public void SerializeCheck()
 {
     if (scan_regions != null && scan_regions.IsInitialized())
     {
         scan_regions.Dispose();
     }
     if (resultXLDCont != null && resultXLDCont.IsInitialized())
     {
         resultXLDCont.Dispose();
     }
     if (resultRegion != null && resultRegion.IsInitialized())
     {
         resultRegion.Dispose();
     }
     refImage         = null;
     createShapeModel = null;
     if (SearchRegion != null && !SearchRegion.IsInitialized())
     {
         SearchRegion = null;
     }
     using (Stream objectStream = new MemoryStream())
     {
         System.Runtime.Serialization.IFormatter formatter = new System.Runtime.Serialization.Formatters.Binary.BinaryFormatter();
         formatter.Serialize(objectStream, this);
     }
 }
 public void Reset()
 {
     if (SearchRegion != null && !SearchRegion.IsInitialized())
     {
         SearchRegion.Dispose();
     }
     SearchRegion         = null;
     refImage             = null;
     createShapeModel     = null;
     FindShapeModeRoiList = new List <ROI>();
 }
 private void FindScaleShapeMode(CreateShapeModel createShapeModel, HImage temp)
 {
     createShapeModel.hShapeModel.SetShapeModelParam(new HTuple("timeout"), new HTuple(80.0));
     try
     {
         createShapeModel.hShapeModel.FindScaledShapeModel(
             temp,
             createShapeModel.angleStart, createShapeModel.angleExtent,
             createShapeModel.scaleMin, createShapeModel.scaleMax,
             minScore, numMatches,
             maxOverlap,
             new HTuple(subPixel).TupleConcat("max_deformation 2"),
             new HTuple(new int[] { createShapeModel.numLevels, numLevels }),
             greediness,
             out row_temp, out column_temp, out angle_temp, out scale_temp, out score_temp);
     }
     catch
     {
     }
 }
 public void Close()
 {
     if (scan_regions != null && scan_regions.IsInitialized())
     {
         scan_regions.Dispose();
     }
     if (resultXLDCont != null && resultXLDCont.IsInitialized())
     {
         resultXLDCont.Dispose();
     }
     resultXLDCont = null;
     if (resultRegion != null && resultRegion.IsInitialized())
     {
         resultRegion.Dispose();
     }
     resultRegion     = null;
     refImage         = null;
     createShapeModel = null;
     if (SearchRegion != null && SearchRegion.IsInitialized())
     {
         SearchRegion.Dispose();
     }
     SearchRegion = null;
 }
        public bool FindShapeModeAct(HImage refImage, CreateShapeModel createShapeModel, HImage image)
        {
            this.createShapeModel = createShapeModel;
            this.refImage         = refImage;

            if (createShapeModel.hShapeModel == null || !createShapeModel.hShapeModel.IsInitialized() || createShapeModel.createNewModelID)
            {
                if (!createShapeModel.CreateShapeModelAct(refImage))
                {
                    return(false);
                }
            }
            try
            {
                HImage searchImage;
                if (SearchRegion != null && SearchRegion.IsInitialized())
                {
                    searchImage = image.ReduceDomain(SearchRegion);
                }
                else
                {
                    searchImage = image.Clone();
                }


                ////阈值切割出预选框///
                LG_lenght = new HTuple();
                LG_Area   = new HTuple();
                DP_width  = new HTuple();
                HRegion threshold_region, closing_region, fill_up_region, connection;
                threshold_region = searchImage.Threshold(new HTuple(LG_threshould), 255).OpeningCircle(5.0);

                closing_region = threshold_region.ClosingRectangle1(Closing_width, Closing_height);
                fill_up_region = closing_region.FillUp();
                connection     = fill_up_region.Connection();
                if (scan_regions != null && scan_regions.IsInitialized())
                {
                    scan_regions.Dispose();
                }
                scan_regions = connection.SelectShape
                               (
                    new HTuple("area").TupleConcat("rect2_len1").TupleConcat("rect2_len2"),
                    "and",
                    new HTuple(LG_Area_min).TupleConcat(LG_lenght_min / 2).TupleConcat(DP_width_min / 2),
                    new HTuple(LG_Area_max).TupleConcat(LG_lenght_max / 2).TupleConcat(DP_width_max / 2)
                               );

                if (threshold_region != null && threshold_region.IsInitialized())
                {
                    threshold_region.Dispose();
                }
                if (closing_region != null && closing_region.IsInitialized())
                {
                    closing_region.Dispose();
                }
                if (fill_up_region != null && fill_up_region.IsInitialized())
                {
                    fill_up_region.Dispose();
                }
                if (connection != null && connection.IsInitialized())
                {
                    connection.Dispose();
                }
                ////阈值切割出预选框///


                row    = new HTuple();
                column = new HTuple();
                angle  = new HTuple();
                scale  = new HTuple();
                score  = new HTuple();

                int Num = scan_regions.CountObj();
                if (Num == 0)
                {
                    return(true);
                }


                for (int i = 1; i <= Num; i++)
                {
                    HRegion scan_region_temp = scan_regions.SelectObj(i);

                    double row_rect2, col_rect2, phi_rect2, leght1_rect2, lenght2_rect2;
                    scan_region_temp.SmallestRectangle2(out row_rect2, out col_rect2, out phi_rect2, out leght1_rect2, out lenght2_rect2);
                    if (LG_lenght == null || LG_lenght.Length == 0)
                    {
                        LG_lenght = new HTuple(2 * leght1_rect2);
                    }
                    else
                    {
                        LG_lenght = LG_lenght.TupleConcat(new HTuple(2 * leght1_rect2));
                    }
                    if (DP_width == null || DP_width.Length == 0)
                    {
                        DP_width = new HTuple(2 * lenght2_rect2);
                    }
                    else
                    {
                        DP_width = DP_width.TupleConcat(new HTuple(2 * lenght2_rect2));
                    }
                    if (LG_Area == null || LG_Area.Length == 0)
                    {
                        LG_Area = scan_region_temp.Area;
                    }
                    else
                    {
                        LG_Area = LG_Area.TupleConcat(scan_region_temp.Area);
                    }


                    row_temp    = new HTuple();
                    column_temp = new HTuple();
                    angle_temp  = new HTuple();
                    scale_temp  = new HTuple();
                    score_temp  = new HTuple();

                    //HRegion dilation_Diff = image.GetDomain().Difference(scan_region_temp.DilationCircle(10.0));
                    //HImage souce_image_temp = image.Clone();
                    //HImage paint_image = souce_image_temp.PaintRegion(dilation_Diff, new HTuple(10).TupleConcat(10).TupleConcat(10), "fill");
                    //HImage temp = paint_image.ReduceDomain(scan_region_temp.DilationCircle(10.0));
                    HImage temp       = image.ReduceDomain(scan_region_temp.DilationCircle(10.0));
                    HImage guassImage = temp.GaussFilter(7);

                    //HOperatorSet.SetSystem("thread_num", 4);

                    HTuple t1;
                    HOperatorSet.CountSeconds(out t1);

                    try
                    {
                        createShapeModel.hShapeModel.FindScaledShapeModel(
                            guassImage,
                            createShapeModel.angleStart, createShapeModel.angleExtent,
                            createShapeModel.scaleMin, createShapeModel.scaleMax,
                            minScore, numMatches,
                            maxOverlap,
                            new HTuple(subPixel).TupleConcat("max_deformation 2"),
                            new HTuple(new int[] { createShapeModel.numLevels, numLevels }),
                            greediness,
                            out row_temp, out column_temp, out angle_temp, out scale_temp, out score_temp);
                    }
                    catch
                    {
                    }
                    HTuple t2;
                    HOperatorSet.CountSeconds(out t2);
                    double time = (t2 - t1).D * 1000;
                    Util.Notify("每次模板匹配用时:" + time.ToString("F2") + "ms");
                    guassImage.Dispose();
                    temp.Dispose();
                    //souce_image_temp.Dispose();
                    //paint_image.Dispose();
                    //dilation_Diff.Dispose();
                    scan_region_temp.Dispose();

                    if (row_temp != null && row_temp.Length > 0)
                    {
                        if (row.Length == 0)
                        {
                            row    = row_temp;
                            column = column_temp;
                            angle  = angle_temp;
                            scale  = scale_temp;
                            score  = score_temp;
                        }
                        else
                        {
                            row    = row.TupleConcat(row_temp);
                            column = column.TupleConcat(column_temp);
                            angle  = angle.TupleConcat(angle_temp);
                            scale  = scale.TupleConcat(scale_temp);
                            score  = score.TupleConcat(score_temp);
                        }
                    }
                }
                searchImage.Dispose();
            }
            catch
            {
                return(false);
            }

            return(true);
        }