public GridUI( PreferencesExt pstore, RootPaneContainer root, FileManager fileChooser, int defaultHeight) { // this.topUI = topUI; this.store = pstore; this.fileChooser = fileChooser; try { choosers = new ArrayList(); fieldChooser = new SuperComboBox(root, "field", true, null); choosers.add(new Chooser("field", fieldChooser, true)); levelChooser = new SuperComboBox(root, "level", false, null); choosers.add(new Chooser("level", levelChooser, false)); timeChooser = new SuperComboBox(root, "time", false, null); choosers.add(new Chooser("time", timeChooser, false)); ensembleChooser = new SuperComboBox(root, "ensemble", false, null); choosers.add(new Chooser("ensemble", ensembleChooser, false)); runtimeChooser = new SuperComboBox(root, "runtime", false, null); choosers.add(new Chooser("runtime", runtimeChooser, false)); makeActionsDataset(); makeActionsToolbars(); gridTable = new GridTable("field"); gtWindow = new IndependentWindow( "Grid Table Information", BAMutil.getImage("GDVs"), gridTable.getPanel()); PreferencesExt dsNode = (PreferencesExt) pstore.node("DatasetTable"); dsTable = new GeoGridTable(dsNode, true); dsDialog = dsTable.makeDialog(root, "NetcdfDataset Info", false); // dsDialog.setIconImage( BAMutil.getImage( "GDVs")); Rectangle bounds = (Rectangle) dsNode.getBean("DialogBounds", new Rectangle(50, 50, 800, 450)); dsDialog.setBounds(bounds); controller = new GridController(this, store); makeUI(defaultHeight); controller.finishInit(); // other components geotiffFileChooser = new FileManager(parent); geotiffFileChooser.setCurrentDirectory(store.get(GEOTIFF_FILECHOOSER_DEFAULTDIR, ".")); } catch (Exception e) { System.out.println("UI creation failed"); e.printStackTrace(); } }
private void showValuesAsDates(CoordinateAxis axis) { String units = axis.getUnitsString(); String cal = getCalendarAttribute(axis); CalendarDateUnit cdu = CalendarDateUnit.of(cal, units); try { infoTA.appendLine(units); infoTA.appendLine(NCdumpW.printVariableData(axis, null)); if (axis.getDataType().isNumeric()) { if (axis instanceof CoordinateAxis2D) { showDates2D((CoordinateAxis2D) axis, cdu); } else if (axis instanceof CoordinateAxis1D) { // 1D showDates1D((CoordinateAxis1D) axis, cdu); } else { // > 2D Array data = axis.read(); IndexIterator ii = data.getIndexIterator(); while (ii.hasNext()) { double val = ii.getDoubleNext(); infoTA.appendLine(makeCalendarDateStringOrMissing(cdu, val)); } } } else { // must be iso dates Array data = axis.read(); Formatter f = new Formatter(); if (data instanceof ArrayChar) { ArrayChar dataS = (ArrayChar) data; ArrayChar.StringIterator iter = dataS.getStringIterator(); while (iter.hasNext()) f.format(" %s%n", iter.next()); infoTA.appendLine(f.toString()); } else if (data instanceof ArrayObject) { IndexIterator iter = data.getIndexIterator(); while (iter.hasNext()) f.format(" %s%n", iter.next()); infoTA.appendLine(f.toString()); } } } catch (Exception ex) { ex.printStackTrace(); infoTA.appendLine(ex.getMessage()); } }
private void showValueDiffs(CoordinateAxis axis) { if (!axis.isNumeric()) return; try { if (axis instanceof CoordinateAxis1D) { CoordinateAxis1D axis1D = (CoordinateAxis1D) axis; double[] mids = axis1D.getCoordValues(); double[] diffs = new double[mids.length]; for (int i = 0; i < mids.length - 1; i++) diffs[i] = mids[i + 1] - mids[i]; printArrays("midpoint differences", mids, diffs); } else if (axis instanceof CoordinateAxis2D) { CoordinateAxis2D axis2D = (CoordinateAxis2D) axis; ArrayDouble.D2 mids = axis2D.getCoordValuesArray(); int[] shape = mids.getShape(); ArrayDouble.D2 diffx = (ArrayDouble.D2) Array.factory(DataType.DOUBLE, new int[] {shape[0], shape[1] - 1}); for (int j = 0; j < shape[0]; j++) { for (int i = 0; i < shape[1] - 1; i++) { double diff = mids.get(j, i + 1) - mids.get(j, i); diffx.set(j, i, diff); } } infoTA.appendLine(NCdumpW.toString(diffx, "diff in x", null)); ArrayDouble.D2 diffy = (ArrayDouble.D2) Array.factory(DataType.DOUBLE, new int[] {shape[0] - 1, shape[1]}); for (int j = 0; j < shape[0] - 1; j++) { for (int i = 0; i < shape[1]; i++) { double diff = mids.get(j + 1, i) - mids.get(j, i); diffy.set(j, i, diff); } } infoTA.appendLine("\n\n\n"); infoTA.appendLine(NCdumpW.toString(diffy, "diff in y", null)); } } catch (Exception e1) { e1.printStackTrace(); infoTA.appendLine(e1.getMessage()); } }
/** * This reads an arbitrary data slice, returning the data in canonical order (rt-e-t-z-y-x). If * any dimension does not exist, ignore it. * * @param rt if < 0, get all of runtime dim; if valid index, fix slice to that value. * @param e if < 0, get all of ensemble dim; if valid index, fix slice to that value. * @param t if < 0, get all of time dim; if valid index, fix slice to that value. * @param z if < 0, get all of z dim; if valid index, fix slice to that value. * @param y if < 0, get all of y dim; if valid index, fix slice to that value. * @param x if < 0, get all of x dim; if valid index, fix slice to that value. * @return data[rt,e,t,z,y,x], eliminating missing or fixed dimension. */ public Array readDataSlice(int rt, int e, int t, int z, int y, int x) throws java.io.IOException { int rank = vs.getRank(); int[] start = new int[rank]; int[] shape = new int[rank]; for (int i = 0; i < rank; i++) { start[i] = 0; shape[i] = 1; } Dimension xdim = getXDimension(); Dimension ydim = getYDimension(); Dimension zdim = getZDimension(); Dimension tdim = getTimeDimension(); Dimension edim = getEnsembleDimension(); Dimension rtdim = getRunTimeDimension(); // construct the shape of the data volume to be read if (rtdim != null) { if ((rt >= 0) && (rt < rtdim.getLength())) start[rtDimOrgIndex] = rt; // fix rt else { shape[rtDimOrgIndex] = rtdim.getLength(); // all of rt } } if (edim != null) { if ((e >= 0) && (e < edim.getLength())) start[eDimOrgIndex] = e; // fix e else { shape[eDimOrgIndex] = edim.getLength(); // all of e } } if (tdim != null) { if ((t >= 0) && (t < tdim.getLength())) start[tDimOrgIndex] = t; // fix t else { shape[tDimOrgIndex] = tdim.getLength(); // all of t } } if (zdim != null) { if ((z >= 0) && (z < zdim.getLength())) start[zDimOrgIndex] = z; // fix z else { shape[zDimOrgIndex] = zdim.getLength(); // all of z } } if (ydim != null) { if ((y >= 0) && (y < ydim.getLength())) start[yDimOrgIndex] = y; // fix y else { shape[yDimOrgIndex] = ydim.getLength(); // all of y } } if (xdim != null) { if ((x >= 0) && (x < xdim.getLength())) // all of x start[xDimOrgIndex] = x; // fix x else { shape[xDimOrgIndex] = xdim.getLength(); // all of x } } if (debugArrayShape) { System.out.println("read shape from org variable = "); for (int i = 0; i < rank; i++) System.out.println( " start = " + start[i] + " shape = " + shape[i] + " name = " + vs.getDimension(i).getName()); } // read it Array dataVolume; try { dataVolume = vs.read(start, shape); } catch (Exception ex) { log.error( "GeoGrid.getdataSlice() on dataset " + getFullName() + " " + dataset.getLocation(), ex); throw new java.io.IOException(ex.getMessage()); } // LOOK: the real problem is the lack of named dimensions in the Array object // figure out correct permutation for canonical ordering for permute List<Dimension> oldDims = new ArrayList<Dimension>(vs.getDimensions()); int[] permuteIndex = new int[dataVolume.getRank()]; int count = 0; if (oldDims.contains(rtdim)) permuteIndex[count++] = oldDims.indexOf(rtdim); if (oldDims.contains(edim)) permuteIndex[count++] = oldDims.indexOf(edim); if (oldDims.contains(tdim)) permuteIndex[count++] = oldDims.indexOf(tdim); if (oldDims.contains(zdim)) permuteIndex[count++] = oldDims.indexOf(zdim); if (oldDims.contains(ydim)) permuteIndex[count++] = oldDims.indexOf(ydim); if (oldDims.contains(xdim)) permuteIndex[count] = oldDims.indexOf(xdim); if (debugArrayShape) { System.out.println("oldDims = "); for (Dimension oldDim : oldDims) System.out.println(" oldDim = " + oldDim.getName()); System.out.println("permute dims = "); for (int aPermuteIndex : permuteIndex) System.out.println(" oldDim index = " + aPermuteIndex); } // check to see if we need to permute boolean needPermute = false; for (int i = 0; i < permuteIndex.length; i++) { if (i != permuteIndex[i]) needPermute = true; } // permute to the order rt,e,t,z,y,x if (needPermute) dataVolume = dataVolume.permute(permuteIndex); // eliminate fixed dimensions, but not all dimensions of length 1. count = 0; if (rtdim != null) { if (rt >= 0) dataVolume = dataVolume.reduce(count); else count++; } if (edim != null) { if (e >= 0) dataVolume = dataVolume.reduce(count); else count++; } if (tdim != null) { if (t >= 0) dataVolume = dataVolume.reduce(count); else count++; } if (zdim != null) { if (z >= 0) dataVolume = dataVolume.reduce(count); else count++; } if (ydim != null) { if (y >= 0) dataVolume = dataVolume.reduce(count); else count++; } if (xdim != null) { if (x >= 0) dataVolume = dataVolume.reduce(count); } return dataVolume; }