/* * 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 com.android.setupwizardlib; import android.annotation.SuppressLint; import android.content.Context; import android.content.res.TypedArray; import android.graphics.Bitmap; import android.graphics.Canvas; import android.graphics.Color; import android.graphics.ColorFilter; import android.graphics.ColorMatrixColorFilter; import android.graphics.Paint; import android.graphics.Path; import android.graphics.PixelFormat; import android.graphics.PorterDuff; import android.graphics.PorterDuffXfermode; import android.graphics.Rect; import android.graphics.drawable.Drawable; import android.os.Build; import android.support.annotation.NonNull; import android.support.annotation.VisibleForTesting; import java.lang.ref.SoftReference; /** * This class draws the GLIF pattern used as the status bar background for phones and background for * tablets in GLIF layout. */ public class GlifPatternDrawable extends Drawable { /* * This class essentially implements a simple SVG in Java code, with some special handling of * scaling when given different bounds. */ /* static section */ @SuppressLint("InlinedApi") private static final int[] ATTRS_PRIMARY_COLOR = new int[]{ android.R.attr.colorPrimary }; private static final float VIEWBOX_HEIGHT = 768f; private static final float VIEWBOX_WIDTH = 1366f; // X coordinate of scale focus, as a fraction of of the width. (Range is 0 - 1) private static final float SCALE_FOCUS_X = .146f; // Y coordinate of scale focus, as a fraction of of the height. (Range is 0 - 1) private static final float SCALE_FOCUS_Y = .228f; // Alpha component of the color to be drawn, on top of the grayscale pattern. (Range is 0 - 1) private static final float COLOR_ALPHA = .8f; // Int version of COLOR_ALPHA. (Range is 0 - 255) private static final int COLOR_ALPHA_INT = (int) (COLOR_ALPHA * 255); // Cap the bitmap size, such that it won't hurt the performance too much // and it won't crash due to a very large scale. // The drawable will look blurry above this size. // This is a multiplier applied on top of the viewbox size. // Resulting max cache size = (1.5 x 1366, 1.5 x 768) = (2049, 1152) private static final float MAX_CACHED_BITMAP_SCALE = 1.5f; private static final int NUM_PATHS = 7; private static SoftReference sBitmapCache; private static Path[] sPatternPaths; private static int[] sPatternLightness; public static GlifPatternDrawable getDefault(Context context) { int colorPrimary = 0; if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.LOLLIPOP) { final TypedArray a = context.obtainStyledAttributes(ATTRS_PRIMARY_COLOR); colorPrimary = a.getColor(0, Color.BLACK); a.recycle(); } return new GlifPatternDrawable(colorPrimary); } @VisibleForTesting public static void invalidatePattern() { sBitmapCache = null; } /* non-static section */ private int mColor; private Paint mTempPaint = new Paint(Paint.ANTI_ALIAS_FLAG); private ColorFilter mColorFilter; public GlifPatternDrawable(int color) { setColor(color); } @Override public void draw(@NonNull Canvas canvas) { final Rect bounds = getBounds(); int drawableWidth = bounds.width(); int drawableHeight = bounds.height(); Bitmap bitmap = null; if (sBitmapCache != null) { bitmap = sBitmapCache.get(); } if (bitmap != null) { final int bitmapWidth = bitmap.getWidth(); final int bitmapHeight = bitmap.getHeight(); // Invalidate the cache if this drawable is bigger and we can still create a bigger // cache. if (drawableWidth > bitmapWidth && bitmapWidth < VIEWBOX_WIDTH * MAX_CACHED_BITMAP_SCALE) { bitmap = null; } else if (drawableHeight > bitmapHeight && bitmapHeight < VIEWBOX_HEIGHT * MAX_CACHED_BITMAP_SCALE) { bitmap = null; } } if (bitmap == null) { // Reset the paint so it can be used to draw the paths in renderOnCanvas mTempPaint.reset(); bitmap = createBitmapCache(drawableWidth, drawableHeight); sBitmapCache = new SoftReference<>(bitmap); // Reset the paint to so it can be used to draw the bitmap mTempPaint.reset(); } canvas.save(); canvas.clipRect(bounds); scaleCanvasToBounds(canvas, bitmap, bounds); if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.HONEYCOMB && canvas.isHardwareAccelerated()) { mTempPaint.setColorFilter(mColorFilter); canvas.drawBitmap(bitmap, 0, 0, mTempPaint); } else { // Software renderer doesn't work properly with ColorMatrix filter on ALPHA_8 bitmaps. canvas.drawColor(Color.BLACK); mTempPaint.setColor(Color.WHITE); canvas.drawBitmap(bitmap, 0, 0, mTempPaint); canvas.drawColor(mColor); } canvas.restore(); } @VisibleForTesting public Bitmap createBitmapCache(int drawableWidth, int drawableHeight) { float scaleX = drawableWidth / VIEWBOX_WIDTH; float scaleY = drawableHeight / VIEWBOX_HEIGHT; float scale = Math.max(scaleX, scaleY); scale = Math.min(MAX_CACHED_BITMAP_SCALE, scale); int scaledWidth = (int) (VIEWBOX_WIDTH * scale); int scaledHeight = (int) (VIEWBOX_HEIGHT * scale); // Use ALPHA_8 mask to save memory, since the pattern is grayscale only anyway. Bitmap bitmap = Bitmap.createBitmap( scaledWidth, scaledHeight, Bitmap.Config.ALPHA_8); Canvas bitmapCanvas = new Canvas(bitmap); renderOnCanvas(bitmapCanvas, scale); return bitmap; } private void renderOnCanvas(Canvas canvas, float scale) { canvas.save(); canvas.scale(scale, scale); mTempPaint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC)); // Draw the pattern by creating the paths, adjusting the colors and drawing them. The path // values are extracted from the SVG of the pattern file. if (sPatternPaths == null) { sPatternPaths = new Path[NUM_PATHS]; // Lightness values of the pattern, range 0 - 255 sPatternLightness = new int[] { 10, 40, 51, 66, 91, 112, 130 }; Path p = sPatternPaths[0] = new Path(); p.moveTo(1029.4f, 357.5f); p.lineTo(1366f, 759.1f); p.lineTo(1366f, 0f); p.lineTo(1137.7f, 0f); p.close(); p = sPatternPaths[1] = new Path(); p.moveTo(1138.1f, 0f); p.rLineTo(-144.8f, 768f); p.rLineTo(372.7f, 0f); p.rLineTo(0f, -524f); p.cubicTo(1290.7f, 121.6f, 1219.2f, 41.1f, 1178.7f, 0f); p.close(); p = sPatternPaths[2] = new Path(); p.moveTo(949.8f, 768f); p.rCubicTo(92.6f, -170.6f, 213f, -440.3f, 269.4f, -768f); p.lineTo(585f, 0f); p.rLineTo(2.1f, 766f); p.close(); p = sPatternPaths[3] = new Path(); p.moveTo(471.1f, 768f); p.rMoveTo(704.5f, 0f); p.cubicTo(1123.6f, 563.3f, 1027.4f, 275.2f, 856.2f, 0f); p.lineTo(476.4f, 0f); p.rLineTo(-5.3f, 768f); p.close(); p = sPatternPaths[4] = new Path(); p.moveTo(323.1f, 768f); p.moveTo(777.5f, 768f); p.cubicTo(661.9f, 348.8f, 427.2f, 21.4f, 401.2f, 25.4f); p.lineTo(323.1f, 768f); p.close(); p = sPatternPaths[5] = new Path(); p.moveTo(178.44286f, 766.85714f); p.lineTo(308.7f, 768f); p.cubicTo(381.7f, 604.6f, 481.6f, 344.3f, 562.2f, 0f); p.lineTo(0f, 0f); p.close(); p = sPatternPaths[6] = new Path(); p.moveTo(146f, 0f); p.lineTo(0f, 0f); p.lineTo(0f, 768f); p.lineTo(394.2f, 768f); p.cubicTo(327.7f, 475.3f, 228.5f, 201f, 146f, 0f); p.close(); } for (int i = 0; i < NUM_PATHS; i++) { // Color is 0xAARRGGBB, so alpha << 24 will create a color with (alpha)% black. // Although the color components don't really matter, since the backing bitmap cache is // ALPHA_8. mTempPaint.setColor(sPatternLightness[i] << 24); canvas.drawPath(sPatternPaths[i], mTempPaint); } canvas.restore(); mTempPaint.reset(); } @VisibleForTesting public void scaleCanvasToBounds(Canvas canvas, Bitmap bitmap, Rect drawableBounds) { int bitmapWidth = bitmap.getWidth(); int bitmapHeight = bitmap.getHeight(); float scaleX = drawableBounds.width() / (float) bitmapWidth; float scaleY = drawableBounds.height() / (float) bitmapHeight; // First scale both sides to fit independently. canvas.scale(scaleX, scaleY); if (scaleY > scaleX) { // Adjust x-scale to maintain aspect ratio using the pivot, so that more of the texture // and less of the blank space on the left edge is seen. canvas.scale(scaleY / scaleX, 1f, SCALE_FOCUS_X * bitmapWidth, 0f); } else if (scaleX > scaleY) { // Adjust y-scale to maintain aspect ratio using the pivot, so that an intersection of // two "circles" can always be seen. canvas.scale(1f, scaleX / scaleY, 0f, SCALE_FOCUS_Y * bitmapHeight); } } @Override public void setAlpha(int i) { // Ignore } @Override public void setColorFilter(ColorFilter colorFilter) { // Ignore } @Override public int getOpacity() { return PixelFormat.UNKNOWN; } /** * Sets the color used as the base color of this pattern drawable. The alpha component of the * color will be ignored. */ public void setColor(int color) { final int r = Color.red(color); final int g = Color.green(color); final int b = Color.blue(color); mColor = Color.argb(COLOR_ALPHA_INT, r, g, b); mColorFilter = new ColorMatrixColorFilter(new float[] { 0, 0, 0, 1 - COLOR_ALPHA, r * COLOR_ALPHA, 0, 0, 0, 1 - COLOR_ALPHA, g * COLOR_ALPHA, 0, 0, 0, 1 - COLOR_ALPHA, b * COLOR_ALPHA, 0, 0, 0, 0, 255 }); invalidateSelf(); } /** * @return The color used as the base color of this pattern drawable. The alpha component of * this is always 255. */ public int getColor() { return Color.argb(255, Color.red(mColor), Color.green(mColor), Color.blue(mColor)); } }