opencv/modules/videostab/src/stabilizer.cpp

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2012-03-19 22:13:33 +08:00
/*M///////////////////////////////////////////////////////////////////////////////////////
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// For Open Source Computer Vision Library
//
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#include "precomp.hpp"
#include "opencv2/videostab/stabilizer.hpp"
using namespace std;
namespace cv
{
namespace videostab
{
Stabilizer::Stabilizer()
{
setFrameSource(new NullFrameSource());
setMotionEstimator(new PyrLkRobustMotionEstimator());
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setMotionFilter(new GaussianMotionFilter(15, sqrt(15.f)));
setDeblurer(new NullDeblurer());
setInpainter(new NullInpainter());
setEstimateTrimRatio(true);
setTrimRatio(0);
setInclusionConstraint(false);
setBorderMode(BORDER_REPLICATE);
setLog(new NullLog());
}
void Stabilizer::reset()
{
radius_ = 0;
curPos_ = -1;
curStabilizedPos_ = -1;
auxPassWasDone_ = false;
frames_.clear();
motions_.clear();
stabilizedFrames_.clear();
stabilizationMotions_.clear();
doDeblurring_ = false;
doInpainting_ = false;
}
Mat Stabilizer::nextFrame()
{
if (mustEstimateTrimRatio_ && !auxPassWasDone_)
{
estimateMotionsAndTrimRatio();
auxPassWasDone_ = true;
frameSource_->reset();
}
if (curStabilizedPos_ == curPos_ && curStabilizedPos_ != -1)
return Mat(); // we've processed all frames already
bool processed;
do {
processed = processNextFrame();
} while (processed && curStabilizedPos_ == -1);
if (curStabilizedPos_ == -1)
return Mat(); // frame source is empty
const Mat &stabilizedFrame = at(curStabilizedPos_, stabilizedFrames_);
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int dx = static_cast<int>(floor(trimRatio_ * stabilizedFrame.cols));
int dy = static_cast<int>(floor(trimRatio_ * stabilizedFrame.rows));
return stabilizedFrame(Rect(dx, dy, stabilizedFrame.cols - 2*dx, stabilizedFrame.rows - 2*dy));
}
void Stabilizer::estimateMotionsAndTrimRatio()
{
log_->print("estimating motions and trim ratio");
Size size;
Mat prevFrame, frame;
int frameCount = 0;
while (!(frame = frameSource_->nextFrame()).empty())
{
if (frameCount > 0)
motions_.push_back(motionEstimator_->estimate(prevFrame, frame));
else
size = frame.size();
prevFrame = frame;
frameCount++;
log_->print(".");
}
radius_ = motionFilter_->radius();
for (int i = 0; i < radius_; ++i)
motions_.push_back(Mat::eye(3, 3, CV_32F));
log_->print("\n");
trimRatio_ = 0;
for (int i = 0; i < frameCount; ++i)
{
Mat S = motionFilter_->apply(i, motions_);
trimRatio_ = std::max(trimRatio_, estimateOptimalTrimRatio(S, size));
stabilizationMotions_.push_back(S);
}
log_->print("estimated trim ratio: %f\n", static_cast<double>(trimRatio_));
}
void Stabilizer::processFirstFrame(Mat &frame)
{
log_->print("processing frames");
frameSize_ = frame.size();
frameMask_.create(frameSize_, CV_8U);
frameMask_.setTo(255);
radius_ = motionFilter_->radius();
int cacheSize = 2*radius_ + 1;
frames_.resize(cacheSize);
stabilizedFrames_.resize(cacheSize);
stabilizedMasks_.resize(cacheSize);
if (!auxPassWasDone_)
{
motions_.resize(cacheSize);
stabilizationMotions_.resize(cacheSize);
}
for (int i = -radius_; i < 0; ++i)
{
at(i, motions_) = Mat::eye(3, 3, CV_32F);
at(i, frames_) = frame;
}
at(0, frames_) = frame;
IInpainter *inpainter = static_cast<IInpainter*>(inpainter_);
doInpainting_ = dynamic_cast<NullInpainter*>(inpainter) == 0;
if (doInpainting_)
{
inpainter_->setRadius(radius_);
inpainter_->setFrames(frames_);
inpainter_->setMotions(motions_);
inpainter_->setStabilizedFrames(stabilizedFrames_);
inpainter_->setStabilizationMotions(stabilizationMotions_);
}
IDeblurer *deblurer = static_cast<IDeblurer*>(deblurer_);
doDeblurring_ = dynamic_cast<NullDeblurer*>(deblurer) == 0;
if (doDeblurring_)
{
blurrinessRates_.resize(cacheSize);
float blurriness = calcBlurriness(frame);
for (int i = -radius_; i <= 0; ++i)
at(i, blurrinessRates_) = blurriness;
deblurer_->setRadius(radius_);
deblurer_->setFrames(frames_);
deblurer_->setMotions(motions_);
deblurer_->setBlurrinessRates(blurrinessRates_);
}
}
bool Stabilizer::processNextFrame()
{
Mat frame = frameSource_->nextFrame();
if (!frame.empty())
{
curPos_++;
if (curPos_ > 0)
{
at(curPos_, frames_) = frame;
if (doDeblurring_)
at(curPos_, blurrinessRates_) = calcBlurriness(frame);
if (!auxPassWasDone_)
{
Mat motionPrevToCur = motionEstimator_->estimate(
at(curPos_ - 1, frames_), at(curPos_, frames_));
at(curPos_ - 1, motions_) = motionPrevToCur;
}
if (curPos_ >= radius_)
{
curStabilizedPos_ = curPos_ - radius_;
stabilizeFrame(curStabilizedPos_);
}
}
else
processFirstFrame(frame);
log_->print(".");
return true;
}
if (curStabilizedPos_ < curPos_)
{
curStabilizedPos_++;
at(curStabilizedPos_ + radius_, frames_) = at(curPos_, frames_);
at(curStabilizedPos_ + radius_ - 1, motions_) = at(curPos_ - 1, motions_);
stabilizeFrame(curStabilizedPos_);
log_->print(".");
return true;
}
return false;
}
void Stabilizer::stabilizeFrame(int idx)
{
Mat stabMotion;
if (!auxPassWasDone_)
stabMotion = motionFilter_->apply(idx, motions_);
else
stabMotion = at(idx, stabilizationMotions_);
if (inclusionConstraint_ && !mustEstimateTrimRatio_)
stabMotion = ensureInclusionConstraint(stabMotion, frameSize_, trimRatio_);
at(idx, stabilizationMotions_) = stabMotion;
if (doDeblurring_)
{
at(idx, frames_).copyTo(preProcessedFrame_);
deblurer_->deblur(idx, preProcessedFrame_);
}
else
preProcessedFrame_ = at(idx, frames_);
// apply stabilization transformation
warpAffine(
preProcessedFrame_, at(idx, stabilizedFrames_), stabMotion(Rect(0,0,3,2)),
frameSize_, INTER_LINEAR, borderMode_);
if (doInpainting_)
{
warpAffine(
frameMask_, at(idx, stabilizedMasks_), stabMotion(Rect(0,0,3,2)), frameSize_,
INTER_NEAREST);
erode(at(idx, stabilizedMasks_), at(idx, stabilizedMasks_), Mat());
at(idx, stabilizedMasks_).copyTo(inpaintingMask_);
inpainter_->inpaint(idx, at(idx, stabilizedFrames_), inpaintingMask_);
}
}
} // namespace videostab
} // namespace cv