/* * Copyright (C) 2015 The Android Open Source Project * * 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 android.databinding.tool.reflection; import android.databinding.tool.reflection.annotation.AnnotationAnalyzer; import android.databinding.tool.util.L; import android.databinding.tool.util.Preconditions; import java.util.Map; import javax.annotation.processing.ProcessingEnvironment; /** * This is the base class for several implementations of something that * acts like a ClassLoader. Different implementations work with the Annotation * Processor, ClassLoader, and an Android Studio plugin. */ public abstract class ModelAnalyzer { public static final String[] LIST_CLASS_NAMES = { "java.util.List", "android.util.SparseArray", "android.util.SparseBooleanArray", "android.util.SparseIntArray", "android.util.SparseLongArray", "android.util.LongSparseArray", "android.support.v4.util.LongSparseArray", }; public static final String MAP_CLASS_NAME = "java.util.Map"; public static final String STRING_CLASS_NAME = "java.lang.String"; public static final String OBJECT_CLASS_NAME = "java.lang.Object"; public static final String OBSERVABLE_CLASS_NAME = "android.databinding.Observable"; public static final String OBSERVABLE_LIST_CLASS_NAME = "android.databinding.ObservableList"; public static final String OBSERVABLE_MAP_CLASS_NAME = "android.databinding.ObservableMap"; public static final String[] OBSERVABLE_FIELDS = { "android.databinding.ObservableBoolean", "android.databinding.ObservableByte", "android.databinding.ObservableChar", "android.databinding.ObservableShort", "android.databinding.ObservableInt", "android.databinding.ObservableLong", "android.databinding.ObservableFloat", "android.databinding.ObservableDouble", "android.databinding.ObservableField", "android.databinding.ObservableParcelable", }; public static final String VIEW_DATA_BINDING = "android.databinding.ViewDataBinding"; public static final String VIEW_STUB_CLASS_NAME = "android.view.ViewStub"; private ModelClass[] mListTypes; private ModelClass mMapType; private ModelClass mStringType; private ModelClass mObjectType; private ModelClass mObservableType; private ModelClass mObservableListType; private ModelClass mObservableMapType; private ModelClass[] mObservableFieldTypes; private ModelClass mViewBindingType; private ModelClass mViewStubType; private static ModelAnalyzer sAnalyzer; protected void setInstance(ModelAnalyzer analyzer) { sAnalyzer = analyzer; } public ModelClass findCommonParentOf(ModelClass modelClass1, ModelClass modelClass2) { ModelClass curr = modelClass1; while (curr != null && !curr.isAssignableFrom(modelClass2)) { curr = curr.getSuperclass(); } if (curr == null) { ModelClass primitive1 = modelClass1.unbox(); ModelClass primitive2 = modelClass2.unbox(); if (!modelClass1.equals(primitive1) || !modelClass2.equals(primitive2)) { return findCommonParentOf(primitive1, primitive2); } } Preconditions.checkNotNull(curr, "must be able to find a common parent for " + modelClass1 + " and " + modelClass2); return curr; } public abstract ModelClass loadPrimitive(String className); public static ModelAnalyzer getInstance() { return sAnalyzer; } public static void setProcessingEnvironment(ProcessingEnvironment processingEnvironment) { if (sAnalyzer != null) { throw new IllegalStateException("processing env is already created, you cannot " + "change class loader after that"); } L.d("setting processing env to %s", processingEnvironment); AnnotationAnalyzer annotationAnalyzer = new AnnotationAnalyzer(processingEnvironment); sAnalyzer = annotationAnalyzer; } /** * Takes a raw className (potentially w/ generics and arrays) and expands definitions using * the import statements. *

* For instance, this allows user to define variables * * if they previously imported User. * */ public String applyImports(String className, Map imports) { className = className.trim(); int numDimensions = 0; String generic = null; // handle array while (className.endsWith("[]")) { numDimensions++; className = className.substring(0, className.length() - 2); } // handle generics final int lastCharIndex = className.length() - 1; if ('>' == className.charAt(lastCharIndex)) { // has generic. int open = className.indexOf('<'); if (open == -1) { L.e("un-matching generic syntax for %s", className); return className; } generic = applyImports(className.substring(open + 1, lastCharIndex), imports); className = className.substring(0, open); } int dotIndex = className.indexOf('.'); final String qualifier; final String rest; if (dotIndex == -1) { qualifier = className; rest = null; } else { qualifier = className.substring(0, dotIndex); rest = className.substring(dotIndex); // includes dot } final String expandedQualifier = imports.get(qualifier); String result; if (expandedQualifier != null) { result = rest == null ? expandedQualifier : expandedQualifier + rest; } else { result = className; // no change } // now append back dimension and generics if (generic != null) { result = result + "<" + applyImports(generic, imports) + ">"; } while (numDimensions-- > 0) { result = result + "[]"; } return result; } public String getDefaultValue(String className) { if ("int".equals(className)) { return "0"; } if ("short".equals(className)) { return "0"; } if ("long".equals(className)) { return "0L"; } if ("float".equals(className)) { return "0f"; } if ("double".equals(className)) { return "0.0"; } if ("boolean".equals(className)) { return "false"; } if ("char".equals(className)) { return "'\\u0000'"; } if ("byte".equals(className)) { return "0"; } return "null"; } public abstract ModelClass findClass(String className, Map imports); public abstract ModelClass findClass(Class classType); public abstract TypeUtil createTypeUtil(); ModelClass[] getListTypes() { if (mListTypes == null) { mListTypes = new ModelClass[LIST_CLASS_NAMES.length]; for (int i = 0; i < mListTypes.length; i++) { final ModelClass modelClass = findClass(LIST_CLASS_NAMES[i], null); if (modelClass != null) { mListTypes[i] = modelClass.erasure(); } } } return mListTypes; } public ModelClass getMapType() { if (mMapType == null) { mMapType = loadClassErasure(MAP_CLASS_NAME); } return mMapType; } ModelClass getStringType() { if (mStringType == null) { mStringType = findClass(STRING_CLASS_NAME, null); } return mStringType; } ModelClass getObjectType() { if (mObjectType == null) { mObjectType = findClass(OBJECT_CLASS_NAME, null); } return mObjectType; } ModelClass getObservableType() { if (mObservableType == null) { mObservableType = findClass(OBSERVABLE_CLASS_NAME, null); } return mObservableType; } ModelClass getObservableListType() { if (mObservableListType == null) { mObservableListType = loadClassErasure(OBSERVABLE_LIST_CLASS_NAME); } return mObservableListType; } ModelClass getObservableMapType() { if (mObservableMapType == null) { mObservableMapType = loadClassErasure(OBSERVABLE_MAP_CLASS_NAME); } return mObservableMapType; } ModelClass getViewDataBindingType() { if (mViewBindingType == null) { mViewBindingType = findClass(VIEW_DATA_BINDING, null); } return mViewBindingType; } protected ModelClass[] getObservableFieldTypes() { if (mObservableFieldTypes == null) { mObservableFieldTypes = new ModelClass[OBSERVABLE_FIELDS.length]; for (int i = 0; i < OBSERVABLE_FIELDS.length; i++) { mObservableFieldTypes[i] = loadClassErasure(OBSERVABLE_FIELDS[i]); } } return mObservableFieldTypes; } ModelClass getViewStubType() { if (mViewStubType == null) { mViewStubType = findClass(VIEW_STUB_CLASS_NAME, null); } return mViewStubType; } private ModelClass loadClassErasure(String className) { return findClass(className, null).erasure(); } }