public SuperKVP getCurrentKVP(string name)
{
SuperKVP myKVP;
string values = "";
foreach (IGH_Param param in Component.Params.Input[1].Sources)
{
var myprop = getPanelVal(param);
if (myprop != null)
{
values += myprop + ",";
}
}
myKVP = new SuperKVP(name, values);
return(myKVP);
}
protected override void SolveInstance(IGH_DataAccess DA)
{
myMatrix = constructMatrixFromSliders((GH_Component)Component);
INSTANCECOUNT = myMatrix.Count;
if (INSTANCECOUNT > 4242)
{
this.AddRuntimeMessage(GH_RuntimeMessageLevel.Remark, "There are " + INSTANCECOUNT + " instances. That's quite a lot. Try reducing the parameter space!\nSpeckle WILL work but you might have a long wait ahead.");
}
this.Message = "# Instances:\n" + myMatrix.Count;
if (!SOLVE)
{
// part of some obscure ritual code
geometries = new List <List <System.Object> >();
kvpairs = new List <SuperKVP>();
myProperties = new List <SuperProperty>();
foreach (IGH_Param param in Component.Params.Input[1].Sources)
{
SuperProperty myProperty = new SuperProperty(getPanelName(param));
myProperties.Add(myProperty);
}
EMERGENCY_BREAK = false;
List <System.Object> inputObjects = new List <System.Object>();
this.Message = "# Instances:\n" + myMatrix.Count;
// critical - if not set we don't know where to sthap
INSTANCECOUNT = myMatrix.Count;
}
else
{
// sanity checks
if (EMERGENCY_BREAK)
{
return;
}
// running through the iterations - so store and save
List <System.Object> geoms = new List <System.Object>();
List <string> guids = new List <string>();
foreach (IGH_Param param in Component.Params.Input[2].Sources)
{
foreach (Object myObj in param.VolatileData.AllData(true))
{
geoms.Add(myObj); // these are the object geometries
guids.Add(param.InstanceGuid.ToString()); // these are the guids of the parent componenets
}
}
string path = Path.Combine(FOLDERLOCATION, currentInstanceName + ".json");
writeFile(JsonConvert.SerializeObject(translateGeometry(geoms, guids, currentInstanceName, Component), Newtonsoft.Json.Formatting.None), path);
// get the key value pairs nicely wrapped up
SuperKVP myKVP = getCurrentKVP(currentInstanceName);
kvpairs.Add(myKVP);
this.Message = currentCount + " / " + INSTANCECOUNT;
string[] splitvals = myKVP.values.Split(',');
int counter = 0;
foreach (SuperProperty prop in myProperties)
{
prop.addValue(splitvals[counter]);
counter++;
}
currentCount++;
this.Message = currentCount + "\n---\n" + INSTANCECOUNT;
//that means we have calculated all the required instances
if (currentCount == INSTANCECOUNT)
{
SOLVE = false;
string pathh = "";
// write the static geom file
List <Object> staticGeo = new List <Object>();
foreach (IGH_Param param in Component.Params.Input[3].Sources)
{
foreach (Object myObj in param.VolatileData.AllData(true))
{
staticGeo.Add(myObj); // these are the object geometries
}
}
pathh = Path.Combine(FOLDERLOCATION, "static.json");
writeFile(JsonConvert.SerializeObject(translateGeometry(staticGeo, new List <string>(), "staticGeo", Component), Newtonsoft.Json.Formatting.None), pathh);
OUTFILE = new System.Dynamic.ExpandoObject();
OUTFILE.meta = "ParametricSpaceExporter";
OUTFILE.parameters = new List <dynamic>();
OUTFILE.propNames = new List <string>();
OUTFILE.kvpairs = kvpairs;
foreach (IGH_Param param in Component.Params.Input[1].Sources)
{
//Print(getPanelNameAndVal(param));
var myprop = getPanelNameAndVal(param);
if (myprop != null)
{
string[] pops = myprop.Split(',');
OUTFILE.propNames.Add(pops[0]);
}
}
// populate the sliders
int k = 0;
foreach (List <double> mySliderVars in sliderValues)
{
dynamic Slider = new System.Dynamic.ExpandoObject();
Slider.name = sliderNames.ElementAt(k++);
Slider.values = mySliderVars;
OUTFILE.parameters.Add(Slider);
}
OUTFILE.properties = myProperties;
pathh = Path.Combine(FOLDERLOCATION, "params.json");
writeFile(JsonConvert.SerializeObject(OUTFILE, Newtonsoft.Json.Formatting.None), pathh);
// copy/write the gh defintion in the folder
if (allowDefExport)
{
string ghSavePath = Path.Combine(FOLDERLOCATION, "def.ghx");
GH_Archive myArchive = new GH_Archive();
myArchive.Path = ghSavePath;
myArchive.AppendObject(GrasshopperDocument, "Definition");
myArchive.WriteToFile(ghSavePath, true, false);
}
// zip things up
string startPath = FOLDERLOCATION;
using (ZipFile zip = new ZipFile())
{
zip.AddDirectory(@startPath);
zip.Save(startPath + @"\" + GHDEFNAME + ".zip");
}
// delete the garbage data
System.IO.DirectoryInfo myDir = new DirectoryInfo(FOLDERLOCATION);
foreach (FileInfo file in myDir.GetFiles())
{
if (!(file.Extension == ".zip"))
{
file.Delete();
}
}
// open an explorer window to the location of the archive.
Process.Start("explorer.exe", FOLDERLOCATION);
PATHISSET = false;
FOLDERLOCATION = "";
Component.ExpireSolution(true);
}
}
}