public void GetMaxHourlyWindSpeeds_Test()
{
Continuum thisInst = new Continuum("");
string Filename = testingFolder + "\\GetMaxHourlyWindSpeeds\\GetMaxHourlyWindSpeeds test.cfm";
thisInst.Open(Filename);
double thisLat = 41.0;
double thisLong = -83.75;
MERRA thisMERRA = thisInst.merraList.GetMERRA(thisLat, thisLong);
thisMERRA.GetMERRADataFromDB(thisInst);
thisMERRA.GetInterpData(thisInst.UTM_conversions);
Met.MaxYearlyWind[] theseMaxWS = thisMERRA.GetMaxHourlyWindSpeeds();
Assert.AreEqual(theseMaxWS[0].maxWS, 19.948, 0.001, "Wrong Max WS Year 2000");
Assert.AreEqual(theseMaxWS[2].maxWS, 23.496, 0.001, "Wrong Max WS Year 2002");
Assert.AreEqual(theseMaxWS[6].maxWS, 21.704, 0.001, "Wrong Max WS Year 2006");
Assert.AreEqual(theseMaxWS[10].maxWS, 20.305, 0.001, "Wrong Max WS Year 2010");
thisInst.Close();
}
public void Calc_Avg_or_LT_Test()
{
Continuum thisInst = new Continuum("");
string Filename = testingFolder + "\\MERRA_Testing.cfm";
thisInst.Open(Filename);
Met thisMet = thisInst.metList.metItem[0];
UTM_conversion.Lat_Long theseLL = thisInst.UTM_conversions.UTMtoLL(thisInst.metList.metItem[0].UTMX, thisInst.metList.metItem[0].UTMY);
MERRA merra = thisInst.merraList.GetMERRA(theseLL.latitude, theseLL.longitude);
if (merra.interpData.TS_Data.Length == 0)
{
merra.GetMERRADataFromDB(thisInst);
merra.GetInterpData(thisInst.UTM_conversions);
}
// Test 1
double thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 100, 100, "50 m WS");
Assert.AreEqual(6.670311915, thisAvg, 0.001, "Wrong 50m WS all data");
// Test 2
thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 100, 100, "Surface Pressure");
Assert.AreEqual(98.72393837, thisAvg, 0.001, "Wrong Pressure");
// Test 3
thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 100, 100, "10 m Temp"); // all data
Assert.AreEqual(10.33596373, thisAvg, 0.001, "Wrong 10m Temp");
// Test 4
thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 1, 2008, "50 m WS"); // jan 2008
Assert.AreEqual(8.938906452, thisAvg, 0.001, "Wrong 50m WS");
// Test 5
thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 100, 2010, "50 m WS"); // avg 2010
Assert.AreEqual(6.421752226, thisAvg, 0.001, "Wrong 50 m WS");
// Test 6
thisAvg = merra.Calc_Avg_or_LT(merra.interpData.TS_Data, 1, 100, "50 m WS"); // avg all january's
Assert.AreEqual(7.639244713, thisAvg, 0.001, "Wrong 50m WS");
thisInst.Close();
}
/// <summary> Adds new MERRA object to list. Figures out if additional MERRA nodes need to be uploaded from textfiles.
/// Runs MCP at Met site (if thisMet not null) if have all MERRA node data. Calls BW worker to upload additional data if needed. </summary>
public void AddMERRA_GetDataFromTextFiles(double thisLat, double thisLong, int offset, Continuum thisInst, Met thisMet, bool isTest)
{
// Create new MERRA object and assign lat, long, and node lat/long
MERRA thisMERRA = new MERRA();
thisMERRA.Set_Interp_LatLon_Dates_Offset(thisLat, thisLong, offset, thisInst);
thisMERRA.numMERRA_Nodes = numMERRA_Nodes;
thisMERRA.MERRA_Nodes = new MERRA.MERRA_Node_Data[numMERRA_Nodes];
if (thisMet.name == null)
{
thisMERRA.isUserDefined = true;
}
if (MERRAfolder == "")
{
try
{
MessageBox.Show("Please select folder containing MERRA2 data .ascii files.");
if (thisInst.fbd_MERRAData.ShowDialog() == DialogResult.OK)
{
MERRAfolder = thisInst.fbd_MERRAData.SelectedPath;
}
else
{
return;
}
SetMERRA2LatLong(thisInst);
}
catch
{
MessageBox.Show("Folder path not valid.", "", MessageBoxButtons.OK);
return;
}
}
// Figure out if MERRA textfile has the necessary lat/long range and get MERRA node coordinates
bool gotCoords = thisMERRA.Find_MERRA_Coords(MERRAfolder);
if (gotCoords == false)
{
return;
}
DialogResult doMCP = DialogResult.No;
if (thisMet.name != null && isTest == false && (thisInst.metList.ThisCount == 1 || thisInst.metList.isMCPd == false))
{
doMCP = MessageBox.Show("Do you want to conduct MCP at selected met?", "Continuum 3.0", MessageBoxButtons.YesNo);
}
else if (thisMet.name != "" && isTest == false && thisInst.metList.ThisCount > 1 && thisInst.metList.isMCPd == true)
{
doMCP = DialogResult.Yes;
}
else if (isTest == true)
{
doMCP = DialogResult.No;
}
if (doMCP == DialogResult.Yes)
{
thisInst.metList.isMCPd = true;
thisInst.modelList.ClearAllExceptImported();
thisInst.turbineList.ClearAllWSEsts();
thisInst.turbineList.ClearAllGrossEsts();
thisInst.turbineList.ClearAllNetEsts();
thisInst.mapList.ClearAllMaps();
thisInst.metPairList.ClearAll();
}
// Figure out what MERRA nodes need to be downloaded
UTM_conversion.Lat_Long[] requiredMERRANode = GetRequiredNewMERRANodeCoords(thisLat, thisLong, thisInst);
if (requiredMERRANode.Length != 0)
{
MERRA.MERRA_Pull[] nodesToPull = new MERRA.MERRA_Pull[requiredMERRANode.Length];
for (int i = 0; i < requiredMERRANode.Length; i++)
{
nodesToPull[i].Coords.latitude = requiredMERRANode[i].latitude;
nodesToPull[i].Coords.longitude = requiredMERRANode[i].longitude;
nodesToPull[i].UTM = thisInst.UTM_conversions.LLtoUTM(nodesToPull[i].Coords.latitude, nodesToPull[i].Coords.longitude);
}
// Check to see that MERRA data files have required lat/long and assign XInd and YInd
bool gotIndices = thisMERRA.GetMERRAPullXYIndices(ref nodesToPull, MERRAfolder);
if (gotIndices == false)
{
return;
}
BackgroundWork.Vars_for_MERRA Vars_for_MERRA = new BackgroundWork.Vars_for_MERRA();
Vars_for_MERRA.thisInst = thisInst;
Vars_for_MERRA.thisMERRA = thisMERRA;
Vars_for_MERRA.MCP_type = thisInst.Get_MCP_Method();
Vars_for_MERRA.thisMet = thisMet;
Vars_for_MERRA.nodesToPull = nodesToPull;
thisInst.BW_worker = new BackgroundWork();
thisInst.BW_worker.Call_BW_MERRA2_Import(Vars_for_MERRA);
}
else
{
// Have all necessary MERRA nodes and user wants to do MCP so.... Run MCP!
// Add MERRA object to list
Array.Resize(ref merraData, numMERRA_Data + 1);
merraData[numMERRA_Data - 1] = thisMERRA;
thisMERRA.GetMERRADataFromDB(thisInst);
thisMERRA.GetInterpData(thisInst.UTM_conversions);
if (doMCP == DialogResult.Yes)
{
thisMet.WSWD_Dists = new Met.WSWD_Dist[0];
thisInst.metList.RunMCP(ref thisMet, thisMERRA, thisInst, thisInst.Get_MCP_Method());
thisMet.CalcAllLT_WSWD_Dists(thisInst, thisMet.mcp.LT_WS_Ests); // Calculates LT wind speed / wind direction distributions for using all day and using each season and each time of day (Day vs. Night)
thisInst.updateThe.AllTABs(thisInst);
}
else
{
thisInst.updateThe.MERRA_Dropdowns(thisInst);
thisInst.updateThe.MERRA_TAB(thisInst);
}
}
}