Mercurial > mxd2map
view src/java/de/intevation/mxd/writer/FillStyleWriter.java @ 277:b2df9936d4f8
* doku/source/conf.py, contrib/installer/MXD2map-installer.nsi:
Bumped version-number to 1.0
| author | Stephan Holl <stephan.holl@intevation.de> |
|---|---|
| date | Thu, 06 Oct 2011 12:31:05 +0200 |
| parents | 2cb2f26d0d54 |
| children | a46adb3697fa |
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/* * Copyright (c) 2011 by Intevation GmbH, Germany <info@intevation.de> * * This file is part of MXD2map. * * This program is free software under the LGPL (>=v2.1) * Read the file LICENCE.txt coming with the software for details * or visit http://www.gnu.org/licenses/ if it does not exist. * * MXD2map has been developed on behalf of the * Bundesamt fuer Seeschifffahrt und Hydrographie (BSH) in Hamburg * by Intevation GmbH. * * Authors: * Raimund Renkert <raimund.renkert@intevation.de> * Bjoern Schilberg <bjoern.schilberg@intevation.de> * Stephan Holl <stephan.holl@intevation.de> */ package de.intevation.mxd.writer; import java.awt.Color; import org.apache.log4j.Logger; import org.w3c.dom.Element; import org.w3c.dom.NodeList; import edu.umn.gis.mapscript.mapObj; import edu.umn.gis.mapscript.classObj; import edu.umn.gis.mapscript.styleObj; import edu.umn.gis.mapscript.colorObj; import edu.umn.gis.mapscript.symbolSetObj; /** * The interface to the mapfile writer. * * @author <a href="mailto:raimund.renkert@intevation.de">Raimund Renkert</a> */ public class FillStyleWriter { /** * The Logger. */ private static final Logger logger = Logger.getLogger(FillStyleWriter.class); /** * Private member. */ private mapObj map; private classObj cl; private styleObj style; private colorObj fill; /** * Constructor with map object and class object. * * @param map The map object. * @param cl The class object containing the style. */ public FillStyleWriter (mapObj map, classObj cl) { logger.debug("contructor(mapObj, classObj)"); this.map = map; this.cl = cl; this.style = new styleObj(cl); } /** * Write the content. * * @param symbolElement DOM element containing style attributes. */ public boolean write(Element symbolElement) { logger.debug("write(Element)"); symbolSetObj symbolSet = map.getSymbolset(); if(symbolElement.hasChildNodes()) { NodeList symbols = symbolElement.getChildNodes(); for (int i = 0; i < symbols.getLength(); i++) { Element nextSym = (Element)symbols.item(i); String type = nextSym.getAttribute("type"); if(((symbols.getLength() > 1 && i == 0) || (symbols.getLength() == 1 && !symbolElement.hasAttribute("hatch"))) && type.equals("line")) { if(symbolElement.hasAttribute("color")) { Color oCol = Color.decode( symbolElement.getAttribute("color")); fill = new colorObj( oCol.getRed(), oCol.getGreen(), oCol.getBlue(), -4); } writeOutline(nextSym); if (symbols.getLength() == 1) { String stype = symbolElement.getAttribute("style"); if(stype.equals("picture")) { double gap = 0; if(symbolElement.hasAttribute("xseparation")) { try { gap = Double.parseDouble( symbolElement.getAttribute("xseparation")); } catch(NumberFormatException nfe) { gap = 0; } } try { SymbolWriter sw = new SymbolWriter(this.map, this.cl); sw.write(symbolElement); sw.saveSymbolSet(symbolSet); } catch(Exception e) { logger.warn("Could not save symbol set."); } writeMarker(symbolElement, gap); } else { writeSimple(symbolElement); try { SymbolWriter sw = new SymbolWriter(this.map, this.cl); sw.saveSymbolSet(symbolSet); } catch(Exception e) { logger.warn("Could not save symbol set."); } } } } else if(nextSym.getTagName().equals("symbol") && !symbolElement.hasAttribute("hatch") || (i == 1 && type.equals("marker"))) { double gap = 0; if(symbolElement.hasAttribute("xseparation")) { try { gap = Double.parseDouble( symbolElement.getAttribute("xseparation")); } catch(NumberFormatException nfe) { gap = 0; } } writeMarker(nextSym, gap); } else if (nextSym.getTagName().equals("symbol") && symbolElement.hasAttribute("hatch")) { if(i == 0) { writeOutline(nextSym); } else { if(symbolElement.hasAttribute("angle")) { nextSym.setAttribute( "angle", symbolElement.getAttribute("angle")); } if(symbolElement.hasAttribute("separation")) { nextSym.setAttribute( "size", symbolElement.getAttribute("separation")); } writeMarker(nextSym, -1); } } else { writeSimple(symbolElement); try { SymbolWriter sw = new SymbolWriter(this.map, this.cl); sw.saveSymbolSet(symbolSet); } catch(Exception e) { logger.warn("Could not save symbol set."); } } } } else { writeSimple(symbolElement); if(symbolElement.hasAttribute("outline_color")) { Color oCol = Color.decode( symbolElement.getAttribute("outline_color")); colorObj outlineColor = new colorObj( oCol.getRed(), oCol.getGreen(), oCol.getBlue(), -4); style.setOutlinecolor(outlineColor); try { style.setOutlinewidth(Double.parseDouble( symbolElement.getAttribute("outline_size"))); } catch(NumberFormatException nfe) { logger.warn("Error setting outline width."); style.setOutlinewidth(0.0); } } try { SymbolWriter sw = new SymbolWriter(this.map, this.cl); sw.saveSymbolSet(symbolSet); } catch(Exception e) { logger.warn("Could not save symbol set."); } } return true; } /** * Write the outline for a polygon. * * @param symbolElement Dom element containing the symbol attributes. */ private void writeOutline(Element symbolElement) { logger.debug("writeOutline()"); //write transparent outline colorObj color = new colorObj(-1, -1, -1, -4); double w = 0; double transp = -1; if(symbolElement.hasAttribute("width")) { try { w = Double.parseDouble(symbolElement.getAttribute("width")); if(symbolElement.hasAttribute("transparency")) { transp = Double.parseDouble( symbolElement.getAttribute("transparency")); } else { transp = -1; } } catch(NumberFormatException nfe) { logger.warn("Error setting outline width or transparency."); w = 0; transp = -1; } } Color oCol = Color.decode( symbolElement.getAttribute("color")); styleObj outline = new styleObj (cl); if (w < 1.0) { symbolElement.setAttribute("width", "1"); } colorObj outlinecolor = new colorObj( oCol.getRed(), oCol.getGreen(), oCol.getBlue(), -4); outline.setOutlinecolor(outlinecolor); if(transp >= 0) { int opacity = (int)((1 - (transp/255)) * 100); outline.setOpacity(opacity); } try { outline.setOutlinewidth(Double.parseDouble( symbolElement.getAttribute("width"))); } catch(NumberFormatException nfe) { logger.warn("Error setting outline width."); outline.setOutlinewidth(0.0); } if(symbolElement.hasAttribute("linestyle")) { //Write predefined dashed or dotted lines. String ls = symbolElement.getAttribute("linestyle"); double[] vals; if(ls.equals("dash")) { outline.setPatternlength(2); vals = new double[] {4.0, 4.0, 0, 0, 0, 0, 0, 0, 0, 0}; outline.setPattern(vals); } else if(ls.equals("dot")) { outline.setPatternlength(2); vals = new double[] {1.0, 3.0, 0, 0, 0, 0, 0, 0, 0, 0}; outline.setPattern(vals); } else if(ls.equals("dashdot")) { outline.setPatternlength(4); vals = new double[] {4.0, 3.0, 1.0, 3.0, 0, 0, 0, 0, 0, 0, 0}; outline.setPattern(vals); } else if (ls.equals("dashdotdot")) { outline.setPatternlength(6); vals = new double[] {5.0, 3.0, 1.0, 3.0, 1.0, 4.0, 0, 0, 0, 0}; outline.setPattern(vals); } } else if(symbolElement.hasAttribute("pattern_count")) { //Write dashed or dotted lines defined with a template. int count = 0; try { count = Integer.parseInt( symbolElement.getAttribute("pattern_count")); double[] vals = new double[10]; double move = 0.0; int pos = 0; for(int i = 0; i < count; i++) { double mark = Double.parseDouble(symbolElement.getAttribute("mark_" + i)); double gap = Double.parseDouble(symbolElement.getAttribute("gap_" + i)); if(i == 0 && mark == 0.0) { move = gap; } else if(i == count - 1 && move > 0.0) { vals[pos++] = mark; vals[pos++] = gap + move; } else { vals[pos++] = mark; vals[pos++] = gap; } } if(move > 0.0) { outline.setPatternlength((count*2) -2); } else { outline.setPatternlength(count*2); } outline.setPattern(vals); } catch(NumberFormatException nfe) { logger.warn("Could not write PATTERN."); } } } /** * Write marker attributes and a symbol for the polygon fill. * * @param symbolElement DOM element containingg the symbol attributes. * @param gap The initial gap at the begining of a line. */ private void writeMarker(Element symbolElement, double gap) { logger.debug("writeMarker()"); String name = symbolElement.getAttribute("name"); String type = symbolElement.getAttribute("type"); String stype = symbolElement.getAttribute("style"); if (symbolElement.hasAttribute("angle")) { try { style.setAngle( Double.parseDouble(symbolElement.getAttribute("angle"))); } catch(NumberFormatException nfe) { logger.warn("Error setting angle."); style.setAngle(0.0); } } if(symbolElement.hasAttribute("color")) { String c = symbolElement.getAttribute("color"); Color col = Color.decode(c); colorObj color = new colorObj( col.getRed(), col.getGreen(), col.getBlue(), -4); style.setColor(color); } if (symbolElement.hasAttribute ("size")) { double size = 1; try { size = Double.parseDouble(symbolElement.getAttribute("size")); } catch(NumberFormatException nfe) { size = 1.0; } style.setSize(size); //In arcgis the separation goes from center to center, so the gap is //the separation - size if (gap > 0) { style.setGap(gap - size); } } if(symbolElement.hasAttribute("width")) { double width = 1; try { width = Double.parseDouble(symbolElement.getAttribute("width")); } catch(NumberFormatException nfe) { width = 1.0; } style.setWidth(width); } if(symbolElement.hasAttribute("outline_color")) { Color oCol = Color.decode( symbolElement.getAttribute("outline_color")); colorObj outlineColor = new colorObj( oCol.getRed(), oCol.getGreen(), oCol.getBlue(), -4); style.setOutlinecolor(outlineColor); try { style.setOutlinewidth(Double.parseDouble( symbolElement.getAttribute("outline_size"))); } catch(NumberFormatException nfe) { logger.warn("Error setting angle."); style.setOutlinewidth(0.0); } } if(type.equals("marker")) { style.setSymbolByName(map, name); SymbolWriter sw = new SymbolWriter(this.map, this.cl); sw.write(symbolElement); } else if(type.equals("line")) { style.setSymbolByName(map, "hatch"); SymbolWriter sw = new SymbolWriter(this.map, this.cl); symbolElement.setAttribute("name", "hatch"); sw.write(symbolElement); if(symbolElement.hasAttribute("linestyle")) { String ls = symbolElement.getAttribute("linestyle"); double[] vals; if(ls.equals("dash")) { style.setPatternlength(2); vals = new double[] {4.0, 4.0, 0, 0, 0, 0, 0, 0, 0, 0}; style.setPattern(vals); } else if(ls.equals("dot")) { style.setPatternlength(2); vals = new double[] {1.0, 3.0, 0, 0, 0, 0, 0, 0, 0, 0}; style.setPattern(vals); } else if(ls.equals("dashdot")) { style.setPatternlength(4); vals = new double[] {4.0, 3.0, 1.0, 3.0, 0, 0, 0, 0, 0, 0, 0}; style.setPattern(vals); } else if (ls.equals("dashdotdot")) { style.setPatternlength(6); vals = new double[] {5.0, 3.0, 1.0, 3.0, 1.0, 4.0, 0, 0, 0, 0}; style.setPattern(vals); } } } if(stype.equals("picture")) { style.setSymbolByName(map, name); } } /** * Write simple fill attributes. * * @param symbolElement DOM element containing the symbol attributes. */ private void writeSimple(Element symbolElement) { logger.debug("writeSimple(Element)"); if(symbolElement.hasAttribute("transparency")) { double value = 0; try { value = Double.parseDouble( symbolElement.getAttribute("transparency")); } catch(NumberFormatException nfe) { value = 0; } int opacity = (int)(1 - (value/255)) * 100; style.setOpacity(opacity); } if(symbolElement.hasAttribute("color")) { String c = symbolElement.getAttribute("color"); Color col = Color.decode(c); colorObj color = new colorObj( col.getRed(), col.getGreen(), col.getBlue(), -4); style.setColor(color); } } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :