public static void AllRegister() { gdalJNI.AllRegister(); }
public static void ApplyGeoTransform(final double[] padfGeoTransform, final double dfPixel, final double dfLine, final double[] pdfGeoX, final double[] pdfGeoY) { gdalJNI.ApplyGeoTransform(padfGeoTransform, dfPixel, dfLine, pdfGeoX, pdfGeoY); }
public int Checksum(final int xoff, final int yoff, final int xsize, final int ysize) { return gdalJNI.Band_Checksum(this.swigCPtr, this, xoff, yoff, xsize, ysize); }
public static Dataset AutoCreateWarpedVRT(final Dataset src_ds, final String src_wkt) { final long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_3( Dataset.getCPtr(src_ds), src_ds, src_wkt); return cPtr == 0 ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(Dataset src_ds, String src_wkt, String dst_wkt, int eResampleAlg, double maxerror) { long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_0(Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt, eResampleAlg, maxerror); return (cPtr == 0) ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(final Dataset src_ds, final String src_wkt, final String dst_wkt) { final long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_2( Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt); return cPtr == 0 ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(final Dataset src_ds) { final long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_4( Dataset.getCPtr(src_ds), src_ds); return cPtr == 0 ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(final Dataset src_ds, final String src_wkt, final String dst_wkt, final int eResampleAlg) { final long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_1( Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt, eResampleAlg); return cPtr == 0 ? null : new Dataset(cPtr, true); }
public void ComputeBandStats(final double[] argout, final int samplestep) { gdalJNI.Band_ComputeBandStats__SWIG_0(this.swigCPtr, this, argout, samplestep); }
public void ComputeBandStats(double[] argout) { gdalJNI.Band_ComputeBandStats__SWIG_1(swigCPtr, this, argout); }
public static Dataset AutoCreateWarpedVRT(Dataset src_ds, String src_wkt) { long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_3(Dataset.getCPtr(src_ds), src_ds, src_wkt); return (cPtr == 0) ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(final Dataset src_ds, final String src_wkt, final String dst_wkt, final int eResampleAlg, final double maxerror) { final long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_0( Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt, eResampleAlg, maxerror); return cPtr == 0 ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(Dataset src_ds, String src_wkt, String dst_wkt) { long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_2(Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt); return (cPtr == 0) ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(Dataset src_ds) { long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_4(Dataset.getCPtr(src_ds), src_ds); return (cPtr == 0) ? null : new Dataset(cPtr, true); }
public static Dataset AutoCreateWarpedVRT(Dataset src_ds, String src_wkt, String dst_wkt, int eResampleAlg) { long cPtr = gdalJNI.AutoCreateWarpedVRT__SWIG_1(Dataset.getCPtr(src_ds), src_ds, src_wkt, dst_wkt, eResampleAlg); return (cPtr == 0) ? null : new Dataset(cPtr, true); }
public void ComputeBandStats(double[] argout, int samplestep) { gdalJNI.Band_ComputeBandStats__SWIG_0(swigCPtr, this, argout, samplestep); }
public void ComputeBandStats(final double[] argout) { gdalJNI.Band_ComputeBandStats__SWIG_1(this.swigCPtr, this, argout); }
public static void ApplyGeoTransform(double[] padfGeoTransform, double dfPixel, double dfLine, double[] pdfGeoX, double[] pdfGeoY) { gdalJNI.ApplyGeoTransform(padfGeoTransform, dfPixel, dfLine, pdfGeoX, pdfGeoY); }
public static void AllRegister() { gdalJNI.AllRegister(); }
public int Checksum(int xoff, int yoff, int xsize, int ysize) { return gdalJNI.Band_Checksum(swigCPtr, this, xoff, yoff, xsize, ysize); }