示例#1
0
void Labeling::read(const cv::Mat3b &src)
{
	std::map<cv::Vec3b, short, Vec3bCompare> palette;
	palette[cv::Vec3b(0, 0, 0)] = -1; // always have black background label

	// find all colors
	cv::Mat3b::const_iterator its;
	for (its = src.begin(); its != src.end(); ++its)
		palette[*its] = -1;

	// assign labelColors based on map order (somewhat canonical label indices)
	labelColors.clear();
	std::map<cv::Vec3b, short, Vec3bCompare>::iterator itp;
	for (itp = palette.begin(); itp != palette.end(); ++itp)
	{
		itp->second = labelColors.size(); // index into labelColors
		labelColors.push_back(itp->first);
	}
	labelcount = labelColors.size();

	// assign the color indices to the label matrix
	labels = cv::Mat1s(src.rows, src.cols);
	cv::Mat1s::iterator itl;
	for (its = src.begin(), itl = labels.begin();
		 its != src.end(); ++its, ++itl) {
		*itl = palette[*its];
	}

	/* Special case: only one white label stored in RGB image (stupid).
	   We don't want to use white color, it confuses the user. */
	if ((labelcount == 2) && (labelColors[1][0] == labelColors[1][1])
						  && (labelColors[1][1] == labelColors[1][2]))
		labelColors[1] = cv::Vec3b(0, 255, 0);
}
示例#2
0
cv::Mat3b OpenCVUtil::pad_image(const cv::Mat3b& image, int paddingSize)
{
  cv::Mat3b paddedImage = cv::Mat3b::zeros(image.rows + paddingSize * 2, image.cols + paddingSize * 2);
  cv::Rect roi(paddingSize, paddingSize, image.cols, image.rows);
  image.copyTo(paddedImage(roi));
  return paddedImage;
}
示例#3
0
文件: rgbd_image.cpp 项目: iowen8/P3D
  void RGBDImage :: fillRgbFromUserLabels(cv::Mat3b& img) const
  {
    if (!m_user_labels.data)
      return;

    const Vec3b colors[] = {
      Vec3b(255,0,0),
      Vec3b(255,255,0),
      Vec3b(255,0,255),
      Vec3b(255,255,255),
      Vec3b(0,255,0),
      Vec3b(0,255,255),
      Vec3b(0,0,255),
    };
    int nb_colors = sizeof(colors) / sizeof(Vec3b);

    img.create(m_user_labels.size());
    for_all_rc(m_user_labels)
    {
      int label = m_user_labels(r,c);
      if (label == 0)
        img(r,c) = Vec3b(0,0,0);
      else
        img(r,c) = colors[label%nb_colors];
    }
  }
示例#4
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void HSColorModel :: show(cv::Mat3b& hist_img) const
{
  ntk_assert(m_histogram.data, "Model was not build.");
  ntk_assert(m_histogram.dims == 2, "This is for 2d histograms");

  int scale = 10;
  int x_bins = m_histogram.size[0];
  int y_bins = m_histogram.size[1];

  double min_value = 0, max_value = 0;
  minMaxLoc(m_histogram, &min_value, &max_value, 0, 0 );

  hist_img.create(x_bins*scale,y_bins*scale);
  hist_img = Vec3b(0,0,0);

  for(int h = 0; h < x_bins; h++ )
  {
    for(int s = 0; s < y_bins; s++ )
    {
      float bin_val = m_histogram(h,s);
      int intensity = cvRound(bin_val*255.0/max_value);
      rectangle(hist_img,
                Point( h*scale, s*scale ),
                Point( (h+1)*scale - 1, (s+1)*scale - 1),
                CV_RGB(intensity,intensity,intensity),
                CV_FILLED );
    }
  }
}
void tgTextureModel::TextureFromImage(const tgCamera& cam, const cv::Mat3b& image)
{
  ComputeFaceNormals();
  m_face_tex_id.clear();

  std::vector<bool> vertex_used(m_vertices.size(), false);
  for (size_t i = 0; i < m_faces.size(); i++)
  {
    TomGine::tgFace &f = m_faces[i];

    for (size_t j = 0; j < f.v.size(); j++)
    {
      const unsigned &vidx = f.v[j];
      if (vertex_used[vidx])
        continue;

      vertex_used[vidx] = true;
      TomGine::tgVertex &v = m_vertices[vidx];

      v.texCoord = cam.GetTexCoords(v.pos);
      v.texCoord.y = 1.0f - v.texCoord.y; // cv::Mat to OpenGL
    }
    m_face_tex_id.push_back(0);
  }
  m_tex_cv.resize(1);
  image.copyTo(m_tex_cv[0]);
}
示例#6
0
bool
ImageWidget :: setImage(QImage& image, const cv::Mat3b& im)
{
    bool geometryUpdated = false;

    if (image.isNull()
            || image.width() != im.cols
            || image.height() != im.rows)
    {
        image = QImage(im.cols, im.rows, QImage::Format_RGB32);
        geometryUpdated = true;
    }

    for (int r = 0; r < im.rows; ++r)
    {
        QRgb* ptr = (QRgb*) image.scanLine(r);
        const uchar* cv_ptr = im.ptr(r);
        for (int i = 0; i < im.cols; ++i)
        {
            int rgb = 0xff << 24;
            rgb |= (*cv_ptr++);
            rgb |= ((*cv_ptr++) << 8);
            rgb |= ((*cv_ptr++) << 16);
            *ptr++ = rgb;
        }
    }

    return geometryUpdated;
}
示例#7
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std::vector<cv::Point2f> findLabelPositions(const cv::Mat3b& img, double threshold, bool visualize)
{
    std::vector<LabelContour> labels = findLabelContours(img, threshold, visualize);

    printf("Num labels: %lu\n", labels.size());
    fflush(stdout);

    if (visualize)
    {
        cv::Mat3b canvas = img * 0.25f;
        drawLabels(canvas, labels, cv::Scalar(255, 255, 255));
        cv::imshow("detected labels", canvas);
    }

    // Connect labels with each other in order to associate them.
    std::vector<std::vector<LabelContour>> grouped_labels;
    std::vector<std::vector<cv::Point2f>> spatial_indices;

    std::tie(grouped_labels, spatial_indices) = connectLabelContours(labels, visualize);

    Camera cam;
    try
    {
        cam = solveCamera(grouped_labels, spatial_indices, img.size());
    }
    catch (cv::Exception)
    {
        return {};
    }

    return projectCube(cam);
}
示例#8
0
 void apply_mask(cv::Mat3b& im, const cv::Mat1b& mask)
 {
   if (!mask.data)
     return;
   ntk_assert(im.size() == mask.size(), "Wrong mask size");
   for_all_rc(im)
     if (mask(r,c) == 0)
       im(r,c) = Vec3b(0,0,0);
 }
示例#9
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void BlendScreen(cv::Mat3b& target_image, const cv::Mat1b& binary_image, cv::Vec3b color) {

	assert(target_image.size() == binary_image.size());

	cv::Size loop_size = target_image.size();
	if(target_image.isContinuous() && binary_image.isContinuous()) {
		loop_size.width *= loop_size.height;
		loop_size.height = 1;
	}
	for(int i = 0; i < loop_size.height; ++i) {
		cv::Vec3b* target = target_image.ptr<cv::Vec3b>(i);
		const unsigned char* binary = binary_image.ptr<unsigned char>(i);
		for(int j = 0; j < loop_size.width; ++j) {
			if(!binary[j]) {
				target[j][0] = target[j][0] + color[0] - (target[j][0] * color[0]) / 255;
				target[j][1] = target[j][1] + color[1] - (target[j][1] * color[1]) / 255;
				target[j][2] = target[j][2] + color[2] - (target[j][2] * color[2]) / 255;
			}
		}
	}
}
示例#10
0
void ImageWidget :: setImage(const cv::Mat3b& im)
{
    if (m_image.width() != im.cols
      || m_image.height() != im.rows)
    m_image = QImage(im.cols, im.rows, QImage::Format_RGB32);

  for (int r = 0; r < im.rows; ++r)
  {
    QRgb* ptr = (QRgb*) m_image.scanLine(r);
    const uchar* cv_ptr = im.ptr(r);
    for (int i = 0; i < im.cols; ++i)
    {
      int rgb = 0xff << 24;
      rgb |= (*cv_ptr++);
      rgb |= ((*cv_ptr++) << 8);
      rgb |= ((*cv_ptr++) << 16);
      *ptr++ = rgb;
    }
  }
  update();
}
示例#11
0
std::vector<cv::Scalar> readLabelColors(const cv::Mat3b img, const std::vector<cv::Point2f>& points)
{
    std::vector<cv::Scalar> label_colors;
    cv::Rect img_rect(cv::Point(0,0), img.size());
    for (const auto& p :points)
    {
        if (img_rect.contains(p))
        {
            label_colors.push_back(img(p));
        }
    }

    if (label_colors.size() == 9*3)
    {
        return label_colors;
    }
    else
    {
        return {};
    }
}