/*M/////////////////////////////////////////////////////////////////////////////////////// // // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. // // By downloading, copying, installing or using the software you agree to this license. // If you do not agree to this license, do not download, install, // copy or use the software. // // // License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2013, OpenCV Foundation, all rights reserved. // Third party copyrights are property of their respective owners. // // Redistribution and use in source and binary forms, with or without modification, // are permitted provided that the following conditions are met: // // * Redistribution's of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // * Redistribution's in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // // * The name of the copyright holders may not be used to endorse or promote products // derived from this software without specific prior written permission. // // This software is provided by the copyright holders and contributors "as is" and // any express or implied warranties, including, but not limited to, the implied // warranties of merchantability and fitness for a particular purpose are disclaimed. // In no event shall the Intel Corporation or contributors be liable for any direct, // indirect, incidental, special, exemplary, or consequential damages // (including, but not limited to, procurement of substitute goods or services; // loss of use, data, or profits; or business interruption) however caused // and on any theory of liability, whether in contract, strict liability, // or tort (including negligence or otherwise) arising in any way out of // the use of this software, even if advised of the possibility of such damage. // // Authors: // * Ozan Tonkal, ozantonkal@gmail.com // * Anatoly Baksheev, Itseez Inc. myname.mysurname <> mycompany.com // //M*/ #include "precomp.hpp" /////////////////////////////////////////////////////////////////////////////////////////////// /// Point Cloud Widget implementation cv::viz::WCloud::WCloud(InputArray cloud, InputArray colors) { WCloud cloud_widget(cloud, colors, cv::noArray()); *this = cloud_widget; } cv::viz::WCloud::WCloud(InputArray cloud, const Color &color) { WCloud cloud_widget(cloud, Mat(cloud.size(), CV_8UC3, color)); *this = cloud_widget; } cv::viz::WCloud::WCloud(InputArray cloud, const Color &color, InputArray normals) { WCloud cloud_widget(cloud, Mat(cloud.size(), CV_8UC3, color), normals); *this = cloud_widget; } cv::viz::WCloud::WCloud(cv::InputArray cloud, cv::InputArray colors, cv::InputArray normals) { CV_Assert(!cloud.empty() && !colors.empty()); vtkSmartPointer cloud_source = vtkSmartPointer::New(); cloud_source->SetColorCloudNormals(cloud, colors, normals); cloud_source->Update(); vtkSmartPointer mapper = vtkSmartPointer::New(); VtkUtils::SetInputData(mapper, cloud_source->GetOutput()); mapper->SetScalarModeToUsePointData(); mapper->ImmediateModeRenderingOff(); mapper->SetScalarRange(0, 255); mapper->ScalarVisibilityOn(); vtkSmartPointer actor = vtkSmartPointer::New(); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } template<> cv::viz::WCloud cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); } /////////////////////////////////////////////////////////////////////////////////////////////// /// Painted Cloud Widget implementation cv::viz::WPaintedCloud::WPaintedCloud(InputArray cloud) { vtkSmartPointer cloud_source = vtkSmartPointer::New(); cloud_source->SetCloud(cloud); cloud_source->Update(); Vec6d bounds(cloud_source->GetOutput()->GetPoints()->GetBounds()); vtkSmartPointer elevation = vtkSmartPointer::New(); elevation->SetInputConnection(cloud_source->GetOutputPort()); elevation->SetLowPoint(bounds[0], bounds[2], bounds[4]); elevation->SetHighPoint(bounds[1], bounds[3], bounds[5]); elevation->SetScalarRange(0.0, 1.0); elevation->Update(); vtkSmartPointer mapper = vtkSmartPointer::New(); VtkUtils::SetInputData(mapper, vtkPolyData::SafeDownCast(elevation->GetOutput())); mapper->ImmediateModeRenderingOff(); mapper->ScalarVisibilityOn(); mapper->SetColorModeToMapScalars(); vtkSmartPointer actor = vtkSmartPointer::New(); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } cv::viz::WPaintedCloud::WPaintedCloud(InputArray cloud, const Point3d& p1, const Point3d& p2) { vtkSmartPointer cloud_source = vtkSmartPointer::New(); cloud_source->SetCloud(cloud); vtkSmartPointer elevation = vtkSmartPointer::New(); elevation->SetInputConnection(cloud_source->GetOutputPort()); elevation->SetLowPoint(p1.x, p1.y, p1.z); elevation->SetHighPoint(p2.x, p2.y, p2.z); elevation->SetScalarRange(0.0, 1.0); elevation->Update(); vtkSmartPointer mapper = vtkSmartPointer::New(); VtkUtils::SetInputData(mapper, vtkPolyData::SafeDownCast(elevation->GetOutput())); mapper->ImmediateModeRenderingOff(); mapper->ScalarVisibilityOn(); mapper->SetColorModeToMapScalars(); vtkSmartPointer actor = vtkSmartPointer::New(); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } cv::viz::WPaintedCloud::WPaintedCloud(InputArray cloud, const Point3d& p1, const Point3d& p2, const Color& c1, const Color c2) { vtkSmartPointer cloud_source = vtkSmartPointer::New(); cloud_source->SetCloud(cloud); vtkSmartPointer elevation = vtkSmartPointer::New(); elevation->SetInputConnection(cloud_source->GetOutputPort()); elevation->SetLowPoint(p1.x, p1.y, p1.z); elevation->SetHighPoint(p2.x, p2.y, p2.z); elevation->SetScalarRange(0.0, 1.0); elevation->Update(); Color vc1 = vtkcolor(c1), vc2 = vtkcolor(c2); vtkSmartPointer color_transfer = vtkSmartPointer::New(); color_transfer->SetColorSpaceToRGB(); color_transfer->AddRGBPoint(0.0, vc1[0], vc1[1], vc1[2]); color_transfer->AddRGBPoint(1.0, vc2[0], vc2[1], vc2[2]); color_transfer->SetScaleToLinear(); color_transfer->Build(); //if in future some need to replace color table with real scalars, then this can be done usine next calls: //vtkDataArray *float_scalars = vtkPolyData::SafeDownCast(elevation->GetOutput())->GetPointData()->GetArray("Elevation"); //vtkSmartPointer polydata = cloud_source->GetOutput(); //polydata->GetPointData()->SetScalars(color_transfer->MapScalars(float_scalars, VTK_COLOR_MODE_DEFAULT, 0)); vtkSmartPointer mapper = vtkSmartPointer::New(); VtkUtils::SetInputData(mapper, vtkPolyData::SafeDownCast(elevation->GetOutput())); mapper->ImmediateModeRenderingOff(); mapper->ScalarVisibilityOn(); mapper->SetColorModeToMapScalars(); mapper->SetLookupTable(color_transfer); vtkSmartPointer actor = vtkSmartPointer::New(); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } template<> cv::viz::WPaintedCloud cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); } /////////////////////////////////////////////////////////////////////////////////////////////// /// Cloud Collection Widget implementation cv::viz::WCloudCollection::WCloudCollection() { vtkSmartPointer append_filter = vtkSmartPointer::New(); vtkSmartPointer mapper = vtkSmartPointer::New(); mapper->SetInputConnection(append_filter->GetOutputPort()); mapper->SetScalarModeToUsePointData(); mapper->ImmediateModeRenderingOff(); mapper->SetScalarRange(0, 255); mapper->ScalarVisibilityOn(); vtkSmartPointer actor = vtkSmartPointer::New(); actor->SetNumberOfCloudPoints(1); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } void cv::viz::WCloudCollection::addCloud(InputArray cloud, InputArray colors, const Affine3d &pose) { vtkSmartPointer source = vtkSmartPointer::New(); source->SetColorCloud(cloud, colors); vtkSmartPointer polydata = VtkUtils::TransformPolydata(source->GetOutputPort(), pose); vtkSmartPointer actor = vtkLODActor::SafeDownCast(WidgetAccessor::getProp(*this)); CV_Assert("Correctness check." && actor); vtkSmartPointer producer = actor->GetMapper()->GetInputConnection(0, 0)->GetProducer(); vtkSmartPointer append_filter = vtkAppendPolyData::SafeDownCast(producer); VtkUtils::AddInputData(append_filter, polydata); actor->SetNumberOfCloudPoints(std::max(1, actor->GetNumberOfCloudPoints() + polydata->GetNumberOfPoints()/10)); } void cv::viz::WCloudCollection::addCloud(InputArray cloud, const Color &color, const Affine3d &pose) { addCloud(cloud, Mat(cloud.size(), CV_8UC3, color), pose); } void cv::viz::WCloudCollection::finalize() { vtkSmartPointer actor = vtkLODActor::SafeDownCast(WidgetAccessor::getProp(*this)); CV_Assert("Incompatible widget type." && actor); vtkSmartPointer mapper = vtkPolyDataMapper::SafeDownCast(actor->GetMapper()); CV_Assert("Need to add at least one cloud." && mapper); vtkSmartPointer producer = mapper->GetInputConnection(0, 0)->GetProducer(); vtkSmartPointer append_filter = vtkAppendPolyData::SafeDownCast(producer); append_filter->Update(); vtkSmartPointer polydata = append_filter->GetOutput(); mapper->RemoveInputConnection(0, 0); VtkUtils::SetInputData(mapper, polydata); } template<> cv::viz::WCloudCollection cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); } /////////////////////////////////////////////////////////////////////////////////////////////// /// Cloud Normals Widget implementation cv::viz::WCloudNormals::WCloudNormals(InputArray _cloud, InputArray _normals, int level, double scale, const Color &color) { Mat cloud = _cloud.getMat(); Mat normals = _normals.getMat(); CV_Assert(cloud.type() == CV_32FC3 || cloud.type() == CV_64FC3 || cloud.type() == CV_32FC4 || cloud.type() == CV_64FC4); CV_Assert(cloud.size() == normals.size() && cloud.type() == normals.type()); int sqlevel = (int)std::sqrt((double)level); int ystep = (cloud.cols > 1 && cloud.rows > 1) ? sqlevel : 1; int xstep = (cloud.cols > 1 && cloud.rows > 1) ? sqlevel : level; vtkSmartPointer points = vtkSmartPointer::New(); points->SetDataType(cloud.depth() == CV_32F ? VTK_FLOAT : VTK_DOUBLE); vtkSmartPointer lines = vtkSmartPointer::New(); int s_chs = cloud.channels(); int n_chs = normals.channels(); int total = 0; for(int y = 0; y < cloud.rows; y += ystep) { if (cloud.depth() == CV_32F) { const float *srow = cloud.ptr(y); const float *send = srow + cloud.cols * s_chs; const float *nrow = normals.ptr(y); for (; srow < send; srow += xstep * s_chs, nrow += xstep * n_chs) if (!isNan(srow) && !isNan(nrow)) { Vec3f endp = Vec3f(srow) + Vec3f(nrow) * (float)scale; points->InsertNextPoint(srow); points->InsertNextPoint(endp.val); lines->InsertNextCell(2); lines->InsertCellPoint(total++); lines->InsertCellPoint(total++); } } else { const double *srow = cloud.ptr(y); const double *send = srow + cloud.cols * s_chs; const double *nrow = normals.ptr(y); for (; srow < send; srow += xstep * s_chs, nrow += xstep * n_chs) if (!isNan(srow) && !isNan(nrow)) { Vec3d endp = Vec3d(srow) + Vec3d(nrow) * (double)scale; points->InsertNextPoint(srow); points->InsertNextPoint(endp.val); lines->InsertNextCell(2); lines->InsertCellPoint(total++); lines->InsertCellPoint(total++); } } } vtkSmartPointer polydata = vtkSmartPointer::New(); polydata->SetPoints(points); polydata->SetLines(lines); VtkUtils::FillScalars(polydata, color); vtkSmartPointer mapper = vtkSmartPointer::New(); VtkUtils::SetInputData(mapper, polydata); vtkSmartPointer actor = vtkSmartPointer::New(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } template<> cv::viz::WCloudNormals cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); } /////////////////////////////////////////////////////////////////////////////////////////////// /// Mesh Widget implementation cv::viz::WMesh::WMesh(const Mesh &mesh) { CV_Assert(mesh.cloud.rows == 1 && mesh.polygons.type() == CV_32SC1); vtkSmartPointer source = vtkSmartPointer::New(); source->SetColorCloudNormalsTCoords(mesh.cloud, mesh.colors, mesh.normals, mesh.tcoords); source->Update(); Mat lookup_buffer(1, (int)mesh.cloud.total(), CV_32SC1); int *lookup = lookup_buffer.ptr(); for(int y = 0, index = 0; y < mesh.cloud.rows; ++y) { int s_chs = mesh.cloud.channels(); if (mesh.cloud.depth() == CV_32F) { const float* srow = mesh.cloud.ptr(y); const float* send = srow + mesh.cloud.cols * s_chs; for (; srow != send; srow += s_chs, ++lookup) if (!isNan(srow[0]) && !isNan(srow[1]) && !isNan(srow[2])) *lookup = index++; } if (mesh.cloud.depth() == CV_64F) { const double* srow = mesh.cloud.ptr(y); const double* send = srow + mesh.cloud.cols * s_chs; for (; srow != send; srow += s_chs, ++lookup) if (!isNan(srow[0]) && !isNan(srow[1]) && !isNan(srow[2])) *lookup = index++; } } lookup = lookup_buffer.ptr(); vtkSmartPointer polydata = source->GetOutput(); polydata->SetVerts(0); const int * polygons = mesh.polygons.ptr(); vtkSmartPointer cell_array = vtkSmartPointer::New(); int idx = 0; size_t polygons_size = mesh.polygons.total(); for (size_t i = 0; i < polygons_size; ++idx) { int n_points = polygons[i++]; cell_array->InsertNextCell(n_points); for (int j = 0; j < n_points; ++j, ++idx) cell_array->InsertCellPoint(lookup[polygons[i++]]); } cell_array->GetData()->SetNumberOfValues(idx); cell_array->Squeeze(); polydata->SetStrips(cell_array); vtkSmartPointer mapper = vtkSmartPointer::New(); mapper->SetScalarModeToUsePointData(); mapper->ImmediateModeRenderingOff(); VtkUtils::SetInputData(mapper, polydata); vtkSmartPointer actor = vtkSmartPointer::New(); //actor->SetNumberOfCloudPoints(std::max(1, polydata->GetNumberOfPoints() / 10)); actor->GetProperty()->SetRepresentationToSurface(); actor->GetProperty()->BackfaceCullingOff(); // Backface culling is off for higher efficiency actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->EdgeVisibilityOff(); actor->GetProperty()->ShadingOff(); actor->SetMapper(mapper); if (!mesh.texture.empty()) { vtkSmartPointer image_source = vtkSmartPointer::New(); image_source->SetImage(mesh.texture); vtkSmartPointer texture = vtkSmartPointer::New(); texture->SetInputConnection(image_source->GetOutputPort()); actor->SetTexture(texture); } WidgetAccessor::setProp(*this, actor); } cv::viz::WMesh::WMesh(InputArray cloud, InputArray polygons, InputArray colors, InputArray normals) { Mesh mesh; mesh.cloud = cloud.getMat(); mesh.colors = colors.getMat(); mesh.normals = normals.getMat(); mesh.polygons = polygons.getMat(); *this = WMesh(mesh); } template<> CV_EXPORTS cv::viz::WMesh cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); } /////////////////////////////////////////////////////////////////////////////////////////////// /// Widget Merger implementation cv::viz::WWidgetMerger::WWidgetMerger() { vtkSmartPointer append_filter = vtkSmartPointer::New(); vtkSmartPointer mapper = vtkSmartPointer::New(); mapper->SetInputConnection(append_filter->GetOutputPort()); mapper->SetScalarModeToUsePointData(); mapper->ImmediateModeRenderingOff(); mapper->SetScalarRange(0, 255); mapper->ScalarVisibilityOn(); vtkSmartPointer actor = vtkSmartPointer::New(); actor->GetProperty()->SetInterpolationToFlat(); actor->GetProperty()->BackfaceCullingOn(); actor->SetMapper(mapper); WidgetAccessor::setProp(*this, actor); } void cv::viz::WWidgetMerger::addWidget(const Widget3D& widget, const Affine3d &pose) { vtkActor *widget_actor = vtkActor::SafeDownCast(WidgetAccessor::getProp(widget)); CV_Assert("Widget is not 3D actor." && widget_actor); vtkSmartPointer widget_mapper = vtkPolyDataMapper::SafeDownCast(widget_actor->GetMapper()); CV_Assert("Widget doesn't have a polydata mapper" && widget_mapper); widget_mapper->Update(); vtkSmartPointer actor = vtkActor::SafeDownCast(WidgetAccessor::getProp(*this)); vtkSmartPointer producer = actor->GetMapper()->GetInputConnection(0, 0)->GetProducer(); vtkSmartPointer append_filter = vtkAppendPolyData::SafeDownCast(producer); CV_Assert("Correctness check" && append_filter); VtkUtils::AddInputData(append_filter, VtkUtils::TransformPolydata(widget_mapper->GetInput(), pose)); } void cv::viz::WWidgetMerger::finalize() { vtkSmartPointer actor = vtkActor::SafeDownCast(WidgetAccessor::getProp(*this)); vtkSmartPointer producer = actor->GetMapper()->GetInputConnection(0, 0)->GetProducer(); vtkSmartPointer append_filter = vtkAppendPolyData::SafeDownCast(producer); CV_Assert("Correctness check" && append_filter); append_filter->Update(); vtkSmartPointer mapper = vtkPolyDataMapper::SafeDownCast(actor->GetMapper()); mapper->RemoveInputConnection(0, 0); VtkUtils::SetInputData(mapper, append_filter->GetOutput()); mapper->Modified(); } template<> CV_EXPORTS cv::viz::WWidgetMerger cv::viz::Widget::cast() { Widget3D widget = this->cast(); return static_cast(widget); }