flow: add checks for numerical failure to avoid crashes in SE2::exp
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bfeda2affa
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@ -249,8 +249,11 @@ class FrameToFrameOpticalFlow : public OpticalFlowBase {
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PatchT p(old_pyr.lvl(level), old_transform.translation() / scale);
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patch_valid &= p.valid;
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if (patch_valid) {
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// Perform tracking on current level
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patch_valid &= trackPointAtLevel(pyr.lvl(level), p, transform);
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}
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transform.translation() *= scale;
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}
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@ -274,18 +277,24 @@ class FrameToFrameOpticalFlow : public OpticalFlowBase {
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transform.linear().matrix() * PatchT::pattern2;
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transformed_pat.colwise() += transform.translation();
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bool valid = dp.residual(img_2, transformed_pat, res);
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patch_valid &= dp.residual(img_2, transformed_pat, res);
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if (valid) {
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Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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if (patch_valid) {
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const Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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// avoid NaN in increment (leads to SE2::exp crashing)
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patch_valid &= inc.array().isFinite().all();
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// avoid very large increment
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patch_valid &= inc.template lpNorm<Eigen::Infinity>() < 1e6;
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if (patch_valid) {
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transform *= SE2::exp(inc).matrix();
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const int filter_margin = 2;
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if (!img_2.InBounds(transform.translation(), filter_margin))
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patch_valid = false;
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} else {
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patch_valid = false;
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patch_valid &= img_2.InBounds(transform.translation(), filter_margin);
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}
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}
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}
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@ -282,8 +282,11 @@ class MultiscaleFrameToFrameOpticalFlow : public OpticalFlowBase {
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PatchT p(old_pyr.lvl(level), old_transform.translation() / scale);
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patch_valid &= p.valid;
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if (patch_valid) {
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// Perform tracking on current level
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patch_valid = trackPointAtLevel(pyr.lvl(level), p, transform_tmp);
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patch_valid &= trackPointAtLevel(pyr.lvl(level), p, transform_tmp);
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}
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if (level == static_cast<ssize_t>(pyramid_level) + 1 && !patch_valid) {
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return false;
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@ -315,18 +318,24 @@ class MultiscaleFrameToFrameOpticalFlow : public OpticalFlowBase {
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transform.linear().matrix() * PatchT::pattern2;
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transformed_pat.colwise() += transform.translation();
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bool valid = dp.residual(img_2, transformed_pat, res);
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patch_valid &= dp.residual(img_2, transformed_pat, res);
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if (valid) {
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Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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if (patch_valid) {
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const Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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// avoid NaN in increment (leads to SE2::exp crashing)
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patch_valid &= inc.array().isFinite().all();
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// avoid very large increment
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patch_valid &= inc.template lpNorm<Eigen::Infinity>() < 1e6;
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if (patch_valid) {
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transform *= SE2::exp(inc).matrix();
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const int filter_margin = 2;
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if (!img_2.InBounds(transform.translation(), filter_margin))
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patch_valid = false;
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} else {
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patch_valid = false;
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patch_valid &= img_2.InBounds(transform.translation(), filter_margin);
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}
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}
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}
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@ -65,7 +65,7 @@ struct OpticalFlowPatch {
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EIGEN_MAKE_ALIGNED_OPERATOR_NEW
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OpticalFlowPatch() { mean = 0; }
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OpticalFlowPatch() = default;
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OpticalFlowPatch(const Image<const uint16_t> &img, const Vector2 &pos) {
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setFromImage(img, pos);
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@ -127,6 +127,16 @@ struct OpticalFlowPatch {
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H_se2.ldlt().solveInPlace(H_se2_inv);
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H_se2_inv_J_se2_T = H_se2_inv * J_se2.transpose();
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// NOTE: while it's very unlikely we get a source patch with all black
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// pixels, since points are usually selected at corners, it doesn't cost
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// much to be safe here.
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// all-black patch cannot be normalized; will result in mean of "zero" and
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// H_se2_inv_J_se2_T will contain "NaN" and data will contain "inf"
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valid = mean > std::numeric_limits<Scalar>::epsilon() &&
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H_se2_inv_J_se2_T.array().isFinite().all() &&
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data.array().isFinite().all();
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}
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inline bool residual(const Image<const uint16_t> &img,
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@ -146,6 +156,12 @@ struct OpticalFlowPatch {
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}
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}
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// all-black patch cannot be normalized
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if (sum < std::numeric_limits<Scalar>::epsilon()) {
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residual.setZero();
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return false;
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}
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int num_residuals = 0;
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for (int i = 0; i < PATTERN_SIZE; i++) {
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@ -162,14 +178,16 @@ struct OpticalFlowPatch {
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return num_residuals > PATTERN_SIZE / 2;
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}
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Vector2 pos;
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VectorP data; // negative if the point is not valid
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Vector2 pos = Vector2::Zero();
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VectorP data = VectorP::Zero(); // negative if the point is not valid
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// MatrixP3 J_se2; // total jacobian with respect to se2 warp
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// Matrix3 H_se2_inv;
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Matrix3P H_se2_inv_J_se2_T;
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Matrix3P H_se2_inv_J_se2_T = Matrix3P::Zero();
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Scalar mean;
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Scalar mean = 0;
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bool valid = false;
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};
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template <typename Scalar, typename Pattern>
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@ -236,9 +236,13 @@ class PatchOpticalFlow : public OpticalFlowBase {
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transform.translation() /= scale;
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// TODO: maybe we should better check patch validity when creating points
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const auto& p = patch_vec[level];
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patch_valid &= p.valid;
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if (patch_valid) {
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// Perform tracking on current level
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patch_valid &=
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trackPointAtLevel(pyr.lvl(level), patch_vec[level], transform);
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patch_valid &= trackPointAtLevel(pyr.lvl(level), p, transform);
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}
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transform.translation() *= scale;
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}
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@ -260,18 +264,24 @@ class PatchOpticalFlow : public OpticalFlowBase {
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transform.linear().matrix() * PatchT::pattern2;
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transformed_pat.colwise() += transform.translation();
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bool valid = dp.residual(img_2, transformed_pat, res);
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patch_valid &= dp.residual(img_2, transformed_pat, res);
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if (valid) {
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Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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if (patch_valid) {
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const Vector3 inc = -dp.H_se2_inv_J_se2_T * res;
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// avoid NaN in increment (leads to SE2::exp crashing)
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patch_valid &= inc.array().isFinite().all();
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// avoid very large increment
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patch_valid &= inc.template lpNorm<Eigen::Infinity>() < 1e6;
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if (patch_valid) {
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transform *= SE2::exp(inc).matrix();
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const int filter_margin = 2;
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if (!img_2.InBounds(transform.translation(), filter_margin))
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patch_valid = false;
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} else {
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patch_valid = false;
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patch_valid &= img_2.InBounds(transform.translation(), filter_margin);
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}
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}
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}
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