opencv/modules/softcascade/include/opencv2/softcascade.hpp
Vladislav Vinogradov fd88654b45 replaced GPU -> CUDA
2013-09-02 14:00:44 +04:00

301 lines
11 KiB
C++

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#ifndef __OPENCV_SOFTCASCADE_HPP__
#define __OPENCV_SOFTCASCADE_HPP__
#include <iosfwd>
#include "opencv2/core.hpp"
#include "opencv2/core/cuda.hpp"
namespace cv { namespace softcascade {
// Representation of detectors result.
// We assume that image is less then 2^16x2^16.
struct CV_EXPORTS Detection
{
// Creates Detection from an object bounding box and confidence.
// Param b is a bounding box
// Param c is a confidence that object belongs to class k
// Param k is an object class
Detection(const cv::Rect& b, const float c, int k = PEDESTRIAN);
cv::Rect bb() const;
enum {PEDESTRIAN = 1};
ushort x;
ushort y;
ushort w;
ushort h;
float confidence;
int kind;
};
class CV_EXPORTS Dataset
{
public:
typedef enum {POSITIVE = 1, NEGATIVE = 2} SampleType;
virtual cv::Mat get(SampleType type, int idx) const = 0;
virtual int available(SampleType type) const = 0;
virtual ~Dataset();
};
// ========================================================================== //
// Public interface feature pool.
// ========================================================================== //
class CV_EXPORTS FeaturePool
{
public:
virtual int size() const = 0;
virtual float apply(int fi, int si, const Mat& channels) const = 0;
virtual void write( cv::FileStorage& fs, int index) const = 0;
virtual ~FeaturePool();
static cv::Ptr<FeaturePool> create(const cv::Size& model, int nfeatures, int nchannels );
};
// ========================================================================== //
// First order channel feature.
// ========================================================================== //
class CV_EXPORTS ChannelFeature
{
public:
ChannelFeature(int x, int y, int w, int h, int ch);
~ChannelFeature();
bool operator ==(ChannelFeature b);
bool operator !=(ChannelFeature b);
float operator() (const cv::Mat& integrals, const cv::Size& model) const;
friend void write(cv::FileStorage& fs, const String&, const ChannelFeature& f);
friend std::ostream& operator<<(std::ostream& out, const ChannelFeature& f);
private:
cv::Rect bb;
int channel;
};
void write(cv::FileStorage& fs, const String&, const ChannelFeature& f);
std::ostream& operator<<(std::ostream& out, const ChannelFeature& m);
// ========================================================================== //
// Public Interface for Integral Channel Feature.
// ========================================================================== //
class CV_EXPORTS_W ChannelFeatureBuilder : public cv::Algorithm
{
public:
virtual ~ChannelFeatureBuilder();
// apply channels to source frame
CV_WRAP_AS(compute) virtual void operator()(InputArray src, OutputArray channels, cv::Size channelsSize = cv::Size()) const = 0;
CV_WRAP virtual int totalChannels() const = 0;
virtual cv::AlgorithmInfo* info() const = 0;
CV_WRAP static cv::Ptr<ChannelFeatureBuilder> create(const String& featureType);
};
// ========================================================================== //
// Implementation of soft (stageless) cascaded detector.
// ========================================================================== //
class CV_EXPORTS_W Detector : public cv::Algorithm
{
public:
enum { NO_REJECT = 1, DOLLAR = 2, /*PASCAL = 4,*/ DEFAULT = NO_REJECT};
// An empty cascade will be created.
// Param minScale is a minimum scale relative to the original size of the image on which cascade will be applied.
// Param minScale is a maximum scale relative to the original size of the image on which cascade will be applied.
// Param scales is a number of scales from minScale to maxScale.
// Param rejCriteria is used for NMS.
CV_WRAP Detector(double minScale = 0.4, double maxScale = 5., int scales = 55, int rejCriteria = 1);
CV_WRAP virtual ~Detector();
cv::AlgorithmInfo* info() const;
// Load soft cascade from FileNode.
// Param fileNode is a root node for cascade.
CV_WRAP virtual bool load(const FileNode& fileNode);
// Load soft cascade config.
CV_WRAP virtual void read(const FileNode& fileNode);
// Return the vector of Detection objects.
// Param image is a frame on which detector will be applied.
// Param rois is a vector of regions of interest. Only the objects that fall into one of the regions will be returned.
// Param objects is an output array of Detections
virtual void detect(InputArray image, InputArray rois, std::vector<Detection>& objects) const;
// Param rects is an output array of bounding rectangles for detected objects.
// Param confs is an output array of confidence for detected objects. i-th bounding rectangle corresponds i-th confidence.
CV_WRAP virtual void detect(InputArray image, InputArray rois, OutputArray rects, OutputArray confs) const;
private:
void detectNoRoi(const Mat& image, std::vector<Detection>& objects) const;
struct Fields;
Fields* fields;
double minScale;
double maxScale;
int scales;
int rejCriteria;
};
// ========================================================================== //
// Public Interface for singe soft (stageless) cascade octave training.
// ========================================================================== //
class CV_EXPORTS Octave : public cv::Algorithm
{
public:
enum
{
// Direct backward pruning. (Cha Zhang and Paul Viola)
DBP = 1,
// Multiple instance pruning. (Cha Zhang and Paul Viola)
MIP = 2,
// Originally proposed by L. Bourdev and J. Brandt
HEURISTIC = 4
};
virtual ~Octave();
static cv::Ptr<Octave> create(cv::Rect boundingBox, int npositives, int nnegatives,
int logScale, int shrinkage, cv::Ptr<ChannelFeatureBuilder> builder);
virtual bool train(const Dataset* dataset, const FeaturePool* pool, int weaks, int treeDepth) = 0;
virtual void setRejectThresholds(OutputArray thresholds) = 0;
virtual void write( cv::FileStorage &fs, const FeaturePool* pool, InputArray thresholds) const = 0;
virtual void write( CvFileStorage* fs, String name) const = 0;
};
CV_EXPORTS bool initModule_softcascade(void);
// ======================== CUDA version for soft cascade ===================== //
class CV_EXPORTS ChannelsProcessor
{
public:
enum
{
// GENERIC = 1 << 4, does not supported
SEPARABLE = 2 << 4
};
// Appends specified number of HOG first-order features integrals into given vector.
// Param frame is an input 3-channel bgr image.
// Param channels is a GPU matrix of optionally shrinked channels
// Param stream is stream is a high-level CUDA stream abstraction used for asynchronous execution.
virtual void apply(InputArray frame, OutputArray channels, cv::cuda::Stream& stream = cv::cuda::Stream::Null()) = 0;
// Creates a specific preprocessor implementation.
// Param shrinkage is a resizing factor. Resize is applied before the computing integral sum
// Param bins is a number of HOG-like channels.
// Param flags is a channel computing extra flags.
static cv::Ptr<ChannelsProcessor> create(const int shrinkage, const int bins, const int flags = SEPARABLE);
virtual ~ChannelsProcessor();
protected:
ChannelsProcessor();
};
// Implementation of soft (stage-less) cascaded detector.
class CV_EXPORTS SCascade : public cv::Algorithm
{
public:
enum { NO_REJECT = 1, DOLLAR = 2, /*PASCAL = 4,*/ DEFAULT = NO_REJECT, NMS_MASK = 0xF};
// An empty cascade will be created.
// Param minScale is a minimum scale relative to the original size of the image on which cascade will be applied.
// Param minScale is a maximum scale relative to the original size of the image on which cascade will be applied.
// Param scales is a number of scales from minScale to maxScale.
// Param flags is an extra tuning flags.
SCascade(const double minScale = 0.4, const double maxScale = 5., const int scales = 55,
const int flags = NO_REJECT | ChannelsProcessor::SEPARABLE);
virtual ~SCascade();
cv::AlgorithmInfo* info() const;
// Load cascade from FileNode.
// Param fn is a root node for cascade. Should be <cascade>.
virtual bool load(const FileNode& fn);
// Load cascade config.
virtual void read(const FileNode& fn);
// Return the matrix of of detected objects.
// Param image is a frame on which detector will be applied.
// Param rois is a regions of interests mask generated by genRoi.
// Only the objects that fall into one of the regions will be returned.
// Param objects is an output array of Detections represented as GpuMat of detections (SCascade::Detection)
// The first element of the matrix is actually a count of detections.
// Param stream is stream is a high-level CUDA stream abstraction used for asynchronous execution
virtual void detect(InputArray image, InputArray rois, OutputArray objects, cv::cuda::Stream& stream = cv::cuda::Stream::Null()) const;
private:
struct Fields;
Fields* fields;
double minScale;
double maxScale;
int scales;
int flags;
};
}} // namespace cv { namespace softcascade {
#endif