/* * Copyright © 2009 Reinier Zwitserloot and Roel Spilker. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ package lombok.core; import java.lang.annotation.Annotation; import java.lang.reflect.Array; import java.lang.reflect.InvocationHandler; import java.lang.reflect.Method; import java.lang.reflect.Proxy; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Map; /** * Represents a single annotation in a source file and can be used to query the parameters present on it. */ public class AnnotationValues { private final Class type; private final Map values; private final AST.Node ast; /** * Represents a single method on the annotation class. For example, the value() method on the Getter annotation. */ public static class AnnotationValue { /** A list of the raw expressions. List is size 1 unless an array is provided. */ public final List raws; /** Guesses for each raw expression. If the raw expression is a literal expression, the guess will * likely be right. If not, it'll be wrong. */ public final List valueGuesses; private final AST.Node node; /** * 'raw' should be the exact expression, for example '5+7', 'AccessLevel.PUBLIC', or 'int.class'. * 'valueGuess' should be a likely guess at the real value intended. * * For classes, supply the class name (qualified or not) as a string.
* For enums, supply the simple name part (everything after the last dot) as a string.
*/ public AnnotationValue(AST.Node node, String raw, Object valueGuess) { this.node = node; this.raws = Collections.singletonList(raw); this.valueGuesses = Collections.singletonList(valueGuess); } /** * Like the other constructor, but used for when the annotation method is initialized with an array value. */ public AnnotationValue(AST.Node node, List raws, List valueGuesses) { this.node = node; this.raws = raws; this.valueGuesses = valueGuesses; } /** * Override this if you want more specific behaviour (to get the source position just right). * * @param message English message with the problem. * @param valueIdx The index into the values for this annotation key that caused the problem. * -1 for a problem that applies to all values, otherwise the 0-based index into an array of values. * If there is no array for this value (e.g. value=1 instead of value={1,2}), then always -1 or 0. */ public void setError(String message, int valueIdx) { node.addError(message); } /** * Override this if you want more specific behaviour (to get the source position just right). * * @param message English message with the problem. * @param valueIdx The index into the values for this annotation key that caused the problem. * -1 for a problem that applies to all values, otherwise the 0-based index into an array of values. * If there is no array for this value (e.g. value=1 instead of value={1,2}), then always -1 or 0. */ public void setWarning(String message, int valueIdx) { node.addError(message); } /** {@inheritDoc} */ @Override public String toString() { return "raws: " + raws + " valueGuesses: " + valueGuesses; } } /** * Creates a new AnnotationValues. * * @param type The annotation type. For example, "Getter.class" * @param values a Map of method names to AnnotationValue instances, for example 'value -> annotationValue instance'. * @param ast The Annotation node. */ public AnnotationValues(Class type, Map values, AST.Node ast) { this.type = type; this.values = values; this.ast = ast; } /** * Thrown on the fly if an actual annotation instance procured via the {@link #getInstance()} method is queried * for a method for which this AnnotationValues instance either doesn't have a guess or can't manage to fit * the guess into the required data type. */ public static class AnnotationValueDecodeFail extends RuntimeException { private static final long serialVersionUID = 1L; /** The index into an array initializer (e.g. if the second value in an array initializer is * an integer constant expression like '5+SomeOtherClass.CONSTANT', this exception will be thrown, * and you'll get a '1' for idx. */ public final int idx; /** The AnnotationValue object that goes with the annotation method for which the failure occurred. */ public final AnnotationValue owner; public AnnotationValueDecodeFail(AnnotationValue owner, String msg, int idx) { super(msg); this.idx = idx; this.owner = owner; } } private static AnnotationValueDecodeFail makeNoDefaultFail(AnnotationValue owner, Method method) { return new AnnotationValueDecodeFail(owner, "No value supplied but " + method.getName() + " has no default either.", -1); } private A cachedInstance = null; /** * Creates an actual annotation instance. You can use this to query any annotation methods, except for * those annotation methods with class literals, as those can most likely not be turned into Class objects. * * If some of the methods cannot be implemented, this method still works; it's only when you call a method * that has a problematic value that an AnnotationValueDecodeFail exception occurs. */ @SuppressWarnings("unchecked") public A getInstance() { if ( cachedInstance != null ) return cachedInstance; InvocationHandler invocations = new InvocationHandler() { public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { AnnotationValue v = values.get(method.getName()); if ( v == null ) { Object defaultValue = method.getDefaultValue(); if ( defaultValue != null ) return defaultValue; throw makeNoDefaultFail(v, method); } boolean isArray = false; Class expected = method.getReturnType(); Object array = null; if ( expected.isArray() ) { isArray = true; expected = expected.getComponentType(); array = Array.newInstance(expected, v.valueGuesses.size()); } if ( !isArray && v.valueGuesses.size() > 1 ) { throw new AnnotationValueDecodeFail(v, "Expected a single value, but " + method.getName() + " has an array of values", -1); } if ( v.valueGuesses.size() == 0 && !isArray ) { Object defaultValue = method.getDefaultValue(); if ( defaultValue == null ) throw makeNoDefaultFail(v, method); return defaultValue; } int idx = 0; for ( Object guess : v.valueGuesses ) { Object result = guess == null ? null : guessToType(guess, expected, v, idx); if ( !isArray ) { if ( result == null ) { Object defaultValue = method.getDefaultValue(); if ( defaultValue == null ) throw makeNoDefaultFail(v, method); return defaultValue; } else return result; } else { if ( result == null ) { if ( v.valueGuesses.size() == 1 ) { Object defaultValue = method.getDefaultValue(); if ( defaultValue == null ) throw makeNoDefaultFail(v, method); return defaultValue; } else throw new AnnotationValueDecodeFail(v, "I can't make sense of this annotation value. Try using a fully qualified literal.", idx); } Array.set(array, idx++, result); } } return array; } }; return cachedInstance = (A) Proxy.newProxyInstance(type.getClassLoader(), new Class[] { type }, invocations); } private Object guessToType(Object guess, Class expected, AnnotationValue v, int pos) { if ( expected == int.class ) { if ( guess instanceof Integer || guess instanceof Short || guess instanceof Byte ) { return ((Number)guess).intValue(); } } if ( expected == long.class ) { if ( guess instanceof Long || guess instanceof Integer || guess instanceof Short || guess instanceof Byte ) { return ((Number)guess).longValue(); } } if ( expected == short.class ) { if ( guess instanceof Integer || guess instanceof Short || guess instanceof Byte ) { int intVal = ((Number)guess).intValue(); int shortVal = ((Number)guess).shortValue(); if ( shortVal == intVal ) return shortVal; } } if ( expected == byte.class ) { if ( guess instanceof Integer || guess instanceof Short || guess instanceof Byte ) { int intVal = ((Number)guess).intValue(); int byteVal = ((Number)guess).byteValue(); if ( byteVal == intVal ) return byteVal; } } if ( expected == double.class ) { if ( guess instanceof Number ) return ((Number)guess).doubleValue(); } if ( expected == float.class ) { if ( guess instanceof Number ) return ((Number)guess).floatValue(); } if ( expected == boolean.class ) { if ( guess instanceof Boolean ) return ((Boolean)guess).booleanValue(); } if ( expected == char.class ) { if ( guess instanceof Character ) return ((Character)guess).charValue(); } if ( expected == String.class ) { if ( guess instanceof String ) return guess; } if ( Enum.class.isAssignableFrom(expected) ) { if ( guess instanceof String ) { for ( Object enumConstant : expected.getEnumConstants() ) { String target = ((Enum)enumConstant).name(); if ( target.equals(guess) ) return enumConstant; } throw new AnnotationValueDecodeFail(v, "Can't translate " + guess + " to an enum of type " + expected, pos); } } if ( Class.class == expected ) { if ( guess instanceof String ) try { return Class.forName(toFQ((String)guess)); } catch ( ClassNotFoundException e ) { throw new AnnotationValueDecodeFail(v, "Can't translate " + guess + " to a class object.", pos); } } throw new AnnotationValueDecodeFail(v, "Can't translate a " + guess.getClass() + " to the expected " + expected, pos); } /** * Returns the raw expressions used for the provided annotationMethodName. * * You should use this method for annotation methods that return Class objects. Remember that * class literals end in ".class" which you probably want to strip off. */ public List getRawExpressions(String annotationMethodName) { AnnotationValue v = values.get(annotationMethodName); return v == null ? Collections.emptyList() : v.raws; } public boolean isExplicit(String annotationMethodName) { return values.get(annotationMethodName) != null; } /** * Convenience method to return the first result in a {@link #getRawExpressions(String)} call. * * You should use this method if the annotation method is not an array type. */ public String getRawExpression(String annotationMethodName) { List l = getRawExpressions(annotationMethodName); return l.isEmpty() ? null : l.get(0); } /** Generates an error message on the stated annotation value (you should only call this method if you know it's there!) */ public void setError(String annotationMethodName, String message) { setError(annotationMethodName, message, -1); } /** Generates a warning message on the stated annotation value (you should only call this method if you know it's there!) */ public void setWarning(String annotationMethodName, String message) { setWarning(annotationMethodName, message, -1); } /** Generates an error message on the stated annotation value, which must have an array initializer. * The index-th item in the initializer will carry the error (you should only call this method if you know it's there!) */ public void setError(String annotationMethodName, String message, int index) { AnnotationValue v = values.get(annotationMethodName); if ( v == null ) return; v.setError(message, index); } /** Generates a warning message on the stated annotation value, which must have an array initializer. * The index-th item in the initializer will carry the error (you should only call this method if you know it's there!) */ public void setWarning(String annotationMethodName, String message, int index) { AnnotationValue v = values.get(annotationMethodName); if ( v == null ) return; v.setWarning(message, index); } /** * Attempts to translate class literals to their fully qualified names, such as 'Throwable.class' to 'java.lang.Throwable'. * * This process is at best a guess, but it will take into account import statements. */ public List getProbableFQTypes(String annotationMethodName) { List result = new ArrayList(); AnnotationValue v = values.get(annotationMethodName); if ( v == null ) return Collections.emptyList(); for ( Object o : v.valueGuesses ) result.add(o == null ? null : toFQ(o.toString())); return result; } /** * Convenience method to return the first result in a {@link #getProbableFQType(String)} call. * * You should use this method if the annotation method is not an array type. */ public String getProbableFQType(String annotationMethodName) { List l = getProbableFQTypes(annotationMethodName); return l.isEmpty() ? null : l.get(0); } private String toFQ(String typeName) { Class c; boolean fqn = typeName.indexOf('.') > -1; String prefix = fqn ? typeName.substring(0, typeName.indexOf('.')) : typeName; for ( String im : ast.getImportStatements() ) { int idx = im.lastIndexOf('.'); String simple = im; if ( idx > -1 ) simple = im.substring(idx+1); if ( simple.equals(prefix) ) { return im + typeName.substring(prefix.length()); } } c = tryClass(typeName); if ( c != null ) return c.getName(); c = tryClass("java.lang." + typeName); if ( c != null ) return c.getName(); //Try star imports for ( String im : ast.getImportStatements() ) { if ( im.endsWith(".*") ) { c = tryClass(im.substring(0, im.length() -1) + typeName); if ( c != null ) return c.getName(); } } if ( !fqn ) { String pkg = ast.getPackageDeclaration(); if ( pkg != null ) return pkg + "." + typeName; } return null; } private Class tryClass(String name) { try { return Class.forName(name); } catch ( ClassNotFoundException e ) { return null; } } }