""" GTSAM Copyright 2010-2019, Georgia Tech Research Corporation, Atlanta, Georgia 30332-0415 All Rights Reserved See LICENSE for the license information Unit tests for testing dataset access. Author: Frank Dellaert (Python: Sushmita Warrier) """ # pylint: disable=invalid-name, no-name-in-module, no-member from __future__ import print_function import unittest import gtsam import numpy as np from gtsam import Point2, Point3, SfmData, SfmTrack from gtsam.utils.test_case import GtsamTestCase class TestSfmData(GtsamTestCase): """Tests for SfmData and SfmTrack modules.""" def setUp(self): """Initialize SfmData and SfmTrack""" self.data = SfmData() # initialize SfmTrack with 3D point self.tracks = SfmTrack() def test_tracks(self): """Test functions in SfmTrack""" # measurement is of format (camera_idx, imgPoint) # create arbitrary camera indices for two cameras i1, i2 = 4, 5 # create arbitrary image measurements for cameras i1 and i2 uv_i1 = Point2(12.6, 82) # translating point uv_i1 along X-axis uv_i2 = Point2(24.88, 82) # add measurements to the track self.tracks.addMeasurement(i1, uv_i1) self.tracks.addMeasurement(i2, uv_i2) # Number of measurements in the track is 2 self.assertEqual(self.tracks.numberMeasurements(), 2) # camera_idx in the first measurement of the track corresponds to i1 cam_idx, img_measurement = self.tracks.measurement(0) self.assertEqual(cam_idx, i1) np.testing.assert_array_almost_equal( Point3(0., 0., 0.), self.tracks.point3() ) def test_data(self): """Test functions in SfmData""" # Create new track with 3 measurements i1, i2, i3 = 3, 5, 6 uv_i1 = Point2(21.23, 45.64) # translating along X-axis uv_i2 = Point2(45.7, 45.64) uv_i3 = Point2(68.35, 45.64) # add measurements and arbitrary point to the track measurements = [(i1, uv_i1), (i2, uv_i2), (i3, uv_i3)] pt = Point3(1.0, 6.0, 2.0) track2 = SfmTrack(pt) track2.addMeasurement(i1, uv_i1) track2.addMeasurement(i2, uv_i2) track2.addMeasurement(i3, uv_i3) self.data.addTrack(self.tracks) self.data.addTrack(track2) # Number of tracks in SfmData is 2 self.assertEqual(self.data.numberTracks(), 2) # camera idx of first measurement of second track corresponds to i1 cam_idx, img_measurement = self.data.track(1).measurement(0) self.assertEqual(cam_idx, i1) def test_Balbianello(self): """ Check that we can successfully read a bundler file and create a factor graph from it """ # The structure where we will save the SfM data filename = gtsam.findExampleDataFile("Balbianello.out") sfm_data = SfmData.FromBundlerFile(filename) # Check number of things self.assertEqual(5, sfm_data.numberCameras()) self.assertEqual(544, sfm_data.numberTracks()) track0 = sfm_data.track(0) self.assertEqual(3, track0.numberMeasurements()) # Check projection of a given point self.assertEqual(0, track0.measurement(0)[0]) camera0 = sfm_data.camera(0) expected = camera0.project(track0.point3()) actual = track0.measurement(0)[1] self.gtsamAssertEquals(expected, actual, 1) # We share *one* noiseModel between all projection factors model = gtsam.noiseModel.Isotropic.Sigma( 2, 1.0) # one pixel in u and v # Convert to NonlinearFactorGraph graph = sfm_data.sfmFactorGraph(model) self.assertEqual(1419, graph.size()) # regression # Get initial estimate values = gtsam.initialCamerasAndPointsEstimate(sfm_data) self.assertEqual(549, values.size()) # regression if __name__ == '__main__': unittest.main()