Exemplo n.º 1
0
        public static float[] FitAndGeneratePlane(float[] intensities, int2 dims)
        {
            float3[] Points = new float3[dims.Elements()];
            for (int y = 0; y < dims.Y; y++)
            {
                for (int x = 0; x < dims.X; x++)
                {
                    Points[y * dims.X + x] = new float3(x, y, intensities[y * dims.X + x]);
                }
            }

            float3 Plane = FitPlane(Points);

            float[] Result = new float[dims.Elements()];

            for (int y = 0; y < dims.Y; y++)
            {
                for (int x = 0; x < dims.X; x++)
                {
                    Result[y * dims.X + x] = x * Plane.X + y * Plane.Y + Plane.Z;
                }
            }

            return Result;
        }
Exemplo n.º 2
0
        public static int3[] GetEqualGridSpacing(int2 dimsImage, int2 dimsRegion, float overlapFraction, out int2 dimsGrid)
        {
            int2 dimsoverlap = new int2((int)(dimsRegion.X * (1.0f - overlapFraction)), (int)(dimsRegion.Y * (1.0f - overlapFraction)));

            dimsGrid = new int2(MathHelper.NextMultipleOf(dimsImage.X - (dimsRegion.X - dimsoverlap.X), dimsoverlap.X) / dimsoverlap.X,
                                MathHelper.NextMultipleOf(dimsImage.Y - (dimsRegion.Y - dimsoverlap.Y), dimsoverlap.Y) / dimsoverlap.Y);

            int2 shift;

            shift.X = dimsGrid.X > 1 ? (int)((dimsImage.X - dimsRegion.X) / (float)(dimsGrid.X - 1)) : (dimsImage.X - dimsRegion.X) / 2;
            shift.Y = dimsGrid.Y > 1 ? (int)((dimsImage.Y - dimsRegion.Y) / (float)(dimsGrid.Y - 1)) : (dimsImage.Y - dimsRegion.Y) / 2;
            int2 offset = new int2((dimsImage.X - shift.X * (dimsGrid.X - 1) - dimsRegion.X) / 2,
                                   (dimsImage.Y - shift.Y * (dimsGrid.Y - 1) - dimsRegion.Y) / 2);

            int3[] h_origins = new int3[dimsGrid.Elements()];

            for (int y = 0; y < dimsGrid.Y; y++)
            {
                for (int x = 0; x < dimsGrid.X; x++)
                {
                    h_origins[y * dimsGrid.X + x] = new int3(x * shift.X + offset.X, y * shift.Y + offset.Y, 0);
                }
            }

            return(h_origins);
        }
Exemplo n.º 3
0
        public static void FitAndSubtractGrid(float[] intensities, int2 dims, int2 gridDims)
        {
            float2 GridSpacing = new float2(dims) / new float2(gridDims + 1);

            float2[] GridCentroids = Helper.Combine(Helper.ArrayOfFunction(y =>
                                                                           Helper.ArrayOfFunction(x => new float2((x + 1) * GridSpacing.X,
                                                                                                                  (y + 1) * GridSpacing.Y),
                                                                                                  gridDims.X), gridDims.Y));
            float3[] Planes = new float3[gridDims.Elements()];

            Parallel.For(0, gridDims.Elements(), ci =>
            {
                float2 Centroid = GridCentroids[ci];

                int2 PositionStart = int2.Max(new int2(Centroid - GridSpacing), 0);
                int2 PositionEnd   = int2.Min(new int2(Centroid + GridSpacing + 1), dims);
                int2 PatchDims     = PositionEnd - PositionStart;
                float3[] Points    = new float3[PatchDims.Elements()];

                for (int y = 0; y < PatchDims.Y; y++)
                {
                    for (int x = 0; x < PatchDims.X; x++)
                    {
                        Points[y * PatchDims.X + x] = new float3(x - GridSpacing.X,
                                                                 y - GridSpacing.Y,
                                                                 intensities[(y + PositionStart.Y) * dims.X + x + PositionStart.X]);
                    }
                }

                Planes[ci] = FitPlane(Points);
            });

            float[] FittedGrid = new float[dims.Elements()];

            Parallel.For(0, dims.Y, y =>
            {
                for (int x = 0; x < dims.X; x++)
                {
                    int2 Centroid0   = int2.Min(int2.Max(new int2((new float2(x, y) - GridSpacing) / GridSpacing), 0), gridDims - 1);
                    int CentroidID00 = gridDims.ElementFromPosition(Centroid0);
                    int CentroidID01 = gridDims.ElementFromPosition(int2.Min(Centroid0 + new int2(1, 0), gridDims - 1));
                    int CentroidID10 = gridDims.ElementFromPosition(int2.Min(Centroid0 + new int2(0, 1), gridDims - 1));
                    int CentroidID11 = gridDims.ElementFromPosition(int2.Min(Centroid0 + new int2(1, 1), gridDims - 1));

                    float2 Centroid00 = GridCentroids[CentroidID00];
                    float2 Centroid01 = GridCentroids[CentroidID01];
                    float2 Centroid10 = GridCentroids[CentroidID10];
                    float2 Centroid11 = GridCentroids[CentroidID11];

                    float Interp00 = (x - Centroid00.X) * Planes[CentroidID00].X + (y - Centroid00.Y) * Planes[CentroidID00].Y + Planes[CentroidID00].Z;
                    float Interp01 = (x - Centroid01.X) * Planes[CentroidID01].X + (y - Centroid01.Y) * Planes[CentroidID01].Y + Planes[CentroidID01].Z;
                    float Interp10 = (x - Centroid10.X) * Planes[CentroidID10].X + (y - Centroid10.Y) * Planes[CentroidID10].Y + Planes[CentroidID10].Z;
                    float Interp11 = (x - Centroid11.X) * Planes[CentroidID11].X + (y - Centroid11.Y) * Planes[CentroidID11].Y + Planes[CentroidID11].Z;

                    float fX = Math.Max(0, Math.Min(1, (x - Centroid00.X) / GridSpacing.X));
                    float fY = Math.Max(0, Math.Min(1, (y - Centroid00.Y) / GridSpacing.Y));

                    float Interp0 = Interp00 * (1 - fX) + Interp01 * fX;
                    float Interp1 = Interp10 * (1 - fX) + Interp11 * fX;

                    float Interp = Interp0 * (1 - fY) + Interp1 * fY;

                    FittedGrid[y * dims.X + x] = Interp;
                }
            });

            for (int i = 0; i < intensities.Length; i++)
            {
                intensities[i] -= FittedGrid[i];
            }
        }
Exemplo n.º 4
0
        public static MapHeader ReadFromFile(BinaryReader reader, FileInfo info, int2 headerlessSliceDims, long headerlessOffset, Type headerlessType)
        {
            MapHeader Header = null;

            if (info.Extension.ToLower() == ".mrc" || info.Extension.ToLower() == ".mrcs" || info.Extension.ToLower() == ".ali" || info.Extension.ToLower() == ".rec" || info.Extension.ToLower() == ".st")
                Header = new HeaderMRC(reader);
            else if (info.Extension.ToLower() == ".em")
                Header = new HeaderEM(reader);
            else if (info.Extension.ToLower() == ".tif" || info.Extension.ToLower() == ".tiff")
                Header = new HeaderTiff(info.FullName);
            else if (info.Extension.ToLower() == ".dat")
            {
                long SliceElements = headerlessSliceDims.Elements() * ImageFormatsHelper.SizeOf(headerlessType);
                long Slices = (info.Length - headerlessOffset) / SliceElements;
                int3 Dims3 = new int3(headerlessSliceDims.X, headerlessSliceDims.Y, (int)Slices);
                Header = new HeaderRaw(Dims3, headerlessOffset, headerlessType);
            }
            else
                throw new Exception("File type not supported.");

            return Header;
        }