223 lines
8.8 KiB
C++
223 lines
8.8 KiB
C++
/*
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field.h: Routines for averaging orientations and directions subject
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to various symmetry conditions. Also contains the Optimizer class which
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uses these routines to smooth fields hierarchically.
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This file is part of the implementation of
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Instant Field-Aligned Meshes
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Wenzel Jakob, Daniele Panozzo, Marco Tarini, and Olga Sorkine-Hornung
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In ACM Transactions on Graphics (Proc. SIGGRAPH Asia 2015)
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All rights reserved. Use of this source code is governed by a
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BSD-style license that can be found in the LICENSE.txt file.
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*/
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#pragma once
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#include "hierarchy.h"
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#include <map>
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/* Rotation helper functions */
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extern Vector3f rotate60(const Vector3f &d, const Vector3f &n);
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extern Vector3f rotate90(const Vector3f &d, const Vector3f &n);
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extern Vector3f rotate180(const Vector3f &d, const Vector3f &n);
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extern Vector3f rotate60_by(const Vector3f &d, const Vector3f &n, int amount);
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extern Vector3f rotate90_by(const Vector3f &d, const Vector3f &n, int amount);
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extern Vector3f rotate180_by(const Vector3f &d, const Vector3f &n, int amount);
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extern Vector2i rshift60(Vector2i shift, int amount);
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extern Vector2i rshift90(Vector2i shift, int amount);
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extern Vector2i rshift180(Vector2i shift, int amount);
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extern Vector3f rotate_vector_into_plane(Vector3f q, const Vector3f &source_normal, const Vector3f &target_normal);
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/* Extrinsic & intrinsic orientation symmetry functors */
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_intrinsic_2(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_intrinsic_4(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_intrinsic_4_knoeppel(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_intrinsic_6(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_extrinsic_2(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_extrinsic_4(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<Vector3f, Vector3f>
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compat_orientation_extrinsic_6(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_extrinsic_index_2(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_extrinsic_index_4(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_extrinsic_index_6(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_intrinsic_index_2(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_intrinsic_index_4(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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extern std::pair<int, int>
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compat_orientation_intrinsic_index_6(const Vector3f &q0, const Vector3f &n0,
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const Vector3f &q1, const Vector3f &n1);
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/* Extrinsic & intrinsic position symmetry functors */
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extern std::pair<Vector3f, Vector3f> compat_position_extrinsic_3(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale);
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extern std::pair<Vector3f, Vector3f> compat_position_extrinsic_4(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale);
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extern std::pair<Vector2i, Vector2i> compat_position_extrinsic_index_3(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale,
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Float *error = nullptr);
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extern std::pair<Vector2i, Vector2i> compat_position_extrinsic_index_4(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale,
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Float *error = nullptr);
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extern std::pair<Vector3f, Vector3f> compat_position_intrinsic_3(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale);
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extern std::pair<Vector3f, Vector3f> compat_position_intrinsic_4(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale);
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extern std::pair<Vector2i, Vector2i> compat_position_intrinsic_index_3(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale,
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Float *error = nullptr);
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extern std::pair<Vector2i, Vector2i> compat_position_intrinsic_index_4(
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const Vector3f &p0, const Vector3f &n0, const Vector3f &q0,
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const Vector3f &o0, const Vector3f &p1, const Vector3f &n1,
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const Vector3f &q1, const Vector3f &o1, Float scale, Float inv_scale,
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Float *error = nullptr);
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/* Optimization kernels */
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extern Float optimize_orientations(
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MultiResolutionHierarchy &mRes, int level, bool extrinsic, int rosy,
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const std::function<void(uint32_t)> &progress);
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extern Float optimize_positions(
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MultiResolutionHierarchy &mRes, int level, bool extrinsic, int posy,
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const std::function<void(uint32_t)> &progress);
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/* Singularity computation */
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extern void compute_orientation_singularities(
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const MultiResolutionHierarchy &mRes, std::map<uint32_t, uint32_t> &sing,
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bool extrinsic, int rosy);
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extern void
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compute_position_singularities(const MultiResolutionHierarchy &mRes,
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const std::map<uint32_t, uint32_t> &orient_sing,
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std::map<uint32_t, Vector2i> &pos_sing,
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bool extrinsic, int rosy, int posy);
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/* Field optimizer (invokes optimization kernels in a separate thread) */
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class Serializer;
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class Optimizer {
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public:
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Optimizer(MultiResolutionHierarchy &mRes, bool interactive);
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void save(Serializer &state);
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void load(const Serializer &state);
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void stop() {
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if (mOptimizeOrientations)
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mRes.propagateSolution(mRoSy);
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mOptimizePositions = mOptimizeOrientations = false;
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notify();
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}
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void shutdown() { mRunning = false; notify(); mThread.join(); }
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bool active() { return mOptimizePositions | mOptimizeOrientations; }
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inline void notify() { mCond.notify_all(); }
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void optimizeOrientations(int level);
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void optimizePositions(int level);
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void wait();
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void setExtrinsic(bool extrinsic) { mExtrinsic = extrinsic; }
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bool extrinsic() const { return mExtrinsic; }
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void setRoSy(int rosy) { mRoSy = rosy; }
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int rosy() const { return mRoSy; }
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void setPoSy(int posy) { mPoSy = posy; }
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int posy() const { return mPoSy; }
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void setLevel(int level) { mLevel = level; }
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int level() const { return mLevel; }
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Float progress() const { return mProgress; }
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#ifdef VISUALIZE_ERROR
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const VectorXf &error() { return mError; }
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#endif
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void moveSingularity(const std::vector<uint32_t> &path, bool orientations) {
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std::lock_guard<ordered_lock> lock(mRes.mutex());
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mAttractorStrokes.push_back(std::make_pair(orientations, path));
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setLevel(0);
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}
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void run();
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protected:
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MultiResolutionHierarchy &mRes;
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std::vector<std::pair<bool, std::vector<uint32_t>>> mAttractorStrokes;
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bool mRunning;
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bool mOptimizeOrientations;
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bool mOptimizePositions;
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std::thread mThread;
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std::condition_variable_any mCond;
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int mLevel, mLevelIterations;
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bool mHierarchical;
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int mRoSy, mPoSy;
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bool mExtrinsic;
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bool mInteractive;
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double mLastUpdate;
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Float mProgress;
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#ifdef VISUALIZE_ERROR
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VectorXf mError;
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#endif
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Timer<> mTimer;
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};
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