (new planar tracker) */ int libmv_trackRegion(const struct libmv_trackRegionOptions * /*options*/, const float * /*image1*/, int /*image1_width*/, int /*image1_height*/, const float * /*image2*/, int /*image2_width*/, int /*image2_height*/, const double *x1, const double *y1, struct libmv_trackRegionResult *result, double *x2, double *y2) { /* Convert to doubles for the libmv api. The four corners and the center. */ for (int i = 0; i < 5; ++i) { x2[i] = x1[i]; y2[i] = y1[i]; } result->termination = -1; result->termination_reason = "Built without libmv support"; result->correlation = 0.0; return false; } void libmv_samplePlanarPatch(const float *image, int width, int height, int channels, const double *xs, const double *ys, int num_samples_x, int num_samples_y, const float *mask, float *patch, double *warped_position_x, double *warped_position_y) { /* TODO(sergey): implement */ } /* ************ Tracks ************ */ libmv_Tracks *libmv_tracksNew(void) { return NULL; } void libmv_tracksInsert(struct libmv_Tracks * /*libmv_tracks*/, int /*image*/, int /*track*/, double /*x*/, double /*y*/) { } void libmv_tracksDestroy(libmv_Tracks * /*libmv_tracks*/) { } /* ************ Reconstruction solver ************ */ libmv_Reconstruction *libmv_solveReconstruction(libmv_Tracks * /*libmv_tracks*/, libmv_cameraIntrinsicsOptions * /*libmv_camera_intrinsics_options*/, libmv_reconstructionOptions * /*libmv_reconstruction_options*/, reconstruct_progress_update_cb /*progress_update_callback*/, void * /*callback_customdata*/) { return NULL; } struct libmv_Reconstruction *libmv_solveModal(struct libmv_Tracks * /*libmv_tracks*/, libmv_cameraIntrinsicsOptions * /*libmv_camera_intrinsics_options*/, libmv_reconstructionOptions * /*libmv_reconstruction_options*/, reconstruct_progress_update_cb /*progress_update_callback*/, void * /*callback_customdata*/) { return NULL; } int libmv_reporojectionPointForTrack(libmv_Reconstruction * /*libmv_reconstruction*/, int /*track*/, double /*pos*/[3]) { return 0; } double libmv_reporojectionErrorForTrack(libmv_Reconstruction * /*libmv_reconstruction*/, int /*track*/) { return 0.0; } double libmv_reporojectionErrorForImage(libmv_Reconstruction * /*libmv_reconstruction*/, int /*image*/) { return 0.0; } int libmv_reporojectionCameraForImage(libmv_Reconstruction * /*libmv_reconstruction*/, int /*image*/, double /*mat*/[4][4]) { return 0; } double libmv_reprojectionError(libmv_Reconstruction * /*libmv_reconstruction*/) { return 0.0; } void libmv_destroyReconstruction(libmv_Reconstruction * /*libmv_reconstruction*/) { } /* ************ feature detector ************ */ struct libmv_Features *libmv_detectFeaturesFAST(unsigned char * /*data*/, int /*width*/, int /*height*/, int /*stride*/, int /*margin*/, int /*min_trackness*/, int /*min_distance*/) { return NULL; } struct libmv_Features *libmv_detectFeaturesMORAVEC(unsigned char * /*data*/, int /*width*/, int /*height*/, int /*stride*/, int /*margin*/, int /*count*/, int /*min_distance*/) { return NULL; } int libmv_countFeatures(struct libmv_Features * /*libmv_features*/) { return 0; } void libmv_getFeature(struct libmv_Features * /*libmv_features*/, int /*number*/, double *x, double *y, double *score, double *size) { *x = 0.0; *y = 0.0; *score = 0.0; *size = 0.0; } void libmv_destroyFeatures(struct libmv_Features * /*libmv_features*/) { } /* ************ camera intrinsics ************ */ struct libmv_CameraIntrinsics *libmv_ReconstructionExtractIntrinsics( struct libmv_Reconstruction * /*libmv_Reconstruction*/) { return NULL; } struct libmv_CameraIntrinsics *libmv_CameraIntrinsicsNewEmpty(void) { return NULL; } struct libmv_CameraIntrinsics *libmv_CameraIntrinsicsNew(libmv_cameraIntrinsicsOptions * /*libmv_camera_intrinsics_options*/) { return NULL; } struct libmv_CameraIntrinsics *libmv_CameraIntrinsicsCopy(struct libmv_CameraIntrinsics * /*libmvIntrinsics*/) { return NULL; } void libmv_CameraIntrinsicsDestroy(struct libmv_CameraIntrinsics * /*libmvIntrinsics*/) { } void libmv_CameraIntrinsicsUpdate(struct libmv_CameraIntrinsics * /*libmv_intrinsics*/, libmv_cameraIntrinsicsOptions * /*libmv_camera_intrinsics_options*/) { } void libmv_CameraIntrinsicsSetThreads(struct libmv_CameraIntrinsics * /*libmv_intrinsics*/, int /*threads*/) { } void libmv_CameraIntrinsicsExtract(struct libmv_CameraIntrinsics * /*libmv_intrinsics*/, double * focal_length, double * principal_x, double *principal_y, double *k1, double *k2, double *k3, int *width, int *height) { *focal_length = 1.0; *principal_x = 0.0; *principal_y = 0.0; *k1 = 0.0; *k2 = 0.0; *width = 0.0; *height = 0.0; } void libmv_CameraIntrinsicsUndistortByte(struct libmv_CameraIntrinsics * /*libmv_intrinsics*/, unsigned char *src, unsigned char *dst, int width, int height, float overscan, int channels) { memcpy(dst, src, channels * width * height * sizeof(unsigned char)); } void libmv_CameraIntrinsicsUndistortFloat(struct libmv_CameraIntrinsics * /*libmvIntrinsics*/, float *src, float *dst, int width, int height, float overscan, int channels) { memcpy(dst, src, channels * width * height * sizeof(float)); } void libmv_CameraIntrinsicsDistortByte(struct libmv_CameraIntrinsics *libmvIntrinsics, unsigned char *src, unsigned char *dst, int width, int height, float overscan, int channels) { memcpy(dst, src, channels * width * height * sizeof(unsigned char)); } void libmv_CameraIntrinsicsDistortFloat(struct libmv_CameraIntrinsics *libmvIntrinsics, float *src, float *dst, int width, int height, float overscan, int channels) { memcpy(dst, src, channels * width * height * sizeof(float)); } /* ************ utils ************ */ void libmv_ApplyCameraIntrinsics(libmv_cameraIntrinsicsOptions *libmv_camera_intrinsics_options, double x, double y, double *x1, double *y1) { double focal_length = libmv_camera_intrinsics_options->focal_length; double principal_x = libmv_camera_intrinsics_options->principal_point_x; double principal_y = libmv_camera_intrinsics_options->principal_point_y; *x1 = x * focal_length + principal_x; *y1 = y * focal_length + principal_y; } void libmv_InvertCameraIntrinsics(libmv_cameraIntrinsicsOptions *libmv_camera_intrinsics_options, double x, double y, double *x1, double *y1) { double focal_length = libmv_camera_intrinsics_options->focal_length; double principal_x = libmv_camera_intrinsics_options->principal_point_x; double principal_y = libmv_camera_intrinsics_options->principal_point_y; *x1 = (x - principal_x) / focal_length; *y1 = (y - principal_y) / focal_length; } #endif // ifndef WITH_LIBMV