CrackMe.apk
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package androidx.core.graphics.drawable;
import android.content.res.Resources;
import android.graphics.Bitmap;
import android.graphics.BitmapShader;
import android.graphics.Canvas;
import android.graphics.ColorFilter;
import android.graphics.Matrix;
import android.graphics.Paint;
import android.graphics.Rect;
import android.graphics.RectF;
import android.graphics.Shader;
import android.graphics.drawable.Drawable;
import android.util.DisplayMetrics;
public abstract class RoundedBitmapDrawable extends Drawable {
private static final int DEFAULT_PAINT_FLAGS = 3;
private boolean mApplyGravity = true;
final Bitmap mBitmap;
private int mBitmapHeight;
private final BitmapShader mBitmapShader;
private int mBitmapWidth;
private float mCornerRadius;
final Rect mDstRect = new Rect();
private final RectF mDstRectF = new RectF();
private int mGravity = 119;
private boolean mIsCircular;
private final Paint mPaint = new Paint(3);
private final Matrix mShaderMatrix = new Matrix();
private int mTargetDensity = 160;
private static boolean isGreaterThanZero(float f) {
return f > 0.05f;
}
public final Paint getPaint() {
return this.mPaint;
}
public final Bitmap getBitmap() {
return this.mBitmap;
}
private void computeBitmapSize() {
this.mBitmapWidth = this.mBitmap.getScaledWidth(this.mTargetDensity);
this.mBitmapHeight = this.mBitmap.getScaledHeight(this.mTargetDensity);
}
public void setTargetDensity(Canvas canvas) {
setTargetDensity(canvas.getDensity());
}
public void setTargetDensity(DisplayMetrics displayMetrics) {
setTargetDensity(displayMetrics.densityDpi);
}
public void setTargetDensity(int i) {
if (this.mTargetDensity != i) {
if (i == 0) {
i = 160;
}
this.mTargetDensity = i;
if (this.mBitmap != null) {
computeBitmapSize();
}
invalidateSelf();
}
}
public int getGravity() {
return this.mGravity;
}
public void setGravity(int i) {
if (this.mGravity != i) {
this.mGravity = i;
this.mApplyGravity = true;
invalidateSelf();
}
}
public void setMipMap(boolean z) {
throw new UnsupportedOperationException();
}
public boolean hasMipMap() {
throw new UnsupportedOperationException();
}
public void setAntiAlias(boolean z) {
this.mPaint.setAntiAlias(z);
invalidateSelf();
}
public boolean hasAntiAlias() {
return this.mPaint.isAntiAlias();
}
public void setFilterBitmap(boolean z) {
this.mPaint.setFilterBitmap(z);
invalidateSelf();
}
public void setDither(boolean z) {
this.mPaint.setDither(z);
invalidateSelf();
}
/* access modifiers changed from: package-private */
public void gravityCompatApply(int i, int i2, int i3, Rect rect, Rect rect2) {
throw new UnsupportedOperationException();
}
/* access modifiers changed from: package-private */
public void updateDstRect() {
if (this.mApplyGravity) {
if (this.mIsCircular) {
int min = Math.min(this.mBitmapWidth, this.mBitmapHeight);
gravityCompatApply(this.mGravity, min, min, getBounds(), this.mDstRect);
int min2 = Math.min(this.mDstRect.width(), this.mDstRect.height());
this.mDstRect.inset(Math.max(0, (this.mDstRect.width() - min2) / 2), Math.max(0, (this.mDstRect.height() - min2) / 2));
this.mCornerRadius = ((float) min2) * 0.5f;
} else {
gravityCompatApply(this.mGravity, this.mBitmapWidth, this.mBitmapHeight, getBounds(), this.mDstRect);
}
this.mDstRectF.set(this.mDstRect);
if (this.mBitmapShader != null) {
this.mShaderMatrix.setTranslate(this.mDstRectF.left, this.mDstRectF.top);
this.mShaderMatrix.preScale(this.mDstRectF.width() / ((float) this.mBitmap.getWidth()), this.mDstRectF.height() / ((float) this.mBitmap.getHeight()));
this.mBitmapShader.setLocalMatrix(this.mShaderMatrix);
this.mPaint.setShader(this.mBitmapShader);
}
this.mApplyGravity = false;
}
}
public void draw(Canvas canvas) {
Bitmap bitmap = this.mBitmap;
if (bitmap != null) {
updateDstRect();
if (this.mPaint.getShader() == null) {
canvas.drawBitmap(bitmap, (Rect) null, this.mDstRect, this.mPaint);
return;
}
RectF rectF = this.mDstRectF;
float f = this.mCornerRadius;
canvas.drawRoundRect(rectF, f, f, this.mPaint);
}
}
public void setAlpha(int i) {
if (i != this.mPaint.getAlpha()) {
this.mPaint.setAlpha(i);
invalidateSelf();
}
}
public int getAlpha() {
return this.mPaint.getAlpha();
}
public void setColorFilter(ColorFilter colorFilter) {
this.mPaint.setColorFilter(colorFilter);
invalidateSelf();
}
public ColorFilter getColorFilter() {
return this.mPaint.getColorFilter();
}
public void setCircular(boolean z) {
this.mIsCircular = z;
this.mApplyGravity = true;
if (z) {
updateCircularCornerRadius();
this.mPaint.setShader(this.mBitmapShader);
invalidateSelf();
return;
}
setCornerRadius(0.0f);
}
private void updateCircularCornerRadius() {
this.mCornerRadius = (float) (Math.min(this.mBitmapHeight, this.mBitmapWidth) / 2);
}
public boolean isCircular() {
return this.mIsCircular;
}
public void setCornerRadius(float f) {
if (this.mCornerRadius != f) {
this.mIsCircular = false;
if (isGreaterThanZero(f)) {
this.mPaint.setShader(this.mBitmapShader);
} else {
this.mPaint.setShader((Shader) null);
}
this.mCornerRadius = f;
invalidateSelf();
}
}
/* access modifiers changed from: protected */
public void onBoundsChange(Rect rect) {
super.onBoundsChange(rect);
if (this.mIsCircular) {
updateCircularCornerRadius();
}
this.mApplyGravity = true;
}
public float getCornerRadius() {
return this.mCornerRadius;
}
public int getIntrinsicWidth() {
return this.mBitmapWidth;
}
public int getIntrinsicHeight() {
return this.mBitmapHeight;
}
public int getOpacity() {
Bitmap bitmap;
if (this.mGravity != 119 || this.mIsCircular || (bitmap = this.mBitmap) == null || bitmap.hasAlpha() || this.mPaint.getAlpha() < 255 || isGreaterThanZero(this.mCornerRadius)) {
return -3;
}
return -1;
}
RoundedBitmapDrawable(Resources resources, Bitmap bitmap) {
if (resources != null) {
this.mTargetDensity = resources.getDisplayMetrics().densityDpi;
}
this.mBitmap = bitmap;
if (bitmap != null) {
computeBitmapSize();
this.mBitmapShader = new BitmapShader(bitmap, Shader.TileMode.CLAMP, Shader.TileMode.CLAMP);
return;
}
this.mBitmapHeight = -1;
this.mBitmapWidth = -1;
this.mBitmapShader = null;
}
}
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