/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.jasper.compiler; import java.io.BufferedInputStream; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; import java.io.InputStreamReader; import java.io.UnsupportedEncodingException; import java.util.Vector; import org.apache.jasper.Constants; import org.apache.jasper.JasperException; import org.apache.jasper.JspCompilationContext; import org.apache.tomcat.Jar; import org.xml.sax.Attributes; import org.xml.sax.InputSource; /** * This class has all the utility method(s). Ideally should move all the bean * containers here. * * @author Mandar Raje. * @author Rajiv Mordani. * @author Danno Ferrin * @author Pierre Delisle * @author Shawn Bayern * @author Mark Roth */ public class JspUtil { private static final String WEB_INF_TAGS = "/WEB-INF/tags/"; private static final String META_INF_TAGS = "/META-INF/tags/"; // Delimiters for request-time expressions (JSP and XML syntax) private static final String OPEN_EXPR = "<%="; private static final String CLOSE_EXPR = "%>"; private static final String javaKeywords[] = { "abstract", "assert", "boolean", "break", "byte", "case", "catch", "char", "class", "const", "continue", "default", "do", "double", "else", "enum", "extends", "final", "finally", "float", "for", "goto", "if", "implements", "import", "instanceof", "int", "interface", "long", "native", "new", "package", "private", "protected", "public", "return", "short", "static", "strictfp", "super", "switch", "synchronized", "this", "throw", "throws", "transient", "try", "void", "volatile", "while" }; static final int JSP_INPUT_STREAM_BUFFER_SIZE = 1024; public static final int CHUNKSIZE = 1024; /** * Takes a potential expression and converts it into XML form. * @param expression The expression to convert * @return XML view */ public static String getExprInXml(String expression) { String returnString; int length = expression.length(); if (expression.startsWith(OPEN_EXPR) && expression.endsWith(CLOSE_EXPR)) { returnString = expression.substring(1, length - 1); } else { returnString = expression; } return escapeXml(returnString); } /** * Checks to see if the given scope is valid. * * @param scope * The scope to be checked * @param n * The Node containing the 'scope' attribute whose value is to be * checked * @param err * error dispatcher * * @throws JasperException * if scope is not null and different from "page", * "request", "session", and * "application" */ public static void checkScope(String scope, Node n, ErrorDispatcher err) throws JasperException { if (scope != null && !scope.equals("page") && !scope.equals("request") && !scope.equals("session") && !scope.equals("application")) { err.jspError(n, "jsp.error.invalid.scope", scope); } } /** * Checks if all mandatory attributes are present and if all attributes * present have valid names. Checks attributes specified as XML-style * attributes as well as attributes specified using the jsp:attribute * standard action. * @param typeOfTag The tag type * @param n The corresponding node * @param validAttributes The array with the valid attributes * @param err Dispatcher for errors * @throws JasperException An error occurred */ public static void checkAttributes(String typeOfTag, Node n, ValidAttribute[] validAttributes, ErrorDispatcher err) throws JasperException { Attributes attrs = n.getAttributes(); Mark start = n.getStart(); boolean valid = true; // AttributesImpl.removeAttribute is broken, so we do this... int tempLength = (attrs == null) ? 0 : attrs.getLength(); Vector<String> temp = new Vector<>(tempLength, 1); for (int i = 0; i < tempLength; i++) { @SuppressWarnings("null") // If attrs==null, tempLength == 0 String qName = attrs.getQName(i); if ((!qName.equals("xmlns")) && (!qName.startsWith("xmlns:"))) { temp.addElement(qName); } } // Add names of attributes specified using jsp:attribute Node.Nodes tagBody = n.getBody(); if (tagBody != null) { int numSubElements = tagBody.size(); for (int i = 0; i < numSubElements; i++) { Node node = tagBody.getNode(i); if (node instanceof Node.NamedAttribute) { String attrName = node.getAttributeValue("name"); temp.addElement(attrName); // Check if this value appear in the attribute of the node if (n.getAttributeValue(attrName) != null) { err.jspError(n, "jsp.error.duplicate.name.jspattribute", attrName); } } else { // Nothing can come before jsp:attribute, and only // jsp:body can come after it. break; } } } /* * First check to see if all the mandatory attributes are present. If so * only then proceed to see if the other attributes are valid for the * particular tag. */ String missingAttribute = null; for (int i = 0; i < validAttributes.length; i++) { int attrPos; if (validAttributes[i].mandatory) { attrPos = temp.indexOf(validAttributes[i].name); if (attrPos != -1) { temp.remove(attrPos); valid = true; } else { valid = false; missingAttribute = validAttributes[i].name; break; } } } // If mandatory attribute is missing then the exception is thrown if (!valid) { err.jspError(start, "jsp.error.mandatory.attribute", typeOfTag, missingAttribute); } // Check to see if there are any more attributes for the specified tag. int attrLeftLength = temp.size(); if (attrLeftLength == 0) { return; } // Now check to see if the rest of the attributes are valid too. String attribute = null; for (int j = 0; j < attrLeftLength; j++) { valid = false; attribute = temp.elementAt(j); for (int i = 0; i < validAttributes.length; i++) { if (attribute.equals(validAttributes[i].name)) { valid = true; break; } } if (!valid) { err.jspError(start, "jsp.error.invalid.attribute", typeOfTag, attribute); } } // XXX *could* move EL-syntax validation here... (sb) } /** * Escape the 5 entities defined by XML. * @param s String to escape * @return XML escaped string */ public static String escapeXml(String s) { if (s == null) { return null; } StringBuilder sb = new StringBuilder(); for (int i = 0; i < s.length(); i++) { char c = s.charAt(i); if (c == '<') { sb.append("<"); } else if (c == '>') { sb.append(">"); } else if (c == '\'') { sb.append("'"); } else if (c == '&') { sb.append("&"); } else if (c == '"') { sb.append("""); } else { sb.append(c); } } return sb.toString(); } public static class ValidAttribute { private final String name; private final boolean mandatory; public ValidAttribute(String name, boolean mandatory) { this.name = name; this.mandatory = mandatory; } public ValidAttribute(String name) { this(name, false); } } /** * Convert a String value to 'boolean'. Besides the standard conversions * done by Boolean.parseBoolean(s), the value "yes" (ignore case) * is also converted to 'true'. If 's' is null, then 'false' is returned. * * @param s * the string to be converted * @return the boolean value associated with the string s */ public static boolean booleanValue(String s) { boolean b = false; if (s != null) { if (s.equalsIgnoreCase("yes")) { b = true; } else { b = Boolean.parseBoolean(s); } } return b; } /** * Returns the <tt>Class</tt> object associated with the class or * interface with the given string name. * * <p> * The <tt>Class</tt> object is determined by passing the given string * name to the <tt>Class.forName()</tt> method, unless the given string * name represents a primitive type, in which case it is converted to a * <tt>Class</tt> object by appending ".class" to it (e.g., "int.class"). * @param type The class name, array or primitive type * @param loader The class loader * @return the loaded class * @throws ClassNotFoundException Loading class failed */ public static Class<?> toClass(String type, ClassLoader loader) throws ClassNotFoundException { Class<?> c = null; int i0 = type.indexOf('['); int dims = 0; if (i0 > 0) { // This is an array. Count the dimensions for (int i = 0; i < type.length(); i++) { if (type.charAt(i) == '[') { dims++; } } type = type.substring(0, i0); } if ("boolean".equals(type)) { c = boolean.class; } else if ("char".equals(type)) { c = char.class; } else if ("byte".equals(type)) { c = byte.class; } else if ("short".equals(type)) { c = short.class; } else if ("int".equals(type)) { c = int.class; } else if ("long".equals(type)) { c = long.class; } else if ("float".equals(type)) { c = float.class; } else if ("double".equals(type)) { c = double.class; } else if ("void".equals(type)) { c = void.class; } else if (type.indexOf('[') < 0) { c = loader.loadClass(type); } if (dims == 0) { return c; } if (dims == 1) { return java.lang.reflect.Array.newInstance(c, 1).getClass(); } // Array of more than i dimension return java.lang.reflect.Array.newInstance(c, new int[dims]).getClass(); } /** * Produces a String representing a call to the EL interpreter. * * @param isTagFile <code>true</code> if the file is a tag file * rather than a JSP * @param expression * a String containing zero or more "${}" expressions * @param expectedType * the expected type of the interpreted result * @param fnmapvar * Variable pointing to a function map. * @return a String representing a call to the EL interpreter. */ public static String interpreterCall(boolean isTagFile, String expression, Class<?> expectedType, String fnmapvar) { /* * Determine which context object to use. */ String jspCtxt = null; if (isTagFile) { jspCtxt = "this.getJspContext()"; } else { jspCtxt = "_jspx_page_context"; } /* * Determine whether to use the expected type's textual name or, if it's * a primitive, the name of its correspondent boxed type. */ String returnType = expectedType.getCanonicalName(); String targetType = returnType; String primitiveConverterMethod = null; if (expectedType.isPrimitive()) { if (expectedType.equals(Boolean.TYPE)) { returnType = Boolean.class.getName(); primitiveConverterMethod = "booleanValue"; } else if (expectedType.equals(Byte.TYPE)) { returnType = Byte.class.getName(); primitiveConverterMethod = "byteValue"; } else if (expectedType.equals(Character.TYPE)) { returnType = Character.class.getName(); primitiveConverterMethod = "charValue"; } else if (expectedType.equals(Short.TYPE)) { returnType = Short.class.getName(); primitiveConverterMethod = "shortValue"; } else if (expectedType.equals(Integer.TYPE)) { returnType = Integer.class.getName(); primitiveConverterMethod = "intValue"; } else if (expectedType.equals(Long.TYPE)) { returnType = Long.class.getName(); primitiveConverterMethod = "longValue"; } else if (expectedType.equals(Float.TYPE)) { returnType = Float.class.getName(); primitiveConverterMethod = "floatValue"; } else if (expectedType.equals(Double.TYPE)) { returnType = Double.class.getName(); primitiveConverterMethod = "doubleValue"; } } /* * Build up the base call to the interpreter. */ // XXX - We use a proprietary call to the interpreter for now // as the current standard machinery is inefficient and requires // lots of wrappers and adapters. This should all clear up once // the EL interpreter moves out of JSTL and into its own project. // In the future, this should be replaced by code that calls // ExpressionEvaluator.parseExpression() and then cache the resulting // expression objects. The interpreterCall would simply select // one of the pre-cached expressions and evaluate it. // Note that PageContextImpl implements VariableResolver and // the generated Servlet/SimpleTag implements FunctionMapper, so // that machinery is already in place (mroth). targetType = toJavaSourceType(targetType); StringBuilder call = new StringBuilder( "(" + returnType + ") " + "org.apache.jasper.runtime.PageContextImpl.proprietaryEvaluate" + "(" + Generator.quote(expression) + ", " + targetType + ".class, " + "(javax.servlet.jsp.PageContext)" + jspCtxt + ", " + fnmapvar + ")"); /* * Add the primitive converter method if we need to. */ if (primitiveConverterMethod != null) { call.insert(0, "("); call.append(")." + primitiveConverterMethod + "()"); } return call.toString(); } public static String coerceToPrimitiveBoolean(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToBoolean(" + s + ")"; } else { if (s == null || s.length() == 0) { return "false"; } else { return Boolean.valueOf(s).toString(); } } } public static String coerceToBoolean(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Boolean) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Boolean.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Boolean(false)"; } else { // Detect format error at translation time return "new java.lang.Boolean(" + Boolean.valueOf(s).toString() + ")"; } } } public static String coerceToPrimitiveByte(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToByte(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(byte) 0"; } else { return "((byte)" + Byte.valueOf(s).toString() + ")"; } } } public static String coerceToByte(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Byte) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Byte.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Byte((byte) 0)"; } else { // Detect format error at translation time return "new java.lang.Byte((byte)" + Byte.valueOf(s).toString() + ")"; } } } public static String coerceToChar(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToChar(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(char) 0"; } else { char ch = s.charAt(0); // this trick avoids escaping issues return "((char) " + (int) ch + ")"; } } } public static String coerceToCharacter(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Character) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Character.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Character((char) 0)"; } else { char ch = s.charAt(0); // this trick avoids escaping issues return "new java.lang.Character((char) " + (int) ch + ")"; } } } public static String coerceToPrimitiveDouble(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToDouble(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(double) 0"; } else { return Double.valueOf(s).toString(); } } } public static String coerceToDouble(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Double) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", Double.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Double(0)"; } else { // Detect format error at translation time return "new java.lang.Double(" + Double.valueOf(s).toString() + ")"; } } } public static String coerceToPrimitiveFloat(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToFloat(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(float) 0"; } else { return Float.valueOf(s).toString() + "f"; } } } public static String coerceToFloat(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Float) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Float.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Float(0)"; } else { // Detect format error at translation time return "new java.lang.Float(" + Float.valueOf(s).toString() + "f)"; } } } public static String coerceToInt(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToInt(" + s + ")"; } else { if (s == null || s.length() == 0) { return "0"; } else { return Integer.valueOf(s).toString(); } } } public static String coerceToInteger(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Integer) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Integer.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Integer(0)"; } else { // Detect format error at translation time return "new java.lang.Integer(" + Integer.valueOf(s).toString() + ")"; } } } public static String coerceToPrimitiveShort(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToShort(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(short) 0"; } else { return "((short) " + Short.valueOf(s).toString() + ")"; } } } public static String coerceToShort(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Short) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Short.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Short((short) 0)"; } else { // Detect format error at translation time return "new java.lang.Short(\"" + Short.valueOf(s).toString() + "\")"; } } } public static String coerceToPrimitiveLong(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "org.apache.jasper.runtime.JspRuntimeLibrary.coerceToLong(" + s + ")"; } else { if (s == null || s.length() == 0) { return "(long) 0"; } else { return Long.valueOf(s).toString() + "l"; } } } public static String coerceToLong(String s, boolean isNamedAttribute) { if (isNamedAttribute) { return "(java.lang.Long) org.apache.jasper.runtime.JspRuntimeLibrary.coerce(" + s + ", java.lang.Long.class)"; } else { if (s == null || s.length() == 0) { return "new java.lang.Long(0)"; } else { // Detect format error at translation time return "new java.lang.Long(" + Long.valueOf(s).toString() + "l)"; } } } public static BufferedInputStream getInputStream(String fname, Jar jar, JspCompilationContext ctxt) throws IOException { InputStream in = null; if (jar != null) { String jarEntryName = fname.substring(1, fname.length()); in = jar.getInputStream(jarEntryName); } else { in = ctxt.getResourceAsStream(fname); } if (in == null) { throw new FileNotFoundException(Localizer.getMessage( "jsp.error.file.not.found", fname)); } return new BufferedInputStream(in, JspUtil.JSP_INPUT_STREAM_BUFFER_SIZE); } public static InputSource getInputSource(String fname, Jar jar, JspCompilationContext ctxt) throws IOException { InputSource source; if (jar != null) { String jarEntryName = fname.substring(1, fname.length()); source = new InputSource(jar.getInputStream(jarEntryName)); source.setSystemId(jar.getURL(jarEntryName)); } else { source = new InputSource(ctxt.getResourceAsStream(fname)); source.setSystemId(ctxt.getResource(fname).toExternalForm()); } return source; } /** * Gets the fully-qualified class name of the tag handler corresponding to * the given tag file path. * * @param path Tag file path * @param urn The tag identifier * @param err Error dispatcher * * @return Fully-qualified class name of the tag handler corresponding to * the given tag file path * @throws JasperException Failed to generate a class name for the tag */ public static String getTagHandlerClassName(String path, String urn, ErrorDispatcher err) throws JasperException { String className = null; int begin = 0; int index; index = path.lastIndexOf(".tag"); if (index == -1) { err.jspError("jsp.error.tagfile.badSuffix", path); } // It's tempting to remove the ".tag" suffix here, but we can't. // If we remove it, the fully-qualified class name of this tag // could conflict with the package name of other tags. // For instance, the tag file // /WEB-INF/tags/foo.tag // would have fully-qualified class name // org.apache.jsp.tag.web.foo // which would conflict with the package name of the tag file // /WEB-INF/tags/foo/bar.tag index = path.indexOf(WEB_INF_TAGS); if (index != -1) { className = Constants.TAG_FILE_PACKAGE_NAME + ".web."; begin = index + WEB_INF_TAGS.length(); } else { index = path.indexOf(META_INF_TAGS); if (index != -1) { className = getClassNameBase(urn); begin = index + META_INF_TAGS.length(); } else { err.jspError("jsp.error.tagfile.illegalPath", path); } } className += makeJavaPackage(path.substring(begin)); return className; } private static String getClassNameBase(String urn) { StringBuilder base = new StringBuilder(Constants.TAG_FILE_PACKAGE_NAME + ".meta."); if (urn != null) { base.append(makeJavaPackage(urn)); base.append('.'); } return base.toString(); } /** * Converts the given path to a Java package or fully-qualified class name * * @param path * Path to convert * * @return Java package corresponding to the given path */ public static final String makeJavaPackage(String path) { String classNameComponents[] = split(path, "/"); StringBuilder legalClassNames = new StringBuilder(); for (int i = 0; i < classNameComponents.length; i++) { legalClassNames.append(makeJavaIdentifier(classNameComponents[i])); if (i < classNameComponents.length - 1) { legalClassNames.append('.'); } } return legalClassNames.toString(); } /** * Splits a string into it's components. * * @param path * String to split * @param pat * Pattern to split at * @return the components of the path */ private static final String[] split(String path, String pat) { Vector<String> comps = new Vector<>(); int pos = path.indexOf(pat); int start = 0; while (pos >= 0) { if (pos > start) { String comp = path.substring(start, pos); comps.add(comp); } start = pos + pat.length(); pos = path.indexOf(pat, start); } if (start < path.length()) { comps.add(path.substring(start)); } String[] result = new String[comps.size()]; for (int i = 0; i < comps.size(); i++) { result[i] = comps.elementAt(i); } return result; } /** * Converts the given identifier to a legal Java identifier * * @param identifier * Identifier to convert * * @return Legal Java identifier corresponding to the given identifier */ public static final String makeJavaIdentifier(String identifier) { return makeJavaIdentifier(identifier, true); } /** * Converts the given identifier to a legal Java identifier * to be used for JSP Tag file attribute names. * * @param identifier * Identifier to convert * * @return Legal Java identifier corresponding to the given identifier */ public static final String makeJavaIdentifierForAttribute(String identifier) { return makeJavaIdentifier(identifier, false); } /** * Converts the given identifier to a legal Java identifier. * * @param identifier * Identifier to convert * * @return Legal Java identifier corresponding to the given identifier */ private static final String makeJavaIdentifier(String identifier, boolean periodToUnderscore) { StringBuilder modifiedIdentifier = new StringBuilder(identifier.length()); if (!Character.isJavaIdentifierStart(identifier.charAt(0))) { modifiedIdentifier.append('_'); } for (int i = 0; i < identifier.length(); i++) { char ch = identifier.charAt(i); if (Character.isJavaIdentifierPart(ch) && (ch != '_' || !periodToUnderscore)) { modifiedIdentifier.append(ch); } else if (ch == '.' && periodToUnderscore) { modifiedIdentifier.append('_'); } else { modifiedIdentifier.append(mangleChar(ch)); } } if (isJavaKeyword(modifiedIdentifier.toString())) { modifiedIdentifier.append('_'); } return modifiedIdentifier.toString(); } /** * Mangle the specified character to create a legal Java class name. * @param ch The character * @return the replacement character as a string */ public static final String mangleChar(char ch) { char[] result = new char[5]; result[0] = '_'; result[1] = Character.forDigit((ch >> 12) & 0xf, 16); result[2] = Character.forDigit((ch >> 8) & 0xf, 16); result[3] = Character.forDigit((ch >> 4) & 0xf, 16); result[4] = Character.forDigit(ch & 0xf, 16); return new String(result); } /** * Test whether the argument is a Java keyword. * @param key The name * @return <code>true</code> if the name is a java identifier */ public static boolean isJavaKeyword(String key) { int i = 0; int j = javaKeywords.length; while (i < j) { int k = (i + j) / 2; int result = javaKeywords[k].compareTo(key); if (result == 0) { return true; } if (result < 0) { i = k + 1; } else { j = k; } } return false; } static InputStreamReader getReader(String fname, String encoding, Jar jar, JspCompilationContext ctxt, ErrorDispatcher err) throws JasperException, IOException { return getReader(fname, encoding, jar, ctxt, err, 0); } static InputStreamReader getReader(String fname, String encoding, Jar jar, JspCompilationContext ctxt, ErrorDispatcher err, int skip) throws JasperException, IOException { InputStreamReader reader = null; InputStream in = getInputStream(fname, jar, ctxt); for (int i = 0; i < skip; i++) { in.read(); } try { reader = new InputStreamReader(in, encoding); } catch (UnsupportedEncodingException ex) { err.jspError("jsp.error.unsupported.encoding", encoding); } return reader; } /** * Handles taking input from TLDs 'java.lang.Object' -> * 'java.lang.Object.class' 'int' -> 'int.class' 'void' -> 'Void.TYPE' * 'int[]' -> 'int[].class' * * @param type The type from the TLD * @return the Java type */ public static String toJavaSourceTypeFromTld(String type) { if (type == null || "void".equals(type)) { return "java.lang.Void.TYPE"; } return type + ".class"; } /** * Class.getName() return arrays in the form "[[[<et>", where et, the * element type can be one of ZBCDFIJS or L<classname>;. It is * converted into forms that can be understood by javac. * @param type the type to convert * @return the equivalent type in Java sources */ public static String toJavaSourceType(String type) { if (type.charAt(0) != '[') { return type; } int dims = 1; String t = null; for (int i = 1; i < type.length(); i++) { if (type.charAt(i) == '[') { dims++; } else { switch (type.charAt(i)) { case 'Z': t = "boolean"; break; case 'B': t = "byte"; break; case 'C': t = "char"; break; case 'D': t = "double"; break; case 'F': t = "float"; break; case 'I': t = "int"; break; case 'J': t = "long"; break; case 'S': t = "short"; break; case 'L': t = type.substring(i+1, type.indexOf(';')); break; } break; } } if (t == null) { // Should never happen throw new IllegalArgumentException("Unable to extract type from [" + type + "]"); } StringBuilder resultType = new StringBuilder(t); for (; dims > 0; dims--) { resultType.append("[]"); } return resultType.toString(); } }