Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the raster are not equal, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the raster are not equal, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
And the values of each cell in each raster.
And the values of each cell in each raster.
And the values of each cell in each raster.
And the values of each cell in each raster.
And a constant Int value to each cell.
And a constant Int value to each cell.
And a constant Int value to each cell.
And a constant Int value to each cell.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply a double constant value from each cell.
Multiply a double constant value from each cell.
Multiply a constant value from each cell.
Multiply a constant value from each cell.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow each value of a raster by a double constant value.
Pow each value of a raster by a double constant value.
Pow each value of the raster by a constant value.
Pow each value of the raster by a constant value.
Pow a double constant value by each cell value.
Pow a double constant value by each cell value.
Pow a constant value by each cell value.
Pow a constant value by each cell value.
Multiply a double constant value from each cell.
Multiply a double constant value from each cell.
Multiply a constant value from each cell.
Multiply a constant value from each cell.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add a constant Double value to each cell.
Add a constant Double value to each cell.
Add a constant Int value to each cell.
Add a constant Int value to each cell.
Add a constant Double value to each cell.
Add a constant Double value to each cell.
Add a constant Int value to each cell.
Add a constant Int value to each cell.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract a double constant value from each cell.
Subtract a double constant value from each cell.
Subtract a constant value from each cell.
Subtract a constant value from each cell.
Subtract each value of a cell from a double constant value.
Subtract each value of a cell from a double constant value.
Subtract each value of a cell from a constant value.
Subtract each value of a cell from a constant value.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide each value of a raster by a double constant value.
Divide each value of a raster by a double constant value.
Divide each value of the raster by a constant value.
Divide each value of the raster by a constant value.
Divide a double constant value by each cell value.
Divide a double constant value by each cell value.
Divide a constant value by each cell value.
Divide a constant value by each cell value.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Syntax has double '<' due to '<:' operator being reserved in Scala.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Syntax has double '<' due to '<:' operator being reserved in Scala.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the raster are greater than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the raster are greater than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Syntax has double '>' due to '>:' operator being reserved in Scala.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Syntax has double '>' due to '>:' operator being reserved in Scala.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor a constant Int value to each cell.
Xor a constant Int value to each cell.
Xor a constant Int value to each cell.
Xor a constant Int value to each cell.
Calculates the aspect of each cell in a raster.
Calculates the aspect of each cell in a raster.
cellSize of the raster
Generate quantile class breaks for a given raster.
Generate quantile class breaks for a given raster.
Generate quantile class breaks for a given raster.
Generate quantile class breaks for a given raster.
Computes the convolution of the raster for the given kernl
Computes the convolution of the raster for the given kernl
Compute the cost-distance function over the present Tile and the given set of points.
Compute the cost-distance function over the present Tile and the given set of points.
Compute the cost-distance function over the present Tile and the given set of points.
Compute the cost-distance function over the present Tile and the given set of points.
Given a source Extent, a destination Extent, and some cropping options, produce a cropped Raster.
Given a source Extent, a destination Extent, and some cropping options, produce a cropped Raster.
Given a GridBounds and some cropping options, produce a new Tile.
Given a GridBounds and some cropping options, produce a new Tile.
Given a source Extent and a destination extent produce a cropped Tile.
Given a source Extent and a destination extent produce a cropped Tile.
Given the starting and stopping columns and rows, crop.
Given the starting and stopping columns and rows, crop.
Given the starting and stopping columns and rows and some cropping options, crop.
Given the starting and stopping columns and rows and some cropping options, crop.
Given a number of columns and rows for the desired output, crop.
Given a number of columns and rows for the desired output, crop.
Given a number of columns and rows for the desired output and some cropping options, crop.
Given a number of columns and rows for the desired output and some cropping options, crop.
Given a GridBounds, crop.
Given a GridBounds, crop.
Delays the conversion of this tile's cell type until it produces another Tile.
Delays the conversion of this tile's cell type until it produces another Tile.
The target cell type of a future map or combine operation.
This only has an affect for the result tiles of a combine or map operation. This will always produce an ArrayTile.
Equalize the histogram of this Tile.
Equalize the histogram of this Tile.
Given a geotrellis.raster.histogram.Histogram which summarizes this Tile, equalize the histogram of this tile.
Given a geotrellis.raster.histogram.Histogram which summarizes this Tile, equalize the histogram of this tile.
The histogram of this tile
Fills sink values in a raster.
Fills sink values in a raster. Returns a Tile of DoubleConstantNoDataCellType.
Operation to compute a flow direction raster from an elevation raster.
Operation to compute a flow direction raster from an elevation raster.
Computes the next step of Conway's Game of Life
Computes the next step of Conway's Game of Life
Computes the maximum value of a neighborhood
Computes the maximum value of a neighborhood
Computes the mean of a neighborhood
Computes the mean of a neighborhood
Computes the median of a neighborhood
Computes the median of a neighborhood
Computes the minimum value of a neighborhood
Computes the minimum value of a neighborhood
Computes the mode of a neighborhood
Computes the mode of a neighborhood
Computes the standard deviation of a neighborhood
Computes the standard deviation of a neighborhood
Computes the sum of a neighborhood
Computes the sum of a neighborhood
Computes Hillshade (shaded relief) from a raster.
Computes Hillshade (shaded relief) from a raster.
Contains several different operations for building a histograms of a raster.
Contains several different operations for building a histograms of a raster.
Tiles with a double type (FloatConstantNoDataCellType, DoubleConstantNoDataCellType) will have their values rounded to integers when making the Histogram.
Create a histogram from double values in a raster.
Create a histogram from double values in a raster.
Create a histogram from double values in a raster.
Create a histogram from double values in a raster.
Takes the Absolute value of each raster cell value.
Takes the Absolute value of each raster cell value.
Takes the arc cos of each raster cell value.
Takes the arc cos of each raster cell value.
Always return a double valued raster.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add the values of each cell in each raster.
Add a constant Double value to each cell.
Add a constant Double value to each cell.
Add a constant Int value to each cell.
Add a constant Int value to each cell.
And the values of each cell in each raster.
And the values of each cell in each raster.
And the values of each cell in each raster.
And the values of each cell in each raster.
And a constant Int value to each cell.
And a constant Int value to each cell.
Takes the arc sine of each raster cell value.
Takes the arc sine of each raster cell value.
Always return a double valued raster.
Takes the arc tan of each raster cell value.
Takes the arc tan of each raster cell value.
Always return a double valued raster.
Takes the Arc Tangent2 This raster holds the y - values, and the parameter holds the x values.
Takes the Arc Tangent2 This raster holds the y - values, and the parameter holds the x values. The arctan is calculated from y / x.
A double raster is always returned.
Takes the Ceiling of each raster cell value.
Takes the Ceiling of each raster cell value.
Takes the Cosine of each raster cell value.
Takes the Cosine of each raster cell value.
Always returns a double raster.
Takes the hyperboic cosine of each raster cell value.
Takes the hyperboic cosine of each raster cell value.
Always returns a double raster.
Maps an integer typed Tile to 1 if the cell value is not NODATA, otherwise 0.
Maps an integer typed Tile to 1 if the cell value is not NODATA, otherwise 0.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide the values of each cell in each raster.
Divide each value of a raster by a double constant value.
Divide each value of a raster by a double constant value.
Divide each value of the raster by a constant value.
Divide each value of the raster by a constant value.
Divide a double constant value by each cell value.
Divide a double constant value by each cell value.
Divide a constant value by each cell value.
Divide a constant value by each cell value.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the provided raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the provided raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Takes the Flooring of each raster cell value.
Takes the Flooring of each raster cell value.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are greater than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is greater than the input integer, else 0.
Generate a raster with the values from the first raster, but only include cells in which the corresponding cell in the second raster is set to the "readMask" value.
Generate a raster with the values from the first raster, but only include cells in which the corresponding cell in the second raster is set to the "readMask" value.
For example, if *all* cells in the second raster are set to the readMask value, the output raster will be identical to the first raster.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are less than or equal to the next raster, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than or equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input double, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is less than the input integer, else 0.
Computes the Log of Tile values.
Computes the Log of Tile values.
Computes the Log base 10 of Tile values.
Computes the Log base 10 of Tile values.
Assigns to each cell the value within the given rasters that is the nth most numerous.
Assigns to each cell the value within the given rasters that is the nth most numerous.
Assigns to each cell the value within the given rasters that is the nth most numerous.
Assigns to each cell the value within the given rasters that is the nth most numerous.
Assigns to each cell the value within the given rasters that is the most numerous.
Assigns to each cell the value within the given rasters that is the most numerous.
Assigns to each cell the value within the given rasters that is the most numerous.
Assigns to each cell the value within the given rasters that is the most numerous.
Generate a raster with the values from the first raster, but only include cells in which the corresponding cell in the second raster *are not* set to the "readMask" value.
Generate a raster with the values from the first raster, but only include cells in which the corresponding cell in the second raster *are not* set to the "readMask" value.
For example, if *all* cells in the second raster are set to the readMask value, the output raster will be empty -- all values set to NODATA.
Max the values of each cell in each raster.
Max the values of each cell in each raster.
Max the values of each cell in each raster.
Max the values of each cell in each raster.
Max a constant Double value to each cell.
Max a constant Double value to each cell.
Max a constant Int value to each cell.
Max a constant Int value to each cell.
Min the values of each cell in each raster.
Min the values of each cell in each raster.
Min the values of each cell in each raster.
Min the values of each cell in each raster.
Min a constant Double value to each cell.
Min a constant Double value to each cell.
Min a constant Int value to each cell.
Min a constant Int value to each cell.
Assigns to each cell the value within the given rasters that is the nth least numerous.
Assigns to each cell the value within the given rasters that is the nth least numerous.
Assigns to each cell the value within the given rasters that is the nth least numerous.
Assigns to each cell the value within the given rasters that is the nth least numerous.
Assigns to each cell the value within the given rasters that is the least numerous.
Assigns to each cell the value within the given rasters that is the least numerous.
Assigns to each cell the value within the given rasters that is the least numerous.
Assigns to each cell the value within the given rasters that is the least numerous.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply the values of each cell in each raster.
Multiply a double constant value from each cell.
Multiply a double constant value from each cell.
Multiply a constant value from each cell.
Multiply a constant value from each cell.
Negate (multiply by -1) each value in a raster.
Negate (multiply by -1) each value in a raster.
Bitwise negation of Tile.
Bitwise negation of Tile.
NotRaster does not currently support Double raster data. If you use a Tile with a Double CellType (FloatConstantNoDataCellType, DoubleConstantNoDataCellType) the data values will be rounded to integers.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or a constant Int value to each cell.
Or a constant Int value to each cell.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow the values of each cell in each raster.
Pow each value of a raster by a double constant value.
Pow each value of a raster by a double constant value.
Pow each value of the raster by a constant value.
Pow each value of the raster by a constant value.
Pow a double constant value by each cell value.
Pow a double constant value by each cell value.
Pow a constant value by each cell value.
Pow a constant value by each cell value.
Round the values of a Tile.
Round the values of a Tile.
Takes the sine of each raster cell value.
Takes the sine of each raster cell value.
Always returns a double raster.
Takes the hyperbolic sine of each raster cell value.
Takes the hyperbolic sine of each raster cell value.
Always returns a double raster.
Take the square root each value in a raster.
Take the square root each value in a raster.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract the values of each cell in each raster.
Subtract a double constant value from each cell.
Subtract a double constant value from each cell.
Subtract a constant value from each cell.
Subtract a constant value from each cell.
Subtract each value of a cell from a double constant value.
Subtract each value of a cell from a double constant value.
Subtract each value of a cell from a constant value.
Subtract each value of a cell from a constant value.
Takes the Tangent of each raster cell value.
Takes the Tangent of each raster cell value.
Always returns a double raster.
Takes the hyperboic cosine of each raster cell value.
Takes the hyperboic cosine of each raster cell value.
Always returns a double raster.
Maps an integer typed Tile to 1 if the cell value is NODATA, otherwise 0.
Maps an integer typed Tile to 1 if the cell value is NODATA, otherwise 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are not equal, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell valued of the rasters are not equal, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input intenger, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input intenger, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Returns a Tile with data of BitCellType, where cell values equal 1 if the corresponding cell value of the input raster is equal to the input integer, else 0.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor the values of each cell in each raster.
Xor a constant Int value to each cell.
Xor a constant Int value to each cell.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry. Do not include polygon exteriors.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry.
Masks this tile by the given Geometry. Do not include polygon exteriors.
Merges this tile with another tile, given the extents both tiles.
Merges this tile with another tile, given the extents both tiles.
This method will replace the values of these cells with a resampled value taken from the tile's cells, if the source cell is of the transparent value. The transparent value is determined by the tile's cell type; if the cell type has a NoData value, then that is considered the transparent value. If there is no NoData value associated with the cell type, then a 0 value is considered the transparent value. If this is not the desired effect, the caller is required to change the cell type before using this method to an appropriate cell type that has the desired NoData value.
The extent of this Tile
The extent of the other Tile
The other Tile
The resampling method
A new Tile, the result of the merge
Merges this tile with another tile.
Merges this tile with another tile.
This method will replace the values of these cells with the values of the other tile's corresponding cells, if the source cell is of the transparent value. The transparent value is determined by the tile's cell type; if the cell type has a NoData value, then that is considered the transparent value. If there is no NoData value associated with the cell type, then a 0 value is considered the transparent value. If this is not the desired effect, the caller is required to change the cell type before using this method to an appropriate cell type that has the desired NoData value.
The other Tile
A new Tile, the result of the merge
This method requires that the dimensions be the same between the tiles, and assumes equal extents.
Merge this Tile with the other one.
Merge this Tile with the other one. All places in the present tile that contain NODATA and are in the intersection of the two given extents are filled-in with data from the other tile. A new Tile is returned.
The extent of this Tile
The extent of the other Tile
The other Tile
A new Tile, the result of the merge
Given numbers of columns and rows, produce a new ArrayTile of the given size and the same band count as the calling object.
Given numbers of columns and rows, produce a new ArrayTile of the given size and the same band count as the calling object.
Given a CellType and numbers of columns and rows, produce a new ArrayTile of the given size and the same band count as the calling object.
Given a CellType and numbers of columns and rows, produce a new ArrayTile of the given size and the same band count as the calling object.
Compute the region groupings for the present Tile using the given options.
Compute the region groupings for the present Tile using the given options.
Compute the region groupings for the present Tile using the default options.
Compute the region groupings for the present Tile using the default options.
Generate a JPG image from a raster.
Generate a JPG image from a raster.
Use this operation when you have a raster of data that you want to visualize with an image.
To render a data raster into an image, the operation needs to know which values should be painted with which colors. To that end, you'll need to generate a ColorBreaks object which represents the value ranges and the assigned color. One way to create these color breaks is to use the geotrellis.raster.stats.op.stat.GetClassBreaks operation to generate quantile class breaks.
Generate a JPG from a raster of RGBA integer values.
Generate a JPG from a raster of RGBA integer values.
Use this operation when you have created a raster whose values are already RGBA color values that you wish to render into a JPG. If you have a raster with data that you wish to render, you should use RenderJpg instead.
An RGBA value is a 32 bit integer with 8 bits used for each component: the first 8 bits are the red value (between 0 and 255), then green, blue, and alpha (with 0 being transparent and 255 being opaque).
Generate a PNG from a raster of color encoded values.
Generate a PNG from a raster of color encoded values.
Use this operation when you have created a raster whose values are already encoded color values that you wish to render into a PNG.
Generate a PNG from a raster of RGBA integer values.
Generate a PNG from a raster of RGBA integer values.
Use this operation when you have created a raster whose values are already RGBA color values that you wish to render into a PNG. If you have a raster with data that you wish to render, you should use RenderPng instead.
An RGBA value is a 32 bit integer with 8 bits used for each component: the first 8 bits are the red value (between 0 and 255), then green, blue, and alpha (with 0 being transparent and 255 being opaque).
Calculates global spatial autocorrelation of a raster based on the similarity to neighboring values.
Calculates global spatial autocorrelation of a raster based on the similarity to neighboring values.
Given the parameters alpha and beta, perform the sigmoidal contrast computation and return the result as a tile.
Given the parameters alpha and beta, perform the sigmoidal contrast computation and return the result as a tile.
The approach used is described here: https://www.imagemagick.org/Usage/color_mods/#sigmoidal
The center around-which the stretch is performed (given as a fraction)
The standard deviation in the computation, used to avoid saturating the upper and lower parts of the gamut
The output tile
Calculates the slope of each cell in a raster.
Calculates the slope of each cell in a raster.
cellSize of the raster
Number of map units to one elevation unit.
Splits this into an array of elements based on a TileLayout.
Splits this into an array of elements based on a TileLayout. The array will be in row order form such that the top left element is first.
TileLayout defining the tiles to be generated
Options that control the split
An array of T
Splits this into an array of elements into square tiles.
Splits this into an array of elements into square tiles. The array will be in row order form such that the top left element is first.
An array of T
Splits this into an array of elements based on a columns and rows to be in each tile.
Splits this into an array of elements based on a columns and rows to be in each tile. The array will be in row order form such that the top left element is first.
Column count of output tiles
Row count of output tiles
An array of T
Splits this into an array of elements based on a TileLayout.
Splits this into an array of elements based on a TileLayout. The array will be in row order form such that the top left element is first.
TileLayout defining the tiles to be generated
An array of T
Calculate a raster in which each value is set to the standard deviation of that cell's value.
Calculate a raster in which each value is set to the standard deviation of that cell's value.
Tile of IntConstantNoDataCellType data
Currently only supports working with integer types. If you pass in a Tile with double type data (FloatConstantNoDataCellType, DoubleConstantNoDataCellType) the values will be rounded to Ints.
Determine statistical data for the given histogram.
Determine statistical data for the given histogram.
This includes mean, median, mode, stddev, and min and max values.
Determine statistical data for the given histogram.
Determine statistical data for the given histogram.
This includes mean, median, mode, stddev, and min and max values.
Calculates spatial autocorrelation of cells based on the similarity to neighboring values.
Calculates spatial autocorrelation of cells based on the similarity to neighboring values.
Negate (multiply by -1) each value in a raster.
Negate (multiply by -1) each value in a raster.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or the values of each cell in each raster.
Or a constant Int value to each cell.
Or a constant Int value to each cell.
Or a constant Int value to each cell.
Or a constant Int value to each cell.