I'm trying to make a simple image editor. At the beginning I've thought that it'll be a good idea to simply save view state as Bitmap but, as it turned out, there is a wide range of screen resolutions and that leads to huge quality (and memory usage) fluctuations.
Now I'm trying to make a module that renders views state translated to desired resolution.
In the code below I'm trying to recreate current state of the views in canvas:
Bitmap bitmap = BitmapFactory.decodeResource(getResources(), R.id.test_1_1);
bitmap = Bitmap.createScaledBitmap(bitmap, parentView.getMeasuredWidth(), parentView.getMeasuredHeight(), true);
Canvas canvas = new Canvas(bitmap);
Paint paint = new Paint();
for (View rootView : addedViews) {
ImageView imageView = rootView.findViewById(R.id.sticker);
float[] viewPosition = new float[2];
transformToAncestor(viewPosition, parentView, imageView);
Bitmap originalBitmap = ((BitmapDrawable) imageView.getDrawable()).getBitmap();
Matrix adjustMatrix = new Matrix();
adjustMatrix.postTranslate(viewPosition[0], viewPosition[1]);
adjustMatrix.postScale(
rootView.getScaleX(),
rootView.getScaleY(),
rootView.getWidth() / 2,
rootView.getHeight() / 2);
adjustMatrix.postRotate(rootView.getRotation(),
rootView.getWidth() / 2,
rootView.getHeight() / 2);
canvas.drawBitmap(originalBitmap, adjustMatrix, paint);
}
transformToAncestor
function is from here.
public static void transformToAncestor(float[] point, final View ancestor, final View descendant) {
final float scrollX = descendant.getScrollX();
final float scrollY = descendant.getScrollY();
final float left = descendant.getLeft();
final float top = descendant.getTop();
final float px = descendant.getPivotX();
final float py = descendant.getPivotY();
final float tx = descendant.getTranslationX();
final float ty = descendant.getTranslationY();
final float sx = descendant.getScaleX();
final float sy = descendant.getScaleY();
point[0] = left + px + (point[0] - px) * sx + tx - scrollX;
point[1] = top + py + (point[1] - py) * sy + ty - scrollY;
ViewParent parent = descendant.getParent();
if (descendant != ancestor && parent != ancestor && parent instanceof View) {
transformToAncestor(point, ancestor, (View) parent);
}
}
(author wrote a note that his function does not support rotation, but there's not much rotation in my example so I don't think that important for now).
My problem is:
First image is generated via saving the parent view state. Second one is generated by translating views position, rotation and scale onto canvas. As you can see, on the canvas, not scaled stickers are positioned properly, but scaled are incorrectly positioned.
How to position those scaled views properly?
I've managed to fix the issue myself. It turned out my solution was nearly OK but I did not took into consideration that my manipulation of a matrix does change the arrangement of the original points, so my
rootView.getWidth() / 2,
rootView.getHeight() / 2
is no longer applicable as a center of the view after calling Matrix.postScale
or Matrix.postRotation
.
I wanted to:
Given the assumptions, here's the working code:
// setup variables for sizing and transformation
float position[] = new float[2];
transformToAncestor(position, rootView, imageView);
float desiredRotation = imageView.getRotation();
float sizeDeltaX = imageView.getMeasuredWidth() / (float) imageBitmap.getWidth();
float sizeDeltaY = imageView.getMeasuredHeight() / (float) imageBitmap.getHeight();
float desiredScaleX = imageView.getScaleX() * sizeDeltaX * scaleX;
float desiredScaleY = imageView.getScaleY() * sizeDeltaY * scaleY;
float imageViewWidth = imageView.getMeasuredWidth() * imageView.getScaleX();
float imageViewHeight = imageView.getMeasuredHeight() * imageView.getScaleY();
float rootViewWidth = rootView.getMeasuredWidth();
float rootViewHeight = rootView.getMeasuredHeight();
float percentXPos = position[0] / rootViewWidth;
float percentYPos = position[1] / rootViewHeight;
float percentXCenterPos = (position[0] + imageViewWidth/2)
/ rootViewWidth;
float percentYCenterPos = (position[1] + imageViewHeight/2)
/ rootViewHeight;
float desiredPositionX = background.getWidth() * percentXPos;
float desiredPositionY = background.getHeight() * percentYPos;
float desiredCenterX = background.getWidth() * percentXCenterPos;
float desiredCenterY = background.getHeight() * percentYCenterPos;
// apply above variables to matrix
Matrix matrix = new Matrix();
float[] points = new float[2];
matrix.postTranslate(
desiredPositionX,
desiredPositionY);
matrix.mapPoints(points);
matrix.postScale(
desiredScaleX,
desiredScaleY,
points[0],
points[1]);
matrix.postRotate(
desiredRotation,
desiredCenterX,
desiredCenterY);
// apply matrix to bitmap, then draw it on canvas
canvas.drawBitmap(imageBitmap, matrix, paint);
As you can see, the mapPoints
method was the answer for my question - it simply returns points after tranformation.