Python Utilities
Raster Utilities
- osgeo.gdal.AutoCreateWarpedVRT(Dataset src_ds, char const * src_wkt=None, char const * dst_wkt=None, GDALResampleAlg eResampleAlg=GRA_NearestNeighbour, double maxerror=0.0) Dataset
- osgeo.gdal.BuildVRT(destName, srcDSOrSrcDSTab, **kwargs)
Build a VRT from a list of datasets. Arguments are :
destName --- Output dataset name srcDSOrSrcDSTab --- an array of Dataset objects or filenames, or a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.BuildVRTOptions(), string or array of strings other keywords arguments of gdal.BuildVRTOptions()
If options is provided as a gdal.BuildVRTOptions() object, other keywords are ignored.
- osgeo.gdal.BuildVRTOptions(options=None, resolution=None, outputBounds=None, xRes=None, yRes=None, targetAlignedPixels=None, separate=None, bandList=None, addAlpha=None, resampleAlg=None, outputSRS=None, allowProjectionDifference=None, srcNodata=None, VRTNodata=None, hideNodata=None, callback=None, callback_data=None)
Create a BuildVRTOptions() object that can be passed to gdal.BuildVRT() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords.. resolution --- 'highest', 'lowest', 'average', 'user'. outputBounds --- output bounds as (minX, minY, maxX, maxY) in target SRS. xRes, yRes --- output resolution in target SRS. targetAlignedPixels --- whether to force output bounds to be multiple of output resolution. separate --- whether each source file goes into a separate stacked band in the VRT band. bandList --- array of band numbers (index start at 1). addAlpha --- whether to add an alpha mask band to the VRT when the source raster have none. resampleAlg --- resampling mode. outputSRS --- assigned output SRS. allowProjectionDifference --- whether to accept input datasets have not the same projection. Note: they will not be reprojected. srcNodata --- source nodata value(s). VRTNodata --- nodata values at the VRT band level. hideNodata --- whether to make the VRT band not report the NoData value. callback --- callback method. callback_data --- user data for callback.
- osgeo.gdal.CreatePansharpenedVRT(char const * pszXML, Band panchroBand, int nInputSpectralBands) Dataset
- osgeo.gdal.ContourGenerate(Band srcBand, double contourInterval, double contourBase, int fixedLevelCount, int useNoData, double noDataValue, Layer dstLayer, int idField, int elevField, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.ContourGenerateEx(Band srcBand, Layer dstLayer, char ** options=None, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.DEMProcessing(destName, srcDS, processing, **kwargs)
Apply a DEM processing. Arguments are :
destName --- Output dataset name srcDS --- a Dataset object or a filename processing --- one of "hillshade", "slope", "aspect", "color-relief", "TRI", "TPI", "Roughness"
- Keyword arguments are :
options --- return of gdal.DEMProcessingOptions(), string or array of strings other keywords arguments of gdal.DEMProcessingOptions()
If options is provided as a gdal.DEMProcessingOptions() object, other keywords are ignored.
- osgeo.gdal.DEMProcessingOptions(options=None, colorFilename=None, format=None, creationOptions=None, computeEdges=False, alg=None, band=1, zFactor=None, scale=None, azimuth=None, altitude=None, combined=False, multiDirectional=False, igor=False, slopeFormat=None, trigonometric=False, zeroForFlat=False, addAlpha=None, colorSelection=None, callback=None, callback_data=None)
Create a DEMProcessingOptions() object that can be passed to gdal.DEMProcessing() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. colorFilename --- (mandatory for "color-relief") name of file that contains palette definition for the "color-relief" processing. format --- output format ("GTiff", etc...) creationOptions --- list of creation options computeEdges --- whether to compute values at raster edges. alg --- 'Horn' (default) or 'ZevenbergenThorne' for hillshade, slope or aspect. 'Wilson' (default) or 'Riley' for TRI band --- source band number to use zFactor --- (hillshade only) vertical exaggeration used to pre-multiply the elevations. scale --- ratio of vertical units to horizontal. azimuth --- (hillshade only) azimuth of the light, in degrees. 0 if it comes from the top of the raster, 90 from the east, ... The default value, 315, should rarely be changed as it is the value generally used to generate shaded maps. altitude ---(hillshade only) altitude of the light, in degrees. 90 if the light comes from above the DEM, 0 if it is raking light. combined --- (hillshade only) whether to compute combined shading, a combination of slope and oblique shading. Only one of combined, multiDirectional and igor can be specified. multiDirectional --- (hillshade only) whether to compute multi-directional shading. Only one of combined, multiDirectional and igor can be specified. igor --- (hillshade only) whether to use Igor's hillshading from Maperitive. Only one of combined, multiDirectional and igor can be specified. slopeformat --- (slope only) "degree" or "percent". trigonometric --- (aspect only) whether to return trigonometric angle instead of azimuth. Thus 0deg means East, 90deg North, 180deg West, 270deg South. zeroForFlat --- (aspect only) whether to return 0 for flat areas with slope=0, instead of -9999. addAlpha --- adds an alpha band to the output file (only for processing = 'color-relief') colorSelection --- (color-relief only) Determines how color entries are selected from an input value. Can be "nearest_color_entry", "exact_color_entry" or "linear_interpolation". Defaults to "linear_interpolation" callback --- callback method callback_data --- user data for callback
- osgeo.gdal.FillNodata(Band targetBand, Band maskBand, double maxSearchDist, int smoothingIterations, char ** options=None, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.Grid(destName, srcDS, **kwargs)
Create raster from the scattered data. Arguments are :
destName --- Output dataset name srcDS --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.GridOptions(), string or array of strings other keywords arguments of gdal.GridOptions()
If options is provided as a gdal.GridOptions() object, other keywords are ignored.
- osgeo.gdal.GridOptions(options=None, format=None, outputType=0, width=0, height=0, creationOptions=None, outputBounds=None, outputSRS=None, noData=None, algorithm=None, layers=None, SQLStatement=None, where=None, spatFilter=None, zfield=None, z_increase=None, z_multiply=None, callback=None, callback_data=None)
Create a GridOptions() object that can be passed to gdal.Grid() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) outputType --- output type (gdalconst.GDT_Byte, etc...) width --- width of the output raster in pixel height --- height of the output raster in pixel creationOptions --- list of creation options outputBounds --- assigned output bounds: [ulx, uly, lrx, lry] outputSRS --- assigned output SRS noData --- nodata value algorithm --- e.g "invdist:power=2.0:smoothing=0.0:radius1=0.0:radius2=0.0:angle=0.0:max_points=0:min_points=0:nodata=0.0" layers --- list of layers to convert SQLStatement --- SQL statement to apply to the source dataset where --- WHERE clause to apply to source layer(s) spatFilter --- spatial filter as (minX, minY, maxX, maxY) bounding box zfield --- Identifies an attribute field on the features to be used to get a Z value from. This value overrides Z value read from feature geometry record. z_increase --- Addition to the attribute field on the features to be used to get a Z value from. The addition should be the same unit as Z value. The result value will be Z value + Z increase value. The default value is 0. z_multiply - Multiplication ratio for Z field. This can be used for shift from e.g. foot to meters or from elevation to deep. The result value will be (Z value + Z increase value) * Z multiply value. The default value is 1. callback --- callback method callback_data --- user data for callback
- osgeo.gdal.Info(ds, **kwargs)
Return information on a dataset. Arguments are :
ds --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.InfoOptions(), string or array of strings other keywords arguments of gdal.InfoOptions()
If options is provided as a gdal.InfoOptions() object, other keywords are ignored.
- osgeo.gdal.InfoOptions(options=None, format='text', deserialize=True, computeMinMax=False, reportHistograms=False, reportProj4=False, stats=False, approxStats=False, computeChecksum=False, showGCPs=True, showMetadata=True, showRAT=True, showColorTable=True, listMDD=False, showFileList=True, allMetadata=False, extraMDDomains=None, wktFormat=None)
Create a InfoOptions() object that can be passed to gdal.Info() options can be be an array of strings, a string or let empty and filled from other keywords.
- osgeo.gdal.Nearblack(destNameOrDestDS, srcDS, **kwargs)
Convert nearly black/white borders to exact value. Arguments are :
destNameOrDestDS --- Output dataset name or object srcDS --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.NearblackOptions(), string or array of strings other keywords arguments of gdal.NearblackOptions()
If options is provided as a gdal.NearblackOptions() object, other keywords are ignored.
- osgeo.gdal.NearblackOptions(options=None, format=None, creationOptions=None, white=False, colors=None, maxNonBlack=None, nearDist=None, setAlpha=False, setMask=False, callback=None, callback_data=None)
Create a NearblackOptions() object that can be passed to gdal.Nearblack() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) creationOptions --- list of creation options white --- whether to search for nearly white (255) pixels instead of nearly black pixels. colors --- list of colors to search for, e.g. ((0,0,0),(255,255,255)). The pixels that are considered as the collar are set to 0 maxNonBlack --- number of non-black (or other searched colors specified with white / colors) pixels that can be encountered before the giving up search inwards. Defaults to 2. nearDist --- select how far from black, white or custom colors the pixel values can be and still considered near black, white or custom color. Defaults to 15. setAlpha --- adds an alpha band to the output file. setMask --- adds a mask band to the output file. callback --- callback method callback_data --- user data for callback
- osgeo.gdal.Polygonize(Band srcBand, Band maskBand, Layer outLayer, int iPixValField, char ** options=None, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.Rasterize(destNameOrDestDS, srcDS, **kwargs)
Burns vector geometries into a raster Arguments are :
destNameOrDestDS --- Output dataset name or object srcDS --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.RasterizeOptions(), string or array of strings other keywords arguments of gdal.RasterizeOptions()
If options is provided as a gdal.RasterizeOptions() object, other keywords are ignored.
- osgeo.gdal.RasterizeOptions(options=None, format=None, outputType=0, creationOptions=None, noData=None, initValues=None, outputBounds=None, outputSRS=None, transformerOptions=None, width=None, height=None, xRes=None, yRes=None, targetAlignedPixels=False, bands=None, inverse=False, allTouched=False, burnValues=None, attribute=None, useZ=False, layers=None, SQLStatement=None, SQLDialect=None, where=None, optim=None, add=None, callback=None, callback_data=None)
Create a RasterizeOptions() object that can be passed to gdal.Rasterize() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) outputType --- output type (gdalconst.GDT_Byte, etc...) creationOptions --- list of creation options outputBounds --- assigned output bounds: [minx, miny, maxx, maxy] outputSRS --- assigned output SRS transformerOptions --- list of transformer options width --- width of the output raster in pixel height --- height of the output raster in pixel xRes, yRes --- output resolution in target SRS targetAlignedPixels --- whether to force output bounds to be multiple of output resolution noData --- nodata value initValues --- Value or list of values to pre-initialize the output image bands with. However, it is not marked as the nodata value in the output file. If only one value is given, the same value is used in all the bands. bands --- list of output bands to burn values into inverse --- whether to invert rasterization, i.e. burn the fixed burn value, or the burn value associated with the first feature into all parts of the image not inside the provided a polygon. allTouched -- whether to enable the ALL_TOUCHED rasterization option so that all pixels touched by lines or polygons will be updated, not just those on the line render path, or whose center point is within the polygon. burnValues -- list of fixed values to burn into each band for all objects. Excusive with attribute. attribute --- identifies an attribute field on the features to be used for a burn-in value. The value will be burned into all output bands. Excusive with burnValues. useZ --- whether to indicate that a burn value should be extracted from the "Z" values of the feature. These values are added to the burn value given by burnValues or attribute if provided. As of now, only points and lines are drawn in 3D. layers --- list of layers from the datasource that will be used for input features. SQLStatement --- SQL statement to apply to the source dataset SQLDialect --- SQL dialect ('OGRSQL', 'SQLITE', ...) where --- WHERE clause to apply to source layer(s) optim --- optimization mode ('RASTER', 'VECTOR') add --- set to True to use additive mode instead of replace when burning values callback --- callback method callback_data --- user data for callback
- osgeo.gdal.RasterizeLayer(Dataset dataset, int bands, Layer layer, void * pfnTransformer=None, void * pTransformArg=None, int burn_values=0, char ** options=None, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.SieveFilter(Band srcBand, Band maskBand, Band dstBand, int threshold, int connectedness=4, char ** options=None, GDALProgressFunc callback=0, void * callback_data=None) int
- osgeo.gdal.Translate(destName, srcDS, **kwargs)
Convert a dataset. Arguments are :
destName --- Output dataset name srcDS --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.TranslateOptions(), string or array of strings other keywords arguments of gdal.TranslateOptions()
If options is provided as a gdal.TranslateOptions() object, other keywords are ignored.
- osgeo.gdal.TranslateOptions(options=None, format=None, outputType=0, bandList=None, maskBand=None, width=0, height=0, widthPct=0.0, heightPct=0.0, xRes=0.0, yRes=0.0, creationOptions=None, srcWin=None, projWin=None, projWinSRS=None, strict=False, unscale=False, scaleParams=None, exponents=None, outputBounds=None, metadataOptions=None, outputSRS=None, nogcp=False, GCPs=None, noData=None, rgbExpand=None, stats=False, rat=True, resampleAlg=None, callback=None, callback_data=None)
Create a TranslateOptions() object that can be passed to gdal.Translate() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) outputType --- output type (gdalconst.GDT_Byte, etc...) bandList --- array of band numbers (index start at 1) maskBand --- mask band to generate or not ("none", "auto", "mask", 1, ...) width --- width of the output raster in pixel height --- height of the output raster in pixel widthPct --- width of the output raster in percentage (100 = original width) heightPct --- height of the output raster in percentage (100 = original height) xRes --- output horizontal resolution yRes --- output vertical resolution creationOptions --- list of creation options srcWin --- subwindow in pixels to extract: [left_x, top_y, width, height] projWin --- subwindow in projected coordinates to extract: [ulx, uly, lrx, lry] projWinSRS --- SRS in which projWin is expressed strict --- strict mode unscale --- unscale values with scale and offset metadata scaleParams --- list of scale parameters, each of the form [src_min,src_max] or [src_min,src_max,dst_min,dst_max] exponents --- list of exponentiation parameters outputBounds --- assigned output bounds: [ulx, uly, lrx, lry] metadataOptions --- list of metadata options outputSRS --- assigned output SRS nogcp --- ignore GCP in the raster GCPs --- list of GCPs noData --- nodata value (or "none" to unset it) rgbExpand --- Color palette expansion mode: "gray", "rgb", "rgba" stats --- whether to calculate statistics rat --- whether to write source RAT resampleAlg --- resampling mode callback --- callback method callback_data --- user data for callback
- osgeo.gdal.ViewshedGenerate(Band srcBand, char const * driverName, char const * targetRasterName, char ** creationOptions, double observerX, double observerY, double observerHeight, double targetHeight, double visibleVal, double invisibleVal, double outOfRangeVal, double noDataVal, double dfCurvCoeff, GDALViewshedMode mode, double maxDistance, GDALProgressFunc callback=0, void * callback_data=None, GDALViewshedOutputType heightMode=GVOT_NORMAL, char ** papszOptions=None) Dataset
- osgeo.gdal.Warp(destNameOrDestDS, srcDSOrSrcDSTab, **kwargs)
Warp one or several datasets. Arguments are :
destNameOrDestDS --- Output dataset name or object srcDSOrSrcDSTab --- an array of Dataset objects or filenames, or a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.WarpOptions(), string or array of strings other keywords arguments of gdal.WarpOptions()
If options is provided as a gdal.WarpOptions() object, other keywords are ignored.
- osgeo.gdal.WarpOptions(options=None, format=None, outputBounds=None, outputBoundsSRS=None, xRes=None, yRes=None, targetAlignedPixels=False, width=0, height=0, srcSRS=None, dstSRS=None, coordinateOperation=None, srcAlpha=False, dstAlpha=False, warpOptions=None, errorThreshold=None, warpMemoryLimit=None, creationOptions=None, outputType=0, workingType=0, resampleAlg=None, srcNodata=None, dstNodata=None, multithread=False, tps=False, rpc=False, geoloc=False, polynomialOrder=None, transformerOptions=None, cutlineDSName=None, cutlineLayer=None, cutlineWhere=None, cutlineSQL=None, cutlineBlend=None, cropToCutline=False, copyMetadata=True, metadataConflictValue=None, setColorInterpretation=False, overviewLevel='AUTO', callback=None, callback_data=None)
Create a WarpOptions() object that can be passed to gdal.Warp() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) outputBounds --- output bounds as (minX, minY, maxX, maxY) in target SRS outputBoundsSRS --- SRS in which output bounds are expressed, in the case they are not expressed in dstSRS xRes, yRes --- output resolution in target SRS targetAlignedPixels --- whether to force output bounds to be multiple of output resolution width --- width of the output raster in pixel height --- height of the output raster in pixel srcSRS --- source SRS dstSRS --- output SRS coordinateOperation -- coordinate operation as a PROJ string or WKT string srcAlpha --- whether to force the last band of the input dataset to be considered as an alpha band dstAlpha --- whether to force the creation of an output alpha band outputType --- output type (gdalconst.GDT_Byte, etc...) workingType --- working type (gdalconst.GDT_Byte, etc...) warpOptions --- list of warping options errorThreshold --- error threshold for approximation transformer (in pixels) warpMemoryLimit --- size of working buffer in MB resampleAlg --- resampling mode creationOptions --- list of creation options srcNodata --- source nodata value(s) dstNodata --- output nodata value(s) multithread --- whether to multithread computation and I/O operations tps --- whether to use Thin Plate Spline GCP transformer rpc --- whether to use RPC transformer geoloc --- whether to use GeoLocation array transformer polynomialOrder --- order of polynomial GCP interpolation transformerOptions --- list of transformer options cutlineDSName --- cutline dataset name cutlineLayer --- cutline layer name cutlineWhere --- cutline WHERE clause cutlineSQL --- cutline SQL statement cutlineBlend --- cutline blend distance in pixels cropToCutline --- whether to use cutline extent for output bounds copyMetadata --- whether to copy source metadata metadataConflictValue --- metadata data conflict value setColorInterpretation --- whether to force color interpretation of input bands to output bands overviewLevel --- To specify which overview level of source files must be used callback --- callback method callback_data --- user data for callback
Multidimensional Raster Utilities
- osgeo.gdal.MultiDimInfo(ds, **kwargs)
Return information on a dataset. Arguments are :
ds --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.MultiDimInfoOptions(), string or array of strings other keywords arguments of gdal.MultiDimInfoOptions()
If options is provided as a gdal.MultiDimInfoOptions() object, other keywords are ignored.
- osgeo.gdal.MultiDimInfoOptions(options=None, detailed=False, array=None, arrayoptions=None, limit=None, as_text=False)
Create a MultiDimInfoOptions() object that can be passed to gdal.MultiDimInfo() options can be be an array of strings, a string or let empty and filled from other keywords.
- osgeo.gdal.MultiDimTranslate(destName, srcDSOrSrcDSTab, **kwargs)
MultiDimTranslate one or several datasets. Arguments are :
destName --- Output dataset name srcDSOrSrcDSTab --- an array of Dataset objects or filenames, or a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.MultiDimTranslateOptions(), string or array of strings other keywords arguments of gdal.MultiDimTranslateOptions()
If options is provided as a gdal.MultiDimTranslateOptions() object, other keywords are ignored.
- osgeo.gdal.MultiDimTranslateOptions(options=None, format=None, creationOptions=None, arraySpecs=None, groupSpecs=None, subsetSpecs=None, scaleAxesSpecs=None, callback=None, callback_data=None)
Create a MultiDimTranslateOptions() object that can be passed to gdal.MultiDimTranslate() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("GTiff", etc...) creationOptions --- list of creation options arraySpecs -- list of array specifications, each of them being an array name or "name={src_array_name},dstname={dst_name},transpose=[1,0],view=[:,::-1]" groupSpecs -- list of group specifications, each of them being a group name or "name={src_array_name},dstname={dst_name},recursive=no" subsetSpecs -- list of subset specifications, each of them being like "{dim_name}({min_val},{max_val})" or "{dim_name}({slice_va})" scaleAxesSpecs -- list of dimension scaling specifications, each of them being like "{dim_name}({scale_factor})" callback --- callback method callback_data --- user data for callback
Vector Utilities
- osgeo.gdal.VectorTranslate(destNameOrDestDS, srcDS, **kwargs)
Convert one vector dataset Arguments are :
destNameOrDestDS --- Output dataset name or object srcDS --- a Dataset object or a filename
- Keyword arguments are :
options --- return of gdal.VectorTranslateOptions(), string or array of strings other keywords arguments of gdal.VectorTranslateOptions()
If options is provided as a gdal.VectorTranslateOptions() object, other keywords are ignored.
- osgeo.gdal.VectorTranslateOptions(options=None, format=None, accessMode=None, srcSRS=None, dstSRS=None, reproject=True, coordinateOperation=None, SQLStatement=None, SQLDialect=None, where=None, selectFields=None, addFields=False, forceNullable=False, emptyStrAsNull=False, spatFilter=None, spatSRS=None, datasetCreationOptions=None, layerCreationOptions=None, layers=None, layerName=None, geometryType=None, dim=None, segmentizeMaxDist=None, makeValid=False, zField=None, resolveDomains=False, skipFailures=False, limit=None, callback=None, callback_data=None)
Create a VectorTranslateOptions() object that can be passed to gdal.VectorTranslate() Keyword arguments are :
options --- can be be an array of strings, a string or let empty and filled from other keywords. format --- output format ("ESRI Shapefile", etc...) accessMode --- None for creation, 'update', 'append', 'overwrite' srcSRS --- source SRS dstSRS --- output SRS (with reprojection if reproject = True) coordinateOperation -- coordinate operation as a PROJ string or WKT string reproject --- whether to do reprojection SQLStatement --- SQL statement to apply to the source dataset SQLDialect --- SQL dialect ('OGRSQL', 'SQLITE', ...) where --- WHERE clause to apply to source layer(s) selectFields --- list of fields to select addFields --- whether to add new fields found in source layers (to be used with accessMode == 'append') forceNullable --- whether to drop NOT NULL constraints on newly created fields emptyStrAsNull --- whether to treat empty string values as NULL spatFilter --- spatial filter as (minX, minY, maxX, maxY) bounding box spatSRS --- SRS in which the spatFilter is expressed. If not specified, it is assumed to be the one of the layer(s) datasetCreationOptions --- list of dataset creation options layerCreationOptions --- list of layer creation options layers --- list of layers to convert layerName --- output layer name geometryType --- output layer geometry type ('POINT', ....) dim --- output dimension ('XY', 'XYZ', 'XYM', 'XYZM', 'layer_dim') segmentizeMaxDist --- maximum distance between consecutive nodes of a line geometry makeValid --- run MakeValid() on geometries zField --- name of field to use to set the Z component of geometries resolveDomains --- whether to create an additional field for each field associated with a coded field domain. skipFailures --- whether to skip failures limit -- maximum number of features to read per layer callback --- callback method callback_data --- user data for callback