/* *******************************************************************
 * Copyright (c) 2002 Palo Alto Research Center, Incorporated (PARC).
 * All rights reserved. 
 * This program and the accompanying materials are made available 
 * under the terms of the Eclipse Public License v1.0 
 * which accompanies this distribution and is available at 
 * http://www.eclipse.org/legal/epl-v10.html 
 *  
 * Contributors: 
 *     PARC     initial implementation 
 * ******************************************************************/

package org.aspectj.weaver;

import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.text.MessageFormat;
import java.util.Collection;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.Properties;

import org.aspectj.bridge.IMessage;
import org.aspectj.bridge.ISourceLocation;
import org.aspectj.bridge.MessageUtil;
import org.aspectj.weaver.tools.Trace;
import org.aspectj.weaver.tools.TraceFactory;

public class Lint {
	Map<String, Lint.Kind> kinds = new HashMap<String, Lint.Kind>();
	/* private */World world;

	public final Kind invalidAbsoluteTypeName = new Kind("invalidAbsoluteTypeName", "no match for this type name: {0}");

	public final Kind invalidWildcardTypeName = new Kind("invalidWildcardTypeName", "no match for this type pattern: {0}");

	public final Kind unresolvableMember = new Kind("unresolvableMember", "can not resolve this member: {0}");

	public final Kind typeNotExposedToWeaver = new Kind("typeNotExposedToWeaver",
			"this affected type is not exposed to the weaver: {0}");

	public final Kind shadowNotInStructure = new Kind("shadowNotInStructure",
			"the shadow for this join point is not exposed in the structure model: {0}");

	public final Kind unmatchedSuperTypeInCall = new Kind("unmatchedSuperTypeInCall",
			"does not match because declaring type is {0}, if match desired use target({1})");

	public final Kind unmatchedTargetKind = new Kind("unmatchedTargetKind", "does not match because annotation {0} has @Target{1}");

	public final Kind canNotImplementLazyTjp = new Kind("canNotImplementLazyTjp",
			"can not implement lazyTjp on this joinpoint {0} because around advice is used");

	public final Kind multipleAdviceStoppingLazyTjp = new Kind("multipleAdviceStoppingLazyTjp",
			"can not implement lazyTjp at joinpoint {0} because of advice conflicts, see secondary locations to find conflicting advice");

	public final Kind needsSerialVersionUIDField = new Kind("needsSerialVersionUIDField",
			"serialVersionUID of type {0} needs to be set because of {1}");

	public final Kind serialVersionUIDBroken = new Kind("brokeSerialVersionCompatibility",
			"serialVersionUID of type {0} is broken because of added field {1}");

	public final Kind noInterfaceCtorJoinpoint = new Kind("noInterfaceCtorJoinpoint",
			"no interface constructor-execution join point - use {0}+ for implementing classes");

	public final Kind noJoinpointsForBridgeMethods = new Kind(
			"noJoinpointsForBridgeMethods",
			"pointcut did not match on the method call to a bridge method.  Bridge methods are generated by the compiler and have no join points");

	public final Kind enumAsTargetForDecpIgnored = new Kind("enumAsTargetForDecpIgnored",
			"enum type {0} matches a declare parents type pattern but is being ignored");

	public final Kind annotationAsTargetForDecpIgnored = new Kind("annotationAsTargetForDecpIgnored",
			"annotation type {0} matches a declare parents type pattern but is being ignored");

	public final Kind cantMatchArrayTypeOnVarargs = new Kind("cantMatchArrayTypeOnVarargs",
			"an array type as the last parameter in a signature does not match on the varargs declared method: {0}");

	public final Kind adviceDidNotMatch = new Kind("adviceDidNotMatch", "advice defined in {0} has not been applied");

	public final Kind invalidTargetForAnnotation = new Kind("invalidTargetForAnnotation",
			"{0} is not a valid target for annotation {1}, this annotation can only be applied to {2}");

	public final Kind elementAlreadyAnnotated = new Kind("elementAlreadyAnnotated",
			"{0} - already has an annotation of type {1}, cannot add a second instance");

	public final Kind runtimeExceptionNotSoftened = new Kind("runtimeExceptionNotSoftened",
			"{0} will not be softened as it is already a RuntimeException");

	public final Kind uncheckedArgument = new Kind("uncheckedArgument",
			"unchecked match of {0} with {1} when argument is an instance of {2} at join point {3}");

	public final Kind uncheckedAdviceConversion = new Kind("uncheckedAdviceConversion",
			"unchecked conversion when advice applied at shadow {0}, expected {1} but advice uses {2}");

	public final Kind noGuardForLazyTjp = new Kind("noGuardForLazyTjp",
			"can not build thisJoinPoint lazily for this advice since it has no suitable guard");

	public final Kind noExplicitConstructorCall = new Kind("noExplicitConstructorCall",
			"inter-type constructor does not contain explicit constructor call: field initializers in the target type will not be executed");

	public final Kind aspectExcludedByConfiguration = new Kind("aspectExcludedByConfiguration",
			"aspect {0} exluded for class loader {1}");

	public final Kind unorderedAdviceAtShadow = new Kind("unorderedAdviceAtShadow",
			"at this shadow {0} no precedence is specified between advice applying from aspect {1} and aspect {2}");

	public final Kind swallowedExceptionInCatchBlock = new Kind("swallowedExceptionInCatchBlock",
			"exception swallowed in catch block");

	public final Kind calculatingSerialVersionUID = new Kind("calculatingSerialVersionUID",
			"calculated SerialVersionUID for type {0} to be {1}");

	public final Kind nonReweavableTypeEncountered = new Kind("nonReweavableTypeEncountered",
			"class {0} is already woven and has not been built in reweavable mode");

	// there are a lot of messages in the cant find type family - I'm defining an umbrella lint warning that
	// allows a user to control their severity (for e.g. ltw or binary weaving)
	public final Kind cantFindType = new Kind("cantFindType", "{0}");

	public final Kind cantFindTypeAffectingJoinPointMatch = new Kind("cantFindTypeAffectingJPMatch", "{0}");

	public final Kind advisingSynchronizedMethods = new Kind("advisingSynchronizedMethods",
			"advice matching the synchronized method shadow ''{0}'' will be executed outside the lock rather than inside (compiler limitation)");

	public final Kind mustWeaveXmlDefinedAspects = new Kind(
			"mustWeaveXmlDefinedAspects",
			"XML Defined aspects must be woven in cases where cflow pointcuts are involved. Currently the include/exclude patterns exclude ''{0}''");

	public final Kind cannotAdviseJoinpointInInterfaceWithAroundAdvice = new Kind(
			"cannotAdviseJoinpointInInterfaceWithAroundAdvice",
			"The joinpoint ''{0}'' cannot be advised and is being skipped as the compiler implementation will lead to creation of methods with bodies in an interface (compiler limitation)");

	
Indicates an aspect could not be found when attempting reweaving.
/** * Indicates an aspect could not be found when attempting reweaving. */
public final Kind missingAspectForReweaving = new Kind("missingAspectForReweaving", "aspect {0} cannot be found when reweaving {1}"); private static Trace trace = TraceFactory.getTraceFactory().getTrace(Lint.class); public Lint(World world) { if (trace.isTraceEnabled()) { trace.enter("<init>", this, world); } this.world = world; if (trace.isTraceEnabled()) { trace.exit("<init>"); } } public void setAll(String messageKind) { if (trace.isTraceEnabled()) { trace.enter("setAll", this, messageKind); } setAll(getMessageKind(messageKind)); if (trace.isTraceEnabled()) { trace.exit("setAll"); } } private void setAll(IMessage.Kind messageKind) { for (Kind kind : kinds.values()) { kind.setKind(messageKind); } } public void setFromMap(Map<String,String> lintOptionsMap) { for (String key: lintOptionsMap.keySet()) { String value = lintOptionsMap.get(key); Kind kind = kinds.get(key); if (kind == null) { MessageUtil.error(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINT_KEY_ERROR, key)); } else { kind.setKind(getMessageKind(value)); } } } public void setFromProperties(File file) { if (trace.isTraceEnabled()) { trace.enter("setFromProperties", this, file); } InputStream s = null; try { s = new FileInputStream(file); setFromProperties(s); } catch (IOException ioe) { MessageUtil.error(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINT_LOAD_ERROR, file.getPath(), ioe.getMessage())); } finally { if (s != null) { try { s.close(); } catch (IOException e) { // ignore } } } if (trace.isTraceEnabled()) { trace.exit("setFromProperties"); } } public void loadDefaultProperties() { InputStream s = getClass().getResourceAsStream("XlintDefault.properties"); if (s == null) { MessageUtil.warn(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINTDEFAULT_LOAD_ERROR)); return; } try { setFromProperties(s); } catch (IOException ioe) { MessageUtil.error(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINTDEFAULT_LOAD_PROBLEM, ioe.getMessage())); } finally { try { s.close(); } catch (IOException ioe) { // ignore } } } private void setFromProperties(InputStream s) throws IOException { Properties p = new Properties(); p.load(s); setFromProperties(p); } @SuppressWarnings("rawtypes") public void setFromProperties(Properties properties) { for (Iterator i = properties.entrySet().iterator(); i.hasNext();) { Map.Entry entry = (Map.Entry) i.next(); Kind kind = kinds.get(entry.getKey()); if (kind == null) { MessageUtil.error(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINT_KEY_ERROR, entry.getKey())); } else { kind.setKind(getMessageKind((String) entry.getValue())); } } } public Collection<Kind> allKinds() { return kinds.values(); } public Kind getLintKind(String name) { return kinds.get(name); } // temporarily suppress the given lint messages public void suppressKinds(Collection<Kind> lintKind) { if (lintKind.isEmpty()) { return; } for (Kind k : lintKind) { k.setSuppressed(true); } } // remove any suppression of lint warnings in place public void clearAllSuppressions() { for (Kind k : kinds.values()) { k.setSuppressed(false); } } public void clearSuppressions(Collection<Lint.Kind> lintKinds) { for (Kind k : lintKinds) { k.setSuppressed(false); } } private IMessage.Kind getMessageKind(String v) { if (v.equals("ignore")) { return null; } else if (v.equals("warning")) { return IMessage.WARNING; } else if (v.equals("error")) { return IMessage.ERROR; } MessageUtil.error(world.getMessageHandler(), WeaverMessages.format(WeaverMessages.XLINT_VALUE_ERROR, v)); return null; } public Kind fromKey(String lintkey) { return kinds.get(lintkey); } public class Kind { private final String name; private final String message; private IMessage.Kind kind = IMessage.WARNING; private boolean isSupressed = false; // by SuppressAjWarnings public Kind(String name, String message) { this.name = name; this.message = message; kinds.put(this.name, this); } public void setSuppressed(boolean shouldBeSuppressed) { this.isSupressed = shouldBeSuppressed; } public boolean isEnabled() { return (kind != null) && !isSupressed(); } private boolean isSupressed() { // can't suppress errors! return isSupressed && (kind != IMessage.ERROR); } public String getName() { return name; } public IMessage.Kind getKind() { return kind; } public void setKind(IMessage.Kind kind) { this.kind = kind; } public void signal(String info, ISourceLocation location) { if (kind == null) { return; } String text = MessageFormat.format(message, new Object[] { info }); text += " [Xlint:" + name + "]"; world.getMessageHandler().handleMessage(new LintMessage(text, kind, location, null, getLintKind(name))); } public void signal(String[] infos, ISourceLocation location, ISourceLocation[] extraLocations) { if (kind == null) { return; } String text = MessageFormat.format(message, (Object[]) infos); text += " [Xlint:" + name + "]"; world.getMessageHandler().handleMessage(new LintMessage(text, kind, location, extraLocations, getLintKind(name))); } } }