private void pageImport(String value) { // LOG.debug("pageImport(" + value + ')'); String[] imports = Pattern.compile(";").split(value.subSequence(0, value.length())); for (int ix = 0; ix < imports.length; ix++) { out.print("import "); out.print(imports[ix]); out.println(); } }
private void write(CharSequence text, boolean gsp) { if (!gsp) { out.print(text); return; } for (int ix = 0, ixz = text.length(); ix < ixz; ix++) { char c = text.charAt(ix); String rep = null; if (Character.isWhitespace(c)) { for (ix++; ix < ixz; ix++) { if (Character.isWhitespace(text.charAt(ix))) { continue; } ix--; rep = " "; break; } } else if (c == '&') { if (match(";", text, ix)) { rep = ";"; ix += 5; } else if (match("&", text, ix)) { rep = "&"; ix += 4; } else if (match("<", text, ix)) { rep = "<"; ix += 3; } else if (match(">", text, ix)) { rep = ">"; ix += 3; } } else if (c == '<') { if (match("<br>", text, ix) || match("<hr>", text, ix)) { rep = "\n"; // incrementLineNumber(); ix += 3; } else { int end = match(PARA_BREAK, text, ix); if (end <= 0) end = match(ROW_BREAK, text, ix); if (end > 0) { rep = "\n"; // incrementLineNumber(); ix = end; } } } if (rep != null) { out.print(rep); } else { out.print(c); } } }
/** * Adds the line numbers array to the end of the generated Groovy ModuleNode in a way suitable for * the LineNumberTransform AST transform to operate on it */ private void addLineNumbers() { out.println(); out.println("@LineNumber("); out.print("\tlines = ["); // get the line numbers here. this will mean that the last 2 lines will not be captured in the // line number information, but that's OK since a user cannot set a breakpoint there anyway. int[] lineNumbers = filterTrailing0s(out.getLineNumbers()); for (int i = 0; i < lineNumbers.length; i++) { out.print(lineNumbers[i]); if (i < lineNumbers.length - 1) { out.print(", "); } } out.println("],"); out.println("\tsourceName = \"" + sourceName + "\""); out.println(")"); out.println("class ___LineNumberPlaceholder { }"); }
private void endTag() { if (!finalPass) return; String tagName = scan.getToken().trim(); String ns = scan.getNamespace(); if (tagMetaStack.isEmpty()) throw new GrailsTagException( "Found closing Grails tag with no opening [" + tagName + "]", pageName, getCurrentOutputLineNumber()); TagMeta tm = tagMetaStack.pop(); String lastInStack = tm.name; String lastNamespaceInStack = tm.namespace; // if the tag name is blank then it has been closed by the start tag ie <tag /> if (GrailsStringUtils.isBlank(tagName)) { tagName = lastInStack; } if (!lastInStack.equals(tagName) || !lastNamespaceInStack.equals(ns)) { throw new GrailsTagException( "Grails tag [" + lastNamespaceInStack + ":" + lastInStack + "] was not closed", pageName, getCurrentOutputLineNumber()); } if (GroovyPage.DEFAULT_NAMESPACE.equals(ns) && tagRegistry.isSyntaxTag(tagName)) { if (tm.instance instanceof GroovySyntaxTag) { GroovySyntaxTag tag = (GroovySyntaxTag) tm.instance; tag.doEndTag(); } else { throw new GrailsTagException( "Grails tag [" + tagName + "] was not closed", pageName, getCurrentOutputLineNumber()); } } else { int bodyTagIndex = -1; if (!tm.emptyTag && !tm.bufferMode) { bodyTagIndex = tagIndex; out.println("})"); closureLevel--; } if (tm.bufferMode && tm.bufferPartNumber != -1) { if (!bodyVarsDefined.contains(tm.tagIndex)) { // out.print("def "); bodyVarsDefined.add(tm.tagIndex); } out.println("createClosureForHtmlPart(" + tm.bufferPartNumber + ", " + tm.tagIndex + ")"); bodyTagIndex = tm.tagIndex; tm.bufferMode = false; } if (jspTags.containsKey(ns)) { String uri = jspTags.get(ns); out.println("jspTag = getJspTag('" + uri + "', '" + tagName + "')"); out.println( "if (!jspTag) throw new GrailsTagException('Unknown JSP tag " + ns + ":" + tagName + "')"); out.print("jspTag.doTag(out," + attrsVarsMapDefinition.get(tagIndex) + ","); if (bodyTagIndex > -1) { out.print("getBodyClosure(" + bodyTagIndex + ")"); } else { out.print("null"); } out.println(")"); } else { if (tm.hasAttributes) { out.println( "invokeTag('" + tagName + "','" + ns + "'," + getCurrentOutputLineNumber() + "," + attrsVarsMapDefinition.get(tagIndex) + "," + bodyTagIndex + ")"); } else { out.println( "invokeTag('" + tagName + "','" + ns + "'," + getCurrentOutputLineNumber() + ",[:]," + bodyTagIndex + ")"); } } } tm.bufferMode = false; tagIndex--; }
private void page() { LOG.debug("parse: page"); if (finalPass) { out.println(); if (pluginAnnotation != null) { out.println(pluginAnnotation); } out.print("class "); out.print(className); out.println(" extends GroovyPage {"); out.println( "public String getGroovyPageFileName() { \"" + pageName.replaceAll("\\\\", "/") + "\" }"); out.println("public Object run() {"); /* out.println("def params = binding.params"); out.println("def request = binding.request"); out.println("def flash = binding.flash"); out.println("def response = binding.response"); */ out.println("Writer " + GroovyPage.OUT + " = getOut()"); out.println("Writer " + GroovyPage.EXPRESSION_OUT + " = getExpressionOut()"); // out.println("JspTagLib jspTag"); if (sitemeshPreprocessMode) { out.println("registerSitemeshPreprocessMode()"); } } loop: for (; ; ) { if (doNextScan) { state = scan.nextToken(); } else { doNextScan = true; } // Flush any buffered whitespace if there's not a possibility of more whitespace // or a new tag which will handle flushing as necessary if ((state != GSTART_TAG) && (state != HTML)) { flushBufferedWhiteSpace(); previousContentWasNonWhitespace = false; // well, we don't know } switch (state) { case EOF: break loop; case HTML: html(); break; case JEXPR: scriptletExpr(); break; case JSCRIPT: script(false); break; case JDIRECT: direct(); break; case JDECLAR: declare(false); break; case GEXPR: expr(); break; case GSCRIPT: script(true); break; case GDIRECT: direct(); break; case GDECLAR: declare(true); break; case GSTART_TAG: startTag(); break; case GEND_EMPTY_TAG: case GEND_TAG: endTag(); break; } } if (finalPass) { if (!tagMetaStack.isEmpty()) { throw new GrailsTagException( "Grails tags were not closed! [" + tagMetaStack + "] in GSP " + pageName + "", pageName, getCurrentOutputLineNumber()); } out.println("}"); out.println("public static final Map " + CONSTANT_NAME_JSP_TAGS + " = new HashMap()"); if (jspTags != null && jspTags.size() > 0) { out.println("static {"); for (Map.Entry<String, String> entry : jspTags.entrySet()) { out.print("\t" + CONSTANT_NAME_JSP_TAGS + ".put('"); out.print(escapeGroovy(entry.getKey())); out.print("','"); out.print(escapeGroovy(entry.getValue())); out.println("')"); } out.println("}"); } out.println("protected void init() {"); out.println("\tthis.jspTags = " + CONSTANT_NAME_JSP_TAGS); out.println("}"); out.println( "public static final String " + CONSTANT_NAME_CONTENT_TYPE + " = '" + escapeGroovy(contentType) + "'"); out.println( "public static final long " + CONSTANT_NAME_LAST_MODIFIED + " = " + lastModified + "L"); out.println( "public static final String " + CONSTANT_NAME_EXPRESSION_CODEC + " = '" + escapeGroovy(expressionCodecDirectiveValue) + "'"); out.println( "public static final String " + CONSTANT_NAME_STATIC_CODEC + " = '" + escapeGroovy(staticCodecDirectiveValue) + "'"); out.println( "public static final String " + CONSTANT_NAME_OUT_CODEC + " = '" + escapeGroovy(outCodecDirectiveValue) + "'"); out.println( "public static final String " + CONSTANT_NAME_TAGLIB_CODEC + " = '" + escapeGroovy(taglibCodecDirectiveValue) + "'"); out.println("}"); if (shouldAddLineNumbers()) { addLineNumbers(); } } else { for (int i = 0; i < DEFAULT_IMPORTS.length; i++) { out.print("import "); out.println(DEFAULT_IMPORTS[i]); } } }
private void htmlPartPrintlnRaw(int partNumber) { out.print("printHtmlPart("); out.print(String.valueOf(partNumber)); out.print(")"); out.println(); }