private ClassGraphics parse(Element grNode /*, boolean isRelation*/) { ClassGraphics newGraphics = new ClassGraphics(); newGraphics.setShowFields(Boolean.parseBoolean(grNode.getAttribute(ATR_SHOW_FIELDS))); // newGraphics.setRelation( isRelation ); NodeList list = grNode.getChildNodes(); for (int k = 0; k < list.getLength(); k++) { if (list.item(k).getNodeType() != Node.ELEMENT_NODE) continue; Element node = (Element) list.item(k); String nodeName = node.getNodeName(); Shape shape = null; if (EL_BOUNDS.equals(nodeName)) { Dim dim = getDim(node); newGraphics.setBounds(dim.x, dim.y, dim.width, dim.height); continue; } else if (EL_LINE.equals(nodeName)) { shape = makeLine(node, newGraphics); } else if (EL_RECT.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); shape = new Rect( dim.x, dim.y, dim.width, dim.height, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_OVAL.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); shape = new Oval( dim.x, dim.y, dim.width, dim.height, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_ARC.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); int startAngle = Integer.parseInt(node.getAttribute(ATR_START_ANGLE)); int arcAngle = Integer.parseInt(node.getAttribute(ATR_ARC_ANGLE)); shape = new Arc( dim.x, dim.y, dim.width, dim.height, startAngle, arcAngle, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_POLYGON.equals(nodeName)) { Lineprops lp = getLineProps(node); Polygon polygon = new Polygon(getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); // points NodeList points = node.getElementsByTagName(EL_POINT); int pointCount = points.getLength(); // arrays of polygon points int[] xs = new int[pointCount]; int[] ys = new int[pointCount]; // arrays of FIXED information about polygon points int[] fxs = new int[pointCount]; int[] fys = new int[pointCount]; int width = newGraphics.getBoundWidth(); int height = newGraphics.getBoundHeight(); for (int j = 0; j < pointCount; j++) { FixedCoords fc = getFixedCoords((Element) points.item(j), width, height, null); xs[j] = fc.x; fxs[j] = fc.fx; ys[j] = fc.y; fys[j] = fc.fy; } polygon.setPoints(xs, ys, fxs, fys); shape = polygon; } else if (EL_IMAGE.equals(nodeName)) { Dim dim = getDim(node); // image path should be relative to the package xml String imgPath = node.getAttribute(ATR_PATH); String fullPath = FileFuncs.preparePathOS(getWorkingDir() + imgPath); shape = new Image(dim.x, dim.y, fullPath, imgPath, isShapeFixed(node)); } else if (EL_TEXT.equals(nodeName)) { shape = makeText(node, newGraphics); /* * if (str.equals("*self")) newText.name = "self"; else if * (str.equals("*selfWithName")) newText.name = "selfName"; */ } if (shape != null) newGraphics.addShape(shape); } return newGraphics; }
private boolean isShapeFixed(Element shape) { return Boolean.parseBoolean(shape.getAttribute(ATR_FIXED)); }
private void parseField(PackageClass newClass, Element fieldNode) { String name = fieldNode.getAttribute(ATR_NAME); String type = fieldNode.getAttribute(ATR_TYPE); ClassField newField; if (newClass.getComponentType().hasSpec()) { if (name.indexOf(".") > -1) { // TODO - temporarily do not dig into hierarchy int idx = name.indexOf("."); String root = name.substring(0, idx); if (newClass.getSpecField(root) == null) { collector.collectDiagnostic( "Field " + root + " in class " + newClass.getName() + " is not declared in the specification, variable " + type + " " + name + " ignored "); return; } newField = new ClassField(name, type); newClass.addSpecField(newField); } else { newField = newClass.getSpecField(name); if (newField == null) { collector.collectDiagnostic( "Field " + type + " " + name + " in class " + newClass.getName() + " is not declared in the specification"); return; } else if (!newField.getType().equals(type)) { collector.collectDiagnostic( "Field " + type + " " + name + " in class " + newClass.getName() + " does not match the field declared in the specification: " + newField.getType() + " " + newField.getName()); return; } } } else { newField = new ClassField(name, type); newClass.addSpecField(newField); } newField.setValue(fieldNode.hasAttribute(ATR_VALUE) ? fieldNode.getAttribute(ATR_VALUE) : null); newField.setDescription(fieldNode.getAttribute(ATR_DESCRIPTION)); newField.setHidden(Boolean.parseBoolean(fieldNode.getAttribute(ATR_HIDDEN))); String nature = fieldNode.getAttribute(ATR_NATURE); if ("input".equals(nature)) newField.setInput(true); else if ("goal".equals(nature)) newField.setGoal(true); newClass.addField(newField); Element gr; // known if ((gr = getElementByName(fieldNode, EL_KNOWN)) != null && (gr = getElementByName(gr, EL_GRAPHICS)) != null) { newField.setKnownGraphics(getGraphicsParser().parse(gr)); } // default if ((gr = getElementByName(fieldNode, EL_DEFAULT)) != null && (gr = getElementByName(gr, EL_GRAPHICS)) != null) { newField.setDefaultGraphics(getGraphicsParser().parse(gr)); } }
private void parsePort(PackageClass newClass, Element portNode) { String name = portNode.getAttribute(ATR_NAME); String type = portNode.getAttribute(ATR_TYPE); String x = portNode.getAttribute(ATR_X); String y = portNode.getAttribute(ATR_Y); String portConnection = portNode.getAttribute(ATR_PORT_CONNECTION); String strict = portNode.getAttribute(ATR_STRICT); String multi = portNode.getAttribute(ATR_MULTI); ClassField cf = newClass.getSpecField(name); if (newClass.getComponentType().hasSpec()) { if (name.indexOf(".") > -1) { // TODO - temporarily do not dig into hierarchy int idx = name.indexOf("."); String root = name.substring(0, idx); if (newClass.getSpecField(root) == null) { collector.collectDiagnostic( "Field " + root + " in class " + newClass.getName() + " is not declared in the specification, variable " + type + " " + name + " ignored "); return; } newClass.addSpecField(new ClassField(name, type)); } else if (!TypeUtil.TYPE_THIS.equalsIgnoreCase(name)) { if (cf == null) { collector.collectDiagnostic( "Port " + type + " " + name + " in class " + newClass.getName() + " does not have the corresponding field in the specification"); } else if (!cf.getType().equals(type) // type may be declared as "alias", however cf.getType() returns e.g. "double[]", ignore // it && !(cf.isAlias() && TypeUtil.TYPE_ALIAS.equals(type))) { collector.collectDiagnostic( "Port " + type + " " + name + " in class " + newClass.getName() + " does not match the field declared in the specification: " + cf.getType() + " " + cf.getName()); } } } Port newPort = new Port( name, type, Integer.parseInt(x), Integer.parseInt(y), portConnection, Boolean.parseBoolean(strict), Boolean.parseBoolean(multi)); if (portNode.hasAttribute(ATR_ID)) newPort.setId(portNode.getAttribute(ATR_ID)); Element gr; // open if ((gr = getElementByName(portNode, EL_OPEN)) != null && (gr = getElementByName(gr, EL_GRAPHICS)) != null) { newPort.setOpenGraphics(getGraphicsParser().parse(gr)); } // closed if ((gr = getElementByName(portNode, EL_CLOSED)) != null && (gr = getElementByName(gr, EL_GRAPHICS)) != null) { newPort.setClosedGraphics(getGraphicsParser().parse(gr)); } newClass.addPort(newPort); }
private PackageClass parseClass(Element classNode) { PackageClass newClass = new PackageClass(); _package.getClasses().add(newClass); newClass.setComponentType(PackageClass.ComponentType.getType(classNode.getAttribute(ATR_TYPE))); newClass.setStatic(Boolean.parseBoolean(classNode.getAttribute(ATR_STATIC))); newClass.setName(getElementByName(classNode, EL_NAME).getTextContent()); final String source = getElementStringByName(classNode, EL_FILE); if (source != null) { newClass.setSource(source); } newClass.setTarget(getElementStringByName(classNode, EL_EXTENDS)); newClass.setDescription(getElementByName(classNode, EL_DESCRIPTION).getTextContent()); newClass.setIcon(getElementByName(classNode, EL_ICON).getTextContent()); // parse all variables declared in the corresponding specification if (newClass.getComponentType().hasSpec()) { final String newClassName = newClass.getName(); try { switch (RuntimeProperties.getSpecParserKind()) { case REGEXP: { ClassList classList = new ClassList(); SpecParser.parseSpecClass(newClassName, getWorkingDir(), classList); newClass.setSpecFields(classList.getType(newClassName).getFields()); break; } case ANTLR: { if (specificationLoader == null) { specificationLoader = new SpecificationLoader(new PackageSpecSourceProvider(_package), null); } final AnnotatedClass annotatedClass = specificationLoader.getSpecification(newClassName); newClass.setSpecFields(annotatedClass.getFields()); break; } default: throw new IllegalStateException("Undefined specification language parser"); } } catch (SpecParseException e) { final String msg = "Unable to parse the specification of class " + newClassName; logger.error(msg, e); collector.collectDiagnostic(msg + "\nReason: " + e.getMessage() + "\nLine: " + e.getLine()); } } // Graphics Element grNode = getElementByName(classNode, EL_GRAPHICS); newClass.addGraphics( getGraphicsParser().parse(grNode/*, newClass.getComponentType() == ComponentType.REL*/ )); Element painter; if ((painter = getElementByName(grNode, EL_PAINTER)) != null) { newClass.setPainterName(painter.getTextContent()); } // Ports NodeList ports = classNode.getElementsByTagName(EL_PORT); for (int i = 0; i < ports.getLength(); i++) { parsePort(newClass, (Element) ports.item(i)); } // Fields NodeList fields = classNode.getElementsByTagName(EL_FIELD); for (int i = 0; i < fields.getLength(); i++) { parseField(newClass, (Element) fields.item(i)); } return newClass; }