zoneminder/src/zm_zone.h

177 lines
7.2 KiB
C++

//
// ZoneMinder Zone Class Interfaces, $Date$, $Revision$
// Copyright (C) 2001-2008 Philip Coombes
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//
#ifndef ZM_ZONE_H
#define ZM_ZONE_H
#include "zm_rgb.h"
#include "zm_coord.h"
#include "zm_poly.h"
#include "zm_image.h"
#include "zm_event.h"
class Monitor;
//
// This describes a 'zone', or an area of an image that has certain
// detection characteristics.
//
class Zone
{
protected:
struct Range
{
int lo_x;
int hi_x;
int off_x;
};
public:
typedef enum { ACTIVE=1, INCLUSIVE, EXCLUSIVE, PRECLUSIVE, INACTIVE, PRIVACY } ZoneType;
typedef enum { ALARMED_PIXELS=1, FILTERED_PIXELS, BLOBS } CheckMethod;
protected:
// Inputs
Monitor *monitor;
int id;
char *label;
ZoneType type;
Polygon polygon;
Rgb alarm_rgb;
CheckMethod check_method;
int min_pixel_threshold;
int max_pixel_threshold;
int min_alarm_pixels;
int max_alarm_pixels;
Coord filter_box;
int min_filter_pixels;
int max_filter_pixels;
int min_blob_pixels;
int max_blob_pixels;
int min_blobs;
int max_blobs;
int overload_frames;
int extend_alarm_frames;
// Outputs/Statistics
bool alarmed;
int pixel_diff;
unsigned int alarm_pixels;
int alarm_filter_pixels;
int alarm_blob_pixels;
int alarm_blobs;
int min_blob_size;
int max_blob_size;
Box alarm_box;
Coord alarm_centre;
unsigned int score;
Image *pg_image;
Range *ranges;
Image *image;
int overload_count;
int extend_alarm_count;
protected:
void Setup( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold, int p_max_pixel_threshold, int p_min_alarm_pixels, int p_max_alarm_pixels, const Coord &p_filter_box, int p_min_filter_pixels, int p_max_filter_pixels, int p_min_blob_pixels, int p_max_blob_pixels, int p_min_blobs, int p_max_blobs, int p_overload_frames, int p_extend_alarm_frames );
void std_alarmedpixels(Image* pdiff_image, const Image* ppoly_image, unsigned int* pixel_count, unsigned int* pixel_sum);
public:
Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0 )
{
Setup( p_monitor, p_id, p_label, p_type, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames );
}
Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon, const Rgb p_alarm_rgb, CheckMethod p_check_method, int p_min_pixel_threshold=15, int p_max_pixel_threshold=0, int p_min_alarm_pixels=50, int p_max_alarm_pixels=75000, const Coord &p_filter_box=Coord( 3, 3 ), int p_min_filter_pixels=50, int p_max_filter_pixels=50000, int p_min_blob_pixels=10, int p_max_blob_pixels=0, int p_min_blobs=0, int p_max_blobs=0, int p_overload_frames=0, int p_extend_alarm_frames=0)
{
Setup( p_monitor, p_id, p_label, Zone::ACTIVE, p_polygon, p_alarm_rgb, p_check_method, p_min_pixel_threshold, p_max_pixel_threshold, p_min_alarm_pixels, p_max_alarm_pixels, p_filter_box, p_min_filter_pixels, p_max_filter_pixels, p_min_blob_pixels, p_max_blob_pixels, p_min_blobs, p_max_blobs, p_overload_frames, p_extend_alarm_frames );
}
Zone( Monitor *p_monitor, int p_id, const char *p_label, const Polygon &p_polygon )
{
Setup( p_monitor, p_id, p_label, Zone::INACTIVE, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 );
}
Zone( Monitor *p_monitor, int p_id, const char *p_label, ZoneType p_type, const Polygon &p_polygon )
{
Setup( p_monitor, p_id, p_label, p_type, p_polygon, RGB_BLACK, (Zone::CheckMethod)0, 0, 0, 0, 0, Coord( 0, 0 ), 0, 0, 0, 0, 0, 0, 0, 0 );
}
public:
~Zone();
inline int Id() const { return( id ); }
inline const char *Label() const { return( label ); }
inline ZoneType Type() const { return( type ); }
inline bool IsActive() const { return( type == ACTIVE ); }
inline bool IsInclusive() const { return( type == INCLUSIVE ); }
inline bool IsExclusive() const { return( type == EXCLUSIVE ); }
inline bool IsPreclusive() const { return( type == PRECLUSIVE ); }
inline bool IsInactive() const { return( type == INACTIVE ); }
inline bool IsPrivacy() const { return( type == PRIVACY ); }
inline const Image *AlarmImage() const { return( image ); }
inline const Polygon &GetPolygon() const { return( polygon ); }
inline bool Alarmed() const { return( alarmed ); }
inline void SetAlarm() { alarmed = true; }
inline void ClearAlarm() { alarmed = false; }
inline Coord GetAlarmCentre() const { return( alarm_centre ); }
inline unsigned int Score() const { return( score ); }
inline void ResetStats()
{
alarmed = false;
pixel_diff = 0;
alarm_pixels = 0;
alarm_filter_pixels = 0;
alarm_blob_pixels = 0;
alarm_blobs = 0;
min_blob_size = 0;
max_blob_size = 0;
score = 0;
}
void RecordStats( const Event *event );
bool CheckAlarms( const Image *delta_image );
bool DumpSettings( char *output, bool verbose );
static bool ParsePolygonString( const char *polygon_string, Polygon &polygon );
static bool ParseZoneString( const char *zone_string, int &zone_id, int &colour, Polygon &polygon );
static int Load( Monitor *monitor, Zone **&zones );
//=================================================
bool CheckOverloadCount();
int GetOverloadCount();
void SetOverloadCount(int nOverCount);
int GetOverloadFrames();
//=================================================
bool CheckExtendAlarmCount();
int GetExtendAlarmCount();
void SetExtendAlarmCount(int nOverCount);
int GetExtendAlarmFrames();
void SetScore(unsigned int nScore);
void SetAlarmImage(const Image* srcImage);
inline const Image *getPgImage() const { return( pg_image ); }
inline const Range *getRanges() const { return( ranges ); }
};
#endif // ZM_ZONE_H