com.google.gwt.editor.rebind.model.EditorModel Maven / Gradle / Ivy
/*
* Copyright 2010 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.google.gwt.editor.rebind.model;
import com.google.gwt.core.ext.TreeLogger;
import com.google.gwt.core.ext.UnableToCompleteException;
import com.google.gwt.core.ext.typeinfo.JClassType;
import com.google.gwt.core.ext.typeinfo.JField;
import com.google.gwt.core.ext.typeinfo.JGenericType;
import com.google.gwt.core.ext.typeinfo.JMethod;
import com.google.gwt.core.ext.typeinfo.JParameterizedType;
import com.google.gwt.core.ext.typeinfo.JPrimitiveType;
import com.google.gwt.core.ext.typeinfo.JType;
import com.google.gwt.core.ext.typeinfo.TypeOracle;
import com.google.gwt.editor.client.CompositeEditor;
import com.google.gwt.editor.client.Editor;
import com.google.gwt.editor.client.IsEditor;
import com.google.gwt.editor.client.LeafValueEditor;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.regex.Pattern;
/**
* Analyzes an Editor driver declaration.
*/
public class EditorModel {
private static final EditorData[] EMPTY_EDITOR_DATA = new EditorData[0];
/**
* Given type assignable to ComposedEditor<Foo,Bar>
, return
* {Foo, Bar}
. It is an error to call this method with a type not
* assignable to {@link ComposedEditor}.
*/
static JClassType[] calculateCompositeTypes(JClassType editorType) {
JClassType compositeEditorIntf = editorType.getOracle().findType(
CompositeEditor.class.getName());
assert compositeEditorIntf.isAssignableFrom(editorType) : editorType.getQualifiedSourceName()
+ " is not a ComposedEditor";
for (JClassType supertype : editorType.getFlattenedSupertypeHierarchy()) {
JParameterizedType parameterized = supertype.isParameterized();
if (parameterized != null) {
// Found the Editor supertype
if (compositeEditorIntf.equals(parameterized.getBaseType())) {
JClassType[] typeArgs = parameterized.getTypeArgs();
assert typeArgs.length == 3;
return new JClassType[] {typeArgs[1], typeArgs[2]};
}
}
}
assert false : "Did not find ComposedEditor parameterization for "
+ editorType.getQualifiedSourceName();
throw new RuntimeException();
}
/**
* Given type assignable to Editor<Foo>
, return
* Foo
. It is an error to call this method with a type not
* assignable to {@link Editor}.
*/
static JClassType calculateEditedType(TreeLogger logger, JClassType editorType)
throws UnableToCompleteException {
JClassType editorIntf = editorType.getOracle().findType(
Editor.class.getName());
JClassType parameterization[] = ModelUtils.findParameterizationOf(
editorIntf, editorType);
if (parameterization != null) {
return parameterization[0];
}
logger.log(TreeLogger.ERROR,
noEditorParameterizationMessage(editorIntf, editorType));
throw new UnableToCompleteException();
}
/**
* Given type assignable to IsEditor<Foo, FooEditor>
, return
* FooEditor
. It is an error to call this method with a type not
* assignable to {@link IsEditor}.
*/
static JClassType calculateIsEditedType(TreeLogger logger,
JClassType editorType) throws UnableToCompleteException {
JClassType editorIntf = editorType.getOracle().findType(
IsEditor.class.getName());
JClassType[] parameterization = ModelUtils.findParameterizationOf(
editorIntf, editorType);
if (parameterization != null) {
return parameterization[0];
}
logger.log(TreeLogger.ERROR,
noEditorParameterizationMessage(editorIntf, editorType));
throw new UnableToCompleteException();
}
static String cycleErrorMessage(JType editorType, String originalPath,
String errorPath) {
return String.format(
"Cycle detected in editor graph. Editor type %s at path %s can"
+ " be reached again at path %s",
editorType.getQualifiedSourceName(), originalPath, errorPath);
}
static String foundPrimitiveMessage(JType type, String getterExpression,
String path) {
return String.format("Found unexpected type %s while evauating path"
+ " \"%s\" using getter expression \"%s\"",
type.getQualifiedSourceName(), path, getterExpression);
}
static String mustExtendMessage(JType driverType) {
return String.format(
"You must declare an interface that extends the %s type",
driverType.getSimpleSourceName());
}
static String noEditorParameterizationMessage(JClassType editorIntf,
JClassType type) {
return String.format("The type %s is assignable to the raw %s type, but"
+ " a type parameterization is required.",
type.getParameterizedQualifiedSourceName(), editorIntf.getName());
}
static String noGetterMessage(String propertyName, JType proxyType) {
return String.format(
"Could not find a getter for path %s in proxy type %s", propertyName,
proxyType.getQualifiedSourceName());
}
static String poisonedMessage() {
return "Unable to create Editor model due to previous errors";
}
static String tooManyInterfacesMessage(JType intf) {
return String.format("The type %s extends more than one interface",
intf.getQualifiedSourceName());
}
static String unexpectedInputTypeMessage(JType driverType, JType intf) {
return String.format("Unexpected input type: %s is not assignable from %s",
driverType.getQualifiedSourceName(), intf.getQualifiedSourceName());
}
private final JGenericType compositeEditorIntf;
/**
* The structural model.
*/
private final EditorData[] editorData;
/**
* A reference to {@link Editor}.
*/
private final JGenericType editorIntf;
private final JClassType editorType;
private final EditorData editorSoFar;
/**
* A reference to {@link IsEditor}.
*/
private final JGenericType isEditorIntf;
private final JGenericType leafValueEditorIntf;
private final TreeLogger logger;
private final TypeOracle oracle;
private final EditorModel parentModel;
private boolean poisoned;
private final JClassType proxyType;
/**
* Type-specific data.
*/
private final Map> typeData;
/**
* Constructor to use when starting with an EditorDriver interface.
*/
public EditorModel(TreeLogger logger, JClassType intf, JClassType driverType)
throws UnableToCompleteException {
assert logger != null : "logger was null";
assert intf != null : "intf was null";
assert driverType != null : "driver was null";
editorSoFar = null;
this.logger = logger.branch(TreeLogger.DEBUG, "Creating Editor model for "
+ intf.getQualifiedSourceName());
parentModel = null;
typeData = new HashMap>();
if (!driverType.isAssignableFrom(intf)) {
die(unexpectedInputTypeMessage(driverType, intf));
} else if (intf.equals(driverType)) {
die(mustExtendMessage(driverType));
}
oracle = intf.getOracle();
editorIntf = oracle.findType(Editor.class.getName()).isGenericType();
assert editorIntf != null : "No Editor type";
isEditorIntf = oracle.findType(IsEditor.class.getName()).isGenericType();
assert isEditorIntf != null : "No IsEditor type";
compositeEditorIntf = oracle.findType(CompositeEditor.class.getName()).isGenericType();
assert compositeEditorIntf != null : "No CompositeEditor type";
leafValueEditorIntf = oracle.findType(LeafValueEditor.class.getName()).isGenericType();
assert leafValueEditorIntf != null;
JClassType[] interfaces = intf.getImplementedInterfaces();
if (interfaces.length != 1) {
die(tooManyInterfacesMessage(intf));
}
JClassType[] parameters = ModelUtils.findParameterizationOf(driverType,
intf);
assert parameters.length == 2 : "Unexpected number of type parameters";
proxyType = parameters[0];
editorType = parameters[1];
editorData = calculateEditorData();
if (poisoned) {
die(poisonedMessage());
}
}
private EditorModel(EditorModel parent, JClassType editorType,
EditorData subEditor, JClassType proxyType)
throws UnableToCompleteException {
logger = parent.logger.branch(TreeLogger.DEBUG, "Descending into "
+ subEditor.getPath());
this.compositeEditorIntf = parent.compositeEditorIntf;
this.editorIntf = parent.editorIntf;
this.editorType = editorType;
this.editorSoFar = subEditor;
this.isEditorIntf = parent.isEditorIntf;
this.leafValueEditorIntf = parent.leafValueEditorIntf;
this.oracle = parent.oracle;
this.parentModel = parent;
this.proxyType = proxyType;
this.typeData = parent.typeData;
editorData = calculateEditorData();
}
public EditorData[] getEditorData() {
return editorData;
}
/**
* Guaranteed to never return null.
*/
public EditorData[] getEditorData(JClassType editor) {
List toReturn = typeData.get(editor);
if (toReturn == null) {
return EMPTY_EDITOR_DATA;
}
return toReturn.toArray(new EditorData[toReturn.size()]);
}
public JClassType getEditorType() {
return editorType;
}
public JClassType getProxyType() {
return proxyType;
}
public EditorData getRootData() throws UnableToCompleteException {
TreeLogger rootLogger = logger.branch(TreeLogger.DEBUG,
"Calculating root data for "
+ getEditorType().getParameterizedQualifiedSourceName());
return new EditorData.Builder(rootLogger).access(
EditorAccess.root(getEditorType())).build();
}
private void accumulateEditorData(List data,
List flatData, List allData)
throws UnableToCompleteException {
flatData.addAll(data);
allData.addAll(data);
for (EditorData d : data) {
descendIntoSubEditor(allData, d);
}
}
/**
* Create the EditorData objects for the {@link #editorData} type.
* Essentially, the point of this method is to calculate the paths of all
* Editor types referenced by {@link #editorType}.
*/
private EditorData[] calculateEditorData() throws UnableToCompleteException {
List flatData = new ArrayList();
List toReturn = new ArrayList();
// Only look for sub-editor accessors if the editor isn't a leaf
if (!leafValueEditorIntf.isAssignableFrom(editorType)) {
for (JClassType type : editorType.getFlattenedSupertypeHierarchy()) {
for (JField field : type.getFields()) {
if (field.isPrivate() || field.isStatic()
|| field.getAnnotation(Editor.Ignore.class) != null) {
continue;
}
JType fieldClassType = field.getType();
if (shouldExamine(fieldClassType)) {
List data = createEditorData(EditorAccess.via(field));
accumulateEditorData(data, flatData, toReturn);
}
}
for (JMethod method : type.getMethods()) {
if (method.isPrivate() || method.isStatic()
|| method.getAnnotation(Editor.Ignore.class) != null) {
continue;
}
JType methodReturnType = method.getReturnType();
if (shouldExamine(methodReturnType)
&& method.getParameters().length == 0) {
EditorAccess access = EditorAccess.via(method);
if (access.getPath().equals("as")
&& isEditorIntf.isAssignableFrom(editorType)) {
// Ignore IsEditor.asEditor()
continue;
} else if (access.getPath().equals("createEditorForTraversal")
&& compositeEditorIntf.isAssignableFrom(editorType)) {
// Ignore CompositeEditor.createEditorForTraversal();
continue;
}
List data = createEditorData(access);
accumulateEditorData(data, flatData, toReturn);
}
}
type = type.getSuperclass();
}
}
if (compositeEditorIntf.isAssignableFrom(editorType)) {
JClassType subEditorType = calculateCompositeTypes(editorType)[1];
EditorAccess access = EditorAccess.root(subEditorType);
EditorData subEditor = new EditorData.Builder(logger).access(access).parent(
editorSoFar).build();
List accumulator = new ArrayList();
descendIntoSubEditor(accumulator, subEditor);
/*
* It's necessary to generate a sub-Model here so that any Editor types
* reachable only through the composite type will be added to the types
* map. The path data isn't actually useful, since we rely on
* CompositeEditor.getPathElement() at runtime.
*/
EditorModel subModel = new EditorModel(this, subEditor.getEditorType(),
subEditor, subEditor.getEditedType());
poisoned |= subModel.poisoned;
}
if (!typeData.containsKey(editorType)) {
typeData.put(editorType, flatData);
}
return toReturn.toArray(new EditorData[toReturn.size()]);
}
private String camelCase(String prefix, String name) {
StringBuilder sb = new StringBuilder();
sb.append(prefix).append(Character.toUpperCase(name.charAt(0))).append(
name, 1, name.length());
return sb.toString();
}
private List createEditorData(EditorAccess access)
throws UnableToCompleteException {
TreeLogger subLogger = logger.branch(TreeLogger.DEBUG, "Examining "
+ access.toString());
List toReturn = new ArrayList();
// Are we looking at a view that implements IsEditor?
if (access.isEditor()) {
EditorAccess subAccess = EditorAccess.via(access,
calculateIsEditedType(subLogger, access.getEditorType()));
toReturn = createEditorData(subAccess);
// If an object only implements IsEditor, return now
if (!editorIntf.isAssignableFrom(access.getEditorType())) {
return toReturn;
}
}
// Determine the Foo in Editor
JClassType expectedToEdit = calculateEditedType(subLogger,
access.getEditorType());
EditorData.Builder builder = new EditorData.Builder(subLogger);
builder.access(access);
builder.parent(editorSoFar);
// Find the bean methods on the proxy interface
findBeanPropertyMethods(access.getPath(), expectedToEdit, builder);
toReturn.add(builder.build());
return toReturn;
}
/**
* @param accumulator
* @param data
* @throws UnableToCompleteException
*/
private void descendIntoSubEditor(List accumulator,
EditorData data) throws UnableToCompleteException {
EditorModel superModel = parentModel;
while (superModel != null) {
if (superModel.editorType.isAssignableFrom(data.getEditorType())
|| data.getEditorType().isAssignableFrom(superModel.editorType)) {
poison(cycleErrorMessage(data.getEditorType(), superModel.getPath(),
data.getPath()));
return;
}
superModel = superModel.parentModel;
}
if (data.isDelegateRequired()) {
EditorModel subModel = new EditorModel(this, data.getEditorType(), data,
calculateEditedType(logger, data.getEditorType()));
accumulator.addAll(accumulator.indexOf(data) + 1,
Arrays.asList(subModel.getEditorData()));
poisoned |= subModel.poisoned;
}
}
private void die(String message) throws UnableToCompleteException {
logger.log(TreeLogger.ERROR, message);
throw new UnableToCompleteException();
}
/**
* Traverses a path to create expressions to access the getter and setter.
*
* This method returns a three-element string array containing the
* interstitial getter expression specified by the path, the name of the
* getter method, and the name of the setter method. For example, the input
* foo.bar.baz
might return
* { ".getFoo().getBar()", "getBaz", "setBaz" }
.
*/
private void findBeanPropertyMethods(String path, JClassType propertyType,
EditorData.Builder builder) {
StringBuilder interstitialGetters = new StringBuilder();
StringBuilder interstitialGuard = new StringBuilder("true");
String[] parts = path.split(Pattern.quote("."));
String setterName = null;
JClassType lookingAt = proxyType;
part : for (int i = 0, j = parts.length; i < j; i++) {
if (parts[i].length() == 0) {
continue;
}
boolean lastPart = i == j - 1;
String getterName = camelCase("get", parts[i]);
for (JClassType search : lookingAt.getFlattenedSupertypeHierarchy()) {
// If looking at the last element of the path, also look for a setter
if (i == j - 1 && setterName == null) {
for (JMethod maybeSetter : search.getOverloads(camelCase("set",
parts[i]))) {
if (maybeSetter.getReturnType().equals(JPrimitiveType.VOID)
&& maybeSetter.getParameters().length == 1) {
JType setterParamType = maybeSetter.getParameters()[0].getType();
// Handle the case of setFoo(int) vs. Editor
if (setterParamType.isPrimitive() != null) {
// Replace the int with Integer
setterParamType = oracle.findType(setterParamType.isPrimitive().getQualifiedBoxedSourceName());
}
boolean matches = setterParamType.isClassOrInterface().isAssignableFrom(
propertyType);
if (matches) {
setterName = maybeSetter.getName();
break;
}
}
}
}
JMethod getter = search.findMethod(getterName, new JType[0]);
if (getter != null) {
JType returnType = getter.getReturnType();
lookingAt = returnType.isClassOrInterface();
if (!lastPart && lookingAt == null) {
poison(foundPrimitiveMessage(returnType,
interstitialGetters.toString(), path));
return;
}
interstitialGetters.append(".").append(getterName).append("()");
interstitialGuard.append(" && %1$s").append(interstitialGetters).append(
" != null");
builder.propertyOwnerType(search);
continue part;
}
}
poison(noGetterMessage(path, proxyType));
return;
}
int idx = interstitialGetters.lastIndexOf(".");
builder.beanOwnerExpression(idx <= 0 ? "" : interstitialGetters.substring(
0, idx));
if (parts.length > 1) {
// Strip after last && since null is a valid value
interstitialGuard.delete(interstitialGuard.lastIndexOf(" &&"),
interstitialGuard.length());
builder.beanOwnerGuard(interstitialGuard.substring(8));
}
if (interstitialGetters.length() > 0) {
builder.getterExpression("."
+ interstitialGetters.substring(idx + 1,
interstitialGetters.length() - 2) + "()");
} else {
builder.getterExpression("");
}
builder.setterName(setterName);
}
private String getPath() {
if (editorSoFar != null) {
return editorSoFar.getPath();
} else {
return "";
}
}
/**
* Record an error that is not immediately fatal.
*/
private void poison(String message) {
logger.log(TreeLogger.ERROR, message);
poisoned = true;
}
/**
* Returns true
if the given type participates in Editor
* hierarchies.
*/
private boolean shouldExamine(JType type) {
JClassType classType = type.isClassOrInterface();
if (classType == null) {
return false;
}
return editorIntf.isAssignableFrom(classType)
|| isEditorIntf.isAssignableFrom(classType);
}
}