void RGBDFrameRecorder :: writeFrame(const RGBDImage& image, const std::string& frame_dir)
{
std::string raw_frame_dir = format("%s/raw", frame_dir.c_str(), m_frame_index);
QDir dir (frame_dir.c_str());
dir.mkpath("raw");
std::string filename;
if (m_save_rgb_pose && image.calibration())
{
filename = cv::format("%s/rgb_pose.avs", frame_dir.c_str());
image.rgbPose().saveToAvsFile(filename.c_str());
}
if (!m_only_raw)
{
filename = cv::format("%s/color.png", frame_dir.c_str());
imwrite(filename, image.rgb());
}
if (m_save_pcl_point_cloud)
{
filename = cv::format("%s/cloud.pcd", frame_dir.c_str());
#ifdef NESTK_USE_PCL
pcl::PointCloud<pcl::PointXYZ> cloud;
rgbdImageToPointCloud(cloud, image);
pcl::io::savePCDFileASCII(filename.c_str(), cloud);
#endif
}
if (m_use_compressed_format)
filename = cv::format("%s/raw/color.png", frame_dir.c_str());
else
filename = cv::format("%s/raw/color.bmp", frame_dir.c_str());
imwrite(filename, image.rawRgb());
if (!m_only_raw && image.mappedDepth().data)
{
filename = cv::format("%s/mapped_depth.png", frame_dir.c_str());
imwrite_normalized(filename, image.mappedDepth());
filename = cv::format("%s/mapped_color.png", frame_dir.c_str());
imwrite(filename, image.mappedRgb());
filename = cv::format("%s/depth.yml", frame_dir.c_str());
imwrite_yml(filename, image.mappedDepth());
}
if (!m_only_raw)
{
filename = cv::format("%s/raw/depth.png", frame_dir.c_str());
if (image.rawDepth().data)
imwrite_normalized(filename.c_str(), image.rawDepth());
filename = cv::format("%s/depth.png", frame_dir.c_str());
if (image.depth().data)
imwrite_normalized(filename.c_str(), image.depth());
filename = cv::format("%s/intensity.png", frame_dir.c_str());
if (image.intensity().data)
imwrite_normalized(filename.c_str(), image.intensity());
}
if (image.rawDepth().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/depth.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawDepth());
}
else
{
filename = cv::format("%s/raw/depth.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawDepth());
}
}
if (m_save_intensity && image.rawIntensity().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/intensity.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawIntensity());
}
else
{
filename = cv::format("%s/raw/intensity.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawIntensity());
}
}
if (!m_only_raw)
{
filename = cv::format("%s/raw/amplitude.png", frame_dir.c_str());
if (image.rawAmplitude().data)
imwrite_normalized(filename.c_str(), image.rawAmplitude());
filename = cv::format("%s/amplitude.png", frame_dir.c_str());
if (image.amplitude().data)
imwrite_normalized(filename.c_str(), image.amplitude());
}
if (image.rawAmplitude().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/amplitude.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawAmplitude());
}
else
{
filename = cv::format("%s/raw/amplitude.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawAmplitude());
}
}
}
void MeshGenerator :: generateSurfelsMesh(const RGBDImage& image,
const Pose3D& depth_pose,
const Pose3D& rgb_pose)
{
double min_val = 0, max_val = 0;
if (image.amplitude().data)
minMaxLoc(image.amplitude(), &min_val, &max_val);
m_mesh.clear();
const cv::Mat1f& depth_im = image.depth();
const cv::Mat1b& mask_im = image.depthMask();
for_all_rc(depth_im)
{
int i_r = r;
int i_c = c;
if (!is_yx_in_range(depth_im, i_r, i_c))
continue;
if (!mask_im(r,c))
continue;
double depth = depth_im(i_r,i_c);
cv::Point3f p = depth_pose.unprojectFromImage(Point2f(c,r), depth);
Point3f normal = image.normal().data ? image.normal()(i_r, i_c) : Vec3f(0,0,1);
Vec3b color (0,0,0);
if (m_use_color)
{
cv::Point3f prgb = rgb_pose.projectToImage(p);
int i_y = ntk::math::rnd(prgb.y);
int i_x = ntk::math::rnd(prgb.x);
if (is_yx_in_range(image.rgb(), i_y, i_x))
{
Vec3b bgr = image.rgb()(i_y, i_x);
color = Vec3b(bgr[2], bgr[1], bgr[0]);
}
}
else
{
int g = 0;
if (image.amplitude().data)
g = 255.0 * (image.amplitude()(i_r,i_c) - min_val) / (max_val-min_val);
else
g = 255 * depth / 10.0;
color = Vec3b(g,g,g);
}
Surfel s;
s.color = color;
s.confidence = 0;
s.location = p;
s.normal = normal;
s.n_views = 1;
double normal_z = std::max(normal.z, 0.5f);
s.radius = m_resolution_factor * ntk::math::sqrt1_2 * depth
/ (depth_pose.focalX() * normal_z);
m_mesh.addSurfel(s);
}
}
void RGBDFrameRecorder :: saveCurrentFrame(const RGBDImage& image)
{
std::string frame_dir = format("%s/view%04d", m_dir.absolutePath().toStdString().c_str(), m_frame_index);
std::string raw_frame_dir = format("%s/raw", frame_dir.c_str(), m_frame_index);
QDir dir (frame_dir.c_str());
dir.mkpath("raw");
std::string filename;
if (!m_only_raw)
{
filename = cv::format("%s/color.png", frame_dir.c_str());
imwrite(filename, image.rgb());
}
filename = cv::format("%s/raw/color.png", frame_dir.c_str());
imwrite(filename, image.rawRgb());
if (!m_only_raw && image.mappedDepth().data)
{
filename = cv::format("%s/mapped_depth.png", frame_dir.c_str());
imwrite_normalized(filename, image.mappedDepth());
filename = cv::format("%s/mapped_color.png", frame_dir.c_str());
imwrite(filename, image.mappedRgb());
filename = cv::format("%s/depth.yml", frame_dir.c_str());
imwrite_yml(filename, image.mappedDepth());
}
if (!m_only_raw)
{
filename = cv::format("%s/raw/depth.png", frame_dir.c_str());
if (image.rawDepth().data)
imwrite_normalized(filename.c_str(), image.rawDepth());
filename = cv::format("%s/depth.png", frame_dir.c_str());
if (image.depth().data)
imwrite_normalized(filename.c_str(), image.depth());
filename = cv::format("%s/intensity.png", frame_dir.c_str());
if (image.intensity().data)
imwrite_normalized(filename.c_str(), image.intensity());
}
if (image.rawDepth().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/depth.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawDepth());
}
else
{
filename = cv::format("%s/raw/depth.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawDepth());
}
}
if (image.rawIntensity().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/intensity.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawIntensity());
}
else
{
filename = cv::format("%s/raw/intensity.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawIntensity());
}
}
if (!m_only_raw)
{
filename = cv::format("%s/raw/amplitude.png", frame_dir.c_str());
if (image.rawAmplitude().data)
imwrite_normalized(filename.c_str(), image.rawAmplitude());
filename = cv::format("%s/amplitude.png", frame_dir.c_str());
if (image.amplitude().data)
imwrite_normalized(filename.c_str(), image.amplitude());
}
if (image.rawAmplitude().data)
{
if (m_use_binary_raw)
{
filename = cv::format("%s/raw/amplitude.raw", frame_dir.c_str());
imwrite_Mat1f_raw(filename.c_str(), image.rawAmplitude());
}
else
{
filename = cv::format("%s/raw/amplitude.yml", frame_dir.c_str());
imwrite_yml(filename.c_str(), image.rawAmplitude());
}
}
++m_frame_index;
}
