public static IReadOnlyList<string> MakeValueArray( 
   params object[] args
)

var environment = Geoprocessing.MakeEnvironmentArray(overwriteoutput: true);

      var prj = Project.Current;
      var map = MapView.Active;

      var defaultGDB = Project.Current.DefaultGeodatabasePath;

      var featLayers = map.Map.Layers.OfType<FeatureLayer>();

      var targetLayer = featLayers.ElementAt(0);  // First layer in TOC
      var joinLayer = featLayers.ElementAt(1);    // Second layer in TOC

      var outputFeatureClass = @"C:/temp/outputFC3.shp";

      // Specify the field map in Spatial Join with target and join feature class/layers in the App
      // Run Spatial Join manually - then Copy the fieldmap string from the result in Geoprocessing history and paste it for the fieldmap parameter. 
      // in this example of fieldmap, FireStations is the name of join layer
      // FireStations layer has two numeric fileds (used in Fieldmap): TYPE and NUMBER - these two fields are used in the FiedlMap
      //
      var joinLayerName = joinLayer.Name;
      var fieldMap = "TYPE 'TYPE' true true false 4 Long 0 0,Count,#,{joinLayerName},TYPE,-1,-1;NUMBER 'NUMBER' true true false 4 Long 0 0,Max,#,{joinLayerName},NUMBER,-1,-1";

      var toolParameters = Geoprocessing.MakeValueArray(targetLayer, joinLayer, outputFeatureClass, "JOIN_ONE_TO_ONE", "KEEP_COMMON", fieldMap, "INTERSECT");

      GPExecuteToolFlags executeFlags = GPExecuteToolFlags.AddOutputsToMap | GPExecuteToolFlags.GPThread | GPExecuteToolFlags.AddToHistory | GPExecuteToolFlags.RefreshProjectItems;

      IGPResult gpResult = await Geoprocessing.ExecuteToolAsync("analysis.SpatialJoin", toolParameters, environment, null, null, executeFlags);

      Geoprocessing.ShowMessageBox(gpResult.Messages, "GP Messages", gpResult.IsFailed ? GPMessageBoxStyle.Error : GPMessageBoxStyle.Default);

// get the syntax of the tool from Python window or from tool help page
string in_features = @"C:\data\data.gdb\HighwaysWeb84";
      string out_features = @"C:\data\data.gdb\HighwaysUTM";
      var param_values = Geoprocessing.MakeValueArray(in_features, out_features);

      // crate the spatial reference object to pass as an argument to management.CopyFeatures tool
      var sp_ref = await QueuedTask.Run(() => {
          return SpatialReferenceBuilder.CreateSpatialReference(26911);    // UTM 83 11N: 26911
      });

      // set output coordinate system environment           
      var environments = Geoprocessing.MakeEnvironmentArray(outputCoordinateSystem: sp_ref);
      // set environments in the 3rd parameter
      var gp_result = await Geoprocessing.ExecuteToolAsync("management.CopyFeatures", param_values, environments, null, null, GPExecuteToolFlags.AddOutputsToMap);
      
      Geoprocessing.ShowMessageBox(gp_result.Messages, "Contents", GPMessageBoxStyle.Default, "Window Title");

      //return gp_result;

var progDlg = new ProgressDialog("Running Geoprocessing Tool", "Cancel", 100, true);
      progDlg.Show();
      
      var progSrc = new CancelableProgressorSource(progDlg);

      // prepare input parameter values to CopyFeatures tool
      string input_data = @"C:\data\california.gdb\ca_highways";
      string out_workspace = ArcGIS.Desktop.Core.Project.Current.DefaultGeodatabasePath;
      string out_data = System.IO.Path.Combine(out_workspace, "ca_highways2");

      // make a value array of strings to be passed to ExecuteToolAsync
      var parameters = Geoprocessing.MakeValueArray(input_data, out_data);

      // execute the tool
      await Geoprocessing.ExecuteToolAsync("management.CopyFeatures", parameters,
          null, new CancelableProgressorSource(progDlg).Progressor, GPExecuteToolFlags.Default);

      // dialog hides itself once the execution is complete
      progDlg.Hide();

string input_points = @"C:\data\ca_ozone.gdb\ozone_points";
      string output_polys = @"C:\data\ca_ozone.gdb\ozone_buff";
      string buffer_dist = "2000 Meters";

      var param_values = Geoprocessing.MakeValueArray(input_points, output_polys, buffer_dist);

      Geoprocessing.OpenToolDialog("analysis.Buffer", param_values);

// get the model tool's parameter syntax from the model's help
string input_roads = @"C:\data\Input.gdb\PlanA_Roads";
      string buff_dist_field = "Distance";   // use values from a field
      string input_vegetation = @"C:\data\Input.gdb\vegetation";
      string output_data = @"C:\data\Output.gdb\ClippedFC2";

      // the model name is ExtractVegetation
      string tool_path = @"C:\data\MB\Models.tbx\ExtractVegetation";

      var args = Geoprocessing.MakeValueArray(input_roads, buff_dist_field, input_vegetation, output_data);

      var result = await Geoprocessing.ExecuteToolAsync(tool_path, args);

var parameters = Geoprocessing.MakeValueArray(@"C:\data\data.gdb\HighwaysUTM11", @"C:\data\data.gdb\Highways_extent");
      var ext = Geoprocessing.MakeEnvironmentArray(extent: "460532 3773964 525111 3827494");
      var gp_result = await Geoprocessing.ExecuteToolAsync("management.CopyFeatures", parameters, ext);

string input_data = @"C:\data\data.gdb\Population";
      string out_pdf = @"C:\temp\Reports.pdf";
      string field_name = "INCOME";
      // use defaults for other parameters - no need to pass any value
      var arguments = Geoprocessing.MakeValueArray(input_data, out_pdf, field_name);

      string toolpath = @"C:\data\WorkflowTools.tbx\MakeHistogram";

      Geoprocessing.OpenToolDialog(toolpath, arguments);

// For a System toolbox, to identify the specific tool to show, use
// either:
// o "ToolboxName.ToolName" - eg "analysis.Buffer"
// o "Fullpath to Toolbox.tbx\Toolname" - eg:
//       "C:\ArcGIS\Resources\ArcToolBox\Toolboxes\Analysis Tools.tbx\Buffer"
// note:
// For legacy purposes, the convention "ToolName_ToolBox" is also supported so,
// o "Buffer_analysis" would also work
//
// For a custom toolbox, the full path must be provided. So, for example,
// given the custom toolbox "DeepThought.tbx" containing a python script tool
// called "Answer", installed at "C:\Data\DeepThought-ProAddin\Toolboxes\toolboxes",
// the full path would be:
// o "C:\Data\DeepThought-ProAddin\Toolboxes\toolboxes\DeepThought.tbx\Answer"

//Open the Buffer Tool GP Dialog - use either the full path or just 
//use "ToolboxName.ToolName"
var path = @"C:\ArcGIS\Resources\ArcToolBox\Toolboxes\Analysis Tools.tbx";
var full_tool_name = System.IO.Path.Combine(path, "Buffer");

var short_tool_name = "analysis.Buffer";

var tool_name = short_tool_name;//or full_tool_name

var extent = MapView.Active.Extent;

var val_array = await QueuedTask.Run(() =>
{
  var rect = GeometryEngine.Instance.Scale(extent, extent.Center, 0.25, 0.25) as Envelope;
  var poly = PolygonBuilderEx.CreatePolygon(rect, rect.SpatialReference);
  var geom = new List<object>() { poly };
  return Geoprocessing.MakeValueArray(new object[] { geom, null, @"1000 Meters" });

});
//Call OpenToolDialog on the UI thread!
Geoprocessing.OpenToolDialog(tool_name, val_array, null, false);

// However, settings in Pro App's Geoprocessing Options will override option set in code
// for example, in Pro App's Options > Geoprocessing dialog, if you check 'Add output datasets to an open map'
// then the output WILL BE added to history overriding settings in code
var CopyfeaturesParams = Geoprocessing.MakeValueArray("C:\\data\\Input.gdb\\PlanA_Roads", "C:\\data\\Input.gdb\\Roads_copy");
      IGPResult gpResult = await Geoprocessing.ExecuteToolAsync("management.CopyFeatures", CopyfeaturesParams, null, null, null, GPExecuteToolFlags.None);

// However, settings in Pro App's Geoprocessing Options will override option set in code
// for example, if in Options > Geoprocessing dialog, if you uncheck 'Write geoprocessing operations to Geoprocessing History'
// then the output will not be added to history.
var args2 = Geoprocessing.MakeValueArray("C:\\data\\Vegetation.shp", "NewField", "TEXT");
      var result2 = await Geoprocessing.ExecuteToolAsync("management.AddField", args2, null, null, null, GPExecuteToolFlags.AddToHistory);

//The data referenced in this snippet can be downloaded from the arcgis-pro-sdk-community-samples repo
//https://github.com/Esri/arcgis-pro-sdk-community-samples
async Task<IGPResult> CreateRings(EditingTemplate currentTemplate)
      {
          var paramsArray = Geoprocessing.MakeValueArray(currentTemplate.MapMember.Name,
                      @"C:\Data\FeatureTest\FeatureTest.gdb\Points_MultipleRingBuffer",
                      new List<string> { "1000", "2000" }, "Meters", "Distance",
                      "ALL", "FULL");

          IGPResult ringsResult = await Geoprocessing.ExecuteToolAsync("Analysis.MultipleRingBuffer", paramsArray);
          var messages = string.IsNullOrEmpty(gpResult.ReturnValue)
                  ? $@"Error in gp tool: {gpResult.ErrorMessages}"
                  : $@"Ok: {gpResult.ReturnValue}";

          return ringsResult;
      }

//The data referenced in this snippet can be downloaded from the arcgis-pro-sdk-community-samples repo
//https://github.com/Esri/arcgis-pro-sdk-community-samples
string in_data = @"C:\tools\data.gdb\cities";
      string cities_buff = @"E:\data\data.gdb\cities_2km";

      var valueArray = Geoprocessing.MakeValueArray(in_data, cities_buff, "2000 Meters");

      // to let the GP tool run asynchronously without blocking the main thread
      // use the GPThread option of GPExecuteToolFlasgs
      //
      GPExecuteToolFlags flags = GPExecuteToolFlags.GPThread;  // instruct the tool run non-blocking GPThread
      IGPResult bufferResult = await Geoprocessing.ExecuteToolAsync("Analysis.Buffer", valueArray, null, null, null, flags);

var environments = Geoprocessing.MakeEnvironmentArray(overwriteoutput: true);

      string toolName = "Snap_edit";  // or use edit.Snap

      // Snap tool takes multiple inputs each of which has
      // Three (3) parts: a feature class or layer, a string value and a distance
      // Each part is separated by a semicolon - you can get example of sytax from the tool documentation page
      var snapEnv = @"'C:/SnapProject/fgdb.gdb/line_1' END '2 Meters';'C:/SnapProject/fgdb.gdb/points_1' VERTEX '1 Meters';'C:/SnapProject/fgdb.gdb/otherline_1' END '20 Meters'";

      var infc = @"C:/SnapProject/fgdb.gdb/poly_1";

      var snapParams = Geoprocessing.MakeValueArray(infc, snapEnv);

      GPExecuteToolFlags tokens = GPExecuteToolFlags.RefreshProjectItems | GPExecuteToolFlags.GPThread | GPExecuteToolFlags.AddToHistory;

      IGPResult snapResult = await Geoprocessing.ExecuteToolAsync(toolName, parameters, environments, null, null, tokens);

      //return gpResult;

string tool2 = "analysis.Buffer";
List<MapPoint> list = new List<MapPoint>();
list.Add(MapPointBuilderEx.CreateMapPoint(1.0, 1.0));
list.Add(MapPointBuilderEx.CreateMapPoint(1.0, 2.0));
list.Add(MapPointBuilderEx.CreateMapPoint(2.0, 2.0));
list.Add(MapPointBuilderEx.CreateMapPoint(2.0, 1.0));

Multipoint multiPoint = MultipointBuilderEx.CreateMultipoint(list);
var spatial_ref = SpatialReferenceBuilder.CreateSpatialReference(3857);
var args3 = await QueuedTask.Run(() =>
{
    return Geoprocessing.MakeValueArray(multiPoint, "memory\\Buffers", "800 meters");
});
var env1 = Geoprocessing.MakeEnvironmentArray(outputCoordinateSystem: spatial_ref);
var messages = new List<string>(); // list to collect all output messages
var cts = new CancellationTokenSource();
await Geoprocessing.ExecuteToolAsync(tool2, args3, env1, cts.Token);
    

string openProjectPath = @"D\DATA\IGPHistoryItemTestProject\IGPHistoryItemTestProject.aprx";
await Project.OpenAsync(openProjectPath); 
MapProjectItem mapProjItem = Project.Current.GetItems<MapProjectItem>().FirstOrDefault(item => item.Name.Equals("Map", StringComparison.CurrentCultureIgnoreCase));

var map = await QueuedTask.Run(() => mapProjItem.GetMap());
var ftrLayer = map.Layers[0] as FeatureLayer;
string tool1 = "management.GetCount";     
var args1 = Geoprocessing.MakeValueArray(ftrLayer);
var env = Geoprocessing.MakeEnvironmentArray(overwriteoutput: true);          
GPExecuteToolFlags executeFlags = GPExecuteToolFlags.AddToHistory;
var t = await Geoprocessing.ExecuteToolAsync(tool1, args1,env,null,null,executeFlags);

IEnumerable<IGPHistoryItem> hisItems = Project.Current.GetProjectItemContainer(Geoprocessing.HistoryContainerKey) as IEnumerable<IGPHistoryItem>;        

String hitemID="";
String hitemToolPath="" ;
IGPResult hitemGPResult=null;
DateTime hitemTimeStamp;

foreach (var hitem in hisItems)
{
    // common IGPHistoryItem and Item properties
    hitemID = (hitem as Item).ID;
    hitemToolPath = hitem.ToolPath;
    hitemGPResult = hitem.GPResult;
    hitemTimeStamp = hitem.TimeStamp;
}

ArcGIS.Desktop.Core.Events.GPExecuteToolEvent.Subscribe(e =>
      {
          string id = e.ID;                   // Same as history ID
          if (e.IsStarting == false)  // Execute completed
              _ = e.GPResult.ReturnValue;
          System.Windows.MessageBox.Show("event triggered.");
      });
await Geoprocessing.ExecuteToolAsync("management.GetCount", Geoprocessing.MakeValueArray(@"c:\shape_file.shp"));

var tool_name = "analysis.Clip";
var extent = MapView.Active.Extent;
var sel_layer = MapView.Active.Map.GetLayersAsFlattenedList()
                  .OfType<FeatureLayer>().FirstOrDefault(l => l.Name == "GreatLakes");
if (sel_layer == null) return;

var gdb = Project.Current.DefaultGeodatabasePath;
var out_fc = System.IO.Path.Combine(gdb, "clipped_lakes_out");

var val_array = await QueuedTask.Run(() =>
{

  var rect = GeometryEngine.Instance.Scale(extent, extent.Center, 0.5, 0.5) as Envelope;
  var clip_poly = PolygonBuilderEx.CreatePolygon(rect, rect.SpatialReference);

  //Add the geometry to a list before calling MakeValueArray
  //Envelope and Geometry types are supported
  var geom = new List<object>() { clip_poly };
  return Geoprocessing.MakeValueArray(new object[] { sel_layer, geom, out_fc });

});
Geoprocessing.ExecuteToolAsync(tool_name, val_array,
  null, null, null, GPExecuteToolFlags.InheritGPOptions);