예제 #1
0
        /// <summary> Constructs a Grib1BinaryDataSection object from a raf.
        /// A bit map is defined.
        ///
        /// </summary>
        /// <param name="raf">raf with BDS content
        /// </param>
        /// <param name="decimalscale">the exponent of the decimal scale
        /// </param>
        /// <param name="bms">bit map section of GRIB record
        ///
        /// </param>
        /// <throws>  NotSupportedException  if stream contains no valid GRIB file </throws>
        //UPGRADE_TODO: Class 'java.io.RandomAccessFile' was converted to 'System.IO.FileStream' which has a different behavior. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1073_javaioRandomAccessFile'"
        public Grib1BinaryDataSection(System.IO.FileStream raf, int decimalscale, Grib1BitMapSection bms)
        {
            // octets 1-3 (section length)
            length = (int)GribNumbers.uint3(raf);
            //System.out.println( "BDS length = " + length );

            // octet 4, 1st half (packing flag)
            int unusedbits = raf.ReadByte();

            // TODO Check this!!!
            if ((unusedbits & 192) != 0)
            {
                throw new NotSupportedException("BDS: (octet 4, 1st half) not grid point data and simple packing ");
            }

            // octet 4, 2nd half (number of unused bits at end of this section)
            unusedbits = unusedbits & 15;
            //System.out.println( "BDS unusedbits = " + unusedbits );

            // octets 5-6 (binary scale factor)
            int binscale = GribNumbers.int2(raf);

            // octets 7-10 (reference point = minimum value)
            float refvalue = GribNumbers.float4(raf);

            // octet 11 (number of bits per value)
            int numbits = raf.ReadByte();

            //System.out.println( "BDS numbits = " + numbits );
            if (numbits == 0)
            {
                isConstant = true;
            }
            //System.out.println( "BDS isConstant = " + isConstant );

            // *** read values *******************************************************

            //UPGRADE_WARNING: Data types in Visual C# might be different.  Verify the accuracy of narrowing conversions. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1042'"
            float ref_Renamed = (float)(System.Math.Pow(10.0, -decimalscale) * refvalue);
            //UPGRADE_WARNING: Data types in Visual C# might be different.  Verify the accuracy of narrowing conversions. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1042'"
            float scale = (float)(System.Math.Pow(10.0, -decimalscale) * System.Math.Pow(2.0, binscale));

            if (bms != null)
            {
                bool[] bitmap = bms.Bitmap;

                values = new float[bitmap.Length];
                for (int i = 0; i < bitmap.Length; i++)
                {
                    if (bitmap[i])
                    {
                        if (!isConstant)
                        {
                            values[i] = ref_Renamed + scale * bits2UInt(numbits, raf);
                        }
                        else
                        {
                            // rdg - added this to handle a constant valued parameter
                            values[i] = ref_Renamed;
                        }
                    }
                    else
                    {
                        values[i] = Grib1BinaryDataSection.UNDEFINED;
                    }
                }
            }
            else
            {
                // bms is null
                if (!isConstant)
                {
                    //System.out.println( "BDS values.size = " +
                    //(((length - 11) * 8 - unusedbits) /  numbits));
                    values = new float[((length - 11) * 8 - unusedbits) / numbits];

                    for (int i = 0; i < values.Length; i++)
                    {
                        values[i] = ref_Renamed + scale * bits2UInt(numbits, raf);
                    }
                }
                else
                {
                    // constant valued - same min and max
                    int x = 0, y = 0;
                    raf.Seek(raf.Position - 53, System.IO.SeekOrigin.Begin);                     // return to start of GDS
                    length = (int)GribNumbers.uint3(raf);
                    if (length == 42)
                    {
                        // Lambert/Mercator offset
                        SupportClass.Skip(raf, 3);
                        x = GribNumbers.int2(raf);
                        y = GribNumbers.int2(raf);
                    }
                    else
                    {
                        SupportClass.Skip(raf, 7);
                        length = (int)GribNumbers.uint3(raf);
                        if (length == 32)
                        {
                            // Polar sterographic
                            SupportClass.Skip(raf, 3);
                            x = GribNumbers.int2(raf);
                            y = GribNumbers.int2(raf);
                        }
                        else
                        {
                            x = y = 1;
                            System.Console.Out.WriteLine("BDS constant value, can't determine array size");
                        }
                    }
                    values = new float[x * y];
                    for (int i = 0; i < values.Length; i++)
                    {
                        values[i] = ref_Renamed;
                    }
                }
            }
        }         // end Grib1BinaryDataSection
예제 #2
0
        /// <summary> Constructs a <tt>Grib1GridDefinitionSection</tt> object from a raf.
        ///
        /// </summary>
        /// <param name="raf">RandomAccessFile with GDS content
        ///
        /// </param>
        /// <throws>  NoValidGribException  if raf contains no valid GRIB info </throws>
        //UPGRADE_TODO: Class 'java.io.RandomAccessFile' was converted to 'System.IO.FileStream' which has a different behavior. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1073_javaioRandomAccessFile'"
        public Grib1GridDefinitionSection(System.IO.FileStream raf)
        {
            int reserved;             // used to read empty space

            // octets 1-3 (Length of GDS)
            length = (int)GribNumbers.uint3(raf);
            if (length == 0)
            {
                // there's a extra byte between PDS and GDS
                SupportClass.Skip(raf, -2);
                length = (int)GribNumbers.uint3(raf);
            }
            //System.out.println( "GDS length = " + length );

            // TODO Fix Checksum stuff
            // get byte array for this gds, then reset raf to same position
            // calculate checksum for this gds via the byte array

            /*
             * long mark = raf.Position;
             * sbyte[] dst = new sbyte[length - 3];
             * SupportClass.ReadInput(raf, dst, 0, dst.Length);
             * raf.Seek(mark, System.IO.SeekOrigin.Begin);
             * //UPGRADE_ISSUE: Class 'java.util.zip.CRC32' was not converted. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1000_javautilzipCRC32'"
             * //UPGRADE_ISSUE: Constructor 'java.util.zip.CRC32.CRC32' was not converted. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1000_javautilzipCRC32'"
             * CRC32 cs = new CRC32();
             * //UPGRADE_ISSUE: Method 'java.util.zip.CRC32.update' was not converted. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1000_javautilzipCRC32'"
             * cs.update(dst);
             * //UPGRADE_ISSUE: Method 'java.util.zip.CRC32.getValue' was not converted. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1000_javautilzipCRC32'"
             * checksum = System.Convert.ToString(cs.getValue());
             * //System.out.println( "GDS checksum =" + checksum );
             */

            // octets 4 NV
            int NV = raf.ReadByte();

            //System.out.println( "GDS NV = " + NV );

            // octet 5 PL the location (octet number) of the list of numbers of points in each row
            P_VorL = raf.ReadByte();
            //System.out.println( "GDS PL = " + P_VorL );

            // octet 6 (grid type)
            type = raf.ReadByte();
            //System.out.println( "GDS grid type = " + type );
            name = getName(type);

            if (type != 50)
            {
                // values same up to resolution

                // octets 7-8 (Nx - number of points along x-axis)
                nx = GribNumbers.int2(raf);
                nx = (nx == -1)?1:nx;

                // octets 9-10 (Ny - number of points along y-axis)
                ny = GribNumbers.int2(raf);
                ny = (ny == -1)?1:ny;

                // octets 11-13 (La1 - latitude of first grid point)
                lat1 = GribNumbers.int3(raf) / 1000.0;

                // octets 14-16 (Lo1 - longitude of first grid point)
                lon1 = GribNumbers.int3(raf) / 1000.0;

                // octet 17 (resolution and component flags).  See Table 7
                resolution = raf.ReadByte();
            }

            switch (type)
            {
            //  Latitude/Longitude  grids ,  Arakawa semi-staggered e-grid rotated
            //  Arakawa filled e-grid rotated
            case 0:
            case 4:
            case 40:
            case 201:
            case 202:

                // octets 18-20 (La2 - latitude of last grid point)
                lat2 = GribNumbers.int3(raf) / 1000.0;

                // octets 21-23 (Lo2 - longitude of last grid point)
                lon2 = GribNumbers.int3(raf) / 1000.0;

                // octets 24-25 (Dx - Longitudinal Direction Increment )
                dx = GribNumbers.int2(raf) / 1000.0;

                // octets 26-27 (Dy - Latitudinal Direction Increment )
                //               Np - parallels between a pole and the equator
                if (type == 4)
                {
                    np = GribNumbers.int2(raf);
                }
                else
                {
                    dy = GribNumbers.int2(raf) / 1000.0;
                }

                // octet 28 (Scanning mode)  See Table 8
                scan = raf.ReadByte();

                // octet 29-32 reserved
                reserved = GribNumbers.int4(raf);

                if (length > 32)
                {
                    // getP_VorL(raf);
                    // Vertical coordinates (NV) and thinned grids (PL) not supported - skip this
                    SupportClass.Skip(raf, length - 32);
                }

                break;                         // end Latitude/Longitude grids


            case 1:                      //  Mercator grids

                // octets 18-20 (La2 - latitude of last grid point)
                lat2 = GribNumbers.int3(raf) / 1000.0;

                // octets 21-23 (Lo2 - longitude of last grid point)
                lon2 = GribNumbers.int3(raf) / 1000.0;

                // octets 24-26 (Latin - latitude where cylinder intersects the earth
                latin1 = GribNumbers.int3(raf) / 1000.0;

                // octet 27 reserved
                reserved = raf.ReadByte();

                // octet 28 (Scanning mode)  See Table 8
                scan = raf.ReadByte();

                // octets 29-31 (Dx - Longitudinal Direction Increment )
                dx = GribNumbers.int3(raf);

                // octets 32-34 (Dx - Longitudinal Direction Increment )
                dy = GribNumbers.int3(raf);

                // octet 35-42 reserved
                reserved = GribNumbers.int4(raf);
                reserved = GribNumbers.int4(raf);

                if (length > 42)
                {
                    // getP_VorL(raf);
                    // Vertical coordinates (NV) and thinned grids (PL) not supported - skip this
                    SupportClass.Skip(raf, length - 42);
                }

                break;                         // end Mercator grids


            case 3:                      // Lambert Conformal

                // octets 18-20 (Lov - Orientation of the grid - east lon parallel to y axis)
                lov = GribNumbers.int3(raf) / 1000.0;

                // octets 21-23 (Dx - the X-direction grid length) See Note 2 of Table D
                dx = GribNumbers.int3(raf);

                // octets 24-26 (Dy - the Y-direction grid length) See Note 2 of Table D
                dy = GribNumbers.int3(raf);

                // octets 27 (Projection Center flag) See Note 5 of Table D
                proj_center = raf.ReadByte();

                // octet 28 (Scanning mode)  See Table 8
                scan = raf.ReadByte();

                // octets 29-31 (Latin1 - first lat where secant cone cuts spherical earth
                latin1 = GribNumbers.int3(raf) / 1000.0;

                // octets 32-34 (Latin2 - second lat where secant cone cuts spherical earth)
                latin2 = GribNumbers.int3(raf) / 1000.0;

                // octets 35-37 (lat of southern pole)
                latsp = GribNumbers.int3(raf) / 1000.0;

                // octets 38-40 (lon of southern pole)
                lonsp = GribNumbers.int3(raf) / 1000.0;

                // octets 41-42
                reserved = GribNumbers.int2(raf);

                if (length > 42)
                {
                    // getP_VorL(raf);
                    // Vertical coordinates (NV) and thinned grids (PL) not supported - skip this
                    SupportClass.Skip(raf, length - 42);
                }

                break;                         // end Lambert Conformal


            case 5:                      //  Polar Stereographic grids

                // octets 18-20 (Lov - Orientation of the grid - east lon parallel to y axis)
                lov = GribNumbers.int3(raf) / 1000.0;

                // octets 21-23 (Dx - Longitudinal Direction Increment )
                dx = GribNumbers.int3(raf);

                // octets 24-26(Dy - Latitudinal Direction Increment )
                dy = GribNumbers.int3(raf);

                // octets 27 (Projection Center flag) See Note 5 of Table D
                proj_center = raf.ReadByte();

                // octet 28 (Scanning mode)  See Table 8
                scan = raf.ReadByte();

                // octet 29-32 reserved
                reserved = GribNumbers.int4(raf);

                if (length > 32)
                {
                    // getP_VorL(raf);
                    // Vertical coordinates (NV) and thinned grids (PL) not supported - skip this
                    SupportClass.Skip(raf, length - 32);
                }

                break;                         // end Polar Stereographic grids

            //rotated grid
            case 10:
                //18-20
                this.lat2 = GribNumbers.int3(raf) / 1000.0;
                //21-23
                this.lon2 = GribNumbers.int3(raf) / 1000.0;

                //24-25
                var tmpDx = GribNumbers.int2(raf);
                this.dx = tmpDx == -1 ? -9999.0 : tmpDx / 1000.0;

                //26-27
                var tmpDy = GribNumbers.int2(raf);
                this.dy = tmpDy == -1 ? -9999.0 : tmpDy / 1000.0;

                //28
                scan = raf.ReadByte();
                //29-32
                GribNumbers.int4(raf);

                //33-35
                this.latsp = GribNumbers.int3(raf) / 1000.0;
                //36-38
                this.lonsp = GribNumbers.int3(raf) / 1000.0;

                //39-42 - angle
                GribNumbers.float4(raf);

                if (length > 42)
                {
                    SupportClass.Skip(raf, length - 42);
                }

                break;


            default:
                System.Console.Out.WriteLine("Unknown Grid Type : " + type);
                break;
            }             // end switch grid_type

            //System.out.println( "scan=" + scan );
            if ((scan & 63) != 0)
            {
                throw new NoValidGribException("GDS: This scanning mode (" + scan + ") is not supported.");
            }
        }         // end Grib1GridDefinitionSection( raf )