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#include <pybind11/pybind11.h>
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#include <pybind11/numpy.h>
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#include <pybind11/stl.h>
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#include <vector>
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#include <queue>
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#include <cmath>
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#include <algorithm>
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namespace py = pybind11;
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using namespace std;
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std::pair<py::array_t<float>,
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py::array_t<uint8_t>> meshVerticeInpaint_smooth(py::array_t<float> texture,
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py::array_t<uint8_t> mask,
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py::array_t<float> vtx_pos, py::array_t<float> vtx_uv,
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py::array_t<int> pos_idx, py::array_t<int> uv_idx) {
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auto texture_buf = texture.request();
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auto mask_buf = mask.request();
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auto vtx_pos_buf = vtx_pos.request();
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auto vtx_uv_buf = vtx_uv.request();
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auto pos_idx_buf = pos_idx.request();
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auto uv_idx_buf = uv_idx.request();
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int texture_height = texture_buf.shape[0];
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int texture_width = texture_buf.shape[1];
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int texture_channel = texture_buf.shape[2];
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float* texture_ptr = static_cast<float*>(texture_buf.ptr);
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uint8_t* mask_ptr = static_cast<uint8_t*>(mask_buf.ptr);
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int vtx_num = vtx_pos_buf.shape[0];
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float* vtx_pos_ptr = static_cast<float*>(vtx_pos_buf.ptr);
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float* vtx_uv_ptr = static_cast<float*>(vtx_uv_buf.ptr);
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int* pos_idx_ptr = static_cast<int*>(pos_idx_buf.ptr);
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int* uv_idx_ptr = static_cast<int*>(uv_idx_buf.ptr);
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vector<float> vtx_mask(vtx_num, 0.0f);
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vector<vector<float>> vtx_color(vtx_num, vector<float>(texture_channel, 0.0f));
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vector<int> uncolored_vtxs;
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vector<vector<int>> G(vtx_num);
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for (int i = 0; i < uv_idx_buf.shape[0]; ++i) {
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for (int k = 0; k < 3; ++k) {
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int vtx_uv_idx = uv_idx_ptr[i * 3 + k];
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int vtx_idx = pos_idx_ptr[i * 3 + k];
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int uv_v = round(vtx_uv_ptr[vtx_uv_idx * 2] * (texture_width - 1));
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int uv_u = round((1.0 - vtx_uv_ptr[vtx_uv_idx * 2 + 1]) * (texture_height - 1));
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if (mask_ptr[uv_u * texture_width + uv_v] > 0) {
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vtx_mask[vtx_idx] = 1.0f;
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for (int c = 0; c < texture_channel; ++c) {
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vtx_color[vtx_idx][c] = texture_ptr[(uv_u * texture_width + uv_v) * texture_channel + c];
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}
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}else{
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uncolored_vtxs.push_back(vtx_idx);
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}
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G[pos_idx_ptr[i * 3 + k]].push_back(pos_idx_ptr[i * 3 + (k + 1) % 3]);
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}
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}
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int smooth_count = 2;
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int last_uncolored_vtx_count = 0;
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while (smooth_count>0) {
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int uncolored_vtx_count = 0;
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for (int vtx_idx : uncolored_vtxs) {
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vector<float> sum_color(texture_channel, 0.0f);
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float total_weight = 0.0f;
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array<float, 3> vtx_0 = {vtx_pos_ptr[vtx_idx * 3],
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vtx_pos_ptr[vtx_idx * 3 + 1], vtx_pos_ptr[vtx_idx * 3 + 2]};
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for (int connected_idx : G[vtx_idx]) {
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if (vtx_mask[connected_idx] > 0) {
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array<float, 3> vtx1 = {vtx_pos_ptr[connected_idx * 3],
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vtx_pos_ptr[connected_idx * 3 + 1], vtx_pos_ptr[connected_idx * 3 + 2]};
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float dist_weight = 1.0f / max(sqrt(pow(vtx_0[0] - vtx1[0], 2) + pow(vtx_0[1] - vtx1[1], 2) + \
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pow(vtx_0[2] - vtx1[2], 2)), 1E-4);
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dist_weight = dist_weight * dist_weight;
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for (int c = 0; c < texture_channel; ++c) {
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sum_color[c] += vtx_color[connected_idx][c] * dist_weight;
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}
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total_weight += dist_weight;
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}
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}
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if (total_weight > 0.0f) {
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for (int c = 0; c < texture_channel; ++c) {
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vtx_color[vtx_idx][c] = sum_color[c] / total_weight;
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}
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vtx_mask[vtx_idx] = 1.0f;
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} else {
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uncolored_vtx_count++;
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}
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}
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if(last_uncolored_vtx_count==uncolored_vtx_count){
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smooth_count--;
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}else{
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smooth_count++;
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}
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last_uncolored_vtx_count = uncolored_vtx_count;
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}
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py::array_t<float> new_texture(texture_buf.size);
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py::array_t<uint8_t> new_mask(mask_buf.size);
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auto new_texture_buf = new_texture.request();
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auto new_mask_buf = new_mask.request();
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float* new_texture_ptr = static_cast<float*>(new_texture_buf.ptr);
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uint8_t* new_mask_ptr = static_cast<uint8_t*>(new_mask_buf.ptr);
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std::copy(texture_ptr, texture_ptr + texture_buf.size, new_texture_ptr);
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std::copy(mask_ptr, mask_ptr + mask_buf.size, new_mask_ptr);
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for (int face_idx = 0; face_idx < uv_idx_buf.shape[0]; ++face_idx) {
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for (int k = 0; k < 3; ++k) {
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int vtx_uv_idx = uv_idx_ptr[face_idx * 3 + k];
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int vtx_idx = pos_idx_ptr[face_idx * 3 + k];
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if (vtx_mask[vtx_idx] == 1.0f) {
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int uv_v = round(vtx_uv_ptr[vtx_uv_idx * 2] * (texture_width - 1));
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int uv_u = round((1.0 - vtx_uv_ptr[vtx_uv_idx * 2 + 1]) * (texture_height - 1));
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for (int c = 0; c < texture_channel; ++c) {
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new_texture_ptr[(uv_u * texture_width + uv_v) * texture_channel + c] = vtx_color[vtx_idx][c];
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}
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new_mask_ptr[uv_u * texture_width + uv_v] = 255;
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}
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}
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}
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new_texture.resize({texture_height, texture_width, 3});
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new_mask.resize({texture_height, texture_width});
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return std::make_pair(new_texture, new_mask);
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}
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std::pair<py::array_t<float>, py::array_t<uint8_t>> meshVerticeInpaint(py::array_t<float> texture,
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py::array_t<uint8_t> mask,
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py::array_t<float> vtx_pos, py::array_t<float> vtx_uv,
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py::array_t<int> pos_idx, py::array_t<int> uv_idx, const std::string& method = "smooth") {
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if (method == "smooth") {
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return meshVerticeInpaint_smooth(texture, mask, vtx_pos, vtx_uv, pos_idx, uv_idx);
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} else {
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throw std::invalid_argument("Invalid method. Use 'smooth' or 'forward'.");
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}
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}
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PYBIND11_MODULE(mesh_processor, m) {
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m.def("meshVerticeInpaint", &meshVerticeInpaint, "A function to process mesh",
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py::arg("texture"), py::arg("mask"),
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py::arg("vtx_pos"), py::arg("vtx_uv"),
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py::arg("pos_idx"), py::arg("uv_idx"),
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py::arg("method") = "smooth");
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} |
