| /* |
| * Copyright (C) 2015 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.server.wm; |
| |
| import static android.app.WindowConfiguration.WINDOWING_MODE_FREEFORM; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_FULLSCREEN; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_PINNED; |
| import static android.app.WindowConfiguration.WINDOWING_MODE_UNDEFINED; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_LANDSCAPE; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_LOCKED; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_NOSENSOR; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_PORTRAIT; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_REVERSE_LANDSCAPE; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_REVERSE_PORTRAIT; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_SENSOR_LANDSCAPE; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_SENSOR_PORTRAIT; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_USER_LANDSCAPE; |
| import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_USER_PORTRAIT; |
| import static android.util.DisplayMetrics.DENSITY_DEFAULT; |
| import static android.view.Display.DEFAULT_DISPLAY; |
| import static android.view.Display.INVALID_DISPLAY; |
| |
| import static com.android.server.wm.ActivityTaskManagerDebugConfig.TAG_ATM; |
| import static com.android.server.wm.ActivityTaskManagerDebugConfig.TAG_WITH_CLASS_NAME; |
| |
| import android.annotation.NonNull; |
| import android.annotation.Nullable; |
| import android.app.ActivityOptions; |
| import android.app.WindowConfiguration; |
| import android.content.pm.ActivityInfo; |
| import android.content.pm.ApplicationInfo; |
| import android.content.res.Configuration; |
| import android.graphics.Rect; |
| import android.os.Build; |
| import android.util.Slog; |
| import android.view.Gravity; |
| import android.view.View; |
| |
| import com.android.internal.annotations.VisibleForTesting; |
| import com.android.server.wm.LaunchParamsController.LaunchParams; |
| import com.android.server.wm.LaunchParamsController.LaunchParamsModifier; |
| |
| import java.util.ArrayList; |
| import java.util.List; |
| |
| /** |
| * The class that defines the default launch params for tasks. |
| */ |
| class TaskLaunchParamsModifier implements LaunchParamsModifier { |
| private static final String TAG = TAG_WITH_CLASS_NAME ? "TaskLaunchParamsModifier" : TAG_ATM; |
| private static final boolean DEBUG = false; |
| |
| // A mask for SUPPORTS_SCREEN that indicates the activity supports resize. |
| private static final int SUPPORTS_SCREEN_RESIZEABLE_MASK = |
| ApplicationInfo.FLAG_SUPPORTS_SCREEN_DENSITIES |
| | ApplicationInfo.FLAG_SUPPORTS_LARGE_SCREENS |
| | ApplicationInfo.FLAG_SUPPORTS_SMALL_SCREENS |
| | ApplicationInfo.FLAG_RESIZEABLE_FOR_SCREENS |
| | ApplicationInfo.FLAG_SUPPORTS_SCREEN_DENSITIES |
| | ApplicationInfo.FLAG_SUPPORTS_XLARGE_SCREENS; |
| |
| // Screen size of Nexus 5x |
| private static final int DEFAULT_PORTRAIT_PHONE_WIDTH_DP = 412; |
| private static final int DEFAULT_PORTRAIT_PHONE_HEIGHT_DP = 732; |
| |
| // Allowance of size matching. |
| private static final int EPSILON = 2; |
| |
| // Cascade window offset. |
| private static final int CASCADING_OFFSET_DP = 75; |
| |
| // Threshold how close window corners have to be to call them colliding. |
| private static final int BOUNDS_CONFLICT_THRESHOLD = 4; |
| |
| // Divide display size by this number to get each step to adjust bounds to avoid conflict. |
| private static final int STEP_DENOMINATOR = 16; |
| |
| // We always want to step by at least this. |
| private static final int MINIMAL_STEP = 1; |
| |
| private final ActivityStackSupervisor mSupervisor; |
| private final Rect mTmpBounds = new Rect(); |
| private final int[] mTmpDirections = new int[2]; |
| |
| private StringBuilder mLogBuilder; |
| |
| TaskLaunchParamsModifier(ActivityStackSupervisor supervisor) { |
| mSupervisor = supervisor; |
| } |
| |
| @VisibleForTesting |
| int onCalculate(TaskRecord task, ActivityInfo.WindowLayout layout, ActivityRecord activity, |
| ActivityRecord source, ActivityOptions options, LaunchParams currentParams, |
| LaunchParams outParams) { |
| return onCalculate(task, layout, activity, source, options, PHASE_BOUNDS, currentParams, |
| outParams); |
| } |
| |
| @Override |
| public int onCalculate(TaskRecord task, ActivityInfo.WindowLayout layout, |
| ActivityRecord activity, ActivityRecord source, ActivityOptions options, |
| int phase, LaunchParams currentParams, LaunchParams outParams) { |
| initLogBuilder(task, activity); |
| final int result = calculate(task, layout, activity, source, options, phase, currentParams, |
| outParams); |
| outputLog(); |
| return result; |
| } |
| |
| private int calculate(TaskRecord task, ActivityInfo.WindowLayout layout, |
| ActivityRecord activity, ActivityRecord source, ActivityOptions options, int phase, |
| LaunchParams currentParams, LaunchParams outParams) { |
| final ActivityRecord root; |
| if (task != null) { |
| root = task.getRootActivity() == null ? activity : task.getRootActivity(); |
| } else { |
| root = activity; |
| } |
| |
| // TODO: Investigate whether we can safely ignore all cases where we don't have root |
| // activity available. Note we can't know if the bounds are valid if we're not sure of the |
| // requested orientation of the root activity. Therefore if we found such a case we may need |
| // to pass the activity into this modifier in that case. |
| if (root == null) { |
| // There is a case that can lead us here. The caller is moving the top activity that is |
| // in a task that has multiple activities to PIP mode. For that the caller is creating a |
| // new task to host the activity so that we only move the top activity to PIP mode and |
| // keep other activities in the previous task. There is no point to apply the launch |
| // logic in this case. |
| return RESULT_SKIP; |
| } |
| |
| // STEP 1: Determine the display to launch the activity/task. |
| final int displayId = getPreferredLaunchDisplay(task, options, source, currentParams); |
| outParams.mPreferredDisplayId = displayId; |
| ActivityDisplay display = mSupervisor.mRootActivityContainer.getActivityDisplay(displayId); |
| if (DEBUG) { |
| appendLog("display-id=" + outParams.mPreferredDisplayId + " display-windowing-mode=" |
| + display.getWindowingMode()); |
| } |
| |
| if (phase == PHASE_DISPLAY) { |
| return RESULT_CONTINUE; |
| } |
| |
| // STEP 2: Resolve launch windowing mode. |
| // STEP 2.1: Determine if any parameter can specify initial bounds/windowing mode. That |
| // might be the launch bounds from activity options, or size/gravity passed in layout. It |
| // also treats the launch windowing mode in options and source activity windowing mode in |
| // some cases as a suggestion for future resolution. |
| int launchMode = options != null ? options.getLaunchWindowingMode() |
| : WINDOWING_MODE_UNDEFINED; |
| // In some cases we want to use the source's windowing mode as the default value, e.g. when |
| // source is a freeform window in a fullscreen display launching an activity on the same |
| // display. |
| if (launchMode == WINDOWING_MODE_UNDEFINED |
| && canInheritWindowingModeFromSource(display, source)) { |
| launchMode = source.getWindowingMode(); |
| if (DEBUG) { |
| appendLog("inherit-from-source=" |
| + WindowConfiguration.windowingModeToString(launchMode)); |
| } |
| } |
| // hasInitialBounds is set if either activity options or layout has specified bounds. If |
| // that's set we'll skip some adjustments later to avoid overriding the initial bounds. |
| boolean hasInitialBounds = false; |
| final boolean canApplyFreeformPolicy = canApplyFreeformWindowPolicy(display, launchMode); |
| if (mSupervisor.canUseActivityOptionsLaunchBounds(options) |
| && (canApplyFreeformPolicy || canApplyPipWindowPolicy(launchMode))) { |
| hasInitialBounds = true; |
| launchMode = launchMode == WINDOWING_MODE_UNDEFINED |
| ? WINDOWING_MODE_FREEFORM |
| : launchMode; |
| outParams.mBounds.set(options.getLaunchBounds()); |
| if (DEBUG) appendLog("activity-options-bounds=" + outParams.mBounds); |
| } else if (launchMode == WINDOWING_MODE_PINNED) { |
| // System controls PIP window's bounds, so don't apply launch bounds. |
| if (DEBUG) appendLog("empty-window-layout-for-pip"); |
| } else if (launchMode == WINDOWING_MODE_FULLSCREEN) { |
| if (DEBUG) appendLog("activity-options-fullscreen=" + outParams.mBounds); |
| } else if (layout != null && canApplyFreeformPolicy) { |
| getLayoutBounds(display, root, layout, mTmpBounds); |
| if (!mTmpBounds.isEmpty()) { |
| launchMode = WINDOWING_MODE_FREEFORM; |
| outParams.mBounds.set(mTmpBounds); |
| hasInitialBounds = true; |
| if (DEBUG) appendLog("bounds-from-layout=" + outParams.mBounds); |
| } else { |
| if (DEBUG) appendLog("empty-window-layout"); |
| } |
| } |
| |
| // STEP 2.2: Check if previous modifier or the controller (referred as "callers" below) has |
| // some opinions on launch mode and launch bounds. If they have opinions and there is no |
| // initial bounds set in parameters. Note the check on display ID is also input param |
| // related because we always defer to callers' suggestion if there is no specific display ID |
| // in options or from source activity. |
| // |
| // If opinions from callers don't need any further resolution, we try to honor that as is as |
| // much as possible later. |
| |
| // Flag to indicate if current param needs no further resolution. It's true it current |
| // param isn't freeform mode, or it already has launch bounds. |
| boolean fullyResolvedCurrentParam = false; |
| // We inherit launch params from previous modifiers or LaunchParamsController if options, |
| // layout and display conditions are not contradictory to their suggestions. It's important |
| // to carry over their values because LaunchParamsController doesn't automatically do that. |
| if (!currentParams.isEmpty() && !hasInitialBounds |
| && (!currentParams.hasPreferredDisplay() |
| || displayId == currentParams.mPreferredDisplayId)) { |
| // Only set windowing mode if display is in freeform. If the display is in fullscreen |
| // mode we should only launch a task in fullscreen mode. |
| if (currentParams.hasWindowingMode() && display.inFreeformWindowingMode()) { |
| launchMode = currentParams.mWindowingMode; |
| fullyResolvedCurrentParam = launchMode != WINDOWING_MODE_FREEFORM; |
| if (DEBUG) { |
| appendLog("inherit-" + WindowConfiguration.windowingModeToString(launchMode)); |
| } |
| } |
| |
| if (!currentParams.mBounds.isEmpty()) { |
| // Carry over bounds from callers regardless of launch mode because bounds is still |
| // used to restore last non-fullscreen bounds when launch mode is not freeform. |
| // Therefore it's not a resolution step for non-freeform launch mode and only |
| // consider it fully resolved only when launch mode is freeform. |
| outParams.mBounds.set(currentParams.mBounds); |
| if (launchMode == WINDOWING_MODE_FREEFORM) { |
| fullyResolvedCurrentParam = true; |
| if (DEBUG) appendLog("inherit-bounds=" + outParams.mBounds); |
| } |
| } |
| } |
| |
| // STEP 2.3: Adjust launch parameters as needed for freeform display. We enforce the policy |
| // that legacy (pre-D) apps and those apps that can't handle multiple screen density well |
| // are forced to be maximized. The rest of this step is to define the default policy when |
| // there is no initial bounds or a fully resolved current params from callers. |
| if (display.inFreeformWindowingMode()) { |
| if (launchMode == WINDOWING_MODE_PINNED) { |
| if (DEBUG) appendLog("picture-in-picture"); |
| } else if (isTaskForcedMaximized(root)) { |
| // We're launching an activity that probably can't handle resizing nicely, so force |
| // it to be maximized even someone suggests launching it in freeform using launch |
| // options. |
| launchMode = WINDOWING_MODE_FULLSCREEN; |
| outParams.mBounds.setEmpty(); |
| if (DEBUG) appendLog("forced-maximize"); |
| } |
| } else { |
| if (DEBUG) appendLog("non-freeform-display"); |
| } |
| // If launch mode matches display windowing mode, let it inherit from display. |
| outParams.mWindowingMode = launchMode == display.getWindowingMode() |
| ? WINDOWING_MODE_UNDEFINED : launchMode; |
| |
| if (phase == PHASE_WINDOWING_MODE) { |
| return RESULT_CONTINUE; |
| } |
| |
| // STEP 3: Determine final launch bounds based on resolved windowing mode and activity |
| // requested orientation. We set bounds to empty for fullscreen mode and keep bounds as is |
| // for all other windowing modes that's not freeform mode. One can read comments in |
| // relevant methods to further understand this step. |
| // |
| // We skip making adjustments if the params are fully resolved from previous results. |
| final int resolvedMode = (launchMode != WINDOWING_MODE_UNDEFINED) ? launchMode |
| : display.getWindowingMode(); |
| if (fullyResolvedCurrentParam) { |
| if (resolvedMode == WINDOWING_MODE_FREEFORM) { |
| // Make sure bounds are in the display if it's possibly in a different display. |
| if (currentParams.mPreferredDisplayId != displayId) { |
| adjustBoundsToFitInDisplay(display, outParams.mBounds); |
| } |
| // Even though we want to keep original bounds, we still don't want it to stomp on |
| // an existing task. |
| adjustBoundsToAvoidConflictInDisplay(display, outParams.mBounds); |
| } |
| } else if (display.inFreeformWindowingMode()) { |
| if (source != null && source.inFreeformWindowingMode() |
| && resolvedMode == WINDOWING_MODE_FREEFORM |
| && outParams.mBounds.isEmpty() |
| && source.getDisplayId() == display.mDisplayId) { |
| // Set bounds to be not very far from source activity. |
| cascadeBounds(source.getBounds(), display, outParams.mBounds); |
| } |
| getTaskBounds(root, display, layout, resolvedMode, hasInitialBounds, outParams.mBounds); |
| } |
| |
| return RESULT_CONTINUE; |
| } |
| |
| private int getPreferredLaunchDisplay(@Nullable TaskRecord task, |
| @Nullable ActivityOptions options, ActivityRecord source, LaunchParams currentParams) { |
| if (!mSupervisor.mService.mSupportsMultiDisplay) { |
| return DEFAULT_DISPLAY; |
| } |
| |
| int displayId = INVALID_DISPLAY; |
| final int optionLaunchId = options != null ? options.getLaunchDisplayId() : INVALID_DISPLAY; |
| if (optionLaunchId != INVALID_DISPLAY) { |
| if (DEBUG) appendLog("display-from-option=" + optionLaunchId); |
| displayId = optionLaunchId; |
| } |
| |
| // If the source activity is a no-display activity, pass on the launch display id from |
| // source activity as currently preferred. |
| if (displayId == INVALID_DISPLAY && source != null && source.noDisplay) { |
| displayId = source.mHandoverLaunchDisplayId; |
| if (DEBUG) appendLog("display-from-no-display-source=" + displayId); |
| } |
| |
| ActivityStack stack = |
| (displayId == INVALID_DISPLAY && task != null) ? task.getStack() : null; |
| if (stack != null) { |
| if (DEBUG) appendLog("display-from-task=" + stack.mDisplayId); |
| displayId = stack.mDisplayId; |
| } |
| |
| if (displayId == INVALID_DISPLAY && source != null) { |
| final int sourceDisplayId = source.getDisplayId(); |
| if (DEBUG) appendLog("display-from-source=" + sourceDisplayId); |
| displayId = sourceDisplayId; |
| } |
| |
| if (displayId == INVALID_DISPLAY && options != null) { |
| final int callerDisplayId = options.getCallerDisplayId(); |
| if (DEBUG) appendLog("display-from-caller=" + callerDisplayId); |
| displayId = callerDisplayId; |
| } |
| |
| if (displayId != INVALID_DISPLAY |
| && mSupervisor.mRootActivityContainer.getActivityDisplay(displayId) == null) { |
| displayId = currentParams.mPreferredDisplayId; |
| } |
| displayId = (displayId == INVALID_DISPLAY) ? currentParams.mPreferredDisplayId : displayId; |
| |
| return (displayId != INVALID_DISPLAY |
| && mSupervisor.mRootActivityContainer.getActivityDisplay(displayId) != null) |
| ? displayId : DEFAULT_DISPLAY; |
| } |
| |
| private boolean canInheritWindowingModeFromSource(@NonNull ActivityDisplay display, |
| @Nullable ActivityRecord source) { |
| if (source == null) { |
| return false; |
| } |
| |
| // There is not really any strong reason to tie the launching windowing mode and the source |
| // on freeform displays. The launching windowing mode is more tied to the content of the new |
| // activities. |
| if (display.inFreeformWindowingMode()) { |
| return false; |
| } |
| |
| final int sourceWindowingMode = source.getWindowingMode(); |
| if (sourceWindowingMode != WINDOWING_MODE_FULLSCREEN |
| && sourceWindowingMode != WINDOWING_MODE_FREEFORM) { |
| return false; |
| } |
| |
| // Only inherit windowing mode if both source and target activities are on the same display. |
| // Otherwise we may have unintended freeform windows showing up if an activity in freeform |
| // window launches an activity on a fullscreen display by specifying display ID. |
| return display.mDisplayId == source.getDisplayId(); |
| } |
| |
| private boolean canApplyFreeformWindowPolicy(@NonNull ActivityDisplay display, int launchMode) { |
| return mSupervisor.mService.mSupportsFreeformWindowManagement |
| && (display.inFreeformWindowingMode() || launchMode == WINDOWING_MODE_FREEFORM); |
| } |
| |
| private boolean canApplyPipWindowPolicy(int launchMode) { |
| return mSupervisor.mService.mSupportsPictureInPicture |
| && launchMode == WINDOWING_MODE_PINNED; |
| } |
| |
| private void getLayoutBounds(@NonNull ActivityDisplay display, @NonNull ActivityRecord root, |
| @NonNull ActivityInfo.WindowLayout windowLayout, @NonNull Rect outBounds) { |
| final int verticalGravity = windowLayout.gravity & Gravity.VERTICAL_GRAVITY_MASK; |
| final int horizontalGravity = windowLayout.gravity & Gravity.HORIZONTAL_GRAVITY_MASK; |
| if (!windowLayout.hasSpecifiedSize() && verticalGravity == 0 && horizontalGravity == 0) { |
| outBounds.setEmpty(); |
| return; |
| } |
| |
| // Use stable frame instead of raw frame to avoid launching freeform windows on top of |
| // stable insets, which usually are system widgets such as sysbar & navbar. |
| final Rect displayStableBounds = display.mDisplayContent.mDisplayFrames.mStable; |
| final int defaultWidth = displayStableBounds.width(); |
| final int defaultHeight = displayStableBounds.height(); |
| |
| int width; |
| int height; |
| if (!windowLayout.hasSpecifiedSize()) { |
| outBounds.setEmpty(); |
| getTaskBounds(root, display, windowLayout, WINDOWING_MODE_FREEFORM, |
| /* hasInitialBounds */ false, outBounds); |
| width = outBounds.width(); |
| height = outBounds.height(); |
| } else { |
| width = defaultWidth; |
| if (windowLayout.width > 0 && windowLayout.width < defaultWidth) { |
| width = windowLayout.width; |
| } else if (windowLayout.widthFraction > 0 && windowLayout.widthFraction < 1.0f) { |
| width = (int) (width * windowLayout.widthFraction); |
| } |
| |
| height = defaultHeight; |
| if (windowLayout.height > 0 && windowLayout.height < defaultHeight) { |
| height = windowLayout.height; |
| } else if (windowLayout.heightFraction > 0 && windowLayout.heightFraction < 1.0f) { |
| height = (int) (height * windowLayout.heightFraction); |
| } |
| } |
| |
| final float fractionOfHorizontalOffset; |
| switch (horizontalGravity) { |
| case Gravity.LEFT: |
| fractionOfHorizontalOffset = 0f; |
| break; |
| case Gravity.RIGHT: |
| fractionOfHorizontalOffset = 1f; |
| break; |
| default: |
| fractionOfHorizontalOffset = 0.5f; |
| } |
| |
| final float fractionOfVerticalOffset; |
| switch (verticalGravity) { |
| case Gravity.TOP: |
| fractionOfVerticalOffset = 0f; |
| break; |
| case Gravity.BOTTOM: |
| fractionOfVerticalOffset = 1f; |
| break; |
| default: |
| fractionOfVerticalOffset = 0.5f; |
| } |
| |
| outBounds.set(0, 0, width, height); |
| outBounds.offset(displayStableBounds.left, displayStableBounds.top); |
| final int xOffset = (int) (fractionOfHorizontalOffset * (defaultWidth - width)); |
| final int yOffset = (int) (fractionOfVerticalOffset * (defaultHeight - height)); |
| outBounds.offset(xOffset, yOffset); |
| } |
| |
| /** |
| * Returns if task is forced to maximize. |
| * |
| * There are several cases where we force a task to maximize: |
| * 1) Root activity is targeting pre-Donut, which by default can't handle multiple screen |
| * densities, so resizing will likely cause issues; |
| * 2) Root activity doesn't declare any flag that it supports any screen density, so resizing |
| * may also cause issues; |
| * 3) Root activity is not resizeable, for which we shouldn't allow user resize it. |
| * |
| * @param root the root activity to check against. |
| * @return {@code true} if it should be forced to maximize; {@code false} otherwise. |
| */ |
| private boolean isTaskForcedMaximized(@NonNull ActivityRecord root) { |
| if (root.info.applicationInfo.targetSdkVersion < Build.VERSION_CODES.DONUT |
| || (root.info.applicationInfo.flags & SUPPORTS_SCREEN_RESIZEABLE_MASK) == 0) { |
| return true; |
| } |
| |
| return !root.isResizeable(); |
| } |
| |
| /** |
| * Resolves activity requested orientation to 4 categories: |
| * 1) {@link ActivityInfo#SCREEN_ORIENTATION_LOCKED} indicating app wants to lock down |
| * orientation; |
| * 2) {@link ActivityInfo#SCREEN_ORIENTATION_LANDSCAPE} indicating app wants to be in landscape; |
| * 3) {@link ActivityInfo#SCREEN_ORIENTATION_PORTRAIT} indicating app wants to be in portrait; |
| * 4) {@link ActivityInfo#SCREEN_ORIENTATION_UNSPECIFIED} indicating app can handle any |
| * orientation. |
| * |
| * @param activity the activity to check |
| * @return corresponding resolved orientation value. |
| */ |
| private int resolveOrientation(@NonNull ActivityRecord activity) { |
| int orientation = activity.info.screenOrientation; |
| switch (orientation) { |
| case SCREEN_ORIENTATION_NOSENSOR: |
| case SCREEN_ORIENTATION_LOCKED: |
| orientation = SCREEN_ORIENTATION_LOCKED; |
| break; |
| case SCREEN_ORIENTATION_SENSOR_LANDSCAPE: |
| case SCREEN_ORIENTATION_REVERSE_LANDSCAPE: |
| case SCREEN_ORIENTATION_USER_LANDSCAPE: |
| case SCREEN_ORIENTATION_LANDSCAPE: |
| if (DEBUG) appendLog("activity-requested-landscape"); |
| orientation = SCREEN_ORIENTATION_LANDSCAPE; |
| break; |
| case SCREEN_ORIENTATION_SENSOR_PORTRAIT: |
| case SCREEN_ORIENTATION_REVERSE_PORTRAIT: |
| case SCREEN_ORIENTATION_USER_PORTRAIT: |
| case SCREEN_ORIENTATION_PORTRAIT: |
| if (DEBUG) appendLog("activity-requested-portrait"); |
| orientation = SCREEN_ORIENTATION_PORTRAIT; |
| break; |
| default: |
| orientation = SCREEN_ORIENTATION_UNSPECIFIED; |
| } |
| |
| return orientation; |
| } |
| |
| private void cascadeBounds(@NonNull Rect srcBounds, @NonNull ActivityDisplay display, |
| @NonNull Rect outBounds) { |
| outBounds.set(srcBounds); |
| float density = (float) display.getConfiguration().densityDpi / DENSITY_DEFAULT; |
| final int defaultOffset = (int) (CASCADING_OFFSET_DP * density + 0.5f); |
| |
| display.getBounds(mTmpBounds); |
| final int dx = Math.min(defaultOffset, Math.max(0, mTmpBounds.right - srcBounds.right)); |
| final int dy = Math.min(defaultOffset, Math.max(0, mTmpBounds.bottom - srcBounds.bottom)); |
| outBounds.offset(dx, dy); |
| } |
| |
| private void getTaskBounds(@NonNull ActivityRecord root, @NonNull ActivityDisplay display, |
| @NonNull ActivityInfo.WindowLayout layout, int resolvedMode, boolean hasInitialBounds, |
| @NonNull Rect inOutBounds) { |
| if (resolvedMode == WINDOWING_MODE_FULLSCREEN) { |
| // We don't handle letterboxing here. Letterboxing will be handled by valid checks |
| // later. |
| inOutBounds.setEmpty(); |
| if (DEBUG) appendLog("maximized-bounds"); |
| return; |
| } |
| |
| if (resolvedMode != WINDOWING_MODE_FREEFORM) { |
| // We don't apply freeform bounds adjustment to other windowing modes. |
| if (DEBUG) { |
| appendLog("skip-bounds-" + WindowConfiguration.windowingModeToString(resolvedMode)); |
| } |
| return; |
| } |
| |
| final int orientation = resolveOrientation(root, display, inOutBounds); |
| if (orientation != SCREEN_ORIENTATION_PORTRAIT |
| && orientation != SCREEN_ORIENTATION_LANDSCAPE) { |
| throw new IllegalStateException( |
| "Orientation must be one of portrait or landscape, but it's " |
| + ActivityInfo.screenOrientationToString(orientation)); |
| } |
| |
| // First we get the default size we want. |
| getDefaultFreeformSize(display, layout, orientation, mTmpBounds); |
| if (hasInitialBounds || sizeMatches(inOutBounds, mTmpBounds)) { |
| // We're here because either input parameters specified initial bounds, or the suggested |
| // bounds have the same size of the default freeform size. We should use the suggested |
| // bounds if possible -- so if app can handle the orientation we just use it, and if not |
| // we transpose the suggested bounds in-place. |
| if (orientation == orientationFromBounds(inOutBounds)) { |
| if (DEBUG) appendLog("freeform-size-orientation-match=" + inOutBounds); |
| } else { |
| // Meh, orientation doesn't match. Let's rotate inOutBounds in-place. |
| centerBounds(display, inOutBounds.height(), inOutBounds.width(), inOutBounds); |
| if (DEBUG) appendLog("freeform-orientation-mismatch=" + inOutBounds); |
| } |
| } else { |
| // We are here either because there is no suggested bounds, or the suggested bounds is |
| // a cascade from source activity. We should use the default freeform size and center it |
| // to the center of suggested bounds (or the display if no suggested bounds). The |
| // default size might be too big to center to source activity bounds in display, so we |
| // may need to move it back to the display. |
| centerBounds(display, mTmpBounds.width(), mTmpBounds.height(), inOutBounds); |
| adjustBoundsToFitInDisplay(display, inOutBounds); |
| if (DEBUG) appendLog("freeform-size-mismatch=" + inOutBounds); |
| } |
| |
| // Lastly we adjust bounds to avoid conflicts with other tasks as much as possible. |
| adjustBoundsToAvoidConflictInDisplay(display, inOutBounds); |
| } |
| |
| private int convertOrientationToScreenOrientation(int orientation) { |
| switch (orientation) { |
| case Configuration.ORIENTATION_LANDSCAPE: |
| return SCREEN_ORIENTATION_LANDSCAPE; |
| case Configuration.ORIENTATION_PORTRAIT: |
| return SCREEN_ORIENTATION_PORTRAIT; |
| default: |
| return SCREEN_ORIENTATION_UNSPECIFIED; |
| } |
| } |
| |
| private int resolveOrientation(@NonNull ActivityRecord root, @NonNull ActivityDisplay display, |
| @NonNull Rect bounds) { |
| int orientation = resolveOrientation(root); |
| |
| if (orientation == SCREEN_ORIENTATION_LOCKED) { |
| orientation = bounds.isEmpty() |
| ? convertOrientationToScreenOrientation(display.getConfiguration().orientation) |
| : orientationFromBounds(bounds); |
| if (DEBUG) { |
| appendLog(bounds.isEmpty() ? "locked-orientation-from-display=" + orientation |
| : "locked-orientation-from-bounds=" + bounds); |
| } |
| } |
| |
| if (orientation == SCREEN_ORIENTATION_UNSPECIFIED) { |
| orientation = bounds.isEmpty() ? SCREEN_ORIENTATION_PORTRAIT |
| : orientationFromBounds(bounds); |
| if (DEBUG) { |
| appendLog(bounds.isEmpty() ? "default-portrait" |
| : "orientation-from-bounds=" + bounds); |
| } |
| } |
| |
| return orientation; |
| } |
| |
| private void getDefaultFreeformSize(@NonNull ActivityDisplay display, |
| @NonNull ActivityInfo.WindowLayout layout, int orientation, @NonNull Rect bounds) { |
| // Default size, which is letterboxing/pillarboxing in display. That's to say the large |
| // dimension of default size is the small dimension of display size, and the small dimension |
| // of default size is calculated to keep the same aspect ratio as the display's. Here we use |
| // stable bounds of displays because that indicates the area that isn't occupied by system |
| // widgets (e.g. sysbar and navbar). |
| Rect displayStableBounds = display.mDisplayContent.mDisplayFrames.mStable; |
| final int portraitHeight = |
| Math.min(displayStableBounds.width(), displayStableBounds.height()); |
| final int otherDimension = |
| Math.max(displayStableBounds.width(), displayStableBounds.height()); |
| final int portraitWidth = (portraitHeight * portraitHeight) / otherDimension; |
| final int defaultWidth = (orientation == SCREEN_ORIENTATION_LANDSCAPE) ? portraitHeight |
| : portraitWidth; |
| final int defaultHeight = (orientation == SCREEN_ORIENTATION_LANDSCAPE) ? portraitWidth |
| : portraitHeight; |
| |
| // Get window size based on Nexus 5x screen, we assume that this is enough to show content |
| // of activities. |
| final float density = (float) display.getConfiguration().densityDpi / DENSITY_DEFAULT; |
| final int phonePortraitWidth = (int) (DEFAULT_PORTRAIT_PHONE_WIDTH_DP * density + 0.5f); |
| final int phonePortraitHeight = (int) (DEFAULT_PORTRAIT_PHONE_HEIGHT_DP * density + 0.5f); |
| final int phoneWidth = (orientation == SCREEN_ORIENTATION_LANDSCAPE) ? phonePortraitHeight |
| : phonePortraitWidth; |
| final int phoneHeight = (orientation == SCREEN_ORIENTATION_LANDSCAPE) ? phonePortraitWidth |
| : phonePortraitHeight; |
| |
| // Minimum layout requirements. |
| final int layoutMinWidth = (layout == null) ? -1 : layout.minWidth; |
| final int layoutMinHeight = (layout == null) ? -1 : layout.minHeight; |
| |
| // Final result. |
| final int width = Math.min(defaultWidth, Math.max(phoneWidth, layoutMinWidth)); |
| final int height = Math.min(defaultHeight, Math.max(phoneHeight, layoutMinHeight)); |
| |
| bounds.set(0, 0, width, height); |
| bounds.offset(displayStableBounds.left, displayStableBounds.top); |
| } |
| |
| /** |
| * Gets centered bounds of width x height. If inOutBounds is not empty, the result bounds |
| * centers at its center or display's app bounds center if inOutBounds is empty. |
| */ |
| private void centerBounds(@NonNull ActivityDisplay display, int width, int height, |
| @NonNull Rect inOutBounds) { |
| if (inOutBounds.isEmpty()) { |
| inOutBounds.set(display.mDisplayContent.mDisplayFrames.mStable); |
| } |
| final int left = inOutBounds.centerX() - width / 2; |
| final int top = inOutBounds.centerY() - height / 2; |
| inOutBounds.set(left, top, left + width, top + height); |
| } |
| |
| private void adjustBoundsToFitInDisplay(@NonNull ActivityDisplay display, |
| @NonNull Rect inOutBounds) { |
| final Rect displayStableBounds = display.mDisplayContent.mDisplayFrames.mStable; |
| |
| if (displayStableBounds.width() < inOutBounds.width() |
| || displayStableBounds.height() < inOutBounds.height()) { |
| // There is no way for us to fit the bounds in the display without changing width |
| // or height. Just move the start to align with the display. |
| final int layoutDirection = |
| mSupervisor.mRootActivityContainer.getConfiguration().getLayoutDirection(); |
| final int left = layoutDirection == View.LAYOUT_DIRECTION_RTL |
| ? displayStableBounds.right - inOutBounds.right + inOutBounds.left |
| : displayStableBounds.left; |
| inOutBounds.offsetTo(left, displayStableBounds.top); |
| return; |
| } |
| |
| final int dx; |
| if (inOutBounds.right > displayStableBounds.right) { |
| // Right edge is out of display. |
| dx = displayStableBounds.right - inOutBounds.right; |
| } else if (inOutBounds.left < displayStableBounds.left) { |
| // Left edge is out of display. |
| dx = displayStableBounds.left - inOutBounds.left; |
| } else { |
| // Vertical edges are all in display. |
| dx = 0; |
| } |
| |
| final int dy; |
| if (inOutBounds.top < displayStableBounds.top) { |
| // Top edge is out of display. |
| dy = displayStableBounds.top - inOutBounds.top; |
| } else if (inOutBounds.bottom > displayStableBounds.bottom) { |
| // Bottom edge is out of display. |
| dy = displayStableBounds.bottom - inOutBounds.bottom; |
| } else { |
| // Horizontal edges are all in display. |
| dy = 0; |
| } |
| inOutBounds.offset(dx, dy); |
| } |
| |
| /** |
| * Adjusts input bounds to avoid conflict with existing tasks in the display. |
| * |
| * If the input bounds conflict with existing tasks, this method scans the bounds in a series of |
| * directions to find a location where the we can put the bounds in display without conflict |
| * with any other tasks. |
| * |
| * It doesn't try to adjust bounds that's not fully in the given display. |
| * |
| * @param display the display which tasks are to check |
| * @param inOutBounds the bounds used to input initial bounds and output result bounds |
| */ |
| private void adjustBoundsToAvoidConflictInDisplay(@NonNull ActivityDisplay display, |
| @NonNull Rect inOutBounds) { |
| final List<Rect> taskBoundsToCheck = new ArrayList<>(); |
| for (int i = 0; i < display.getChildCount(); ++i) { |
| final ActivityStack stack = display.getChildAt(i); |
| if (!stack.inFreeformWindowingMode()) { |
| continue; |
| } |
| |
| for (int j = 0; j < stack.getChildCount(); ++j) { |
| taskBoundsToCheck.add(stack.getChildAt(j).getBounds()); |
| } |
| } |
| adjustBoundsToAvoidConflict(display.getBounds(), taskBoundsToCheck, inOutBounds); |
| } |
| |
| /** |
| * Adjusts input bounds to avoid conflict with provided display bounds and list of tasks bounds |
| * for the display. |
| * |
| * Scans the bounds in directions to find a candidate location that does not conflict with the |
| * provided list of task bounds. If starting bounds are outside the display bounds or if no |
| * suitable candidate bounds are found, the method returns the input bounds. |
| * |
| * @param displayBounds display bounds used to restrict the candidate bounds |
| * @param taskBoundsToCheck list of task bounds to check for conflict |
| * @param inOutBounds the bounds used to input initial bounds and output result bounds |
| */ |
| @VisibleForTesting |
| void adjustBoundsToAvoidConflict(@NonNull Rect displayBounds, |
| @NonNull List<Rect> taskBoundsToCheck, |
| @NonNull Rect inOutBounds) { |
| if (!displayBounds.contains(inOutBounds)) { |
| // The initial bounds are already out of display. The scanning algorithm below doesn't |
| // work so well with them. |
| return; |
| } |
| |
| if (!boundsConflict(taskBoundsToCheck, inOutBounds)) { |
| // Current proposal doesn't conflict with any task. Early return to avoid unnecessary |
| // calculation. |
| return; |
| } |
| |
| calculateCandidateShiftDirections(displayBounds, inOutBounds); |
| for (int direction : mTmpDirections) { |
| if (direction == Gravity.NO_GRAVITY) { |
| // We exhausted candidate directions, give up. |
| break; |
| } |
| |
| mTmpBounds.set(inOutBounds); |
| while (boundsConflict(taskBoundsToCheck, mTmpBounds) |
| && displayBounds.contains(mTmpBounds)) { |
| shiftBounds(direction, displayBounds, mTmpBounds); |
| } |
| |
| if (!boundsConflict(taskBoundsToCheck, mTmpBounds) |
| && displayBounds.contains(mTmpBounds)) { |
| // Found a candidate. Just use this. |
| inOutBounds.set(mTmpBounds); |
| if (DEBUG) appendLog("avoid-bounds-conflict=" + inOutBounds); |
| return; |
| } |
| |
| // Didn't find a conflict free bounds here. Try the next candidate direction. |
| } |
| |
| // We failed to find a conflict free location. Just keep the original result. |
| } |
| |
| /** |
| * Determines scanning directions and their priorities to avoid bounds conflict. |
| * |
| * @param availableBounds bounds that the result must be in |
| * @param initialBounds initial bounds when start scanning |
| */ |
| private void calculateCandidateShiftDirections(@NonNull Rect availableBounds, |
| @NonNull Rect initialBounds) { |
| for (int i = 0; i < mTmpDirections.length; ++i) { |
| mTmpDirections[i] = Gravity.NO_GRAVITY; |
| } |
| |
| final int oneThirdWidth = (2 * availableBounds.left + availableBounds.right) / 3; |
| final int twoThirdWidth = (availableBounds.left + 2 * availableBounds.right) / 3; |
| final int centerX = initialBounds.centerX(); |
| if (centerX < oneThirdWidth) { |
| // Too close to left, just scan to the right. |
| mTmpDirections[0] = Gravity.RIGHT; |
| return; |
| } else if (centerX > twoThirdWidth) { |
| // Too close to right, just scan to the left. |
| mTmpDirections[0] = Gravity.LEFT; |
| return; |
| } |
| |
| final int oneThirdHeight = (2 * availableBounds.top + availableBounds.bottom) / 3; |
| final int twoThirdHeight = (availableBounds.top + 2 * availableBounds.bottom) / 3; |
| final int centerY = initialBounds.centerY(); |
| if (centerY < oneThirdHeight || centerY > twoThirdHeight) { |
| // Too close to top or bottom boundary and we're in the middle horizontally, scan |
| // horizontally in both directions. |
| mTmpDirections[0] = Gravity.RIGHT; |
| mTmpDirections[1] = Gravity.LEFT; |
| return; |
| } |
| |
| // We're in the center region both horizontally and vertically. Scan in both directions of |
| // primary diagonal. |
| mTmpDirections[0] = Gravity.BOTTOM | Gravity.RIGHT; |
| mTmpDirections[1] = Gravity.TOP | Gravity.LEFT; |
| } |
| |
| private boolean boundsConflict(@NonNull List<Rect> taskBoundsToCheck, |
| @NonNull Rect candidateBounds) { |
| for (Rect taskBounds : taskBoundsToCheck) { |
| final boolean leftClose = Math.abs(taskBounds.left - candidateBounds.left) |
| < BOUNDS_CONFLICT_THRESHOLD; |
| final boolean topClose = Math.abs(taskBounds.top - candidateBounds.top) |
| < BOUNDS_CONFLICT_THRESHOLD; |
| final boolean rightClose = Math.abs(taskBounds.right - candidateBounds.right) |
| < BOUNDS_CONFLICT_THRESHOLD; |
| final boolean bottomClose = Math.abs(taskBounds.bottom - candidateBounds.bottom) |
| < BOUNDS_CONFLICT_THRESHOLD; |
| |
| if ((leftClose && topClose) || (leftClose && bottomClose) || (rightClose && topClose) |
| || (rightClose && bottomClose)) { |
| return true; |
| } |
| } |
| |
| return false; |
| } |
| |
| private void shiftBounds(int direction, @NonNull Rect availableRect, |
| @NonNull Rect inOutBounds) { |
| final int horizontalOffset; |
| switch (direction & Gravity.HORIZONTAL_GRAVITY_MASK) { |
| case Gravity.LEFT: |
| horizontalOffset = -Math.max(MINIMAL_STEP, |
| availableRect.width() / STEP_DENOMINATOR); |
| break; |
| case Gravity.RIGHT: |
| horizontalOffset = Math.max(MINIMAL_STEP, availableRect.width() / STEP_DENOMINATOR); |
| break; |
| default: |
| horizontalOffset = 0; |
| } |
| |
| final int verticalOffset; |
| switch (direction & Gravity.VERTICAL_GRAVITY_MASK) { |
| case Gravity.TOP: |
| verticalOffset = -Math.max(MINIMAL_STEP, availableRect.height() / STEP_DENOMINATOR); |
| break; |
| case Gravity.BOTTOM: |
| verticalOffset = Math.max(MINIMAL_STEP, availableRect.height() / STEP_DENOMINATOR); |
| break; |
| default: |
| verticalOffset = 0; |
| } |
| |
| inOutBounds.offset(horizontalOffset, verticalOffset); |
| } |
| |
| private void initLogBuilder(TaskRecord task, ActivityRecord activity) { |
| if (DEBUG) { |
| mLogBuilder = new StringBuilder("TaskLaunchParamsModifier:task=" + task |
| + " activity=" + activity); |
| } |
| } |
| |
| private void appendLog(String log) { |
| if (DEBUG) mLogBuilder.append(" ").append(log); |
| } |
| |
| private void outputLog() { |
| if (DEBUG) Slog.d(TAG, mLogBuilder.toString()); |
| } |
| |
| private static int orientationFromBounds(Rect bounds) { |
| return bounds.width() > bounds.height() ? SCREEN_ORIENTATION_LANDSCAPE |
| : SCREEN_ORIENTATION_PORTRAIT; |
| } |
| |
| private static boolean sizeMatches(Rect left, Rect right) { |
| return (Math.abs(right.width() - left.width()) < EPSILON) |
| && (Math.abs(right.height() - left.height()) < EPSILON); |
| } |
| } |