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Commit 706a065d authored by Alexey Spizhevoy's avatar Alexey Spizhevoy
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memory optimizations in opencv_stitching

parent 90ece0b8
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Showing with 98 additions and 41 deletions
modules/stitching/main.cpp
View file @ 706a065d
......@@ -198,6 +198,7 @@ int main(int argc, char* argv[])
LOGLN("Reading images and finding features...");
t = getTickCount();
vector<Mat> images(num_images);
vector<ImageFeatures> features(num_images);
SurfFeaturesFinder finder(trygpu);
Mat full_img, img;
......@@ -220,8 +221,11 @@ int main(int argc, char* argv[])
}
resize(full_img, img, Size(), work_scale, work_scale);
}
images[i] = img.clone();
finder(img, features[i]);
}
full_img.release();
img.release();
LOGLN("Reading images and finding features, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
LOGLN("Pairwise matching... ");
......@@ -234,9 +238,14 @@ int main(int argc, char* argv[])
LOGLN("Pairwise matching, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
vector<int> indices = leaveBiggestComponent(features, pairwise_matches, conf_thresh);
vector<Mat> img_subset;
vector<string> img_names_subset;
for (size_t i = 0; i < indices.size(); ++i)
{
img_subset.push_back(images[indices[i]]);
img_names_subset.push_back(img_names[indices[i]]);
}
images = img_subset;
img_names = img_names_subset;
num_images = static_cast<int>(img_names.size());
......@@ -290,41 +299,21 @@ int main(int argc, char* argv[])
nth_element(focals.begin(), focals.end(), focals.begin() + focals.size() / 2);
float camera_focal = static_cast<float>(focals[focals.size() / 2]);
vector<Mat> images(num_images);
LOGLN("Compose scaling...");
LOGLN("Warping images (auxiliary)... ");
t = getTickCount();
for (int i = 0; i < num_images; ++i)
{
Mat full_img = imread(img_names[i]);
if (!is_compose_scale_set)
{
compose_scale = min(1.0, sqrt(compose_megapix * 1e6 / full_img.size().area()));
is_compose_scale_set = true;
}
Mat img;
resize(full_img, img, Size(), compose_scale, compose_scale);
images[i] = img;
cameras[i].focal *= compose_scale / work_scale;
}
camera_focal *= static_cast<float>(compose_scale / work_scale);
LOGLN("Compose scaling, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
vector<Point> corners(num_images);
vector<Mat> masks_warped(num_images);
vector<Mat> images_warped(num_images);
vector<Size> sizes(num_images);
vector<Mat> masks(num_images);
for (int i = 0; i < num_images; ++i)
{
masks[i].create(images[i].size(), CV_8U);
masks[i].setTo(Scalar::all(255));
}
vector<Point> corners(num_images);
vector<Size> sizes(num_images);
vector<Mat> masks_warped(num_images);
vector<Mat> images_warped(num_images);
LOGLN("Warping images... ");
t = getTickCount();
Ptr<Warper> warper = Warper::createByCameraFocal(camera_focal, warp_type);
for (int i = 0; i < num_images; ++i)
{
......@@ -335,38 +324,105 @@ int main(int argc, char* argv[])
INTER_NEAREST, BORDER_CONSTANT);
}
vector<Mat> images_f(num_images);
vector<Mat> images_warped_f(num_images);
for (int i = 0; i < num_images; ++i)
images_warped[i].convertTo(images_f[i], CV_32F);
images_warped[i].convertTo(images_warped_f[i], CV_32F);
LOGLN("Warping images, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
LOGLN("Finding seams...");
t = getTickCount();
Ptr<SeamFinder> seam_finder = SeamFinder::createDefault(seam_find_type);
seam_finder->find(images_f, corners, masks_warped);
seam_finder->find(images_warped_f, corners, masks_warped);
LOGLN("Finding seams, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
LOGLN("Blending images...");
// Release unused memory
images.clear();
images_warped.clear();
images_warped_f.clear();
masks.clear();
LOGLN("Compositing...");
t = getTickCount();
Ptr<Blender> blender = Blender::createDefault(blend_type);
Mat img_warped, img_warped_f;
Mat dilated_mask, seam_mask, mask, mask_warped;
Ptr<Blender> blender;
double compose_aspect = 1;
if (blend_type == Blender::MULTI_BAND)
for (int img_idx = 0; img_idx < num_images; ++img_idx)
{
// Ensure last pyramid layer area is about 1 pix
MultiBandBlender* mb = dynamic_cast<MultiBandBlender*>((Blender*)(blender));
mb->setNumBands(static_cast<int>(ceil(log(static_cast<double>(images_f[0].size().area())) / log(4.0))));
LOGLN("Multi-band blending num. bands: " << mb->numBands());
}
LOGLN("Compositing image #" << img_idx);
blender->prepare(corners, sizes);
for (int i = 0; i < num_images; ++i)
blender->feed(images_f[i], masks_warped[i], corners[i]);
// Read image and resize it if necessary
full_img = imread(img_names[img_idx]);
if (!is_compose_scale_set)
{
if (compose_megapix > 0)
compose_scale = min(1.0, sqrt(compose_megapix * 1e6 / full_img.size().area()));
is_compose_scale_set = true;
compose_aspect = compose_scale / work_scale;
camera_focal *= static_cast<float>(compose_aspect);
warper = Warper::createByCameraFocal(camera_focal, warp_type);
}
if (abs(compose_scale - 1) > 1e-1)
resize(full_img, img, Size(), compose_scale, compose_scale);
else
img = full_img;
full_img.release();
// Update cameras paramters
cameras[img_idx].focal *= compose_aspect;
// Warp the current image
warper->warp(img, static_cast<float>(cameras[img_idx].focal), cameras[img_idx].R,
img_warped);
img_warped.convertTo(img_warped_f, CV_32F);
img_warped.release();
// Warp current image mask
mask.create(img.size(), CV_8U);
mask.setTo(Scalar::all(255));
warper->warp(mask, static_cast<float>(cameras[img_idx].focal), cameras[img_idx].R, mask_warped,
INTER_NEAREST, BORDER_CONSTANT);
mask.release();
dilate(masks_warped[img_idx], dilated_mask, Mat());
resize(dilated_mask, seam_mask, mask_warped.size());
mask_warped = seam_mask & mask_warped;
if (static_cast<Blender*>(blender) == 0)
{
// Create blender
blender = Blender::createDefault(blend_type);
if (blend_type == Blender::MULTI_BAND)
{
// Ensure last pyramid layer area is about 1 pix
MultiBandBlender* mb = dynamic_cast<MultiBandBlender*>(static_cast<Blender*>(blender));
mb->setNumBands(static_cast<int>(ceil(log(static_cast<double>(img_warped_f.size().area())) / log(4.0))));
}
// Determine the final image size
Rect dst_roi = resultRoi(corners, sizes);
for (int i = 0; i < num_images; ++i)
{
corners[i] = dst_roi.tl() + (corners[i] - dst_roi.tl()) * compose_aspect;
sizes[i] = Size(static_cast<int>((sizes[i].width + 1) * compose_aspect),
static_cast<int>((sizes[i].height + 1) * compose_aspect));
}
blender->prepare(corners, sizes);
}
// Blend the current image
blender->feed(img_warped_f, mask_warped, corners[img_idx]);
}
Mat result, result_mask;
blender->blend(result, result_mask);
LOGLN("Blending images, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
LOGLN("Compositing, time: " << ((getTickCount() - t) / getTickFrequency()) << " sec");
imwrite(result_name, result);
......@@ -374,3 +430,4 @@ int main(int argc, char* argv[])
return 0;
}
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