/* * Copyright (C) 2010 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.animation; import android.content.Context; import android.content.res.Resources; import android.content.res.Resources.NotFoundException; import android.content.res.Resources.Theme; import android.content.res.TypedArray; import android.content.res.XmlResourceParser; import android.graphics.Path; import android.util.AttributeSet; import android.util.Log; import android.util.PathParser; import android.util.StateSet; import android.util.TypedValue; import android.util.Xml; import android.view.InflateException; import android.view.animation.AnimationUtils; import com.android.internal.R; import org.xmlpull.v1.XmlPullParser; import org.xmlpull.v1.XmlPullParserException; import java.io.IOException; import java.util.ArrayList; /** * This class is used to instantiate animator XML files into Animator objects. *

* For performance reasons, inflation relies heavily on pre-processing of * XML files that is done at build time. Therefore, it is not currently possible * to use this inflater with an XmlPullParser over a plain XML file at runtime; * it only works with an XmlPullParser returned from a compiled resource (R. * something file.) */ public class AnimatorInflater { private static final String TAG = "AnimatorInflater"; /** * These flags are used when parsing AnimatorSet objects */ private static final int TOGETHER = 0; private static final int SEQUENTIALLY = 1; /** * Enum values used in XML attributes to indicate the value for mValueType */ private static final int VALUE_TYPE_FLOAT = 0; private static final int VALUE_TYPE_INT = 1; private static final int VALUE_TYPE_PATH = 2; private static final int VALUE_TYPE_COLOR = 4; private static final int VALUE_TYPE_CUSTOM = 5; private static final boolean DBG_ANIMATOR_INFLATER = false; /** * Loads an {@link Animator} object from a resource * * @param context Application context used to access resources * @param id The resource id of the animation to load * @return The animator object reference by the specified id * @throws android.content.res.Resources.NotFoundException when the animation cannot be loaded */ public static Animator loadAnimator(Context context, int id) throws NotFoundException { return loadAnimator(context.getResources(), context.getTheme(), id); } /** * Loads an {@link Animator} object from a resource * * @param resources The resources * @param theme The theme * @param id The resource id of the animation to load * @return The animator object reference by the specified id * @throws android.content.res.Resources.NotFoundException when the animation cannot be loaded * @hide */ public static Animator loadAnimator(Resources resources, Theme theme, int id) throws NotFoundException { return loadAnimator(resources, theme, id, 1); } /** @hide */ public static Animator loadAnimator(Resources resources, Theme theme, int id, float pathErrorScale) throws NotFoundException { XmlResourceParser parser = null; try { parser = resources.getAnimation(id); return createAnimatorFromXml(resources, theme, parser, pathErrorScale); } catch (XmlPullParserException ex) { Resources.NotFoundException rnf = new Resources.NotFoundException("Can't load animation resource ID #0x" + Integer.toHexString(id)); rnf.initCause(ex); throw rnf; } catch (IOException ex) { Resources.NotFoundException rnf = new Resources.NotFoundException("Can't load animation resource ID #0x" + Integer.toHexString(id)); rnf.initCause(ex); throw rnf; } finally { if (parser != null) parser.close(); } } public static StateListAnimator loadStateListAnimator(Context context, int id) throws NotFoundException { XmlResourceParser parser = null; try { parser = context.getResources().getAnimation(id); return createStateListAnimatorFromXml(context, parser, Xml.asAttributeSet(parser)); } catch (XmlPullParserException ex) { Resources.NotFoundException rnf = new Resources.NotFoundException( "Can't load state list animator resource ID #0x" + Integer.toHexString(id) ); rnf.initCause(ex); throw rnf; } catch (IOException ex) { Resources.NotFoundException rnf = new Resources.NotFoundException( "Can't load state list animator resource ID #0x" + Integer.toHexString(id) ); rnf.initCause(ex); throw rnf; } finally { if (parser != null) { parser.close(); } } } private static StateListAnimator createStateListAnimatorFromXml(Context context, XmlPullParser parser, AttributeSet attributeSet) throws IOException, XmlPullParserException { int type; StateListAnimator stateListAnimator = new StateListAnimator(); while (true) { type = parser.next(); switch (type) { case XmlPullParser.END_DOCUMENT: case XmlPullParser.END_TAG: return stateListAnimator; case XmlPullParser.START_TAG: // parse item Animator animator = null; if ("item".equals(parser.getName())) { int attributeCount = parser.getAttributeCount(); int[] states = new int[attributeCount]; int stateIndex = 0; for (int i = 0; i < attributeCount; i++) { int attrName = attributeSet.getAttributeNameResource(i); if (attrName == R.attr.animation) { animator = loadAnimator(context, attributeSet.getAttributeResourceValue(i, 0)); } else { states[stateIndex++] = attributeSet.getAttributeBooleanValue(i, false) ? attrName : -attrName; } } if (animator == null) { animator = createAnimatorFromXml(context.getResources(), context.getTheme(), parser, 1f); } if (animator == null) { throw new Resources.NotFoundException( "animation state item must have a valid animation"); } stateListAnimator .addState(StateSet.trimStateSet(states, stateIndex), animator); } break; } } } /** * PathDataEvaluator is used to interpolate between two paths which are * represented in the same format but different control points' values. * The path is represented as an array of PathDataNode here, which is * fundamentally an array of floating point numbers. */ private static class PathDataEvaluator implements TypeEvaluator { private PathParser.PathDataNode[] mNodeArray; /** * Create a PathParser.PathDataNode[] that does not reuse the animated value. * Care must be taken when using this option because on every evaluation * a new PathParser.PathDataNode[] will be allocated. */ private PathDataEvaluator() {} /** * Create a PathDataEvaluator that reuses nodeArray for every evaluate() call. * Caution must be taken to ensure that the value returned from * {@link android.animation.ValueAnimator#getAnimatedValue()} is not cached, modified, or * used across threads. The value will be modified on each evaluate() call. * * @param nodeArray The array to modify and return from evaluate. */ public PathDataEvaluator(PathParser.PathDataNode[] nodeArray) { mNodeArray = nodeArray; } @Override public PathParser.PathDataNode[] evaluate(float fraction, PathParser.PathDataNode[] startPathData, PathParser.PathDataNode[] endPathData) { if (!PathParser.canMorph(startPathData, endPathData)) { throw new IllegalArgumentException("Can't interpolate between" + " two incompatible pathData"); } if (mNodeArray == null || !PathParser.canMorph(mNodeArray, startPathData)) { mNodeArray = PathParser.deepCopyNodes(startPathData); } for (int i = 0; i < startPathData.length; i++) { mNodeArray[i].interpolatePathDataNode(startPathData[i], endPathData[i], fraction); } return mNodeArray; } } /** * @param anim The animator, must not be null * @param arrayAnimator Incoming typed array for Animator's attributes. * @param arrayObjectAnimator Incoming typed array for Object Animator's * attributes. * @param pixelSize The relative pixel size, used to calculate the * maximum error for path animations. */ private static void parseAnimatorFromTypeArray(ValueAnimator anim, TypedArray arrayAnimator, TypedArray arrayObjectAnimator, float pixelSize) { long duration = arrayAnimator.getInt(R.styleable.Animator_duration, 300); long startDelay = arrayAnimator.getInt(R.styleable.Animator_startOffset, 0); int valueType = arrayAnimator.getInt(R.styleable.Animator_valueType, VALUE_TYPE_FLOAT); TypeEvaluator evaluator = null; boolean getFloats = (valueType == VALUE_TYPE_FLOAT); TypedValue tvFrom = arrayAnimator.peekValue(R.styleable.Animator_valueFrom); boolean hasFrom = (tvFrom != null); int fromType = hasFrom ? tvFrom.type : 0; TypedValue tvTo = arrayAnimator.peekValue(R.styleable.Animator_valueTo); boolean hasTo = (tvTo != null); int toType = hasTo ? tvTo.type : 0; // TODO: Further clean up this part of code into 4 types : path, color, // integer and float. if (valueType == VALUE_TYPE_PATH) { evaluator = setupAnimatorForPath(anim, arrayAnimator); } else { // Integer and float value types are handled here. if ((hasFrom && (fromType >= TypedValue.TYPE_FIRST_COLOR_INT) && (fromType <= TypedValue.TYPE_LAST_COLOR_INT)) || (hasTo && (toType >= TypedValue.TYPE_FIRST_COLOR_INT) && (toType <= TypedValue.TYPE_LAST_COLOR_INT))) { // special case for colors: ignore valueType and get ints getFloats = false; evaluator = ArgbEvaluator.getInstance(); } setupValues(anim, arrayAnimator, getFloats, hasFrom, fromType, hasTo, toType); } anim.setDuration(duration); anim.setStartDelay(startDelay); if (arrayAnimator.hasValue(R.styleable.Animator_repeatCount)) { anim.setRepeatCount( arrayAnimator.getInt(R.styleable.Animator_repeatCount, 0)); } if (arrayAnimator.hasValue(R.styleable.Animator_repeatMode)) { anim.setRepeatMode( arrayAnimator.getInt(R.styleable.Animator_repeatMode, ValueAnimator.RESTART)); } if (evaluator != null) { anim.setEvaluator(evaluator); } if (arrayObjectAnimator != null) { setupObjectAnimator(anim, arrayObjectAnimator, getFloats, pixelSize); } } /** * Setup the Animator to achieve path morphing. * * @param anim The target Animator which will be updated. * @param arrayAnimator TypedArray for the ValueAnimator. * @return the PathDataEvaluator. */ private static TypeEvaluator setupAnimatorForPath(ValueAnimator anim, TypedArray arrayAnimator) { TypeEvaluator evaluator = null; String fromString = arrayAnimator.getString(R.styleable.Animator_valueFrom); String toString = arrayAnimator.getString(R.styleable.Animator_valueTo); PathParser.PathDataNode[] nodesFrom = PathParser.createNodesFromPathData(fromString); PathParser.PathDataNode[] nodesTo = PathParser.createNodesFromPathData(toString); if (nodesFrom != null) { if (nodesTo != null) { anim.setObjectValues(nodesFrom, nodesTo); if (!PathParser.canMorph(nodesFrom, nodesTo)) { throw new InflateException(arrayAnimator.getPositionDescription() + " Can't morph from " + fromString + " to " + toString); } } else { anim.setObjectValues((Object)nodesFrom); } evaluator = new PathDataEvaluator(PathParser.deepCopyNodes(nodesFrom)); } else if (nodesTo != null) { anim.setObjectValues((Object)nodesTo); evaluator = new PathDataEvaluator(PathParser.deepCopyNodes(nodesTo)); } if (DBG_ANIMATOR_INFLATER && evaluator != null) { Log.v(TAG, "create a new PathDataEvaluator here"); } return evaluator; } /** * Setup ObjectAnimator's property or values from pathData. * * @param anim The target Animator which will be updated. * @param arrayObjectAnimator TypedArray for the ObjectAnimator. * @param getFloats True if the value type is float. * @param pixelSize The relative pixel size, used to calculate the * maximum error for path animations. */ private static void setupObjectAnimator(ValueAnimator anim, TypedArray arrayObjectAnimator, boolean getFloats, float pixelSize) { ObjectAnimator oa = (ObjectAnimator) anim; String pathData = arrayObjectAnimator.getString(R.styleable.PropertyAnimator_pathData); // Note that if there is a pathData defined in the Object Animator, // valueFrom / valueTo will be ignored. if (pathData != null) { String propertyXName = arrayObjectAnimator.getString(R.styleable.PropertyAnimator_propertyXName); String propertyYName = arrayObjectAnimator.getString(R.styleable.PropertyAnimator_propertyYName); if (propertyXName == null && propertyYName == null) { throw new InflateException(arrayObjectAnimator.getPositionDescription() + " propertyXName or propertyYName is needed for PathData"); } else { Path path = PathParser.createPathFromPathData(pathData); float error = 0.5f * pixelSize; // max half a pixel error PathKeyframes keyframeSet = KeyframeSet.ofPath(path, error); Keyframes xKeyframes; Keyframes yKeyframes; if (getFloats) { xKeyframes = keyframeSet.createXFloatKeyframes(); yKeyframes = keyframeSet.createYFloatKeyframes(); } else { xKeyframes = keyframeSet.createXIntKeyframes(); yKeyframes = keyframeSet.createYIntKeyframes(); } PropertyValuesHolder x = null; PropertyValuesHolder y = null; if (propertyXName != null) { x = PropertyValuesHolder.ofKeyframes(propertyXName, xKeyframes); } if (propertyYName != null) { y = PropertyValuesHolder.ofKeyframes(propertyYName, yKeyframes); } if (x == null) { oa.setValues(y); } else if (y == null) { oa.setValues(x); } else { oa.setValues(x, y); } } } else { String propertyName = arrayObjectAnimator.getString(R.styleable.PropertyAnimator_propertyName); oa.setPropertyName(propertyName); } } /** * Setup ValueAnimator's values. * This will handle all of the integer, float and color types. * * @param anim The target Animator which will be updated. * @param arrayAnimator TypedArray for the ValueAnimator. * @param getFloats True if the value type is float. * @param hasFrom True if "valueFrom" exists. * @param fromType The type of "valueFrom". * @param hasTo True if "valueTo" exists. * @param toType The type of "valueTo". */ private static void setupValues(ValueAnimator anim, TypedArray arrayAnimator, boolean getFloats, boolean hasFrom, int fromType, boolean hasTo, int toType) { int valueFromIndex = R.styleable.Animator_valueFrom; int valueToIndex = R.styleable.Animator_valueTo; if (getFloats) { float valueFrom; float valueTo; if (hasFrom) { if (fromType == TypedValue.TYPE_DIMENSION) { valueFrom = arrayAnimator.getDimension(valueFromIndex, 0f); } else { valueFrom = arrayAnimator.getFloat(valueFromIndex, 0f); } if (hasTo) { if (toType == TypedValue.TYPE_DIMENSION) { valueTo = arrayAnimator.getDimension(valueToIndex, 0f); } else { valueTo = arrayAnimator.getFloat(valueToIndex, 0f); } anim.setFloatValues(valueFrom, valueTo); } else { anim.setFloatValues(valueFrom); } } else { if (toType == TypedValue.TYPE_DIMENSION) { valueTo = arrayAnimator.getDimension(valueToIndex, 0f); } else { valueTo = arrayAnimator.getFloat(valueToIndex, 0f); } anim.setFloatValues(valueTo); } } else { int valueFrom; int valueTo; if (hasFrom) { if (fromType == TypedValue.TYPE_DIMENSION) { valueFrom = (int) arrayAnimator.getDimension(valueFromIndex, 0f); } else if ((fromType >= TypedValue.TYPE_FIRST_COLOR_INT) && (fromType <= TypedValue.TYPE_LAST_COLOR_INT)) { valueFrom = arrayAnimator.getColor(valueFromIndex, 0); } else { valueFrom = arrayAnimator.getInt(valueFromIndex, 0); } if (hasTo) { if (toType == TypedValue.TYPE_DIMENSION) { valueTo = (int) arrayAnimator.getDimension(valueToIndex, 0f); } else if ((toType >= TypedValue.TYPE_FIRST_COLOR_INT) && (toType <= TypedValue.TYPE_LAST_COLOR_INT)) { valueTo = arrayAnimator.getColor(valueToIndex, 0); } else { valueTo = arrayAnimator.getInt(valueToIndex, 0); } anim.setIntValues(valueFrom, valueTo); } else { anim.setIntValues(valueFrom); } } else { if (hasTo) { if (toType == TypedValue.TYPE_DIMENSION) { valueTo = (int) arrayAnimator.getDimension(valueToIndex, 0f); } else if ((toType >= TypedValue.TYPE_FIRST_COLOR_INT) && (toType <= TypedValue.TYPE_LAST_COLOR_INT)) { valueTo = arrayAnimator.getColor(valueToIndex, 0); } else { valueTo = arrayAnimator.getInt(valueToIndex, 0); } anim.setIntValues(valueTo); } } } } private static Animator createAnimatorFromXml(Resources res, Theme theme, XmlPullParser parser, float pixelSize) throws XmlPullParserException, IOException { return createAnimatorFromXml(res, theme, parser, Xml.asAttributeSet(parser), null, 0, pixelSize); } private static Animator createAnimatorFromXml(Resources res, Theme theme, XmlPullParser parser, AttributeSet attrs, AnimatorSet parent, int sequenceOrdering, float pixelSize) throws XmlPullParserException, IOException { Animator anim = null; ArrayList childAnims = null; // Make sure we are on a start tag. int type; int depth = parser.getDepth(); while (((type = parser.next()) != XmlPullParser.END_TAG || parser.getDepth() > depth) && type != XmlPullParser.END_DOCUMENT) { if (type != XmlPullParser.START_TAG) { continue; } String name = parser.getName(); if (name.equals("objectAnimator")) { anim = loadObjectAnimator(res, theme, attrs, pixelSize); } else if (name.equals("animator")) { anim = loadAnimator(res, theme, attrs, null, pixelSize); } else if (name.equals("set")) { anim = new AnimatorSet(); TypedArray a; if (theme != null) { a = theme.obtainStyledAttributes(attrs, R.styleable.AnimatorSet, 0, 0); } else { a = res.obtainAttributes(attrs, R.styleable.AnimatorSet); } int ordering = a.getInt(R.styleable.AnimatorSet_ordering, TOGETHER); createAnimatorFromXml(res, theme, parser, attrs, (AnimatorSet) anim, ordering, pixelSize); a.recycle(); } else { throw new RuntimeException("Unknown animator name: " + parser.getName()); } if (parent != null) { if (childAnims == null) { childAnims = new ArrayList(); } childAnims.add(anim); } } if (parent != null && childAnims != null) { Animator[] animsArray = new Animator[childAnims.size()]; int index = 0; for (Animator a : childAnims) { animsArray[index++] = a; } if (sequenceOrdering == TOGETHER) { parent.playTogether(animsArray); } else { parent.playSequentially(animsArray); } } return anim; } private static ObjectAnimator loadObjectAnimator(Resources res, Theme theme, AttributeSet attrs, float pathErrorScale) throws NotFoundException { ObjectAnimator anim = new ObjectAnimator(); loadAnimator(res, theme, attrs, anim, pathErrorScale); return anim; } /** * Creates a new animation whose parameters come from the specified context * and attributes set. * * @param res The resources * @param attrs The set of attributes holding the animation parameters * @param anim Null if this is a ValueAnimator, otherwise this is an * ObjectAnimator */ private static ValueAnimator loadAnimator(Resources res, Theme theme, AttributeSet attrs, ValueAnimator anim, float pathErrorScale) throws NotFoundException { TypedArray arrayAnimator = null; TypedArray arrayObjectAnimator = null; if (theme != null) { arrayAnimator = theme.obtainStyledAttributes(attrs, R.styleable.Animator, 0, 0); } else { arrayAnimator = res.obtainAttributes(attrs, R.styleable.Animator); } // If anim is not null, then it is an object animator. if (anim != null) { if (theme != null) { arrayObjectAnimator = theme.obtainStyledAttributes(attrs, R.styleable.PropertyAnimator, 0, 0); } else { arrayObjectAnimator = res.obtainAttributes(attrs, R.styleable.PropertyAnimator); } } if (anim == null) { anim = new ValueAnimator(); } parseAnimatorFromTypeArray(anim, arrayAnimator, arrayObjectAnimator, pathErrorScale); final int resID = arrayAnimator.getResourceId(R.styleable.Animator_interpolator, 0); if (resID > 0) { anim.setInterpolator(AnimationUtils.loadInterpolator(res, theme, resID)); } arrayAnimator.recycle(); if (arrayObjectAnimator != null) { arrayObjectAnimator.recycle(); } return anim; } }