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org.walkmod.javalang.walkers.DefaultJavaWalker Maven / Gradle / Ivy
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Walkmod plugin to support the Java 8 programming language. It contains helper visitors, a walker and a basic code writer.
/*
Copyright (C) 2013 Raquel Pau and Albert Coroleu.
Walkmod is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Walkmod is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with Walkmod. If not, see .*/
package org.walkmod.javalang.walkers;
import java.io.File;
import java.io.IOException;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.apache.log4j.Logger;
import org.walkmod.conf.entities.Configuration;
import org.walkmod.exceptions.WalkModException;
import org.walkmod.javalang.actions.Action;
import org.walkmod.javalang.ast.CompilationUnit;
import org.walkmod.javalang.compiler.symbols.RequiresSemanticAnalysis;
import org.walkmod.javalang.compiler.symbols.SymbolVisitorAdapter;
import org.walkmod.modelchecker.Constraint;
import org.walkmod.modelchecker.ConstraintProvider;
import org.walkmod.util.location.LocationImpl;
import org.walkmod.walkers.AbstractWalker;
import org.walkmod.walkers.ChangeLogPrinter;
import org.walkmod.walkers.Parser;
import org.walkmod.walkers.VisitorContext;
public class DefaultJavaWalker extends AbstractWalker {
private File originalFile;
public static final String ORIGINAL_FILE_KEY = "original_file_key";
private static Logger log = Logger.getLogger(DefaultJavaWalker.class);
private boolean reportChanges = true;
private boolean onlyWriteChanges = true;
private boolean onlyIncrementalWrites = true;
private boolean ignoreErrors = true;
private boolean silent = false;
private Map added = new HashMap();
private Map deleted = new HashMap();
private Map updated = new HashMap();
private Map unmodified = new HashMap();
private String encoding = "UTF-8";
public static final String ACTIONS_TO_APPY_KEY = "actions_to_apply_key";
private Parser parser;
private Boolean requiresSemanticAnalysis = null;
private Boolean visitOnFailure = null;
private ClassLoader classLoader;
private ClasspathEvaluator classpathEvaluator = null;
private List> constraintProv = null;
private List constraintProviders = null;
private String sourceSubdirectories = "";
public void accept(File file) throws Exception {
originalFile = file;
visit(file);
}
public DefaultJavaWalker() {
}
public void setSilent(Boolean silent) {
this.silent = silent;
}
public DefaultJavaWalker(ClasspathEvaluator classpathEvaluator) {
this.classpathEvaluator = classpathEvaluator;
}
public void setOnlyIncrementalWrites(boolean onlyIncrementalWrites) {
this.onlyIncrementalWrites = onlyIncrementalWrites;
}
public void setConstraintProviders(List constraints) {
this.constraintProviders = constraints;
}
public List getConstraintProviders() {
return constraintProviders;
}
public File getCurrentFile() {
return originalFile;
}
public boolean requiresSemanticAnalysis() {
List visitors = getVisitors();
if (visitors != null) {
for (Object visitor : visitors) {
if (visitor.getClass().isAnnotationPresent(RequiresSemanticAnalysis.class)) {
return true;
}
}
}
return false;
}
public void calculateClasspath() {
if (classpathEvaluator == null) {
Configuration conf = getChainConfig().getConfiguration();
try {
classpathEvaluator = (ClasspathEvaluator) conf
.getBean("org.walkmod:walkmod-javalang-plugin:classpath-evaluator", null);
} catch (Exception e) {
}
}
if (classpathEvaluator != null) {
classpathEvaluator.evaluate(this);
}
}
public void setClasspathEvaluator(ClasspathEvaluator classpathEvaluator) {
this.classpathEvaluator = classpathEvaluator;
}
public ClasspathEvaluator getClasspathEvaluator() {
return classpathEvaluator;
}
@Override
public void execute() throws Exception {
calculateClasspath();
List consProv = getConstraintProviders();
if (consProv != null) {
Configuration conf = getChainConfig().getConfiguration();
constraintProv = new LinkedList>();
for (String cons : consProv) {
if (conf.containsBean(cons)) {
ConstraintProvider> cp = (ConstraintProvider) conf.getBean(cons, null);
constraintProv.add(cp);
}
}
}
super.execute();
deleteClassLoader();
}
private void deleteClassLoader(){
getChainConfig().getConfiguration().getParameters().remove("classLoader");
}
protected void performSemanticAnalysis(CompilationUnit cu) throws SemanticAnalysisException {
if (requiresSemanticAnalysis == null) {
List visitors = getVisitors();
Iterator it = visitors.iterator();
while (it.hasNext() && requiresSemanticAnalysis == null) {
Object current = it.next();
if (current.getClass().isAnnotationPresent(RequiresSemanticAnalysis.class)) {
requiresSemanticAnalysis = true;
if (visitOnFailure == null) {
RequiresSemanticAnalysis annotation = current.getClass()
.getAnnotation(RequiresSemanticAnalysis.class);
visitOnFailure = annotation.optional();
}
}
}
if (requiresSemanticAnalysis == null) {
requiresSemanticAnalysis = false;
}
}
if (requiresSemanticAnalysis) {
ClassLoader cl = getClassLoader();
if (cl != null) {
SymbolVisitorAdapter> visitor = new SymbolVisitorAdapter>();
visitor.setClassLoader(cl);
try {
visitor.visit(cu, new HashMap());
} catch (Throwable e) {
SemanticAnalysisException ex = new SemanticAnalysisException(
"Error processing the analysis of [" + cu.getQualifiedName() + "]", e);
ex.setStackTrace(e.getStackTrace());
throw ex;
}
} else {
throw new SemanticAnalysisException("There is no available project classpath to compile the sources");
}
}
}
protected void addConstraints(CompilationUnit cu) {
if (constraintProv != null) {
List constraints = new LinkedList();
for (ConstraintProvider cp : constraintProv) {
Constraint> c = cp.getConstraint(cu);
constraints.add(c);
}
cu.setConstraints(constraints);
}
}
public void visit(File file) throws Exception {
if (file.getName().endsWith(".java")) {
CompilationUnit cu = null;
try {
cu = parser.parse(file, encoding);
} catch (Exception e) {
throw new WalkModException("The file " + file.getPath() + " has an invalid java format", e);
}
if (cu != null) {
resolveSourceSubdirs(file, cu);
try {
performSemanticAnalysis(cu);
cu.withSymbols(true);
addConstraints(cu);
visit(cu);
} catch (SemanticAnalysisException e) {
if (!ignoreErrors) {
throw e;
} else {
if (Boolean.TRUE.equals(visitOnFailure)) {
cu.withSymbols(false);
addConstraints(cu);
visit(cu);
}
return;
}
}
} else {
if (!silent) {
log.warn("Empty compilation unit");
}
}
}
}
public void resolveSourceSubdirs(File file, CompilationUnit cu) throws Exception {
sourceSubdirectories = JavaSourceUtils.getSourceDirs(getReaderPath(), file, cu);
}
public String getSourceSubdirectories() {
return sourceSubdirectories;
}
public ClassLoader getClassLoader() {
return classLoader;
}
public void setClassLoader(ClassLoader classLoader) {
this.classLoader = classLoader;
}
private void mapSum(Map op1, Map op2) {
Set keys = op2.keySet();
for (String key : keys) {
Integer aux = op1.get(key);
if (aux == null) {
op1.put(key, op2.get(key));
} else {
op1.put(key, op2.get(key) + aux);
}
}
}
protected CompilationUnit recoverOriginalCU(VisitorContext vc) {
try {
return parser.parse(originalFile, encoding);
} catch (Exception e) {
throw new WalkModException("Exception writing results of " + originalFile.getPath(), e);
}
}
protected VisitorContext buildWriterContext(VisitorContext oldVC) throws Exception {
VisitorContext vc = new VisitorContext(getChainConfig());
vc.put(ORIGINAL_FILE_KEY, originalFile);
vc.put("onlyWriteChanges", onlyWriteChanges);
vc.put("reportChanges", reportChanges);
return vc;
}
public boolean analyzeChanges(CompilationUnit original, CompilationUnit modified, VisitorContext vc)
throws Exception {
ChangeLogVisitor clv = new ChangeLogVisitor();
clv.setGenerateActions(onlyIncrementalWrites);
VisitorContext ctx = new VisitorContext();
ctx.put(ChangeLogVisitor.NODE_TO_COMPARE_KEY, original);
clv.visit((CompilationUnit) modified, ctx);
boolean isUpdated = clv.isUpdated();
vc.put("isUpdated", isUpdated);
if (isUpdated) {
if (onlyIncrementalWrites) {
storeChanges(clv.getActionsToApply(), vc);
}
Map auxAdded = clv.getAddedNodes();
Map auxUpdated = clv.getUpdatedNodes();
Map auxDeleted = clv.getDeletedNodes();
Map auxUnmodified = clv.getUnmodifiedNodes();
if (added.isEmpty()) {
added = auxAdded;
} else {
mapSum(added, auxAdded);
}
if (updated.isEmpty()) {
updated = auxUpdated;
} else {
mapSum(updated, auxUpdated);
}
if (deleted.isEmpty()) {
deleted = auxDeleted;
} else {
mapSum(deleted, auxDeleted);
}
if (unmodified.isEmpty()) {
unmodified = auxUnmodified;
} else {
mapSum(unmodified, auxUnmodified);
}
ChangeLogPrinter printer = new ChangeLogPrinter(auxAdded, auxUpdated, auxDeleted, auxUnmodified);
printer.print();
}
return isUpdated;
}
protected void storeChanges(List actions, VisitorContext vc) throws Exception {
vc.put(ACTIONS_TO_APPY_KEY, actions);
}
protected void updateCU(Object element, VisitorContext vc, CompilationUnit cu) throws Exception {
if (!silent) {
log.debug(originalFile.getPath() + " [with changes]");
String name = cu.getQualifiedName();
System.out.println(">> " + name);
}
File outputDir = new File(getWriterPath());
File inputDir = new File(getReaderPath());
if (!outputDir.equals(inputDir)) {
writeNewCU(element, vc, cu);
} else {
overwrite(element, vc, originalFile);
}
}
protected void writeNewCU(Object element, VisitorContext vc, CompilationUnit returningCU) throws Exception {
if (!silent) {
log.info("++ " + returningCU.getQualifiedName());
}
vc.remove(ORIGINAL_FILE_KEY);
super.write(element, vc);
if (!silent) {
log.debug(resolveFile(returningCU) + " [ written ]");
}
}
protected void createOrUpdateExternalCU(Object element, VisitorContext vc, CompilationUnit returningCU)
throws Exception {
if (!isPackageInfo(returningCU)) {
//it is not a package-info.java
File outputJavaFile = resolveFile(returningCU);
if (!outputJavaFile.exists()) {
writeNewCU(element, vc, returningCU);
} else {
if (!outputJavaFile.equals(originalFile) || !onlyWriteChanges) {
//we are rewriting an existing source file in the output directory
overwrite(element, vc, outputJavaFile);
} else {
if (!silent) {
log.debug(originalFile.getPath() + " [not written] ");
}
}
}
}
}
protected void overwrite(Object element, VisitorContext vc, File outputDir) throws Exception {
vc.put(ORIGINAL_FILE_KEY, outputDir);
super.write(element, vc);
if (!silent) {
log.debug(outputDir.getPath() + " [ overwritten ]");
}
}
protected File resolveFile(CompilationUnit returningCU) throws IOException {
File parentDir = new File(getWriterPath());
if (!"".equals(sourceSubdirectories)) {
parentDir = new File(parentDir, sourceSubdirectories);
}
return new File(parentDir, returningCU.getFileName()).getCanonicalFile();
}
protected boolean isPackageInfo(CompilationUnit returningCU) {
return returningCU.getTypes() == null;
}
@Override
protected void write(Object element, VisitorContext oldVC) throws Exception {
if (element != null && element instanceof CompilationUnit) {
VisitorContext vc = buildWriterContext(oldVC);
if (reportChanges) {
CompilationUnit returningCU = (CompilationUnit) element;
CompilationUnit cu = recoverOriginalCU(vc);
if (cu != null) {
// if the returning CU corresponds to the same File, then
// check changes.
if (cu.hasEqualFileName(returningCU)) {
boolean isUpdated = analyzeChanges(cu, returningCU, vc);
if (isUpdated) {
updateCU(element, vc, cu);
} else {
if (!silent) {
log.debug(originalFile.getPath() + " [ without changes ] ");
}
createOrUpdateExternalCU(element, vc, returningCU);
}
} else {
createOrUpdateExternalCU(element, vc, returningCU);
}
}
} else {
if (!silent) {
System.out.println(">> " + originalFile.getPath());
}
vc.remove(ORIGINAL_FILE_KEY);
super.write(element, vc);
}
}
}
@Override
protected void write(Object element) throws Exception {
write(element, null);
}
@Override
protected String getLocation(VisitorContext ctx) {
return ((File) ctx.get(ORIGINAL_FILE_KEY)).getAbsolutePath();
}
@Override
protected void visit(Object element) throws Exception {
VisitorContext context = new VisitorContext(getChainConfig());
context.put(ORIGINAL_FILE_KEY, originalFile);
try {
visit(element, context);
} catch (Throwable e) {
e.printStackTrace();
String path = originalFile == null ? null : originalFile.getCanonicalPath();
WalkModException e1 = new WalkModException("Error visiting a Java source file", e,
new LocationImpl("File Location", path));
if (!ignoreErrors) {
throw e1;
}
}
addVisitorMessages(context);
}
@Override
public int getNumModifications() {
Integer aux = updated.get(CompilationUnit.class.getSimpleName());
if (aux == null) {
return 0;
}
return aux;
}
@Override
public int getNumAdditions() {
Integer aux = added.get(CompilationUnit.class.getSimpleName());
if (aux == null) {
return 0;
}
return aux;
}
@Override
public int getNumDeletions() {
Integer aux = deleted.get(CompilationUnit.class.getSimpleName());
if (aux == null) {
return 0;
}
return aux;
}
@Override
public boolean reportChanges() {
return reportChanges;
}
@Override
public void setReportChanges(boolean reportChanges) {
this.reportChanges = reportChanges;
}
public String getEncoding() {
return encoding;
}
public void setEncoding(String encoding) {
this.encoding = encoding;
}
protected String getWriterPath() {
return getChainConfig().getWriterConfig().getPath();
}
protected String getReaderPath() {
return getChainConfig().getReaderConfig().getPath();
}
@Override
protected Object getSourceNode(Object targetNode) {
Object result = null;
if (targetNode instanceof CompilationUnit) {
CompilationUnit targetCU = (CompilationUnit) targetNode;
try {
File sourceFile = resolveFile(targetCU);
if (sourceFile.exists()) {
result = parser.parse(sourceFile);
} else {
result = targetNode;
}
} catch (Exception e) {
throw new WalkModException(e);
}
}
return result;
}
@SuppressWarnings("unchecked")
@Override
public void setParser(Parser> parser) {
this.parser = (Parser) parser;
}
@Override
public Parser getParser() {
return parser;
}
public void setOnlyWriteChanges(boolean onlyWriteChanges) {
this.onlyWriteChanges = onlyWriteChanges;
}
public void setIgnoreErrors(boolean ignoreErrors) {
this.ignoreErrors = ignoreErrors;
}
public boolean getRequiresSemanticAnalysis() {
return requiresSemanticAnalysis;
}
public void setRequiresSemanticAnalysis(boolean requiresSemanticAnalysis) {
this.requiresSemanticAnalysis = requiresSemanticAnalysis;
}
}