Open Source Computer Vision Library https://opencv.org/
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/*M///////////////////////////////////////////////////////////////////////////////////////
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// License Agreement
// For Open Source Computer Vision Library
//
// Copyright (C) 2000-2008, Intel Corporation, all rights reserved.
// Copyright (C) 2008-2013, Willow Garage Inc., all rights reserved.
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#include "precomp.hpp"
namespace {
using namespace cv::softcascade;
class HOG6MagLuv : public ChannelFeatureBuilder
{
enum {N_CHANNELS = 10};
public:
virtual ~HOG6MagLuv() {}
virtual cv::AlgorithmInfo* info() const;
virtual int totalChannels() const {return N_CHANNELS; }
virtual void operator()(cv::InputArray _frame, cv::OutputArray _integrals, cv::Size channelsSize) const
{
CV_Assert(_frame.type() == CV_8UC3);
cv::Mat frame = _frame.getMat();
int h = frame.rows;
int w = frame.cols;
if (channelsSize != cv::Size())
_integrals.create(channelsSize.height * N_CHANNELS + 1, channelsSize.width + 1, CV_32SC1);
if(_integrals.empty())
_integrals.create(frame.rows * N_CHANNELS + 1, frame.cols + 1, CV_32SC1);
cv::Mat& integrals = _integrals.getMatRef();
cv::Mat channels, gray;
channels.create(h * N_CHANNELS, w, CV_8UC1);
channels.setTo(0);
cvtColor(frame, gray, CV_BGR2GRAY);
cv::Mat df_dx, df_dy, mag, angle;
cv::Sobel(gray, df_dx, CV_32F, 1, 0);
cv::Sobel(gray, df_dy, CV_32F, 0, 1);
cv::cartToPolar(df_dx, df_dy, mag, angle, true);
mag *= (1.f / (8 * sqrt(2.f)));
cv::Mat nmag = channels(cv::Rect(0, h * (N_CHANNELS - 4), w, h));
mag.convertTo(nmag, CV_8UC1);
angle *= 6 / 360.f;
for (int y = 0; y < h; ++y)
{
uchar* magnitude = nmag.ptr<uchar>(y);
float* ang = angle.ptr<float>(y);
for (int x = 0; x < w; ++x)
{
channels.ptr<uchar>(y + (h * (int)ang[x]))[x] = magnitude[x];
}
}
cv::Mat luv, shrunk;
cv::cvtColor(frame, luv, CV_BGR2Luv);
std::vector<cv::Mat> splited;
for (int i = 0; i < 3; ++i)
splited.push_back(channels(cv::Rect(0, h * (7 + i), w, h)));
split(luv, splited);
cv::resize(channels, shrunk, cv::Size(integrals.cols - 1, integrals.rows - 1), -1 , -1, CV_INTER_AREA);
cv::integral(shrunk, integrals, cv::noArray(), CV_32S);
}
};
}
using cv::softcascade::ChannelFeatureBuilder;
using cv::softcascade::ChannelFeature;
CV_INIT_ALGORITHM(HOG6MagLuv, "ChannelFeatureBuilder.HOG6MagLuv", );
ChannelFeatureBuilder::~ChannelFeatureBuilder() {}
cv::Ptr<ChannelFeatureBuilder> ChannelFeatureBuilder::create(const std::string& featureType)
{
return Algorithm::create<ChannelFeatureBuilder>("ChannelFeatureBuilder." + featureType);
}
ChannelFeature::ChannelFeature(int x, int y, int w, int h, int ch)
: bb(cv::Rect(x, y, w, h)), channel(ch) {}
12 years ago
bool ChannelFeature::operator ==(ChannelFeature b)
{
return bb == b.bb && channel == b.channel;
}
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bool ChannelFeature::operator !=(ChannelFeature b)
{
return bb != b.bb || channel != b.channel;
}
float ChannelFeature::operator() (const cv::Mat& integrals, const cv::Size& model) const
{
int step = model.width + 1;
const int* ptr = integrals.ptr<int>(0) + (model.height * channel + bb.y) * step + bb.x;
int a = ptr[0];
int b = ptr[bb.width];
ptr += bb.height * step;
int c = ptr[bb.width];
int d = ptr[0];
return (float)(a - b + c - d);
}
void cv::softcascade::write(cv::FileStorage& fs, const std::string&, const ChannelFeature& f)
{
fs << "{" << "channel" << f.channel << "rect" << f.bb << "}";
}
std::ostream& cv::softcascade::operator<<(std::ostream& out, const ChannelFeature& m)
{
out << m.channel << " " << m.bb;
return out;
}
ChannelFeature::~ChannelFeature(){}
namespace {
using namespace cv::softcascade;
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class ChannelFeaturePool : public FeaturePool
{
public:
ChannelFeaturePool(cv::Size m, int n, int ch) : FeaturePool(), model(m), N_CHANNELS(ch)
{
CV_Assert(m != cv::Size() && n > 0 && (ch == 10 || ch == 8));
fill(n);
}
virtual int size() const { return (int)pool.size(); }
virtual float apply(int fi, int si, const cv::Mat& integrals) const;
virtual void write( cv::FileStorage& fs, int index) const;
virtual ~ChannelFeaturePool() {}
private:
void fill(int desired);
cv::Size model;
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std::vector<ChannelFeature> pool;
int N_CHANNELS;
};
float ChannelFeaturePool::apply(int fi, int si, const cv::Mat& integrals) const
{
return pool[fi](integrals.row(si), model);
}
void ChannelFeaturePool::write( cv::FileStorage& fs, int index) const
{
CV_Assert((index >= 0) && (index < (int)pool.size()));
fs << pool[index];
}
void ChannelFeaturePool::fill(int desired)
{
using namespace cv::softcascade::internal;
int mw = model.width;
int mh = model.height;
int maxPoolSize = (mw -1) * mw / 2 * (mh - 1) * mh / 2 * N_CHANNELS;
int nfeatures = std::min(desired, maxPoolSize);
pool.reserve(nfeatures);
Random::engine eng((Random::seed_type)FEATURE_RECT_SEED);
Random::engine eng_ch(DCHANNELS_SEED);
Random::uniform chRand(0, N_CHANNELS - 1);
Random::uniform xRand(0, model.width - 2);
Random::uniform yRand(0, model.height - 2);
Random::uniform wRand(1, model.width - 1);
Random::uniform hRand(1, model.height - 1);
while (pool.size() < size_t(nfeatures))
{
int x = xRand(eng);
int y = yRand(eng);
int w = 1 + wRand(eng, model.width - x - 1);
int h = 1 + hRand(eng, model.height - y - 1);
CV_Assert(w > 0);
CV_Assert(h > 0);
CV_Assert(w + x < model.width);
CV_Assert(h + y < model.height);
int ch = chRand(eng_ch);
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ChannelFeature f(x, y, w, h, ch);
if (std::find(pool.begin(), pool.end(),f) == pool.end())
{
pool.push_back(f);
}
}
}
}
cv::Ptr<FeaturePool> FeaturePool::create(const cv::Size& model, int nfeatures, int nchannels )
{
cv::Ptr<FeaturePool> pool(new ChannelFeaturePool(model, nfeatures, nchannels));
return pool;
}