internal Grib1WaveSpectra2DDirFreq(System.IO.Stream raf)
{
SupportClass.Skip(raf, 4);
byte[] ver = GribNumbers.ReadBytes(raf, 4);
System.Text.Encoding enc = System.Text.Encoding.ASCII;
version = enc.GetString(ver);
SupportClass.Skip(raf, 2);
directionNumber = raf.ReadByte();
frequencyNumber = raf.ReadByte();
numberOfDirections = raf.ReadByte();
numberOfFrequencies = raf.ReadByte();
dirScaleFactor = GribNumbers.int4(raf);
freqScaleFactor = GribNumbers.int4(raf);
SupportClass.Skip(raf, 37);
directions = new double[numberOfDirections];
frequencies = new double[numberOfFrequencies];
for (int i = 0; i < numberOfDirections; i++)
{
int val = GribNumbers.int4(raf);
directions[i] = (double)val / (double)dirScaleFactor;
}
for (int i = 0; i < numberOfFrequencies; i++)
{
int val = GribNumbers.int4(raf);
frequencies[i] = (double)val / (double)freqScaleFactor;
}
}
// *** constructors *******************************************************
/// <summary> Constructs a <tt>Grib2BitMapSection</tt> object from a byteBuffer.
///
/// </summary>
/// <param name="raf">RandomAccessFile with Section BMS content
/// </param>
/// <param name="gds">Grib2GridDefinitionSection
/// </param>
/// <throws> IOException 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 Grib2BitMapSection(System.IO.FileStream raf, Grib2GridDefinitionSection gds)
{
int[] bitmask = new int[] { 128, 64, 32, 16, 8, 4, 2, 1 };
// octets 1-4 (Length of BMS)
length = GribNumbers.int4(raf);
//System.out.println( "BMS length=" + length );
section = raf.ReadByte();
//System.out.println( "BMS is 6, section=" + section );
bitMapIndicator = raf.ReadByte();
//System.out.println( "BMS bitMapIndicator=" + bitMapIndicator );
// no bitMap
if (bitMapIndicator != 0)
{
return;
}
sbyte[] data = new sbyte[this.length - 6];
SupportClass.ReadInput(raf, data, 0, data.Length);
// create new bit map, octet 4 contains number of unused bits at the end
this.bitmap = new bool[gds.NumberPoints];
//System.out.println( "BMS GDS NumberPoints = " + gds.getNumberPoints() );
//System.out.println( "BMS bitmap.length = " + this.bitmap.length );
// fill bit map
for (int i = 0; i < this.bitmap.Length; i++)
{
this.bitmap[i] = (data[i / 8] & bitmask[i % 8]) != 0;
}
}
// *** constructors *******************************************************
/// <summary> Constructs a <tt>Grib2LocalUseSection</tt> object from a raf.</summary>
/// <param name="raf">
/// </param>
/// <throws> IOException if raf contains no valid GRIB product </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 Grib2LocalUseSection(System.IO.FileStream raf)
{
// octets 1-4 (Length of GDS)
length = GribNumbers.int4(raf);
//System.out.println( "LUS length=" + length );
section = raf.ReadByte(); // This is section 2
//System.out.println( "LUS Local Use is 2, section=" + section );
if (section != 2)
{
// no local use section
SupportClass.Skip(raf, -5);
return;
}
else
{
//SupportClass.Skip(raf, length - 5);
bytes = new byte[length - 5];
int nb = raf.Read(bytes, 0, length - 5);
if (nb != length - 5)
{
throw new NoValidGribException("Failed to read Local Use Section data");
}
}
} // end of Grib2LocalUseSection
private int Xlength; // length of the x axis
// *** constructors *******************************************************
/// <summary> Constructor for a Grib2 Data Section.</summary>
/// <param name="getData">
/// </param>
/// <param name="raf">
/// </param>
/// <param name="gds">
/// </param>
/// <param name="drs">
/// </param>
/// <param name="bms">
/// </param>
/// <throws> IOException </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 Grib2DataSection(bool getData, System.IO.FileStream raf, Grib2GridDefinitionSection gds, Grib2DataRepresentationSection drs, Grib2BitMapSection bms)
{
//System.out.println( "raf.FilePointer=" + raf.FilePointer() );
// octets 1-4 (Length of DS)
length = GribNumbers.int4(raf);
//System.out.println( "DS length=" + length );
//System.out.println( "DS calculated end=" + ( raf.getFilePointer() + length -4 ));
// octet 5 section 7
section = raf.ReadByte();
//System.out.println( "DS is 7, section=" + section );
if (!getData)
{
// skip data read
//System.out.println( "raf.position before reposition="+raf.getFilePointer());
//System.out.println( "raf.length=" + raf.length() );
// sanity check for erronous ds length
if (length > 0 && length < raf.Length)
{
SupportClass.Skip(raf, length - 5);
//System.out.println( "raf.skipBytes = " + (length -5) );
}
else
{
length = 5; // only read length and section
}
//System.out.println( "raf.position after skip=" + raf.getFilePointer() );
return;
}
int dtn = drs.DataTemplateNumber;
//System.out.println( "DS dtn=" + dtn );
if (dtn == 0 || dtn == 1)
{
// 0: Grid point data - simple packing
// 1: Matrix values - simple packing
simpleUnpacking(raf, gds, drs, bms);
}
else if (dtn == 2)
{
// 2:Grid point data - complex packing
complexUnpacking(raf, gds, drs);
}
else if (dtn == 3)
{
// 3: complex packing with spatial differencing
complexUnpackingWithSpatial(raf, gds, drs);
}
else if (dtn == 40 || dtn == 40000)
{
// JPEG 2000 Stream Format
jpeg2000Unpacking(raf, gds, drs, bms);
}
} // end Grib2DataSection
// *** constructors *******************************************************
/// <summary> Constructs a <tt>Grib2IdentificationSection</tt> object from a RandomAccessFile.
///
/// </summary>
/// <param name="raf">RandomAccessFile with Section 1 content
///
/// </param>
/// <throws> IOException if raf 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 Grib2IdentificationSection(System.IO.FileStream raf)
{
// section 1 octet 1-4 (length of section)
length = GribNumbers.int4(raf);
//System.out.println( "IdentificationSection1 length=" + length );
section = raf.ReadByte();
//System.out.println( "Section number=" + section );
// Center octet 6-7
center_id = GribNumbers.int2(raf);
//System.out.println( "center_id=" + center_id );
// Center octet 8-9
subcenter_id = GribNumbers.int2(raf);
//System.out.println( "subcenter_id=" + subcenter_id );
// Paramter master table octet 10
master_table_version = raf.ReadByte();
//System.out.println( "master tbl=" + master_table_version );
// Paramter local table octet 11
local_table_version = raf.ReadByte();
//System.out.println( "local tbl=" + local_table_version );
// significanceOfRT octet 12
significanceOfRT = raf.ReadByte();
//System.out.println( "significanceOfRT=" + significanceOfRT );
// octets 13-19 (base time of forecast)
{
int year = GribNumbers.int2(raf);
int month = raf.ReadByte();
int day = raf.ReadByte();
int hour = raf.ReadByte();
int minute = raf.ReadByte();
int second = raf.ReadByte();
refTime = new DateTime(year, month, day, hour, minute, second, DateTimeKind.Utc);
baseTime = refTime;
referenceTime = refTime.ToString(dateFormat);
}
productStatus = raf.ReadByte();
//System.out.println( "productStatus=" + productStatus );
productType = raf.ReadByte();
//System.out.println( "productType=" + productType );
} // end if Grib2IdentificationSection
/// <summary> Creates an ensemble object for the product PDS.</summary>
/// <param name="raf">RandomAccessFile.
/// </param>
/// <param name="parameterNumber">
/// </param>
/// <throws> IOException </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'"
internal Grib1Ensemble(System.IO.Stream raf, int parameterNumber)
{
// skip 12 bytes to start of ensemble
SupportClass.Skip(raf, 12);
// octet 41 id's ensemble
int app = raf.ReadByte();
if (app != 1)
{
System.Console.Out.WriteLine("not ensemble product");
return;
}
// octet 42 Type
eType = raf.ReadByte();
// octet 43 Identification number
eId = raf.ReadByte();
// octet 44 Product Identifier
eProd = raf.ReadByte();
// octet 45 Spatial Identifier
eSpatial = raf.ReadByte();
if (parameterNumber == 191 || parameterNumber == 192)
{
// octet 46 Probability product definition
epd = raf.ReadByte();
// octet 47 Probability type
ept = raf.ReadByte();
// octet 48-51 Probability lower limit
epll = GribNumbers.int4(raf);
// octet 52-55 Probability upper limit
epul = GribNumbers.int4(raf);
// octet 56-60 reserved
int reserved = GribNumbers.int4(raf);
if (eType == 4 || eType == 5)
{
// octet 61 Ensemble size
eSize = raf.ReadByte();
// octet 62 Cluster size
eCSize = raf.ReadByte();
// octet 63 Number of clusters
eCNumber = raf.ReadByte();
// octet 64 Clustering Method
eCMethod = raf.ReadByte();
// octet 65-67 Northern latitude of clustering domain
nLat = GribNumbers.int3(raf);
// octet 68-70 Southern latitude of clustering domain
sLat = GribNumbers.int3(raf);
// octet 71-73 Eastern latitude of clustering domain
eLat = GribNumbers.int3(raf);
// octet 74-76 Western latitude of clustering domain
wLat = GribNumbers.int3(raf);
if (eType == 4)
{
// octets 77-86 Cluster Membership
cm = new sbyte[10];
SupportClass.ReadInput(raf, cm, 0, cm.Length);
}
}
}
}
// *** constructors *******************************************************
/// <summary> Constructs a <tt>Grib2DataRepresentationSection</tt> object from a raf.
///
/// </summary>
/// <param name="raf">RandomAccessFile with Section DRS content
/// </param>
/// <throws> IOException 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 Grib2DataRepresentationSection(System.IO.FileStream raf)
{
InitBlock();
// octets 1-4 (Length of DRS)
length = GribNumbers.int4(raf);
//System.out.println( "DRS length=" + length );
section = raf.ReadByte();
//System.out.println( "DRS is 5 section=" + section );
dataPoints = GribNumbers.int4(raf);
//System.out.println( "DRS dataPoints=" + dataPoints );
dataTemplate = (int)GribNumbers.uint2(raf);
//System.out.println( "DRS dataTemplate=" + dataTemplate );
switch (dataTemplate)
{
// Data Template Number
case 0:
case 1: // 0 - Grid point data - simple packing
// 1 - Matrix values - simple packing
//System.out.println( "DRS dataTemplate=" + dataTemplate );
referenceValue = GribNumbers.IEEEfloat4(raf);
binaryScaleFactor = GribNumbers.int2(raf);
decimalScaleFactor = GribNumbers.int2(raf);
numberOfBits = raf.ReadByte();
//System.out.println( "DRS numberOfBits=" + numberOfBits );
originalType = raf.ReadByte();
//System.out.println( "DRS originalType=" + originalType );
if (dataTemplate == 0)
{
break;
}
// case 1 not implememted
System.Console.Out.WriteLine("DRS dataTemplate=1 not implemented yet");
break;
case 2:
case 3: // Grid point data - complex packing
//System.out.println( "DRS dataTemplate=" + dataTemplate );
// octet 12 - 15
referenceValue = GribNumbers.IEEEfloat4(raf);
// octet 16 - 17
binaryScaleFactor = GribNumbers.int2(raf);
// octet 18 - 19
decimalScaleFactor = GribNumbers.int2(raf);
// octet 20
numberOfBits = raf.ReadByte();
//System.out.println( "DRS numberOfBits=" + numberOfBits );
// octet 21
originalType = raf.ReadByte();
//System.out.println( "DRS originalType=" + originalType );
// octet 22
splittingMethod = raf.ReadByte();
//System.out.println( "DRS splittingMethod=" +
// splittingMethod );
// octet 23
missingValueManagement = raf.ReadByte();
//System.out.println( "DRS missingValueManagement=" +
// missingValueManagement );
// octet 24 - 27
primaryMissingValue = GribNumbers.IEEEfloat4(raf);
// octet 28 - 31
secondaryMissingValue = GribNumbers.IEEEfloat4(raf);
// octet 32 - 35
numberOfGroups = GribNumbers.int4(raf);
//System.out.println( "DRS numberOfGroups=" +
// numberOfGroups );
// octet 36
referenceGroupWidths = raf.ReadByte();
//System.out.println( "DRS referenceGroupWidths=" +
// referenceGroupWidths );
// octet 37
bitsGroupWidths = raf.ReadByte();
// according to documentation subtract referenceGroupWidths
bitsGroupWidths = bitsGroupWidths - referenceGroupWidths;
//System.out.println( "DRS bitsGroupWidths=" +
// bitsGroupWidths );
// octet 38 - 41
referenceGroupLength = GribNumbers.int4(raf);
//System.out.println( "DRS referenceGroupLength=" +
// referenceGroupLength );
// octet 42
lengthIncrement = raf.ReadByte();
//System.out.println( "DRS lengthIncrement=" +
// lengthIncrement );
// octet 43 - 46
lengthLastGroup = GribNumbers.int4(raf);
//System.out.println( "DRS lengthLastGroup=" +
// lengthLastGroup );
// octet 47
bitsScaledGroupLength = raf.ReadByte();
//System.out.println( "DRS bitsScaledGroupLength=" +
// bitsScaledGroupLength );
if (dataTemplate == 2)
{
break;
}
// case 3 // complex packing & spatial differencing
orderSpatial = raf.ReadByte();
//System.out.println( "DRS orderSpatial=" + orderSpatial);
descriptorSpatial = raf.ReadByte();
//System.out.println( "DRS descriptorSpatial=" + descriptorSpatial);
break;
case 40:
case 40000: // Grid point data - JPEG 2000 Code Stream Format
//System.out.println( "DRS dataTemplate=" + dataTemplate );
referenceValue = GribNumbers.IEEEfloat4(raf);
binaryScaleFactor = GribNumbers.int2(raf);
decimalScaleFactor = GribNumbers.int2(raf);
numberOfBits = raf.ReadByte();
//System.out.println( "DRS numberOfBits=" + numberOfBits );
originalType = raf.ReadByte();
//System.out.println( "DRS originalType=" + originalType );
compressionMethod = raf.ReadByte();
//System.out.println( "DRS compressionMethod=" + compressionMethod );
compressionRatio = raf.ReadByte();
//System.out.println( "DRS compressionRatio=" + compressionRatio );
break;
default:
break;
}
} // end of Grib2DataRepresentationSection
/// <summary> scans the Grib2 file obtaining Products or Records that contain all
/// needed information for data extraction later. For most purposes,
/// getProductsOnly should be set to true, it's lightweight of getRecords.
/// </summary>
/// <param name="getProductsOnly">
/// </param>
/// <param name="oneRecord">
/// </param>
/// <returns> success
/// </returns>
/// <throws> NotSupportedException </throws>
/// <throws> IOException </throws>
public bool scan(bool getProductsOnly, bool oneRecord)
{
if (raf == null)
{
throw new ApplicationException("Grib2Input.scan called without file");
}
long start = (System.DateTime.Now.Ticks - 621355968000000000) / 10000;
Grib2IndicatorSection is_Renamed = null;
Grib2IdentificationSection id = null;
Grib2LocalUseSection lus = null;
Grib2GridDefinitionSection gds = null;
// if raf.getFilePointer() != 0 then called from Grib2IndexExtender
if (raf.Position > 4)
{
raf.Seek(raf.Position - 4, System.IO.SeekOrigin.Begin);
Grib2EndSection es = new Grib2EndSection(raf);
if (!es.EndFound)
{
// ending found somewhere in file
throw new NoValidGribException("Grib2Input.scan failed to find end of record");
}
//System.out.println( "Scan succeeded to find end of record");
}
//System.out.println("Scan file pointer =" + raf.getFilePointer());
long GdsOffset = 0; // GDS offset from start of file
bool startAtHeader = true; // otherwise skip to GDS
bool processGDS = true;
while (raf.Position < raf.Length)
{
if (startAtHeader)
{
// begining of record
if (!seekHeader(raf, raf.Length))
{
//System.out.println( "Scan seekHeader failed" );
throw new NoValidGribException("Grib2Input.scan failed to find header");
}
// Read Section 0 Indicator Section
is_Renamed = new Grib2IndicatorSection(raf); // section 0
//System.out.println( "Grib record length=" + is.getGribLength());
if (is_Renamed.GribEdition != 2)
{
throw new NoValidGribException("Grib2Input.scan expected GRIB2 file");
}
// Read other Sections
id = new Grib2IdentificationSection(raf); // Section 1
} // end startAtHeader
if (processGDS)
{
// check for Local Use Section 2
lus = new Grib2LocalUseSection(raf);
// obtain GDS offset in the file for this record
GdsOffset = raf.Position;
// Section 3
gds = new Grib2GridDefinitionSection(raf, getProductsOnly);
//System.out.println( "GDS length=" + gds.getLength() );
} // end processGDS
// obtain PDS offset in the file for this record
long PdsOffset = raf.Position;
Grib2ProductDefinitionSection pds = new Grib2ProductDefinitionSection(raf); // Section 4
Grib2DataRepresentationSection drs = null;
Grib2BitMapSection bms = null;
Grib2DataSection ds = null;
drs = new Grib2DataRepresentationSection(raf); // Section 5
bms = new Grib2BitMapSection(raf, gds); // Section 6
//ds = new Grib2DataSection( getData, raf, gds, drs, bms ); //Section 7
ds = new Grib2DataSection(false, raf, gds, drs, bms); //Section 7
// assume scan ok
if (getProductsOnly)
{
Grib2Product gp = new Grib2Product(header, is_Renamed, id, getGDSkey(gds), pds, GdsOffset, PdsOffset);
products.Add(gp);
}
else
{
Grib2Record gr = new Grib2Record(header, is_Renamed, id, gds, pds, drs, bms, GdsOffset, PdsOffset, lus);
records.Add(gr);
}
if (oneRecord)
{
return(true);
}
// early return because ending "7777" missing
if (raf.Position > raf.Length)
{
raf.Seek(0, System.IO.SeekOrigin.Begin);
return(true);
}
// EndSection processing section 8
int ending = GribNumbers.int4(raf);
//System.out.println( "ending = " + ending );
if (ending == 926365495)
{
// record ending string 7777 as a number
startAtHeader = true;
processGDS = true;
}
else
{
int section = raf.ReadByte(); // check if GDS or PDS section, 3 or 4
//System.out.println( "section = " + section );
//reset back to begining of section
raf.Seek(raf.Position - 5, System.IO.SeekOrigin.Begin);
if (section == 3)
{
// start processing at GDS
startAtHeader = false;
processGDS = true;
}
else if (section == 4)
{
// start processing at PDS
startAtHeader = false;
processGDS = false;
}
else
{
// error
Grib2EndSection es = new Grib2EndSection(raf);
if (es.EndFound)
{
// ending found somewhere in file
startAtHeader = true;
processGDS = true;
}
else
{
//System.err.println( "Grib2Input: possible file corruption");
throw new NoValidGribException("Grib2Input.scan failed to find end of record");
}
}
}
//System.out.println( "raf.getFilePointer=" + raf.getFilePointer() );
//System.out.println( "raf.length()=" + raf.length() );
} // end raf.getFilePointer() < raf.length()
//System.out.println("GribInput: processed in " +
// (System.currentTimeMillis()- start) + " milliseconds");
return(true);
} // end scan
// *** constructors *******************************************************
/// <summary> Constructs a <tt>Grib2GridDefinitionSection</tt> object from a raf.
///
/// </summary>
/// <param name="raf">RandomAccessFile
/// </param>
/// <param name="doCheckSum"> calculate the checksum
/// </param>
/// <throws> IOException if raf contains no valid GRIB product </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 Grib2GridDefinitionSection(System.IO.FileStream raf, bool doCheckSum)
{
int scalefactorradius = 0;
int scaledvalueradius = 0;
int scalefactormajor = 0;
int scaledvaluemajor = 0;
int scalefactorminor = 0;
int scaledvalueminor = 0;
// octets 1-4 (Length of GDS)
length = GribNumbers.int4(raf);
//System.out.println( "GDS length=" + length );
if (doCheckSum)
{
/*
* // 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 - 4];
* 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 );
*/
// TODO Check this
}
section = raf.ReadByte(); // This is section 3
//System.out.println( "GDS is 3, section=" + section );
source = raf.ReadByte();
//System.out.println( "GDS source=" + source );
numberPoints = GribNumbers.int4(raf);
//System.out.println( "GDS numberPoints=" + numberPoints );
olon = raf.ReadByte();
//System.out.println( "GDS olon=" + olon );
iolon = raf.ReadByte();
//System.out.println( "GDS iolon=" + iolon );
gdtn = GribNumbers.int2(raf);
//System.out.println( "GDS gdtn=" + gdtn );
name = getGridName(gdtn);
float ratio;
switch (gdtn)
{
// Grid Definition Template Number
case 0:
case 1:
case 2:
case 3: // Latitude/Longitude Grid
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
angle = GribNumbers.int4(raf);
subdivisionsangle = GribNumbers.int4(raf);
if (angle == 0)
{
ratio = tenToNegSix;
}
else
{
ratio = angle / subdivisionsangle;
}
//System.out.println( "ratio =" + ratio );
la1 = (float)(GribNumbers.int4(raf) * ratio);
lo1 = (float)(GribNumbers.int4(raf) * ratio);
resolution = raf.ReadByte();
la2 = (float)(GribNumbers.int4(raf) * ratio);
lo2 = (float)(GribNumbers.int4(raf) * ratio);
dx = (float)(GribNumbers.int4(raf) * ratio);
dy = (float)(GribNumbers.int4(raf) * ratio);
scanMode = raf.ReadByte();
// 1, 2, and 3 needs checked
if (gdtn == 1)
{
//Rotated Latitude/longitude
spLat = GribNumbers.int4(raf) * tenToNegSix;
spLon = GribNumbers.int4(raf) * tenToNegSix;
rotationangle = GribNumbers.IEEEfloat4(raf);
}
else if (gdtn == 2)
{
//Stretched Latitude/longitude
poleLat = GribNumbers.int4(raf) * tenToNegSix;
poleLon = GribNumbers.int4(raf) * tenToNegSix;
factor = GribNumbers.int4(raf);
}
else if (gdtn == 3)
{
//Stretched and Rotated
// Latitude/longitude
spLat = GribNumbers.int4(raf) * tenToNegSix;
spLon = GribNumbers.int4(raf) * tenToNegSix;
rotationangle = GribNumbers.IEEEfloat4(raf);
poleLat = GribNumbers.int4(raf) * tenToNegSix;
poleLon = GribNumbers.int4(raf) * tenToNegSix;
factor = GribNumbers.int4(raf);
}
break;
case 10: // Mercator
// la1, lo1, lad, la2, and lo2 need checked
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
la1 = GribNumbers.int4(raf) * tenToNegSix;
lo1 = GribNumbers.int4(raf) * tenToNegSix;
resolution = raf.ReadByte();
lad = GribNumbers.int4(raf) * tenToNegSix;
la2 = GribNumbers.int4(raf) * tenToNegSix;
lo2 = GribNumbers.int4(raf) * tenToNegSix;
scanMode = raf.ReadByte();
angle = GribNumbers.int4(raf);
dx = (float)(GribNumbers.int4(raf) * tenToNegThree);
dy = (float)(GribNumbers.int4(raf) * tenToNegThree);
break;
case 20: // Polar stereographic projection
// la1, lo1, lad, and lov need checked
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
la1 = GribNumbers.int4(raf) * tenToNegSix;
lo1 = GribNumbers.int4(raf) * tenToNegSix;
resolution = raf.ReadByte();
lad = GribNumbers.int4(raf) * tenToNegSix;
lov = GribNumbers.int4(raf) * tenToNegSix;
dx = (float)(GribNumbers.int4(raf) * tenToNegThree);
dy = (float)(GribNumbers.int4(raf) * tenToNegThree);
projectionCenter = raf.ReadByte();
scanMode = raf.ReadByte();
break;
case 30: // Lambert Conformal
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
la1 = (float)(GribNumbers.int4(raf) * tenToNegSix);
//System.out.println( "la1=" + la1 );
lo1 = (float)(GribNumbers.int4(raf) * tenToNegSix);
//System.out.println( "lo1=" + lo1);
resolution = raf.ReadByte();
lad = (float)(GribNumbers.int4(raf) * tenToNegSix);
lov = (float)(GribNumbers.int4(raf) * tenToNegSix);
dx = (float)(GribNumbers.int4(raf) * tenToNegThree);
dy = (float)(GribNumbers.int4(raf) * tenToNegThree);
projectionCenter = raf.ReadByte();
scanMode = raf.ReadByte();
latin1 = (float)(GribNumbers.int4(raf) * tenToNegSix);
latin2 = (float)(GribNumbers.int4(raf) * tenToNegSix);
//System.out.println( "latin1=" + latin1);
//System.out.println( "latin2=" + latin2);
spLat = (float)(GribNumbers.int4(raf) * tenToNegSix);
spLon = (float)(GribNumbers.int4(raf) * tenToNegSix);
//System.out.println( "spLat=" + spLat);
//System.out.println( "spLon=" + spLon);
break;
case 31: // Albers Equal Area
// la1, lo1, lad, and lov need checked
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
la1 = GribNumbers.int4(raf) * tenToNegSix;
//System.out.println( "la1=" + la1 );
lo1 = GribNumbers.int4(raf) * tenToNegSix;
//System.out.println( "lo1=" + lo1);
resolution = raf.ReadByte();
lad = GribNumbers.int4(raf) * tenToNegSix;
lov = GribNumbers.int4(raf) * tenToNegSix;
dx = (float)(GribNumbers.int4(raf) * tenToNegThree);
dy = (float)(GribNumbers.int4(raf) * tenToNegThree);
projectionCenter = raf.ReadByte();
scanMode = raf.ReadByte();
latin1 = GribNumbers.int4(raf) * tenToNegSix;
latin2 = GribNumbers.int4(raf) * tenToNegSix;
//System.out.println( "latin1=" + latin1);
//System.out.println( "latin2=" + latin2);
spLat = GribNumbers.int4(raf) * tenToNegSix;
spLon = GribNumbers.int4(raf) * tenToNegSix;
//System.out.println( "spLat=" + spLat);
//System.out.println( "spLon=" + spLon);
break;
case 40:
case 41:
case 42:
case 43: // Gaussian latitude/longitude
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
angle = GribNumbers.int4(raf);
subdivisionsangle = GribNumbers.int4(raf);
if (angle == 0)
{
ratio = tenToNegSix;
}
else
{
ratio = angle / subdivisionsangle;
}
//System.out.println( "ratio =" + ratio );
la1 = (float)(GribNumbers.int4(raf) * ratio);
lo1 = (float)(GribNumbers.int4(raf) * ratio);
resolution = raf.ReadByte();
la2 = (float)(GribNumbers.int4(raf) * ratio);
lo2 = (float)(GribNumbers.int4(raf) * ratio);
dx = (float)(GribNumbers.int4(raf) * ratio);
n = raf.ReadByte();
scanMode = raf.ReadByte();
if (gdtn == 41)
{
//Rotated Gaussian Latitude/longitude
spLat = GribNumbers.int4(raf) * ratio;
spLon = GribNumbers.int4(raf) * ratio;
rotationangle = GribNumbers.IEEEfloat4(raf);
}
else if (gdtn == 42)
{
//Stretched Gaussian
// Latitude/longitude
poleLat = GribNumbers.int4(raf) * ratio;
poleLon = GribNumbers.int4(raf) * ratio;
factor = GribNumbers.int4(raf);
}
else if (gdtn == 43)
{
//Stretched and Rotated Gaussian
// Latitude/longitude
spLat = GribNumbers.int4(raf) * ratio;
spLon = GribNumbers.int4(raf) * ratio;
rotationangle = GribNumbers.IEEEfloat4(raf);
poleLat = GribNumbers.int4(raf) * ratio;
poleLon = GribNumbers.int4(raf) * ratio;
factor = GribNumbers.int4(raf);
}
break;
case 50:
case 51:
case 52:
case 53: // Spherical harmonic coefficients
j = GribNumbers.IEEEfloat4(raf);
k = GribNumbers.IEEEfloat4(raf);
m = GribNumbers.IEEEfloat4(raf);
method = raf.ReadByte();
mode = raf.ReadByte();
if (gdtn == 51)
{
//Rotated Spherical harmonic coefficients
spLat = GribNumbers.int4(raf) * tenToNegSix;
spLon = GribNumbers.int4(raf) * tenToNegSix;
rotationangle = GribNumbers.IEEEfloat4(raf);
}
else if (gdtn == 52)
{
//Stretched Spherical
// harmonic coefficients
poleLat = GribNumbers.int4(raf) * tenToNegSix;
poleLon = GribNumbers.int4(raf) * tenToNegSix;
factor = GribNumbers.int4(raf);
}
else if (gdtn == 53)
{
//Stretched and Rotated
// Spherical harmonic coefficients
spLat = GribNumbers.int4(raf) * tenToNegSix;
spLon = GribNumbers.int4(raf) * tenToNegSix;
rotationangle = GribNumbers.IEEEfloat4(raf);
poleLat = GribNumbers.int4(raf) * tenToNegSix;
poleLon = GribNumbers.int4(raf) * tenToNegSix;
factor = GribNumbers.int4(raf);
}
break;
case 90: // Space view perspective or orthographic
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
lap = GribNumbers.int4(raf);
lop = GribNumbers.int4(raf);
resolution = raf.ReadByte();
dx = GribNumbers.int4(raf);
dy = GribNumbers.int4(raf);
xp = (float)(GribNumbers.int4(raf) * tenToNegThree);
yp = (float)(GribNumbers.int4(raf) * tenToNegThree);
scanMode = raf.ReadByte();
angle = GribNumbers.int4(raf);
altitude = GribNumbers.int4(raf) * 1000000;
xo = GribNumbers.int4(raf);
yo = GribNumbers.int4(raf);
break;
case 100: // Triangular grid based on an icosahedron
n2 = raf.ReadByte();
n3 = raf.ReadByte();
ni = GribNumbers.int2(raf);
nd = raf.ReadByte();
poleLat = GribNumbers.int4(raf) * tenToNegSix;
poleLon = GribNumbers.int4(raf) * tenToNegSix;
lonofcenter = GribNumbers.int4(raf);
position = raf.ReadByte();
order = raf.ReadByte();
scanMode = raf.ReadByte();
n = GribNumbers.int4(raf);
break;
case 110: // Equatorial azimuthal equidistant projection
shape = raf.ReadByte();
//System.out.println( "shape=" + shape );
scalefactorradius = raf.ReadByte();
scaledvalueradius = GribNumbers.int4(raf);
scalefactormajor = raf.ReadByte();
scaledvaluemajor = GribNumbers.int4(raf);
scalefactorminor = raf.ReadByte();
scaledvalueminor = GribNumbers.int4(raf);
nx = GribNumbers.int4(raf);
//System.out.println( "nx=" + nx);
ny = GribNumbers.int4(raf);
//System.out.println( "ny=" + ny);
la1 = GribNumbers.int4(raf) * tenToNegSix;
lo1 = GribNumbers.int4(raf) * tenToNegSix;
resolution = raf.ReadByte();
dx = (float)(GribNumbers.int4(raf) * tenToNegThree);
dy = (float)(GribNumbers.int4(raf) * tenToNegThree);
projectionCenter = raf.ReadByte();
scanMode = raf.ReadByte();
break;
case 120: // Azimuth-range Projection
nb = GribNumbers.int4(raf);
nr = GribNumbers.int4(raf);
la1 = GribNumbers.int4(raf);
lo1 = GribNumbers.int4(raf);
dx = GribNumbers.int4(raf);
dstart = GribNumbers.IEEEfloat4(raf);
scanMode = raf.ReadByte();
for (int i = 0; i < nr; i++)
{
// get azi (33+4(Nr-1))-(34+4(Nr-1))
// get adelta (35+4(Nr-1))-(36+4(Nr-1))
}
System.Console.Out.WriteLine("need code to get azi and adelta");
break;
default:
System.Console.Out.WriteLine("Unknown Grid Type " + System.Convert.ToString(gdtn));
break;
} // end switch
// calculate earth radius
if ((gdtn < 50 || gdtn > 53) && gdtn != 100 && gdtn != 120)
{
if (shape == 0)
{
earthRadius = 6367470;
}
else if (shape == 1)
{
earthRadius = scaledvalueradius;
if (scalefactorradius != 0)
{
earthRadius = (float)(earthRadius / System.Math.Pow(10, scalefactorradius));
}
}
else if (shape == 2)
{
//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'"
majorAxis = (float)6378160.0;
//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'"
minorAxis = (float)6356775.0;
}
else if (shape == 3)
{
majorAxis = scaledvaluemajor;
//System.out.println( "majorAxisScale =" + scalefactormajor );
//System.out.println( "majorAxisiValue =" + scaledvaluemajor );
majorAxis = (float)(majorAxis / System.Math.Pow(10, scalefactormajor));
minorAxis = scaledvalueminor;
//System.out.println( "minorAxisScale =" + scalefactorminor );
//System.out.println( "minorAxisValue =" + scaledvalueminor );
minorAxis = (float)(minorAxis / System.Math.Pow(10, scalefactorminor));
}
else if (shape == 4)
{
//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'"
majorAxis = (float)6378137.0;
minorAxis = (float)SupportClass.Identity(6356752.314);
}
else if (shape == 6)
{
earthRadius = 6371229;
}
}
} // end of Grib2GridDefinitionSection
// *** constructors *******************************************************
/// <summary> Constructs a Grib2ProductDefinitionSection object from a raf.
///
/// </summary>
/// <param name="raf">RandomAccessFile with PDS content
///
/// </param>
/// <throws> IOException if raf 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 Grib2ProductDefinitionSection(System.IO.FileStream raf)
{
// octets 1-4 (Length of PDS)
length = GribNumbers.int4(raf);
//System.out.println( "PDS length=" + length );
// octet 5
section = raf.ReadByte();
//System.out.println( "PDS is 4, section=" + section );
// octet 6-7
coordinates = GribNumbers.int2(raf);
//System.out.println( "PDS coordinates=" + coordinates );
// octet 8-9
productDefinition = GribNumbers.int2(raf);
//System.out.println( "PDS productDefinition=" + productDefinition );
switch (productDefinition)
{
// Analysis or forecast at a horizontal level or in a horizontal
// layer at a point in time
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8: {
// octet 10
parameterCategory = raf.ReadByte();
//System.out.println( "PDS parameterCategory=" +
//parameterCategory );
// octet 11
parameterNumber = raf.ReadByte();
//System.out.println( "PDS parameterNumber=" + parameterNumber );
// octet 12
typeGenProcess = raf.ReadByte();
//System.out.println( "PDS typeGenProcess=" + typeGenProcess );
// octet 13
backGenProcess = raf.ReadByte();
//System.out.println( "PDS backGenProcess=" + backGenProcess );
// octet 14
analysisGenProcess = raf.ReadByte();
//System.out.println( "PDS analysisGenProcess=" +
//analysisGenProcess );
// octet 15-16
hoursAfter = GribNumbers.int2(raf);
//System.out.println( "PDS hoursAfter=" + hoursAfter );
// octet 17
minutesAfter = raf.ReadByte();
//System.out.println( "PDS minutesAfter=" + minutesAfter );
// octet 18
timeRangeUnit = raf.ReadByte();
//System.out.println( "PDS timeRangeUnit=" + timeRangeUnit );
// octet 19-22
forecastTime = GribNumbers.int4(raf);
//System.out.println( "PDS forecastTime=" + forecastTime );
// octet 23
typeFirstFixedSurface = raf.ReadByte();
//System.out.println( "PDS typeFirstFixedSurface=" +
// typeFirstFixedSurface );
// octet 24
int scaleFirstFixedSurface = raf.ReadByte();
//System.out.println( "PDS scaleFirstFixedSurface=" +
// scaleFirstFixedSurface );
// octet 25-28
int valueFirstFixedSurface = GribNumbers.int4(raf);
//System.out.println( "PDS valueFirstFixedSurface=" +
// valueFirstFixedSurface );
//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'"
FirstFixedSurfaceValue = (float)((scaleFirstFixedSurface == 0 || valueFirstFixedSurface == 0)?valueFirstFixedSurface:System.Math.Pow(valueFirstFixedSurface, -scaleFirstFixedSurface));
// octet 29
typeSecondFixedSurface = raf.ReadByte();
//System.out.println( "PDS typeSecondFixedSurface=" +
//typeSecondFixedSurface );
// octet 30
int scaleSecondFixedSurface = raf.ReadByte();
//System.out.println( "PDS scaleSecondFixedSurface=" +
//scaleSecondFixedSurface );
// octet 31-34
int valueSecondFixedSurface = GribNumbers.int4(raf);
//System.out.println( "PDS valueSecondFixedSurface=" +
//valueSecondFixedSurface );
//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'"
SecondFixedSurfaceValue = (float)((scaleSecondFixedSurface == 0 || valueSecondFixedSurface == 0)?valueSecondFixedSurface:System.Math.Pow(valueSecondFixedSurface, -scaleSecondFixedSurface));
// Individual ensemble forecast, control and perturbed, at a
// horizontal level or in a horizontal layer at a point in time
if (productDefinition == 1)
{
System.Console.Out.WriteLine("PDS productDefinition == 1 not done");
//Derived forecast based on all ensemble members at a horizontal
// level or in a horizontal layer at a point in time
}
else if (productDefinition == 2)
{
System.Console.Out.WriteLine("PDS productDefinition == 2 not done");
// Derived forecasts based on a cluster of ensemble members over
// a rectangular area at a horizontal level or in a horizontal layer
// at a point in time
}
else if (productDefinition == 3)
{
System.Console.Out.WriteLine("PDS productDefinition == 3 not done");
// Derived forecasts based on a cluster of ensemble members
// over a circular area at a horizontal level or in a horizontal
// layer at a point in time
}
else if (productDefinition == 4)
{
System.Console.Out.WriteLine("PDS productDefinition == 4 not done");
// Probability forecasts at a horizontal level or in a horizontal
// layer at a point in time
}
else if (productDefinition == 5)
{
System.Console.Out.WriteLine("PDS productDefinition == 5 not done");
// Percentile forecasts at a horizontal level or in a horizontal layer
// at a point in time
}
else if (productDefinition == 6)
{
System.Console.Out.WriteLine("PDS productDefinition == 6 not done");
// Analysis or forecast error at a horizontal level or in a horizontal
// layer at a point in time
}
else if (productDefinition == 7)
{
System.Console.Out.WriteLine("PDS productDefinition == 7 not done");
// Average, accumulation, and/or extreme values at a horizontal
// level or in a horizontal layer in a continuous or non-continuous
// time interval
}
else if (productDefinition == 8)
{
//System.out.println( "PDS productDefinition == 8 " );
// 35-41 bytes
int year = GribNumbers.int2(raf);
int month = (raf.ReadByte()) - 1;
int day = raf.ReadByte();
int hour = raf.ReadByte();
int minute = raf.ReadByte();
int second = raf.ReadByte();
//System.out.println( "PDS date:" + year +":" + month +
//":" + day + ":" + hour +":" + minute +":" + second );
// 42 - 46
int timeRanges = raf.ReadByte();
//System.out.println( "PDS timeRanges=" + timeRanges ) ;
int missingDataValues = GribNumbers.int4(raf);
//System.out.println( "PDS missingDataValues=" + missingDataValues ) ;
// 47 - 48
int outmostTimeRange = raf.ReadByte();
//System.out.println( "PDS outmostTimeRange=" + outmostTimeRange )
;
int missing = raf.ReadByte();
//System.out.println( "PDS missing=" + missing ) ;
// 49 - 53
int statisticalProcess = raf.ReadByte();
//System.out.println( "PDS statisticalProcess=" + statisticalProcess ) ;
int timeIncrement = GribNumbers.int4(raf);
//System.out.println( "PDS timeIncrement=" + timeIncrement ) ;
// 54 - 58
int indicatorTR = raf.ReadByte();
//System.out.println( "PDS indicatorTR=" + indicatorTR ) ;
int lengthTR = GribNumbers.int4(raf);
if (timeRanges == 1)
{
this.forecastTime += calculateIncrement(statisticalProcess, timeIncrement);
}
//System.out.println( "PDS lengthTR=" + lengthTR ) ;
//int indicatorSF = raf.read();
//System.out.println( "PDS indicatorSF=" + indicatorSF ) ;
//int incrementSF = GribNumbers.int4( raf );
//System.out.println( "PDS incrementSF=" + incrementSF ) ;
}
break;
} // cases 0-8
// Radar product
case 20: {
parameterCategory = raf.ReadByte();
//System.out.println( "PDS parameterCategory=" +
//parameterCategory );
parameterNumber = raf.ReadByte();
//System.out.println( "PDS parameterNumber=" + parameterNumber );
typeGenProcess = raf.ReadByte();
//System.out.println( "PDS typeGenProcess=" + typeGenProcess );
backGenProcess = raf.ReadByte();
//System.out.println( "PDS backGenProcess=" + backGenProcess );
hoursAfter = GribNumbers.int2(raf);
//System.out.println( "PDS hoursAfter=" + hoursAfter );
minutesAfter = raf.ReadByte();
//System.out.println( "PDS minutesAfter=" + minutesAfter );
timeRangeUnit = raf.ReadByte();
//System.out.println( "PDS timeRangeUnit=" + timeRangeUnit );
forecastTime = GribNumbers.int4(raf);
//System.out.println( "PDS forecastTime=" + forecastTime );
break;
} // case 20
// Satellite Product
case 30: {
parameterCategory = raf.ReadByte();
//System.out.println( "PDS parameterCategory=" + parameterCategory );
parameterNumber = raf.ReadByte();
//System.out.println( "PDS parameterNumber=" + parameterNumber );
typeGenProcess = raf.ReadByte();
//System.out.println( "PDS typeGenProcess=" + typeGenProcess );
backGenProcess = raf.ReadByte();
//System.out.println( "PDS backGenProcess=" + backGenProcess );
nb = raf.ReadByte();
//System.out.println( "PDS nb =" + nb );
for (int j = 0; j < nb; j++)
{
SupportClass.Skip(raf, 10);
}
break;
} // case 30
// CCITTIA5 character string
case 254: {
parameterCategory = raf.ReadByte();
//System.out.println( "PDS parameterCategory=" +
//parameterCategory );
parameterNumber = raf.ReadByte();
//System.out.println( "PDS parameterNumber=" + parameterNumber );
//numberOfChars = GribNumbers.int4( raf );
//System.out.println( "PDS numberOfChars=" +
//numberOfChars );
break;
} // case 254
default:
break;
} // end switch
}
/// <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 )
public int ReadInt32(int startByte)
{
// Use GribNumbers to handle endian byte swapping
return(GribNumbers.int4(_memStream));
}