langtools/test/tools/javac/lambda/bridge/template_tests/BridgeMethodTestCase.java
8145342: Some copyright notices are inconsistently and ill formatted
Summary: Adjusted formatting of copyright notices.
Reviewed-by: darcy, alundblad
/*
* Copyright (c) 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
import java.io.File;
import java.io.IOException;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.StringJoiner;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import tools.javac.combo.*;
import static org.testng.Assert.fail;
/**
* BridgeMethodTestCase -- used for asserting linkage to bridges under separate compilation.
*
* Example test case:
* public void test1() throws IOException, ReflectiveOperationException {
* compileSpec("C(Bc1(A))");
* assertLinkage("C", LINKAGE_ERROR, "B1");
* recompileSpec("C(Bc1(Ac0))", "A");
* assertLinkage("C", "A0", "B1");
* }
*
* This compiles A, B, and C, asserts that C.m()Object does not exist, asserts
* that C.m()Number eventually invokes B.m()Number, recompiles B, and then asserts
* that the result of calling C.m()Object now arrives at A.
*
* @author Brian Goetz
*/
@Test
public abstract class BridgeMethodTestCase extends JavacTemplateTestBase {
private static final String TYPE_LETTERS = "ABCDIJK";
private static final String BASE_INDEX_CLASS = "class C0 {\n" +
" int val;\n" +
" C0(int val) { this.val = val; }\n" +
" public int getVal() { return val; }\n" +
"}\n";
private static final String INDEX_CLASS_TEMPLATE = "class C#ID extends C#PREV {\n" +
" C#ID(int val) { super(val); }\n" +
"}\n";
protected static String LINKAGE_ERROR = "-1";
private List<File> compileDirs = new ArrayList<>();
/**
* Compile all the classes in a class spec, and put them on the classpath.
*
* The spec is the specification for a nest of classes, using the following notation
* A, B represent abstract classes
* C represents a concrete class
* I, J, K represent interfaces
* Lowercase 'c' following a class means that the method m() is concrete
* Lowercase 'a' following a class or interface means that the method m() is abstract
* Lowercase 'd' following an interface means that the method m() is default
* A number 0, 1, or 2 following the lowercase letter indicates the return type of that method
* 0 = Object, 1 = Number, 2 = Integer (these form an inheritance chain so bridges are generated)
* A classes supertypes follow its method spec, in parentheses
* Examples:
* C(Ia0, Jd0) -- C extends I and J, I has abstract m()Object, J has default m()Object
* Cc1(Ia0) -- C has concrete m()Number, extends I with abstract m()Object
* If a type must appear multiple times, its full spec must be in the first occurrence
* Example:
* C(I(Kd0), J(K))
*/
protected void compileSpec(String spec) throws IOException {
compileSpec(spec, false);
}
/**
* Compile all the classes in a class spec, and assert that there were compilation errors.
*/
protected void compileSpec(String spec, String... errorKeys) throws IOException {
compileSpec(spec, false, errorKeys);
}
protected void compileSpec(String spec, boolean debug, String... errorKeys) throws IOException {
ClassModel cm = new Parser(spec).parseClassModel();
for (int i = 0; i <= cm.maxIndex() ; i++) {
if (debug) System.out.println(indexClass(i));
addSourceFile(String.format("C%d.java", i), new StringTemplate(indexClass(i)));
}
for (Map.Entry<String, ClassModel> e : classes(cm).entrySet()) {
if (debug) System.out.println(e.getValue().toSource());
addSourceFile(e.getKey() + ".java", new StringTemplate(e.getValue().toSource()));
}
compileDirs.add(compile(true));
resetSourceFiles();
if (errorKeys.length == 0)
assertCompileSucceeded();
else
assertCompileErrors(errorKeys);
}
/**
* Recompile only a subset of classes in the class spec, as named by names,
* and put them on the classpath such that they shadow earlier versions of that class.
*/
protected void recompileSpec(String spec, String... names) throws IOException {
List<String> nameList = Arrays.asList(names);
ClassModel cm = new Parser(spec).parseClassModel();
for (int i = 0; i <= cm.maxIndex() ; i++) {
addSourceFile(String.format("C%d.java", i), new StringTemplate(indexClass(i)));
}
for (Map.Entry<String, ClassModel> e : classes(cm).entrySet())
if (nameList.contains(e.getKey()))
addSourceFile(e.getKey() + ".java", new StringTemplate(e.getValue().toSource()));
compileDirs.add(compile(Arrays.asList(classPaths()), true));
resetSourceFiles();
assertCompileSucceeded();
}
protected void assertLinkage(String name, String... expected) throws ReflectiveOperationException {
for (int i=0; i<expected.length; i++) {
String e = expected[i];
if (e.equals(LINKAGE_ERROR)) {
try {
int actual = invoke(name, i);
fail("Expected linkage error, got" + fromNum(actual));
}
catch (LinkageError x) {
// success
}
}
else {
if (e.length() == 1)
e += "0";
int expectedInt = toNum(e);
int actual = invoke(name, i);
if (expectedInt != actual)
fail(String.format("Expected %s but found %s for %s.m()%d", fromNum(expectedInt), fromNum(actual), name, i));
}
}
}
private Map<String, ClassModel> classes(ClassModel cm) {
HashMap<String, ClassModel> m = new HashMap<>();
classesHelper(cm, m);
return m;
}
private String indexClass(int index) {
if (index == 0) {
return BASE_INDEX_CLASS;
} else {
return INDEX_CLASS_TEMPLATE
.replace("#ID", String.valueOf(index))
.replace("#PREV", String.valueOf(index - 1));
}
}
private static String overrideName(int index) {
return "C" + index;
}
private void classesHelper(ClassModel cm, Map<String, ClassModel> m) {
if (!m.containsKey(cm.name))
m.put(cm.name, cm);
for (ClassModel s : cm.supertypes)
classesHelper(s, m);
}
private static String fromNum(int num) {
return String.format("%c%d", TYPE_LETTERS.charAt(num / 10), num % 10);
}
private static int toNum(String name, int index) {
return 10*(TYPE_LETTERS.indexOf(name.charAt(0))) + index;
}
private static int toNum(String string) {
return 10*(TYPE_LETTERS.indexOf(string.charAt(0))) + Integer.parseInt(string.substring(1, 2));
}
private int invoke(String name, int index) throws ReflectiveOperationException {
File[] files = classPaths();
Class clazz = loadClass(name, files);
Method[] ms = clazz.getMethods();
for (Method m : ms) {
if (m.getName().equals("m") && m.getReturnType().getName().equals(overrideName(index))) {
m.setAccessible(true);
Object instance = clazz.newInstance();
Object c0 = m.invoke(instance);
Method getVal = c0.getClass().getMethod("getVal");
getVal.setAccessible(true);
return (int)getVal.invoke(c0);
}
}
throw new NoSuchMethodError("cannot find method m()" + index + " in class " + name);
}
private File[] classPaths() {
File[] files = new File[compileDirs.size()];
for (int i=0; i<files.length; i++)
files[files.length - i - 1] = compileDirs.get(i);
return files;
}
@BeforeMethod
@Override
public void reset() {
compileDirs.clear();
super.reset();
}
private static class ClassModel {
enum MethodType {
ABSTRACT('a'), CONCRETE('c'), DEFAULT('d');
public final char designator;
MethodType(char designator) {
this.designator = designator;
}
public static MethodType find(char c) {
for (MethodType m : values())
if (m.designator == c)
return m;
throw new IllegalArgumentException();
}
}
private final String name;
private final boolean isInterface;
private final List<ClassModel> supertypes;
private final MethodType methodType;
private final int methodIndex;
private ClassModel(String name,
boolean anInterface,
List<ClassModel> supertypes,
MethodType methodType,
int methodIndex) {
this.name = name;
isInterface = anInterface;
this.supertypes = supertypes;
this.methodType = methodType;
this.methodIndex = methodIndex;
}
@Override
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append(name);
if (methodType != null) {
sb.append(methodType.designator);
sb.append(methodIndex);
}
if (!supertypes.isEmpty()) {
sb.append("(");
for (int i=0; i<supertypes.size(); i++) {
if (i > 0)
sb.append(",");
sb.append(supertypes.get(i).toString());
}
sb.append(")");
}
return sb.toString();
}
int maxIndex() {
int maxSoFar = methodIndex;
for (ClassModel cm : supertypes) {
maxSoFar = Math.max(cm.maxIndex(), maxSoFar);
}
return maxSoFar;
}
public String toSource() {
String extendsClause = "";
String implementsClause = "";
String methodBody = "";
boolean isAbstract = "AB".contains(name);
for (ClassModel s : supertypes) {
if (!s.isInterface) {
extendsClause = String.format("extends %s", s.name);
break;
}
}
StringJoiner sj = new StringJoiner(", ");
for (ClassModel s : supertypes)
if (s.isInterface)
sj.add(s.name);
if (sj.length() > 0) {
if (isInterface)
implementsClause = "extends " + sj.toString();
else
implementsClause = "implements " + sj.toString();
}
if (methodType != null) {
switch (methodType) {
case ABSTRACT:
methodBody = String.format("public abstract %s m();", overrideName(methodIndex));
break;
case CONCRETE:
methodBody = String.format("public %s m() { return new %s(%d); };",
overrideName(methodIndex), overrideName(methodIndex), toNum(name, methodIndex));
break;
case DEFAULT:
methodBody = String.format("public default %s m() { return new %s(%d); };",
overrideName(methodIndex), overrideName(methodIndex), toNum(name, methodIndex));
break;
}
}
return String.format("public %s %s %s %s %s { %s }", isAbstract ? "abstract" : "",
isInterface ? "interface" : "class",
name, extendsClause, implementsClause, methodBody);
}
}
private static class Parser {
private final String input;
private final char[] chars;
private int index;
private Parser(String s) {
input = s;
chars = s.toCharArray();
}
private char peek() {
return index < chars.length ? chars[index] : 0;
}
private boolean peek(String validChars) {
return validChars.indexOf(peek()) >= 0;
}
private char advanceIf(String validChars) {
if (peek(validChars))
return chars[index++];
else
return 0;
}
private char advanceIfDigit() {
return advanceIf("0123456789");
}
private int index() {
StringBuilder buf = new StringBuilder();
char c = advanceIfDigit();
while (c != 0) {
buf.append(c);
c = advanceIfDigit();
}
return Integer.valueOf(buf.toString());
}
private char advance() {
return chars[index++];
}
private char expect(String validChars) {
char c = advanceIf(validChars);
if (c == 0)
throw new IllegalArgumentException(String.format("Expecting %s at position %d of %s", validChars, index, input));
return c;
}
public ClassModel parseClassModel() {
List<ClassModel> supers = new ArrayList<>();
char name = expect(TYPE_LETTERS);
boolean isInterface = "IJK".indexOf(name) >= 0;
ClassModel.MethodType methodType = peek(isInterface ? "ad" : "ac") ? ClassModel.MethodType.find(advance()) : null;
int methodIndex = 0;
if (methodType != null) {
methodIndex = index();
}
if (peek() == '(') {
advance();
supers.add(parseClassModel());
while (peek() == ',') {
advance();
supers.add(parseClassModel());
}
expect(")");
}
return new ClassModel(new String(new char[]{ name }), isInterface, supers, methodType, methodIndex);
}
}
}