/*
* Copyright (C) 2006 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.graphics.drawable;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.content.pm.ActivityInfo.Config;
import android.content.res.ColorStateList;
import android.content.res.Resources;
import android.content.res.Resources.Theme;
import android.content.res.TypedArray;
import android.graphics.Bitmap;
import android.graphics.BitmapFactory;
import android.graphics.Canvas;
import android.graphics.ColorFilter;
import android.graphics.Insets;
import android.graphics.NinePatch;
import android.graphics.Outline;
import android.graphics.Paint;
import android.graphics.PixelFormat;
import android.graphics.PorterDuff;
import android.graphics.PorterDuff.Mode;
import android.graphics.PorterDuffColorFilter;
import android.graphics.Rect;
import android.graphics.Region;
import android.util.AttributeSet;
import android.util.DisplayMetrics;
import android.util.LayoutDirection;
import android.util.TypedValue;
import com.android.internal.R;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import java.io.IOException;
import java.io.InputStream;
import java.util.Collection;
/**
*
* A resizeable bitmap, with stretchable areas that you define. This type of image
* is defined in a .png file with a special format.
*
*
*
Developer Guides
*
For more information about how to use a NinePatchDrawable, read the
*
* Canvas and Drawables developer guide. For information about creating a NinePatch image
* file using the draw9patch tool, see the
* Draw 9-patch tool guide.
*/
public class NinePatchDrawable extends Drawable {
// dithering helps a lot, and is pretty cheap, so default is true
private static final boolean DEFAULT_DITHER = false;
/** Temporary rect used for density scaling. */
private Rect mTempRect;
private NinePatchState mNinePatchState;
private PorterDuffColorFilter mTintFilter;
private Rect mPadding;
private Insets mOpticalInsets = Insets.NONE;
private Rect mOutlineInsets;
private float mOutlineRadius;
private Paint mPaint;
private boolean mMutated;
private int mTargetDensity = DisplayMetrics.DENSITY_DEFAULT;
// These are scaled to match the target density.
private int mBitmapWidth = -1;
private int mBitmapHeight = -1;
NinePatchDrawable() {
mNinePatchState = new NinePatchState();
}
/**
* Create drawable from raw nine-patch data, not dealing with density.
*
* @deprecated Use {@link #NinePatchDrawable(Resources, Bitmap, byte[], Rect, String)}
* to ensure that the drawable has correctly set its target density.
*/
@Deprecated
public NinePatchDrawable(Bitmap bitmap, byte[] chunk, Rect padding, String srcName) {
this(new NinePatchState(new NinePatch(bitmap, chunk, srcName), padding), null);
}
/**
* Create drawable from raw nine-patch data, setting initial target density
* based on the display metrics of the resources.
*/
public NinePatchDrawable(Resources res, Bitmap bitmap, byte[] chunk,
Rect padding, String srcName) {
this(new NinePatchState(new NinePatch(bitmap, chunk, srcName), padding), res);
}
/**
* Create drawable from raw nine-patch data, setting initial target density
* based on the display metrics of the resources.
*
* @hide
*/
public NinePatchDrawable(Resources res, Bitmap bitmap, byte[] chunk,
Rect padding, Rect opticalInsets, String srcName) {
this(new NinePatchState(new NinePatch(bitmap, chunk, srcName), padding, opticalInsets),
res);
}
/**
* Create drawable from existing nine-patch, not dealing with density.
*
* @deprecated Use {@link #NinePatchDrawable(Resources, NinePatch)}
* to ensure that the drawable has correctly set its target
* density.
*/
@Deprecated
public NinePatchDrawable(@NonNull NinePatch patch) {
this(new NinePatchState(patch, new Rect()), null);
}
/**
* Create drawable from existing nine-patch, setting initial target density
* based on the display metrics of the resources.
*/
public NinePatchDrawable(@Nullable Resources res, @NonNull NinePatch patch) {
this(new NinePatchState(patch, new Rect()), res);
}
/**
* Set the density scale at which this drawable will be rendered. This
* method assumes the drawable will be rendered at the same density as the
* specified canvas.
*
* @param canvas The Canvas from which the density scale must be obtained.
*
* @see android.graphics.Bitmap#setDensity(int)
* @see android.graphics.Bitmap#getDensity()
*/
public void setTargetDensity(@NonNull Canvas canvas) {
setTargetDensity(canvas.getDensity());
}
/**
* Set the density scale at which this drawable will be rendered.
*
* @param metrics The DisplayMetrics indicating the density scale for this drawable.
*
* @see android.graphics.Bitmap#setDensity(int)
* @see android.graphics.Bitmap#getDensity()
*/
public void setTargetDensity(@NonNull DisplayMetrics metrics) {
setTargetDensity(metrics.densityDpi);
}
/**
* Set the density at which this drawable will be rendered.
*
* @param density The density scale for this drawable.
*
* @see android.graphics.Bitmap#setDensity(int)
* @see android.graphics.Bitmap#getDensity()
*/
public void setTargetDensity(int density) {
if (density == 0) {
density = DisplayMetrics.DENSITY_DEFAULT;
}
if (mTargetDensity != density) {
mTargetDensity = density;
computeBitmapSize();
invalidateSelf();
}
}
@Override
public void draw(Canvas canvas) {
final NinePatchState state = mNinePatchState;
Rect bounds = getBounds();
int restoreToCount = -1;
final boolean clearColorFilter;
if (mTintFilter != null && getPaint().getColorFilter() == null) {
mPaint.setColorFilter(mTintFilter);
clearColorFilter = true;
} else {
clearColorFilter = false;
}
final int restoreAlpha;
if (state.mBaseAlpha != 1.0f) {
restoreAlpha = getPaint().getAlpha();
mPaint.setAlpha((int) (restoreAlpha * state.mBaseAlpha + 0.5f));
} else {
restoreAlpha = -1;
}
final boolean needsDensityScaling = canvas.getDensity() == 0;
if (needsDensityScaling) {
restoreToCount = restoreToCount >= 0 ? restoreToCount : canvas.save();
// Apply density scaling.
final float scale = mTargetDensity / (float) state.mNinePatch.getDensity();
final float px = bounds.left;
final float py = bounds.top;
canvas.scale(scale, scale, px, py);
if (mTempRect == null) {
mTempRect = new Rect();
}
// Scale the bounds to match.
final Rect scaledBounds = mTempRect;
scaledBounds.left = bounds.left;
scaledBounds.top = bounds.top;
scaledBounds.right = bounds.left + Math.round(bounds.width() / scale);
scaledBounds.bottom = bounds.top + Math.round(bounds.height() / scale);
bounds = scaledBounds;
}
final boolean needsMirroring = needsMirroring();
if (needsMirroring) {
restoreToCount = restoreToCount >= 0 ? restoreToCount : canvas.save();
// Mirror the 9patch.
final float cx = (bounds.left + bounds.right) / 2.0f;
final float cy = (bounds.top + bounds.bottom) / 2.0f;
canvas.scale(-1.0f, 1.0f, cx, cy);
}
state.mNinePatch.draw(canvas, bounds, mPaint);
if (restoreToCount >= 0) {
canvas.restoreToCount(restoreToCount);
}
if (clearColorFilter) {
mPaint.setColorFilter(null);
}
if (restoreAlpha >= 0) {
mPaint.setAlpha(restoreAlpha);
}
}
@Override
public @Config int getChangingConfigurations() {
return super.getChangingConfigurations() | mNinePatchState.getChangingConfigurations();
}
@Override
public boolean getPadding(@NonNull Rect padding) {
if (mPadding != null) {
padding.set(mPadding);
return (padding.left | padding.top | padding.right | padding.bottom) != 0;
} else {
return super.getPadding(padding);
}
}
@Override
public void getOutline(@NonNull Outline outline) {
final Rect bounds = getBounds();
if (bounds.isEmpty()) {
return;
}
if (mNinePatchState != null && mOutlineInsets != null) {
final NinePatch.InsetStruct insets =
mNinePatchState.mNinePatch.getBitmap().getNinePatchInsets();
if (insets != null) {
outline.setRoundRect(bounds.left + mOutlineInsets.left,
bounds.top + mOutlineInsets.top,
bounds.right - mOutlineInsets.right,
bounds.bottom - mOutlineInsets.bottom,
mOutlineRadius);
outline.setAlpha(insets.outlineAlpha * (getAlpha() / 255.0f));
return;
}
}
super.getOutline(outline);
}
/**
* @hide
*/
@Override
public Insets getOpticalInsets() {
final Insets opticalInsets = mOpticalInsets;
if (needsMirroring()) {
return Insets.of(opticalInsets.right, opticalInsets.top,
opticalInsets.left, opticalInsets.bottom);
} else {
return opticalInsets;
}
}
@Override
public void setAlpha(int alpha) {
if (mPaint == null && alpha == 0xFF) {
// Fast common case -- leave at normal alpha.
return;
}
getPaint().setAlpha(alpha);
invalidateSelf();
}
@Override
public int getAlpha() {
if (mPaint == null) {
// Fast common case -- normal alpha.
return 0xFF;
}
return getPaint().getAlpha();
}
@Override
public void setColorFilter(@Nullable ColorFilter colorFilter) {
if (mPaint == null && colorFilter == null) {
// Fast common case -- leave at no color filter.
return;
}
getPaint().setColorFilter(colorFilter);
invalidateSelf();
}
@Override
public void setTintList(@Nullable ColorStateList tint) {
mNinePatchState.mTint = tint;
mTintFilter = updateTintFilter(mTintFilter, tint, mNinePatchState.mTintMode);
invalidateSelf();
}
@Override
public void setTintMode(@Nullable PorterDuff.Mode tintMode) {
mNinePatchState.mTintMode = tintMode;
mTintFilter = updateTintFilter(mTintFilter, mNinePatchState.mTint, tintMode);
invalidateSelf();
}
@Override
public void setDither(boolean dither) {
//noinspection PointlessBooleanExpression
if (mPaint == null && dither == DEFAULT_DITHER) {
// Fast common case -- leave at default dither.
return;
}
getPaint().setDither(dither);
invalidateSelf();
}
@Override
public void setAutoMirrored(boolean mirrored) {
mNinePatchState.mAutoMirrored = mirrored;
}
private boolean needsMirroring() {
return isAutoMirrored() && getLayoutDirection() == LayoutDirection.RTL;
}
@Override
public boolean isAutoMirrored() {
return mNinePatchState.mAutoMirrored;
}
@Override
public void setFilterBitmap(boolean filter) {
getPaint().setFilterBitmap(filter);
invalidateSelf();
}
@Override
public boolean isFilterBitmap() {
return mPaint != null && getPaint().isFilterBitmap();
}
@Override
public void inflate(Resources r, XmlPullParser parser, AttributeSet attrs, Theme theme)
throws XmlPullParserException, IOException {
super.inflate(r, parser, attrs, theme);
final TypedArray a = obtainAttributes(r, theme, attrs, R.styleable.NinePatchDrawable);
updateStateFromTypedArray(a);
a.recycle();
updateLocalState(r);
}
/**
* Updates the constant state from the values in the typed array.
*/
private void updateStateFromTypedArray(@NonNull TypedArray a) throws XmlPullParserException {
final Resources r = a.getResources();
final NinePatchState state = mNinePatchState;
// Account for any configuration changes.
state.mChangingConfigurations |= a.getChangingConfigurations();
// Extract the theme attributes, if any.
state.mThemeAttrs = a.extractThemeAttrs();
state.mDither = a.getBoolean(R.styleable.NinePatchDrawable_dither, state.mDither);
final int srcResId = a.getResourceId(R.styleable.NinePatchDrawable_src, 0);
if (srcResId != 0) {
final BitmapFactory.Options options = new BitmapFactory.Options();
options.inDither = !state.mDither;
options.inScreenDensity = r.getDisplayMetrics().noncompatDensityDpi;
final Rect padding = new Rect();
final Rect opticalInsets = new Rect();
Bitmap bitmap = null;
try {
final TypedValue value = new TypedValue();
final InputStream is = r.openRawResource(srcResId, value);
bitmap = BitmapFactory.decodeResourceStream(r, value, is, padding, options);
is.close();
} catch (IOException e) {
// Ignore
}
if (bitmap == null) {
throw new XmlPullParserException(a.getPositionDescription() +
": requires a valid src attribute");
} else if (bitmap.getNinePatchChunk() == null) {
throw new XmlPullParserException(a.getPositionDescription() +
": requires a valid 9-patch source image");
}
bitmap.getOpticalInsets(opticalInsets);
state.mNinePatch = new NinePatch(bitmap, bitmap.getNinePatchChunk());
state.mPadding = padding;
state.mOpticalInsets = Insets.of(opticalInsets);
}
state.mAutoMirrored = a.getBoolean(
R.styleable.NinePatchDrawable_autoMirrored, state.mAutoMirrored);
state.mBaseAlpha = a.getFloat(R.styleable.NinePatchDrawable_alpha, state.mBaseAlpha);
final int tintMode = a.getInt(R.styleable.NinePatchDrawable_tintMode, -1);
if (tintMode != -1) {
state.mTintMode = Drawable.parseTintMode(tintMode, Mode.SRC_IN);
}
final ColorStateList tint = a.getColorStateList(R.styleable.NinePatchDrawable_tint);
if (tint != null) {
state.mTint = tint;
}
}
@Override
public void applyTheme(@NonNull Theme t) {
super.applyTheme(t);
final NinePatchState state = mNinePatchState;
if (state == null) {
return;
}
if (state.mThemeAttrs != null) {
final TypedArray a = t.resolveAttributes(
state.mThemeAttrs, R.styleable.NinePatchDrawable);
try {
updateStateFromTypedArray(a);
} catch (XmlPullParserException e) {
rethrowAsRuntimeException(e);
} finally {
a.recycle();
}
}
if (state.mTint != null && state.mTint.canApplyTheme()) {
state.mTint = state.mTint.obtainForTheme(t);
}
updateLocalState(t.getResources());
}
@Override
public boolean canApplyTheme() {
return mNinePatchState != null && mNinePatchState.canApplyTheme();
}
@NonNull
public Paint getPaint() {
if (mPaint == null) {
mPaint = new Paint();
mPaint.setDither(DEFAULT_DITHER);
}
return mPaint;
}
@Override
public int getIntrinsicWidth() {
return mBitmapWidth;
}
@Override
public int getIntrinsicHeight() {
return mBitmapHeight;
}
@Override
public int getOpacity() {
return mNinePatchState.mNinePatch.hasAlpha()
|| (mPaint != null && mPaint.getAlpha() < 255) ?
PixelFormat.TRANSLUCENT : PixelFormat.OPAQUE;
}
@Override
public Region getTransparentRegion() {
return mNinePatchState.mNinePatch.getTransparentRegion(getBounds());
}
@Override
public ConstantState getConstantState() {
mNinePatchState.mChangingConfigurations = getChangingConfigurations();
return mNinePatchState;
}
@Override
public Drawable mutate() {
if (!mMutated && super.mutate() == this) {
mNinePatchState = new NinePatchState(mNinePatchState);
mMutated = true;
}
return this;
}
/**
* @hide
*/
public void clearMutated() {
super.clearMutated();
mMutated = false;
}
@Override
protected boolean onStateChange(int[] stateSet) {
final NinePatchState state = mNinePatchState;
if (state.mTint != null && state.mTintMode != null) {
mTintFilter = updateTintFilter(mTintFilter, state.mTint, state.mTintMode);
return true;
}
return false;
}
@Override
public boolean isStateful() {
final NinePatchState s = mNinePatchState;
return super.isStateful() || (s.mTint != null && s.mTint.isStateful());
}
final static class NinePatchState extends ConstantState {
@Config int mChangingConfigurations;
// Values loaded during inflation.
NinePatch mNinePatch = null;
ColorStateList mTint = null;
Mode mTintMode = DEFAULT_TINT_MODE;
Rect mPadding = null;
Insets mOpticalInsets = Insets.NONE;
float mBaseAlpha = 1.0f;
boolean mDither = DEFAULT_DITHER;
boolean mAutoMirrored = false;
int[] mThemeAttrs;
NinePatchState() {
// Empty constructor.
}
NinePatchState(@NonNull NinePatch ninePatch, @Nullable Rect padding) {
this(ninePatch, padding, null, DEFAULT_DITHER, false);
}
NinePatchState(@NonNull NinePatch ninePatch, @Nullable Rect padding,
@Nullable Rect opticalInsets) {
this(ninePatch, padding, opticalInsets, DEFAULT_DITHER, false);
}
NinePatchState(@NonNull NinePatch ninePatch, @Nullable Rect padding,
@Nullable Rect opticalInsets, boolean dither, boolean autoMirror) {
mNinePatch = ninePatch;
mPadding = padding;
mOpticalInsets = Insets.of(opticalInsets);
mDither = dither;
mAutoMirrored = autoMirror;
}
NinePatchState(@NonNull NinePatchState orig) {
mChangingConfigurations = orig.mChangingConfigurations;
mNinePatch = orig.mNinePatch;
mTint = orig.mTint;
mTintMode = orig.mTintMode;
mPadding = orig.mPadding;
mOpticalInsets = orig.mOpticalInsets;
mBaseAlpha = orig.mBaseAlpha;
mDither = orig.mDither;
mAutoMirrored = orig.mAutoMirrored;
mThemeAttrs = orig.mThemeAttrs;
}
@Override
public boolean canApplyTheme() {
return mThemeAttrs != null
|| (mTint != null && mTint.canApplyTheme())
|| super.canApplyTheme();
}
@Override
public int addAtlasableBitmaps(Collection atlasList) {
final Bitmap bitmap = mNinePatch.getBitmap();
if (isAtlasable(bitmap) && atlasList.add(bitmap)) {
return bitmap.getWidth() * bitmap.getHeight();
}
return 0;
}
@Override
public Drawable newDrawable() {
return new NinePatchDrawable(this, null);
}
@Override
public Drawable newDrawable(Resources res) {
return new NinePatchDrawable(this, res);
}
@Override
public @Config int getChangingConfigurations() {
return mChangingConfigurations
| (mTint != null ? mTint.getChangingConfigurations() : 0);
}
}
private void computeBitmapSize() {
final NinePatch ninePatch = mNinePatchState.mNinePatch;
if (ninePatch == null) {
return;
}
final int sourceDensity = ninePatch.getDensity();
final int targetDensity = mTargetDensity;
final Insets sourceOpticalInsets = mNinePatchState.mOpticalInsets;
if (sourceOpticalInsets != Insets.NONE) {
final int left = Drawable.scaleFromDensity(
sourceOpticalInsets.left, sourceDensity, targetDensity, true);
final int top = Drawable.scaleFromDensity(
sourceOpticalInsets.top, sourceDensity, targetDensity, true);
final int right = Drawable.scaleFromDensity(
sourceOpticalInsets.right, sourceDensity, targetDensity, true);
final int bottom = Drawable.scaleFromDensity(
sourceOpticalInsets.bottom, sourceDensity, targetDensity, true);
mOpticalInsets = Insets.of(left, top, right, bottom);
} else {
mOpticalInsets = Insets.NONE;
}
final Rect sourcePadding = mNinePatchState.mPadding;
if (sourcePadding != null) {
if (mPadding == null) {
mPadding = new Rect();
}
mPadding.left = Drawable.scaleFromDensity(
sourcePadding.left, sourceDensity, targetDensity, false);
mPadding.top = Drawable.scaleFromDensity(
sourcePadding.top, sourceDensity, targetDensity, false);
mPadding.right = Drawable.scaleFromDensity(
sourcePadding.right, sourceDensity, targetDensity, false);
mPadding.bottom = Drawable.scaleFromDensity(
sourcePadding.bottom, sourceDensity, targetDensity, false);
} else {
mPadding = null;
}
mBitmapHeight = Drawable.scaleFromDensity(
ninePatch.getHeight(), sourceDensity, targetDensity, true);
mBitmapWidth = Drawable.scaleFromDensity(
ninePatch.getWidth(), sourceDensity, targetDensity, true);
final NinePatch.InsetStruct insets = ninePatch.getBitmap().getNinePatchInsets();
if (insets != null) {
Rect outlineRect = insets.outlineRect;
mOutlineInsets = NinePatch.InsetStruct.scaleInsets(outlineRect.left, outlineRect.top,
outlineRect.right, outlineRect.bottom, targetDensity / (float) sourceDensity);
mOutlineRadius = Drawable.scaleFromDensity(
insets.outlineRadius, sourceDensity, targetDensity);
} else {
mOutlineInsets = null;
}
}
/**
* The one constructor to rule them all. This is called by all public
* constructors to set the state and initialize local properties.
*
* @param state constant state to assign to the new drawable
*/
private NinePatchDrawable(@NonNull NinePatchState state, @Nullable Resources res) {
mNinePatchState = state;
updateLocalState(res);
}
/**
* Initializes local dynamic properties from state.
*/
private void updateLocalState(@Nullable Resources res) {
final NinePatchState state = mNinePatchState;
// If we can, avoid calling any methods that initialize Paint.
if (state.mDither != DEFAULT_DITHER) {
setDither(state.mDither);
}
// The nine-patch may have been created without a Resources object, in
// which case we should try to match the density of the nine patch (if
// available).
if (res == null && state.mNinePatch != null) {
mTargetDensity = state.mNinePatch.getDensity();
} else {
mTargetDensity = Drawable.resolveDensity(res, mTargetDensity);
}
mTintFilter = updateTintFilter(mTintFilter, state.mTint, state.mTintMode);
computeBitmapSize();
}
}