/**
* Reads a property list (key and element pairs) from the input stream. The stream is assumed to
* be using the ISO 8859-1 character encoding.
*/
public synchronized void load(InputStream is) throws IOException {
BufferedReader r;
r = new BufferedReader(new InputStreamReader(is, PREFERENCE_ENCODING));
DocumentFactory df =
new SAXDocumentFactory(
GenericDOMImplementation.getDOMImplementation(), xmlParserClassName);
Document doc =
df.createDocument("http://xml.apache.org/batik/preferences", "preferences", null, r);
Element elt = doc.getDocumentElement();
for (Node n = elt.getFirstChild(); n != null; n = n.getNextSibling()) {
if (n.getNodeType() == Node.ELEMENT_NODE) {
if (n.getNodeName().equals("property")) {
String name = ((Element) n).getAttributeNS(null, "name");
StringBuffer cont = new StringBuffer();
for (Node c = n.getFirstChild(); c != null; c = c.getNextSibling()) {
if (c.getNodeType() == Node.TEXT_NODE) {
cont.append(c.getNodeValue());
} else {
break;
}
}
String val = cont.toString();
put(name, val);
}
}
}
}
public GraphicSet importSetFromFile(File inputFile, List<String> warnings)
throws ImportException {
Writer out = null;
try {
// Get a DOMImplementation
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
// Create an instance of org.w3c.dom.Document
Document document = domImpl.createDocument(null, "svg", null);
// Create an instance of the SVG Generator
final SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
svgGenerator.setTransform(new AffineTransform());
// Open input file
PSInputFile in = new PSInputFile(inputFile.getAbsolutePath());
Rectangle2D bb = this.getBoundingBox(inputFile);
svgGenerator.setTransform(AffineTransform.getTranslateInstance(-bb.getX(), -bb.getY()));
Dimension d = new Dimension((int) bb.getWidth(), (int) bb.getHeight());
// Create processor and associate to input and output file
Processor processor = new Processor(svgGenerator, d, false);
processor.setData(in);
// Process
processor.process();
File tmp = File.createTempFile("temp", "svg");
tmp.deleteOnExit();
svgGenerator.stream(new FileWriter(tmp));
GraphicSet result = new SVGImporter().importSetFromFile(tmp, warnings);
// Assume the EPS has been created with 72DPI (from Inkscape)
double px2mm = Util.inch2mm(1d / 72d);
result.setBasicTransform(AffineTransform.getScaleInstance(px2mm, px2mm));
return result;
} catch (Exception ex) {
Logger.getLogger(EPSImporter.class.getName()).log(Level.SEVERE, null, ex);
throw new ImportException(ex);
}
}
private static void exportScreenshotSVG(
Component target, File selectedFile, boolean paintOffscreen) throws IOException {
String format = "svg";
selectedFile = fixFileExt(selectedFile, new String[] {format}, format);
// Create an instance of org.w3c.dom.Document.
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
String svgNS = "http://www.w3.org/2000/svg";
Document document = domImpl.createDocument(svgNS, format, null);
// Write image data into document
SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
choosePaint(target, svgGenerator, paintOffscreen);
Writer out = null;
try {
// Finally, stream out SVG to the standard output using
// UTF-8 encoding.
boolean useCSS = true; // we want to use CSS style attributes
out = new BufferedWriter(new OutputStreamWriter(new FileOutputStream(selectedFile), "UTF-8"));
svgGenerator.stream(out, useCSS);
} finally {
if (out != null)
try {
out.close();
} catch (IOException e) {
log.error("Error closing svg file", e);
}
}
}
/** Builds an <code>SVGGraphics2D</code> with a default configuration. */
protected SVGGraphics2D buildSVGGraphics2D() {
// CSSDocumentHandler.setParserClassName(CSS_PARSER_CLASS_NAME);
DOMImplementation impl = GenericDOMImplementation.getDOMImplementation();
String namespaceURI = SVGConstants.SVG_NAMESPACE_URI;
Document domFactory = impl.createDocument(namespaceURI, SVG_SVG_TAG, null);
SVGGeneratorContext ctx = SVGGeneratorContext.createDefault(domFactory);
GraphicContextDefaults defaults = new GraphicContextDefaults();
defaults.font = new Font("Arial", Font.PLAIN, 12);
ctx.setGraphicContextDefaults(defaults);
ctx.setPrecision(12);
return new SVGGraphics2D(ctx, false);
}
public static void exportSVGImage(PrintWriter pr, Component c) throws IOException {
// Get a DOMImplementation.
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
// Create an instance of org.w3c.dom.Document.
String svgNS = "http://www.w3.org/2000/svg";
Document document = domImpl.createDocument(svgNS, "svg", null);
// Create an instance of the SVG Generator.
SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
c.paint(svgGenerator);
// Finally, stream out SVG to the standard output using
// UTF-8 encoding.
svgGenerator.stream(pr, false);
}
/**
* Exports a JFreeChart to a SVG file.
*
* @param chart JFreeChart to export
* @param bounds the dimensions of the viewport
* @param svgFile the output file.
* @throws IOException if writing the svgFile fails.
*/
public static byte[] convertChartToSVG(JFreeChart chart, int width, int height) {
// Get a DOMImplementation and create an XML document
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
Document document = domImpl.createDocument(null, "svg", null);
// Create an instance of the SVG Generator
SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
// draw the chart in the SVG generator
chart.draw(svgGenerator, new Rectangle(width, height));
// Write svg file
try {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
Writer out = new OutputStreamWriter(baos, "UTF-8");
svgGenerator.stream(out, true /* use css */);
out.flush();
out.close();
return baos.toByteArray();
} catch (Exception e) {
throw new RuntimeException(e);
}
}
/**
* Do request.
*
* @param request the request
* @param response the response
* @throws ServletException the servlet exception
* @throws IOException Signals that an I/O exception has occurred.
*/
private void doRequest(HttpServletRequest request, HttpServletResponse response)
throws ServletException, IOException {
String appId = request.getParameter("appId");
String versId = request.getParameter("versId");
// Build the rest client
ClientResponse restResponse;
MultivaluedMap<String, String> queryParams;
String isserver = (String) getServletContext().getAttribute("isserver");
URI uri = UriBuilder.fromUri(isserver + "/rest/").build();
Client client = Client.create();
WebResource service = client.resource(uri);
// Issue the request
/*
restResponse = service.path("application/"+appId+"/"+versId+"/deployment").accept(MediaType.APPLICATION_JSON).get(ClientResponse.class);
String deployments = restResponse.getEntity(String.class);
System.out.println(deployments);
*/
// Issue the request
restResponse =
service
.path("application/" + appId + "/" + versId + "/topology")
.accept(MediaType.APPLICATION_JSON)
.get(ClientResponse.class);
String descStr = restResponse.getEntity(String.class);
JSONObject temp = new JSONObject(descStr);
String desc = temp.getString("versTopology");
System.out.println(desc);
/*
// Build report
JSONObject json = new JSONObject();
json.put("desc", new JSONObject(desc));
json.put("depl", new JSONArray(deployments));
response.setContentType("application/json");
response.getWriter().write(json.toString());
*/
// Get a DOMImplementation.
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
// Create an instance of org.w3c.dom.Document.
String svgNS = "http://www.w3.org/2000/svg";
Document document = domImpl.createDocument(svgNS, "svg", null);
// Create an instance of the SVG Generator.
SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
// Ask the test to render into the SVG Graphics2D implementation.
try {
// TODO
// desc is in xml ? can be done with json
this.paint(svgGenerator, desc);
} catch (Exception e) {
e.printStackTrace();
}
// Finally, stream out SVG to the standard output using
// UTF-8 encoding.
boolean useCSS = true; // we want to use CSS style attributes
OutputStream outStream = response.getOutputStream();
// Writer out = new OutputStreamWriter(System.out, "UTF-8");
Writer out = new OutputStreamWriter(outStream, "UTF-8");
svgGenerator.stream(out, useCSS);
response.setContentType("application/xml");
// response.getWriter().write(svgGenerator.toString());
// response.getWriter().write(outStream.toString());
}
/**
* Draws a complex graph
*
* @param nonProteinGraph whether the graph is a non-protein graph and should be drawn black and
* white
* @param cg the complex graph
* @param molInfoForChains info mapping chain IDs (like "A") to their macromolecule (MOL_ID in PDB
* file, e.g., "1"). Give an empty one if you dont know
* @return a draw result
*/
private static DrawResult drawChainLevelComplexGraphG2D(
Boolean nonProteinGraph, ComplexGraph cg, Map<String, String> molInfoForChains) {
Integer numVerts = cg.getVertices().size();
Boolean bw = nonProteinGraph;
// All these values are in pixels
// page setup
PageLayout pl = new PageLayout(numVerts);
Position2D vertStart = pl.getVertStart();
// ------------------------- Prepare stuff -------------------------
// TYPE_INT_ARGB specifies the image format: 8-bit RGBA packed into integer pixels
// BufferedImage bi = new BufferedImage(pl.getPageWidth(), pl.getPageHeight(),
// BufferedImage.TYPE_INT_ARGB);
SVGGraphics2D ig2;
// if(Settings.get("plcc_S_img_output_format").equals("SVG")) {
// Apache Batik SVG library, using W3C DOM tree implementation
// Get a DOMImplementation.
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
// Create an instance of org.w3c.dom.Document.
String svgNS = "http://www.w3.org/2000/svg";
Document document = domImpl.createDocument(svgNS, "svg", null);
// Create an instance of the SVG Generator.
ig2 = new SVGGraphics2D(document);
// ig2.getRoot(document.getDocumentElement());
// }
// else {
// ig2 = (SVGGraphics2D)bi.createGraphics();
// }
ig2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
// make background white
ig2.setPaint(Color.WHITE);
ig2.fillRect(0, 0, pl.getPageWidth(), pl.getPageHeight());
ig2.setPaint(Color.BLACK);
// pl.drawAreaOutlines(ig2);
// prepare font
Font font = pl.getStandardFont();
ig2.setFont(font);
FontMetrics fontMetrics = ig2.getFontMetrics();
// ------------------------- Draw header -------------------------
// check width of header string
String proteinHeader =
"The chain complex graph of PDB entry "
+ cg.pdbid
+ " [V="
+ cg.getVertices().size()
+ ", E="
+ cg.getEdges().size()
+ "].";
String addInfo =
"(Interchain contact threshold is set to "
+ Main.chainComplexGraphContactThreshold
+ ". Neglected edges: "
+ cg.neglectedEdges
+ ")";
// Integer stringWidth = fontMetrics.stringWidth(proteinHeader); // Should be around 300px
// for the text above
Integer stringHeight = fontMetrics.getAscent();
String chainName; // the SSE number in the primary structure, N to C terminus
String chainNumber; // the SSE number in this graph, 1..(this.size)
if (Settings.getBoolean("plcc_B_graphimg_header")) {
ig2.drawString(proteinHeader, pl.headerStart.x, pl.headerStart.y);
// i2.drawString(addInfo, pl.headerStart.x, pl.headerStart.y + pl.textLineHeight);
}
// ------------------------- Draw the graph -------------------------
// Draw the edges as arcs
java.awt.Shape shape;
Arc2D.Double arc;
ig2.setStroke(new BasicStroke(2)); // thin edges
Integer edgeType,
leftVert,
rightVert,
leftVertPosX,
rightVertPosX,
arcWidth,
arcHeight,
arcTopLeftX,
arcTopLeftY,
spacerX,
spacerY,
iChainID,
jChainID;
Integer labelPosX, labelPosY;
String edges = cg.getEdges().toString();
for (Integer i = 0; i < cg.getVertices().size(); i++) {
for (Integer j = i + 1; j < cg.getVertices().size(); j++) {
String tmp = "(" + i + ", " + j + ")";
// If there is a contact...
if (edges.indexOf(tmp) != -1) {
Integer cInteractions = cg.numChainInteractions[i][j];
// determine edge type and the resulting color
// edgeType = cg.getContactType(i, j);
ig2.setPaint(Color.RED);
if (bw) {
ig2.setPaint(Color.LIGHT_GRAY);
} // for non-protein graphs
// ----- complex graph specific stuff -----
// determine chain of SSEs
iChainID = -1;
jChainID = -1;
/*
for(Integer x = 0; x < cg.chainEnd.size(); x++){
if(i < cg.chainEnd.get(x)) {iChainID = x; break;}
}
for(Integer x = 0; x < cg.chainEnd.size(); x++){
if(j < cg.chainEnd.get(x)) {jChainID = x; break;}
}
if (!Objects.equals(iChainID, jChainID)) {ig2.setPaint(Color.PINK);}
*/
// ----- end complex graph specific stuff -----
// determine the center of the arc and the width of its rectangle bounding box
if (i < j) {
leftVert = i;
rightVert = j;
} else {
leftVert = j;
rightVert = i;
}
leftVertPosX = pl.getVertStart().x + (leftVert * pl.vertDist);
rightVertPosX = pl.getVertStart().x + (rightVert * pl.vertDist);
arcWidth = rightVertPosX - leftVertPosX;
arcHeight = arcWidth / 2;
arcTopLeftX = leftVertPosX;
arcTopLeftY = pl.getVertStart().y - arcHeight / 2;
spacerX = pl.vertRadius;
spacerY = 0;
// draw it
arc =
new Arc2D.Double(
arcTopLeftX + spacerX,
arcTopLeftY + spacerY,
arcWidth,
arcHeight,
0,
180,
Arc2D.OPEN);
shape = ig2.getStroke().createStrokedShape(arc);
ig2.fill(shape);
}
}
}
// draw arc labels on top to prevent unreadability
for (Integer i = 0; i < cg.getVertices().size(); i++) {
for (Integer j = i + 1; j < cg.getVertices().size(); j++) {
String tmp = "(" + i + ", " + j + ")";
// If there is a contact...
if (edges.indexOf(tmp) != -1) {
iChainID = -1;
jChainID = -1;
if (i < j) {
leftVert = i;
rightVert = j;
} else {
leftVert = j;
rightVert = i;
}
// TODO: is it clever to calculate everything again?
leftVertPosX = pl.getVertStart().x + (leftVert * pl.vertDist);
rightVertPosX = pl.getVertStart().x + (rightVert * pl.vertDist);
arcWidth = rightVertPosX - leftVertPosX;
arcHeight = arcWidth / 2;
arcTopLeftX = leftVertPosX;
arcTopLeftY = pl.getVertStart().y - arcHeight / 2;
spacerX = pl.vertRadius;
spacerY = 0;
// calculate label positions
labelPosX = leftVertPosX + arcWidth / 2 + 2;
labelPosY = arcTopLeftY + spacerY - 5;
// draw labels on arcs
Font labelfont =
new Font(
Settings.get("plcc_S_img_default_font"),
Font.PLAIN,
Settings.getInteger("plcc_I_img_default_font_size") - 5);
ig2.setFont(labelfont);
ig2.setPaint(Color.BLACK);
Integer cInteractions = cg.numChainInteractions[i][j];
if (cInteractions != null) {
ig2.drawString(cInteractions.toString(), labelPosX, labelPosY + (stringHeight / 4));
}
}
}
}
ig2.setFont(font);
// Draw the vertices as circles
Ellipse2D.Double circle;
Rectangle2D.Double rect;
ig2.setStroke(new BasicStroke(2));
boolean colorSet = false;
cg.savedVertexColors = new float[cg.getVertices().size()];
for (Integer i = 0; i < cg.getVertices().size(); i++) {
// set standard color
ig2.setPaint(Color.GRAY);
if (bw) {
ig2.setPaint(Color.GRAY);
} // for non-protein graphs
// set hue, saturation, brighness
float h = (float) 0.5;
float s = (float) 1.0; // change this for saturation (higher = more saturated)
float b = (float) 0.8; // change this for brightness (0.0 -> Dark/Black)
for (Integer j = 0; j < cg.getVertices().size(); j++) {
// if chain has an homologue partner...
if (cg.homologueChains[i][j] != null) {
if (cg.homologueChains[i][j] == 1) {
// if homologue partner wasn't colored before..
if (cg.savedVertexColors[i] == 0) {
h = cg.getUniqueColor(numVerts); // get unique color
for (int y = j; y < cg.homologueChains.length; y++) {
if (cg.homologueChains[i][y] == 1) {
cg.savedVertexColors[i] = h;
cg.savedVertexColors[y] = h;
}
}
colorSet = true;
} else {
h = cg.savedVertexColors[i];
}
ig2.setPaint(Color.getHSBColor(h, s, b));
colorSet = true;
}
}
}
// if no homologue chains occur
if (!colorSet) {
h = cg.getUniqueColor(numVerts); // get unique color
cg.savedVertexColors[i] = h;
ig2.setPaint(Color.getHSBColor(h, s, b));
}
colorSet = false;
// pick color depending on SSE type
// draw a shape based on SSE type
rect =
new Rectangle2D.Double(
vertStart.x + (i * pl.vertDist),
vertStart.y,
pl.getVertDiameter(),
pl.getVertDiameter());
ig2.fill(rect);
}
// Draw the markers for the N-terminus and C-terminus if there are any vertices in this graph
ig2.setStroke(new BasicStroke(2));
ig2.setPaint(Color.BLACK);
/*
if( ! bw) {
if(cg.getVertices().size() > 0) {
ig2.drawString("N", vertStart.x - pl.vertDist, vertStart.y + 20); // N terminus label
ig2.drawString("C", vertStart.x + cg.getVertices().size() * pl.vertDist, vertStart.y + 20); // C terminus label
}
}
*/
// ************************************* footer **************************************
if (Settings.getBoolean("plcc_B_graphimg_footer")) {
// Draw the vertex numbering into the footer
// Determine the dist between vertices that will have their vertex number printed below them
// in the footer field
Integer printNth = 1;
if (cg.getVertices().size() > 9) {
printNth = 1;
}
if (cg.getVertices().size() > 99) {
printNth = 2;
}
// line markers: S for sequence order, G for graph order
Integer lineHeight = pl.textLineHeight;
if (cg.getVertices().size() > 0) {
ig2.drawString(
"C#", pl.getFooterStart().x - pl.vertDist, pl.getFooterStart().y + (stringHeight / 4));
ig2.drawString(
"CN",
pl.getFooterStart().x - pl.vertDist,
pl.getFooterStart().y + lineHeight + (stringHeight / 4));
ig2.drawString(
"ML",
pl.getFooterStart().x - pl.vertDist,
pl.getFooterStart().y + (lineHeight * 2) + (stringHeight / 4));
} else {
ig2.drawString("(Graph has no vertices.)", pl.getFooterStart().x, pl.getFooterStart().y);
}
iChainID = -1;
String edgesString = cg.proteinNodeMap.toString();
// System.out.println("DrawChainLevelCG: edgesString is '" + edgesString + "'.");
for (Integer i = 0; i < cg.getVertices().size(); i++) {
// Draw label for every nth vertex
if ((i + 1) % printNth == 0) {
chainNumber = "" + (i + 1);
// sseNumberSeq = "" + (cg.proteinNodeMap.get(i));
Integer foundIndex = edgesString.indexOf(i.toString() + "=");
String chainId;
if (i < 10) {
chainId = edgesString.substring(foundIndex + 2, foundIndex + 3);
} else {
chainId = edgesString.substring(foundIndex + 3, foundIndex + 4);
}
chainName = "" + chainId;
// stringWidth = fontMetrics.stringWidth(sseNumberSeq);
stringHeight = fontMetrics.getAscent();
ig2.drawString(
chainNumber,
pl.getFooterStart().x + (i * pl.vertDist) + pl.vertRadius / 2,
pl.getFooterStart().y + (stringHeight / 4));
ig2.drawString(
chainName,
pl.getFooterStart().x + (i * pl.vertDist) + pl.vertRadius / 2,
pl.getFooterStart().y + (lineHeight * 1) + (stringHeight / 4));
ig2.drawString(
molInfoForChains.get(chainName),
pl.getFooterStart().x + (i * pl.vertDist) + pl.vertRadius / 2,
pl.getFooterStart().y + (lineHeight * 2) + (stringHeight / 4));
// determine chain of SSEs
/*for(Integer x = 0; x < cg.getVertices().size(); x++){
if(i < cg.chainEnd.get(x)) {iChainID = x; break;}
}
*/
// if(iChainID != -1) {ig2.drawString(cg.allChains.get(iChainID).getPdbChainID(),
// pl.getFooterStart().x + (i * pl.vertDist) + pl.vertRadius / 2, pl.getFooterStart().y +
// (lineHeight * 2) + (stringHeight / 4));}
}
}
/*
if(Settings.getBoolean("plcc_B_graphimg_legend")) {
if(iChainID != -1){
SSEGraph.drawLegend(ig2, new Position2D(pl.getFooterStart().x, pl.getFooterStart().y + lineHeight * 3 + (stringHeight / 4)), pl, pg);
}
else{
SSEGraph.drawLegend(ig2, new Position2D(pl.getFooterStart().x, pl.getFooterStart().y + lineHeight * 2 + (stringHeight / 4)), pl, pg);
}
}
*/
}
// all done, write the image to disk
// if(Settings.get("plcc_S_img_output_format").equals("SVG")) {
// boolean useCSS = true;
// FileOutputStream fos = new FileOutputStream(new File("/tmp/mySVG.svg"));
// Writer out = new OutputStreamWriter(fos, "UTF-8");
// ig2.stream(out, useCSS);
Rectangle2D roi = new Rectangle2D.Double(0, 0, pl.getPageWidth(), pl.getPageHeight());
DrawResult drawRes = new DrawResult(ig2, roi);
return drawRes;
}
public static void main(String[] args) throws IOException {
Context context;
S57map map = null;
BufferedReader in;
int line = 0;
String format = "";
String file = "";
String k = "";
String v = "";
BufferedImage img;
Graphics2D g2;
boolean inIcons = false;
boolean inIcon = false;
if (args.length < 2) {
System.err.println("Usage: java -jar jicons.jar icon_definition_file icons_directory");
System.exit(-1);
}
in = new BufferedReader(new FileReader(args[0]));
context = new Context();
String ln;
while ((ln = in.readLine()) != null) {
line++;
if (inIcons) {
if (inIcon) {
if (ln.contains("</icon")) {
inIcon = false;
map.tagsDone(0);
// generate icon file
switch (format) {
case "PNG":
img = new BufferedImage(w, h, BufferedImage.TYPE_INT_ARGB);
g2 = img.createGraphics();
Renderer.reRender(
g2, new Rectangle(x, y, w, h), 16, s / Renderer.symbolScale[16], map, context);
try {
ImageIO.write(img, "png", new File(args[1] + file + ".png"));
} catch (Exception e) {
System.err.println("Line " + line + ": PNG write Exception");
}
System.err.println(file + ".png");
break;
case "SVG":
DOMImplementation domImpl = GenericDOMImplementation.getDOMImplementation();
String svgNS = "http://www.w3.org/2000/svg";
Document document = domImpl.createDocument(svgNS, "svg", null);
SVGGraphics2D svgGenerator = new SVGGraphics2D(document);
svgGenerator.setSVGCanvasSize(new Dimension(w, h));
Renderer.reRender(
svgGenerator,
new Rectangle(x, y, w, h),
16,
s / Renderer.symbolScale[16],
map,
context);
boolean useCSS = true;
Writer out = null;
try {
out =
new OutputStreamWriter(
new FileOutputStream(args[1] + file + ".svg"), "UTF-8");
} catch (IOException e1) {
System.err.println("Line " + line + ": SVG file Exception");
}
try {
svgGenerator.stream(out, useCSS);
} catch (SVGGraphics2DIOException e) {
System.err.println("Line " + line + ": SVG write Exception");
}
System.err.println(file + ".svg");
break;
}
} else if (ln.contains("<tag")) {
k = v = "";
String[] token = ln.split("k=");
k = token[1].split("[\"\']")[1];
token = token[1].split("v=");
v = token[1].split("[\"\']")[1];
if (k.isEmpty()) {
System.err.println("Line " + line + ": No key in tag");
System.exit(-1);
}
if (v.isEmpty()) {
System.err.println("Line " + line + ": No value in tag");
System.exit(-1);
}
map.addTag(k, v);
}
} else if (ln.contains("<icon")) {
inIcon = true;
h = w = x = y = -1;
s = 0;
file = format = "";
map = new S57map(true);
map.addNode(0, 0, 0);
for (String token : ln.split("[ ]+")) {
if (token.matches("^width=.+")) {
w = Integer.parseInt(token.split("[\"\']")[1]);
} else if (token.matches("^height=.+")) {
h = Integer.parseInt(token.split("[\"\']")[1]);
} else if (token.matches("^x=.+")) {
x = Integer.parseInt(token.split("[\"\']")[1]);
} else if (token.matches("^y=.+")) {
y = Integer.parseInt(token.split("[\"\']")[1]);
} else if (token.matches("^scale=.+")) {
s = Double.parseDouble(token.split("[\"\']")[1]);
} else if (token.matches("^file=.+")) {
file = (token.split("[\"\']")[1]);
} else if (token.matches("^format=.+")) {
format = (token.split("[\"\']")[1]);
}
}
if (file.isEmpty()) {
System.err.println("Line " + line + ": No filename");
System.exit(-1);
}
if (format.isEmpty()) {
System.err.println("Line " + line + ": No format");
System.exit(-1);
}
if ((h < 0) && (w < 0)) {
System.err.println("Line " + line + ": No icon size");
System.exit(-1);
}
if (w < 0) {
w = h;
}
if (h < 0) {
h = w;
}
if (x < 0) {
x = w / 2;
}
if (y < 0) {
y = h / 2;
}
if (s == 0) {
s = 1;
}
} else if (ln.contains("</icons")) {
inIcons = false;
break;
}
} else if (ln.contains("<icons")) {
inIcons = true;
}
}
in.close();
System.err.println("Finished");
System.exit(0);
}
