private void TryCreateDefaultArgs(AbstractWarpDataset srcRaster, FY3_VIRR_PrjSettings prjSettings,
ref SpatialReference dstSpatialRef)
{
if (dstSpatialRef == null)
{
dstSpatialRef = _srcSpatialRef;
}
if (string.IsNullOrWhiteSpace(prjSettings.OutFormat))
{
prjSettings.OutFormat = "LDF";
}
if (dstSpatialRef.IsGeographic() == 1)
{
_srcImgResolution = 0.01F;
}
else
{
_srcImgResolution = 1000f;
}
if (prjSettings.OutResolutionX <= 0 || prjSettings.OutResolutionY <= 0)
{
if (dstSpatialRef.IsGeographic() == 1)
{
prjSettings.OutResolutionX = 0.01F;
prjSettings.OutResolutionY = 0.01F;
}
else
{
prjSettings.OutResolutionX = 1000F;
prjSettings.OutResolutionY = 1000F;
}
}
if (prjSettings.OutBandNos == null || prjSettings.OutBandNos.Length == 0)
{
_prjBands = PrjBand.VIRR_1000_Orbit;
}
else
{
List <PrjBand> bands = new List <PrjBand>();
PrjBand[] defbands = PrjBand.VIRR_1000_Orbit;
foreach (int bandNo in prjSettings.OutBandNos)
{
bands.Add(defbands[bandNo - 1]);
}
_prjBands = bands.ToArray();
}
}
public override AbstractWarpDataset Project(AbstractWarpDataset srcRaster, FilePrjSettings prjSettings,
AbstractWarpDataset dstRaster, int beginBandIndex, Action <int, string> progressCallback)
{
if (srcRaster == null)
{
throw new ArgumentNullException("srcRaster");
}
if (prjSettings == null)
{
throw new ArgumentNullException("prjSettings");
}
if (dstRaster == null && prjSettings.OutPathAndFileName == null)
{
throw new ArgumentNullException("dstRaster");
}
try
{
FY3_VIRR_PrjSettings fy3prjSettings = prjSettings as FY3_VIRR_PrjSettings;
SpatialReference dstSpatialRef = (dstRaster.SpatialRef);
TryCreateDefaultArgs(srcRaster, fy3prjSettings, ref dstSpatialRef);
DoSession(srcRaster, dstSpatialRef, fy3prjSettings, progressCallback);
if (prjSettings.OutEnvelope == null || prjSettings.OutEnvelope == PrjEnvelope.Empty)
{
prjSettings.OutEnvelope = _maxPrjEnvelope;
}
//if (dstSpatialRef.IsGeographic()==1 && (prjSettings.OutEnvelope.MaxY > 80 || prjSettings.OutEnvelope.MaxY < -80))
// throw new Exception(string.Format("高纬度数据[>80],不适合投影为等经纬度数据[{0}]", _maxPrjEnvelope));
ProjectToLDF(srcRaster, dstRaster, 0, progressCallback);
return(dstRaster);
}
catch
{
EndSession();
TryDeleteCurCatch();
throw;
}
finally
{
EndSession();
if (prjSettings.IsClearPrjCache)
{
TryDeleteCurCatch();
}
}
}
private Band[] TryCreateRasterDataBands(AbstractWarpDataset srcRaster, FY3_VIRR_PrjSettings prjSettings, Action <int, string> progressCallback)
{
List <Band> rasterBands = new List <Band>();
for (int i = 0; i < _prjBands.Length; i++)
{
if (progressCallback != null)
{
progressCallback(_readyProgress++, "准备第" + i + "个输入数据通道");
}
PrjBand bandMap = _prjBands[i];
Band[] latBands = srcRaster.GetBands(bandMap.DataSetName);
Band band = latBands[bandMap.DataSetIndex];
rasterBands.Add(band);
}
return(rasterBands.ToArray());
}
private void DoSession(AbstractWarpDataset srcRaster, SpatialReference dstSpatialRef,
FY3_VIRR_PrjSettings prjSettings, Action <int, string> progressCallback)
{
if (_curSession == null || _curSession != srcRaster || _isBeginSession)
{
_srcLocationSize = new Size(srcRaster.Width, srcRaster.Height);
if (progressCallback != null)
{
progressCallback(_readyProgress++, "VIRR读取及预处理经纬度数据集");
}
ReadyLocations(srcRaster, dstSpatialRef, _srcLocationSize, out _xs, out _ys, out _maxPrjEnvelope,
progressCallback);
if (progressCallback != null)
{
progressCallback(_readyProgress++, "准备其他参数");
}
if (prjSettings.IsRadRef || prjSettings.IsRad)
{
ReadyRadiationArgs(srcRaster);
}
if (prjSettings.IsSolarZenith && prjSettings.IsRadRef)
{
_solarZenithCacheFilename = GetSolarZenithCacheFilename(srcRaster.fileName); //太阳天顶角数据
if (!File.Exists(_solarZenithCacheFilename))
{
ReadySolarZenithArgsToFile(srcRaster);
}
else
{
_solarZenithCacheRaster = WarpDataset.Open(_solarZenithCacheFilename);
}
if (prjSettings.IsSensorZenith)
{
ReadySensorZenith(srcRaster);
}
}
_rasterDataBands = TryCreateRasterDataBands(srcRaster, prjSettings, progressCallback);
_isBeginSession = false;
}
}
private void ReadyArgs(AbstractWarpDataset srcRaster, FilePrjSettings prjSettings,
SpatialReference dstSpatialRef, Action <int, string> progressCallback)
{
if (srcRaster == null)
{
throw new ArgumentNullException("srcRaster");
}
if (prjSettings == null)
{
throw new ArgumentNullException("prjSettings");
}
_readyProgress = 0;
_prjSettings = prjSettings as FY3_VIRR_PrjSettings;
_dstSpatialRef = dstSpatialRef;
MemoryHelper.MemoryNeed(200, 1536); //剩余200MB,已使用1.2GB
if (progressCallback != null)
{
progressCallback(_readyProgress++, "准备相关参数");
}
TryCreateDefaultArgs(srcRaster, _prjSettings, ref dstSpatialRef);
//这里去除的是读取轨道数据时候的左右像元个数。
_left = 4;
_right = 4;
TrySetLeftRightInvalidPixel(_prjSettings.ExtArgs);
DoSession(srcRaster, dstSpatialRef, _prjSettings, progressCallback);
if (prjSettings.OutEnvelope == null || prjSettings.OutEnvelope == PrjEnvelope.Empty)
{
prjSettings.OutEnvelope = _maxPrjEnvelope;
_orbitBlock = new Block
{
xBegin = 0, yBegin = 0, xEnd = srcRaster.Width - 1, yEnd = srcRaster.Height - 1
};
}
else
{
GetEnvelope(_xs, _ys, srcRaster.Width, srcRaster.Height, _prjSettings.OutEnvelope, out _orbitBlock);
if (_orbitBlock == null || _orbitBlock.Width <= 0 || _orbitBlock.Height <= 0)
{
throw new Exception("数据不在目标区间内");
}
float invalidPresent = (_orbitBlock.Width * _orbitBlock.Height * 1.0F) /
(srcRaster.Width * srcRaster.Height);
if (invalidPresent < 0.0001f)
{
throw new Exception("数据占轨道数据比例太小,有效率" + invalidPresent * 100 + "%");
}
if (invalidPresent > 0.60)
{
_orbitBlock = new Block
{
xBegin = 0, yBegin = 0, xEnd = srcRaster.Width - 1, yEnd = srcRaster.Height - 1
}
}
;
}
//if (dstSpatialRef.IsGeographic()==1 && (prjSettings.OutEnvelope.MaxY > 80 || prjSettings.OutEnvelope.MaxY < -80))
// throw new Exception(string.Format("高纬度数据,不适合投影为等经纬度数据[{0}]", _maxPrjEnvelope));
_dstSpatialRef = dstSpatialRef;
_dstEnvelope = _prjSettings.OutEnvelope;
if (!_dstEnvelope.IntersectsWith(_maxPrjEnvelope))
{
throw new Exception("数据不在目标区间内");
}
_outResolutionX = _prjSettings.OutResolutionX;
_outResolutionY = _prjSettings.OutResolutionY;
_outFormat = _prjSettings.OutFormat;
_outfilename = _prjSettings.OutPathAndFileName;
_dstProj4 = _dstSpatialRef.ExportToProj4();
_dstBandCount = _prjBands.Length;
_dstSize = _prjSettings.OutSize;
_isRadRef = _prjSettings.IsRadRef;
_isSolarZenith = _prjSettings.IsSolarZenith;
_isSensorZenith = _prjSettings.IsSensorZenith;
_isRad = _prjSettings.IsRad;
}
private void DoSession(AbstractWarpDataset srcRaster, AbstractWarpDataset geoRaster, SpatialReference dstSpatialRef, FY3_VIRR_PrjSettings prjSettings, Action <int, string> progressCallback)
{
if (_curSession == null || _curSession != srcRaster || _isBeginSession)
{
if (progressCallback != null)
{
progressCallback(_readyProgress++, "读取及预处理经纬度数据集");
}
ReadyLocations(_geoDataProvider, SpatialReferenceFactory.CreateSpatialReference(4326), dstSpatialRef, out _srcLocationSize, out _xs, out _ys, out _maxPrjEnvelope, progressCallback);
if (progressCallback != null)
{
progressCallback(_readyProgress++, "准备其他参数");
}
if (prjSettings.IsRadRef || prjSettings.IsRad)
{
ReadyRadiationArgs(srcRaster);
}
if (prjSettings.IsSolarZenith && prjSettings.IsRadRef)
{
_solarZenithCacheFilename = GetSolarZenithCacheFilename(geoRaster.fileName); //太阳天顶角数据
if (!File.Exists(_solarZenithCacheFilename))
{
ReadySolarZenithArgsToFile(geoRaster);
}
else
{
var ds = Gdal.OpenShared(_solarZenithCacheFilename, Access.GA_ReadOnly);
_solarZenithCacheRaster = new WarpDataset(ds, _solarZenithCacheFilename);
}
if (prjSettings.IsSensorZenith)
{
ReadySensorZenith(geoRaster);
}
}
_rasterDataBands = TryCreateRasterDataBands(srcRaster, prjSettings, progressCallback);
_isBeginSession = false;
}
}
