# RasterCalculator

## Summary

Provides access to all existing math functions and returns a raster object with the mathematical operation applied.

## Discussion

The referenced raster dataset for the raster object is temporary. To make it permanent, you can call the raster object's save method.

## Syntax

`RasterCalculator (rasters, input_names, expression, {extent_type}, {cellsize_type})`
 Parameter Explanation Data Type rasters[rasters,...] The list of input rasters. Raster input_names[input_names,...] The user-defined variable names. String expression Build an algebraic expression to perform spatial analysis on the input raster. String extent_type The spatial extent used to create the output raster.FirstOf —The extent of the first raster variableIntersectionOf —The minimum area common to all input rastersUnionOf —The combined extent of all input rastersLastOf —The extent of the last raster variable(The default value is FirstOf) String cellsize_type The cell size used to create the output raster.FirstOf —The cell size of the first raster variableMinOf —The minimum cell size of the input rastersMaxOf —The maximum cell size of the input rastersMeanOf —The average cell size of the input rastersLastOf —The cell size of the last raster variable(The default value is FirstOf) String
Return Value
 Data Type Explanation Raster The output raster.

## Code sample

RasterCalculator example 1

Example of a map algebraic expression using a raster calculator.

``````from arcpy.ia import *
out_rc_multi_raster = RasterCalculator(["raster1.tif", "raster2.tif"],
["x", "y"], "x*y")
out_rc_multi_raster.save("C:/arcpyExamples/raster_rc_multi.tif")``````
RasterCalculator example 2

Example of a map algebraic expression using a raster calculator.

``````from arcpy.ia import *
out_rc_multi_raster = RasterCalculator(["raster1.tif", "raster2.tif"],
["x", "y"], "x*y")
out_rc_multi_raster.save("C:/arcpyExamples/raster_rc_multi.tif")``````