/* * Copyright (C) 2006 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 android.widget; import android.util.ArrayMap; import com.android.internal.R; import java.util.ArrayDeque; import java.util.ArrayList; import java.util.Comparator; import java.util.SortedSet; import java.util.TreeSet; import android.content.Context; import android.content.res.TypedArray; import android.graphics.Rect; import android.os.Build; import android.util.AttributeSet; import android.util.Pools.SynchronizedPool; import android.util.SparseArray; import android.view.Gravity; import android.view.View; import android.view.ViewDebug; import android.view.ViewGroup; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityNodeInfo; import android.widget.RemoteViews.RemoteView; import static android.os.Build.VERSION_CODES.JELLY_BEAN_MR1; /** * A Layout where the positions of the children can be described in relation to each other or to the * parent. * *
* Note that you cannot have a circular dependency between the size of the RelativeLayout and the * position of its children. For example, you cannot have a RelativeLayout whose height is set to * {@link android.view.ViewGroup.LayoutParams#WRAP_CONTENT WRAP_CONTENT} and a child set to * {@link #ALIGN_PARENT_BOTTOM}. *
* *Note: In platform version 17 and lower, RelativeLayout was affected by * a measurement bug that could cause child views to be measured with incorrect * {@link android.view.View.MeasureSpec MeasureSpec} values. (See * {@link android.view.View.MeasureSpec#makeMeasureSpec(int, int) MeasureSpec.makeMeasureSpec} * for more details.) This was triggered when a RelativeLayout container was placed in * a scrolling container, such as a ScrollView or HorizontalScrollView. If a custom view * not equipped to properly measure with the MeasureSpec mode * {@link android.view.View.MeasureSpec#UNSPECIFIED UNSPECIFIED} was placed in a RelativeLayout, * this would silently work anyway as RelativeLayout would pass a very large * {@link android.view.View.MeasureSpec#AT_MOST AT_MOST} MeasureSpec instead.
* *This behavior has been preserved for apps that set android:targetSdkVersion="17"
* or older in their manifest's uses-sdk
tag for compatibility. Apps targeting SDK
* version 18 or newer will receive the correct behavior
See the Relative * Layout guide.
* ** Also see {@link android.widget.RelativeLayout.LayoutParams RelativeLayout.LayoutParams} for * layout attributes *
* * @attr ref android.R.styleable#RelativeLayout_gravity * @attr ref android.R.styleable#RelativeLayout_ignoreGravity */ @RemoteView public class RelativeLayout extends ViewGroup { public static final int TRUE = -1; /** * Rule that aligns a child's right edge with another child's left edge. */ public static final int LEFT_OF = 0; /** * Rule that aligns a child's left edge with another child's right edge. */ public static final int RIGHT_OF = 1; /** * Rule that aligns a child's bottom edge with another child's top edge. */ public static final int ABOVE = 2; /** * Rule that aligns a child's top edge with another child's bottom edge. */ public static final int BELOW = 3; /** * Rule that aligns a child's baseline with another child's baseline. */ public static final int ALIGN_BASELINE = 4; /** * Rule that aligns a child's left edge with another child's left edge. */ public static final int ALIGN_LEFT = 5; /** * Rule that aligns a child's top edge with another child's top edge. */ public static final int ALIGN_TOP = 6; /** * Rule that aligns a child's right edge with another child's right edge. */ public static final int ALIGN_RIGHT = 7; /** * Rule that aligns a child's bottom edge with another child's bottom edge. */ public static final int ALIGN_BOTTOM = 8; /** * Rule that aligns the child's left edge with its RelativeLayout * parent's left edge. */ public static final int ALIGN_PARENT_LEFT = 9; /** * Rule that aligns the child's top edge with its RelativeLayout * parent's top edge. */ public static final int ALIGN_PARENT_TOP = 10; /** * Rule that aligns the child's right edge with its RelativeLayout * parent's right edge. */ public static final int ALIGN_PARENT_RIGHT = 11; /** * Rule that aligns the child's bottom edge with its RelativeLayout * parent's bottom edge. */ public static final int ALIGN_PARENT_BOTTOM = 12; /** * Rule that centers the child with respect to the bounds of its * RelativeLayout parent. */ public static final int CENTER_IN_PARENT = 13; /** * Rule that centers the child horizontally with respect to the * bounds of its RelativeLayout parent. */ public static final int CENTER_HORIZONTAL = 14; /** * Rule that centers the child vertically with respect to the * bounds of its RelativeLayout parent. */ public static final int CENTER_VERTICAL = 15; /** * Rule that aligns a child's end edge with another child's start edge. */ public static final int START_OF = 16; /** * Rule that aligns a child's start edge with another child's end edge. */ public static final int END_OF = 17; /** * Rule that aligns a child's start edge with another child's start edge. */ public static final int ALIGN_START = 18; /** * Rule that aligns a child's end edge with another child's end edge. */ public static final int ALIGN_END = 19; /** * Rule that aligns the child's start edge with its RelativeLayout * parent's start edge. */ public static final int ALIGN_PARENT_START = 20; /** * Rule that aligns the child's end edge with its RelativeLayout * parent's end edge. */ public static final int ALIGN_PARENT_END = 21; private static final int VERB_COUNT = 22; private static final int[] RULES_VERTICAL = { ABOVE, BELOW, ALIGN_BASELINE, ALIGN_TOP, ALIGN_BOTTOM }; private static final int[] RULES_HORIZONTAL = { LEFT_OF, RIGHT_OF, ALIGN_LEFT, ALIGN_RIGHT, START_OF, END_OF, ALIGN_START, ALIGN_END }; private View mBaselineView = null; private boolean mHasBaselineAlignedChild; private int mGravity = Gravity.START | Gravity.TOP; private final Rect mContentBounds = new Rect(); private final Rect mSelfBounds = new Rect(); private int mIgnoreGravity; private SortedSetGravity.START | Gravity.TOP
.
*
* @param viewId The id of the View to be ignored by gravity, or 0 if no View
* should be ignored.
*
* @see #setGravity(int)
*
* @attr ref android.R.styleable#RelativeLayout_ignoreGravity
*/
@android.view.RemotableViewMethod
public void setIgnoreGravity(int viewId) {
mIgnoreGravity = viewId;
}
/**
* Describes how the child views are positioned.
*
* @return the gravity.
*
* @see #setGravity(int)
* @see android.view.Gravity
*
* @attr ref android.R.styleable#RelativeLayout_gravity
*/
public int getGravity() {
return mGravity;
}
/**
* Describes how the child views are positioned. Defaults to
* Gravity.START | Gravity.TOP
.
*
* Note that since RelativeLayout considers the positioning of each child * relative to one another to be significant, setting gravity will affect * the positioning of all children as a single unit within the parent. * This happens after children have been relatively positioned.
* * @param gravity See {@link android.view.Gravity} * * @see #setHorizontalGravity(int) * @see #setVerticalGravity(int) * * @attr ref android.R.styleable#RelativeLayout_gravity */ @android.view.RemotableViewMethod public void setGravity(int gravity) { if (mGravity != gravity) { if ((gravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) == 0) { gravity |= Gravity.START; } if ((gravity & Gravity.VERTICAL_GRAVITY_MASK) == 0) { gravity |= Gravity.TOP; } mGravity = gravity; requestLayout(); } } @android.view.RemotableViewMethod public void setHorizontalGravity(int horizontalGravity) { final int gravity = horizontalGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK; if ((mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) != gravity) { mGravity = (mGravity & ~Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) | gravity; requestLayout(); } } @android.view.RemotableViewMethod public void setVerticalGravity(int verticalGravity) { final int gravity = verticalGravity & Gravity.VERTICAL_GRAVITY_MASK; if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != gravity) { mGravity = (mGravity & ~Gravity.VERTICAL_GRAVITY_MASK) | gravity; requestLayout(); } } @Override public int getBaseline() { return mBaselineView != null ? mBaselineView.getBaseline() : super.getBaseline(); } @Override public void requestLayout() { super.requestLayout(); mDirtyHierarchy = true; } private void sortChildren() { final int count = getChildCount(); if (mSortedVerticalChildren == null || mSortedVerticalChildren.length != count) { mSortedVerticalChildren = new View[count]; } if (mSortedHorizontalChildren == null || mSortedHorizontalChildren.length != count) { mSortedHorizontalChildren = new View[count]; } final DependencyGraph graph = mGraph; graph.clear(); for (int i = 0; i < count; i++) { graph.add(getChildAt(i)); } graph.getSortedViews(mSortedVerticalChildren, RULES_VERTICAL); graph.getSortedViews(mSortedHorizontalChildren, RULES_HORIZONTAL); } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { if (mDirtyHierarchy) { mDirtyHierarchy = false; sortChildren(); } int myWidth = -1; int myHeight = -1; int width = 0; int height = 0; final int widthMode = MeasureSpec.getMode(widthMeasureSpec); final int heightMode = MeasureSpec.getMode(heightMeasureSpec); final int widthSize = MeasureSpec.getSize(widthMeasureSpec); final int heightSize = MeasureSpec.getSize(heightMeasureSpec); // Record our dimensions if they are known; if (widthMode != MeasureSpec.UNSPECIFIED) { myWidth = widthSize; } if (heightMode != MeasureSpec.UNSPECIFIED) { myHeight = heightSize; } if (widthMode == MeasureSpec.EXACTLY) { width = myWidth; } if (heightMode == MeasureSpec.EXACTLY) { height = myHeight; } mHasBaselineAlignedChild = false; View ignore = null; int gravity = mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK; final boolean horizontalGravity = gravity != Gravity.START && gravity != 0; gravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; final boolean verticalGravity = gravity != Gravity.TOP && gravity != 0; int left = Integer.MAX_VALUE; int top = Integer.MAX_VALUE; int right = Integer.MIN_VALUE; int bottom = Integer.MIN_VALUE; boolean offsetHorizontalAxis = false; boolean offsetVerticalAxis = false; if ((horizontalGravity || verticalGravity) && mIgnoreGravity != View.NO_ID) { ignore = findViewById(mIgnoreGravity); } final boolean isWrapContentWidth = widthMode != MeasureSpec.EXACTLY; final boolean isWrapContentHeight = heightMode != MeasureSpec.EXACTLY; // We need to know our size for doing the correct computation of children positioning in RTL // mode but there is no practical way to get it instead of running the code below. // So, instead of running the code twice, we just set the width to a "default display width" // before the computation and then, as a last pass, we will update their real position with // an offset equals to "DEFAULT_WIDTH - width". final int layoutDirection = getLayoutDirection(); if (isLayoutRtl() && myWidth == -1) { myWidth = DEFAULT_WIDTH; } View[] views = mSortedHorizontalChildren; int count = views.length; for (int i = 0; i < count; i++) { View child = views[i]; if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); int[] rules = params.getRules(layoutDirection); applyHorizontalSizeRules(params, myWidth, rules); measureChildHorizontal(child, params, myWidth, myHeight); if (positionChildHorizontal(child, params, myWidth, isWrapContentWidth)) { offsetHorizontalAxis = true; } } } views = mSortedVerticalChildren; count = views.length; final int targetSdkVersion = getContext().getApplicationInfo().targetSdkVersion; for (int i = 0; i < count; i++) { View child = views[i]; if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); applyVerticalSizeRules(params, myHeight); measureChild(child, params, myWidth, myHeight); if (positionChildVertical(child, params, myHeight, isWrapContentHeight)) { offsetVerticalAxis = true; } if (isWrapContentWidth) { if (isLayoutRtl()) { if (targetSdkVersion < Build.VERSION_CODES.KITKAT) { width = Math.max(width, myWidth - params.mLeft); } else { width = Math.max(width, myWidth - params.mLeft - params.leftMargin); } } else { if (targetSdkVersion < Build.VERSION_CODES.KITKAT) { width = Math.max(width, params.mRight); } else { width = Math.max(width, params.mRight + params.rightMargin); } } } if (isWrapContentHeight) { if (targetSdkVersion < Build.VERSION_CODES.KITKAT) { height = Math.max(height, params.mBottom); } else { height = Math.max(height, params.mBottom + params.bottomMargin); } } if (child != ignore || verticalGravity) { left = Math.min(left, params.mLeft - params.leftMargin); top = Math.min(top, params.mTop - params.topMargin); } if (child != ignore || horizontalGravity) { right = Math.max(right, params.mRight + params.rightMargin); bottom = Math.max(bottom, params.mBottom + params.bottomMargin); } } } if (mHasBaselineAlignedChild) { for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); alignBaseline(child, params); if (child != ignore || verticalGravity) { left = Math.min(left, params.mLeft - params.leftMargin); top = Math.min(top, params.mTop - params.topMargin); } if (child != ignore || horizontalGravity) { right = Math.max(right, params.mRight + params.rightMargin); bottom = Math.max(bottom, params.mBottom + params.bottomMargin); } } } } if (isWrapContentWidth) { // Width already has left padding in it since it was calculated by looking at // the right of each child view width += mPaddingRight; if (mLayoutParams != null && mLayoutParams.width >= 0) { width = Math.max(width, mLayoutParams.width); } width = Math.max(width, getSuggestedMinimumWidth()); width = resolveSize(width, widthMeasureSpec); if (offsetHorizontalAxis) { for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); final int[] rules = params.getRules(layoutDirection); if (rules[CENTER_IN_PARENT] != 0 || rules[CENTER_HORIZONTAL] != 0) { centerHorizontal(child, params, width); } else if (rules[ALIGN_PARENT_RIGHT] != 0) { final int childWidth = child.getMeasuredWidth(); params.mLeft = width - mPaddingRight - childWidth; params.mRight = params.mLeft + childWidth; } } } } } if (isWrapContentHeight) { // Height already has top padding in it since it was calculated by looking at // the bottom of each child view height += mPaddingBottom; if (mLayoutParams != null && mLayoutParams.height >= 0) { height = Math.max(height, mLayoutParams.height); } height = Math.max(height, getSuggestedMinimumHeight()); height = resolveSize(height, heightMeasureSpec); if (offsetVerticalAxis) { for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); final int[] rules = params.getRules(layoutDirection); if (rules[CENTER_IN_PARENT] != 0 || rules[CENTER_VERTICAL] != 0) { centerVertical(child, params, height); } else if (rules[ALIGN_PARENT_BOTTOM] != 0) { final int childHeight = child.getMeasuredHeight(); params.mTop = height - mPaddingBottom - childHeight; params.mBottom = params.mTop + childHeight; } } } } } if (horizontalGravity || verticalGravity) { final Rect selfBounds = mSelfBounds; selfBounds.set(mPaddingLeft, mPaddingTop, width - mPaddingRight, height - mPaddingBottom); final Rect contentBounds = mContentBounds; Gravity.apply(mGravity, right - left, bottom - top, selfBounds, contentBounds, layoutDirection); final int horizontalOffset = contentBounds.left - left; final int verticalOffset = contentBounds.top - top; if (horizontalOffset != 0 || verticalOffset != 0) { for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE && child != ignore) { LayoutParams params = (LayoutParams) child.getLayoutParams(); if (horizontalGravity) { params.mLeft += horizontalOffset; params.mRight += horizontalOffset; } if (verticalGravity) { params.mTop += verticalOffset; params.mBottom += verticalOffset; } } } } } if (isLayoutRtl()) { final int offsetWidth = myWidth - width; for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE) { LayoutParams params = (LayoutParams) child.getLayoutParams(); params.mLeft -= offsetWidth; params.mRight -= offsetWidth; } } } setMeasuredDimension(width, height); } private void alignBaseline(View child, LayoutParams params) { final int layoutDirection = getLayoutDirection(); int[] rules = params.getRules(layoutDirection); int anchorBaseline = getRelatedViewBaseline(rules, ALIGN_BASELINE); if (anchorBaseline != -1) { LayoutParams anchorParams = getRelatedViewParams(rules, ALIGN_BASELINE); if (anchorParams != null) { int offset = anchorParams.mTop + anchorBaseline; int baseline = child.getBaseline(); if (baseline != -1) { offset -= baseline; } int height = params.mBottom - params.mTop; params.mTop = offset; params.mBottom = params.mTop + height; } } if (mBaselineView == null) { mBaselineView = child; } else { LayoutParams lp = (LayoutParams) mBaselineView.getLayoutParams(); if (params.mTop < lp.mTop || (params.mTop == lp.mTop && params.mLeft < lp.mLeft)) { mBaselineView = child; } } } /** * Measure a child. The child should have left, top, right and bottom information * stored in its LayoutParams. If any of these values is -1 it means that the view * can extend up to the corresponding edge. * * @param child Child to measure * @param params LayoutParams associated with child * @param myWidth Width of the the RelativeLayout * @param myHeight Height of the RelativeLayout */ private void measureChild(View child, LayoutParams params, int myWidth, int myHeight) { int childWidthMeasureSpec = getChildMeasureSpec(params.mLeft, params.mRight, params.width, params.leftMargin, params.rightMargin, mPaddingLeft, mPaddingRight, myWidth); int childHeightMeasureSpec = getChildMeasureSpec(params.mTop, params.mBottom, params.height, params.topMargin, params.bottomMargin, mPaddingTop, mPaddingBottom, myHeight); child.measure(childWidthMeasureSpec, childHeightMeasureSpec); } private void measureChildHorizontal(View child, LayoutParams params, int myWidth, int myHeight) { int childWidthMeasureSpec = getChildMeasureSpec(params.mLeft, params.mRight, params.width, params.leftMargin, params.rightMargin, mPaddingLeft, mPaddingRight, myWidth); int maxHeight = myHeight; if (mMeasureVerticalWithPaddingMargin) { maxHeight = Math.max(0, myHeight - mPaddingTop - mPaddingBottom - params.topMargin - params.bottomMargin); } int childHeightMeasureSpec; if (myHeight < 0 && !mAllowBrokenMeasureSpecs) { if (params.height >= 0) { childHeightMeasureSpec = MeasureSpec.makeMeasureSpec( params.height, MeasureSpec.EXACTLY); } else { // Negative values in a mySize/myWidth/myWidth value in RelativeLayout measurement // is code for, "we got an unspecified mode in the RelativeLayout's measurespec." // Carry it forward. childHeightMeasureSpec = MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED); } } else if (params.width == LayoutParams.MATCH_PARENT) { childHeightMeasureSpec = MeasureSpec.makeMeasureSpec(maxHeight, MeasureSpec.EXACTLY); } else { childHeightMeasureSpec = MeasureSpec.makeMeasureSpec(maxHeight, MeasureSpec.AT_MOST); } child.measure(childWidthMeasureSpec, childHeightMeasureSpec); } /** * Get a measure spec that accounts for all of the constraints on this view. * This includes size constraints imposed by the RelativeLayout as well as * the View's desired dimension. * * @param childStart The left or top field of the child's layout params * @param childEnd The right or bottom field of the child's layout params * @param childSize The child's desired size (the width or height field of * the child's layout params) * @param startMargin The left or top margin * @param endMargin The right or bottom margin * @param startPadding mPaddingLeft or mPaddingTop * @param endPadding mPaddingRight or mPaddingBottom * @param mySize The width or height of this view (the RelativeLayout) * @return MeasureSpec for the child */ private int getChildMeasureSpec(int childStart, int childEnd, int childSize, int startMargin, int endMargin, int startPadding, int endPadding, int mySize) { if (mySize < 0 && !mAllowBrokenMeasureSpecs) { if (childSize >= 0) { return MeasureSpec.makeMeasureSpec(childSize, MeasureSpec.EXACTLY); } // Negative values in a mySize/myWidth/myWidth value in RelativeLayout measurement // is code for, "we got an unspecified mode in the RelativeLayout's measurespec." // Carry it forward. return MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED); } int childSpecMode = 0; int childSpecSize = 0; // Figure out start and end bounds. int tempStart = childStart; int tempEnd = childEnd; // If the view did not express a layout constraint for an edge, use // view's margins and our padding if (tempStart < 0) { tempStart = startPadding + startMargin; } if (tempEnd < 0) { tempEnd = mySize - endPadding - endMargin; } // Figure out maximum size available to this view int maxAvailable = tempEnd - tempStart; if (childStart >= 0 && childEnd >= 0) { // Constraints fixed both edges, so child must be an exact size childSpecMode = MeasureSpec.EXACTLY; childSpecSize = maxAvailable; } else { if (childSize >= 0) { // Child wanted an exact size. Give as much as possible childSpecMode = MeasureSpec.EXACTLY; if (maxAvailable >= 0) { // We have a maxmum size in this dimension. childSpecSize = Math.min(maxAvailable, childSize); } else { // We can grow in this dimension. childSpecSize = childSize; } } else if (childSize == LayoutParams.MATCH_PARENT) { // Child wanted to be as big as possible. Give all available // space childSpecMode = MeasureSpec.EXACTLY; childSpecSize = maxAvailable; } else if (childSize == LayoutParams.WRAP_CONTENT) { // Child wants to wrap content. Use AT_MOST // to communicate available space if we know // our max size if (maxAvailable >= 0) { // We have a maximum size in this dimension. childSpecMode = MeasureSpec.AT_MOST; childSpecSize = maxAvailable; } else { // We can grow in this dimension. Child can be as big as it // wants childSpecMode = MeasureSpec.UNSPECIFIED; childSpecSize = 0; } } } return MeasureSpec.makeMeasureSpec(childSpecSize, childSpecMode); } private boolean positionChildHorizontal(View child, LayoutParams params, int myWidth, boolean wrapContent) { final int layoutDirection = getLayoutDirection(); int[] rules = params.getRules(layoutDirection); if (params.mLeft < 0 && params.mRight >= 0) { // Right is fixed, but left varies params.mLeft = params.mRight - child.getMeasuredWidth(); } else if (params.mLeft >= 0 && params.mRight < 0) { // Left is fixed, but right varies params.mRight = params.mLeft + child.getMeasuredWidth(); } else if (params.mLeft < 0 && params.mRight < 0) { // Both left and right vary if (rules[CENTER_IN_PARENT] != 0 || rules[CENTER_HORIZONTAL] != 0) { if (!wrapContent) { centerHorizontal(child, params, myWidth); } else { params.mLeft = mPaddingLeft + params.leftMargin; params.mRight = params.mLeft + child.getMeasuredWidth(); } return true; } else { // This is the default case. For RTL we start from the right and for LTR we start // from the left. This will give LEFT/TOP for LTR and RIGHT/TOP for RTL. if (isLayoutRtl()) { params.mRight = myWidth - mPaddingRight- params.rightMargin; params.mLeft = params.mRight - child.getMeasuredWidth(); } else { params.mLeft = mPaddingLeft + params.leftMargin; params.mRight = params.mLeft + child.getMeasuredWidth(); } } } return rules[ALIGN_PARENT_END] != 0; } private boolean positionChildVertical(View child, LayoutParams params, int myHeight, boolean wrapContent) { int[] rules = params.getRules(); if (params.mTop < 0 && params.mBottom >= 0) { // Bottom is fixed, but top varies params.mTop = params.mBottom - child.getMeasuredHeight(); } else if (params.mTop >= 0 && params.mBottom < 0) { // Top is fixed, but bottom varies params.mBottom = params.mTop + child.getMeasuredHeight(); } else if (params.mTop < 0 && params.mBottom < 0) { // Both top and bottom vary if (rules[CENTER_IN_PARENT] != 0 || rules[CENTER_VERTICAL] != 0) { if (!wrapContent) { centerVertical(child, params, myHeight); } else { params.mTop = mPaddingTop + params.topMargin; params.mBottom = params.mTop + child.getMeasuredHeight(); } return true; } else { params.mTop = mPaddingTop + params.topMargin; params.mBottom = params.mTop + child.getMeasuredHeight(); } } return rules[ALIGN_PARENT_BOTTOM] != 0; } private void applyHorizontalSizeRules(LayoutParams childParams, int myWidth, int[] rules) { RelativeLayout.LayoutParams anchorParams; // -1 indicated a "soft requirement" in that direction. For example: // left=10, right=-1 means the view must start at 10, but can go as far as it wants to the right // left =-1, right=10 means the view must end at 10, but can go as far as it wants to the left // left=10, right=20 means the left and right ends are both fixed childParams.mLeft = -1; childParams.mRight = -1; anchorParams = getRelatedViewParams(rules, LEFT_OF); if (anchorParams != null) { childParams.mRight = anchorParams.mLeft - (anchorParams.leftMargin + childParams.rightMargin); } else if (childParams.alignWithParent && rules[LEFT_OF] != 0) { if (myWidth >= 0) { childParams.mRight = myWidth - mPaddingRight - childParams.rightMargin; } } anchorParams = getRelatedViewParams(rules, RIGHT_OF); if (anchorParams != null) { childParams.mLeft = anchorParams.mRight + (anchorParams.rightMargin + childParams.leftMargin); } else if (childParams.alignWithParent && rules[RIGHT_OF] != 0) { childParams.mLeft = mPaddingLeft + childParams.leftMargin; } anchorParams = getRelatedViewParams(rules, ALIGN_LEFT); if (anchorParams != null) { childParams.mLeft = anchorParams.mLeft + childParams.leftMargin; } else if (childParams.alignWithParent && rules[ALIGN_LEFT] != 0) { childParams.mLeft = mPaddingLeft + childParams.leftMargin; } anchorParams = getRelatedViewParams(rules, ALIGN_RIGHT); if (anchorParams != null) { childParams.mRight = anchorParams.mRight - childParams.rightMargin; } else if (childParams.alignWithParent && rules[ALIGN_RIGHT] != 0) { if (myWidth >= 0) { childParams.mRight = myWidth - mPaddingRight - childParams.rightMargin; } } if (0 != rules[ALIGN_PARENT_LEFT]) { childParams.mLeft = mPaddingLeft + childParams.leftMargin; } if (0 != rules[ALIGN_PARENT_RIGHT]) { if (myWidth >= 0) { childParams.mRight = myWidth - mPaddingRight - childParams.rightMargin; } } } private void applyVerticalSizeRules(LayoutParams childParams, int myHeight) { int[] rules = childParams.getRules(); RelativeLayout.LayoutParams anchorParams; childParams.mTop = -1; childParams.mBottom = -1; anchorParams = getRelatedViewParams(rules, ABOVE); if (anchorParams != null) { childParams.mBottom = anchorParams.mTop - (anchorParams.topMargin + childParams.bottomMargin); } else if (childParams.alignWithParent && rules[ABOVE] != 0) { if (myHeight >= 0) { childParams.mBottom = myHeight - mPaddingBottom - childParams.bottomMargin; } } anchorParams = getRelatedViewParams(rules, BELOW); if (anchorParams != null) { childParams.mTop = anchorParams.mBottom + (anchorParams.bottomMargin + childParams.topMargin); } else if (childParams.alignWithParent && rules[BELOW] != 0) { childParams.mTop = mPaddingTop + childParams.topMargin; } anchorParams = getRelatedViewParams(rules, ALIGN_TOP); if (anchorParams != null) { childParams.mTop = anchorParams.mTop + childParams.topMargin; } else if (childParams.alignWithParent && rules[ALIGN_TOP] != 0) { childParams.mTop = mPaddingTop + childParams.topMargin; } anchorParams = getRelatedViewParams(rules, ALIGN_BOTTOM); if (anchorParams != null) { childParams.mBottom = anchorParams.mBottom - childParams.bottomMargin; } else if (childParams.alignWithParent && rules[ALIGN_BOTTOM] != 0) { if (myHeight >= 0) { childParams.mBottom = myHeight - mPaddingBottom - childParams.bottomMargin; } } if (0 != rules[ALIGN_PARENT_TOP]) { childParams.mTop = mPaddingTop + childParams.topMargin; } if (0 != rules[ALIGN_PARENT_BOTTOM]) { if (myHeight >= 0) { childParams.mBottom = myHeight - mPaddingBottom - childParams.bottomMargin; } } if (rules[ALIGN_BASELINE] != 0) { mHasBaselineAlignedChild = true; } } private View getRelatedView(int[] rules, int relation) { int id = rules[relation]; if (id != 0) { DependencyGraph.Node node = mGraph.mKeyNodes.get(id); if (node == null) return null; View v = node.view; // Find the first non-GONE view up the chain while (v.getVisibility() == View.GONE) { rules = ((LayoutParams) v.getLayoutParams()).getRules(v.getLayoutDirection()); node = mGraph.mKeyNodes.get((rules[relation])); if (node == null) return null; v = node.view; } return v; } return null; } private LayoutParams getRelatedViewParams(int[] rules, int relation) { View v = getRelatedView(rules, relation); if (v != null) { ViewGroup.LayoutParams params = v.getLayoutParams(); if (params instanceof LayoutParams) { return (LayoutParams) v.getLayoutParams(); } } return null; } private int getRelatedViewBaseline(int[] rules, int relation) { View v = getRelatedView(rules, relation); if (v != null) { return v.getBaseline(); } return -1; } private static void centerHorizontal(View child, LayoutParams params, int myWidth) { int childWidth = child.getMeasuredWidth(); int left = (myWidth - childWidth) / 2; params.mLeft = left; params.mRight = left + childWidth; } private static void centerVertical(View child, LayoutParams params, int myHeight) { int childHeight = child.getMeasuredHeight(); int top = (myHeight - childHeight) / 2; params.mTop = top; params.mBottom = top + childHeight; } @Override protected void onLayout(boolean changed, int l, int t, int r, int b) { // The layout has actually already been performed and the positions // cached. Apply the cached values to the children. final int count = getChildCount(); for (int i = 0; i < count; i++) { View child = getChildAt(i); if (child.getVisibility() != GONE) { RelativeLayout.LayoutParams st = (RelativeLayout.LayoutParams) child.getLayoutParams(); child.layout(st.mLeft, st.mTop, st.mRight, st.mBottom); } } } @Override public LayoutParams generateLayoutParams(AttributeSet attrs) { return new RelativeLayout.LayoutParams(getContext(), attrs); } /** * Returns a set of layout parameters with a width of * {@link android.view.ViewGroup.LayoutParams#WRAP_CONTENT}, * a height of {@link android.view.ViewGroup.LayoutParams#WRAP_CONTENT} and no spanning. */ @Override protected ViewGroup.LayoutParams generateDefaultLayoutParams() { return new LayoutParams(LayoutParams.WRAP_CONTENT, LayoutParams.WRAP_CONTENT); } // Override to allow type-checking of LayoutParams. @Override protected boolean checkLayoutParams(ViewGroup.LayoutParams p) { return p instanceof RelativeLayout.LayoutParams; } @Override protected ViewGroup.LayoutParams generateLayoutParams(ViewGroup.LayoutParams p) { return new LayoutParams(p); } @Override public boolean dispatchPopulateAccessibilityEvent(AccessibilityEvent event) { if (mTopToBottomLeftToRightSet == null) { mTopToBottomLeftToRightSet = new TreeSet