/* * Copyright (C) 2012 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 com.android.camera.ui; import android.content.Context; import android.content.res.Resources; import android.graphics.Canvas; import android.graphics.Color; import android.graphics.Paint; import android.graphics.Path; import android.graphics.Point; import android.graphics.PointF; import android.graphics.RectF; import android.os.Handler; import android.os.Message; import android.util.Log; import android.view.MotionEvent; import android.view.ViewConfiguration; import android.view.animation.Animation; import android.view.animation.Animation.AnimationListener; import android.view.animation.LinearInterpolator; import android.view.animation.Transformation; import com.android.gallery3d.R; import java.util.ArrayList; import java.util.List; public class PieRenderer extends OverlayRenderer implements FocusIndicator { private static final String TAG = "CAM Pie"; // Sometimes continuous autofocus starts and stops several times quickly. // These states are used to make sure the animation is run for at least some // time. private volatile int mState; private ScaleAnimation mAnimation = new ScaleAnimation(); private static final int STATE_IDLE = 0; private static final int STATE_FOCUSING = 1; private static final int STATE_FINISHING = 2; private static final int STATE_PIE = 8; private static final float MATH_PI_2 = (float)(Math.PI / 2); private Runnable mDisappear = new Disappear(); private Animation.AnimationListener mEndAction = new EndAction(); private static final int SCALING_UP_TIME = 600; private static final int SCALING_DOWN_TIME = 100; private static final int DISAPPEAR_TIMEOUT = 200; private static final int DIAL_HORIZONTAL = 157; // fade out timings private static final int PIE_FADE_OUT_DURATION = 600; private static final long PIE_FADE_IN_DURATION = 200; private static final long PIE_XFADE_DURATION = 200; private static final long PIE_SELECT_FADE_DURATION = 300; private static final long PIE_OPEN_SUB_DELAY = 400; private static final int MSG_OPEN = 0; private static final int MSG_CLOSE = 1; private static final int MSG_OPENSUBMENU = 2; private static final float PIE_SWEEP = (float)(Math.PI / 2); // geometry private Point mSliceCenter; private int mRadius; // the detection if touch is inside a slice is offset // inbounds by this amount to allow the selection to show before the // finger covers it private int mTouchOffset; private List mOpen; private Paint mSelectedPaint; private Paint mSubPaint; private Paint mMenuArcPaint; // touch handling private PieItem mCurrentItem; private Paint mFocusPaint; private int mSuccessColor; private int mFailColor; private int mCircleSize; private int mFocusX; private int mFocusY; private int mCenterX; private int mCenterY; private int mPieCenterX; private int mPieCenterY; private int mIconRadius; private int mArcRadius; private int mArcOffset; private int mDialAngle; private RectF mCircle; private RectF mDial; private Point mPoint1; private Point mPoint2; private int mStartAnimationAngle; private boolean mFocused; private int mInnerOffset; private int mOuterStroke; private int mInnerStroke; private boolean mTapMode; private boolean mBlockFocus; private int mTouchSlopSquared; private Point mDown; private boolean mOpening; private LinearAnimation mXFade; private LinearAnimation mFadeIn; private FadeOutAnimation mFadeOut; private volatile boolean mFocusCancelled; private Handler mHandler = new Handler() { public void handleMessage(Message msg) { switch(msg.what) { case MSG_OPEN: if (mListener != null) { mListener.onPieOpened(mPieCenterX, mPieCenterY); } break; case MSG_CLOSE: if (mListener != null) { mListener.onPieClosed(); } break; case MSG_OPENSUBMENU: onEnterOpen(); break; } } }; private PieListener mListener; static public interface PieListener { public void onPieOpened(int centerX, int centerY); public void onPieClosed(); } public void setPieListener(PieListener pl) { mListener = pl; } public PieRenderer(Context context) { init(context); } private void init(Context ctx) { setVisible(false); mOpen = new ArrayList(); mOpen.add(new PieItem(null, 0)); Resources res = ctx.getResources(); mRadius = (int) res.getDimensionPixelSize(R.dimen.pie_radius_start); mCircleSize = mRadius - res.getDimensionPixelSize(R.dimen.focus_radius_offset); mTouchOffset = (int) res.getDimensionPixelSize(R.dimen.pie_touch_offset); mSliceCenter = new Point(0,0); mSelectedPaint = new Paint(); mSelectedPaint.setColor(Color.argb(255, 51, 181, 229)); mSelectedPaint.setAntiAlias(true); mSubPaint = new Paint(); mSubPaint.setAntiAlias(true); mSubPaint.setColor(Color.argb(200, 250, 230, 128)); mFocusPaint = new Paint(); mFocusPaint.setAntiAlias(true); mFocusPaint.setColor(Color.WHITE); mFocusPaint.setStyle(Paint.Style.STROKE); mSuccessColor = Color.GREEN; mFailColor = Color.RED; mCircle = new RectF(); mDial = new RectF(); mPoint1 = new Point(); mPoint2 = new Point(); mInnerOffset = res.getDimensionPixelSize(R.dimen.focus_inner_offset); mOuterStroke = res.getDimensionPixelSize(R.dimen.focus_outer_stroke); mInnerStroke = res.getDimensionPixelSize(R.dimen.focus_inner_stroke); mState = STATE_IDLE; mBlockFocus = false; mTouchSlopSquared = ViewConfiguration.get(ctx).getScaledTouchSlop(); mTouchSlopSquared = mTouchSlopSquared * mTouchSlopSquared; mDown = new Point(); mMenuArcPaint = new Paint(); mMenuArcPaint.setAntiAlias(true); mMenuArcPaint.setColor(Color.argb(140, 255, 255, 255)); mMenuArcPaint.setStrokeWidth(10); mMenuArcPaint.setStyle(Paint.Style.STROKE); mIconRadius = res.getDimensionPixelSize(R.dimen.pie_item_radius); mArcRadius = res.getDimensionPixelSize(R.dimen.pie_arc_radius); mArcOffset = res.getDimensionPixelSize(R.dimen.pie_arc_offset); } private PieItem getRoot() { return mOpen.get(0); } public boolean showsItems() { return mTapMode; } public void addItem(PieItem item) { // add the item to the pie itself getRoot().addItem(item); } public void clearItems() { getRoot().clearItems(); } public void showInCenter() { if ((mState == STATE_PIE) && isVisible()) { mTapMode = false; show(false); } else { if (mState != STATE_IDLE) { cancelFocus(); } mState = STATE_PIE; resetPieCenter(); setCenter(mPieCenterX, mPieCenterY); mTapMode = true; show(true); } } public void hide() { show(false); } /** * guaranteed has center set * @param show */ private void show(boolean show) { if (show) { mState = STATE_PIE; // ensure clean state mCurrentItem = null; PieItem root = getRoot(); for (PieItem openItem : mOpen) { if (openItem.hasItems()) { for (PieItem item : openItem.getItems()) { item.setSelected(false); } } } mOpen.clear(); mOpen.add(root); layoutPie(); fadeIn(); } else { mState = STATE_IDLE; mTapMode = false; if (mXFade != null) { mXFade.cancel(); } } setVisible(show); mHandler.sendEmptyMessage(show ? MSG_OPEN : MSG_CLOSE); } private void fadeIn() { mFadeIn = new LinearAnimation(0, 1); mFadeIn.setDuration(PIE_FADE_IN_DURATION); mFadeIn.setAnimationListener(new AnimationListener() { @Override public void onAnimationStart(Animation animation) { } @Override public void onAnimationEnd(Animation animation) { mFadeIn = null; } @Override public void onAnimationRepeat(Animation animation) { } }); mFadeIn.startNow(); mOverlay.startAnimation(mFadeIn); } public void setCenter(int x, int y) { mPieCenterX = x; mPieCenterY = y; mSliceCenter.x = x; mSliceCenter.y = y - mArcOffset + mIconRadius; } @Override public void layout(int l, int t, int r, int b) { super.layout(l, t, r, b); mCenterX = (r - l) / 2; mCenterY = (b - t) / 2; mFocusX = mCenterX; mFocusY = mCenterY; resetPieCenter(); setCircle(mFocusX, mFocusY); if (isVisible() && mState == STATE_PIE) { setCenter(mPieCenterX, mPieCenterY); layoutPie(); } } private void resetPieCenter() { mPieCenterX = mCenterX; mPieCenterY = mCenterY + mCenterY / 3; } private void layoutPie() { int inner = mIconRadius; int outer = inner + mTouchOffset; int gap = 1; layoutItems(0, getRoot().getItems(), (float) (Math.PI / 2), inner, outer, gap); } private void layoutItems(int level, List items, float centerAngle, int inner, int outer, int gap) { float emptyangle = PIE_SWEEP / 16; float sweep = (float) (PIE_SWEEP - 2 * emptyangle) / items.size(); float angle = centerAngle - PIE_SWEEP / 2 + emptyangle + sweep / 2; // check if we have custom geometry // first item we find triggers custom sweep for all // this allows us to re-use the path for (PieItem item : items) { if (item.getCenter() >= 0) { sweep = item.getSweep(); break; } } Point p = new Point(mSliceCenter); p.y -= level * mTouchOffset; Path path = makeSlice(getDegrees(0) - gap, getDegrees(sweep) + gap, outer, inner, p); for (PieItem item : items) { // shared between items item.setPath(path); if (item.getCenter() >= 0) { angle = item.getCenter(); } int w = item.getIntrinsicWidth(); int h = item.getIntrinsicHeight(); // move views to outer border int r = inner + (outer - inner) * 2 / 3; int x = (int) (r * Math.cos(angle)); int y = mSliceCenter.y - (level * mTouchOffset) - (int) (r * Math.sin(angle)) - h / 2; x = mSliceCenter.x + x - w / 2; item.setBounds(x, y, x + w, y + h); float itemstart = angle - sweep / 2; item.setGeometry(itemstart, sweep, inner, outer); if (item.hasItems()) { layoutItems(level + 1, item.getItems(), MATH_PI_2, inner, outer, gap); } angle += sweep; } } private Path makeSlice(float start, float end, int outer, int inner, Point center) { RectF bb = new RectF(center.x - outer, center.y - outer, center.x + outer, center.y + outer); RectF bbi = new RectF(center.x - inner, center.y - inner, center.x + inner, center.y + inner); Path path = new Path(); path.arcTo(bb, start, end - start, true); path.arcTo(bbi, end, start - end); path.close(); return path; } /** * converts a * @param angle from 0..PI to Android degrees (clockwise starting at 3 o'clock) * @return skia angle */ private float getDegrees(double angle) { return (float) (360 - 180 * angle / Math.PI); } private void startFadeOut(final PieItem item) { if (mFadeIn != null) { mFadeIn.cancel(); } if (mXFade != null) { mXFade.cancel(); } mFadeOut = new FadeOutAnimation(); mFadeOut.setDuration(PIE_FADE_OUT_DURATION); mFadeOut.setAnimationListener(new AnimationListener() { @Override public void onAnimationStart(Animation animation) { } @Override public void onAnimationEnd(Animation animation) { item.performClick(); mFadeOut = null; deselect(); show(false); mOverlay.setAlpha(1); } @Override public void onAnimationRepeat(Animation animation) { } }); mFadeOut.startNow(); mOverlay.startAnimation(mFadeOut); } // root does not count private boolean hasOpenItem() { return mOpen.size() > 1; } // pop an item of the open item stack private PieItem closeOpenItem() { PieItem item = getOpenItem(); mOpen.remove(mOpen.size() -1); return item; } private PieItem getOpenItem() { return mOpen.get(mOpen.size() - 1); } // return the children either the root or parent of the current open item private PieItem getParent() { return mOpen.get(Math.max(0, mOpen.size() - 2)); } private int getLevel() { return mOpen.size() - 1; } @Override public void onDraw(Canvas canvas) { float alpha = 1; if (mXFade != null) { alpha = mXFade.getValue(); } else if (mFadeIn != null) { alpha = mFadeIn.getValue(); } else if (mFadeOut != null) { alpha = mFadeOut.getValue(); } int state = canvas.save(); if (mFadeIn != null) { float sf = 0.9f + alpha * 0.1f; canvas.scale(sf, sf, mPieCenterX, mPieCenterY); } if (mState != STATE_PIE) { drawFocus(canvas); } if (mState == STATE_FINISHING) { canvas.restoreToCount(state); return; } if (!hasOpenItem() || (mXFade != null)) { // draw base menu drawArc(canvas, getLevel()); for (PieItem item : getParent().getItems()) { drawItem(Math.max(0, mOpen.size() - 2), canvas, item, alpha); } } if (hasOpenItem()) { int level = getLevel(); drawArc(canvas, level); for (PieItem inner : getOpenItem().getItems()) { if (mFadeOut != null) { drawItem(level, canvas, inner, alpha); } else { drawItem(level, canvas, inner, (mXFade != null) ? (1 - 0.5f * alpha) : 1); } } } canvas.restoreToCount(state); } private void drawArc(Canvas canvas, int level) { // arc if (mState == STATE_PIE) { int nr = mArcRadius; int cy = mPieCenterY - mArcOffset + mArcRadius - level * mTouchOffset; canvas.drawArc(new RectF(mPieCenterX - nr, cy - mArcRadius, mPieCenterX + nr, cy + mArcRadius), 252, 36, false, mMenuArcPaint); } } private void drawItem(int level, Canvas canvas, PieItem item, float alpha) { if (mState == STATE_PIE) { if (item.getPath() != null) { int y = mSliceCenter.y - level * mTouchOffset; if (item.isSelected()) { Paint p = mSelectedPaint; int state = canvas.save(); float r = getDegrees(item.getStartAngle()); canvas.rotate(r, mSliceCenter.x, y); if (mFadeOut != null) { p.setAlpha((int)(255 * alpha)); } canvas.drawPath(item.getPath(), p); if (mFadeOut != null) { p.setAlpha(255); } canvas.restoreToCount(state); } if (mFadeOut == null) { alpha = alpha * (item.isEnabled() ? 1 : 0.3f); // draw the item view item.setAlpha(alpha); } item.draw(canvas); } } } @Override public boolean onTouchEvent(MotionEvent evt) { float x = evt.getX(); float y = evt.getY(); int action = evt.getActionMasked(); PointF polar = getPolar(x, y, !mTapMode); if (MotionEvent.ACTION_DOWN == action) { mDown.x = (int) evt.getX(); mDown.y = (int) evt.getY(); mOpening = false; if (mTapMode) { PieItem item = findItem(polar); if ((item != null) && (mCurrentItem != item)) { mState = STATE_PIE; onEnter(item); } } else { setCenter((int) x, (int) y); show(true); } return true; } else if (MotionEvent.ACTION_UP == action) { if (isVisible()) { PieItem item = mCurrentItem; if (mTapMode) { item = findItem(polar); if (mOpening) { mOpening = false; return true; } } if (item == null) { mTapMode = false; show(false); } else if (!mOpening && !item.hasItems()) { startFadeOut(item); mTapMode = false; } else { mTapMode = true; } return true; } } else if (MotionEvent.ACTION_CANCEL == action) { if (isVisible() || mTapMode) { show(false); } deselect(); mHandler.removeMessages(MSG_OPENSUBMENU); return false; } else if (MotionEvent.ACTION_MOVE == action) { if (pulledToCenter(polar)) { mHandler.removeMessages(MSG_OPENSUBMENU); if (hasOpenItem()) { if (mCurrentItem != null) { mCurrentItem.setSelected(false); } closeOpenItem(); mCurrentItem = null; } else { deselect(); } return false; } PieItem item = findItem(polar); boolean moved = hasMoved(evt); if ((item != null) && (mCurrentItem != item) && (!mOpening || moved)) { mHandler.removeMessages(MSG_OPENSUBMENU); // only select if we didn't just open or have moved past slop if (moved) { // switch back to swipe mode mTapMode = false; } onEnterSelect(item); mHandler.sendEmptyMessageDelayed(MSG_OPENSUBMENU, PIE_OPEN_SUB_DELAY); } } return false; } private boolean pulledToCenter(PointF polarCoords) { return polarCoords.y < mIconRadius - mArcOffset; } private PointF getPolar(float x, float y, boolean useOffset) { PointF res = new PointF(); // get angle and radius from x/y res.x = (float) Math.PI / 2; x = x - mSliceCenter.x; y = mSliceCenter.y - getLevel() * mTouchOffset - y; res.y = (float) Math.sqrt(x * x + y * y); if (x != 0) { res.x = (float) Math.atan2(y, x); if (res.x < 0) { res.x = (float) (2 * Math.PI + res.x); } } res.y = res.y + (useOffset ? mTouchOffset : 0); return res; } private boolean hasMoved(MotionEvent e) { return mTouchSlopSquared < (e.getX() - mDown.x) * (e.getX() - mDown.x) + (e.getY() - mDown.y) * (e.getY() - mDown.y); } private void onEnterSelect(PieItem item) { if (mCurrentItem != null) { mCurrentItem.setSelected(false); } if (item != null && item.isEnabled()) { item.setSelected(true); mCurrentItem = item; } else { mCurrentItem = null; } } private void onEnterOpen() { if ((mCurrentItem != getOpenItem()) && mCurrentItem.hasItems()) { openCurrentItem(); } } /** * enter a slice for a view * updates model only * @param item */ private void onEnter(PieItem item) { if (mCurrentItem != null) { mCurrentItem.setSelected(false); } if (item != null && item.isEnabled()) { item.setSelected(true); mCurrentItem = item; if ((mCurrentItem != getOpenItem()) && mCurrentItem.hasItems()) { openCurrentItem(); } } else { mCurrentItem = null; } } private void deselect() { if (mCurrentItem != null) { mCurrentItem.setSelected(false); } if (hasOpenItem()) { PieItem item = closeOpenItem(); onEnter(item); } else { mCurrentItem = null; } } private void openCurrentItem() { if ((mCurrentItem != null) && mCurrentItem.hasItems()) { mOpen.add(mCurrentItem); mOpening = true; if (mFadeIn != null) { mFadeIn.cancel(); } mXFade = new LinearAnimation(1, 0); mXFade.setDuration(PIE_XFADE_DURATION); final PieItem ci = mCurrentItem; mXFade.setAnimationListener(new AnimationListener() { @Override public void onAnimationStart(Animation animation) { } @Override public void onAnimationEnd(Animation animation) { mXFade = null; ci.setSelected(false); mOpening = false; } @Override public void onAnimationRepeat(Animation animation) { } }); mXFade.startNow(); mOverlay.startAnimation(mXFade); } } /** * @param polar x: angle, y: dist * @return the item at angle/dist or null */ private PieItem findItem(PointF polar) { // find the matching item: List items = getOpenItem().getItems(); for (PieItem item : items) { if (inside(polar, item)) { return item; } } return null; } private boolean inside(PointF polar, PieItem item) { return (item.getInnerRadius() < polar.y) && (item.getStartAngle() < polar.x) && (item.getStartAngle() + item.getSweep() > polar.x) && (!mTapMode || (item.getOuterRadius() > polar.y)); } @Override public boolean handlesTouch() { return true; } // focus specific code public void setBlockFocus(boolean blocked) { mBlockFocus = blocked; if (blocked) { clear(); } } public void setFocus(int x, int y) { mFocusX = x; mFocusY = y; setCircle(mFocusX, mFocusY); } public void alignFocus(int x, int y) { mOverlay.removeCallbacks(mDisappear); mAnimation.cancel(); mAnimation.reset(); mFocusX = x; mFocusY = y; mDialAngle = DIAL_HORIZONTAL; setCircle(x, y); mFocused = false; } public int getSize() { return 2 * mCircleSize; } private int getRandomRange() { return (int)(-60 + 120 * Math.random()); } private void setCircle(int cx, int cy) { mCircle.set(cx - mCircleSize, cy - mCircleSize, cx + mCircleSize, cy + mCircleSize); mDial.set(cx - mCircleSize + mInnerOffset, cy - mCircleSize + mInnerOffset, cx + mCircleSize - mInnerOffset, cy + mCircleSize - mInnerOffset); } public void drawFocus(Canvas canvas) { if (mBlockFocus) return; mFocusPaint.setStrokeWidth(mOuterStroke); canvas.drawCircle((float) mFocusX, (float) mFocusY, (float) mCircleSize, mFocusPaint); if (mState == STATE_PIE) return; int color = mFocusPaint.getColor(); if (mState == STATE_FINISHING) { mFocusPaint.setColor(mFocused ? mSuccessColor : mFailColor); } mFocusPaint.setStrokeWidth(mInnerStroke); drawLine(canvas, mDialAngle, mFocusPaint); drawLine(canvas, mDialAngle + 45, mFocusPaint); drawLine(canvas, mDialAngle + 180, mFocusPaint); drawLine(canvas, mDialAngle + 225, mFocusPaint); canvas.save(); // rotate the arc instead of its offset to better use framework's shape caching canvas.rotate(mDialAngle, mFocusX, mFocusY); canvas.drawArc(mDial, 0, 45, false, mFocusPaint); canvas.drawArc(mDial, 180, 45, false, mFocusPaint); canvas.restore(); mFocusPaint.setColor(color); } private void drawLine(Canvas canvas, int angle, Paint p) { convertCart(angle, mCircleSize - mInnerOffset, mPoint1); convertCart(angle, mCircleSize - mInnerOffset + mInnerOffset / 3, mPoint2); canvas.drawLine(mPoint1.x + mFocusX, mPoint1.y + mFocusY, mPoint2.x + mFocusX, mPoint2.y + mFocusY, p); } private static void convertCart(int angle, int radius, Point out) { double a = 2 * Math.PI * (angle % 360) / 360; out.x = (int) (radius * Math.cos(a) + 0.5); out.y = (int) (radius * Math.sin(a) + 0.5); } @Override public void showStart() { if (mState == STATE_PIE) return; cancelFocus(); mStartAnimationAngle = 67; int range = getRandomRange(); startAnimation(SCALING_UP_TIME, false, mStartAnimationAngle, mStartAnimationAngle + range); mState = STATE_FOCUSING; } @Override public void showSuccess(boolean timeout) { if (mState == STATE_FOCUSING) { startAnimation(SCALING_DOWN_TIME, timeout, mStartAnimationAngle); mState = STATE_FINISHING; mFocused = true; } } @Override public void showFail(boolean timeout) { if (mState == STATE_FOCUSING) { startAnimation(SCALING_DOWN_TIME, timeout, mStartAnimationAngle); mState = STATE_FINISHING; mFocused = false; } } private void cancelFocus() { mFocusCancelled = true; mOverlay.removeCallbacks(mDisappear); if (mAnimation != null && !mAnimation.hasEnded()) { mAnimation.cancel(); } mFocusCancelled = false; mFocused = false; mState = STATE_IDLE; } @Override public void clear() { if (mState == STATE_PIE) return; cancelFocus(); mOverlay.post(mDisappear); } private void startAnimation(long duration, boolean timeout, float toScale) { startAnimation(duration, timeout, mDialAngle, toScale); } private void startAnimation(long duration, boolean timeout, float fromScale, float toScale) { setVisible(true); mAnimation.reset(); mAnimation.setDuration(duration); mAnimation.setScale(fromScale, toScale); mAnimation.setAnimationListener(timeout ? mEndAction : null); mOverlay.startAnimation(mAnimation); update(); } private class EndAction implements Animation.AnimationListener { @Override public void onAnimationEnd(Animation animation) { // Keep the focus indicator for some time. if (!mFocusCancelled) { mOverlay.postDelayed(mDisappear, DISAPPEAR_TIMEOUT); } } @Override public void onAnimationRepeat(Animation animation) { } @Override public void onAnimationStart(Animation animation) { } } private class Disappear implements Runnable { @Override public void run() { if (mState == STATE_PIE) return; setVisible(false); mFocusX = mCenterX; mFocusY = mCenterY; mState = STATE_IDLE; setCircle(mFocusX, mFocusY); mFocused = false; } } private class FadeOutAnimation extends Animation { private float mAlpha; public float getValue() { return mAlpha; } @Override protected void applyTransformation(float interpolatedTime, Transformation t) { if (interpolatedTime < 0.2) { mAlpha = 1; } else if (interpolatedTime < 0.3) { mAlpha = 0; } else { mAlpha = 1 - (interpolatedTime - 0.3f) / 0.7f; } } } private class ScaleAnimation extends Animation { private float mFrom = 1f; private float mTo = 1f; public ScaleAnimation() { setFillAfter(true); } public void setScale(float from, float to) { mFrom = from; mTo = to; } @Override protected void applyTransformation(float interpolatedTime, Transformation t) { mDialAngle = (int)(mFrom + (mTo - mFrom) * interpolatedTime); } } private class LinearAnimation extends Animation { private float mFrom; private float mTo; private float mValue; public LinearAnimation(float from, float to) { setFillAfter(true); setInterpolator(new LinearInterpolator()); mFrom = from; mTo = to; } public float getValue() { return mValue; } @Override protected void applyTransformation(float interpolatedTime, Transformation t) { mValue = (mFrom + (mTo - mFrom) * interpolatedTime); } } }