src/com/android/launcher3/touch/PagedOrientationHandler.java - platform/packages/apps/Launcher3 - Git at Google

 /*
  * Copyright (C) 2020 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.launcher3.touch;

 import android.content.res.Resources;
 import android.graphics.Canvas;
 import android.graphics.Matrix;
 import android.graphics.PointF;
 import android.graphics.Rect;
 import android.graphics.RectF;
 import android.graphics.drawable.ShapeDrawable;
 import android.util.FloatProperty;
 import android.util.Pair;
 import android.view.MotionEvent;
 import android.view.VelocityTracker;
 import android.view.View;
 import android.view.accessibility.AccessibilityEvent;
 import android.widget.FrameLayout;
 import android.widget.LinearLayout;

 import com.android.launcher3.DeviceProfile;
 import com.android.launcher3.util.SplitConfigurationOptions;
 import com.android.launcher3.util.SplitConfigurationOptions.SplitPositionOption;
 import com.android.launcher3.util.SplitConfigurationOptions.StagePosition;
 import com.android.launcher3.util.SplitConfigurationOptions.StagedSplitBounds;

 import java.util.List;

 /**
  * Abstraction layer to separate horizontal and vertical specific implementations
  * for {@link com.android.launcher3.PagedView}. Majority of these implementations are (should be) as
  * simple as choosing the correct X and Y analogous methods.
  */
 public interface PagedOrientationHandler {

     int SPLIT_TRANSLATE_PRIMARY_POSITIVE = 0;
     int SPLIT_TRANSLATE_PRIMARY_NEGATIVE = 1;
     int SPLIT_TRANSLATE_SECONDARY_NEGATIVE = 2;

     PagedOrientationHandler PORTRAIT = new PortraitPagedViewHandler();
     PagedOrientationHandler LANDSCAPE = new LandscapePagedViewHandler();
     PagedOrientationHandler SEASCAPE = new SeascapePagedViewHandler();

     interface Int2DAction<T> {
         void call(T target, int x, int y);
     }
     interface Float2DAction<T> {
         void call(T target, float x, float y);
     }
     Int2DAction<View> VIEW_SCROLL_BY = View::scrollBy;
     Int2DAction<View> VIEW_SCROLL_TO = View::scrollTo;
     Float2DAction<Canvas> CANVAS_TRANSLATE = Canvas::translate;
     Float2DAction<Matrix> MATRIX_POST_TRANSLATE = Matrix::postTranslate;

     <T> void setPrimary(T target, Int2DAction<T> action, int param);
     <T> void setPrimary(T target, Float2DAction<T> action, float param);
     <T> void setSecondary(T target, Float2DAction<T> action, float param);
     <T> void set(T target, Int2DAction<T> action, int primaryParam, int secondaryParam);
     float getPrimaryDirection(MotionEvent event, int pointerIndex);
     float getPrimaryVelocity(VelocityTracker velocityTracker, int pointerId);
     int getMeasuredSize(View view);
     int getPrimarySize(View view);
     float getPrimarySize(RectF rect);
     float getStart(RectF rect);
     float getEnd(RectF rect);
     int getClearAllSidePadding(View view, boolean isRtl);
     int getSecondaryDimension(View view);
     FloatProperty<View> getPrimaryViewTranslate();
     FloatProperty<View> getSecondaryViewTranslate();

     /**
      * @param stagePosition The position where the view to be split will go
      * @return {@link #SPLIT_TRANSLATE_*} constants to indicate which direction the
      * dismissal should happen
      */
     int getSplitTaskViewDismissDirection(@StagePosition int stagePosition, DeviceProfile dp);
     int getPrimaryScroll(View view);
     float getPrimaryScale(View view);
     int getChildStart(View view);
     int getCenterForPage(View view, Rect insets);
     int getScrollOffsetStart(View view, Rect insets);
     int getScrollOffsetEnd(View view, Rect insets);
     int getSecondaryTranslationDirectionFactor();
     int getSplitTranslationDirectionFactor(@StagePosition int stagePosition,
             DeviceProfile deviceProfile);
     ChildBounds getChildBounds(View child, int childStart, int pageCenter, boolean layoutChild);
     void setMaxScroll(AccessibilityEvent event, int maxScroll);
     boolean getRecentsRtlSetting(Resources resources);
     float getDegreesRotated();
     int getRotation();
     void setPrimaryScale(View view, float scale);
     void setSecondaryScale(View view, float scale);

     <T> T getPrimaryValue(T x, T y);
     <T> T getSecondaryValue(T x, T y);

     int getPrimaryValue(int x, int y);
     int getSecondaryValue(int x, int y);

     float getPrimaryValue(float x, float y);
     float getSecondaryValue(float x, float y);

     boolean isLayoutNaturalToLauncher();
     Pair<FloatProperty, FloatProperty> getSplitSelectTaskOffset(FloatProperty primary,
             FloatProperty secondary, DeviceProfile deviceProfile);
     int getDistanceToBottomOfRect(DeviceProfile dp, Rect rect);
     List<SplitPositionOption> getSplitPositionOptions(DeviceProfile dp);
     /**
      * @param splitholderSize height of placeholder view in portrait, width in landscape
      */
     void getInitialSplitPlaceholderBounds(int splitholderSize, DeviceProfile dp,
             @StagePosition int stagePosition, Rect out);

     /**
      * @param splitDividerSize height of split screen drag handle in portrait, width in landscape
      * @param stagePosition the split position option (top/left, bottom/right) of the first
      *                           task selected for entering split
      * @param out1 the bounds for where the first selected app will be
      * @param out2 the bounds for where the second selected app will be, complimentary to
      *             {@param out1} based on {@param initialSplitOption}
      */
     void getFinalSplitPlaceholderBounds(int splitDividerSize, DeviceProfile dp,
             @StagePosition int stagePosition, Rect out1, Rect out2);

     int getDefaultSplitPosition(DeviceProfile deviceProfile);

     /**
      * @param outRect This is expected to be the rect that has the dimensions for a non-split,
      *                fullscreen task in overview. This will directly be modified.
      * @param desiredStagePosition Which stage position (topLeft/rightBottom) we want to resize
      *                           outRect for
      */
     void setSplitTaskSwipeRect(DeviceProfile dp, Rect outRect, StagedSplitBounds splitInfo,
             @SplitConfigurationOptions.StagePosition int desiredStagePosition);

     void measureGroupedTaskViewThumbnailBounds(View primarySnapshot, View secondarySnapshot,
             int parentWidth, int parentHeight,
             StagedSplitBounds splitBoundsConfig, DeviceProfile dp);

     // Overview TaskMenuView methods
     void setIconAndSnapshotParams(View iconView, int taskIconMargin, int taskIconHeight,
             FrameLayout.LayoutParams snapshotParams, boolean isRtl);
     void setSplitIconParams(View primaryIconView, View secondaryIconView,
             int taskIconHeight, int primarySnapshotWidth, int primarySnapshotHeight,
             boolean isRtl, DeviceProfile deviceProfile, StagedSplitBounds splitConfig);

     /*
      * The following two methods try to center the TaskMenuView in landscape by finding the center
      * of the thumbnail view and then subtracting half of the taskMenu width. In this case, the
      * taskMenu width is the same size as the thumbnail width (what got set below in
      * getTaskMenuWidth()), so we directly use that in the calculations.
      */
     float getTaskMenuX(float x, View thumbnailView, int overScroll, DeviceProfile deviceProfile);
     float getTaskMenuY(float y, View thumbnailView, int overScroll);
     int getTaskMenuWidth(View view, DeviceProfile deviceProfile);
     /**
      * Sets linear layout orientation for {@link com.android.launcher3.popup.SystemShortcut} items
      * inside task menu view.
      */
     void setTaskOptionsMenuLayoutOrientation(DeviceProfile deviceProfile,
             LinearLayout taskMenuLayout, int dividerSpacing,
             ShapeDrawable dividerDrawable);
     /**
      * Sets layout param attributes for {@link com.android.launcher3.popup.SystemShortcut} child
      * views inside task menu view.
      */
     void setLayoutParamsForTaskMenuOptionItem(LinearLayout.LayoutParams lp,
             LinearLayout viewGroup, DeviceProfile deviceProfile);
     /**
      * Adjusts margins for the entire task menu view itself, which comprises of both app title and
      * shortcut options.
      */
     void setTaskMenuAroundTaskView(LinearLayout taskView, float margin);
     /**
      * Since the task menu layout is manually positioned on top of recents view, this method returns
      * additional adjustments to the positioning based on fake land/seascape
      */
     PointF getAdditionalInsetForTaskMenu(float margin);

     Pair<Float, Float> setDwbLayoutParamsAndGetTranslations(int taskViewWidth,
             int taskViewHeight, StagedSplitBounds splitBounds, DeviceProfile deviceProfile,
             View[] thumbnailViews, int desiredTaskId, View banner);

     // The following are only used by TaskViewTouchHandler.
     /** @return Either VERTICAL or HORIZONTAL. */
     SingleAxisSwipeDetector.Direction getUpDownSwipeDirection();
     /** @return Given {@link #getUpDownSwipeDirection()}, whether POSITIVE or NEGATIVE is up. */
     int getUpDirection(boolean isRtl);
     /** @return Whether the displacement is going towards the top of the screen. */
     boolean isGoingUp(float displacement, boolean isRtl);
     /** @return Either 1 or -1, a factor to multiply by so the animation goes the correct way. */
     int getTaskDragDisplacementFactor(boolean isRtl);

     /**
      * Maps the velocity from the coordinate plane of the foreground app to that
      * of Launcher's (which now will always be portrait)
      */
     void adjustFloatingIconStartVelocity(PointF velocity);

     class ChildBounds {

         public final int primaryDimension;
         public final int secondaryDimension;
         public final int childPrimaryEnd;
         public final int childSecondaryEnd;

         ChildBounds(int primaryDimension, int secondaryDimension, int childPrimaryEnd,
             int childSecondaryEnd) {
             this.primaryDimension = primaryDimension;
             this.secondaryDimension = secondaryDimension;
             this.childPrimaryEnd = childPrimaryEnd;
             this.childSecondaryEnd = childSecondaryEnd;
         }
     }
 }
	/*
	* Copyright (C) 2020 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.launcher3.touch;

	import android.content.res.Resources;
	import android.graphics.Canvas;
	import android.graphics.Matrix;
	import android.graphics.PointF;
	import android.graphics.Rect;
	import android.graphics.RectF;
	import android.graphics.drawable.ShapeDrawable;
	import android.util.FloatProperty;
	import android.util.Pair;
	import android.view.MotionEvent;
	import android.view.VelocityTracker;
	import android.view.View;
	import android.view.accessibility.AccessibilityEvent;
	import android.widget.FrameLayout;
	import android.widget.LinearLayout;

	import com.android.launcher3.DeviceProfile;
	import com.android.launcher3.util.SplitConfigurationOptions;
	import com.android.launcher3.util.SplitConfigurationOptions.SplitPositionOption;
	import com.android.launcher3.util.SplitConfigurationOptions.StagePosition;
	import com.android.launcher3.util.SplitConfigurationOptions.StagedSplitBounds;

	import java.util.List;

	/**
	* Abstraction layer to separate horizontal and vertical specific implementations
	* for {@link com.android.launcher3.PagedView}. Majority of these implementations are (should be) as
	* simple as choosing the correct X and Y analogous methods.
	*/
	public interface PagedOrientationHandler {

	int SPLIT_TRANSLATE_PRIMARY_POSITIVE = 0;
	int SPLIT_TRANSLATE_PRIMARY_NEGATIVE = 1;
	int SPLIT_TRANSLATE_SECONDARY_NEGATIVE = 2;

	PagedOrientationHandler PORTRAIT = new PortraitPagedViewHandler();
	PagedOrientationHandler LANDSCAPE = new LandscapePagedViewHandler();
	PagedOrientationHandler SEASCAPE = new SeascapePagedViewHandler();

	interface Int2DAction<T> {
	void call(T target, int x, int y);
	}
	interface Float2DAction<T> {
	void call(T target, float x, float y);
	}
	Int2DAction<View> VIEW_SCROLL_BY = View::scrollBy;
	Int2DAction<View> VIEW_SCROLL_TO = View::scrollTo;
	Float2DAction<Canvas> CANVAS_TRANSLATE = Canvas::translate;
	Float2DAction<Matrix> MATRIX_POST_TRANSLATE = Matrix::postTranslate;

	<T> void setPrimary(T target, Int2DAction<T> action, int param);
	<T> void setPrimary(T target, Float2DAction<T> action, float param);
	<T> void setSecondary(T target, Float2DAction<T> action, float param);
	<T> void set(T target, Int2DAction<T> action, int primaryParam, int secondaryParam);
	float getPrimaryDirection(MotionEvent event, int pointerIndex);
	float getPrimaryVelocity(VelocityTracker velocityTracker, int pointerId);
	int getMeasuredSize(View view);
	int getPrimarySize(View view);
	float getPrimarySize(RectF rect);
	float getStart(RectF rect);
	float getEnd(RectF rect);
	int getClearAllSidePadding(View view, boolean isRtl);
	int getSecondaryDimension(View view);
	FloatProperty<View> getPrimaryViewTranslate();
	FloatProperty<View> getSecondaryViewTranslate();

	/**
	* @param stagePosition The position where the view to be split will go
	* @return {@link #SPLIT_TRANSLATE_*} constants to indicate which direction the
	* dismissal should happen
	*/
	int getSplitTaskViewDismissDirection(@StagePosition int stagePosition, DeviceProfile dp);
	int getPrimaryScroll(View view);
	float getPrimaryScale(View view);
	int getChildStart(View view);
	int getCenterForPage(View view, Rect insets);
	int getScrollOffsetStart(View view, Rect insets);
	int getScrollOffsetEnd(View view, Rect insets);
	int getSecondaryTranslationDirectionFactor();
	int getSplitTranslationDirectionFactor(@StagePosition int stagePosition,
	DeviceProfile deviceProfile);
	ChildBounds getChildBounds(View child, int childStart, int pageCenter, boolean layoutChild);
	void setMaxScroll(AccessibilityEvent event, int maxScroll);
	boolean getRecentsRtlSetting(Resources resources);
	float getDegreesRotated();
	int getRotation();
	void setPrimaryScale(View view, float scale);
	void setSecondaryScale(View view, float scale);

	<T> T getPrimaryValue(T x, T y);
	<T> T getSecondaryValue(T x, T y);

	int getPrimaryValue(int x, int y);
	int getSecondaryValue(int x, int y);

	float getPrimaryValue(float x, float y);
	float getSecondaryValue(float x, float y);

	boolean isLayoutNaturalToLauncher();
	Pair<FloatProperty, FloatProperty> getSplitSelectTaskOffset(FloatProperty primary,
	FloatProperty secondary, DeviceProfile deviceProfile);
	int getDistanceToBottomOfRect(DeviceProfile dp, Rect rect);
	List<SplitPositionOption> getSplitPositionOptions(DeviceProfile dp);
	/**
	* @param splitholderSize height of placeholder view in portrait, width in landscape
	*/
	void getInitialSplitPlaceholderBounds(int splitholderSize, DeviceProfile dp,
	@StagePosition int stagePosition, Rect out);

	/**
	* @param splitDividerSize height of split screen drag handle in portrait, width in landscape
	* @param stagePosition the split position option (top/left, bottom/right) of the first
	* task selected for entering split
	* @param out1 the bounds for where the first selected app will be
	* @param out2 the bounds for where the second selected app will be, complimentary to
	* {@param out1} based on {@param initialSplitOption}
	*/
	void getFinalSplitPlaceholderBounds(int splitDividerSize, DeviceProfile dp,
	@StagePosition int stagePosition, Rect out1, Rect out2);

	int getDefaultSplitPosition(DeviceProfile deviceProfile);

	/**
	* @param outRect This is expected to be the rect that has the dimensions for a non-split,
	* fullscreen task in overview. This will directly be modified.
	* @param desiredStagePosition Which stage position (topLeft/rightBottom) we want to resize
	* outRect for
	*/
	void setSplitTaskSwipeRect(DeviceProfile dp, Rect outRect, StagedSplitBounds splitInfo,
	@SplitConfigurationOptions.StagePosition int desiredStagePosition);

	void measureGroupedTaskViewThumbnailBounds(View primarySnapshot, View secondarySnapshot,
	int parentWidth, int parentHeight,
	StagedSplitBounds splitBoundsConfig, DeviceProfile dp);

	// Overview TaskMenuView methods
	void setIconAndSnapshotParams(View iconView, int taskIconMargin, int taskIconHeight,
	FrameLayout.LayoutParams snapshotParams, boolean isRtl);
	void setSplitIconParams(View primaryIconView, View secondaryIconView,
	int taskIconHeight, int primarySnapshotWidth, int primarySnapshotHeight,
	boolean isRtl, DeviceProfile deviceProfile, StagedSplitBounds splitConfig);

	/*
	* The following two methods try to center the TaskMenuView in landscape by finding the center
	* of the thumbnail view and then subtracting half of the taskMenu width. In this case, the
	* taskMenu width is the same size as the thumbnail width (what got set below in
	* getTaskMenuWidth()), so we directly use that in the calculations.
	*/
	float getTaskMenuX(float x, View thumbnailView, int overScroll, DeviceProfile deviceProfile);
	float getTaskMenuY(float y, View thumbnailView, int overScroll);
	int getTaskMenuWidth(View view, DeviceProfile deviceProfile);
	/**
	* Sets linear layout orientation for {@link com.android.launcher3.popup.SystemShortcut} items
	* inside task menu view.
	*/
	void setTaskOptionsMenuLayoutOrientation(DeviceProfile deviceProfile,
	LinearLayout taskMenuLayout, int dividerSpacing,
	ShapeDrawable dividerDrawable);
	/**
	* Sets layout param attributes for {@link com.android.launcher3.popup.SystemShortcut} child
	* views inside task menu view.
	*/
	void setLayoutParamsForTaskMenuOptionItem(LinearLayout.LayoutParams lp,
	LinearLayout viewGroup, DeviceProfile deviceProfile);
	/**
	* Adjusts margins for the entire task menu view itself, which comprises of both app title and
	* shortcut options.
	*/
	void setTaskMenuAroundTaskView(LinearLayout taskView, float margin);
	/**
	* Since the task menu layout is manually positioned on top of recents view, this method returns
	* additional adjustments to the positioning based on fake land/seascape
	*/
	PointF getAdditionalInsetForTaskMenu(float margin);

	Pair<Float, Float> setDwbLayoutParamsAndGetTranslations(int taskViewWidth,
	int taskViewHeight, StagedSplitBounds splitBounds, DeviceProfile deviceProfile,
	View[] thumbnailViews, int desiredTaskId, View banner);

	// The following are only used by TaskViewTouchHandler.
	/** @return Either VERTICAL or HORIZONTAL. */
	SingleAxisSwipeDetector.Direction getUpDownSwipeDirection();
	/** @return Given {@link #getUpDownSwipeDirection()}, whether POSITIVE or NEGATIVE is up. */
	int getUpDirection(boolean isRtl);
	/** @return Whether the displacement is going towards the top of the screen. */
	boolean isGoingUp(float displacement, boolean isRtl);
	/** @return Either 1 or -1, a factor to multiply by so the animation goes the correct way. */
	int getTaskDragDisplacementFactor(boolean isRtl);

	/**
	* Maps the velocity from the coordinate plane of the foreground app to that
	* of Launcher's (which now will always be portrait)
	*/
	void adjustFloatingIconStartVelocity(PointF velocity);

	class ChildBounds {

	public final int primaryDimension;
	public final int secondaryDimension;
	public final int childPrimaryEnd;
	public final int childSecondaryEnd;

	ChildBounds(int primaryDimension, int secondaryDimension, int childPrimaryEnd,
	int childSecondaryEnd) {
	this.primaryDimension = primaryDimension;
	this.secondaryDimension = secondaryDimension;
	this.childPrimaryEnd = childPrimaryEnd;
	this.childSecondaryEnd = childSecondaryEnd;
	}
	}
	}