TagBox::TagBox(ToolPanel *panel, wxWindowID id, const wxString& label, const wxPoint& pos, const wxSize& size, wxString boxname, wxString modpath)
: wxComboBox(panel, id, label, wxDefaultPosition, size)
{
wxString filename, filepath;
wxString readline, tag, text;
TextFile opfile;
bool check;
path = modpath;
name = boxname;
diagbox = NULL;
labelset = false;
tag = "";
if(panel->mainwin) diagbox = panel->mainwin->diagbox;
diagbox->Write("\nTagBox init " + name + "\n");
// tag history load
if(name == "") {
diagbox->Write("Tag file not set\n");
return;
}
filename = name + "tags.ini";
check = opfile.Open(path + "/Tags/" + filename);
if(!check) {
if(diagbox) diagbox->Write("No tag history\n");
return;
}
diagbox->Write("Reading tag history " + filename + "\n");
readline = opfile.ReadLine();
while(!readline.IsEmpty()) {
//diagbox->Write("Readline " + readline + "\n");
readline = readline.AfterFirst(' ');
readline.Trim();
tag = readline;
Insert(tag, 0);
//diagbox->Write("Insert " + tag + "\n");
readline = opfile.ReadLine();
}
opfile.Close();
SetLabel(tag);
diagbox->Write(name + " " + tag + "\n");
if(tag != "") labelset = true;
}
void HypoMain::OptionStore()
{
wxString filename;
wxString outline;
filename = "Init/hypoprefs.ini";
TextFile opfile;
opfile.New(filename);
opfile.WriteLine(outline.Format("startmod %d", startmod));
opfile.WriteLine(outline.Format("numdraw %d", numdraw));
opfile.WriteLine(outline.Format("viewheight %d", viewheight));
opfile.WriteLine(outline.Format("viewwidth %d", viewwidth));
opfile.WriteLine(outline.Format("ylabels %d", ylabels));
opfile.WriteLine(outline.Format("datsample %d", datsample));
opfile.WriteLine(outline.Format("basic %d", basic));
opfile.WriteLine(outline.Format("diagnostic %d", diagnostic));
opfile.Close();
filename = "Init/hypopaths.ini";
opfile.New(filename);
opfile.WriteLine(datapath);
opfile.WriteLine(parampath);
opfile.WriteLine(outpath);
opfile.WriteLine(modpath);
opfile.Close();
}
void MainFrame::MainLoad()
{
long numdat;
int i, check, boxindex;
wxString filename, filepath;
wxString readline, numstring;
TextFile infile;
wxPoint pos;
wxSize size;
//filepath = GetPath();
filepath = "Init//";
// Box Load
filename = "mainbox.ini";
check = infile.Open(filepath + filename);
if(!check) return;
readline = infile.ReadLine();
//tofp.WriteLine(readline);
while(!readline.IsEmpty()) {
numstring = readline.BeforeFirst(' ');
numstring.ToLong(&numdat);
boxindex = numdat;
if(boxindex >= toolset->numtools) break;
pos.x = ReadNextData(&readline);
pos.y = ReadNextData(&readline);
size.x = ReadNextData(&readline);
size.y = ReadNextData(&readline);
if(toolset->box[boxindex]->servant) toolset->box[boxindex]->visible = (bool)ReadNextData(&readline);
else toolset->box[boxindex]->visible = true;
if(pos.x >= -5000 && pos.x < 5000 && pos.y >= -5000 && pos.y < 5000) toolset->box[boxindex]->mpos = pos;
if(size.x >= 50 && size.x < 2000 && size.y >= 50 && size.y < 2000) toolset->box[boxindex]->boxsize = size;
readline = infile.ReadLine(); // Read next line
//tofp.WriteLine(readline);
}
infile.Close();
for(i=0; i<toolset->numtools; i++) {
toolset->box[i]->ReSize();
toolset->box[i]->Show(toolset->box[i]->visible);
}
}
void GraphBase::BaseStore(wxString path, wxString tag)
{
int i;
TextFile outfile;
wxString text, filename, filetag;
filename = "gbase-" + tag + ".dat";
//outfile.New(initpath + "/Graphs/" + filename);
outfile.New(path + "/" + filename);
for(i=0; i<numgraphs; i++) {
outfile.WriteLine(graphstore[i].StoreDat(GetTag(i)));
//outfile.WriteLine(text.Format
}
outfile.Close();
}
void Model::GHistStore()
{
wxString filename, filepath;
wxString text;
TextFile outfile;
int i;
//if(path == "") filepath = "Init";
//else filepath = path;
filepath = GetPath();
wxComboBox *gstag = mainwin->scalebox->gstag;
filename = modname + "gshist.ini";
outfile.New(filepath + "/" + filename);
for(i=gstag->GetCount()-1; i>=0; i--)
outfile.WriteLine(text.Format("graph %s", gstag->GetString(i)));
outfile.Close();
}
void ToolBox::OnClose(wxCloseEvent& event)
{
TextFile ofp;
wxString text;
ofp.Open("boxdiag.txt");
if(servant || child) {
Show(false);
ofp.WriteLine(text.Format("hide box %d, child %d", boxindex, child));
}
else if(canclose) {
ofp.WriteLine(text.Format("close box %d, mod boxes %d", boxindex, toolset->numtools));
//if(mod != NULL) mod->modtools.RemoveBox(boxindex);
//mainwin->toolset.RemoveBox(boxindex);
toolset->RemoveBox(boxindex);
Destroy();
}
ofp.Close();
}
TagBox::~TagBox()
{
int i;
wxString filename, filepath, outline, text;
TextFile opfile;
//if(diagbox) diagbox->Write(text.Format("closing tag box %s\n", name));
// Tag history
if(name == "") return;
filename = name + "tags.ini";
filepath = path + "/Tags/";
if(!wxDirExists(filepath)) wxMkdir(filepath);
opfile.New(filepath + filename);
for(i=GetCount()-1; i>=0; i--) {
outline.Printf("tag %s", GetString(i));
opfile.WriteLine(outline);
}
opfile.Close();
}
void GraphBase::BaseLoad(wxString path, wxString tag, wxTextCtrl *textbox)
{
int i, index;
TextFile infile;
wxString readline, filename, filetag;
wxString text, numstring, namestring, basestring;
wxString gtag, gname;
double numdat;
GraphDat *graph;
int version;
filename = "gbase-" + tag + ".dat";
//if(!infile.Open(initpath + "/Graphs/" + filename)) return;
if(!infile.Open(path + "/" + filename)) return;
if(textbox) textbox->AppendText(text.Format("Loading %d graphs\n", numgraphs));
i = 0;
readline = infile.ReadLine();
// Version check
//fileversion = ParseLong(&vstring, 'v');
//textbox->AppendText(text.Format("Base file version %d\n", fileversion));
//if(fileversion < version) textbox->AppendText(text.Format("Create base index\n"));
while(!readline.IsEmpty()) {
if(readline.GetChar(0) == 'v') version = ParseLong(&readline, 'v'); // check file version for backwards compatability
else version = 0;
//textbox->AppendText(text.Format("Base file version %d\n", version));
//textbox->AppendText(text.Format("Readline %s\n", readline));
if(version >= 2) { // Modern, reference by tag
gtag = ParseString(&readline, 'g');
graph = GetGraph(gtag);
if(graph) graph->LoadDat(readline, version);
}
else {
//GetGraphFromName(gname)->LoadDat(readline, version); // Should add code to chop off any tag first
//int ndex = readline.Find("name");
//textbox->AppendText(text.Format("Base file version %d\n", version));
//textbox->AppendText(text.Format("Readline %s\n", readline));
namestring = readline.Mid(readline.Find("name"));
//textbox->AppendText(text.Format("Name string %s\n", namestring));
gname = ParseString(&namestring, 'e');
gname.Replace("_", " ");
if(textbox) textbox->AppendText(text.Format("gname %s\n", gname));
graph = GetGraphFromName(gname);
if(graph) graph->LoadDat(readline, version);
}
//graphstore[i].LoadDat(readline, version);
if(infile.End()) break;
readline = infile.ReadLine();
i++;
}
infile.Close();
// Read graphbase entries
/*
while(!readline.IsEmpty()) {
graphstore[i].diagbox = mainwin->diagbox;
graphstore[i].LoadDat(readline, version);
if(infile.End()) break;
readline = infile.ReadLine();
i++;
}
infile.Close();
*/
}
void IsisMain() {
//Create a process to create the input cubes
Process p;
//Create the input cubes, matching sample/lines
Cube *inCube = p.SetInputCube ("FROM");
Cube *latCube = p.SetInputCube("LATCUB", SpatialMatch);
Cube *lonCube = p.SetInputCube("LONCUB", SpatialMatch);
//A 1x1 brick to read in the latitude and longitude DN values from
//the specified cubes
Brick latBrick(1,1,1, latCube->PixelType());
Brick lonBrick(1,1,1, lonCube->PixelType());
UserInterface &ui = Application::GetUserInterface();
//Set the sample and line increments
int sinc = (int)(inCube->Samples() * 0.10);
if(ui.WasEntered("SINC")) {
sinc = ui.GetInteger("SINC");
}
int linc = (int)(inCube->Lines() * 0.10);
if(ui.WasEntered("LINC")) {
linc = ui.GetInteger("LINC");
}
//Set the degree of the polynomial to use in our functions
int degree = ui.GetInteger("DEGREE");
//We are using a polynomial with two variables
PolynomialBivariate sampFunct(degree);
PolynomialBivariate lineFunct(degree);
//We will be solving the function using the least squares method
LeastSquares sampSol(sampFunct);
LeastSquares lineSol(lineFunct);
//Setup the variables for solving the stereographic projection
//x = cos(latitude) * sin(longitude - lon_center)
//y = cos(lat_center) * sin(latitude) - sin(lat_center) * cos(latitude) * cos(longitude - lon_center)
//Get the center lat and long from the input cubes
double lat_center = latCube->Statistics()->Average() * PI/180.0;
double lon_center = lonCube->Statistics()->Average() * PI/180.0;
/**
* Loop through lines and samples projecting the latitude and longitude at those
* points to stereographic x and y and adding these points to the LeastSquares
* matrix.
*/
for(int i = 1; i <= inCube->Lines(); i+= linc) {
for(int j = 1; j <= inCube->Samples(); j+= sinc) {
latBrick.SetBasePosition(j, i, 1);
latCube->Read(latBrick);
if(IsSpecial(latBrick.at(0))) continue;
double lat = latBrick.at(0) * PI/180.0;
lonBrick.SetBasePosition(j, i, 1);
lonCube->Read(lonBrick);
if(IsSpecial(lonBrick.at(0))) continue;
double lon = lonBrick.at(0) * PI/180.0;
//Project lat and lon to x and y using a stereographic projection
double k = 2/(1 + sin(lat_center) * sin(lat) + cos(lat_center)*cos(lat)*cos(lon - lon_center));
double x = k * cos(lat) * sin(lon - lon_center);
double y = k * (cos(lat_center) * sin(lat)) - (sin(lat_center) * cos(lat) * cos(lon - lon_center));
//Add x and y to the least squares matrix
vector<double> data;
data.push_back(x);
data.push_back(y);
sampSol.AddKnown(data, j);
lineSol.AddKnown(data, i);
//If the sample increment goes past the last sample in the line, we want to
//always read the last sample..
if(j != inCube->Samples() && j + sinc > inCube->Samples()) {
j = inCube->Samples() - sinc;
}
}
//If the line increment goes past the last line in the cube, we want to
//always read the last line..
if(i != inCube->Lines() && i + linc > inCube->Lines()) {
i = inCube->Lines() - linc;
}
}
//Solve the least squares functions using QR Decomposition
sampSol.Solve(LeastSquares::QRD);
lineSol.Solve(LeastSquares::QRD);
//If the user wants to save the residuals to a file, create a file and write
//the column titles to it.
TextFile oFile;
if(ui.WasEntered("RESIDUALS")) {
oFile.Open(ui.GetFilename("RESIDUALS"), "overwrite");
oFile.PutLine("Sample,\tLine,\tX,\tY,\tSample Error,\tLine Error\n");
}
//Gather the statistics for the residuals from the least squares solutions
Statistics sampErr;
Statistics lineErr;
vector<double> sampResiduals = sampSol.Residuals();
vector<double> lineResiduals = lineSol.Residuals();
for(int i = 0; i < (int)sampResiduals.size(); i++) {
sampErr.AddData(sampResiduals[i]);
lineErr.AddData(lineResiduals[i]);
}
//If a residuals file was specified, write the previous data, and the errors to the file.
if(ui.WasEntered("RESIDUALS")) {
for(int i = 0; i < sampSol.Rows(); i++) {
vector<double> data = sampSol.GetInput(i);
iString tmp = "";
tmp += iString(sampSol.GetExpected(i));
tmp += ",\t";
tmp += iString(lineSol.GetExpected(i));
tmp += ",\t";
tmp += iString(data[0]);
tmp += ",\t";
tmp += iString(data[1]);
tmp += ",\t";
tmp += iString(sampResiduals[i]);
tmp += ",\t";
tmp += iString(lineResiduals[i]);
oFile.PutLine(tmp + "\n");
}
}
oFile.Close();
//Records the error to the log
PvlGroup error( "Error" );
error += PvlKeyword( "Degree", degree );
error += PvlKeyword( "NumberOfPoints", (int)sampResiduals.size() );
error += PvlKeyword( "SampleMinimumError", sampErr.Minimum() );
error += PvlKeyword( "SampleAverageError", sampErr.Average() );
error += PvlKeyword( "SampleMaximumError", sampErr.Maximum() );
error += PvlKeyword( "SampleStdDeviationError", sampErr.StandardDeviation() );
error += PvlKeyword( "LineMinimumError", lineErr.Minimum() );
error += PvlKeyword( "LineAverageError", lineErr.Average() );
error += PvlKeyword( "LineMaximumError", lineErr.Maximum() );
error += PvlKeyword( "LineStdDeviationError", lineErr.StandardDeviation() );
Application::Log( error );
//Close the input cubes for cleanup
p.EndProcess();
//If we want to warp the image, then continue, otherwise return
if(!ui.GetBoolean("NOWARP")) {
//Creates the mapping group
Pvl mapFile;
mapFile.Read(ui.GetFilename("MAP"));
PvlGroup &mapGrp = mapFile.FindGroup("Mapping",Pvl::Traverse);
//Reopen the lat and long cubes
latCube = new Cube();
latCube->SetVirtualBands(ui.GetInputAttribute("LATCUB").Bands());
latCube->Open(ui.GetFilename("LATCUB"));
lonCube = new Cube();
lonCube->SetVirtualBands(ui.GetInputAttribute("LONCUB").Bands());
lonCube->Open(ui.GetFilename("LONCUB"));
PvlKeyword targetName;
//If the user entered the target name
if(ui.WasEntered("TARGET")) {
targetName = PvlKeyword("TargetName", ui.GetString("TARGET"));
}
//Else read the target name from the input cube
else {
Pvl fromFile;
fromFile.Read(ui.GetFilename("FROM"));
targetName = fromFile.FindKeyword("TargetName", Pvl::Traverse);
}
mapGrp.AddKeyword(targetName, Pvl::Replace);
PvlKeyword equRadius;
PvlKeyword polRadius;
//If the user entered the equatorial and polar radii
if(ui.WasEntered("EQURADIUS") && ui.WasEntered("POLRADIUS")) {
equRadius = PvlKeyword("EquatorialRadius", ui.GetDouble("EQURADIUS"));
polRadius = PvlKeyword("PolarRadius", ui.GetDouble("POLRADIUS"));
}
//Else read them from the pck
else {
Filename pckFile("$base/kernels/pck/pck?????.tpc");
pckFile.HighestVersion();
string pckFilename = pckFile.Expanded();
furnsh_c(pckFilename.c_str());
string target = targetName[0];
SpiceInt code;
SpiceBoolean found;
bodn2c_c (target.c_str(), &code, &found);
if (!found) {
string msg = "Could not convert Target [" + target +
"] to NAIF code";
throw Isis::iException::Message(Isis::iException::Io,msg,_FILEINFO_);
}
SpiceInt n;
SpiceDouble radii[3];
bodvar_c(code,"RADII",&n,radii);
equRadius = PvlKeyword("EquatorialRadius", radii[0] * 1000);
polRadius = PvlKeyword("PolarRadius", radii[2] * 1000);
}
mapGrp.AddKeyword(equRadius, Pvl::Replace);
mapGrp.AddKeyword(polRadius, Pvl::Replace);
//If the latitude type is not in the mapping group, copy it from the input
if(!mapGrp.HasKeyword("LatitudeType")) {
if(ui.GetString("LATTYPE") == "PLANETOCENTRIC") {
mapGrp.AddKeyword(PvlKeyword("LatitudeType","Planetocentric"), Pvl::Replace);
}
else {
mapGrp.AddKeyword(PvlKeyword("LatitudeType","Planetographic"), Pvl::Replace);
}
}
//If the longitude direction is not in the mapping group, copy it from the input
if(!mapGrp.HasKeyword("LongitudeDirection")) {
if(ui.GetString("LONDIR") == "POSITIVEEAST") {
mapGrp.AddKeyword(PvlKeyword("LongitudeDirection","PositiveEast"), Pvl::Replace);
}
else {
mapGrp.AddKeyword(PvlKeyword("LongitudeDirection","PositiveWest"), Pvl::Replace);
}
}
//If the longitude domain is not in the mapping group, assume it is 360
if(!mapGrp.HasKeyword("LongitudeDomain")) {
mapGrp.AddKeyword(PvlKeyword("LongitudeDomain","360"), Pvl::Replace);
}
//If the default range is to be computed, use the input lat/long cubes to determine the range
if(ui.GetString("DEFAULTRANGE") == "COMPUTE") {
//NOTE - When computing the min/max longitude this application does not account for the
//longitude seam if it exists. Since the min/max are calculated from the statistics of
//the input longitude cube and then converted to the mapping group's domain they may be
//invalid for cubes containing the longitude seam.
Statistics *latStats = latCube->Statistics();
Statistics *lonStats = lonCube->Statistics();
double minLat = latStats->Minimum();
double maxLat = latStats->Maximum();
bool isOcentric = ((std::string)mapGrp.FindKeyword("LatitudeType")) == "Planetocentric";
if(isOcentric) {
if(ui.GetString("LATTYPE") != "PLANETOCENTRIC") {
minLat = Projection::ToPlanetocentric(minLat, (double)equRadius, (double)polRadius);
maxLat = Projection::ToPlanetocentric(maxLat, (double)equRadius, (double)polRadius);
}
}
else {
if(ui.GetString("LATTYPE") == "PLANETOCENTRIC") {
minLat = Projection::ToPlanetographic(minLat, (double)equRadius, (double)polRadius);
maxLat = Projection::ToPlanetographic(maxLat, (double)equRadius, (double)polRadius);
}
}
int lonDomain = (int)mapGrp.FindKeyword("LongitudeDomain");
double minLon = lonDomain == 360 ? Projection::To360Domain(lonStats->Minimum()) : Projection::To180Domain(lonStats->Minimum());
double maxLon = lonDomain == 360 ? Projection::To360Domain(lonStats->Maximum()) : Projection::To180Domain(lonStats->Maximum());
bool isPosEast = ((std::string)mapGrp.FindKeyword("LongitudeDirection")) == "PositiveEast";
if(isPosEast) {
if(ui.GetString("LONDIR") != "POSITIVEEAST") {
minLon = Projection::ToPositiveEast(minLon, lonDomain);
maxLon = Projection::ToPositiveEast(maxLon, lonDomain);
}
}
else {
if(ui.GetString("LONDIR") == "POSITIVEEAST") {
minLon = Projection::ToPositiveWest(minLon, lonDomain);
maxLon = Projection::ToPositiveWest(maxLon, lonDomain);
}
}
if(minLon > maxLon) {
double temp = minLon;
minLon = maxLon;
maxLon = temp;
}
mapGrp.AddKeyword(PvlKeyword("MinimumLatitude", minLat),Pvl::Replace);
mapGrp.AddKeyword(PvlKeyword("MaximumLatitude", maxLat),Pvl::Replace);
mapGrp.AddKeyword(PvlKeyword("MinimumLongitude", minLon),Pvl::Replace);
mapGrp.AddKeyword(PvlKeyword("MaximumLongitude", maxLon),Pvl::Replace);
}
//If the user decided to enter a ground range then override
if (ui.WasEntered("MINLAT")) {
mapGrp.AddKeyword(PvlKeyword("MinimumLatitude",
ui.GetDouble("MINLAT")),Pvl::Replace);
}
if (ui.WasEntered("MAXLAT")) {
mapGrp.AddKeyword(PvlKeyword("MaximumLatitude",
ui.GetDouble("MAXLAT")),Pvl::Replace);
}
if (ui.WasEntered("MINLON")) {
mapGrp.AddKeyword(PvlKeyword("MinimumLongitude",
ui.GetDouble("MINLON")),Pvl::Replace);
}
if (ui.WasEntered("MAXLON")) {
mapGrp.AddKeyword(PvlKeyword("MaximumLongitude",
ui.GetDouble("MAXLON")),Pvl::Replace);
}
//If the pixel resolution is to be computed, compute the pixels/degree from the input
if (ui.GetString("PIXRES") == "COMPUTE") {
latBrick.SetBasePosition(1,1,1);
latCube->Read(latBrick);
lonBrick.SetBasePosition(1,1,1);
lonCube->Read(lonBrick);
//Read the lat and long at the upper left corner
double a = latBrick.at(0) * PI/180.0;
double c = lonBrick.at(0) * PI/180.0;
latBrick.SetBasePosition(latCube->Samples(),latCube->Lines(),1);
latCube->Read(latBrick);
lonBrick.SetBasePosition(lonCube->Samples(),lonCube->Lines(),1);
lonCube->Read(lonBrick);
//Read the lat and long at the lower right corner
double b = latBrick.at(0) * PI/180.0;
double d = lonBrick.at(0) * PI/180.0;
//Determine the angle between the two points
double angle = acos(cos(a) * cos(b) * cos(c - d) + sin(a) * sin(b));
//double angle = acos((cos(a1) * cos(b1) * cos(b2)) + (cos(a1) * sin(b1) * cos(a2) * sin(b2)) + (sin(a1) * sin(a2)));
angle *= 180/PI;
//Determine the number of pixels between the two points
double pixels = sqrt(pow(latCube->Samples() -1.0, 2.0) + pow(latCube->Lines() -1.0, 2.0));
//Add the scale in pixels/degree to the mapping group
mapGrp.AddKeyword(PvlKeyword("Scale",
pixels/angle, "pixels/degree"),
Pvl::Replace);
if (mapGrp.HasKeyword("PixelResolution")) {
mapGrp.DeleteKeyword("PixelResolution");
}
}
// If the user decided to enter a resolution then override
if (ui.GetString("PIXRES") == "MPP") {
mapGrp.AddKeyword(PvlKeyword("PixelResolution",
ui.GetDouble("RESOLUTION"), "meters/pixel"),
Pvl::Replace);
if (mapGrp.HasKeyword("Scale")) {
mapGrp.DeleteKeyword("Scale");
}
}
else if (ui.GetString("PIXRES") == "PPD") {
mapGrp.AddKeyword(PvlKeyword("Scale",
ui.GetDouble("RESOLUTION"), "pixels/degree"),
Pvl::Replace);
if (mapGrp.HasKeyword("PixelResolution")) {
mapGrp.DeleteKeyword("PixelResolution");
}
}
//Create a projection using the map file we created
int samples,lines;
Projection *outmap = ProjectionFactory::CreateForCube(mapFile,samples,lines,false);
//Write the map file to the log
Application::GuiLog(mapGrp);
//Create a process rubber sheet
ProcessRubberSheet r;
//Set the input cube
inCube = r.SetInputCube("FROM");
double tolerance = ui.GetDouble("TOLERANCE") * outmap->Resolution();
//Create a new transform object
Transform *transform = new nocam2map (sampSol, lineSol, outmap,
latCube, lonCube,
ui.GetString("LATTYPE") == "PLANETOCENTRIC",
ui.GetString("LONDIR") == "POSITIVEEAST",
tolerance, ui.GetInteger("ITERATIONS"),
inCube->Samples(), inCube->Lines(),
samples, lines);
//Allocate the output cube and add the mapping labels
Cube *oCube = r.SetOutputCube ("TO", transform->OutputSamples(),
transform->OutputLines(),
inCube->Bands());
oCube->PutGroup(mapGrp);
//Determine which interpolation to use
Interpolator *interp = NULL;
if (ui.GetString("INTERP") == "NEARESTNEIGHBOR") {
interp = new Interpolator(Interpolator::NearestNeighborType);
}
else if (ui.GetString("INTERP") == "BILINEAR") {
interp = new Interpolator(Interpolator::BiLinearType);
}
else if (ui.GetString("INTERP") == "CUBICCONVOLUTION") {
interp = new Interpolator(Interpolator::CubicConvolutionType);
}
//Warp the cube
r.StartProcess(*transform, *interp);
r.EndProcess();
// add mapping to print.prt
PvlGroup mapping = outmap->Mapping();
Application::Log(mapping);
//Clean up
delete latCube;
delete lonCube;
delete outmap;
delete transform;
delete interp;
}
}
