# This file was automatically generated by SWIG (http://www.swig.org). # Version 4.0.2 # # Do not make changes to this file unless you know what you are doing--modify # the SWIG interface file instead. from sys import version_info as _swig_python_version_info if _swig_python_version_info < (2, 7, 0): raise RuntimeError("Python 2.7 or later required") # Import the low-level C/C++ module if __package__ or "." in __name__: from . import _gdal_array else: import _gdal_array try: import builtins as __builtin__ except ImportError: import __builtin__ def _swig_repr(self): try: strthis = "proxy of " + self.this.__repr__() except __builtin__.Exception: strthis = "" return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) def _swig_setattr_nondynamic_instance_variable(set): def set_instance_attr(self, name, value): if name == "thisown": self.this.own(value) elif name == "this": set(self, name, value) elif hasattr(self, name) and isinstance(getattr(type(self), name), property): set(self, name, value) else: raise AttributeError("You cannot add instance attributes to %s" % self) return set_instance_attr def _swig_setattr_nondynamic_class_variable(set): def set_class_attr(cls, name, value): if hasattr(cls, name) and not isinstance(getattr(cls, name), property): set(cls, name, value) else: raise AttributeError("You cannot add class attributes to %s" % cls) return set_class_attr def _swig_add_metaclass(metaclass): """Class decorator for adding a metaclass to a SWIG wrapped class - a slimmed down version of six.add_metaclass""" def wrapper(cls): return metaclass(cls.__name__, cls.__bases__, cls.__dict__.copy()) return wrapper class _SwigNonDynamicMeta(type): """Meta class to enforce nondynamic attributes (no new attributes) for a class""" __setattr__ = _swig_setattr_nondynamic_class_variable(type.__setattr__) import osgeo.gdal class VirtualMem(object): r"""Proxy of C++ CPLVirtualMemShadow class.""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc="The membership flag") def __init__(self, *args, **kwargs): raise AttributeError("No constructor defined") __repr__ = _swig_repr __swig_destroy__ = _gdal_array.delete_VirtualMem def GetAddr(self): r"""GetAddr(VirtualMem self)""" return _gdal_array.VirtualMem_GetAddr(self) def Pin(self, start_offset=0, nsize=0, bWriteOp=0): r"""Pin(VirtualMem self, size_t start_offset=0, size_t nsize=0, int bWriteOp=0)""" return _gdal_array.VirtualMem_Pin(self, start_offset, nsize, bWriteOp) # Register VirtualMem in _gdal_array: _gdal_array.VirtualMem_swigregister(VirtualMem) def _StoreLastException(): r"""_StoreLastException()""" return _gdal_array._StoreLastException() def TermProgress_nocb(dfProgress, pszMessage=None, pData=None): r"""TermProgress_nocb(double dfProgress, char const * pszMessage=None, void * pData=None) -> int""" return _gdal_array.TermProgress_nocb(dfProgress, pszMessage, pData) TermProgress = _gdal_array.TermProgress def OpenNumPyArray(psArray, binterleave): r"""OpenNumPyArray(PyArrayObject * psArray, bool binterleave) -> Dataset""" return _gdal_array.OpenNumPyArray(psArray, binterleave) def OpenMultiDimensionalNumPyArray(psArray): r"""OpenMultiDimensionalNumPyArray(PyArrayObject * psArray) -> Dataset""" return _gdal_array.OpenMultiDimensionalNumPyArray(psArray) def GetArrayFilename(psArray): r"""GetArrayFilename(PyArrayObject * psArray) -> retStringAndCPLFree *""" return _gdal_array.GetArrayFilename(psArray) def BandRasterIONumPy(band, bWrite, xoff, yoff, xsize, ysize, psArray, buf_type, resample_alg, callback=0, callback_data=None): r"""BandRasterIONumPy(Band band, int bWrite, double xoff, double yoff, double xsize, double ysize, PyArrayObject * psArray, int buf_type, GDALRIOResampleAlg resample_alg, GDALProgressFunc callback=0, void * callback_data=None) -> CPLErr""" return _gdal_array.BandRasterIONumPy(band, bWrite, xoff, yoff, xsize, ysize, psArray, buf_type, resample_alg, callback, callback_data) def DatasetIONumPy(ds, bWrite, xoff, yoff, xsize, ysize, psArray, buf_type, resample_alg, callback=0, callback_data=None, binterleave=True): r"""DatasetIONumPy(Dataset ds, int bWrite, double xoff, double yoff, double xsize, double ysize, PyArrayObject * psArray, int buf_type, GDALRIOResampleAlg resample_alg, GDALProgressFunc callback=0, void * callback_data=None, bool binterleave=True) -> CPLErr""" return _gdal_array.DatasetIONumPy(ds, bWrite, xoff, yoff, xsize, ysize, psArray, buf_type, resample_alg, callback, callback_data, binterleave) def MDArrayIONumPy(bWrite, mdarray, psArray, nDims1, nDims3, buffer_datatype): r"""MDArrayIONumPy(bool bWrite, GDALMDArrayHS * mdarray, PyArrayObject * psArray, int nDims1, int nDims3, GDALExtendedDataTypeHS * buffer_datatype) -> CPLErr""" return _gdal_array.MDArrayIONumPy(bWrite, mdarray, psArray, nDims1, nDims3, buffer_datatype) def VirtualMemGetArray(virtualmem): r"""VirtualMemGetArray(VirtualMem virtualmem)""" return _gdal_array.VirtualMemGetArray(virtualmem) def RATValuesIONumPyWrite(poRAT, nField, nStart, psArray): r"""RATValuesIONumPyWrite(RasterAttributeTable poRAT, int nField, int nStart, PyArrayObject * psArray) -> CPLErr""" return _gdal_array.RATValuesIONumPyWrite(poRAT, nField, nStart, psArray) def RATValuesIONumPyRead(poRAT, nField, nStart, nLength): r"""RATValuesIONumPyRead(RasterAttributeTable poRAT, int nField, int nStart, int nLength) -> PyObject *""" return _gdal_array.RATValuesIONumPyRead(poRAT, nField, nStart, nLength) import numpy from osgeo import gdalconst from osgeo import gdal gdal.AllRegister() codes = {gdalconst.GDT_Byte: numpy.uint8, gdalconst.GDT_UInt16: numpy.uint16, gdalconst.GDT_Int16: numpy.int16, gdalconst.GDT_UInt32: numpy.uint32, gdalconst.GDT_Int32: numpy.int32, gdalconst.GDT_Float32: numpy.float32, gdalconst.GDT_Float64: numpy.float64, gdalconst.GDT_CInt16: numpy.complex64, gdalconst.GDT_CInt32: numpy.complex64, gdalconst.GDT_CFloat32: numpy.complex64, gdalconst.GDT_CFloat64: numpy.complex128} def OpenArray(array, prototype_ds=None, interleave='band'): interleave = interleave.lower() if interleave == 'band': interleave = True elif interleave == 'pixel': interleave = False else: raise ValueError('Interleave should be band or pixel') ds = OpenNumPyArray(array, interleave) if ds is not None and prototype_ds is not None: if type(prototype_ds).__name__ == 'str': prototype_ds = gdal.Open(prototype_ds) if prototype_ds is not None: CopyDatasetInfo(prototype_ds, ds) return ds def flip_code(code): if isinstance(code, (numpy.dtype, type)): # since several things map to complex64 we must carefully select # the opposite that is an exact match (ticket 1518) if code == numpy.int8: return gdalconst.GDT_Byte if code == numpy.complex64: return gdalconst.GDT_CFloat32 for key, value in codes.items(): if value == code: return key return None else: try: return codes[code] except KeyError: return None def NumericTypeCodeToGDALTypeCode(numeric_type): if not isinstance(numeric_type, (numpy.dtype, type)): raise TypeError("Input must be a type") return flip_code(numeric_type) def GDALTypeCodeToNumericTypeCode(gdal_code): return flip_code(gdal_code) def _RaiseException(): if gdal.GetUseExceptions(): _StoreLastException() raise RuntimeError(gdal.GetLastErrorMsg()) def LoadFile(filename, xoff=0, yoff=0, xsize=None, ysize=None, buf_xsize=None, buf_ysize=None, buf_type=None, resample_alg=gdal.GRIORA_NearestNeighbour, callback=None, callback_data=None, interleave='band'): ds = gdal.Open(filename) if ds is None: raise ValueError("Can't open "+filename+"\n\n"+gdal.GetLastErrorMsg()) return DatasetReadAsArray(ds, xoff, yoff, xsize, ysize, buf_xsize=buf_xsize, buf_ysize=buf_ysize, buf_type=buf_type, resample_alg=resample_alg, callback=callback, callback_data=callback_data, interleave=interleave) def SaveArray(src_array, filename, format="GTiff", prototype=None, interleave='band'): driver = gdal.GetDriverByName(format) if driver is None: raise ValueError("Can't find driver "+format) return driver.CreateCopy(filename, OpenArray(src_array, prototype, interleave)) def DatasetReadAsArray(ds, xoff=0, yoff=0, win_xsize=None, win_ysize=None, buf_obj=None, buf_xsize=None, buf_ysize=None, buf_type=None, resample_alg=gdal.GRIORA_NearestNeighbour, callback=None, callback_data=None, interleave='band'): """Pure python implementation of reading a chunk of a GDAL file into a numpy array. Used by the gdal.Dataset.ReadAsArray method.""" if win_xsize is None: win_xsize = ds.RasterXSize if win_ysize is None: win_ysize = ds.RasterYSize interleave = interleave.lower() if interleave == 'band': interleave = True xdim = 2 ydim = 1 banddim = 0 elif interleave == 'pixel': interleave = False xdim = 1 ydim = 0 banddim = 2 else: raise ValueError('Interleave should be band or pixel') if ds.RasterCount == 0: return None if ds.RasterCount == 1: return BandReadAsArray(ds.GetRasterBand(1), xoff, yoff, win_xsize, win_ysize, buf_xsize=buf_xsize, buf_ysize=buf_ysize, buf_type=buf_type, buf_obj=buf_obj, resample_alg=resample_alg, callback=callback, callback_data=callback_data) if buf_obj is None: if buf_xsize is None: buf_xsize = win_xsize if buf_ysize is None: buf_ysize = win_ysize if buf_type is None: buf_type = ds.GetRasterBand(1).DataType for band_index in range(2, ds.RasterCount + 1): if buf_type != ds.GetRasterBand(band_index).DataType: buf_type = gdalconst.GDT_Float32 typecode = GDALTypeCodeToNumericTypeCode(buf_type) if typecode is None: buf_type = gdalconst.GDT_Float32 typecode = numpy.float32 else: buf_type = NumericTypeCodeToGDALTypeCode(typecode) if buf_type == gdalconst.GDT_Byte and ds.GetRasterBand(1).GetMetadataItem('PIXELTYPE', 'IMAGE_STRUCTURE') == 'SIGNEDBYTE': typecode = numpy.int8 buf_shape = (ds.RasterCount, buf_ysize, buf_xsize) if interleave else (buf_ysize, buf_xsize, ds.RasterCount) buf_obj = numpy.empty(buf_shape, dtype=typecode) else: if len(buf_obj.shape) != 3: raise ValueError('Array should have 3 dimensions') shape_buf_xsize = buf_obj.shape[xdim] shape_buf_ysize = buf_obj.shape[ydim] if buf_xsize is not None and buf_xsize != shape_buf_xsize: raise ValueError('Specified buf_xsize not consistent with array shape') if buf_ysize is not None and buf_ysize != shape_buf_ysize: raise ValueError('Specified buf_ysize not consistent with array shape') if buf_obj.shape[banddim] != ds.RasterCount: raise ValueError('Dimension %d of array should have size %d to store bands)' % (banddim, ds.RasterCount)) datatype = NumericTypeCodeToGDALTypeCode(buf_obj.dtype.type) if not datatype: raise ValueError("array does not have corresponding GDAL data type") if buf_type is not None and buf_type != datatype: raise ValueError("Specified buf_type not consistent with array type") buf_type = datatype if DatasetIONumPy(ds, 0, xoff, yoff, win_xsize, win_ysize, buf_obj, buf_type, resample_alg, callback, callback_data, interleave) != 0: _RaiseException() return None return buf_obj def BandReadAsArray(band, xoff=0, yoff=0, win_xsize=None, win_ysize=None, buf_xsize=None, buf_ysize=None, buf_type=None, buf_obj=None, resample_alg=gdal.GRIORA_NearestNeighbour, callback=None, callback_data=None): """Pure python implementation of reading a chunk of a GDAL file into a numpy array. Used by the gdal.Band.ReadAsArray method.""" if win_xsize is None: win_xsize = band.XSize if win_ysize is None: win_ysize = band.YSize if buf_obj is None: if buf_xsize is None: buf_xsize = win_xsize if buf_ysize is None: buf_ysize = win_ysize if buf_type is None: buf_type = band.DataType typecode = GDALTypeCodeToNumericTypeCode(buf_type) if typecode is None: buf_type = gdalconst.GDT_Float32 typecode = numpy.float32 else: buf_type = NumericTypeCodeToGDALTypeCode(typecode) if buf_type == gdalconst.GDT_Byte and band.GetMetadataItem('PIXELTYPE', 'IMAGE_STRUCTURE') == 'SIGNEDBYTE': typecode = numpy.int8 buf_obj = numpy.empty([buf_ysize, buf_xsize], dtype=typecode) else: if len(buf_obj.shape) == 2: shape_buf_xsize = buf_obj.shape[1] shape_buf_ysize = buf_obj.shape[0] else: shape_buf_xsize = buf_obj.shape[2] shape_buf_ysize = buf_obj.shape[1] if buf_xsize is not None and buf_xsize != shape_buf_xsize: raise ValueError('Specified buf_xsize not consistent with array shape') if buf_ysize is not None and buf_ysize != shape_buf_ysize: raise ValueError('Specified buf_ysize not consistent with array shape') datatype = NumericTypeCodeToGDALTypeCode(buf_obj.dtype.type) if not datatype: raise ValueError("array does not have corresponding GDAL data type") if buf_type is not None and buf_type != datatype: raise ValueError("Specified buf_type not consistent with array type") buf_type = datatype if BandRasterIONumPy(band, 0, xoff, yoff, win_xsize, win_ysize, buf_obj, buf_type, resample_alg, callback, callback_data) != 0: _RaiseException() return None return buf_obj def BandWriteArray(band, array, xoff=0, yoff=0, resample_alg=gdal.GRIORA_NearestNeighbour, callback=None, callback_data=None): """Pure python implementation of writing a chunk of a GDAL file from a numpy array. Used by the gdal.Band.WriteArray method.""" if array is None or len(array.shape) != 2: raise ValueError("expected array of dim 2") xsize = array.shape[1] ysize = array.shape[0] if xsize + xoff > band.XSize or ysize + yoff > band.YSize: raise ValueError("array larger than output file, or offset off edge") datatype = NumericTypeCodeToGDALTypeCode(array.dtype.type) # if we receive some odd type, like int64, try casting to a very # generic type we do support (#2285) if not datatype: gdal.Debug('gdal_array', 'force array to float64') array = array.astype(numpy.float64) datatype = NumericTypeCodeToGDALTypeCode(array.dtype.type) if not datatype: raise ValueError("array does not have corresponding GDAL data type") ret = BandRasterIONumPy(band, 1, xoff, yoff, xsize, ysize, array, datatype, resample_alg, callback, callback_data) if ret != 0: _RaiseException() return ret def ExtendedDataTypeToNumPyDataType(dt): klass = dt.GetClass() if klass == gdal.GEDTC_STRING: return numpy.bytes_ if klass == gdal.GEDTC_NUMERIC: buf_type = dt.GetNumericDataType() typecode = GDALTypeCodeToNumericTypeCode(buf_type) if typecode is None: typecode = numpy.float32 return typecode assert klass == gdal.GEDTC_COMPOUND names = [] formats = [] offsets = [] for comp in dt.GetComponents(): names.append(comp.GetName()) formats.append(ExtendedDataTypeToNumPyDataType(comp.GetType())) offsets.append(comp.GetOffset()) return numpy.dtype({'names': names, 'formats': formats, 'offsets': offsets, 'itemsize': dt.GetSize()}) def MDArrayReadAsArray(mdarray, array_start_idx = None, count = None, array_step = None, buffer_datatype = None, buf_obj = None): if not array_start_idx: array_start_idx = [0] * mdarray.GetDimensionCount() if not count: count = [ dim.GetSize() for dim in mdarray.GetDimensions() ] if not array_step: array_step = [1] * mdarray.GetDimensionCount() if not buffer_datatype: buffer_datatype = mdarray.GetDataType() if buf_obj is None: typecode = ExtendedDataTypeToNumPyDataType(buffer_datatype) buf_obj = numpy.empty(count, dtype=typecode) ret = MDArrayIONumPy(False, mdarray, buf_obj, array_start_idx, array_step, buffer_datatype) if ret != 0: _RaiseException() return buf_obj def MDArrayWriteArray(mdarray, array, array_start_idx = None, array_step = None): if not array_start_idx: array_start_idx = [0] * mdarray.GetDimensionCount() if not array_step: array_step = [1] * mdarray.GetDimensionCount() buffer_datatype = mdarray.GetDataType() if array.dtype != ExtendedDataTypeToNumPyDataType(buffer_datatype): datatype = NumericTypeCodeToGDALTypeCode(array.dtype.type) # if we receive some odd type, like int64, try casting to a very # generic type we do support (#2285) if not datatype: gdal.Debug('gdal_array', 'force array to float64') array = array.astype(numpy.float64) datatype = NumericTypeCodeToGDALTypeCode(array.dtype.type) if not datatype: raise ValueError("array does not have corresponding GDAL data type") buffer_datatype = gdal.ExtendedDataType.Create(datatype) ret = MDArrayIONumPy(True, mdarray, array, array_start_idx, array_step, buffer_datatype) if ret != 0: _RaiseException() return ret def RATWriteArray(rat, array, field, start=0): """ Pure Python implementation of writing a chunk of the RAT from a numpy array. Type of array is coerced to one of the types (int, double, string) supported. Called from RasterAttributeTable.WriteArray """ if array is None: raise ValueError("Expected array of dim 1") # if not the array type convert it to handle lists etc if not isinstance(array, numpy.ndarray): array = numpy.array(array) if array.ndim != 1: raise ValueError("Expected array of dim 1") if (start + array.size) > rat.GetRowCount(): raise ValueError("Array too big to fit into RAT from start position") if numpy.issubdtype(array.dtype, numpy.integer): # is some type of integer - coerce to standard int # TODO: must check this is fine on all platforms # confusingly numpy.int 64 bit even if native type 32 bit array = array.astype(numpy.int32) elif numpy.issubdtype(array.dtype, numpy.floating): # is some type of floating point - coerce to double array = array.astype(numpy.double) elif numpy.issubdtype(array.dtype, numpy.character): # cast away any kind of Unicode etc array = array.astype(numpy.character) else: raise ValueError("Array not of a supported type (integer, double or string)") ret = RATValuesIONumPyWrite(rat, field, start, array) if ret != 0: _RaiseException() return ret def RATReadArray(rat, field, start=0, length=None): """ Pure Python implementation of reading a chunk of the RAT into a numpy array. Called from RasterAttributeTable.ReadAsArray """ if length is None: length = rat.GetRowCount() - start ret = RATValuesIONumPyRead(rat, field, start, length) if ret is None: _RaiseException() return ret def CopyDatasetInfo(src, dst, xoff=0, yoff=0): """ Copy georeferencing information and metadata from one dataset to another. src: input dataset dst: output dataset - It can be a ROI - xoff, yoff: dst's offset with respect to src in pixel/line. Notes: Destination dataset must have update access. Certain formats do not support creation of geotransforms and/or gcps. """ dst.SetMetadata(src.GetMetadata()) #Check for geo transform gt = src.GetGeoTransform() if gt != (0, 1, 0, 0, 0, 1): dst.SetProjection(src.GetProjectionRef()) if xoff == 0 and yoff == 0: dst.SetGeoTransform(gt) else: ngt = [gt[0], gt[1], gt[2], gt[3], gt[4], gt[5]] ngt[0] = gt[0] + xoff*gt[1] + yoff*gt[2] ngt[3] = gt[3] + xoff*gt[4] + yoff*gt[5] dst.SetGeoTransform((ngt[0], ngt[1], ngt[2], ngt[3], ngt[4], ngt[5])) #Check for GCPs elif src.GetGCPCount() > 0: if (xoff == 0) and (yoff == 0): dst.SetGCPs(src.GetGCPs(), src.GetGCPProjection()) else: gcps = src.GetGCPs() #Shift gcps new_gcps = [] for gcp in gcps: ngcp = gdal.GCP() ngcp.GCPX = gcp.GCPX ngcp.GCPY = gcp.GCPY ngcp.GCPZ = gcp.GCPZ ngcp.GCPPixel = gcp.GCPPixel - xoff ngcp.GCPLine = gcp.GCPLine - yoff ngcp.Info = gcp.Info ngcp.Id = gcp.Id new_gcps.append(ngcp) try: dst.SetGCPs(new_gcps, src.GetGCPProjection()) except: print("Failed to set GCPs") return return