/* * Copyright (C) 2013 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.datetimepicker.time; import android.animation.Keyframe; import android.animation.ObjectAnimator; import android.animation.PropertyValuesHolder; import android.animation.ValueAnimator; import android.animation.ValueAnimator.AnimatorUpdateListener; import android.content.Context; import android.content.res.Resources; import android.graphics.Canvas; import android.graphics.Paint; import android.graphics.Typeface; import android.graphics.Paint.Align; import android.util.Log; import android.view.View; import com.android.datetimepicker.R; /** * A view to show a series of numbers in a circular pattern. */ public class RadialTextsView extends View { private final static String TAG = "RadialTextsView"; private final Paint mPaint = new Paint(); private boolean mDrawValuesReady; private boolean mIsInitialized; private Typeface mTypefaceLight; private Typeface mTypefaceRegular; private String[] mTexts; private String[] mInnerTexts; private boolean mIs24HourMode; private boolean mHasInnerCircle; private float mCircleRadiusMultiplier; private float mAmPmCircleRadiusMultiplier; private float mNumbersRadiusMultiplier; private float mInnerNumbersRadiusMultiplier; private float mTextSizeMultiplier; private float mInnerTextSizeMultiplier; private int mXCenter; private int mYCenter; private float mCircleRadius; private boolean mTextGridValuesDirty; private float mTextSize; private float mInnerTextSize; private float[] mTextGridHeights; private float[] mTextGridWidths; private float[] mInnerTextGridHeights; private float[] mInnerTextGridWidths; private float mAnimationRadiusMultiplier; private float mTransitionMidRadiusMultiplier; private float mTransitionEndRadiusMultiplier; ObjectAnimator mDisappearAnimator; ObjectAnimator mReappearAnimator; private InvalidateUpdateListener mInvalidateUpdateListener; public RadialTextsView(Context context) { super(context); mIsInitialized = false; } public void initialize(Resources res, String[] texts, String[] innerTexts, boolean is24HourMode, boolean disappearsOut) { if (mIsInitialized) { Log.e(TAG, "This RadialTextsView may only be initialized once."); return; } // Set up the paint. int numbersTextColor = res.getColor(R.color.numbers_text_color); mPaint.setColor(numbersTextColor); String typefaceFamily = res.getString(R.string.radial_numbers_typeface); mTypefaceLight = Typeface.create(typefaceFamily, Typeface.NORMAL); String typefaceFamilyRegular = res.getString(R.string.sans_serif); mTypefaceRegular = Typeface.create(typefaceFamilyRegular, Typeface.NORMAL); mPaint.setAntiAlias(true); mPaint.setTextAlign(Align.CENTER); mTexts = texts; mInnerTexts = innerTexts; mIs24HourMode = is24HourMode; mHasInnerCircle = (innerTexts != null); // Calculate the radius for the main circle. if (is24HourMode) { mCircleRadiusMultiplier = Float.parseFloat( res.getString(R.string.circle_radius_multiplier_24HourMode)); } else { mCircleRadiusMultiplier = Float.parseFloat( res.getString(R.string.circle_radius_multiplier)); mAmPmCircleRadiusMultiplier = Float.parseFloat(res.getString(R.string.ampm_circle_radius_multiplier)); } // Initialize the widths and heights of the grid, and calculate the values for the numbers. mTextGridHeights = new float[7]; mTextGridWidths = new float[7]; if (mHasInnerCircle) { mNumbersRadiusMultiplier = Float.parseFloat( res.getString(R.string.numbers_radius_multiplier_outer)); mTextSizeMultiplier = Float.parseFloat( res.getString(R.string.text_size_multiplier_outer)); mInnerNumbersRadiusMultiplier = Float.parseFloat( res.getString(R.string.numbers_radius_multiplier_inner)); mInnerTextSizeMultiplier = Float.parseFloat( res.getString(R.string.text_size_multiplier_inner)); mInnerTextGridHeights = new float[7]; mInnerTextGridWidths = new float[7]; } else { mNumbersRadiusMultiplier = Float.parseFloat( res.getString(R.string.numbers_radius_multiplier_normal)); mTextSizeMultiplier = Float.parseFloat( res.getString(R.string.text_size_multiplier_normal)); } mAnimationRadiusMultiplier = 1; mTransitionMidRadiusMultiplier = 1f + (0.05f * (disappearsOut? -1 : 1)); mTransitionEndRadiusMultiplier = 1f + (0.3f * (disappearsOut? 1 : -1)); mInvalidateUpdateListener = new InvalidateUpdateListener(); mTextGridValuesDirty = true; mIsInitialized = true; } /** * Allows for smoother animation. */ @Override public boolean hasOverlappingRendering() { return false; } /** * Used by the animation to move the numbers in and out. */ public void setAnimationRadiusMultiplier(float animationRadiusMultiplier) { mAnimationRadiusMultiplier = animationRadiusMultiplier; mTextGridValuesDirty = true; } @Override public void onDraw(Canvas canvas) { int viewWidth = getWidth(); if (viewWidth == 0 || !mIsInitialized) { return; } if (!mDrawValuesReady) { mXCenter = getWidth() / 2; mYCenter = getHeight() / 2; mCircleRadius = Math.min(mXCenter, mYCenter) * mCircleRadiusMultiplier; if (!mIs24HourMode) { // We'll need to draw the AM/PM circles, so the main circle will need to have // a slightly higher center. To keep the entire view centered vertically, we'll // have to push it up by half the radius of the AM/PM circles. float amPmCircleRadius = mCircleRadius * mAmPmCircleRadiusMultiplier; mYCenter -= amPmCircleRadius / 2; } mTextSize = mCircleRadius * mTextSizeMultiplier; if (mHasInnerCircle) { mInnerTextSize = mCircleRadius * mInnerTextSizeMultiplier; } // Because the text positions will be static, pre-render the animations. renderAnimations(); mTextGridValuesDirty = true; mDrawValuesReady = true; } // Calculate the text positions, but only if they've changed since the last onDraw. if (mTextGridValuesDirty) { float numbersRadius = mCircleRadius * mNumbersRadiusMultiplier * mAnimationRadiusMultiplier; // Calculate the positions for the 12 numbers in the main circle. calculateGridSizes(numbersRadius, mXCenter, mYCenter, mTextSize, mTextGridHeights, mTextGridWidths); if (mHasInnerCircle) { // If we have an inner circle, calculate those positions too. float innerNumbersRadius = mCircleRadius * mInnerNumbersRadiusMultiplier * mAnimationRadiusMultiplier; calculateGridSizes(innerNumbersRadius, mXCenter, mYCenter, mInnerTextSize, mInnerTextGridHeights, mInnerTextGridWidths); } mTextGridValuesDirty = false; } // Draw the texts in the pre-calculated positions. drawTexts(canvas, mTextSize, mTypefaceLight, mTexts, mTextGridWidths, mTextGridHeights); if (mHasInnerCircle) { drawTexts(canvas, mInnerTextSize, mTypefaceRegular, mInnerTexts, mInnerTextGridWidths, mInnerTextGridHeights); } } /** * Using the trigonometric Unit Circle, calculate the positions that the text will need to be * drawn at based on the specified circle radius. Place the values in the textGridHeights and * textGridWidths parameters. */ private void calculateGridSizes(float numbersRadius, float xCenter, float yCenter, float textSize, float[] textGridHeights, float[] textGridWidths) { /* * The numbers need to be drawn in a 7x7 grid, representing the points on the Unit Circle. */ float offset1 = numbersRadius; // cos(30) = a / r => r * cos(30) = a => r * √3/2 = a float offset2 = numbersRadius * ((float) Math.sqrt(3)) / 2f; // sin(30) = o / r => r * sin(30) = o => r / 2 = a float offset3 = numbersRadius / 2f; mPaint.setTextSize(textSize); // We'll need yTextBase to be slightly lower to account for the text's baseline. yCenter -= (mPaint.descent() + mPaint.ascent()) / 2; textGridHeights[0] = yCenter - offset1; textGridWidths[0] = xCenter - offset1; textGridHeights[1] = yCenter - offset2; textGridWidths[1] = xCenter - offset2; textGridHeights[2] = yCenter - offset3; textGridWidths[2] = xCenter - offset3; textGridHeights[3] = yCenter; textGridWidths[3] = xCenter; textGridHeights[4] = yCenter + offset3; textGridWidths[4] = xCenter + offset3; textGridHeights[5] = yCenter + offset2; textGridWidths[5] = xCenter + offset2; textGridHeights[6] = yCenter + offset1; textGridWidths[6] = xCenter + offset1; } /** * Draw the 12 text values at the positions specified by the textGrid parameters. */ private void drawTexts(Canvas canvas, float textSize, Typeface typeface, String[] texts, float[] textGridWidths, float[] textGridHeights) { mPaint.setTextSize(textSize); mPaint.setTypeface(typeface); canvas.drawText(texts[0], textGridWidths[3], textGridHeights[0], mPaint); canvas.drawText(texts[1], textGridWidths[4], textGridHeights[1], mPaint); canvas.drawText(texts[2], textGridWidths[5], textGridHeights[2], mPaint); canvas.drawText(texts[3], textGridWidths[6], textGridHeights[3], mPaint); canvas.drawText(texts[4], textGridWidths[5], textGridHeights[4], mPaint); canvas.drawText(texts[5], textGridWidths[4], textGridHeights[5], mPaint); canvas.drawText(texts[6], textGridWidths[3], textGridHeights[6], mPaint); canvas.drawText(texts[7], textGridWidths[2], textGridHeights[5], mPaint); canvas.drawText(texts[8], textGridWidths[1], textGridHeights[4], mPaint); canvas.drawText(texts[9], textGridWidths[0], textGridHeights[3], mPaint); canvas.drawText(texts[10], textGridWidths[1], textGridHeights[2], mPaint); canvas.drawText(texts[11], textGridWidths[2], textGridHeights[1], mPaint); } /** * Render the animations for appearing and disappearing. */ private void renderAnimations() { Keyframe kf0, kf1, kf2, kf3; float midwayPoint = 0.2f; int duration = 500; // Set up animator for disappearing. kf0 = Keyframe.ofFloat(0f, 1); kf1 = Keyframe.ofFloat(midwayPoint, mTransitionMidRadiusMultiplier); kf2 = Keyframe.ofFloat(1f, mTransitionEndRadiusMultiplier); PropertyValuesHolder radiusDisappear = PropertyValuesHolder.ofKeyframe( "animationRadiusMultiplier", kf0, kf1, kf2); kf0 = Keyframe.ofFloat(0f, 1f); kf1 = Keyframe.ofFloat(1f, 0f); PropertyValuesHolder fadeOut = PropertyValuesHolder.ofKeyframe("alpha", kf0, kf1); mDisappearAnimator = ObjectAnimator.ofPropertyValuesHolder( this, radiusDisappear, fadeOut).setDuration(duration); mDisappearAnimator.addUpdateListener(mInvalidateUpdateListener); // Set up animator for reappearing. float delayMultiplier = 0.25f; float transitionDurationMultiplier = 1f; float totalDurationMultiplier = transitionDurationMultiplier + delayMultiplier; int totalDuration = (int) (duration * totalDurationMultiplier); float delayPoint = (delayMultiplier * duration) / totalDuration; midwayPoint = 1 - (midwayPoint * (1 - delayPoint)); kf0 = Keyframe.ofFloat(0f, mTransitionEndRadiusMultiplier); kf1 = Keyframe.ofFloat(delayPoint, mTransitionEndRadiusMultiplier); kf2 = Keyframe.ofFloat(midwayPoint, mTransitionMidRadiusMultiplier); kf3 = Keyframe.ofFloat(1f, 1); PropertyValuesHolder radiusReappear = PropertyValuesHolder.ofKeyframe( "animationRadiusMultiplier", kf0, kf1, kf2, kf3); kf0 = Keyframe.ofFloat(0f, 0f); kf1 = Keyframe.ofFloat(delayPoint, 0f); kf2 = Keyframe.ofFloat(1f, 1f); PropertyValuesHolder fadeIn = PropertyValuesHolder.ofKeyframe("alpha", kf0, kf1, kf2); mReappearAnimator = ObjectAnimator.ofPropertyValuesHolder( this, radiusReappear, fadeIn).setDuration(totalDuration); mReappearAnimator.addUpdateListener(mInvalidateUpdateListener); } public ObjectAnimator getDisappearAnimator() { if (!mIsInitialized || !mDrawValuesReady || mDisappearAnimator == null) { Log.e(TAG, "RadialTextView was not ready for animation."); return null; } return mDisappearAnimator; } public ObjectAnimator getReappearAnimator() { if (!mIsInitialized || !mDrawValuesReady || mReappearAnimator == null) { Log.e(TAG, "RadialTextView was not ready for animation."); return null; } return mReappearAnimator; } private class InvalidateUpdateListener implements AnimatorUpdateListener { @Override public void onAnimationUpdate(ValueAnimator animation) { RadialTextsView.this.invalidate(); } } }