ArcGIS Pro 3.4 API Reference Guide
ArcGIS.Desktop.Mapping Namespace / PointCloudSceneLayer Class / GetAvailablePointCloudRendererFields Method
Input renderer type
Example Version

GetAvailablePointCloudRendererFields Method
Gets the available fields for the specified renderer type. This method must be called on the MCT. Use QueuedTask.Run.
Syntax
public IReadOnlyList<string> GetAvailablePointCloudRendererFields( 
   PointCloudRendererType rendererType
)

Parameters

rendererType
Input renderer type

Return Value

IReadOnlyList{ System.String}
Exceptions
ExceptionDescription
This method or property must be called within the lambda passed to QueuedTask.Run.
Remarks
Each renderer type requires different fields be present on the point cloud layer. If an empty list is returned from GetAvailablePointCloudRendererFields for a given renderer type then it means that that particular renderer type is not supported for the given PointCloudSceneLayer.
If the renderer type is supported then one of the field names returned in the list must be set as the PointCloudRendererDefinition.Field value when defining the new renderer to be used.
Setting an invalid renderer on the layer will disable rendering of the layer until it is removed
Example
Query PointCloudSceneLayer Renderer fields
//Must be called on the MCT
//var pcsl = ...;
//At 2.x - IReadOnlyList<string> flds = pcsl.QueryAvailablePointCloudRendererFields(
//                                     PointCloudRendererType.UniqueValueRenderer);
IReadOnlyList<string> flds = pcsl.GetAvailablePointCloudRendererFields(
                             PointCloudRendererType.UniqueValueRenderer);
var fldCount = flds.Count;
Create and Set a Stretch Renderer
//Must be called on the MCT
//var pcsl = ...;

//At 2.x - var fields = pcsl.QueryAvailablePointCloudRendererFields(
//                           PointCloudRendererType.StretchRenderer);

var fields = pcsl.GetAvailablePointCloudRendererFields(
                         PointCloudRendererType.StretchRenderer);
var stretchDef = new PointCloudRendererDefinition(
                          PointCloudRendererType.StretchRenderer)
{
  //Will be either ELEVATION or INTENSITY
  Field = fields[0]
};
//Create the CIM Renderer
var stretchRenderer = pcsl.CreateRenderer(stretchDef) 
                                   as CIMPointCloudStretchRenderer;
//Apply a color ramp
var style = Project.Current.GetItems<StyleProjectItem>()
                                .First(s => s.Name == "ArcGIS Colors");
var colorRamp = style.SearchColorRamps("").First();
stretchRenderer.ColorRamp = colorRamp.ColorRamp;
//Apply modulation
stretchRenderer.ColorModulation = new CIMColorModulationInfo()
{
  MinValue = 0,
  MaxValue = 100
};
//apply the renderer
pcsl.SetRenderer(stretchRenderer);
Create and Set a ClassBreaks Renderer
//Must be called on the MCT
//var pcsl = ...;

//At 2.x - var fields = pcsl.QueryAvailablePointCloudRendererFields(
//                          PointCloudRendererType.ClassBreaksRenderer);

var fields = pcsl.GetAvailablePointCloudRendererFields(
                     PointCloudRendererType.ClassBreaksRenderer);
var classBreakDef = new PointCloudRendererDefinition(
                          PointCloudRendererType.ClassBreaksRenderer)
{
  //ELEVATION or INTENSITY
  Field = fields[0]
};
//create the renderer
var cbr = pcsl.CreateRenderer(classBreakDef) 
                          as CIMPointCloudClassBreaksRenderer;
//Set up a color scheme to use
var style = Project.Current.GetItems<StyleProjectItem>()
                           .First(s => s.Name == "ArcGIS Colors");
var rampStyle = style.LookupItem(
  StyleItemType.ColorRamp, "Spectrum By Wavelength-Full Bright_Multi-hue_2")
                                                            as ColorRampStyleItem;
var colorScheme = rampStyle.ColorRamp;
//Set up 6 manual class breaks
var breaks = 6;
var colors = ColorFactory.Instance.GenerateColorsFromColorRamp(
                                            colorScheme, breaks);
var classBreaks = new List<CIMColorClassBreak>();
var min = cbr.Breaks[0].UpperBound;
var max = cbr.Breaks[cbr.Breaks.Count() - 1].UpperBound;
var step = (max - min) / (double)breaks;

//add in the class breaks
double upper = min;
for (int b = 1; b <= breaks; b++)
{
  double lower = upper;
  upper = b == breaks ? max : min + (b * step);
  var cb = new CIMColorClassBreak()
  {
    UpperBound = upper,
    Label = string.Format("{0:#0.0#} - {1:#0.0#}", lower, upper),
    Color = colors[b - 1]
  };
  classBreaks.Add(cb);
}
cbr.Breaks = classBreaks.ToArray();
pcsl.SetRenderer(cbr);
Requirements

Target Platforms: Windows 11, Windows 10

ArcGIS Pro version: 3 or higher.
See Also