@Override protected String getGraphicLabel() { StringBuilder sb = new StringBuilder(); if (this.mustShowHostileIndicator()) { sb.append(SymbologyConstants.HOSTILE_ENEMY); sb.append("\n"); } return sb.toString(); }
/** * Indicates the text of this label. * * @return The label's text. */ public String getText() { if (this.lines != null) { StringBuilder sb = new StringBuilder(); for (int i = 0; i < this.lines.length - 1; i++) { sb.append(this.lines[i]).append("\n"); } sb.append(this.lines[this.lines.length - 1]); return sb.toString(); } return null; }
@SuppressWarnings({"StringEquality"}) public void characters(char ch[], int start, int length) { if (!this.inBeginEndPair) return; // Top of QName stack is an interned string, // so we can use pointer comparison. String internedTopQName = this.internedQNameStack.getFirst(); StringBuilder sb = null; if (TOPP_LATITUDE == internedTopQName) sb = this.latBuffer; else if (TOPP_LONGITUDE == internedTopQName) sb = this.lonBuffer; else if (TOPP_FULL_NAME_ND == internedTopQName) sb = this.textArray; if (sb != null) sb.append(ch, start, length); }
/** * Converts tile XY coordinates into a QuadKey at a specified level of detail. * * @param tileX Tile X coordinate * @param tileY Tile X coordinate * @param levelOfDetail Level of detail, from 1 (lowest detail) to 23 (highest detail) * @return A string containing the QuadKey */ public static String TileXYToQuadKey(int tileX, int tileY, int levelOfDetail) { StringBuilder quadKey = new StringBuilder(); for (int i = levelOfDetail; i > 0; i--) { char digit = '0'; int mask = 1 << (i - 1); if ((tileX & mask) != 0) { digit++; } if ((tileY & mask) != 0) { digit++; digit++; } quadKey.append(digit); } return quadKey.toString(); }
@Override protected ByteBuffer handleXMLContent() throws IOException { // Check for an exception report String s = WWIO.byteBufferToString(this.getRetriever().getBuffer(), 1024, null); if (s.contains("<ExceptionReport>")) { // TODO: Parse the xml and include only the message text in the log message. StringBuilder sb = new StringBuilder(this.getRetriever().getName()); sb.append("\n"); sb.append(WWIO.byteBufferToString(this.getRetriever().getBuffer(), 2048, null)); Logging.logger().warning(sb.toString()); return null; } this.saveBuffer(); return this.getRetriever().getBuffer(); }
protected double parseDouble(StringBuilder sb) { double value = 0; try { value = Double.parseDouble(sb.toString()); } catch (NumberFormatException e) { Logging.logger() .log( Level.FINE, Logging.getMessage("layers.PlaceNameLayer.ExceptionAttemptingToReadFile", ""), e); } return value; }
@SuppressWarnings({"StringConcatenationInsideStringBufferAppend"}) private static String formatMessage(Exception e, Object message, Object[] args) { StringBuilder sb = new StringBuilder(); if (message != null) sb.append(message.toString()); if (e != null) sb.append((sb.length() > 0 ? "\n" : "") + e.toString()); for (Object o : args) { if (o != null) sb.append((sb.length() > 0 ? "\n" : "") + o.toString()); } return sb.toString(); }
protected String formatMeasurements(Position pos) { StringBuilder sb = new StringBuilder(); /* //sb.append(this.unitsFormat.areaNL(this.getLabel(AREA_LABEL), this.getArea())); sb.append(this.unitsFormat.lengthNL(this.getLabel(PERIMETER_LABEL), this.getLength())); */ // sb.append(this.unitsFormat.lengthNL(this.getLabel(WIDTH_LABEL), // this.shape.getEastWestRadius() * 2)); // sb.append(this.unitsFormat.lengthNL(this.getLabel(LENGTH_LABEL), // this.shape.getNorthSouthRadius() * 2)); // sb.append(this.unitsFormat.lengthNL(this.getLabel(HEIGHT_LABEL), // this.shape.getVerticalRadius() * 2)); // sb.append(this.unitsFormat.angleNL(this.getLabel(HEADING_LABEL), this.shape.getHeading())); // if "activeControlPoint" is in fact one of the control points if (!this.arePositionsRedundant(pos, this.polygon.getReferencePosition())) { sb.append(this.unitsFormat.angleNL(this.getLabel(LATITUDE_LABEL), pos.getLatitude())); sb.append(this.unitsFormat.angleNL(this.getLabel(LONGITUDE_LABEL), pos.getLongitude())); sb.append(this.unitsFormat.lengthNL(this.getLabel(ALTITUDE_LABEL), pos.getAltitude())); } // if "activeControlPoint" is the shape itself if (this.polygon.getReferencePosition() != null) { sb.append( this.unitsFormat.angleNL( this.getLabel(CENTER_LATITUDE_LABEL), this.polygon.getReferencePosition().getLatitude())); sb.append( this.unitsFormat.angleNL( this.getLabel(CENTER_LONGITUDE_LABEL), this.polygon.getReferencePosition().getLongitude())); sb.append( this.unitsFormat.lengthNL( this.getLabel(CENTER_ALTITUDE_LABEL), this.polygon.getReferencePosition().getAltitude())); } return sb.toString(); }
public String toString() { StringBuilder sb = new StringBuilder(); for (int i = 0; i < 5; i++) { sb.append("level "); sb.append(String.valueOf(i)); sb.append(" : "); UTMExtremes levelExtremes = this.extremes[i]; if (levelExtremes.minX < levelExtremes.maxX || !(levelExtremes.maxYHemisphere.equals(AVKey.SOUTH) && levelExtremes.maxY == 0)) { sb.append(levelExtremes.minX); sb.append(", "); sb.append(levelExtremes.maxX); sb.append(" - "); sb.append(levelExtremes.minY); sb.append(AVKey.NORTH.equals(levelExtremes.minYHemisphere) ? "N" : "S"); sb.append(", "); sb.append(levelExtremes.maxY); sb.append(AVKey.NORTH.equals(levelExtremes.maxYHemisphere) ? "N" : "S"); } else { sb.append("empty"); } sb.append("\n"); } return sb.toString(); }
public static String getNextName(String base) { StringBuilder sb = new StringBuilder(); sb.append(base); sb.append(nextEntryNumber++); return sb.toString(); }