private void init(Context context) { DisplayMetrics displayMetrics = context.getResources().getDisplayMetrics(); mHandleRadius = HandleUtil.getTargetRadius(context); mSnapRadius = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, SNAP_RADIUS_DP, displayMetrics); mBorderPaint = PaintUtil.newBorderPaint(context); mGuidelinePaint = PaintUtil.newGuidelinePaint(); mBackgroundPaint = PaintUtil.newBackgroundPaint(context); mCornerPaint = PaintUtil.newCornerPaint(context); // Sets the values for the corner sizes mCornerOffset = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_OFFSET_DP, displayMetrics); mCornerExtension = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_EXTENSION_DP, displayMetrics); mCornerLength = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_LENGTH_DP, displayMetrics); // Sets guidelines to default until specified otherwise mGuidelines = CropImageView.DEFAULT_GUIDELINES; }
/** A custom View representing the crop window and the shaded background outside the crop window. */ public class CropOverlayView extends View { // Private Constants /////////////////////////////////////////////////////// private static final int SNAP_RADIUS_DP = 6; private static final float DEFAULT_SHOW_GUIDELINES_LIMIT = 100; // Gets default values from PaintUtil, sets a bunch of values such that the // corners will draw correctly private static final float DEFAULT_CORNER_THICKNESS_DP = PaintUtil.getCornerThickness(); private static final float DEFAULT_LINE_THICKNESS_DP = PaintUtil.getLineThickness(); private static final float DEFAULT_CORNER_OFFSET_DP = (DEFAULT_CORNER_THICKNESS_DP / 2) - (DEFAULT_LINE_THICKNESS_DP / 2); private static final float DEFAULT_CORNER_EXTENSION_DP = DEFAULT_CORNER_THICKNESS_DP / 2 + DEFAULT_CORNER_OFFSET_DP; private static final float DEFAULT_CORNER_LENGTH_DP = 20; // mGuidelines enumerations private static final int GUIDELINES_OFF = 0; private static final int GUIDELINES_ON_TOUCH = 1; private static final int GUIDELINES_ON = 2; // Member Variables //////////////////////////////////////////////////////// // The Paint used to draw the white rectangle around the crop area. private Paint mBorderPaint; // The Paint used to draw the guidelines within the crop area when pressed. private Paint mGuidelinePaint; // The Paint used to draw the corners of the Border private Paint mCornerPaint; // The Paint used to darken the surrounding areas outside the crop area. private Paint mBackgroundPaint; // The bounding box around the Bitmap that we are cropping. private Rect mBitmapRect; // The radius of the touch zone (in pixels) around a given Handle. private float mHandleRadius; // An edge of the crop window will snap to the corresponding edge of a // specified bounding box when the crop window edge is less than or equal to // this distance (in pixels) away from the bounding box edge. private float mSnapRadius; // Holds the x and y offset between the exact touch location and the exact // handle location that is activated. There may be an offset because we // allow for some leeway (specified by mHandleRadius) in activating a // handle. However, we want to maintain these offset values while the handle // is being dragged so that the handle doesn't jump. private Pair<Float, Float> mTouchOffset; // The Handle that is currently pressed; null if no Handle is pressed. private Handle mPressedHandle; // Flag indicating if the crop area should always be a certain aspect ratio // (indicated by mTargetAspectRatio). private boolean mFixAspectRatio = CropImageView.DEFAULT_FIXED_ASPECT_RATIO; // Floats to save the current aspect ratio of the image private int mAspectRatioX = CropImageView.DEFAULT_ASPECT_RATIO_X; private int mAspectRatioY = CropImageView.DEFAULT_ASPECT_RATIO_Y; // The aspect ratio that the crop area should maintain; this variable is // only used when mMaintainAspectRatio is true. private float mTargetAspectRatio = ((float) mAspectRatioX) / mAspectRatioY; // Instance variables for customizable attributes private int mGuidelines; // Whether the Crop View has been initialized for the first time private boolean initializedCropWindow = false; // Instance variables for the corner values private float mCornerExtension; private float mCornerOffset; private float mCornerLength; // Constructors //////////////////////////////////////////////////////////// public CropOverlayView(Context context) { super(context); init(context); } public CropOverlayView(Context context, AttributeSet attrs) { super(context, attrs); init(context); } // View Methods //////////////////////////////////////////////////////////// @Override protected void onSizeChanged(int w, int h, int oldw, int oldh) { // Initialize the crop window here because we need the size of the view // to have been determined. initCropWindow(mBitmapRect); } @Override protected void onDraw(Canvas canvas) { super.onDraw(canvas); // Draw translucent background for the cropped area. drawBackground(canvas, mBitmapRect); if (showGuidelines()) { // Determines whether guidelines should be drawn or not if (mGuidelines == GUIDELINES_ON) { drawRuleOfThirdsGuidelines(canvas); } else if (mGuidelines == GUIDELINES_ON_TOUCH) { // Draw only when resizing if (mPressedHandle != null) drawRuleOfThirdsGuidelines(canvas); } else if (mGuidelines == GUIDELINES_OFF) { // Do nothing } } // Draws the main crop window border. canvas.drawRect( Edge.LEFT.getCoordinate(), Edge.TOP.getCoordinate(), Edge.RIGHT.getCoordinate(), Edge.BOTTOM.getCoordinate(), mBorderPaint); // Draws the corners drawCorners(canvas); } @Override public boolean onTouchEvent(MotionEvent event) { // If this View is not enabled, don't allow for touch interactions. if (!isEnabled()) { return false; } switch (event.getAction()) { case MotionEvent.ACTION_DOWN: onActionDown(event.getX(), event.getY()); return true; case MotionEvent.ACTION_UP: case MotionEvent.ACTION_CANCEL: getParent().requestDisallowInterceptTouchEvent(false); onActionUp(); return true; case MotionEvent.ACTION_MOVE: onActionMove(event.getX(), event.getY()); getParent().requestDisallowInterceptTouchEvent(true); return true; default: return false; } } // Public Methods ////////////////////////////////////////////////////////// /** * Informs the CropOverlayView of the image's position relative to the ImageView. This is * necessary to call in order to draw the crop window. * * @param bitmapRect the image's bounding box */ public void setBitmapRect(Rect bitmapRect) { mBitmapRect = bitmapRect; initCropWindow(mBitmapRect); } /** Resets the crop overlay view. */ public void resetCropOverlayView() { if (initializedCropWindow) { initCropWindow(mBitmapRect); invalidate(); } } /** * Sets the guidelines for the CropOverlayView to be either on, off, or to show when resizing the * application. * * @param guidelines Integer that signals whether the guidelines should be on, off, or only * showing when resizing. */ public void setGuidelines(int guidelines) { if (guidelines < 0 || guidelines > 2) throw new IllegalArgumentException( "Guideline value must be set between 0 and 2. See documentation."); else { mGuidelines = guidelines; if (initializedCropWindow) { initCropWindow(mBitmapRect); invalidate(); } } } /** * Sets whether the aspect ratio is fixed or not; true fixes the aspect ratio, while false allows * it to be changed. * * @param fixAspectRatio Boolean that signals whether the aspect ratio should be maintained. */ public void setFixedAspectRatio(boolean fixAspectRatio) { mFixAspectRatio = fixAspectRatio; if (initializedCropWindow) { initCropWindow(mBitmapRect); invalidate(); } } /** * Sets the X value of the aspect ratio; is defaulted to 1. * * @param aspectRatioX int that specifies the new X value of the aspect ratio */ public void setAspectRatioX(int aspectRatioX) { if (aspectRatioX <= 0) throw new IllegalArgumentException( "Cannot set aspect ratio value to a number less than or equal to 0."); else { mAspectRatioX = aspectRatioX; mTargetAspectRatio = ((float) mAspectRatioX) / mAspectRatioY; if (initializedCropWindow) { initCropWindow(mBitmapRect); invalidate(); } } } /** * Sets the Y value of the aspect ratio; is defaulted to 1. * * @param aspectRatioY int that specifies the new Y value of the aspect ratio */ public void setAspectRatioY(int aspectRatioY) { if (aspectRatioY <= 0) throw new IllegalArgumentException( "Cannot set aspect ratio value to a number less than or equal to 0."); else { mAspectRatioY = aspectRatioY; mTargetAspectRatio = ((float) mAspectRatioX) / mAspectRatioY; if (initializedCropWindow) { initCropWindow(mBitmapRect); invalidate(); } } } /** * Sets all initial values, but does not call initCropWindow to reset the views. Used once at the * very start to initialize the attributes. * * @param guidelines Integer that signals whether the guidelines should be on, off, or only * showing when resizing. * @param fixAspectRatio Boolean that signals whether the aspect ratio should be maintained. * @param aspectRatioX float that specifies the new X value of the aspect ratio * @param aspectRatioY float that specifies the new Y value of the aspect ratio */ public void setInitialAttributeValues( int guidelines, boolean fixAspectRatio, int aspectRatioX, int aspectRatioY) { if (guidelines < 0 || guidelines > 2) throw new IllegalArgumentException( "Guideline value must be set between 0 and 2. See documentation."); else mGuidelines = guidelines; mFixAspectRatio = fixAspectRatio; if (aspectRatioX <= 0) throw new IllegalArgumentException( "Cannot set aspect ratio value to a number less than or equal to 0."); else { mAspectRatioX = aspectRatioX; mTargetAspectRatio = ((float) mAspectRatioX) / mAspectRatioY; } if (aspectRatioY <= 0) throw new IllegalArgumentException( "Cannot set aspect ratio value to a number less than or equal to 0."); else { mAspectRatioY = aspectRatioY; mTargetAspectRatio = ((float) mAspectRatioX) / mAspectRatioY; } } // Private Methods ///////////////////////////////////////////////////////// private void init(Context context) { DisplayMetrics displayMetrics = context.getResources().getDisplayMetrics(); mHandleRadius = HandleUtil.getTargetRadius(context); mSnapRadius = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, SNAP_RADIUS_DP, displayMetrics); mBorderPaint = PaintUtil.newBorderPaint(context); mGuidelinePaint = PaintUtil.newGuidelinePaint(); mBackgroundPaint = PaintUtil.newBackgroundPaint(context); mCornerPaint = PaintUtil.newCornerPaint(context); // Sets the values for the corner sizes mCornerOffset = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_OFFSET_DP, displayMetrics); mCornerExtension = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_EXTENSION_DP, displayMetrics); mCornerLength = TypedValue.applyDimension( TypedValue.COMPLEX_UNIT_DIP, DEFAULT_CORNER_LENGTH_DP, displayMetrics); // Sets guidelines to default until specified otherwise mGuidelines = CropImageView.DEFAULT_GUIDELINES; } /** * Set the initial crop window size and position. This is dependent on the size and position of * the image being cropped. * * @param bitmapRect the bounding box around the image being cropped */ private void initCropWindow(Rect bitmapRect) { // Tells the attribute functions the crop window has already been // initialized if (initializedCropWindow == false) initializedCropWindow = true; if (mFixAspectRatio) { // If the image aspect ratio is wider than the crop aspect ratio, // then the image height is the determining initial length. Else, // vice-versa. if (AspectRatioUtil.calculateAspectRatio(bitmapRect) > mTargetAspectRatio) { Edge.TOP.setCoordinate(bitmapRect.top); Edge.BOTTOM.setCoordinate(bitmapRect.bottom); final float centerX = getWidth() / 2f; // Limits the aspect ratio to no less than 40 wide or 40 tall final float cropWidth = Math.max( Edge.MIN_CROP_LENGTH_PX, AspectRatioUtil.calculateWidth( Edge.TOP.getCoordinate(), Edge.BOTTOM.getCoordinate(), mTargetAspectRatio)); // Create new TargetAspectRatio if the original one does not fit // the screen if (cropWidth == Edge.MIN_CROP_LENGTH_PX) mTargetAspectRatio = (Edge.MIN_CROP_LENGTH_PX) / (Edge.BOTTOM.getCoordinate() - Edge.TOP.getCoordinate()); final float halfCropWidth = cropWidth / 2f; Edge.LEFT.setCoordinate(centerX - halfCropWidth); Edge.RIGHT.setCoordinate(centerX + halfCropWidth); } else { Edge.LEFT.setCoordinate(bitmapRect.left); Edge.RIGHT.setCoordinate(bitmapRect.right); final float centerY = getHeight() / 2f; // Limits the aspect ratio to no less than 40 wide or 40 tall final float cropHeight = Math.max( Edge.MIN_CROP_LENGTH_PX, AspectRatioUtil.calculateHeight( Edge.LEFT.getCoordinate(), Edge.RIGHT.getCoordinate(), mTargetAspectRatio)); // Create new TargetAspectRatio if the original one does not fit // the screen if (cropHeight == Edge.MIN_CROP_LENGTH_PX) mTargetAspectRatio = (Edge.RIGHT.getCoordinate() - Edge.LEFT.getCoordinate()) / Edge.MIN_CROP_LENGTH_PX; final float halfCropHeight = cropHeight / 2f; Edge.TOP.setCoordinate(centerY - halfCropHeight); Edge.BOTTOM.setCoordinate(centerY + halfCropHeight); } } else { // ... do not fix aspect ratio... // Initialize crop window to have 10% padding w/ respect to image. final float horizontalPadding = 0.1f * bitmapRect.width(); final float verticalPadding = 0.1f * bitmapRect.height(); Edge.LEFT.setCoordinate(bitmapRect.left + horizontalPadding); Edge.TOP.setCoordinate(bitmapRect.top + verticalPadding); Edge.RIGHT.setCoordinate(bitmapRect.right - horizontalPadding); Edge.BOTTOM.setCoordinate(bitmapRect.bottom - verticalPadding); } } /** * Indicates whether the crop window is small enough that the guidelines should be shown. Public * because this function is also used to determine if the center handle should be focused. * * @return boolean Whether the guidelines should be shown or not */ public static boolean showGuidelines() { if ((Math.abs(Edge.LEFT.getCoordinate() - Edge.RIGHT.getCoordinate()) < DEFAULT_SHOW_GUIDELINES_LIMIT) || (Math.abs(Edge.TOP.getCoordinate() - Edge.BOTTOM.getCoordinate()) < DEFAULT_SHOW_GUIDELINES_LIMIT)) return false; else return true; } private void drawRuleOfThirdsGuidelines(Canvas canvas) { final float left = Edge.LEFT.getCoordinate(); final float top = Edge.TOP.getCoordinate(); final float right = Edge.RIGHT.getCoordinate(); final float bottom = Edge.BOTTOM.getCoordinate(); // Draw vertical guidelines. final float oneThirdCropWidth = Edge.getWidth() / 3; final float x1 = left + oneThirdCropWidth; canvas.drawLine(x1, top, x1, bottom, mGuidelinePaint); final float x2 = right - oneThirdCropWidth; canvas.drawLine(x2, top, x2, bottom, mGuidelinePaint); // Draw horizontal guidelines. final float oneThirdCropHeight = Edge.getHeight() / 3; final float y1 = top + oneThirdCropHeight; canvas.drawLine(left, y1, right, y1, mGuidelinePaint); final float y2 = bottom - oneThirdCropHeight; canvas.drawLine(left, y2, right, y2, mGuidelinePaint); } private void drawBackground(Canvas canvas, Rect bitmapRect) { final float left = Edge.LEFT.getCoordinate(); final float top = Edge.TOP.getCoordinate(); final float right = Edge.RIGHT.getCoordinate(); final float bottom = Edge.BOTTOM.getCoordinate(); /*- ------------------------------------- | top | ------------------------------------- | | | | | | | | | left | | right | | | | | | | | | ------------------------------------- | bottom | ------------------------------------- */ // Draw "top", "bottom", "left", then "right" quadrants. canvas.drawRect(bitmapRect.left, bitmapRect.top, bitmapRect.right, top, mBackgroundPaint); canvas.drawRect(bitmapRect.left, bottom, bitmapRect.right, bitmapRect.bottom, mBackgroundPaint); canvas.drawRect(bitmapRect.left, top, left, bottom, mBackgroundPaint); canvas.drawRect(right, top, bitmapRect.right, bottom, mBackgroundPaint); } private void drawCorners(Canvas canvas) { final float left = Edge.LEFT.getCoordinate(); final float top = Edge.TOP.getCoordinate(); final float right = Edge.RIGHT.getCoordinate(); final float bottom = Edge.BOTTOM.getCoordinate(); // Draws the corner lines // Top left canvas.drawLine( left - mCornerOffset, top - mCornerExtension, left - mCornerOffset, top + mCornerLength, mCornerPaint); canvas.drawLine( left, top - mCornerOffset, left + mCornerLength, top - mCornerOffset, mCornerPaint); // Top right canvas.drawLine( right + mCornerOffset, top - mCornerExtension, right + mCornerOffset, top + mCornerLength, mCornerPaint); canvas.drawLine( right, top - mCornerOffset, right - mCornerLength, top - mCornerOffset, mCornerPaint); // Bottom left canvas.drawLine( left - mCornerOffset, bottom + mCornerExtension, left - mCornerOffset, bottom - mCornerLength, mCornerPaint); canvas.drawLine( left, bottom + mCornerOffset, left + mCornerLength, bottom + mCornerOffset, mCornerPaint); // Bottom left canvas.drawLine( right + mCornerOffset, bottom + mCornerExtension, right + mCornerOffset, bottom - mCornerLength, mCornerPaint); canvas.drawLine( right, bottom + mCornerOffset, right - mCornerLength, bottom + mCornerOffset, mCornerPaint); } /** * Handles a {@link MotionEvent#ACTION_DOWN} event. * * @param x the x-coordinate of the down action * @param y the y-coordinate of the down action */ private void onActionDown(float x, float y) { final float left = Edge.LEFT.getCoordinate(); final float top = Edge.TOP.getCoordinate(); final float right = Edge.RIGHT.getCoordinate(); final float bottom = Edge.BOTTOM.getCoordinate(); mPressedHandle = HandleUtil.getPressedHandle(x, y, left, top, right, bottom, mHandleRadius); if (mPressedHandle == null) return; // Calculate the offset of the touch point from the precise location // of the handle. Save these values in a member variable since we want // to maintain this offset as we drag the handle. mTouchOffset = HandleUtil.getOffset(mPressedHandle, x, y, left, top, right, bottom); invalidate(); } /** Handles a {@link MotionEvent#ACTION_UP} or {@link MotionEvent#ACTION_CANCEL} event. */ private void onActionUp() { if (mPressedHandle == null) return; mPressedHandle = null; invalidate(); } /** * Handles a {@link MotionEvent#ACTION_MOVE} event. * * @param x the x-coordinate of the move event * @param y the y-coordinate of the move event */ private void onActionMove(float x, float y) { if (mPressedHandle == null) return; // Adjust the coordinates for the finger position's offset (i.e. the // distance from the initial touch to the precise handle location). // We want to maintain the initial touch's distance to the pressed // handle so that the crop window size does not "jump". x += mTouchOffset.first; y += mTouchOffset.second; // Calculate the new crop window size/position. if (mFixAspectRatio) { mPressedHandle.updateCropWindow(x, y, mTargetAspectRatio, mBitmapRect, mSnapRadius); } else { mPressedHandle.updateCropWindow(x, y, mBitmapRect, mSnapRadius); } invalidate(); } }