public static Panel ToSAM(this gbXMLSerializer.SpaceBoundary spaceBoundary, double tolerance = Tolerance.MicroDistance)
{
if (spaceBoundary == null)
{
return(null);
}
Polygon3D polygon3D = spaceBoundary.PlanarGeometry.ToSAM();
if (polygon3D == null)
{
return(null);
}
return(new Panel(null, PanelType.Undefined, new Face3D(polygon3D)));
}
public static SpaceBoundary MakeSpaceBoundary(SpaceBoundary sb, List<List<double>> points, int surfacecount)
{
sb.surfaceIdRef = "su-" + surfacecount.ToString();
sb.PlanarGeometry = new PlanarGeometry();
sb.PlanarGeometry.PolyLoop = new PolyLoop();
sb.PlanarGeometry.PolyLoop = makePolyLoopsFromDbleList(sb.PlanarGeometry.PolyLoop, points);
return sb;
}
public static List<Space> MakeSpacesFromEPObj(List<EPObj.MemorySafe_Spaces> myspace)
{
List<Space> retspaces = new List<Space>();
int spacecount = 0;
foreach (EPObj.MemorySafe_Spaces space in myspace)
{
//foreach Space space in your ListofSpaces
Space zespace = new Space();
zespace.id = "Space-1";
zespace.lightScheduleIdRef = "lightSchedule-1";
zespace.equipmentScheduleIdRef = "equipmentSchedule-1";
zespace.peopleScheduleIdRef = "peopleSchedule-1";
zespace.conditionType = "HeatedAndCooled";
zespace.buildingStoreyIdRef = "bldg-story-1";
zespace.Name = "Test Space-" + spacecount;
zespace.peoplenum = 12;
zespace.totalpeoplegain = 450;
zespace.senspeoplegain = 250;
zespace.latpeoplegain = 200;
zespace.PeopleHeatGains = new PeopleHeatGain[3];
zespace.lpd = 1.2;
zespace.epd = 1.5;
zespace.Area = 2450;
zespace.Volume = 24500;
zespace.PlanarGeo = new PlanarGeometry();
zespace.ShellGeo = new ShellGeometry();
PeopleNumber pn = new PeopleNumber();
pn.unit = peopleNumberUnitEnum.NumberOfPeople;
string people = gb.FormatDoubleToString(zespace.peoplenum);
pn.valuefield = people;
zespace.PeopleNumber = pn;
PeopleHeatGain phg = new PeopleHeatGain();
phg.unit = peopleHeatGainUnitEnum.BtuPerHourPerson;
phg.heatGainType = peopleHeatGainTypeEnum.Total;
string totalpopload = gb.FormatDoubleToString(zespace.totalpeoplegain);
phg.value = totalpopload;
zespace.PeopleHeatGains[0] = phg;
PeopleHeatGain shg = new PeopleHeatGain();
shg.unit = peopleHeatGainUnitEnum.BtuPerHourPerson;
shg.heatGainType = peopleHeatGainTypeEnum.Sensible;
string senspopload = gb.FormatDoubleToString(zespace.senspeoplegain);
shg.value = senspopload;
zespace.PeopleHeatGains[1] = shg;
PeopleHeatGain lhg = new PeopleHeatGain();
lhg.unit = peopleHeatGainUnitEnum.BtuPerHourPerson;
lhg.heatGainType = peopleHeatGainTypeEnum.Latent;
string latpopload = gb.FormatDoubleToString(zespace.latpeoplegain);
lhg.value = latpopload;
zespace.PeopleHeatGains[2] = lhg;
LightPowerPerArea lpd = new LightPowerPerArea();
lpd.unit = powerPerAreaUnitEnum.WattPerSquareFoot;
lpd.lpd = gb.FormatDoubleToString(zespace.lpd);
zespace.LightPowerPerArea = lpd;
EquipPowerPerArea epd = new EquipPowerPerArea();
epd.unit = powerPerAreaUnitEnum.WattPerSquareFoot;
epd.epd = gb.FormatDoubleToString(zespace.epd);
zespace.EquipPowerPerArea = epd;
Area spacearea = new Area();
spacearea.val = gb.FormatDoubleToString(zespace.Area);
zespace.spacearea = spacearea;
Volume spacevol = new Volume();
spacevol.val = gb.FormatDoubleToString(zespace.Volume);
zespace.spacevol = spacevol;
//same as the planar geometry of the floor planes above
PlanarGeometry spaceplpoly = new PlanarGeometry();
//get a list of points that makes up the polyloop
List<List<double>> spacepoints = prod.MakeFakeList(3);
//make polyloop with points
spaceplpoly.PolyLoop = new PolyLoop();
spaceplpoly.PolyLoop = prod.makePolyLoopsFromDbleList(spaceplpoly.PolyLoop, spacepoints);
zespace.PlanarGeo = spaceplpoly;
//@@
//ShellGeometry
//similar to planar geometry, but with more planes
ShellGeometry sg = new ShellGeometry();
sg.unit = lengthUnitEnum.Feet;
sg.id = "sg" + space.name;
sg.ClosedShell = new ClosedShell();
//up to 100 surfaces per space? base on the space instance surfaces
sg.ClosedShell.PolyLoops = new PolyLoop[space.spaceSurfaces.Count()];
//I would have a list of surface elements that make up the space surfaces.
//each surface would consist of a series of points that defines the surface.
for (int i = 0; i < space.spaceSurfaces.Count(); i++)
{
//get points from the space surfaces
List<List<double>> epluspoints = new List<List<double>>();
epluspoints = EnergyPlusClass.GetCoordinDoubles(space.spaceSurfaces[i].SurfaceCoords);
sg.ClosedShell.PolyLoops[i] = new PolyLoop();
sg.ClosedShell.PolyLoops[i] = prod.makePolyLoopsFromDbleList(sg.ClosedShell.PolyLoops[i], epluspoints);
}
zespace.ShellGeo = sg;
zespace.cadid = new CADObjectId();
zespace.cadid.id = "990099-" + spacecount;
//make surface boundaries..special code needed so that space boundaries are not duplicated...
//option 1 : the surfaces already declared as internal somehow and how shared.
//option 2: the api tries to figure it out
zespace.spbound = new SpaceBoundary[space.spaceSurfaces.Count()];
int psurfacecount = 0;
for (int i = 0; i < space.spaceSurfaces.Count(); i++)
{
//get points from the space surfaces
List<List<double>> epluspoints = new List<List<double>>();
epluspoints = EnergyPlusClass.GetCoordinDoubles(space.spaceSurfaces[i].SurfaceCoords);
//if surface is exterior
SpaceBoundary sb = new SpaceBoundary();
zespace.spbound[i] = prod.MakeSpaceBoundary(sb, epluspoints, psurfacecount);
psurfacecount++;
//else if surface is interior and it has not been listed before
//then do the same
//else do nothing because it is interior and it has already been listed
//I also would like to keep track of all the surfaces that I create to better prepare me for the surface definition
uniquesurf.Add(zespace.spbound[i].PlanarGeometry);
//make a dictionary that stores the name of a surface and its planar geometry?
uniqueplanes.Add(zespace.spbound[i].surfaceIdRef, zespace.spbound[i].PlanarGeometry);
//make a dictionary that stores the name of a surface and create a surface as the value
Surface newsurface = new Surface();
//this took a lot of customization...a user would have to make their own code to attach to my object here
newsurface = prod.SetUpSurfaceFromIDF(space.spaceSurfaces[i], zespace.spbound[i].PlanarGeometry);
uniquesurfaces.Add(zespace.spbound[i].surfaceIdRef, newsurface);
}
retspaces.Add(zespace);
spacecount++;
}
return retspaces;
}