y2017/vision/debug_viewer.cc - RealtimeRoboticsGroup/test - Gitiles

 #include <iostream>

 #include <Eigen/Dense>

 #include "aos/vision/blob/move_scale.h"
 #include "aos/vision/blob/stream_view.h"
 #include "aos/vision/blob/transpose.h"
 #include "aos/vision/debug/debug_framework.h"
 #include "aos/vision/math/vector.h"
 #include "y2017/vision/target_finder.h"

 using aos::vision::BlobList;
 using aos::vision::ImageFormat;
 using aos::vision::ImageRange;
 using aos::vision::RangeImage;

 namespace y2017::vision {

 BlobList RenderTargetListShifted(const std::vector<TargetComponent> &list) {
   BlobList out;
   for (const auto &entity : list) {
     out.emplace_back(entity.RenderShifted());
   }
   return out;
 }

 RangeImage TargetComponent::RenderShifted() const {
   std::vector<std::vector<ImageRange>> out_range_list;
   int y = 0;
   double max_y = -b / (2 * a);
   double parab_off = max_y * max_y * a + max_y * b;
   RangeImage t_img = Transpose(*img);
   for (const auto &row : t_img) {
     int off = -(y * y * a + y * b - parab_off);
     // int off = 0;
     // fprintf(stderr, "off: %d %d\n", off, y);
     std::vector<ImageRange> row_out;
     for (const ImageRange &range : row) {
       row_out.emplace_back(ImageRange{off + range.st, off + range.ed});
     }
     ++y;
     out_range_list.emplace_back(std::move(row_out));
   }
   return RangeImage(t_img.min_y(), std::move(out_range_list));
 }

 class FilterHarnessExample : public aos::vision::FilterHarness {
  public:
   aos::vision::RangeImage Threshold(aos::vision::ImagePtr image) override {
     return finder_.Threshold(image);
   }

   void InstallViewer(aos::vision::BlobStreamViewer *viewer) override {
     viewer_ = viewer;
     viewer_->SetScale(0.5);
     overlays_.push_back(&overlay_);
     overlays_.push_back(finder_.GetOverlay());
     viewer_->view()->SetOverlays(&overlays_);
   }

   bool HandleBlobs(BlobList imgs, ImageFormat /*fmt*/) override {
     // reset for next drawing cycle
     for (auto &overlay : overlays_) {
       overlay->Reset();
     }

     // Remove bad blobs.
     finder_.PreFilter(imgs);

     // calculate each component/
     std::vector<TargetComponent> target_component_list =
         finder_.FillTargetComponentList(imgs);

     DrawComponents(target_component_list);

     // Put the compenents together into targets and pick the best.
     Target final_target;
     bool found_target =
         finder_.FindTargetFromComponents(target_component_list, &final_target);

     // BlobList newImg = RenderTargetListShifted(target_component_list);
     if (viewer_) {
       viewer_->DrawBlobList(imgs, {0, 0, 255});
     }

     if (found_target) {
       BlobList list;
       list.emplace_back(*(final_target.comp1.img));
       list.emplace_back(*(final_target.comp2.img));
       viewer_->DrawBlobList(list, {0, 255, 0});
       overlay_.DrawCross(final_target.screen_coord, 25, {255, 255, 255});
     }

     // No targets.
     return found_target;
   }

   void DrawComponents(const std::vector<TargetComponent> comp) {
     for (const TargetComponent &t : comp) {
       aos::vision::ImageBBox bbox;
       GetBBox(*(t.img), &bbox);
       overlay_.DrawBBox(bbox, {255, 0, 0});

       overlay_.StartNewProfile();
       for (int i = 0; i < bbox.maxx - bbox.minx; i += 10) {
         double y0 = t.a * i * i + t.b * i + t.c_0;
         double y1 = t.a * i * i + t.b * i + t.c_1;
         overlay_.AddPoint(aos::vision::Vector<2>(i + t.mini, y0), {255, 0, 0});
         overlay_.AddPoint(aos::vision::Vector<2>(i + t.mini, y1), {255, 0, 0});
       }
     }
   }

  private:
   // implementation of the filter pipeline.
   TargetFinder finder_;
   aos::vision::BlobStreamViewer *viewer_ = nullptr;
   aos::vision::PixelLinesOverlay overlay_;
   std::vector<aos::vision::OverlayBase *> overlays_;
 };

 }  // namespace y2017::vision

 int main(int argc, char **argv) {
   y2017::vision::FilterHarnessExample filter_harness;
   aos::vision::DebugFrameworkMain(argc, argv, &filter_harness,
                                   aos::vision::CameraParams());
 }
	#include <iostream>

	#include <Eigen/Dense>

	#include "aos/vision/blob/move_scale.h"
	#include "aos/vision/blob/stream_view.h"
	#include "aos/vision/blob/transpose.h"
	#include "aos/vision/debug/debug_framework.h"
	#include "aos/vision/math/vector.h"
	#include "y2017/vision/target_finder.h"

	using aos::vision::BlobList;
	using aos::vision::ImageFormat;
	using aos::vision::ImageRange;
	using aos::vision::RangeImage;

	namespace y2017::vision {

	BlobList RenderTargetListShifted(const std::vector<TargetComponent> &list) {
	BlobList out;
	for (const auto &entity : list) {
	out.emplace_back(entity.RenderShifted());
	}
	return out;
	}

	RangeImage TargetComponent::RenderShifted() const {
	std::vector<std::vector<ImageRange>> out_range_list;
	int y = 0;
	double max_y = -b / (2 * a);
	double parab_off = max_y * max_y * a + max_y * b;
	RangeImage t_img = Transpose(*img);
	for (const auto &row : t_img) {
	int off = -(y * y * a + y * b - parab_off);
	// int off = 0;
	// fprintf(stderr, "off: %d %d\n", off, y);
	std::vector<ImageRange> row_out;
	for (const ImageRange &range : row) {
	row_out.emplace_back(ImageRange{off + range.st, off + range.ed});
	}
	++y;
	out_range_list.emplace_back(std::move(row_out));
	}
	return RangeImage(t_img.min_y(), std::move(out_range_list));
	}

	class FilterHarnessExample : public aos::vision::FilterHarness {
	public:
	aos::vision::RangeImage Threshold(aos::vision::ImagePtr image) override {
	return finder_.Threshold(image);
	}

	void InstallViewer(aos::vision::BlobStreamViewer *viewer) override {
	viewer_ = viewer;
	viewer_->SetScale(0.5);
	overlays_.push_back(&overlay_);
	overlays_.push_back(finder_.GetOverlay());
	viewer_->view()->SetOverlays(&overlays_);
	}

	bool HandleBlobs(BlobList imgs, ImageFormat /fmt/) override {
	// reset for next drawing cycle
	for (auto &overlay : overlays_) {
	overlay->Reset();
	}

	// Remove bad blobs.
	finder_.PreFilter(imgs);

	// calculate each component/
	std::vector<TargetComponent> target_component_list =
	finder_.FillTargetComponentList(imgs);

	DrawComponents(target_component_list);

	// Put the compenents together into targets and pick the best.
	Target final_target;
	bool found_target =
	finder_.FindTargetFromComponents(target_component_list, &final_target);

	// BlobList newImg = RenderTargetListShifted(target_component_list);
	if (viewer_) {
	viewer_->DrawBlobList(imgs, {0, 0, 255});
	}

	if (found_target) {
	BlobList list;
	list.emplace_back(*(final_target.comp1.img));
	list.emplace_back(*(final_target.comp2.img));
	viewer_->DrawBlobList(list, {0, 255, 0});
	overlay_.DrawCross(final_target.screen_coord, 25, {255, 255, 255});
	}

	// No targets.
	return found_target;
	}

	void DrawComponents(const std::vector<TargetComponent> comp) {
	for (const TargetComponent &t : comp) {
	aos::vision::ImageBBox bbox;
	GetBBox(*(t.img), &bbox);
	overlay_.DrawBBox(bbox, {255, 0, 0});

	overlay_.StartNewProfile();
	for (int i = 0; i < bbox.maxx - bbox.minx; i += 10) {
	double y0 = t.a * i * i + t.b * i + t.c_0;
	double y1 = t.a * i * i + t.b * i + t.c_1;
	overlay_.AddPoint(aos::vision::Vector<2>(i + t.mini, y0), {255, 0, 0});
	overlay_.AddPoint(aos::vision::Vector<2>(i + t.mini, y1), {255, 0, 0});
	}
	}
	}

	private:
	// implementation of the filter pipeline.
	TargetFinder finder_;
	aos::vision::BlobStreamViewer *viewer_ = nullptr;
	aos::vision::PixelLinesOverlay overlay_;
	std::vector<aos::vision::OverlayBase *> overlays_;
	};

	} // namespace y2017::vision

	int main(int argc, char **argv) {
	y2017::vision::FilterHarnessExample filter_harness;
	aos::vision::DebugFrameworkMain(argc, argv, &filter_harness,
	aos::vision::CameraParams());
	}