GDRARASTBASE+ C++ API

class GDALRasterBand : public GDALMajorObject

A single raster band (or channel).

Subclassed by GDALApplyVSGRasterBand, GDALColorReliefRasterBand, GDALGeneric3x3RasterBand< T >, GDALMDArrayResampledDatasetRasterBand, GDALPamRasterBand, GDALRasterBandFromArray

公共职能

GDALRasterBand()

Constructor. Applications should never create GDALRasterBands directly.

explicit GDALRasterBand(int bForceCachedIO)

Constructor.

Applications should never create GDALRasterBands directly.

参数

bForceCachedIOIn -- Whether cached IO should be forced.

~GDALRasterBand() override

Destructor. Applications should never destroy GDALRasterBands directly, instead destroy the GDALDataset.

int GetXSize()

Fetch XSize of raster.

This method is the same as the C function GDALGetRasterBandXSize().

返回

the width in pixels of this band.

int GetYSize()

Fetch YSize of raster.

This method is the same as the C function GDALGetRasterBandYSize().

返回

the height in pixels of this band.

int GetBand()

Fetch the band number.

This method returns the band that this GDALRasterBand objects represents within its dataset. This method may return a value of 0 to indicate GDALRasterBand objects without an apparently relationship to a dataset, such as GDALRasterBands serving as overviews.

This method is the same as the C function GDALGetBandNumber().

返回

band number (1+) or 0 if the band number isn't known.

GDALDataset *GetDataset()

Fetch the owning dataset handle.

Note that some GDALRasterBands are not considered to be a part of a dataset, such as overviews or other "freestanding" bands.

This method is the same as the C function GDALGetBandDataset().

返回

the pointer to the GDALDataset to which this band belongs, or NULL if this cannot be determined.

GDALDataType GetRasterDataType(void)

Fetch the pixel data type for this band.

This method is the same as the C function GDALGetRasterDataType().

返回

the data type of pixels for this band.

void GetBlockSize(int*, int*)

Fetch the "natural" block size of this band.

GDAL contains a concept of the natural block size of rasters so that applications can organized data access efficiently for some file formats. The natural block size is the block size that is most efficient for accessing the format. For many formats this is simple a whole scanline in which case *pnXSize is set to GetXSize(), and *pnYSize is set to 1.

However, for tiled images this will typically be the tile size.

Note that the X and Y block sizes don't have to divide the image size evenly, meaning that right and bottom edge blocks may be incomplete. See ReadBlock() for an example of code dealing with these issues.

This method is the same as the C function GDALGetBlockSize().

参数

• pnXSize -- integer to put the X block size into or NULL.

• pnYSize -- integer to put the Y block size into or NULL.

CPLErr GetActualBlockSize(int, int, int*, int*)

Fetch the actual block size for a given block offset.

Handles partial blocks at the edges of the raster and returns the true number of pixels

Since

GDAL 2.2

参数

• nXBlockOff -- the horizontal block offset for which to calculate the number of valid pixels, with zero indicating the left most block, 1 the next block and so forth.

• nYBlockOff -- the vertical block offset, with zero indicating the left most block, 1 the next block and so forth.

• pnXValid -- pointer to an integer in which the number of valid pixels in the x direction will be stored

• pnYValid -- pointer to an integer in which the number of valid pixels in the y direction will be stored

返回

CE_None if the input parameter are valid, CE_Failure otherwise

GDALAccess GetAccess()

Find out if we have update permission for this band.

This method is the same as the C function GDALGetRasterAccess().

返回

Either GA_Update or GA_ReadOnly.

CPLErr RasterIO(GDALRWFlag, int, int, int, int, void*, int, int, GDALDataType, GSpacing, GSpacing, GDALRasterIOExtraArg *psExtraArg)

Read/write a region of image data for this band.

This method allows reading a region of a GDALRasterBand into a buffer, or writing data from a buffer into a region of a GDALRasterBand. It automatically takes care of data type translation if the data type (eBufType) of the buffer is different than that of the GDALRasterBand. The method also takes care of image decimation / replication if the buffer size (nBufXSize x nBufYSize) is different than the size of the region being accessed (nXSize x nYSize).

The nPixelSpace and nLineSpace parameters allow reading into or writing from unusually organized buffers. This is primarily used for buffers containing more than one bands raster data in interleaved format.

Some formats may efficiently implement decimation into a buffer by reading from lower resolution overview images.

For highest performance full resolution data access, read and write on "block boundaries" as returned by GetBlockSize(), or use the ReadBlock() and WriteBlock() methods.

This method is the same as the C GDALRasterIO() or GDALRasterIOEx() functions.

参数

• eRWFlag -- Either GF_Read to read a region of data, or GF_Write to write a region of data.

• nXOff -- The pixel offset to the top left corner of the region of the band to be accessed. This would be zero to start from the left side.

• nYOff -- The line offset to the top left corner of the region of the band to be accessed. This would be zero to start from the top.

• nXSize -- The width of the region of the band to be accessed in pixels.

• nYSize -- The height of the region of the band to be accessed in lines.

• pData -- [inout] The buffer into which the data should be read, or from which it should be written. This buffer must contain at least nBufXSize * nBufYSize words of type eBufType. It is organized in left to right, top to bottom pixel order. Spacing is controlled by the nPixelSpace, and nLineSpace parameters.

• nBufXSize -- the width of the buffer image into which the desired region is to be read, or from which it is to be written.

• nBufYSize -- the height of the buffer image into which the desired region is to be read, or from which it is to be written.

• eBufType -- the type of the pixel values in the pData data buffer. The pixel values will automatically be translated to/from the GDALRasterBand data type as needed.

• nPixelSpace -- The byte offset from the start of one pixel value in pData to the start of the next pixel value within a scanline. If defaulted (0) the size of the datatype eBufType is used.

• nLineSpace -- The byte offset from the start of one scanline in pData to the start of the next. If defaulted (0) the size of the datatype eBufType * nBufXSize is used.

• psExtraArg -- [in] (new in GDAL 2.0) pointer to a GDALRasterIOExtraArg structure with additional arguments to specify resampling and progress callback, or NULL for default behavior. The GDAL_RASTERIO_RESAMPLING configuration option can also be defined to override the default resampling to one of BILINEAR, CUBIC, CUBICSPLINE, LANCZOS, AVERAGE or MODE.

返回

CE_Failure if the access fails, otherwise CE_None.

CPLErr ReadBlock(int, int, void*)

Read a block of image data efficiently.

This method accesses a "natural" block from the raster band without resampling, or data type conversion. For a more generalized, but potentially less efficient access use RasterIO().

This method is the same as the C GDALReadBlock() function.

See the GetLockedBlockRef() method for a way of accessing internally cached block oriented data without an extra copy into an application buffer.

The following code would efficiently compute a histogram of eight bit raster data. Note that the final block may be partial ... data beyond the edge of the underlying raster band in these edge blocks is of an undetermined value.

CPLErr GetHistogram( GDALRasterBand *poBand, GUIntBig *panHistogram )

{
    memset( panHistogram, 0, sizeof(GUIntBig) * 256 );

    CPLAssert( poBand->GetRasterDataType() == GDT_Byte );

    int nXBlockSize, nYBlockSize;

    poBand->GetBlockSize( &nXBlockSize, &nYBlockSize );
    int nXBlocks = (poBand->GetXSize() + nXBlockSize - 1) / nXBlockSize;
    int nYBlocks = (poBand->GetYSize() + nYBlockSize - 1) / nYBlockSize;

    GByte *pabyData = (GByte *) CPLMalloc(nXBlockSize * nYBlockSize);

    for( int iYBlock = 0; iYBlock < nYBlocks; iYBlock++ )
    {
        for( int iXBlock = 0; iXBlock < nXBlocks; iXBlock++ )
        {
            int        nXValid, nYValid;

            poBand->ReadBlock( iXBlock, iYBlock, pabyData );

            // Compute the portion of the block that is valid
            // for partial edge blocks.
            poBand->GetActualBlockSize(iXBlock, iYBlock, &nXValid, &nYValid)

            // Collect the histogram counts.
            for( int iY = 0; iY < nYValid; iY++ )
            {
                for( int iX = 0; iX < nXValid; iX++ )
                {
                    panHistogram[pabyData[iX + iY * nXBlockSize]] += 1;
                }
            }
        }
    }
}

参数

• nXBlockOff -- the horizontal block offset, with zero indicating the left most block, 1 the next block and so forth.

• nYBlockOff -- the vertical block offset, with zero indicating the top most block, 1 the next block and so forth.

• pImage -- the buffer into which the data will be read. The buffer must be large enough to hold GetBlockXSize()*GetBlockYSize() words of type GetRasterDataType().

返回

CE_None on success or CE_Failure on an error.

CPLErr WriteBlock(int, int, void*)

Write a block of image data efficiently.

This method accesses a "natural" block from the raster band without resampling, or data type conversion. For a more generalized, but potentially less efficient access use RasterIO().

This method is the same as the C GDALWriteBlock() function.

See ReadBlock() for an example of block oriented data access.

参数

• nXBlockOff -- the horizontal block offset, with zero indicating the left most block, 1 the next block and so forth.

• nYBlockOff -- the vertical block offset, with zero indicating the left most block, 1 the next block and so forth.

• pImage -- the buffer from which the data will be written. The buffer must be large enough to hold GetBlockXSize()*GetBlockYSize() words of type GetRasterDataType().

返回

CE_None on success or CE_Failure on an error.

GDALRasterBlock *GetLockedBlockRef(int nXBlockOff, int nYBlockOff, int bJustInitialize = FALSE)

Fetch a pointer to an internally cached raster block.

This method will returned the requested block (locked) if it is already in the block cache for the layer. If not, the block will be read from the driver, and placed in the layer block cached, then returned. If an error occurs reading the block from the driver, a NULL value will be returned.

If a non-NULL value is returned, then a lock for the block will have been acquired on behalf of the caller. It is absolutely imperative that the caller release this lock (with GDALRasterBlock::DropLock()) or else severe problems may result.

Note that calling GetLockedBlockRef() on a previously uncached band will enable caching.

参数

• nXBlockOff -- the horizontal block offset, with zero indicating the left most block, 1 the next block and so forth.

• nYBlockOff -- the vertical block offset, with zero indicating the top most block, 1 the next block and so forth.

• bJustInitialize -- If TRUE the block will be allocated and initialized, but not actually read from the source. This is useful when it will just be completely set and written back.

返回

pointer to the block object, or NULL on failure.

GDALRasterBlock *TryGetLockedBlockRef(int nXBlockOff, int nYBlockYOff)

Try fetching block ref.

This method will returned the requested block (locked) if it is already in the block cache for the layer. If not, nullptr is returned.

If a non-NULL value is returned, then a lock for the block will have been acquired on behalf of the caller. It is absolutely imperative that the caller release this lock (with GDALRasterBlock::DropLock()) or else severe problems may result.

参数

• nXBlockOff -- the horizontal block offset, with zero indicating the left most block, 1 the next block and so forth.

• nYBlockOff -- the vertical block offset, with zero indicating the top most block, 1 the next block and so forth.

返回

NULL if block not available, or locked block pointer.

CPLErr FlushBlock(int, int, int bWriteDirtyBlock = TRUE)

Flush a block out of the block cache.

参数

• nXBlockOff -- block x offset

• nYBlockOff -- blocky offset

• bWriteDirtyBlock -- whether the block should be written to disk if dirty.

返回

CE_None in case of success, an error code otherwise.

unsigned char *GetIndexColorTranslationTo(GDALRasterBand *poReferenceBand, unsigned char *pTranslationTable = nullptr, int *pApproximateMatching = nullptr)

Compute translation table for color tables.

When the raster band has a palette index, it may be useful to compute the "translation" of this palette to the palette of another band. The translation tries to do exact matching first, and then approximate matching if no exact matching is possible. This method returns a table such that table[i] = j where i is an index of the 'this' rasterband and j the corresponding index for the reference rasterband.

This method is thought as internal to GDAL and is used for drivers like RPFTOC.

The implementation only supports 1-byte palette rasterbands.

参数

• poReferenceBand -- the raster band

• pTranslationTable -- an already allocated translation table (at least 256 bytes), or NULL to let the method allocate it

• pApproximateMatching -- a pointer to a flag that is set if the matching is approximate. May be NULL.

返回

a translation table if the two bands are palette index and that they do not match or NULL in other cases. The table must be freed with CPLFree if NULL was passed for pTranslationTable.

virtual CPLErr FlushCache(bool bAtClosing = false)

Flush raster data cache.

This call will recover memory used to cache data blocks for this raster band, and ensure that new requests are referred to the underlying driver.

This method is the same as the C function GDALFlushRasterCache().

参数

bAtClosing -- Whether this is called from a GDALDataset destructor

返回

CE_None on success.

virtual char **GetCategoryNames()

Fetch the list of category names for this raster.

The return list is a "StringList" in the sense of the CPL functions. That is a NULL terminated array of strings. Raster values without associated names will have an empty string in the returned list. The first entry in the list is for raster values of zero, and so on.

The returned stringlist should not be altered or freed by the application. It may change on the next GDAL call, so please copy it if it is needed for any period of time.

This method is the same as the C function GDALGetRasterCategoryNames().

返回

list of names, or NULL if none.

virtual double GetNoDataValue(int *pbSuccess = nullptr)

Fetch the no data value for this band.

If there is no out of data value, an out of range value will generally be returned. The no data value for a band is generally a special marker value used to mark pixels that are not valid data. Such pixels should generally not be displayed, nor contribute to analysis operations.

The no data value returned is 'raw', meaning that it has no offset and scale applied.

For rasters of type GDT_Int64 or GDT_UInt64, using this method might be lossy if the nodata value cannot exactly been represented by a double. Use GetNoDataValueAsInt64() or GetNoDataValueAsUInt64() instead.

This method is the same as the C function GDALGetRasterNoDataValue().

参数

pbSuccess -- pointer to a boolean to use to indicate if a value is actually associated with this layer. May be NULL (default).

返回

the nodata value for this band.

virtual int64_t GetNoDataValueAsInt64(int *pbSuccess = nullptr)

Fetch the no data value for this band.

This method should ONLY be called on rasters whose data type is GDT_Int64.

If there is no out of data value, an out of range value will generally be returned. The no data value for a band is generally a special marker value used to mark pixels that are not valid data. Such pixels should generally not be displayed, nor contribute to analysis operations.

The no data value returned is 'raw', meaning that it has no offset and scale applied.

This method is the same as the C function GDALGetRasterNoDataValueAsInt64().

Since

GDAL 3.5

参数

pbSuccess -- pointer to a boolean to use to indicate if a value is actually associated with this layer. May be NULL (default).

返回

the nodata value for this band.

virtual uint64_t GetNoDataValueAsUInt64(int *pbSuccess = nullptr)

Fetch the no data value for this band.

This method should ONLY be called on rasters whose data type is GDT_UInt64.

If there is no out of data value, an out of range value will generally be returned. The no data value for a band is generally a special marker value used to mark pixels that are not valid data. Such pixels should generally not be displayed, nor contribute to analysis operations.

The no data value returned is 'raw', meaning that it has no offset and scale applied.

This method is the same as the C function GDALGetRasterNoDataValueAsUInt64().

Since

GDAL 3.5

参数

pbSuccess -- pointer to a boolean to use to indicate if a value is actually associated with this layer. May be NULL (default).

返回

the nodata value for this band.

virtual double GetMinimum(int *pbSuccess = nullptr)

Fetch the minimum value for this band.

For file formats that don't know this intrinsically, the minimum supported value for the data type will generally be returned.

This method is the same as the C function GDALGetRasterMinimum().

参数

pbSuccess -- pointer to a boolean to use to indicate if the returned value is a tight minimum or not. May be NULL (default).

返回

the minimum raster value (excluding no data pixels)

virtual double GetMaximum(int *pbSuccess = nullptr)

Fetch the maximum value for this band.

For file formats that don't know this intrinsically, the maximum supported value for the data type will generally be returned.

This method is the same as the C function GDALGetRasterMaximum().

参数

pbSuccess -- pointer to a boolean to use to indicate if the returned value is a tight maximum or not. May be NULL (default).

返回

the maximum raster value (excluding no data pixels)

virtual double GetOffset(int *pbSuccess = nullptr)

Fetch the raster value offset.

This value (in combination with the GetScale() value) can be used to transform raw pixel values into the units returned by GetUnitType(). For example this might be used to store elevations in GUInt16 bands with a precision of 0.1, and starting from -100.

Units value = (raw value * scale) + offset

Note that applying scale and offset is of the responsibility of the user, and is not done by methods such as RasterIO() or ReadBlock().

For file formats that don't know this intrinsically a value of zero is returned.

This method is the same as the C function GDALGetRasterOffset().

参数

pbSuccess -- pointer to a boolean to use to indicate if the returned value is meaningful or not. May be NULL (default).

返回

the raster offset.

virtual double GetScale(int *pbSuccess = nullptr)

Fetch the raster value scale.

This value (in combination with the GetOffset() value) can be used to transform raw pixel values into the units returned by GetUnitType(). For example this might be used to store elevations in GUInt16 bands with a precision of 0.1, and starting from -100.

Units value = (raw value * scale) + offset

Note that applying scale and offset is of the responsibility of the user, and is not done by methods such as RasterIO() or ReadBlock().

For file formats that don't know this intrinsically a value of one is returned.

This method is the same as the C function GDALGetRasterScale().

参数

pbSuccess -- pointer to a boolean to use to indicate if the returned value is meaningful or not. May be NULL (default).

返回

the raster scale.

virtual const char *GetUnitType()

Return raster unit type.

Return a name for the units of this raster's values. For instance, it might be "m" for an elevation model in meters, or "ft" for feet. If no units are available, a value of "" will be returned. The returned string should not be modified, nor freed by the calling application.

This method is the same as the C function GDALGetRasterUnitType().

返回

unit name string.

virtual GDALColorInterp GetColorInterpretation()

How should this band be interpreted as color?

GCI_Undefined is returned when the format doesn't know anything about the color interpretation.

This method is the same as the C function GDALGetRasterColorInterpretation().

返回

color interpretation value for band.

virtual GDALColorTable *GetColorTable()

Fetch the color table associated with band.

If there is no associated color table, the return result is NULL. The returned color table remains owned by the GDALRasterBand, and can't be depended on for long, nor should it ever be modified by the caller.

This method is the same as the C function GDALGetRasterColorTable().

返回

internal color table, or NULL.

virtual CPLErr Fill(double dfRealValue, double dfImaginaryValue = 0)

Fill this band with a constant value.

GDAL makes no guarantees about what values pixels in newly created files are set to, so this method can be used to clear a band to a specified "default" value. The fill value is passed in as a double but this will be converted to the underlying type before writing to the file. An optional second argument allows the imaginary component of a complex constant value to be specified.

This method is the same as the C function GDALFillRaster().

参数

• dfRealValue -- Real component of fill value

• dfImaginaryValue -- Imaginary component of fill value, defaults to zero

返回

CE_Failure if the write fails, otherwise CE_None

virtual CPLErr SetCategoryNames(char **papszNames)

Set the category names for this band.

See the GetCategoryNames() method for more on the interpretation of category names.

This method is the same as the C function GDALSetRasterCategoryNames().

参数

papszNames -- the NULL terminated StringList of category names. May be NULL to just clear the existing list.

返回

CE_None on success of CE_Failure on failure. If unsupported by the driver CE_Failure is returned, but no error message is reported.

virtual CPLErr SetNoDataValue(double dfNoData)

Set the no data value for this band.

Depending on drivers, changing the no data value may or may not have an effect on the pixel values of a raster that has just been created. It is thus advised to explicitly called Fill() if the intent is to initialize the raster to the nodata value. In any case, changing an existing no data value, when one already exists and the dataset exists or has been initialized, has no effect on the pixel whose value matched the previous nodata value.

For rasters of type GDT_Int64 or GDT_UInt64, whose nodata value cannot always be represented by a double, use SetNoDataValueAsInt64() or SetNoDataValueAsUInt64() instead.

To clear the nodata value, use DeleteNoDataValue().

This method is the same as the C function GDALSetRasterNoDataValue().

参数

dfNoData -- the value to set.

返回

CE_None on success, or CE_Failure on failure. If unsupported by the driver, CE_Failure is returned by no error message will have been emitted.

virtual CPLErr SetNoDataValueAsInt64(int64_t nNoData)

Set the no data value for this band.

This method should ONLY be called on rasters whose data type is GDT_Int64.

Depending on drivers, changing the no data value may or may not have an effect on the pixel values of a raster that has just been created. It is thus advised to explicitly called Fill() if the intent is to initialize the raster to the nodata value. In ay case, changing an existing no data value, when one already exists and the dataset exists or has been initialized, has no effect on the pixel whose value matched the previous nodata value.

To clear the nodata value, use DeleteNoDataValue().

This method is the same as the C function GDALSetRasterNoDataValueAsInt64().

Since

GDAL 3.5

参数

nNoDataValue -- the value to set.

返回

CE_None on success, or CE_Failure on failure. If unsupported by the driver, CE_Failure is returned by no error message will have been emitted.

virtual CPLErr SetNoDataValueAsUInt64(uint64_t nNoData)

Set the no data value for this band.

This method should ONLY be called on rasters whose data type is GDT_UInt64.

Depending on drivers, changing the no data value may or may not have an effect on the pixel values of a raster that has just been created. It is thus advised to explicitly called Fill() if the intent is to initialize the raster to the nodata value. In ay case, changing an existing no data value, when one already exists and the dataset exists or has been initialized, has no effect on the pixel whose value matched the previous nodata value.

To clear the nodata value, use DeleteNoDataValue().

This method is the same as the C function GDALSetRasterNoDataValueAsUInt64().

Since

GDAL 3.5

参数

nNoDataValue -- the value to set.

返回

CE_None on success, or CE_Failure on failure. If unsupported by the driver, CE_Failure is returned by no error message will have been emitted.

virtual CPLErr DeleteNoDataValue()

Remove the no data value for this band.

This method is the same as the C function GDALDeleteRasterNoDataValue().

Since

GDAL 2.1

返回

CE_None on success, or CE_Failure on failure. If unsupported by the driver, CE_Failure is returned by no error message will have been emitted.

virtual CPLErr SetColorTable(GDALColorTable *poCT)

Set the raster color table.

The driver will make a copy of all desired data in the colortable. It remains owned by the caller after the call.

This method is the same as the C function GDALSetRasterColorTable().

参数

poCT -- the color table to apply. This may be NULL to clear the color table (where supported).

返回

CE_None on success, or CE_Failure on failure. If the action is unsupported by the driver, a value of CE_Failure is returned, but no error is issued.

virtual CPLErr SetColorInterpretation(GDALColorInterp eColorInterp)

Set color interpretation of a band.

This method is the same as the C function GDALSetRasterColorInterpretation().

参数

eColorInterp -- the new color interpretation to apply to this band.

返回

CE_None on success or CE_Failure if method is unsupported by format.

virtual CPLErr SetOffset(double dfNewOffset)

Set scaling offset.

Very few formats implement this method. When not implemented it will issue a CPLE_NotSupported error and return CE_Failure.

This method is the same as the C function GDALSetRasterOffset().

参数

dfNewOffset -- the new offset.

返回

CE_None or success or CE_Failure on failure.

virtual CPLErr SetScale(double dfNewScale)

Set scaling ratio.

Very few formats implement this method. When not implemented it will issue a CPLE_NotSupported error and return CE_Failure.

This method is the same as the C function GDALSetRasterScale().

参数

dfNewScale -- the new scale.

返回

CE_None or success or CE_Failure on failure.

virtual CPLErr SetUnitType(const char *pszNewValue)

Set unit type.

Set the unit type for a raster band. Values should be one of "" (the default indicating it is unknown), "m" indicating meters, or "ft" indicating feet, though other nonstandard values are allowed.

This method is the same as the C function GDALSetRasterUnitType().

参数

pszNewValue -- the new unit type value.

返回

CE_None on success or CE_Failure if not successful, or unsupported.

virtual CPLErr GetStatistics(int bApproxOK, int bForce, double *pdfMin, double *pdfMax, double *pdfMean, double *padfStdDev)

Fetch image statistics.

Returns the minimum, maximum, mean and standard deviation of all pixel values in this band. If approximate statistics are sufficient, the bApproxOK flag can be set to true in which case overviews, or a subset of image tiles may be used in computing the statistics.

If bForce is FALSE results will only be returned if it can be done quickly (i.e. without scanning the data). If bForce is FALSE and results cannot be returned efficiently, the method will return CE_Warning but no warning will have been issued. This is a non-standard use of the CE_Warning return value to indicate "nothing done".

Note that file formats using PAM (Persistent Auxiliary Metadata) services will generally cache statistics in the .pam file allowing fast fetch after the first request.

This method is the same as the C function GDALGetRasterStatistics().

参数

• bApproxOK -- If TRUE statistics may be computed based on overviews or a subset of all tiles.

• bForce -- If FALSE statistics will only be returned if it can be done without rescanning the image.

• pdfMin -- Location into which to load image minimum (may be NULL).

• pdfMax -- Location into which to load image maximum (may be NULL).-

• pdfMean -- Location into which to load image mean (may be NULL).

• pdfStdDev -- Location into which to load image standard deviation (may be NULL).

返回

CE_None on success, CE_Warning if no values returned, CE_Failure if an error occurs.

virtual CPLErr ComputeStatistics(int bApproxOK, double *pdfMin, double *pdfMax, double *pdfMean, double *pdfStdDev, GDALProgressFunc, void *pProgressData)

Compute image statistics.

Returns the minimum, maximum, mean and standard deviation of all pixel values in this band. If approximate statistics are sufficient, the bApproxOK flag can be set to true in which case overviews, or a subset of image tiles may be used in computing the statistics.

Once computed, the statistics will generally be "set" back on the raster band using SetStatistics().

Cached statistics can be cleared with GDALDataset::ClearStatistics().

This method is the same as the C function GDALComputeRasterStatistics().

参数

• bApproxOK -- If TRUE statistics may be computed based on overviews or a subset of all tiles.

• pdfMin -- Location into which to load image minimum (may be NULL).

• pdfMax -- Location into which to load image maximum (may be NULL).-

• pdfMean -- Location into which to load image mean (may be NULL).

• pdfStdDev -- Location into which to load image standard deviation (may be NULL).

• pfnProgress -- a function to call to report progress, or NULL.

• pProgressData -- application data to pass to the progress function.

返回

CE_None on success, or CE_Failure if an error occurs or processing is terminated by the user.

virtual CPLErr SetStatistics(double dfMin, double dfMax, double dfMean, double dfStdDev)

Set statistics on band.

This method can be used to store min/max/mean/standard deviation statistics on a raster band.

The default implementation stores them as metadata, and will only work on formats that can save arbitrary metadata. This method cannot detect whether metadata will be properly saved and so may return CE_None even if the statistics will never be saved.

This method is the same as the C function GDALSetRasterStatistics().

参数

• dfMin -- minimum pixel value.

• dfMax -- maximum pixel value.

• dfMean -- mean (average) of all pixel values.

• dfStdDev -- Standard deviation of all pixel values.

返回

CE_None on success or CE_Failure on failure.

virtual CPLErr ComputeRasterMinMax(int, double*)

Compute the min/max values for a band.

If approximate is OK, then the band's GetMinimum()/GetMaximum() will be trusted. If it doesn't work, a subsample of blocks will be read to get an approximate min/max. If the band has a nodata value it will be excluded from the minimum and maximum.

If bApprox is FALSE, then all pixels will be read and used to compute an exact range.

This method is the same as the C function GDALComputeRasterMinMax().

参数

• bApproxOK -- TRUE if an approximate (faster) answer is OK, otherwise FALSE.

• adfMinMax -- the array in which the minimum (adfMinMax[0]) and the maximum (adfMinMax[1]) are returned.

返回

CE_None on success or CE_Failure on failure.

virtual CPLErr SetMetadata(char **papszMetadata, const char *pszDomain) override

Set metadata.

CAUTION: depending on the format, older values of the updated information might still be found in the file in a "ghost" state, even if no longer accessible through the GDAL API. This is for example the case of the GTiff format (this is not a exhaustive list)

The C function GDALSetMetadata() does the same thing as this method.

参数

• papszMetadata -- the metadata in name=value string list format to apply.

• pszDomain -- the domain of interest. Use "" or NULL for the default domain.

返回

CE_None on success, CE_Failure on failure and CE_Warning if the metadata has been accepted, but is likely not maintained persistently by the underlying object between sessions.

virtual CPLErr SetMetadataItem(const char *pszName, const char *pszValue, const char *pszDomain) override

Set single metadata item.

CAUTION: depending on the format, older values of the updated information might still be found in the file in a "ghost" state, even if no longer accessible through the GDAL API. This is for example the case of the GTiff format (this is not a exhaustive list)

The C function GDALSetMetadataItem() does the same thing as this method.

参数

• pszName -- the key for the metadata item to fetch.

• pszValue -- the value to assign to the key.

• pszDomain -- the domain to set within, use NULL for the default domain.

返回

CE_None on success, or an error code on failure.

virtual int HasArbitraryOverviews()

Check for arbitrary overviews.

This returns TRUE if the underlying datastore can compute arbitrary overviews efficiently, such as is the case with OGDI over a network. Datastores with arbitrary overviews don't generally have any fixed overviews, but the RasterIO() method can be used in downsampling mode to get overview data efficiently.

This method is the same as the C function GDALHasArbitraryOverviews(),

返回

TRUE if arbitrary overviews available (efficiently), otherwise FALSE.

virtual int GetOverviewCount()

Return the number of overview layers available.

This method is the same as the C function GDALGetOverviewCount().

返回

overview count, zero if none.

virtual GDALRasterBand *GetOverview(int)

Fetch overview raster band object.

This method is the same as the C function GDALGetOverview().

参数

i -- overview index between 0 and GetOverviewCount()-1.

返回

overview GDALRasterBand.

virtual GDALRasterBand *GetRasterSampleOverview(GUIntBig)

Fetch best sampling overview.

Returns the most reduced overview of the given band that still satisfies the desired number of samples. This function can be used with zero as the number of desired samples to fetch the most reduced overview. The same band as was passed in will be returned if it has not overviews, or if none of the overviews have enough samples.

This method is the same as the C functions GDALGetRasterSampleOverview() and GDALGetRasterSampleOverviewEx().

参数

nDesiredSamples -- the returned band will have at least this many pixels.

返回

optimal overview or the band itself.

virtual CPLErr BuildOverviews(const char *pszResampling, int nOverviews, int *panOverviewList, GDALProgressFunc pfnProgress, void *pProgressData)

Build raster overview(s)

If the operation is unsupported for the indicated dataset, then CE_Failure is returned, and CPLGetLastErrorNo() will return CPLE_NotSupported.

WARNING: It is not possible to build overviews for a single band in TIFF format, and thus this method does not work for TIFF format, or any formats that use the default overview building in TIFF format. Instead it is necessary to build overviews on the dataset as a whole using GDALDataset::BuildOverviews(). That makes this method pretty useless from a practical point of view.

参数

• pszResampling -- one of "NEAREST", "GAUSS", "CUBIC", "AVERAGE", "MODE", "AVERAGE_MAGPHASE" "RMS" or "NONE" controlling the downsampling method applied.

• nOverviews -- number of overviews to build.

• panOverviewList -- the list of overview decimation factors to build.

• pfnProgress -- a function to call to report progress, or NULL.

• pProgressData -- application data to pass to the progress function.

返回

CE_None on success or CE_Failure if the operation doesn't work.

virtual CPLErr AdviseRead(int nXOff, int nYOff, int nXSize, int nYSize, int nBufXSize, int nBufYSize, GDALDataType eBufType, char **papszOptions)

Advise driver of upcoming read requests.

Some GDAL drivers operate more efficiently if they know in advance what set of upcoming read requests will be made. The AdviseRead() method allows an application to notify the driver of the region of interest, and at what resolution the region will be read.

Many drivers just ignore the AdviseRead() call, but it can dramatically accelerate access via some drivers.

Depending on call paths, drivers might receive several calls to AdviseRead() with the same parameters.

参数

• nXOff -- The pixel offset to the top left corner of the region of the band to be accessed. This would be zero to start from the left side.

• nYOff -- The line offset to the top left corner of the region of the band to be accessed. This would be zero to start from the top.

• nXSize -- The width of the region of the band to be accessed in pixels.

• nYSize -- The height of the region of the band to be accessed in lines.

• nBufXSize -- the width of the buffer image into which the desired region is to be read, or from which it is to be written.

• nBufYSize -- the height of the buffer image into which the desired region is to be read, or from which it is to be written.

• eBufType -- the type of the pixel values in the pData data buffer. The pixel values will automatically be translated to/from the GDALRasterBand data type as needed.

• papszOptions -- a list of name=value strings with special control options. Normally this is NULL.

返回

CE_Failure if the request is invalid and CE_None if it works or is ignored.

virtual CPLErr GetHistogram(double dfMin, double dfMax, int nBuckets, GUIntBig *panHistogram, int bIncludeOutOfRange, int bApproxOK, GDALProgressFunc, void *pProgressData)

Compute raster histogram.

Note that the bucket size is (dfMax-dfMin) / nBuckets.

For example to compute a simple 256 entry histogram of eight bit data, the following would be suitable. The unusual bounds are to ensure that bucket boundaries don't fall right on integer values causing possible errors due to rounding after scaling.

GUIntBig anHistogram[256];

poBand->GetHistogram( -0.5, 255.5, 256, anHistogram, FALSE, FALSE,
                      GDALDummyProgress, nullptr );

Note that setting bApproxOK will generally result in a subsampling of the file, and will utilize overviews if available. It should generally produce a representative histogram for the data that is suitable for use in generating histogram based luts for instance. Generally bApproxOK is much faster than an exactly computed histogram.

This method is the same as the C functions GDALGetRasterHistogram() and GDALGetRasterHistogramEx().

参数

• dfMin -- the lower bound of the histogram.

• dfMax -- the upper bound of the histogram.

• nBuckets -- the number of buckets in panHistogram.

• panHistogram -- array into which the histogram totals are placed.

• bIncludeOutOfRange -- if TRUE values below the histogram range will mapped into panHistogram[0], and values above will be mapped into panHistogram[nBuckets-1] otherwise out of range values are discarded.

• bApproxOK -- TRUE if an approximate, or incomplete histogram OK.

• pfnProgress -- function to report progress to completion.

• pProgressData -- application data to pass to pfnProgress.

返回

CE_None on success, or CE_Failure if something goes wrong.

virtual CPLErr GetDefaultHistogram(double *pdfMin, double *pdfMax, int *pnBuckets, GUIntBig **ppanHistogram, int bForce, GDALProgressFunc, void *pProgressData)

Fetch default raster histogram.

The default method in GDALRasterBand will compute a default histogram. This method is overridden by derived classes (such as GDALPamRasterBand, VRTDataset, HFADataset...) that may be able to fetch efficiently an already stored histogram.

This method is the same as the C functions GDALGetDefaultHistogram() and GDALGetDefaultHistogramEx().

参数

• pdfMin -- pointer to double value that will contain the lower bound of the histogram.

• pdfMax -- pointer to double value that will contain the upper bound of the histogram.

• pnBuckets -- pointer to int value that will contain the number of buckets in *ppanHistogram.

• ppanHistogram -- pointer to array into which the histogram totals are placed. To be freed with VSIFree

• bForce -- TRUE to force the computation. If FALSE and no default histogram is available, the method will return CE_Warning

• pfnProgress -- function to report progress to completion.

• pProgressData -- application data to pass to pfnProgress.

返回

CE_None on success, CE_Failure if something goes wrong, or CE_Warning if no default histogram is available.

virtual CPLErr SetDefaultHistogram(double dfMin, double dfMax, int nBuckets, GUIntBig *panHistogram)

Set default histogram.

This method is the same as the C function GDALSetDefaultHistogram() and GDALSetDefaultHistogramEx()

virtual GDALRasterAttributeTable *GetDefaultRAT()

Fetch default Raster Attribute Table.

A RAT will be returned if there is a default one associated with the band, otherwise NULL is returned. The returned RAT is owned by the band and should not be deleted by the application.

This method is the same as the C function GDALGetDefaultRAT().

返回

NULL, or a pointer to an internal RAT owned by the band.

virtual CPLErr SetDefaultRAT(const GDALRasterAttributeTable *poRAT)

Set default Raster Attribute Table.

Associates a default RAT with the band. If not implemented for the format a CPLE_NotSupported error will be issued. If successful a copy of the RAT is made, the original remains owned by the caller.

This method is the same as the C function GDALSetDefaultRAT().

参数

poRAT -- the RAT to assign to the band.

返回

CE_None on success or CE_Failure if unsupported or otherwise failing.

virtual GDALRasterBand *GetMaskBand()

Return the mask band associated with the band.

The GDALRasterBand class includes a default implementation of GetMaskBand() that returns one of four default implementations :

• If a corresponding .msk file exists it will be used for the mask band.

• If the dataset has a NODATA_VALUES metadata item, an instance of the new GDALNoDataValuesMaskBand class will be returned. GetMaskFlags() will return GMF_NODATA | GMF_PER_DATASET.

  Since

  GDAL 1.6.0

• If the band has a nodata value set, an instance of the new GDALNodataMaskRasterBand class will be returned. GetMaskFlags() will return GMF_NODATA.

• If there is no nodata value, but the dataset has an alpha band that seems to apply to this band (specific rules yet to be determined) and that is of type GDT_Byte then that alpha band will be returned, and the flags GMF_PER_DATASET and GMF_ALPHA will be returned in the flags.

• If neither of the above apply, an instance of the new GDALAllValidRasterBand class will be returned that has 255 values for all pixels. The null flags will return GMF_ALL_VALID.

Note that the GetMaskBand() should always return a GDALRasterBand mask, even if it is only an all 255 mask with the flags indicating GMF_ALL_VALID.

For an external .msk file to be recognized by GDAL, it must be a valid GDAL dataset, with the same name as the main dataset and suffixed with .msk, with either one band (in the GMF_PER_DATASET case), or as many bands as the main dataset. It must have INTERNAL_MASK_FLAGS_xx metadata items set at the dataset level, where xx matches the band number of a band of the main dataset. The value of those items is a combination of the flags GMF_ALL_VALID, GMF_PER_DATASET, GMF_ALPHA and GMF_NODATA. If a metadata item is missing for a band, then the other rules explained above will be used to generate a on-the-fly mask band.

This method is the same as the C function

GDALGetMaskBand().

参见

CreateMaskBand() for the characteristics of .msk files created by GDAL.

参见

https://gdal.org/development/rfc/rfc15_nodatabitmask.html

Since

GDAL 1.5.0

返回

a valid mask band.

virtual int GetMaskFlags()

Return the status flags of the mask band associated with the band.

The GetMaskFlags() method returns an bitwise OR-ed set of status flags with the following available definitions that may be extended in the future:

• GMF_ALL_VALID(0x01): There are no invalid pixels, all mask values will be 255. When used this will normally be the only flag set.

• GMF_PER_DATASET(0x02): The mask band is shared between all bands on the dataset.

• GMF_ALPHA(0x04): The mask band is actually an alpha band and may have values other than 0 and 255.

• GMF_NODATA(0x08): Indicates the mask is actually being generated from nodata values. (mutually exclusive of GMF_ALPHA)

The GDALRasterBand class includes a default implementation of GetMaskBand() that returns one of four default implementations :

• If a corresponding .msk file exists it will be used for the mask band.

• If the dataset has a NODATA_VALUES metadata item, an instance of the new GDALNoDataValuesMaskBand class will be returned. GetMaskFlags() will return GMF_NODATA | GMF_PER_DATASET.

  Since

  GDAL 1.6.0

• If the band has a nodata value set, an instance of the new GDALNodataMaskRasterBand class will be returned. GetMaskFlags() will return GMF_NODATA.

• If there is no nodata value, but the dataset has an alpha band that seems to apply to this band (specific rules yet to be determined) and that is of type GDT_Byte then that alpha band will be returned, and the flags GMF_PER_DATASET and GMF_ALPHA will be returned in the flags.

• If neither of the above apply, an instance of the new GDALAllValidRasterBand class will be returned that has 255 values for all pixels. The null flags will return GMF_ALL_VALID.

For an external .msk file to be recognized by GDAL, it must be a valid GDAL dataset, with the same name as the main dataset and suffixed with .msk, with either one band (in the GMF_PER_DATASET case), or as many bands as the main dataset. It must have INTERNAL_MASK_FLAGS_xx metadata items set at the dataset level, where xx matches the band number of a band of the main dataset. The value of those items is a combination of the flags GMF_ALL_VALID, GMF_PER_DATASET, GMF_ALPHA and GMF_NODATA. If a metadata item is missing for a band, then the other rules explained above will be used to generate a on-the-fly mask band.

This method is the same as the C function

GDALGetMaskFlags().

参见

CreateMaskBand() for the characteristics of .msk files created by GDAL.

参见

https://gdal.org/development/rfc/rfc15_nodatabitmask.html

Since

GDAL 1.5.0

返回

a valid mask band.

virtual CPLErr CreateMaskBand(int nFlagsIn)

Adds a mask band to the current band.

The default implementation of the CreateMaskBand() method is implemented based on similar rules to the .ovr handling implemented using the GDALDefaultOverviews object. A TIFF file with the extension .msk will be created with the same basename as the original file, and it will have as many bands as the original image (or just one for GMF_PER_DATASET). The mask images will be deflate compressed tiled images with the same block size as the original image if possible. It will have INTERNAL_MASK_FLAGS_xx metadata items set at the dataset level, where xx matches the band number of a band of the main dataset. The value of those items will be the one of the nFlagsIn parameter.

Note that if you got a mask band with a previous call to GetMaskBand(), it might be invalidated by CreateMaskBand(). So you have to call GetMaskBand() again.

This method is the same as the C function GDALCreateMaskBand().

参见

https://gdal.org/development/rfc/rfc15_nodatabitmask.html

参见

GDALDataset::CreateMaskBand()

Since

GDAL 1.5.0

参数

nFlagsIn -- 0 or combination of GMF_PER_DATASET / GMF_ALPHA.

返回

CE_None on success or CE_Failure on an error.

virtual bool IsMaskBand() const

Returns whether a band is a mask band.

Mask band must be understood in the broad term: it can be a per-dataset mask band, an alpha band, or an implicit mask band. Typically the return of GetMaskBand()->IsMaskBand() should be true.

This method is the same as the C function GDALIsMaskBand().

参见

GDALDataset::CreateMaskBand()

Since

GDAL 3.5.0

返回

true if the band is a mask band.

virtual GDALMaskValueRange GetMaskValueRange() const

Returns the range of values that a mask band can take.

Since

GDAL 3.5.0

返回

the range of values that a mask band can take.

virtual CPLVirtualMem *GetVirtualMemAuto(GDALRWFlag eRWFlag, int *pnPixelSpace, GIntBig *pnLineSpace, char **papszOptions)

Create a CPLVirtualMem object from a GDAL raster band object.

Only supported on Linux and Unix systems with mmap() for now.

This method allows creating a virtual memory object for a GDALRasterBand, that exposes the whole image data as a virtual array.

The default implementation relies on GDALRasterBandGetVirtualMem(), but specialized implementation, such as for raw files, may also directly use mechanisms of the operating system to create a view of the underlying file into virtual memory ( CPLVirtualMemFileMapNew() )

At the time of writing, the GeoTIFF driver and "raw" drivers (EHdr, ...) offer a specialized implementation with direct file mapping, provided that some requirements are met :

• for all drivers, the dataset must be backed by a "real" file in the file system, and the byte ordering of multi-byte datatypes (Int16, etc.) must match the native ordering of the CPU.

• in addition, for the GeoTIFF driver, the GeoTIFF file must be uncompressed, scanline oriented (i.e. not tiled). Strips must be organized in the file in sequential order, and be equally spaced (which is generally the case). Only power-of-two bit depths are supported (8 for GDT_Bye, 16 for GDT_Int16/GDT_UInt16, 32 for GDT_Float32 and 64 for GDT_Float64)

The pointer returned remains valid until CPLVirtualMemFree() is called. CPLVirtualMemFree() must be called before the raster band object is destroyed.

If p is such a pointer and base_type the type matching GDALGetRasterDataType(), the element of image coordinates (x, y) can be accessed with *(base_type*) ((GByte*)p + x * *pnPixelSpace + y * *pnLineSpace)

This method is the same as the C GDALGetVirtualMemAuto() function.

Since

GDAL 1.11

参数

• eRWFlag -- Either GF_Read to read the band, or GF_Write to read/write the band.

• pnPixelSpace -- Output parameter giving the byte offset from the start of one pixel value in the buffer to the start of the next pixel value within a scanline.

• pnLineSpace -- Output parameter giving the byte offset from the start of one scanline in the buffer to the start of the next.

• papszOptions -- NULL terminated list of options. If a specialized implementation exists, defining USE_DEFAULT_IMPLEMENTATION=YES will cause the default implementation to be used. On the contrary, starting with GDAL 2.2, defining USE_DEFAULT_IMPLEMENTATION=NO will prevent the default implementation from being used (thus only allowing efficient implementations to be used). When requiring or falling back to the default implementation, the following options are available : CACHE_SIZE (in bytes, defaults to 40 MB), PAGE_SIZE_HINT (in bytes), SINGLE_THREAD ("FALSE" / "TRUE", defaults to FALSE)

返回

a virtual memory object that must be unreferenced by CPLVirtualMemFree(), or NULL in case of failure.

int GetDataCoverageStatus(int nXOff, int nYOff, int nXSize, int nYSize, int nMaskFlagStop = 0, double *pdfDataPct = nullptr)

Get the coverage status of a sub-window of the raster.

Returns whether a sub-window of the raster contains only data, only empty blocks or a mix of both. This function can be used to determine quickly if it is worth issuing RasterIO / ReadBlock requests in datasets that may be sparse.

Empty blocks are blocks that contain only pixels whose value is the nodata value when it is set, or whose value is 0 when the nodata value is not set.

The query is done in an efficient way without reading the actual pixel values. If not possible, or not implemented at all by the driver, GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED | GDAL_DATA_COVERAGE_STATUS_DATA will be returned.

The values that can be returned by the function are the following, potentially combined with the binary or operator :

• GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED : the driver does not implement GetDataCoverageStatus(). This flag should be returned together with GDAL_DATA_COVERAGE_STATUS_DATA.

• GDAL_DATA_COVERAGE_STATUS_DATA: There is (potentially) data in the queried window.

• GDAL_DATA_COVERAGE_STATUS_EMPTY: There is nodata in the queried window. This is typically identified by the concept of missing block in formats that supports it.

Note that GDAL_DATA_COVERAGE_STATUS_DATA might have false positives and should be interpreted more as hint of potential presence of data. For example if a GeoTIFF file is created with blocks filled with zeroes (or set to the nodata value), instead of using the missing block mechanism, GDAL_DATA_COVERAGE_STATUS_DATA will be returned. On the contrary, GDAL_DATA_COVERAGE_STATUS_EMPTY should have no false positives.

The nMaskFlagStop should be generally set to 0. It can be set to a binary-or'ed mask of the above mentioned values to enable a quick exiting of the function as soon as the computed mask matches the nMaskFlagStop. For example, you can issue a request on the whole raster with nMaskFlagStop = GDAL_DATA_COVERAGE_STATUS_EMPTY. As soon as one missing block is encountered, the function will exit, so that you can potentially refine the requested area to find which particular region(s) have missing blocks.

参见

GDALGetDataCoverageStatus()

备注

Added in GDAL 2.2

参数

• nXOff -- The pixel offset to the top left corner of the region of the band to be queried. This would be zero to start from the left side.

• nYOff -- The line offset to the top left corner of the region of the band to be queried. This would be zero to start from the top.

• nXSize -- The width of the region of the band to be queried in pixels.

• nYSize -- The height of the region of the band to be queried in lines.

• nMaskFlagStop -- 0, or a binary-or'ed mask of possible values GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED, GDAL_DATA_COVERAGE_STATUS_DATA and GDAL_DATA_COVERAGE_STATUS_EMPTY. As soon as the computation of the coverage matches the mask, the computation will be stopped. *pdfDataPct will not be valid in that case.

• pdfDataPct -- Optional output parameter whose pointed value will be set to the (approximate) percentage in [0,100] of pixels in the queried sub-window that have valid values. The implementation might not always be able to compute it, in which case it will be set to a negative value.

返回

a binary-or'ed combination of possible values GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED, GDAL_DATA_COVERAGE_STATUS_DATA and GDAL_DATA_COVERAGE_STATUS_EMPTY

std::shared_ptr<GDALMDArray> AsMDArray() const

Return a view of this raster band as a 2D multidimensional GDALMDArray.

The band must be linked to a GDALDataset. If this dataset is not already marked as shared, it will be, so that the returned array holds a reference to it.

If the dataset has a geotransform attached, the X and Y dimensions of the returned array will have an associated indexing variable.

This is the same as the C function GDALRasterBandAsMDArray().

The "reverse" method is GDALMDArray::AsClassicDataset().

Since

GDAL 3.1

返回

a new array, or nullptr.

公共静态函数

static inline GDALRasterBandH ToHandle(GDALRasterBand *poBand)

Convert a GDALRasterBand* to a GDALRasterBandH.

Since

GDAL 2.3

static inline GDALRasterBand *FromHandle(GDALRasterBandH hBand)

Convert a GDALRasterBandH to a GDALRasterBand*.

Since

GDAL 2.3

受保护的功能

virtual CPLErr IReadBlock(int nBlockXOff, int nBlockYOff, void *pData) = 0

Read a block of data.

Default internal implementation ... to be overridden by subclasses that support reading.

参数

• nBlockXOff -- Block X Offset

• nBlockYOff -- Block Y Offset

• pData -- Pixel buffer into which to place read data.

返回

CE_None on success or CE_Failure on an error.

virtual CPLErr IWriteBlock(int nBlockXOff, int nBlockYOff, void *pData)

Write a block of data.

Default internal implementation ... to be overridden by subclasses that support writing.

参数

• nBlockXOff -- Block X Offset

• nBlockYOff -- Block Y Offset

• pData -- Pixel buffer to write

返回

CE_None on success or CE_Failure on an error.

virtual CPLErr IRasterIO(GDALRWFlag, int, int, int, int, void*, int, int, GDALDataType, GSpacing, GSpacing, GDALRasterIOExtraArg *psExtraArg)

Read/write a region of image data for this band.

This method allows reading a region of a GDALRasterBand into a buffer, or writing data from a buffer into a region of a GDALRasterBand. It automatically takes care of data type translation if the data type (eBufType) of the buffer is different than that of the GDALRasterBand. The method also takes care of image decimation / replication if the buffer size (nBufXSize x nBufYSize) is different than the size of the region being accessed (nXSize x nYSize).

The nPixelSpace and nLineSpace parameters allow reading into or writing from unusually organized buffers. This is primarily used for buffers containing more than one bands raster data in interleaved format.

Some formats may efficiently implement decimation into a buffer by reading from lower resolution overview images.

For highest performance full resolution data access, read and write on "block boundaries" as returned by GetBlockSize(), or use the ReadBlock() and WriteBlock() methods.

This method is the same as the C GDALRasterIO() or GDALRasterIOEx() functions.

参数

• eRWFlag -- Either GF_Read to read a region of data, or GF_Write to write a region of data.

• nXOff -- The pixel offset to the top left corner of the region of the band to be accessed. This would be zero to start from the left side.

• nYOff -- The line offset to the top left corner of the region of the band to be accessed. This would be zero to start from the top.

• nXSize -- The width of the region of the band to be accessed in pixels.

• nYSize -- The height of the region of the band to be accessed in lines.

• pData -- The buffer into which the data should be read, or from which it should be written. This buffer must contain at least nBufXSize * nBufYSize words of type eBufType. It is organized in left to right, top to bottom pixel order. Spacing is controlled by the nPixelSpace, and nLineSpace parameters.

• nBufXSize -- the width of the buffer image into which the desired region is to be read, or from which it is to be written.

• nBufYSize -- the height of the buffer image into which the desired region is to be read, or from which it is to be written.

• eBufType -- the type of the pixel values in the pData data buffer. The pixel values will automatically be translated to/from the GDALRasterBand data type as needed.

• nPixelSpace -- The byte offset from the start of one pixel value in pData to the start of the next pixel value within a scanline. If defaulted (0) the size of the datatype eBufType is used.

• nLineSpace -- The byte offset from the start of one scanline in pData to the start of the next. If defaulted (0) the size of the datatype eBufType * nBufXSize is used.

• psExtraArg -- (new in GDAL 2.0) pointer to a GDALRasterIOExtraArg structure with additional arguments to specify resampling and progress callback, or NULL for default behavior. The GDAL_RASTERIO_RESAMPLING configuration option can also be defined to override the default resampling to one of BILINEAR, CUBIC, CUBICSPLINE, LANCZOS, AVERAGE or MODE.

返回

CE_Failure if the access fails, otherwise CE_None.

virtual int IGetDataCoverageStatus(int nXOff, int nYOff, int nXSize, int nYSize, int nMaskFlagStop, double *pdfDataPct)

Get the coverage status of a sub-window of the raster.

Returns whether a sub-window of the raster contains only data, only empty blocks or a mix of both. This function can be used to determine quickly if it is worth issuing RasterIO / ReadBlock requests in datasets that may be sparse.

Empty blocks are blocks that contain only pixels whose value is the nodata value when it is set, or whose value is 0 when the nodata value is not set.

The query is done in an efficient way without reading the actual pixel values. If not possible, or not implemented at all by the driver, GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED | GDAL_DATA_COVERAGE_STATUS_DATA will be returned.

The values that can be returned by the function are the following, potentially combined with the binary or operator :

• GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED : the driver does not implement GetDataCoverageStatus(). This flag should be returned together with GDAL_DATA_COVERAGE_STATUS_DATA.

• GDAL_DATA_COVERAGE_STATUS_DATA: There is (potentially) data in the queried window.

• GDAL_DATA_COVERAGE_STATUS_EMPTY: There is nodata in the queried window. This is typically identified by the concept of missing block in formats that supports it.

Note that GDAL_DATA_COVERAGE_STATUS_DATA might have false positives and should be interpreted more as hint of potential presence of data. For example if a GeoTIFF file is created with blocks filled with zeroes (or set to the nodata value), instead of using the missing block mechanism, GDAL_DATA_COVERAGE_STATUS_DATA will be returned. On the contrary, GDAL_DATA_COVERAGE_STATUS_EMPTY should have no false positives.

The nMaskFlagStop should be generally set to 0. It can be set to a binary-or'ed mask of the above mentioned values to enable a quick exiting of the function as soon as the computed mask matches the nMaskFlagStop. For example, you can issue a request on the whole raster with nMaskFlagStop = GDAL_DATA_COVERAGE_STATUS_EMPTY. As soon as one missing block is encountered, the function will exit, so that you can potentially refine the requested area to find which particular region(s) have missing blocks.

参见

GDALGetDataCoverageStatus()

备注

Added in GDAL 2.2

参数

• nXOff -- The pixel offset to the top left corner of the region of the band to be queried. This would be zero to start from the left side.

• nYOff -- The line offset to the top left corner of the region of the band to be queried. This would be zero to start from the top.

• nXSize -- The width of the region of the band to be queried in pixels.

• nYSize -- The height of the region of the band to be queried in lines.

• nMaskFlagStop -- 0, or a binary-or'ed mask of possible values GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED, GDAL_DATA_COVERAGE_STATUS_DATA and GDAL_DATA_COVERAGE_STATUS_EMPTY. As soon as the computation of the coverage matches the mask, the computation will be stopped. *pdfDataPct will not be valid in that case.

• pdfDataPct -- Optional output parameter whose pointed value will be set to the (approximate) percentage in [0,100] of pixels in the queried sub-window that have valid values. The implementation might not always be able to compute it, in which case it will be set to a negative value.

返回

a binary-or'ed combination of possible values GDAL_DATA_COVERAGE_STATUS_UNIMPLEMENTED, GDAL_DATA_COVERAGE_STATUS_DATA and GDAL_DATA_COVERAGE_STATUS_EMPTY