select_shape_protoselect_shape_protoSelectShapeProtoselect_shape_protoSelectShapeProtoSelectShapeProto (Operator)

Name

select_shape_protoselect_shape_protoSelectShapeProtoselect_shape_protoSelectShapeProtoSelectShapeProto — Choose regions having a certain relation to each other.

Signature

select_shape_proto(Regions, Pattern : SelectedRegions : Feature, Min, Max : )

The operator select_shape_protoselect_shape_protoSelectShapeProtoselect_shape_protoSelectShapeProtoSelectShapeProto selects regions based on certain relations between the regions. Every region from RegionsRegionsRegionsRegionsRegionsregions is compared to the union of regions from PatternPatternPatternPatternPatternpattern. The limits (MinMinMinMinMinmin and MaxMaxMaxMaxMaxmax) are specified absolutely or in percent (0..100), depending on the feature. Possible values for FeatureFeatureFeatureFeatureFeaturefeature are:

'distance_dilate': The minimum distance in the maximum norm from the edge of PatternPatternPatternPatternPatternpattern to the edge of every region from RegionsRegionsRegionsRegionsRegionsregions is determined (see distance_rr_min_dildistance_rr_min_dilDistanceRrMinDildistance_rr_min_dilDistanceRrMinDilDistanceRrMinDil).
'distance_contour': The minimum Euclidean distance from the edge of PatternPatternPatternPatternPatternpattern to the edge of every region from RegionsRegionsRegionsRegionsRegionsregions is determined. (see distance_rr_mindistance_rr_minDistanceRrMindistance_rr_minDistanceRrMinDistanceRrMin).
'distance_center': The Euclidean distance from the center of PatternPatternPatternPatternPatternpattern to the center of every region from RegionsRegionsRegionsRegionsRegionsregions is determined.
'covers': It is examined how well the region PatternPatternPatternPatternPatternpattern fits into the regions from RegionsRegionsRegionsRegionsRegionsregions. If there is no shift so that PatternPatternPatternPatternPatternpattern is a subset of RegionsRegionsRegionsRegionsRegionsregions the overlap is 0. If PatternPatternPatternPatternPatternpattern corresponds to the region after a corresponding shift the overlap is 100. Otherwise the area of the opening of RegionsRegionsRegionsRegionsRegionsregions with PatternPatternPatternPatternPatternpattern is put into relation with the area of RegionsRegionsRegionsRegionsRegionsregions (in percent).
'fits': It is examined whether PatternPatternPatternPatternPatternpattern can be shifted in such a way that it fits in RegionsRegionsRegionsRegionsRegionsregions. If this is possible the corresponding region is copied from RegionsRegionsRegionsRegionsRegionsregions. The parameters MinMinMinMinMinmin and MaxMaxMaxMaxMaxmax are ignored.
'overlaps_abs': The area of the intersection of PatternPatternPatternPatternPatternpattern and every region in RegionsRegionsRegionsRegionsRegionsregions is computed.
'overlaps_rel': The area of the intersection of PatternPatternPatternPatternPatternpattern and every region in RegionsRegionsRegionsRegionsRegionsregions is computed. The relative overlap is the ratio of the area of the intersection and the are of the respective region in RegionsRegionsRegionsRegionsRegionsregions (in percent).

Parallelization

Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Processed without parallelization.

Parameters

RegionsRegionsRegionsRegionsRegionsregions (input_object) region(-array) → object

Regions to be examined.

PatternPatternPatternPatternPatternpattern (input_object) region(-array) → object

Region compared to RegionsRegionsRegionsRegionsRegionsregions.

SelectedRegionsSelectedRegionsSelectedRegionsSelectedRegionsSelectedRegionsselectedRegions (output_object) region(-array) → object

Regions fulfilling the condition.

FeatureFeatureFeatureFeatureFeaturefeature (input_control) string(-array) → (string)

Shape features to be checked.

Default value: 'covers' "covers" "covers" "covers" "covers" "covers"

List of values: 'covers'"covers""covers""covers""covers""covers", 'distance_center'"distance_center""distance_center""distance_center""distance_center""distance_center", 'distance_contour'"distance_contour""distance_contour""distance_contour""distance_contour""distance_contour", 'distance_dilate'"distance_dilate""distance_dilate""distance_dilate""distance_dilate""distance_dilate", 'fits'"fits""fits""fits""fits""fits", 'overlaps_abs'"overlaps_abs""overlaps_abs""overlaps_abs""overlaps_abs""overlaps_abs", 'overlaps_rel'"overlaps_rel""overlaps_rel""overlaps_rel""overlaps_rel""overlaps_rel"

MinMinMinMinMinmin (input_control) number → (real / integer)

Lower border of feature.

Default value: 50.0

Suggested values: 0.0, 1.0, 5.0, 10.0, 20.0, 30.0, 50.0, 60.0, 70.0, 80.0, 90.0, 95.0, 99.0, 100.0, 200.0, 400.0

Typical range of values: 0.0 ≤ Min Min Min Min Min min

Minimum increment: 0.001

Recommended increment: 5.0

MaxMaxMaxMaxMaxmax (input_control) number → (real / integer)

Upper border of the feature.

Default value: 100.0

Suggested values: 0.0, 10.0, 20.0, 30.0, 50.0, 60.0, 70.0, 80.0, 90.0, 95.0, 99.0, 100.0, 200.0, 300.0, 400.0

Typical range of values: 0.0 ≤ Max Max Max Max Max max

Minimum increment: 0.001

Recommended increment: 5.0

Example (C++ (HALCON 5.0-10.0))

#include "HIOStream.h"
#if !defined(USE_IOSTREAM_H)
using namespace std;
#endif
#include "HalconCpp.h"
using namespace Halcon;

int main (int argc, char *argv[])
{
  if (argc < 2)
  {
    cout << "Usage: " << argv[0] << " <radius of circle>" << endl;
    exit (1);
  }

  double   rad = atof (argv[1]);
  HImage   img ("monkey");
  HWindow  w;

  img.Display (w);

  HRegion       circ = HRegion::GenCircle (100, 100, rad);
  HRegionArray  reg  = img.Regiongrowing (3, 3, 5, 0);
  HRegionArray  seg  = reg.SelectShapeProto (circ, "fits", 0, 0);

  w.SetColor  ("red");
  seg.Display (w);
  w.Click ();
  return(0);
}

Example (C)

regiongrowing(Image,&Seg,3,3,5.0,0);
gen_circle(&C,100.0,100.0,MinRadius);
select_shape_proto(Seg,C,"fits",0.0,0.0);

Example (C++ (HALCON 5.0-10.0))

#include "HIOStream.h"
#if !defined(USE_IOSTREAM_H)
using namespace std;
#endif
#include "HalconCpp.h"
using namespace Halcon;

int main (int argc, char *argv[])
{
  if (argc < 2)
  {
    cout << "Usage: " << argv[0] << " <radius of circle>" << endl;
    exit (1);
  }

  double   rad = atof (argv[1]);
  HImage   img ("monkey");
  HWindow  w;

  img.Display (w);

  HRegion       circ = HRegion::GenCircle (100, 100, rad);
  HRegionArray  reg  = img.Regiongrowing (3, 3, 5, 0);
  HRegionArray  seg  = reg.SelectShapeProto (circ, "fits", 0, 0);

  w.SetColor  ("red");
  seg.Display (w);
  w.Click ();
  return(0);
}

Example (C++ (HALCON 5.0-10.0))

#include "HIOStream.h"
#if !defined(USE_IOSTREAM_H)
using namespace std;
#endif
#include "HalconCpp.h"
using namespace Halcon;

int main (int argc, char *argv[])
{
  if (argc < 2)
  {
    cout << "Usage: " << argv[0] << " <radius of circle>" << endl;
    exit (1);
  }

  double   rad = atof (argv[1]);
  HImage   img ("monkey");
  HWindow  w;

  img.Display (w);

  HRegion       circ = HRegion::GenCircle (100, 100, rad);
  HRegionArray  reg  = img.Regiongrowing (3, 3, 5, 0);
  HRegionArray  seg  = reg.SelectShapeProto (circ, "fits", 0, 0);

  w.SetColor  ("red");
  seg.Display (w);
  w.Click ();
  return(0);
}

Example (C++ (HALCON 5.0-10.0))

#include "HIOStream.h"
#if !defined(USE_IOSTREAM_H)
using namespace std;
#endif
#include "HalconCpp.h"
using namespace Halcon;

int main (int argc, char *argv[])
{
  if (argc < 2)
  {
    cout << "Usage: " << argv[0] << " <radius of circle>" << endl;
    exit (1);
  }

  double   rad = atof (argv[1]);
  HImage   img ("monkey");
  HWindow  w;

  img.Display (w);

  HRegion       circ = HRegion::GenCircle (100, 100, rad);
  HRegionArray  reg  = img.Regiongrowing (3, 3, 5, 0);
  HRegionArray  seg  = reg.SelectShapeProto (circ, "fits", 0, 0);

  w.SetColor  ("red");
  seg.Display (w);
  w.Click ();
  return(0);
}

Example (C++ (HALCON 5.0-10.0))

#include "HIOStream.h"
#if !defined(USE_IOSTREAM_H)
using namespace std;
#endif
#include "HalconCpp.h"
using namespace Halcon;

int main (int argc, char *argv[])
{
  if (argc < 2)
  {
    cout << "Usage: " << argv[0] << " <radius of circle>" << endl;
    exit (1);
  }

  double   rad = atof (argv[1]);
  HImage   img ("monkey");
  HWindow  w;

  img.Display (w);

  HRegion       circ = HRegion::GenCircle (100, 100, rad);
  HRegionArray  reg  = img.Regiongrowing (3, 3, 5, 0);
  HRegionArray  seg  = reg.SelectShapeProto (circ, "fits", 0, 0);

  w.SetColor  ("red");
  seg.Display (w);
  w.Click ();
  return(0);
}