Add check of neighbors

Add store triangle for debug purpose
2021-08-16 11:53:37 +02:00 · 2021-08-16 11:53:37 +02:00 · 62f8ab1cbe
commit 62f8ab1cbe
parent ef5c94f90a
3 changed files with 164 additions and 2 deletions
--- a/src/libslic3r/QuadricEdgeCollapse.cpp
+++ b/src/libslic3r/QuadricEdgeCollapse.cpp
@ -91,6 +91,119 @@ namespace QuadricEdgeCollapse {
 using namespace QuadricEdgeCollapse;
 // store triangle surrounding to file
 void store_surround(const char *                obj_filename,
                    size_t                      triangle_index,
                    int                         depth,
                    const indexed_triangle_set &its,
                    const VertexInfos &         v_infos,
                    const EdgeInfos &           e_infos)
 {
    std::set<size_t> triangles;
    //             triangle index, depth
    using Item = std::pair<size_t, int>;
    std::queue<Item> process;
    process.push({triangle_index, depth});
    while (!process.empty()) {
        Item item = process.front();
        process.pop();  
        size_t ti = item.first;
        auto it = triangles.find(ti);
        if (it != triangles.end()) continue;
        triangles.insert(ti);
        if (item.second == 0) continue;
        const Vec3i &t = its.indices[ti];
        for (size_t i = 0; i < 3; ++i) {
            const auto &v_info = v_infos[t[i]];
            for (size_t d = 0; d < v_info.count; ++d) {
                size_t           ei     = v_info.start + d;
                const auto &     e_info = e_infos[ei];
                auto it = triangles.find(e_info.t_index);
                if (it != triangles.end()) continue;
                process.push({e_info.t_index, item.second - 1});
            }
        }
    }
    std::vector<size_t> trs;
    trs.reserve(triangles.size());
    for (size_t ti : triangles) trs.push_back(ti);
    its_store_triangles(its, obj_filename, trs);
    //its_write_obj(its,"original.obj");
 }
 bool check_neighbors(const indexed_triangle_set &its,
                     const TriangleInfos &       t_infos,
                     const VertexInfos &         v_infos,
                     const EdgeInfos &           e_infos)
 {
    VertexInfos v_infos2(v_infos.size());
    size_t      count_indices = 0;
    for (size_t ti = 0; ti < its.indices.size(); ti++) {
        if (t_infos[ti].is_deleted()) continue;
        ++count_indices;
        const Triangle &t = its.indices[ti];
        for (size_t e = 0; e < 3; e++) {
            VertexInfo &v_info = v_infos2[t[e]];
            ++v_info.count; // triangle count
        }
    }
    uint32_t triangle_start = 0;
    for (VertexInfo &v_info : v_infos2) {
        v_info.start = triangle_start;
        triangle_start += v_info.count;
        // set filled vertex to zero
        v_info.count = 0;
    }
    // create reference
    EdgeInfos e_infos2(count_indices * 3);
    for (size_t ti = 0; ti < its.indices.size(); ti++) {
        if (t_infos[ti].is_deleted()) continue;
        const Triangle &t = its.indices[ti];
        for (size_t j = 0; j < 3; ++j) {
            VertexInfo &v_info = v_infos2[t[j]];
            size_t      ei     = v_info.start + v_info.count;
            assert(ei < e_infos2.size());
            EdgeInfo &e_info = e_infos2[ei];
            e_info.t_index   = ti;
            e_info.edge      = j;
            ++v_info.count;
        }
    }
    for (size_t vi = 0; vi < its.vertices.size(); vi++) {
        const VertexInfo &v_info = v_infos[vi];
        if (v_info.is_deleted()) continue;
        const VertexInfo &v_info2 = v_infos2[vi];
        if (v_info.count != v_info2.count) { 
            return false;
        }
        EdgeInfos eis;
        eis.reserve(v_info.count);
        std::copy(e_infos.begin() + v_info.start,
                  e_infos.begin() + v_info.start + v_info.count,
                  std::back_inserter(eis));
        auto compare = [](const EdgeInfo &ei1, const EdgeInfo &ei2) {
            return ei1.t_index < ei2.t_index;
        };
        std::sort(eis.begin(), eis.end(), compare);
        std::sort(e_infos2.begin() + v_info2.start,
                  e_infos2.begin() + v_info2.start + v_info2.count,
                  compare);
        for (size_t ei = 0; ei < v_info.count; ++ei) { 
            if (eis[ei].t_index != e_infos2[ei + v_info2.start].t_index) {
                return false;
            }
        }
    }
    return true;
 }
 void Slic3r::its_quadric_edge_collapse(
    indexed_triangle_set &    its,
    uint32_t                  triangle_count,
@ -117,6 +230,9 @@ void Slic3r::its_quadric_edge_collapse(
    throw_on_cancel();
    statusfn(status_init_size);
    //its_store_triangle(its, "triangle.obj", 1182);
    //store_surround("triangle_surround1.obj", 1182, 1, its, v_infos, e_infos);
    // convert from triangle index to mutable priority queue index
    std::vector<size_t> ti_2_mpqi(its.indices.size(), {0});
    auto setter = [&ti_2_mpqi](const Error &e, size_t index) { ti_2_mpqi[e.triangle_index] = index; };
@ -238,7 +354,6 @@ void Slic3r::its_quadric_edge_collapse(
        v_info0.q = q;
        // fix neighbors      
        // vertex index of triangle 0 which is not vi0 nor vi1
        uint32_t vi_top0 = t0[(t_info0.min_index + 2) % 3];
        const Triangle &t1 = its.indices[ti1];
@ -264,6 +379,7 @@ void Slic3r::its_quadric_edge_collapse(
        t_info1.set_deleted();
        // triangle counter decrementation
        actual_triangle_count-=2;
        assert(check_neighbors(its, t_infos, v_infos, e_infos));
    }
    // compact triangle
--- a/src/libslic3r/TriangleMesh.cpp
+++ b/src/libslic3r/TriangleMesh.cpp
@ -957,6 +957,48 @@ int its_compactify_vertices(indexed_triangle_set &its, bool shrink_to_fit)
    return removed;
 }
 bool its_store_triangle(const indexed_triangle_set &its,
                        const char *                obj_filename,
                        size_t                      triangle_index)
 {
    if (its.indices.size() <= triangle_index) return false;
    Vec3i                t = its.indices[triangle_index];
    indexed_triangle_set its2;
    its2.indices  = {{0, 1, 2}};
    its2.vertices = {its.vertices[t[0]], its.vertices[t[1]],
                     its.vertices[t[2]]};
    return its_write_obj(its2, obj_filename);
 }
 bool its_store_triangles(const indexed_triangle_set &its,
                         const char *                obj_filename,
                         const std::vector<size_t> & triangles)
 {
    indexed_triangle_set its2;
    its2.vertices.reserve(triangles.size() * 3);
    its2.indices.reserve(triangles.size());
    std::map<size_t, size_t> vertex_map;
    for (auto ti : triangles) {
        if (its.indices.size() <= ti) return false;
        Vec3i t = its.indices[ti];
        Vec3i new_t;
        for (size_t i = 0; i < 3; ++i) {
            size_t vi = t[i];
            auto   it = vertex_map.find(vi);
            if (it != vertex_map.end()) {
                new_t[i] = it->second;
                continue;
            }
            size_t new_vi = its2.vertices.size();
            its2.vertices.push_back(its.vertices[vi]);
            vertex_map[vi] = new_vi;
            new_t[i]       = new_vi;
        }
        its2.indices.push_back(new_t);
    }
    return its_write_obj(its2, obj_filename);
 }
 void its_shrink_to_fit(indexed_triangle_set &its)
 {
    its.indices.shrink_to_fit();
--- a/src/libslic3r/TriangleMesh.hpp
+++ b/src/libslic3r/TriangleMesh.hpp
@ -140,6 +140,10 @@ int its_remove_degenerate_faces(indexed_triangle_set &its, bool shrink_to_fit =
 // Remove vertices, which none of the faces references. Return number of freed vertices.
 int its_compactify_vertices(indexed_triangle_set &its, bool shrink_to_fit = true);
 // store part of index triangle set
 bool its_store_triangle(const indexed_triangle_set &its, const char *obj_filename, size_t triangle_index);
 bool its_store_triangles(const indexed_triangle_set &its, const char *obj_filename, const std::vector<size_t>& triangles);
 std::vector<indexed_triangle_set> its_split(const indexed_triangle_set &its);
 bool its_is_splittable(const indexed_triangle_set &its);