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//
// ZoneMinder Zone Class Implementation, $Date$, $Revision$
// Copyright (C) 2003 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
//
# include "zm.h"
# include "zm_db.h"
# include "zm_zone.h"
# include "zm_image.h"
# include "zm_monitor.h"
void Zone : : Setup ( Monitor * p_monitor , int p_id , const char * p_label , ZoneType p_type , const Box & p_limits , const Rgb p_alarm_rgb , int p_alarm_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 )
{
monitor = p_monitor ;
id = p_id ;
label = new char [ strlen ( p_label ) + 1 ] ;
strcpy ( label , p_label ) ;
type = p_type ;
limits = p_limits ;
alarm_rgb = p_alarm_rgb ;
alarm_threshold = p_alarm_threshold ;
min_alarm_pixels = p_min_alarm_pixels ;
max_alarm_pixels = p_max_alarm_pixels ;
filter_box = p_filter_box ;
min_filter_pixels = p_min_filter_pixels ;
max_filter_pixels = p_max_filter_pixels ;
min_blob_pixels = p_min_blob_pixels ;
max_blob_pixels = p_max_blob_pixels ;
min_blobs = p_min_blobs ;
max_blobs = p_max_blobs ;
Info ( ( " Initialised zone %d/%s - %d - %dx%d - Rgb:%06x, AT:%d, MnAP:%d, MxAP:%d, FB:%dx%d, MnFP:%d, MxFP:%d, MnBS:%d, MxBS:%d, MnB:%d, MxB:%d " , id , label , type , limits . Width ( ) , limits . Height ( ) , alarm_rgb , alarm_threshold , min_alarm_pixels , max_alarm_pixels , filter_box . X ( ) , filter_box . Y ( ) , min_filter_pixels , max_filter_pixels , min_blob_pixels , max_blob_pixels , min_blobs , max_blobs ) ) ;
alarmed = false ;
alarm_pixels = 0 ;
alarm_filter_pixels = 0 ;
alarm_blob_pixels = 0 ;
alarm_blobs = 0 ;
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min_blob_size = 0 ;
max_blob_size = 0 ;
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image = 0 ;
score = 0 ;
}
Zone : : ~ Zone ( )
{
delete [ ] label ;
delete image ;
}
void Zone : : RecordStats ( const Event * event )
{
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static char sql [ BUFSIZ ] ;
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sprintf ( sql , " insert into Stats set MonitorId=%d, ZoneId=%d, EventId=%d, FrameId=%d, AlarmPixels=%d, FilterPixels=%d, BlobPixels=%d, Blobs=%d, MinBlobSize=%d, MaxBlobSize=%d, MinX=%d, MinY=%d, MaxX=%d, MaxY=%d, Score=%d " , monitor - > Id ( ) , id , event - > Id ( ) , event - > Frames ( ) + 1 , alarm_pixels , alarm_filter_pixels , alarm_blob_pixels , alarm_blobs , min_blob_size , max_blob_size , alarm_box . LoX ( ) , alarm_box . LoY ( ) , alarm_box . HiX ( ) , alarm_box . HiY ( ) , score ) ;
if ( mysql_query ( & dbconn , sql ) )
{
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Error ( ( " Can't insert event stats: %s " , mysql_error ( & dbconn ) ) ) ;
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exit ( mysql_errno ( & dbconn ) ) ;
}
}
bool Zone : : CheckAlarms ( const Image * delta_image )
{
bool alarm = false ;
ResetStats ( ) ;
delete image ;
Image * diff_image = image = new Image ( * delta_image ) ;
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alarm_pixels = 0 ;
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int lo_x = limits . Lo ( ) . X ( ) ;
int lo_y = limits . Lo ( ) . Y ( ) ;
int hi_x = limits . Hi ( ) . X ( ) ;
int hi_y = limits . Hi ( ) . Y ( ) ;
for ( int y = lo_y ; y < = hi_y ; y + + )
{
unsigned char * pdiff = diff_image - > Buffer ( lo_x , y ) ;
for ( int x = lo_x ; x < = hi_x ; x + + , pdiff + + )
{
if ( * pdiff > alarm_threshold )
{
* pdiff = WHITE ;
alarm_pixels + + ;
continue ;
}
* pdiff = BLACK ;
}
}
if ( ! alarm_pixels ) return ( false ) ;
if ( min_alarm_pixels & & alarm_pixels < min_alarm_pixels ) return ( false ) ;
if ( max_alarm_pixels & & alarm_pixels > max_alarm_pixels ) return ( false ) ;
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alarm_filter_pixels = 0 ;
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int bx = filter_box . X ( ) ;
int by = filter_box . Y ( ) ;
int bx1 = bx - 1 ;
int by1 = by - 1 ;
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// Now remove any pixels smaller than our filter size
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for ( int y = lo_y ; y < = hi_y ; y + + )
{
unsigned char * pdiff = diff_image - > Buffer ( lo_x , y ) ;
for ( int x = lo_x ; x < = hi_x ; x + + , pdiff + + )
{
if ( * pdiff = = WHITE )
{
// Check participation in an X blob
int ldx = ( x > = ( lo_x + bx1 ) ) ? - bx1 : lo_x - x ;
int hdx = ( x < = ( hi_x - bx1 ) ) ? 0 : ( ( hi_x - x ) - bx1 ) ;
int ldy = ( y > = ( lo_y + by1 ) ) ? - by1 : lo_y - y ;
int hdy = ( y < = ( hi_y - by1 ) ) ? 0 : ( ( hi_y - y ) - by1 ) ;
bool blob = false ;
for ( int dy = ldy ; ! blob & & dy < = hdy ; dy + + )
{
for ( int dx = ldx ; ! blob & & dx < = hdx ; dx + + )
{
blob = true ;
for ( int dy2 = 0 ; blob & & dy2 < by ; dy2 + + )
{
for ( int dx2 = 0 ; blob & & dx2 < bx ; dx2 + + )
{
unsigned char * cpdiff = diff_image - > Buffer ( x + dx + dx2 , y + dy + dy2 ) ;
if ( ! * cpdiff )
{
blob = false ;
}
}
}
}
}
if ( ! blob )
{
* pdiff = BLACK ;
continue ;
}
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alarm_filter_pixels + + ;
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}
}
}
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if ( ! alarm_filter_pixels ) return ( false ) ;
if ( min_filter_pixels & & alarm_filter_pixels < min_filter_pixels ) return ( false ) ;
if ( max_filter_pixels & & alarm_filter_pixels > max_filter_pixels ) return ( false ) ;
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alarm_blobs = 0 ;
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typedef struct { unsigned char tag ; int count ; int lo_x ; int hi_x ; int lo_y ; int hi_y ; } BlobStats ;
BlobStats blob_stats [ 256 ] ;
memset ( blob_stats , 0 , sizeof ( BlobStats ) * 256 ) ;
for ( int y = lo_y ; y < = hi_y ; y + + )
{
unsigned char * pdiff = diff_image - > Buffer ( lo_x , y ) ;
for ( int x = lo_x ; x < = hi_x ; x + + , pdiff + + )
{
if ( * pdiff = = WHITE )
{
//printf( "Got white pixel at %d,%d (%x)\n", x, y, pdiff );
int lx = x > lo_x ? * ( pdiff - 1 ) : 0 ;
int ly = y > lo_y ? * ( pdiff - diff_image - > Width ( ) ) : 0 ;
if ( lx )
{
//printf( "Left neighbour is %d\n", lx );
BlobStats * bsx = & blob_stats [ lx ] ;
if ( ly )
{
//printf( "Top neighbour is %d\n", ly );
BlobStats * bsy = & blob_stats [ ly ] ;
if ( lx = = ly )
{
//printf( "Matching neighbours, setting to %d\n", lx );
// Add to the blob from the x side (either side really)
* pdiff = lx ;
bsx - > count + + ;
//if ( x < bsx->lo_x ) bsx->lo_x = x;
//if ( y < bsx->lo_y ) bsx->lo_y = y;
if ( x > bsx - > hi_x ) bsx - > hi_x = x ;
if ( y > bsx - > hi_y ) bsx - > hi_y = y ;
}
else
{
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// Aggregate blobs
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BlobStats * bsm = bsx - > count > = bsy - > count ? bsx : bsy ;
BlobStats * bss = bsm = = bsx ? bsy : bsx ;
//printf( "Different neighbours, setting pixels of %d to %d\n", bss->tag, bsm->tag );
// Now change all those pixels to the other setting
for ( int sy = bss - > lo_y ; sy < = bss - > hi_y ; sy + + )
{
unsigned char * spdiff = diff_image - > Buffer ( bss - > lo_x , sy ) ;
for ( int sx = bss - > lo_x ; sx < = bss - > hi_x ; sx + + , spdiff + + )
{
//printf( "Pixel at %d,%d (%x) is %d", sx, sy, spdiff, *spdiff );
if ( * spdiff = = bss - > tag )
{
//printf( ", setting" );
* spdiff = bsm - > tag ;
}
//printf( "\n" );
}
}
* pdiff = bsm - > tag ;
// Merge the slave blob into the master
bsm - > count + = bss - > count + 1 ;
if ( x > bsm - > hi_x ) bsm - > hi_x = x ;
if ( y > bsm - > hi_y ) bsm - > hi_y = y ;
if ( bss - > lo_x < bsm - > lo_x ) bsm - > lo_x = bss - > lo_x ;
if ( bss - > lo_y < bsm - > lo_y ) bsm - > lo_y = bss - > lo_y ;
if ( bss - > hi_x > bsm - > hi_x ) bsm - > hi_x = bss - > hi_x ;
if ( bss - > hi_y > bsm - > hi_y ) bsm - > hi_y = bss - > hi_y ;
// Clear out the old blob
bss - > tag = 0 ;
bss - > count = 0 ;
bss - > lo_x = 0 ;
bss - > lo_y = 0 ;
bss - > hi_x = 0 ;
bss - > hi_y = 0 ;
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alarm_blobs - - ;
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}
}
else
{
//printf( "Setting to left neighbour %d\n", lx );
// Add to the blob from the x side
* pdiff = lx ;
bsx - > count + + ;
//if ( x < bsx->lo_x ) bsx->lo_x = x;
//if ( y < bsx->lo_y ) bsx->lo_y = y;
if ( x > bsx - > hi_x ) bsx - > hi_x = x ;
if ( y > bsx - > hi_y ) bsx - > hi_y = y ;
}
}
else
{
if ( ly )
{
//printf( "Setting to top neighbour %d\n", ly );
// Add to the blob from the y side
BlobStats * bsy = & blob_stats [ ly ] ;
* pdiff = ly ;
bsy - > count + + ;
//if ( x < bsy->lo_x ) bsy->lo_x = x;
//if ( y < bsy->lo_y ) bsy->lo_y = y;
if ( x > bsy - > hi_x ) bsy - > hi_x = x ;
if ( y > bsy - > hi_y ) bsy - > hi_y = y ;
}
else
{
// Create a new blob
for ( int i = 1 ; i < WHITE ; i + + )
{
BlobStats * bs = & blob_stats [ i ] ;
if ( ! bs - > count )
{
//printf( "Creating new blob %d\n", i );
* pdiff = i ;
bs - > tag = i ;
bs - > count + + ;
bs - > lo_x = bs - > hi_x = x ;
bs - > lo_y = bs - > hi_y = y ;
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alarm_blobs + + ;
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break ;
}
}
}
}
}
}
}
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if ( ! alarm_blobs ) return ( false ) ;
alarm_blob_pixels = alarm_filter_pixels ;
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min_blob_size = 0 ;
max_blob_size = 0 ;
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// Now eliminate blobs under the alarm_threshold
for ( int i = 1 ; i < WHITE ; i + + )
{
BlobStats * bs = & blob_stats [ i ] ;
if ( bs - > count & & ( ( min_blob_pixels & & bs - > count < min_blob_pixels ) | | ( max_blob_pixels & & bs - > count > max_blob_pixels ) ) )
{
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//Info(( "Eliminating blob %d, %d pixels (%d,%d - %d,%d)", i, bs->count, bs->lo_x, bs->lo_y, bs->hi_x, bs->hi_y ));
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for ( int sy = bs - > lo_y ; sy < = bs - > hi_y ; sy + + )
{
unsigned char * spdiff = diff_image - > Buffer ( bs - > lo_x , sy ) ;
for ( int sx = bs - > lo_x ; sx < = bs - > hi_x ; sx + + , spdiff + + )
{
if ( * spdiff = = bs - > tag )
{
* spdiff = BLACK ;
}
}
}
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alarm_blobs - - ;
alarm_blob_pixels - = bs - > count ;
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bs - > tag = 0 ;
bs - > count = 0 ;
bs - > lo_x = 0 ;
bs - > lo_y = 0 ;
bs - > hi_x = 0 ;
bs - > hi_y = 0 ;
}
else
{
if ( bs - > count )
{
if ( ! min_blob_size | | bs - > count < min_blob_size ) min_blob_size = bs - > count ;
if ( ! max_blob_size | | bs - > count > max_blob_size ) max_blob_size = bs - > count ;
}
}
}
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if ( ! alarm_blobs ) return ( false ) ;
if ( min_blobs & & alarm_blobs < min_blobs ) return ( false ) ;
if ( max_blobs & & alarm_blobs > max_blobs ) return ( false ) ;
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int alarm_lo_x = hi_x + 1 ;
int alarm_hi_x = lo_x - 1 ;
int alarm_lo_y = hi_y + 1 ;
int alarm_hi_y = lo_y - 1 ;
for ( int i = 1 ; i < WHITE ; i + + )
{
BlobStats * bs = & blob_stats [ i ] ;
if ( bs - > count )
{
if ( alarm_lo_x > bs - > lo_x ) alarm_lo_x = bs - > lo_x ;
if ( alarm_lo_y > bs - > lo_y ) alarm_lo_y = bs - > lo_y ;
if ( alarm_hi_x < bs - > hi_x ) alarm_hi_x = bs - > hi_x ;
if ( alarm_hi_y < bs - > hi_y ) alarm_hi_y = bs - > hi_y ;
}
}
alarm_box = Box ( Coord ( alarm_lo_x , alarm_lo_y ) , Coord ( alarm_hi_x , alarm_hi_y ) ) ;
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score = ( ( 100 * alarm_blob_pixels ) / int ( sqrt ( ( double ) alarm_blobs ) ) ) / ( limits . Size ( ) . X ( ) * limits . Size ( ) . Y ( ) ) ;
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if ( type = = INCLUSIVE )
{
score / = 2 ;
}
else if ( type = = EXCLUSIVE )
{
score * = 2 ;
}
// Now outline the changed region
if ( alarm_blobs )
{
alarm = true ;
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if ( ( type < PRECLUSIVE ) & & ( bool ) config . Item ( ZM_CREATE_ANALYSIS_IMAGES ) )
{
image = diff_image - > HighlightEdges ( alarm_rgb , & limits ) ;
// Only need to delete this when 'image' becomes detached and points somewhere else
delete diff_image ;
}
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Info ( ( " %s: Alarm Pixels: %d, Filter Pixels: %d, Blob Pixels: %d, Blobs: %d, Score: %d " , Label ( ) , alarm_pixels , alarm_filter_pixels , alarm_blob_pixels , alarm_blobs , score ) ) ;
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}
return ( true ) ;
}
int Zone : : Load ( Monitor * monitor , Zone * * & zones )
{
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static char sql [ BUFSIZ ] ;
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sprintf ( sql , " select Id,Name,Type+0,Units,LoX,LoY,HiX,HiY,AlarmRGB,AlarmThreshold,MinAlarmPixels,MaxAlarmPixels,FilterX,FilterY,MinFilterPixels,MaxFilterPixels,MinBlobPixels,MaxBlobPixels,MinBlobs,MaxBlobs from Zones where MonitorId = %d order by Type, Id " , monitor - > Id ( ) ) ;
if ( mysql_query ( & dbconn , sql ) )
{
Error ( ( " Can't run query: %s " , mysql_error ( & dbconn ) ) ) ;
exit ( mysql_errno ( & dbconn ) ) ;
}
MYSQL_RES * result = mysql_store_result ( & dbconn ) ;
if ( ! result )
{
Error ( ( " Can't use query result: %s " , mysql_error ( & dbconn ) ) ) ;
exit ( mysql_errno ( & dbconn ) ) ;
}
int n_zones = mysql_num_rows ( result ) ;
Info ( ( " Got %d zones for monitor %s " , n_zones , monitor - > Name ( ) ) ) ;
delete [ ] zones ;
zones = new Zone * [ n_zones ] ;
for ( int i = 0 ; MYSQL_ROW dbrow = mysql_fetch_row ( result ) ; i + + )
{
int Id = atoi ( dbrow [ 0 ] ) ;
const char * Name = dbrow [ 1 ] ;
int Type = atoi ( dbrow [ 2 ] ) ;
const char * Units = dbrow [ 3 ] ;
int LoX = atoi ( dbrow [ 4 ] ) ;
int LoY = atoi ( dbrow [ 5 ] ) ;
int HiX = atoi ( dbrow [ 6 ] ) ;
int HiY = atoi ( dbrow [ 7 ] ) ;
int AlarmRGB = dbrow [ 8 ] ? atoi ( dbrow [ 8 ] ) : 0 ;
int AlarmThreshold = dbrow [ 9 ] ? atoi ( dbrow [ 9 ] ) : 0 ;
int MinAlarmPixels = dbrow [ 10 ] ? atoi ( dbrow [ 10 ] ) : 0 ;
int MaxAlarmPixels = dbrow [ 11 ] ? atoi ( dbrow [ 11 ] ) : 0 ;
int FilterX = dbrow [ 12 ] ? atoi ( dbrow [ 12 ] ) : 0 ;
int FilterY = dbrow [ 13 ] ? atoi ( dbrow [ 13 ] ) : 0 ;
int MinFilterPixels = dbrow [ 14 ] ? atoi ( dbrow [ 14 ] ) : 0 ;
int MaxFilterPixels = dbrow [ 15 ] ? atoi ( dbrow [ 15 ] ) : 0 ;
int MinBlobPixels = dbrow [ 16 ] ? atoi ( dbrow [ 16 ] ) : 0 ;
int MaxBlobPixels = dbrow [ 17 ] ? atoi ( dbrow [ 17 ] ) : 0 ;
int MinBlobs = dbrow [ 18 ] ? atoi ( dbrow [ 18 ] ) : 0 ;
int MaxBlobs = dbrow [ 19 ] ? atoi ( dbrow [ 19 ] ) : 0 ;
if ( ! strcmp ( Units , " Percent " ) )
{
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LoX = ( LoX * ( monitor - > Width ( ) - 1 ) ) / 100 ;
LoY = ( LoY * ( monitor - > Height ( ) - 1 ) ) / 100 ;
HiX = ( HiX * ( monitor - > Width ( ) - 1 ) ) / 100 ;
HiY = ( HiY * ( monitor - > Height ( ) - 1 ) ) / 100 ;
MinAlarmPixels = ( MinAlarmPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
MaxAlarmPixels = ( MaxAlarmPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
MinFilterPixels = ( MinFilterPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
MaxFilterPixels = ( MaxFilterPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
MinBlobPixels = ( MinBlobPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
MaxBlobPixels = ( MaxBlobPixels * monitor - > Width ( ) * monitor - > Height ( ) ) / 100 ;
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}
if ( atoi ( dbrow [ 2 ] ) = = Zone : : INACTIVE )
{
zones [ i ] = new Zone ( monitor , Id , Name , Box ( LoX , LoY , HiX , HiY ) ) ;
}
else
{
zones [ i ] = new Zone ( monitor , Id , Name , ( Zone : : ZoneType ) Type , Box ( LoX , LoY , HiX , HiY ) , AlarmRGB , AlarmThreshold , MinAlarmPixels , MaxAlarmPixels , Coord ( FilterX , FilterY ) , MinFilterPixels , MaxFilterPixels , MinBlobPixels , MaxBlobPixels , MinBlobs , MaxBlobs ) ;
}
}
if ( mysql_errno ( & dbconn ) )
{
Error ( ( " Can't fetch row: %s " , mysql_error ( & dbconn ) ) ) ;
exit ( mysql_errno ( & dbconn ) ) ;
}
// Yadda yadda
mysql_free_result ( result ) ;
return ( n_zones ) ;
}
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bool Zone : : DumpSettings ( char * output , bool /*verbose*/ )
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{
output [ 0 ] = 0 ;
sprintf ( output + strlen ( output ) , " Id : %d \n " , id ) ;
sprintf ( output + strlen ( output ) , " Label : %s \n " , label ) ;
sprintf ( output + strlen ( output ) , " Type: %d - %s \n " , type ,
type = = ACTIVE ? " Active " : (
type = = INCLUSIVE ? " Inclusive " : (
type = = EXCLUSIVE ? " Exclusive " : (
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type = = PRECLUSIVE ? " Preclusive " : (
type = = INACTIVE ? " Inactive " : " Unknown "
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) ) ) ) ) ;
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sprintf ( output + strlen ( output ) , " Limits : %d,%d - %d,%d \n " , limits . LoX ( ) , limits . LoY ( ) , limits . HiX ( ) , limits . HiY ( ) ) ;
sprintf ( output + strlen ( output ) , " Alarm RGB : %06x \n " , alarm_rgb ) ;
sprintf ( output + strlen ( output ) , " Alarm Threshold : %d \n " , alarm_threshold ) ;
sprintf ( output + strlen ( output ) , " Min Alarm Pixels : %d \n " , min_alarm_pixels ) ;
sprintf ( output + strlen ( output ) , " Max Alarm Pixels : %d \n " , max_alarm_pixels ) ;
sprintf ( output + strlen ( output ) , " Filter Box : %d,%d \n " , filter_box . X ( ) , filter_box . Y ( ) ) ;
sprintf ( output + strlen ( output ) , " Min Filter Pixels : %d \n " , min_filter_pixels ) ;
sprintf ( output + strlen ( output ) , " Max Filter Pixels : %d \n " , max_filter_pixels ) ;
sprintf ( output + strlen ( output ) , " Min Blob Pixels : %d \n " , min_blob_pixels ) ;
sprintf ( output + strlen ( output ) , " Max Blob Pixels : %d \n " , max_blob_pixels ) ;
sprintf ( output + strlen ( output ) , " Min Blobs : %d \n " , min_blobs ) ;
sprintf ( output + strlen ( output ) , " Max Blobs : %d \n " , max_blobs ) ;
return ( true ) ;
}