Point to Raster (Conversion)

Available with Advanced license.

Summary

Converts point features to a raster dataset.

Learn how the Point to Raster tool works

Usage

  • Any feature class (geodatabase, shapefile, or coverage) containing point or multipoint features can be converted to a raster dataset.

  • The input field type determines the type of output raster. If the field is integer, the output raster will be integer; if it is floating point, the output will be floating point.

    If the input field contains string values, the output raster will contain an integer value field and a string field.

  • The Cellsize can be defined by a numeric value or obtained from an existing raster dataset. If the cell size hasn’t been explicitly specified as the parameter value, it is derived from the environment Cell Size, if it has been specified. If neither the parameter cell size nor the environment cell size has been specified, but the environment Snap Raster has been set, the cell size of the snap raster is used. If nothing has been specified, the cell size is calculated from the shorter of the width or height of the extent divided by 250, where the extent is in the Output Coordinate System specified in the environment.

  • If the cell size has been specified using a numeric value, the tool will use it directly for the output raster.

    If the cell size has been specified using a raster dataset, the parameter will show the path of the raster dataset instead of the cell size value. The cell size of that raster dataset will be used directly in the analysis, provided the spatial reference of the dataset is the same as the output spatial reference. If the spatial reference of the dataset is different, it will be projected based on the selected Cell Size Projection Method.

  • This tool is a complement to the Raster to Point tool, which converts a raster to a point feature class.

  • When more than one feature is present in an output cell, this tool provides greater control over the assignment of cell values than the Feature to Raster tool.

  • For data formats that support Null values, such as file geodatabase feature classes, a Null value will be ignored when used as input.

  • Certain raster storage environments may apply to this tool.

    • For the Pyramid environment, only the Build pyramids setting is honored. The remaining Pyramid environment settings are ignored. More control over the nature of the pyramids can be obtained in a subsequent step using the Build Pyramids tool.

    • For the Compression environment, only the type of compression may be honored. This is for raster formats other than Esri Grid.

Syntax

arcpy.conversion.PointToRaster(in_features, value_field, out_rasterdataset, {cell_assignment}, {priority_field}, {cellsize}, {build_rat})
ParameterExplanationData Type
in_features

The point or multipoint input feature dataset to be converted to a raster.

Feature Layer
value_field

The field used to assign values to the output raster.

It can be any field of the input feature dataset's attribute table.

If the Shape field of a point or multipoint dataset contains z- or m-values, either of these can be used.

Field
out_rasterdataset

The output raster dataset to be created.

If the output raster will not be saved to a geodatabase, specify .tif for TIFF file format, .CRF for CRF file format, .img for ERDAS IMAGINE file format, or no extension for Esri Grid raster format.

Raster Dataset
cell_assignment
(Optional)

The method to determine how the cell will be assigned a value when more than one feature falls within a cell.

  • MOST_FREQUENTIf there is more than one feature within the cell, the one with the most common attribute, in the Value field, is assigned to the cell. If they have the same number of common attributes, the one with the lowest FID is used.
  • SUMThe sum of the attributes of all the points within the cell (not valid for string data).
  • MEANThe mean of the attributes of all the points within the cell (not valid for string data).
  • STANDARD_DEVIATIONThe standard deviation of attributes of all the points within the cell. If there are less than two points in the cell, the cell is assigned NoData (not valid for string data).
  • MAXIMUMThe maximum value of the attributes of the points within the cell (not valid for string data).
  • MINIMUMThe minimum value of the attributes of the points within the cell (not valid for string data).
  • RANGEThe range of the attributes of the points within the cell (not valid for string data).
  • COUNTThe number of points within the cell.
String
priority_field
(Optional)

This field is used when a feature should take preference over another feature with the same attribute.

Priority field is only used with the Most frequent cell assignment type option.

Field
cellsize
(Optional)

The cell size of the output raster being created.

This parameter can be defined by a numeric value or obtained from an existing raster dataset. If the cell size hasn’t been explicitly specified as the parameter value, the environment cell size value is used, if specified; otherwise, additional rules are used to calculate it from the other inputs. See Usages for more detail.

Analysis Cell Size
build_rat
(Optional)

Specifies whether the output raster will have a raster attribute table.

This parameter only applies to integer rasters.

  • BUILDThe output raster will have a raster attribute table. This is the default.
  • DO_NOT_BUILDThe output raster will not have a raster attribute table.
Boolean

Code sample

PointToRaster example 1 (Python window)

Converts point features to a raster dataset.

import arcpy
from arcpy import env
env.workspace = "c:/data"
arcpy.PointToRaster_conversion("ca_ozone_pts.shp", "ELEVATION", 
                                "c:/output/ca_elev", "MAXIMUM", "", 2000)
PointToRaster example 2 (stand-alone script)

Converts point features to a raster dataset.

# Name: PointToRaster_Ex_02.py
# Description: Converts point features to a raster dataset.

# Import system modules
import arcpy
from arcpy import env

# Set environment settings
env.workspace = "C:/data"

# Set local variables
inFeatures = "ca_ozone_pts.shp"
valField = "ELEVATION"
outRaster = "c:/output/ca_elev02"
assignmentType = "MAXIMUM"
priorityField = ""
cellSize = 2000

# Execute PointToRaster
arcpy.PointToRaster_conversion(inFeatures, valField, outRaster, 
                               assignmentType, priorityField, cellSize)

Licensing information

  • Basic: Requires Spatial Analyst or 3D Analyst
  • Standard: Requires Spatial Analyst or 3D Analyst
  • Advanced: Yes

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