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Statistical sampling library for use in virtualdataset libraries, based on apache commons math 4
/*
* Copyright (C) 2014 Google, Inc.
*
* Licensed 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 com.squareup.javapoet;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import javax.lang.model.element.Element;
import javax.lang.model.element.PackageElement;
import javax.lang.model.element.TypeElement;
import javax.lang.model.util.SimpleElementVisitor8;
import static com.squareup.javapoet.Util.checkArgument;
import static com.squareup.javapoet.Util.checkNotNull;
/** A fully-qualified class name for top-level and member classes. */
public final class ClassName extends TypeName implements Comparable {
public static final ClassName OBJECT = ClassName.get(Object.class);
/** The package name of this class, or "" if this is in the default package. */
final String packageName;
/** The enclosing class, or null if this is not enclosed in another class. */
final ClassName enclosingClassName;
/** This class name, like "Entry" for java.util.Map.Entry. */
final String simpleName;
/** The full class name like "java.util.Map.Entry". */
final String canonicalName;
private ClassName(String packageName, ClassName enclosingClassName, String simpleName) {
this(packageName, enclosingClassName, simpleName, Collections.emptyList());
}
private ClassName(String packageName, ClassName enclosingClassName, String simpleName,
List annotations) {
super(annotations);
this.packageName = packageName;
this.enclosingClassName = enclosingClassName;
this.simpleName = simpleName;
this.canonicalName = enclosingClassName != null
? (enclosingClassName.canonicalName + '.' + simpleName)
: (packageName.isEmpty() ? simpleName : packageName + '.' + simpleName);
}
@Override public ClassName annotated(List annotations) {
return new ClassName(packageName, enclosingClassName, simpleName,
concatAnnotations(annotations));
}
@Override public ClassName withoutAnnotations() {
if (!isAnnotated()) return this;
ClassName resultEnclosingClassName = enclosingClassName != null
? enclosingClassName.withoutAnnotations()
: null;
return new ClassName(packageName, resultEnclosingClassName, simpleName);
}
@Override public boolean isAnnotated() {
return super.isAnnotated() || (enclosingClassName != null && enclosingClassName.isAnnotated());
}
/**
* Returns the package name, like {@code "java.util"} for {@code Map.Entry}. Returns the empty
* string for the default package.
*/
public String packageName() {
return packageName;
}
/**
* Returns the enclosing class, like {@link Map} for {@code Map.Entry}. Returns null if this class
* is not nested in another class.
*/
public ClassName enclosingClassName() {
return enclosingClassName;
}
/**
* Returns the top class in this nesting group. Equivalent to chained calls to {@link
* #enclosingClassName()} until the result's enclosing class is null.
*/
public ClassName topLevelClassName() {
return enclosingClassName != null ? enclosingClassName.topLevelClassName() : this;
}
/** Return the binary name of a class. */
public String reflectionName() {
return enclosingClassName != null
? (enclosingClassName.reflectionName() + '$' + simpleName)
: (packageName.isEmpty() ? simpleName : packageName + '.' + simpleName);
}
public List simpleNames() {
List simpleNames = new ArrayList<>();
if (enclosingClassName != null) {
simpleNames.addAll(enclosingClassName().simpleNames());
}
simpleNames.add(simpleName);
return simpleNames;
}
/**
* Returns a class that shares the same enclosing package or class. If this class is enclosed by
* another class, this is equivalent to {@code enclosingClassName().nestedClass(name)}. Otherwise
* it is equivalent to {@code get(packageName(), name)}.
*/
public ClassName peerClass(String name) {
return new ClassName(packageName, enclosingClassName, name);
}
/**
* Returns a new {@link ClassName} instance for the specified {@code name} as nested inside this
* class.
*/
public ClassName nestedClass(String name) {
return new ClassName(packageName, this, name);
}
/** Returns the simple name of this class, like {@code "Entry"} for {@link Map.Entry}. */
public String simpleName() {
return simpleName;
}
public static ClassName get(Class> clazz) {
checkNotNull(clazz, "clazz == null");
checkArgument(!clazz.isPrimitive(), "primitive types cannot be represented as a ClassName");
checkArgument(!void.class.equals(clazz), "'void' type cannot be represented as a ClassName");
checkArgument(!clazz.isArray(), "array types cannot be represented as a ClassName");
String anonymousSuffix = "";
while (clazz.isAnonymousClass()) {
int lastDollar = clazz.getName().lastIndexOf('$');
anonymousSuffix = clazz.getName().substring(lastDollar) + anonymousSuffix;
clazz = clazz.getEnclosingClass();
}
String name = clazz.getSimpleName() + anonymousSuffix;
if (clazz.getEnclosingClass() == null) {
// Avoid unreliable Class.getPackage(). https://github.com/square/javapoet/issues/295
int lastDot = clazz.getName().lastIndexOf('.');
String packageName = (lastDot != -1) ? clazz.getName().substring(0, lastDot) : null;
return new ClassName(packageName, null, name);
}
return ClassName.get(clazz.getEnclosingClass()).nestedClass(name);
}
/**
* Returns a new {@link ClassName} instance for the given fully-qualified class name string. This
* method assumes that the input is ASCII and follows typical Java style (lowercase package
* names, UpperCamelCase class names) and may produce incorrect results or throw
* {@link IllegalArgumentException} otherwise. For that reason, {@link #get(Class)} and
* {@link #get(Class)} should be preferred as they can correctly create {@link ClassName}
* instances without such restrictions.
*/
public static ClassName bestGuess(String classNameString) {
// Add the package name, like "java.util.concurrent", or "" for no package.
int p = 0;
while (p < classNameString.length() && Character.isLowerCase(classNameString.codePointAt(p))) {
p = classNameString.indexOf('.', p) + 1;
checkArgument(p != 0, "couldn't make a guess for %s", classNameString);
}
String packageName = p == 0 ? "" : classNameString.substring(0, p - 1);
// Add class names like "Map" and "Entry".
ClassName className = null;
for (String simpleName : classNameString.substring(p).split("\\.", -1)) {
checkArgument(!simpleName.isEmpty() && Character.isUpperCase(simpleName.codePointAt(0)),
"couldn't make a guess for %s", classNameString);
className = new ClassName(packageName, className, simpleName);
}
return className;
}
/**
* Returns a class name created from the given parts. For example, calling this with package name
* {@code "java.util"} and simple names {@code "Map"}, {@code "Entry"} yields {@link Map.Entry}.
*/
public static ClassName get(String packageName, String simpleName, String... simpleNames) {
ClassName className = new ClassName(packageName, null, simpleName);
for (String name : simpleNames) {
className = className.nestedClass(name);
}
return className;
}
/** Returns the class name for {@code element}. */
public static ClassName get(TypeElement element) {
checkNotNull(element, "element == null");
String simpleName = element.getSimpleName().toString();
return element.getEnclosingElement().accept(new SimpleElementVisitor8() {
@Override public ClassName visitPackage(PackageElement packageElement, Void p) {
return new ClassName(packageElement.getQualifiedName().toString(), null, simpleName);
}
@Override public ClassName visitType(TypeElement enclosingClass, Void p) {
return ClassName.get(enclosingClass).nestedClass(simpleName);
}
@Override public ClassName visitUnknown(Element unknown, Void p) {
return get("", simpleName);
}
@Override public ClassName defaultAction(Element enclosingElement, Void p) {
throw new IllegalArgumentException("Unexpected type nesting: " + element);
}
}, null);
}
@Override public int compareTo(ClassName o) {
return canonicalName.compareTo(o.canonicalName);
}
@Override CodeWriter emit(CodeWriter out) throws IOException {
boolean charsEmitted = false;
for (ClassName className : enclosingClasses()) {
String simpleName;
if (charsEmitted) {
// We've already emitted an enclosing class. Emit as we go.
out.emit(".");
simpleName = className.simpleName;
} else if (className.isAnnotated() || className == this) {
// We encountered the first enclosing class that must be emitted.
String qualifiedName = out.lookupName(className);
int dot = qualifiedName.lastIndexOf('.');
if (dot != -1) {
out.emitAndIndent(qualifiedName.substring(0, dot + 1));
simpleName = qualifiedName.substring(dot + 1);
charsEmitted = true;
} else {
simpleName = qualifiedName;
}
} else {
// Don't emit this enclosing type. Keep going so we can be more precise.
continue;
}
if (className.isAnnotated()) {
if (charsEmitted) out.emit(" ");
className.emitAnnotations(out);
}
out.emit(simpleName);
charsEmitted = true;
}
return out;
}
/** Returns all enclosing classes in this, outermost first. */
private List enclosingClasses() {
List result = new ArrayList<>();
for (ClassName c = this; c != null; c = c.enclosingClassName) {
result.add(c);
}
Collections.reverse(result);
return result;
}
}