// // ZoneMinder Zone Class Implementation, $Date$, $Revision$ // 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., 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 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 ) { monitor = p_monitor; id = p_id; label = new char[strlen(p_label)+1]; strcpy( label, p_label ); type = p_type; polygon = p_polygon; alarm_rgb = p_alarm_rgb; check_method = p_check_method; min_pixel_threshold = p_min_pixel_threshold; max_pixel_threshold = p_max_pixel_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; overload_frames = p_overload_frames; Debug( 1, "Initialised zone %d/%s - %d - %dx%d - Rgb:%06x, CM:%d, MnAT:%d, MxAT:%d, MnAP:%d, MxAP:%d, FB:%dx%d, MnFP:%d, MxFP:%d, MnBS:%d, MxBS:%d, MnB:%d, MxB:%d, OF: %d", id, label, type, polygon.Width(), polygon.Height(), alarm_rgb, check_method, min_pixel_threshold, max_pixel_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, overload_frames ); 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; image = 0; score = 0; overload_count = 0; pg_image = new Image( monitor->Width(), monitor->Height(), 1, ZM_SUBPIX_ORDER_NONE); pg_image->Clear(); pg_image->Fill( 0xff, polygon ); pg_image->Outline( 0xff, polygon ); ranges = new Range[monitor->Height()]; for ( int y = 0; y < monitor->Height(); y++) { ranges[y].lo_x = -1; ranges[y].hi_x = -1; ranges[y].off_x = 0; const uint8_t *ppoly = pg_image->Buffer( 0, y ); for ( int x = 0; x < monitor->Width(); x++, ppoly++ ) { if ( *ppoly ) { if ( ranges[y].lo_x == -1 ) { ranges[y].lo_x = x; } if ( ranges[y].hi_x < x ) { ranges[y].hi_x = x; } } } } if ( config.record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%s/diag-%d-poly.jpg", config.dir_events, monitor->Name(), id); } pg_image->WriteJpeg( diag_path ); } } Zone::~Zone() { delete[] label; delete image; delete pg_image; delete[] ranges; } void Zone::RecordStats( const Event *event ) { static char sql[ZM_SQL_MED_BUFSIZ]; snprintf( sql, sizeof(sql), "insert into Stats set MonitorId=%d, ZoneId=%d, EventId=%d, FrameId=%d, PixelDiff=%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, pixel_diff, 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 ) ) { Error( "Can't insert event stats: %s", mysql_error( &dbconn ) ); exit( mysql_errno( &dbconn ) ); } } bool Zone::CheckAlarms( const Image *delta_image ) { bool alarm = false; ResetStats(); if ( overload_count ) { Info( "In overload mode, %d frames of %d remaining", overload_count, overload_frames ); Debug( 4, "In overload mode, %d frames of %d remaining", overload_count, overload_frames ); overload_count--; return( false ); } delete image; // Get the difference image Image *diff_image = image = new Image( *delta_image ); int diff_width = diff_image->Width(); uint8_t* diff_buff = (uint8_t*)diff_image->Buffer(); uint8_t* pdiff; const uint8_t* ppoly; unsigned int pixel_diff_count = 0; int alarm_lo_x = 0; int alarm_hi_x = 0; int alarm_lo_y = 0; int alarm_hi_y = 0; int alarm_mid_x = -1; int alarm_mid_y = -1; unsigned int lo_y = polygon.LoY(); unsigned int lo_x = polygon.LoX(); unsigned int hi_x = polygon.HiX(); unsigned int hi_y = polygon.HiY(); Debug( 4, "Checking alarms for zone %d/%s in lines %d -> %d", id, label, lo_y, hi_y ); Debug( 5, "Checking for alarmed pixels" ); /* if(config.cpu_extensions && sseversion >= 20) { sse2_alarmedpixels(diff_image, pg_image, &alarm_pixels, &pixel_diff_count); } else { std_alarmedpixels(diff_image, pg_image, &alarm_pixels, &pixel_diff_count); } */ std_alarmedpixels(diff_image, pg_image, &alarm_pixels, &pixel_diff_count); if ( config.record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%s/diag-%d-%d.jpg", config.dir_events, monitor->Name(), id, 1 ); } diff_image->WriteJpeg( diag_path ); } if ( pixel_diff_count && alarm_pixels ) pixel_diff = pixel_diff_count/alarm_pixels; Debug( 5, "Got %d alarmed pixels, need %d -> %d, avg pixel diff %d", alarm_pixels, min_alarm_pixels, max_alarm_pixels, pixel_diff ); if( alarm_pixels ) { if( min_alarm_pixels && (alarm_pixels < min_alarm_pixels) ) { /* Not enough pixels alarmed */ return (false); } else if( max_alarm_pixels && (alarm_pixels > max_alarm_pixels) ) { /* Too many pixels alarmed */ overload_count = overload_frames; return (false); } } else { /* No alarmed pixels */ return (false); } score = (100*alarm_pixels)/polygon.Area(); if(score < 1) score = 1; /* Fix for score of 0 when frame meets thresholds but alarmed area is not big enough */ Debug( 5, "Current score is %d", score ); if ( check_method >= FILTERED_PIXELS ) { int bx = filter_box.X(); int by = filter_box.Y(); int bx1 = bx-1; int by1 = by-1; Debug( 5, "Checking for filtered pixels" ); if ( bx > 1 || by > 1 ) { // Now remove any pixels smaller than our filter size unsigned char *cpdiff; int ldx, hdx, ldy, hdy; bool block; for ( int y = lo_y; y <= hi_y; y++ ) { lo_x = ranges[y].lo_x; hi_x = ranges[y].hi_x; pdiff = (uint8_t*)diff_image->Buffer( lo_x, y ); for ( int x = lo_x; x <= hi_x; x++, pdiff++ ) { if ( *pdiff == WHITE ) { // Check participation in an X block ldx = (x>=(lo_x+bx1))?-bx1:lo_x-x; hdx = (x<=(hi_x-bx1))?0:((hi_x-x)-bx1); ldy = (y>=(lo_y+by1))?-by1:lo_y-y; hdy = (y<=(hi_y-by1))?0:((hi_y-y)-by1); block = false; for ( int dy = ldy; !block && dy <= hdy; dy++ ) { for ( int dx = ldx; !block && dx <= hdx; dx++ ) { block = true; for ( int dy2 = 0; block && dy2 < by; dy2++ ) { for ( int dx2 = 0; block && dx2 < bx; dx2++ ) { cpdiff = diff_buff + (((y+dy+dy2)*diff_width) + (x+dx+dx2)); if ( !*cpdiff ) { block = false; } } } } } if ( !block ) { *pdiff = BLACK; continue; } alarm_filter_pixels++; } } } } else { alarm_filter_pixels = alarm_pixels; } if ( config.record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%d/diag-%d-%d.jpg", config.dir_events, monitor->Id(), id, 2 ); } diff_image->WriteJpeg( diag_path ); } Debug( 5, "Got %d filtered pixels, need %d -> %d", alarm_filter_pixels, min_filter_pixels, max_filter_pixels ); if( alarm_filter_pixels ) { if( min_filter_pixels && (alarm_filter_pixels < min_filter_pixels) ) { /* Not enough pixels alarmed */ return (false); } else if( max_filter_pixels && (alarm_filter_pixels > max_filter_pixels) ) { /* Too many pixels alarmed */ overload_count = overload_frames; return (false); } } else { /* No filtered pixels */ return (false); } score = (100*alarm_filter_pixels)/(polygon.Area()); if(score < 1) score = 1; /* Fix for score of 0 when frame meets thresholds but alarmed area is not big enough */ Debug( 5, "Current score is %d", score ); if ( check_method >= BLOBS ) { Debug( 5, "Checking for blob pixels" ); 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 ); uint8_t *spdiff; uint8_t last_x, last_y; BlobStats *bsx, *bsy; BlobStats *bsm, *bss; for ( int y = lo_y; y <= hi_y; y++ ) { int lo_x = ranges[y].lo_x; int hi_x = ranges[y].hi_x; pdiff = (uint8_t*)diff_image->Buffer( lo_x, y ); for ( int x = lo_x; x <= hi_x; x++, pdiff++ ) { if ( *pdiff == WHITE ) { Debug( 9, "Got white pixel at %d,%d (%p)", x, y, pdiff ); //last_x = (x>lo_x)?*(pdiff-1):0; //last_y = (y>lo_y&&x>=last_lo_x&&x<=last_hi_x)?*(pdiff-diff_width):0; last_x = 0; if(x > 0) { if((x-1) >= lo_x) { last_x = *(pdiff-1); } } last_y = 0; if(y > 0) { if((y-1) >= lo_y && ranges[(y-1)].lo_x <= x && ranges[(y-1)].hi_x >= x) { last_y = *(pdiff-diff_width); } } if ( last_x ) { Debug( 9, "Left neighbour is %d", last_x ); bsx = &blob_stats[last_x]; if ( last_y ) { Debug( 9, "Top neighbour is %d", last_y ); bsy = &blob_stats[last_y]; if ( last_x == last_y ) { Debug( 9, "Matching neighbours, setting to %d", last_x ); // Add to the blob from the x side (either side really) *pdiff = last_x; alarm_blob_pixels++; bsx->count++; if ( x > bsx->hi_x ) bsx->hi_x = x; if ( y > bsx->hi_y ) bsx->hi_y = y; } else { // Aggregate blobs bsm = bsx->count>=bsy->count?bsx:bsy; bss = bsm==bsx?bsy:bsx; Debug( 9, "Different neighbours, setting pixels of %d to %d", bss->tag, bsm->tag ); Debug( 9, "Master blob t:%d, c:%d, lx:%d, hx:%d, ly:%d, hy:%d", bsm->tag, bsm->count, bsm->lo_x, bsm->hi_x, bsm->lo_y, bsm->hi_y ); Debug( 9, "Slave blob t:%d, c:%d, lx:%d, hx:%d, ly:%d, hy:%d", bss->tag, bss->count, bss->lo_x, bss->hi_x, bss->lo_y, bss->hi_y ); // Now change all those pixels to the other setting int changed = 0; for ( int sy = bss->lo_y; sy <= bss->hi_y; sy++) { int lo_sx = bss->lo_x>=ranges[sy].lo_x?bss->lo_x:ranges[sy].lo_x; int hi_sx = bss->hi_x<=ranges[sy].hi_x?bss->hi_x:ranges[sy].hi_x; Debug( 9, "Changing %d, %d->%d", sy, lo_sx, hi_sx ); Debug( 9, "Range %d, %d->%d", sy, ranges[sy].lo_x, ranges[sy].hi_x ); spdiff = diff_buff + ((diff_width * sy) + lo_sx); for ( int sx = lo_sx; sx <= hi_sx; sx++, spdiff++ ) { Debug( 9, "Pixel at %d,%d (%p) is %d", sx, sy, spdiff, *spdiff ); if ( *spdiff == bss->tag ) { Debug( 9, "Setting pixel" ); *spdiff = bsm->tag; changed++; } } } *pdiff = bsm->tag; alarm_blob_pixels++; if ( !changed ) { Info( "Master blob t:%d, c:%d, lx:%d, hx:%d, ly:%d, hy:%d", bsm->tag, bsm->count, bsm->lo_x, bsm->hi_x, bsm->lo_y, bsm->hi_y ); Info( "Slave blob t:%d, c:%d, lx:%d, hx:%d, ly:%d, hy:%d", bss->tag, bss->count, bss->lo_x, bss->hi_x, bss->lo_y, bss->hi_y ); Error( "No pixels changed, exiting" ); exit( -1 ); } // 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; alarm_blobs--; Debug( 6, "Merging blob %d with %d at %d,%d, %d current blobs", bss->tag, bsm->tag, x, y, alarm_blobs ); // 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; } } else { Debug( 9, "Setting to left neighbour %d", last_x ); // Add to the blob from the x side *pdiff = last_x; alarm_blob_pixels++; bsx->count++; if ( x > bsx->hi_x ) bsx->hi_x = x; if ( y > bsx->hi_y ) bsx->hi_y = y; } } else { if ( last_y ) { Debug( 9, "Top neighbour is %d", last_y ); Debug( 9, "Setting to top neighbour %d", last_y ); // Add to the blob from the y side BlobStats *bsy = &blob_stats[last_y]; *pdiff = last_y; alarm_blob_pixels++; bsy->count++; if ( x > bsy->hi_x ) bsy->hi_x = x; if ( y > bsy->hi_y ) bsy->hi_y = y; } else { // Create a new blob int i; for ( i = (WHITE-1); i > 0; i-- ) { BlobStats *bs = &blob_stats[i]; // See if we can recycle one first, only if it's at least two rows up if ( bs->count && bs->hi_y < (y-1) ) { if ( (min_blob_pixels && bs->count < min_blob_pixels) || (max_blob_pixels && bs->count > max_blob_pixels) ) { if ( config.create_analysis_images || config.record_diag_images ) { for ( int sy = bs->lo_y; sy <= bs->hi_y; sy++ ) { spdiff = diff_buff + ((diff_width * sy) + bs->lo_x); for ( int sx = bs->lo_x; sx <= bs->hi_x; sx++, spdiff++ ) { if ( *spdiff == bs->tag ) { *spdiff = BLACK; } } } } alarm_blobs--; alarm_blob_pixels -= bs->count; Debug( 6, "Eliminated blob %d, %d pixels (%d,%d - %d,%d), %d current blobs", i, bs->count, bs->lo_x, bs->lo_y, bs->hi_x, bs->hi_y, alarm_blobs ); bs->tag = 0; bs->count = 0; bs->lo_x = 0; bs->lo_y = 0; bs->hi_x = 0; bs->hi_y = 0; } } if ( !bs->count ) { Debug( 9, "Creating new blob %d", i ); *pdiff = i; alarm_blob_pixels++; bs->tag = i; bs->count++; bs->lo_x = bs->hi_x = x; bs->lo_y = bs->hi_y = y; alarm_blobs++; Debug( 6, "Created blob %d at %d,%d, %d current blobs", bs->tag, x, y, alarm_blobs ); break; } } if ( i == 0 ) { Warning( "Max blob count reached. Unable to allocate new blobs so terminating. Zone settings may be too sensitive." ); x = hi_x+1; y = hi_y+1; } } } } } } if ( config.record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%d/diag-%d-%d.jpg", config.dir_events, monitor->Id(), id, 3 ); } diff_image->WriteJpeg( diag_path ); } if ( !alarm_blobs ) { return( false ); } Debug( 5, "Got %d raw blob pixels, %d raw blobs, need %d -> %d, %d -> %d", alarm_blob_pixels, alarm_blobs, min_blob_pixels, max_blob_pixels, min_blobs, max_blobs ); // Now eliminate blobs under the threshold for ( int i = 1; i < WHITE; i++ ) { BlobStats *bs = &blob_stats[i]; if ( bs->count ) { if ( (min_blob_pixels && bs->count < min_blob_pixels) || (max_blob_pixels && bs->count > max_blob_pixels) ) { if ( config.create_analysis_images || config.record_diag_images ) { for ( int sy = bs->lo_y; sy <= bs->hi_y; sy++ ) { spdiff = diff_buff + ((diff_width * sy) + bs->lo_x); for ( int sx = bs->lo_x; sx <= bs->hi_x; sx++, spdiff++ ) { if ( *spdiff == bs->tag ) { *spdiff = BLACK; } } } } alarm_blobs--; alarm_blob_pixels -= bs->count; Debug( 6, "Eliminated blob %d, %d pixels (%d,%d - %d,%d), %d current blobs", i, bs->count, bs->lo_x, bs->lo_y, bs->hi_x, bs->hi_y, alarm_blobs ); bs->tag = 0; bs->count = 0; bs->lo_x = 0; bs->lo_y = 0; bs->hi_x = 0; bs->hi_y = 0; } else { Debug( 6, "Preserved blob %d, %d pixels (%d,%d - %d,%d), %d current blobs", i, bs->count, bs->lo_x, bs->lo_y, bs->hi_x, bs->hi_y, alarm_blobs ); 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; } } } if ( config.record_diag_images ) { static char diag_path[PATH_MAX] = ""; if ( !diag_path[0] ) { snprintf( diag_path, sizeof(diag_path), "%s/%d/diag-%d-%d.jpg", config.dir_events, monitor->Id(), id, 4 ); } diff_image->WriteJpeg( diag_path ); } Debug( 5, "Got %d blob pixels, %d blobs, need %d -> %d, %d -> %d", alarm_blob_pixels, alarm_blobs, min_blob_pixels, max_blob_pixels, min_blobs, max_blobs ); if( alarm_blobs ) { if( min_blobs && (alarm_blobs < min_blobs) ) { /* Not enough pixels alarmed */ return (false); } else if(max_blobs && (alarm_blobs > max_blobs) ) { /* Too many pixels alarmed */ overload_count = overload_frames; return (false); } } else { /* No blobs */ return (false); } score = (100*alarm_blob_pixels)/(polygon.Area()); if(score < 1) score = 1; /* Fix for score of 0 when frame meets thresholds but alarmed area is not big enough */ Debug( 5, "Current score is %d", score ); alarm_lo_x = polygon.HiX()+1; alarm_hi_x = polygon.LoX()-1; alarm_lo_y = polygon.HiY()+1; alarm_hi_y = polygon.LoY()-1; for ( int i = 1; i < WHITE; i++ ) { BlobStats *bs = &blob_stats[i]; if ( bs->count ) { if ( bs->count == max_blob_size ) { if ( config.weighted_alarm_centres ) { unsigned long x_total = 0; unsigned long y_total = 0; for ( int sy = bs->lo_y; sy <= bs->hi_y; sy++ ) { spdiff = diff_buff + ((diff_width * sy) + bs->lo_x); for ( int sx = bs->lo_x; sx <= bs->hi_x; sx++, spdiff++ ) { if ( *spdiff == bs->tag ) { x_total += sx; y_total += sy; } } } alarm_mid_x = int(round(x_total/bs->count)); alarm_mid_y = int(round(y_total/bs->count)); } else { alarm_mid_x = int((bs->hi_x+bs->lo_x+1)/2); alarm_mid_y = int((bs->hi_y+bs->lo_y+1)/2); } } 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; } } } else { alarm_mid_x = int((alarm_hi_x+alarm_lo_x+1)/2); alarm_mid_y = int((alarm_hi_y+alarm_lo_y+1)/2); } } if ( type == INCLUSIVE ) { // score >>= 1; score /= 2; } else if ( type == EXCLUSIVE ) { // score <<= 1; score *= 2; } Debug( 5, "Adjusted score is %d", score ); // Now outline the changed region if ( score ) { alarm = true; alarm_box = Box( Coord( alarm_lo_x, alarm_lo_y ), Coord( alarm_hi_x, alarm_hi_y ) ); //if ( monitor->followMotion() ) if ( true ) { alarm_centre = Coord( alarm_mid_x, alarm_mid_y ); } else { alarm_centre = alarm_box.Centre(); } if ( (type < PRECLUSIVE) && check_method >= BLOBS && config.create_analysis_images ) { // First mask out anything we don't want for ( int y = lo_y; y <= hi_y; y++ ) { pdiff = diff_buff + ((diff_width * y) + lo_x); int lo_x2 = ranges[y].lo_x; int hi_x2 = ranges[y].hi_x; int lo_gap = lo_x2-lo_x; if ( lo_gap > 0 ) { if ( lo_gap == 1 ) { *pdiff++ = BLACK; } else { memset( pdiff, BLACK, lo_gap ); pdiff += lo_gap; } } ppoly = pg_image->Buffer( lo_x2, y ); for ( int x = lo_x2; x <= hi_x2; x++, pdiff++, ppoly++ ) { if ( !*ppoly ) { *pdiff = BLACK; } } int hi_gap = hi_x-hi_x2; if ( hi_gap > 0 ) { if ( hi_gap == 1 ) { *pdiff = BLACK; } else { memset( pdiff, BLACK, hi_gap ); } } } if( monitor->Colours() == ZM_COLOUR_GRAY8 ) { image = diff_image->HighlightEdges( alarm_rgb, ZM_COLOUR_RGB24, ZM_SUBPIX_ORDER_RGB, &polygon.Extent() ); } else { image = diff_image->HighlightEdges( alarm_rgb, monitor->Colours(), monitor->SubpixelOrder(), &polygon.Extent() ); } // Only need to delete this when 'image' becomes detached and points somewhere else delete diff_image; } else { delete image; image = 0; } Debug( 1, "%s: Pixel Diff: %d, Alarm Pixels: %d, Filter Pixels: %d, Blob Pixels: %d, Blobs: %d, Score: %d", Label(), pixel_diff, alarm_pixels, alarm_filter_pixels, alarm_blob_pixels, alarm_blobs, score ); } return( true ); } bool Zone::ParsePolygonString( const char *poly_string, Polygon &polygon ) { Debug( 3, "Parsing polygon string '%s'", poly_string ); char *str_ptr = new char[strlen(poly_string)+1]; char *str = str_ptr; strcpy( str, poly_string ); char *ws; int n_coords = 0; int max_n_coords = strlen(str)/4; Coord *coords = new Coord[max_n_coords]; while( true ) { if ( *str == '\0' ) { break; } ws = strchr( str, ' ' ); if ( ws ) { *ws = '\0'; } char *cp = strchr( str, ',' ); if ( !cp ) { Error( "Bogus coordinate %s found in polygon string", str ); delete[] coords; delete[] str_ptr; return( false ); } else { *cp = '\0'; char *xp = str; char *yp = cp+1; int x = atoi(xp); int y = atoi(yp); Debug( 3, "Got coordinate %d,%d from polygon string", x, y ); #if 0 if ( x < 0 ) x = 0; else if ( x >= width ) x = width-1; if ( y < 0 ) y = 0; else if ( y >= height ) y = height-1; #endif coords[n_coords++] = Coord( x, y ); } if ( ws ) str = ws+1; else break; } polygon = Polygon( n_coords, coords ); Debug( 3, "Successfully parsed polygon string" ); //printf( "Area: %d\n", pg.Area() ); //printf( "Centre: %d,%d\n", pg.Centre().X(), pg.Centre().Y() ); delete[] coords; delete[] str_ptr; return( true ); } bool Zone::ParseZoneString( const char *zone_string, int &zone_id, int &colour, Polygon &polygon ) { Debug( 3, "Parsing zone string '%s'", zone_string ); char *str_ptr = new char[strlen(zone_string)+1]; char *str = str_ptr; strcpy( str, zone_string ); char *ws = strchr( str, ' ' ); if ( !ws ) { Debug( 3, "No initial whitespace found in zone string '%s', finishing", str ); } zone_id = strtol( str, 0, 10 ); Debug( 3, "Got zone %d from zone string", zone_id ); if ( !ws ) { delete str_ptr; return( true ); } *ws = '\0'; str = ws+1; ws = strchr( str, ' ' ); if ( !ws ) { Debug( 3, "No secondary whitespace found in zone string '%s', finishing", zone_string ); } colour = strtol( str, 0, 16 ); Debug( 3, "Got colour %06x from zone string", colour ); if ( !ws ) { delete str_ptr; return( true ); } *ws = '\0'; str = ws+1; bool result = ParsePolygonString( str, polygon ); //printf( "Area: %d\n", pg.Area() ); //printf( "Centre: %d,%d\n", pg.Centre().X(), pg.Centre().Y() ); delete[] str_ptr; return( result ); } int Zone::Load( Monitor *monitor, Zone **&zones ) { static char sql[ZM_SQL_MED_BUFSIZ]; snprintf( sql, sizeof(sql), "select Id,Name,Type+0,Units,NumCoords,Coords,AlarmRGB,CheckMethod+0,MinPixelThreshold,MaxPixelThreshold,MinAlarmPixels,MaxAlarmPixels,FilterX,FilterY,MinFilterPixels,MaxFilterPixels,MinBlobPixels,MaxBlobPixels,MinBlobs,MaxBlobs,OverloadFrames 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 ); Debug( 1, "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 col = 0; int Id = atoi(dbrow[col++]); const char *Name = dbrow[col++]; int Type = atoi(dbrow[col++]); const char *Units = dbrow[col++]; /* int NumCoords = */ atoi(dbrow[col++]); const char *Coords = dbrow[col++]; int AlarmRGB = dbrow[col]?atoi(dbrow[col]):0; col++; int CheckMethod = atoi(dbrow[col++]); int MinPixelThreshold = dbrow[col]?atoi(dbrow[col]):0; col++; int MaxPixelThreshold = dbrow[col]?atoi(dbrow[col]):0; col++; int MinAlarmPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int MaxAlarmPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int FilterX = dbrow[col]?atoi(dbrow[col]):0; col++; int FilterY = dbrow[col]?atoi(dbrow[col]):0; col++; int MinFilterPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int MaxFilterPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int MinBlobPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int MaxBlobPixels = dbrow[col]?atoi(dbrow[col]):0; col++; int MinBlobs = dbrow[col]?atoi(dbrow[col]):0; col++; int MaxBlobs = dbrow[col]?atoi(dbrow[col]):0; col++; int OverloadFrames = dbrow[col]?atoi(dbrow[col]):0; col++; /* HTML colour code is actually BGR in memory, we want RGB */ AlarmRGB = rgb_convert(AlarmRGB, ZM_SUBPIX_ORDER_BGR); Debug( 5, "Parsing polygon %s", Coords ); Polygon polygon; if ( !ParsePolygonString( Coords, polygon ) ) Panic( "Unable to parse polygon string '%s' for zone %d/%s for monitor %s", Coords, Id, Name, monitor->Name() ); if ( polygon.LoX() < 0 || polygon.HiX() >= monitor->Width() || polygon.LoY() < 0 || polygon.HiY() >= monitor->Height() ) Panic( "Zone %d/%s for monitor %s extends outside of image dimensions, %d, %d, %d, %d", Id, Name, monitor->Name(), polygon.LoX(), polygon.LoY(), polygon.HiX(), polygon.HiY() ); if ( false && !strcmp( Units, "Percent" ) ) { MinAlarmPixels = (MinAlarmPixels*polygon.Area())/100; MaxAlarmPixels = (MaxAlarmPixels*polygon.Area())/100; MinFilterPixels = (MinFilterPixels*polygon.Area())/100; MaxFilterPixels = (MaxFilterPixels*polygon.Area())/100; MinBlobPixels = (MinBlobPixels*polygon.Area())/100; MaxBlobPixels = (MaxBlobPixels*polygon.Area())/100; } if ( atoi(dbrow[2]) == Zone::INACTIVE ) { zones[i] = new Zone( monitor, Id, Name, polygon ); } else { zones[i] = new Zone( monitor, Id, Name, (Zone::ZoneType)Type, polygon, AlarmRGB, (Zone::CheckMethod)CheckMethod, MinPixelThreshold, MaxPixelThreshold, MinAlarmPixels, MaxAlarmPixels, Coord( FilterX, FilterY ), MinFilterPixels, MaxFilterPixels, MinBlobPixels, MaxBlobPixels, MinBlobs, MaxBlobs, OverloadFrames ); } } 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 ); } bool Zone::DumpSettings( char *output, bool /*verbose*/ ) { 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":( type==PRECLUSIVE?"Preclusive":( type==INACTIVE?"Inactive":"Unknown" ))))); sprintf( output+strlen(output), " Shape : %d points\n", polygon.getNumCoords() ); for ( int i = 0; i < polygon.getNumCoords(); i++ ) { sprintf( output+strlen(output), " %i: %d,%d\n", i, polygon.getCoord( i ).X(), polygon.getCoord( i ).Y() ); } sprintf( output+strlen(output), " Alarm RGB : %06x\n", alarm_rgb ); sprintf( output+strlen(output), " Check Method: %d - %s\n", check_method, check_method==ALARMED_PIXELS?"Alarmed Pixels":( check_method==FILTERED_PIXELS?"FilteredPixels":( check_method==BLOBS?"Blobs":"Unknown" ))); sprintf( output+strlen(output), " Min Pixel Threshold : %d\n", min_pixel_threshold ); sprintf( output+strlen(output), " Max Pixel Threshold : %d\n", max_pixel_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 ); } void Zone::std_alarmedpixels(Image* pdiff_image, const Image* ppoly_image, unsigned int* pixel_count, unsigned int* pixel_sum) { uint32_t pixelsalarmed = 0; uint32_t pixelsdifference = 0; uint8_t *pdiff; const uint8_t *ppoly; uint8_t calc_max_pixel_threshold = 255; unsigned int lo_y; unsigned int hi_y; unsigned int lo_x; unsigned int hi_x; if(max_pixel_threshold) calc_max_pixel_threshold = max_pixel_threshold; lo_y = polygon.LoY(); hi_y = polygon.HiY(); for ( int y = lo_y; y <= hi_y; y++ ) { lo_x = ranges[y].lo_x; hi_x = ranges[y].hi_x; Debug( 7, "Checking line %d from %d -> %d", y, lo_x, hi_x ); pdiff = (uint8_t*)pdiff_image->Buffer( lo_x, y ); ppoly = ppoly_image->Buffer( lo_x, y ); for ( int x = lo_x; x <= hi_x; x++, pdiff++, ppoly++ ) { if ( *ppoly && (*pdiff > min_pixel_threshold) && (*pdiff <= calc_max_pixel_threshold) ) { pixelsalarmed++; pixelsdifference += *pdiff; *pdiff = WHITE; } else { *pdiff = BLACK; } } } /* Store the results */ *pixel_count = pixelsalarmed; *pixel_sum = pixelsdifference; }