Gitiles
Code Review Sign In
LeafOS / LeafOS-Project / android_packages_apps_Settings / ca5ff1a5e02004d8d1e21ee865eb92583783ce98 / . / src / com / android / settings / widget / MatchParentShrinkingLinearLayout.java
blob: 3fee01ffdbefe4da50c13ec81a4599733cd99a5e [file] [log] [blame]
/*
* 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.settings.widget;
import android.annotation.IntDef;
import android.content.Context;
import android.content.res.TypedArray;
import android.graphics.Canvas;
import android.graphics.drawable.Drawable;
import android.util.AttributeSet;
import android.view.Gravity;
import android.view.View;
import android.view.ViewDebug;
import android.view.ViewGroup;
import android.view.ViewHierarchyEncoder;
import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import com.android.internal.R;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
/**
* A LinearLayout with a twist: if the contents don't fit, it takes space away from the
* MATCH_PARENT children, instead of taking it from the weighted ones.
*
* TODO: Remove once we redesign the ChooseLockPattern screen with a rational layout.
*/
public class MatchParentShrinkingLinearLayout extends ViewGroup {
/** @hide */
@IntDef({HORIZONTAL, VERTICAL})
@Retention(RetentionPolicy.SOURCE)
public @interface OrientationMode {}
public static final int HORIZONTAL = 0;
public static final int VERTICAL = 1;
/** @hide */
@IntDef(flag = true,
value = {
SHOW_DIVIDER_NONE,
SHOW_DIVIDER_BEGINNING,
SHOW_DIVIDER_MIDDLE,
SHOW_DIVIDER_END
})
@Retention(RetentionPolicy.SOURCE)
public @interface DividerMode {}
/**
* Don't show any dividers.
*/
public static final int SHOW_DIVIDER_NONE = 0;
/**
* Show a divider at the beginning of the group.
*/
public static final int SHOW_DIVIDER_BEGINNING = 1;
/**
* Show dividers between each item in the group.
*/
public static final int SHOW_DIVIDER_MIDDLE = 2;
/**
* Show a divider at the end of the group.
*/
public static final int SHOW_DIVIDER_END = 4;
/**
* Whether the children of this layout are baseline aligned. Only applicable
* if {@link #mOrientation} is horizontal.
*/
@ViewDebug.ExportedProperty(category = "layout")
private boolean mBaselineAligned = true;
/**
* If this layout is part of another layout that is baseline aligned,
* use the child at this index as the baseline.
*
* Note: this is orthogonal to {@link #mBaselineAligned}, which is concerned
* with whether the children of this layout are baseline aligned.
*/
@ViewDebug.ExportedProperty(category = "layout")
private int mBaselineAlignedChildIndex = -1;
/**
* The additional offset to the child's baseline.
* We'll calculate the baseline of this layout as we measure vertically; for
* horizontal linear layouts, the offset of 0 is appropriate.
*/
@ViewDebug.ExportedProperty(category = "measurement")
private int mBaselineChildTop = 0;
@ViewDebug.ExportedProperty(category = "measurement")
private int mOrientation;
@ViewDebug.ExportedProperty(category = "measurement", flagMapping = {
@ViewDebug.FlagToString(mask = -1,
equals = -1, name = "NONE"),
@ViewDebug.FlagToString(mask = Gravity.NO_GRAVITY,
equals = Gravity.NO_GRAVITY,name = "NONE"),
@ViewDebug.FlagToString(mask = Gravity.TOP,
equals = Gravity.TOP, name = "TOP"),
@ViewDebug.FlagToString(mask = Gravity.BOTTOM,
equals = Gravity.BOTTOM, name = "BOTTOM"),
@ViewDebug.FlagToString(mask = Gravity.LEFT,
equals = Gravity.LEFT, name = "LEFT"),
@ViewDebug.FlagToString(mask = Gravity.RIGHT,
equals = Gravity.RIGHT, name = "RIGHT"),
@ViewDebug.FlagToString(mask = Gravity.START,
equals = Gravity.START, name = "START"),
@ViewDebug.FlagToString(mask = Gravity.END,
equals = Gravity.END, name = "END"),
@ViewDebug.FlagToString(mask = Gravity.CENTER_VERTICAL,
equals = Gravity.CENTER_VERTICAL, name = "CENTER_VERTICAL"),
@ViewDebug.FlagToString(mask = Gravity.FILL_VERTICAL,
equals = Gravity.FILL_VERTICAL, name = "FILL_VERTICAL"),
@ViewDebug.FlagToString(mask = Gravity.CENTER_HORIZONTAL,
equals = Gravity.CENTER_HORIZONTAL, name = "CENTER_HORIZONTAL"),
@ViewDebug.FlagToString(mask = Gravity.FILL_HORIZONTAL,
equals = Gravity.FILL_HORIZONTAL, name = "FILL_HORIZONTAL"),
@ViewDebug.FlagToString(mask = Gravity.CENTER,
equals = Gravity.CENTER, name = "CENTER"),
@ViewDebug.FlagToString(mask = Gravity.FILL,
equals = Gravity.FILL, name = "FILL"),
@ViewDebug.FlagToString(mask = Gravity.RELATIVE_LAYOUT_DIRECTION,
equals = Gravity.RELATIVE_LAYOUT_DIRECTION, name = "RELATIVE")
}, formatToHexString = true)
private int mGravity = Gravity.START | Gravity.TOP;
@ViewDebug.ExportedProperty(category = "measurement")
private int mTotalLength;
@ViewDebug.ExportedProperty(category = "layout")
private float mWeightSum;
@ViewDebug.ExportedProperty(category = "layout")
private boolean mUseLargestChild;
private int[] mMaxAscent;
private int[] mMaxDescent;
private static final int VERTICAL_GRAVITY_COUNT = 4;
private static final int INDEX_CENTER_VERTICAL = 0;
private static final int INDEX_TOP = 1;
private static final int INDEX_BOTTOM = 2;
private static final int INDEX_FILL = 3;
private Drawable mDivider;
private int mDividerWidth;
private int mDividerHeight;
private int mShowDividers;
private int mDividerPadding;
private int mLayoutDirection = View.LAYOUT_DIRECTION_UNDEFINED;
public MatchParentShrinkingLinearLayout(Context context) {
this(context, null);
}
public MatchParentShrinkingLinearLayout(Context context, @Nullable AttributeSet attrs) {
this(context, attrs, 0);
}
public MatchParentShrinkingLinearLayout(Context context, @Nullable AttributeSet attrs,
int defStyleAttr) {
this(context, attrs, defStyleAttr, 0);
}
public MatchParentShrinkingLinearLayout(Context context, AttributeSet attrs, int defStyleAttr,
int defStyleRes) {
super(context, attrs, defStyleAttr, defStyleRes);
final TypedArray a = context.obtainStyledAttributes(
attrs, com.android.internal.R.styleable.LinearLayout, defStyleAttr, defStyleRes);
int index = a.getInt(com.android.internal.R.styleable.LinearLayout_orientation, -1);
if (index >= 0) {
setOrientation(index);
}
index = a.getInt(com.android.internal.R.styleable.LinearLayout_gravity, -1);
if (index >= 0) {
setGravity(index);
}
boolean baselineAligned = a.getBoolean(R.styleable.LinearLayout_baselineAligned, true);
if (!baselineAligned) {
setBaselineAligned(baselineAligned);
}
mWeightSum = a.getFloat(R.styleable.LinearLayout_weightSum, -1.0f);
mBaselineAlignedChildIndex = a.getInt(
com.android.internal.R.styleable.LinearLayout_baselineAlignedChildIndex, -1);
mUseLargestChild = a.getBoolean(R.styleable.LinearLayout_measureWithLargestChild, false);
setDividerDrawable(a.getDrawable(R.styleable.LinearLayout_divider));
mShowDividers = a.getInt(R.styleable.LinearLayout_showDividers, SHOW_DIVIDER_NONE);
mDividerPadding = a.getDimensionPixelSize(R.styleable.LinearLayout_dividerPadding, 0);
a.recycle();
}
/**
* Set how dividers should be shown between items in this layout
*
* @param showDividers One or more of {@link #SHOW_DIVIDER_BEGINNING},
* {@link #SHOW_DIVIDER_MIDDLE}, or {@link #SHOW_DIVIDER_END},
* or {@link #SHOW_DIVIDER_NONE} to show no dividers.
*/
public void setShowDividers(@DividerMode int showDividers) {
if (showDividers != mShowDividers) {
requestLayout();
}
mShowDividers = showDividers;
}
@Override
public boolean shouldDelayChildPressedState() {
return false;
}
/**
* @return A flag set indicating how dividers should be shown around items.
* @see #setShowDividers(int)
*/
@DividerMode
public int getShowDividers() {
return mShowDividers;
}
/**
* @return the divider Drawable that will divide each item.
*
* @see #setDividerDrawable(android.graphics.drawable.Drawable)
*
* @attr ref android.R.styleable#LinearLayout_divider
*/
public Drawable getDividerDrawable() {
return mDivider;
}
/**
* Set a drawable to be used as a divider between items.
*
* @param divider Drawable that will divide each item.
*
* @see #setShowDividers(int)
*
* @attr ref android.R.styleable#LinearLayout_divider
*/
public void setDividerDrawable(Drawable divider) {
if (divider == mDivider) {
return;
}
mDivider = divider;
if (divider != null) {
mDividerWidth = divider.getIntrinsicWidth();
mDividerHeight = divider.getIntrinsicHeight();
} else {
mDividerWidth = 0;
mDividerHeight = 0;
}
setWillNotDraw(divider == null);
requestLayout();
}
/**
* Set padding displayed on both ends of dividers.
*
* @param padding Padding value in pixels that will be applied to each end
*
* @see #setShowDividers(int)
* @see #setDividerDrawable(android.graphics.drawable.Drawable)
* @see #getDividerPadding()
*/
public void setDividerPadding(int padding) {
mDividerPadding = padding;
}
/**
* Get the padding size used to inset dividers in pixels
*
* @see #setShowDividers(int)
* @see #setDividerDrawable(android.graphics.drawable.Drawable)
* @see #setDividerPadding(int)
*/
public int getDividerPadding() {
return mDividerPadding;
}
/**
* Get the width of the current divider drawable.
*
* @hide Used internally by framework.
*/
public int getDividerWidth() {
return mDividerWidth;
}
@Override
protected void onDraw(Canvas canvas) {
if (mDivider == null) {
return;
}
if (mOrientation == VERTICAL) {
drawDividersVertical(canvas);
} else {
drawDividersHorizontal(canvas);
}
}
void drawDividersVertical(Canvas canvas) {
final int count = getVirtualChildCount();
for (int i = 0; i < count; i++) {
final View child = getVirtualChildAt(i);
if (child != null && child.getVisibility() != GONE) {
if (hasDividerBeforeChildAt(i)) {
final LayoutParams lp = (LayoutParams) child.getLayoutParams();
final int top = child.getTop() - lp.topMargin - mDividerHeight;
drawHorizontalDivider(canvas, top);
}
}
}
if (hasDividerBeforeChildAt(count)) {
final View child = getVirtualChildAt(count - 1);
int bottom = 0;
if (child == null) {
bottom = getHeight() - getPaddingBottom() - mDividerHeight;
} else {
final LayoutParams lp = (LayoutParams) child.getLayoutParams();
bottom = child.getBottom() + lp.bottomMargin;
}
drawHorizontalDivider(canvas, bottom);
}
}
void drawDividersHorizontal(Canvas canvas) {
final int count = getVirtualChildCount();
final boolean isLayoutRtl = isLayoutRtl();
for (int i = 0; i < count; i++) {
final View child = getVirtualChildAt(i);
if (child != null && child.getVisibility() != GONE) {
if (hasDividerBeforeChildAt(i)) {
final LayoutParams lp = (LayoutParams) child.getLayoutParams();
final int position;
if (isLayoutRtl) {
position = child.getRight() + lp.rightMargin;
} else {
position = child.getLeft() - lp.leftMargin - mDividerWidth;
}
drawVerticalDivider(canvas, position);
}
}
}
if (hasDividerBeforeChildAt(count)) {
final View child = getVirtualChildAt(count - 1);
int position;
if (child == null) {
if (isLayoutRtl) {
position = getPaddingLeft();
} else {
position = getWidth() - getPaddingRight() - mDividerWidth;
}
} else {
final LayoutParams lp = (LayoutParams) child.getLayoutParams();
if (isLayoutRtl) {
position = child.getLeft() - lp.leftMargin - mDividerWidth;
} else {
position = child.getRight() + lp.rightMargin;
}
}
drawVerticalDivider(canvas, position);
}
}
void drawHorizontalDivider(Canvas canvas, int top) {
mDivider.setBounds(getPaddingLeft() + mDividerPadding, top,
getWidth() - getPaddingRight() - mDividerPadding, top + mDividerHeight);
mDivider.draw(canvas);
}
void drawVerticalDivider(Canvas canvas, int left) {
mDivider.setBounds(left, getPaddingTop() + mDividerPadding,
left + mDividerWidth, getHeight() - getPaddingBottom() - mDividerPadding);
mDivider.draw(canvas);
}
/**
* <p>Indicates whether widgets contained within this layout are aligned
* on their baseline or not.</p>
*
* @return true when widgets are baseline-aligned, false otherwise
*/
public boolean isBaselineAligned() {
return mBaselineAligned;
}
/**
* <p>Defines whether widgets contained in this layout are
* baseline-aligned or not.</p>
*
* @param baselineAligned true to align widgets on their baseline,
* false otherwise
*
* @attr ref android.R.styleable#LinearLayout_baselineAligned
*/
@android.view.RemotableViewMethod
public void setBaselineAligned(boolean baselineAligned) {
mBaselineAligned = baselineAligned;
}
/**
* When true, all children with a weight will be considered having
* the minimum size of the largest child. If false, all children are
* measured normally.
*
* @return True to measure children with a weight using the minimum
* size of the largest child, false otherwise.
*
* @attr ref android.R.styleable#LinearLayout_measureWithLargestChild
*/
public boolean isMeasureWithLargestChildEnabled() {
return mUseLargestChild;
}
/**
* When set to true, all children with a weight will be considered having
* the minimum size of the largest child. If false, all children are
* measured normally.
*
* Disabled by default.
*
* @param enabled True to measure children with a weight using the
* minimum size of the largest child, false otherwise.
*
* @attr ref android.R.styleable#LinearLayout_measureWithLargestChild
*/
@android.view.RemotableViewMethod
public void setMeasureWithLargestChildEnabled(boolean enabled) {
mUseLargestChild = enabled;
}
@Override
public int getBaseline() {
if (mBaselineAlignedChildIndex < 0) {
return super.getBaseline();
}
if (getChildCount() <= mBaselineAlignedChildIndex) {
throw new RuntimeException("mBaselineAlignedChildIndex of LinearLayout "
+ "set to an index that is out of bounds.");
}
final View child = getChildAt(mBaselineAlignedChildIndex);
final int childBaseline = child.getBaseline();
if (childBaseline == -1) {
if (mBaselineAlignedChildIndex == 0) {
// this is just the default case, safe to return -1
return -1;
}
// the user picked an index that points to something that doesn't
// know how to calculate its baseline.
throw new RuntimeException("mBaselineAlignedChildIndex of LinearLayout "
+ "points to a View that doesn't know how to get its baseline.");
}
// TODO: This should try to take into account the virtual offsets
// (See getNextLocationOffset and getLocationOffset)
// We should add to childTop:
// sum([getNextLocationOffset(getChildAt(i)) / i < mBaselineAlignedChildIndex])
// and also add:
// getLocationOffset(child)
int childTop = mBaselineChildTop;
if (mOrientation == VERTICAL) {
final int majorGravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK;
if (majorGravity != Gravity.TOP) {
switch (majorGravity) {
case Gravity.BOTTOM:
childTop = mBottom - mTop - mPaddingBottom - mTotalLength;
break;
case Gravity.CENTER_VERTICAL:
childTop += ((mBottom - mTop - mPaddingTop - mPaddingBottom) -
mTotalLength) / 2;
break;
}
}
}
LayoutParams lp = (LayoutParams) child.getLayoutParams();
return childTop + lp.topMargin + childBaseline;
}
/**
* @return The index of the child that will be used if this layout is
* part of a larger layout that is baseline aligned, or -1 if none has
* been set.
*/
public int getBaselineAlignedChildIndex() {
return mBaselineAlignedChildIndex;
}
/**
* @param i The index of the child that will be used if this layout is
* part of a larger layout that is baseline aligned.
*
* @attr ref android.R.styleable#LinearLayout_baselineAlignedChildIndex
*/
@android.view.RemotableViewMethod
public void setBaselineAlignedChildIndex(int i) {
if ((i < 0) || (i >= getChildCount())) {
throw new IllegalArgumentException("base aligned child index out "
+ "of range (0, " + getChildCount() + ")");
}
mBaselineAlignedChildIndex = i;
}
/**
* <p>Returns the view at the specified index. This method can be overriden
* to take into account virtual children. Refer to
* {@link android.widget.TableLayout} and {@link android.widget.TableRow}
* for an example.</p>
*
* @param index the child's index
* @return the child at the specified index
*/
View getVirtualChildAt(int index) {
return getChildAt(index);
}
/**
* <p>Returns the virtual number of children. This number might be different
* than the actual number of children if the layout can hold virtual
* children. Refer to
* {@link android.widget.TableLayout} and {@link android.widget.TableRow}
* for an example.</p>
*
* @return the virtual number of children
*/
int getVirtualChildCount() {
return getChildCount();
}
/**
* Returns the desired weights sum.
*
* @return A number greater than 0.0f if the weight sum is defined, or
* a number lower than or equals to 0.0f if not weight sum is
* to be used.
*/
public float getWeightSum() {
return mWeightSum;
}
/**
* Defines the desired weights sum. If unspecified the weights sum is computed
* at layout time by adding the layout_weight of each child.
*
* This can be used for instance to give a single child 50% of the total
* available space by giving it a layout_weight of 0.5 and setting the
* weightSum to 1.0.
*
* @param weightSum a number greater than 0.0f, or a number lower than or equals
* to 0.0f if the weight sum should be computed from the children's
* layout_weight
*/
@android.view.RemotableViewMethod
public void setWeightSum(float weightSum) {
mWeightSum = Math.max(0.0f, weightSum);
}
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
if (mOrientation == VERTICAL) {
measureVertical(widthMeasureSpec, heightMeasureSpec);
} else {
measureHorizontal(widthMeasureSpec, heightMeasureSpec);
}
}
/**
* Determines where to position dividers between children.
*
* @param childIndex Index of child to check for preceding divider
* @return true if there should be a divider before the child at childIndex
* @hide Pending API consideration. Currently only used internally by the system.
*/
protected boolean hasDividerBeforeChildAt(int childIndex) {
if (childIndex == 0) {
return (mShowDividers & SHOW_DIVIDER_BEGINNING) != 0;
} else if (childIndex == getChildCount()) {
return (mShowDividers & SHOW_DIVIDER_END) != 0;
} else if ((mShowDividers & SHOW_DIVIDER_MIDDLE) != 0) {
boolean hasVisibleViewBefore = false;
for (int i = childIndex - 1; i >= 0; i--) {
if (getChildAt(i).getVisibility() != GONE) {
hasVisibleViewBefore = true;
break;
}
}
return hasVisibleViewBefore;
}
return false;
}
/**
* Measures the children when the orientation of this LinearLayout is set
* to {@link #VERTICAL}.
*
* @param widthMeasureSpec Horizontal space requirements as imposed by the parent.
* @param heightMeasureSpec Vertical space requirements as imposed by the parent.
*
* @see #getOrientation()
* @see #setOrientation(int)
* @see #onMeasure(int, int)
*/
void measureVertical(int widthMeasureSpec, int heightMeasureSpec) {
mTotalLength = 0;
int maxWidth = 0;
int childState = 0;
int alternativeMaxWidth = 0;
int weightedMaxWidth = 0;
boolean allFillParent = true;
float totalWeight = 0;
final int count = getVirtualChildCount();
final int widthMode = MeasureSpec.getMode(widthMeasureSpec);
final int heightMode = MeasureSpec.getMode(heightMeasureSpec);
boolean matchWidth = false;
boolean skippedMeasure = false;
final int baselineChildIndex = mBaselineAlignedChildIndex;
final boolean useLargestChild = mUseLargestChild;
int largestChildHeight = Integer.MIN_VALUE;
// See how tall everyone is. Also remember max width.
for (int i = 0; i < count; ++i) {
final View child = getVirtualChildAt(i);
if (child == null) {
mTotalLength += measureNullChild(i);
continue;
}
if (child.getVisibility() == View.GONE) {
i += getChildrenSkipCount(child, i);
continue;
}
if (hasDividerBeforeChildAt(i)) {
mTotalLength += mDividerHeight;
}
LayoutParams lp = (LayoutParams) child.getLayoutParams();
totalWeight += lp.weight;
if (heightMode == MeasureSpec.EXACTLY && lp.height == 0 && lp.weight > 0) {
// Optimization: don't bother measuring children who are going to use
// leftover space. These views will get measured again down below if
// there is any leftover space.
final int totalLength = mTotalLength;
mTotalLength = Math.max(totalLength, totalLength + lp.topMargin + lp.bottomMargin);
skippedMeasure = true;
} else {
int oldHeight = Integer.MIN_VALUE;
if (lp.height == 0 && lp.weight > 0) {
// heightMode is either UNSPECIFIED or AT_MOST, and this
// child wanted to stretch to fill available space.
// Translate that to WRAP_CONTENT so that it does not end up
// with a height of 0
oldHeight = 0;
lp.height = LayoutParams.WRAP_CONTENT;
}
// Determine how big this child would like to be. If this or
// previous children have given a weight, then we allow it to
// use all available space (and we will shrink things later
// if needed).
measureChildBeforeLayout(
child, i, widthMeasureSpec, 0, heightMeasureSpec,
totalWeight == 0 ? mTotalLength : 0);
if (oldHeight != Integer.MIN_VALUE) {
lp.height = oldHeight;
}
final int childHeight = child.getMeasuredHeight();
final int totalLength = mTotalLength;
mTotalLength = Math.max(totalLength, totalLength + childHeight + lp.topMargin +
lp.bottomMargin + getNextLocationOffset(child));
if (useLargestChild) {
largestChildHeight = Math.max(childHeight, largestChildHeight);
}
}
/**
* If applicable, compute the additional offset to the child's baseline
* we'll need later when asked {@link #getBaseline}.
*/
if ((baselineChildIndex >= 0) && (baselineChildIndex == i + 1)) {
mBaselineChildTop = mTotalLength;
}
// if we are trying to use a child index for our baseline, the above
// book keeping only works if there are no children above it with
// weight. fail fast to aid the developer.
if (i < baselineChildIndex && lp.weight > 0) {
throw new RuntimeException("A child of LinearLayout with index "
+ "less than mBaselineAlignedChildIndex has weight > 0, which "
+ "won't work. Either remove the weight, or don't set "
+ "mBaselineAlignedChildIndex.");
}
boolean matchWidthLocally = false;
if (widthMode != MeasureSpec.EXACTLY && lp.width == LayoutParams.MATCH_PARENT) {
// The width of the linear layout will scale, and at least one
// child said it wanted to match our width. Set a flag
// indicating that we need to remeasure at least that view when
// we know our width.
matchWidth = true;
matchWidthLocally = true;
}
final int margin = lp.leftMargin + lp.rightMargin;
final int measuredWidth = child.getMeasuredWidth() + margin;
maxWidth = Math.max(maxWidth, measuredWidth);
childState = combineMeasuredStates(childState, child.getMeasuredState());
allFillParent = allFillParent && lp.width == LayoutParams.MATCH_PARENT;
if (lp.weight > 0) {
/*
* Widths of weighted Views are bogus if we end up
* remeasuring, so keep them separate.
*/
weightedMaxWidth = Math.max(weightedMaxWidth,
matchWidthLocally ? margin : measuredWidth);
} else {
alternativeMaxWidth = Math.max(alternativeMaxWidth,
matchWidthLocally ? margin : measuredWidth);
}
i += getChildrenSkipCount(child, i);
}
if (mTotalLength > 0 && hasDividerBeforeChildAt(count)) {
mTotalLength += mDividerHeight;
}
if (useLargestChild &&
(heightMode == MeasureSpec.AT_MOST || heightMode == MeasureSpec.UNSPECIFIED)) {
mTotalLength = 0;
for (int i = 0; i < count; ++i) {
final View child = getVirtualChildAt(i);
if (child == null) {
mTotalLength += measureNullChild(i);
continue;
}
if (child.getVisibility() == GONE) {
i += getChildrenSkipCount(child, i);
continue;
}
final LayoutParams lp = (LayoutParams)
child.getLayoutParams();
// Account for negative margins
final int totalLength = mTotalLength;
mTotalLength = Math.max(totalLength, totalLength + largestChildHeight +
lp.topMargin + lp.bottomMargin + getNextLocationOffset(child));
}
}
// Add in our padding
mTotalLength += mPaddingTop + mPaddingBottom;
int heightSize = mTotalLength;
// Check against our minimum height
heightSize = Math.max(heightSize, getSuggestedMinimumHeight());
// Reconcile our calculated size with the heightMeasureSpec
int heightSizeAndState = resolveSizeAndState(heightSize, heightMeasureSpec, 0);
heightSize = heightSizeAndState & MEASURED_SIZE_MASK;
// Either expand children with weight to take up available space or
// shrink them if they extend beyond our current bounds. If we skipped
// measurement on any children, we need to measure them now.
int delta = heightSize - mTotalLength;
if (skippedMeasure || delta != 0 && totalWeight > 0.0f) {
float weightSum = mWeightSum > 0.0f ? mWeightSum : totalWeight;
mTotalLength = 0;
for (int i = 0; i < count; ++i) {
final View child = getVirtualChildAt(i);
if (child.getVisibility() == View.GONE) {
continue;
}
LayoutParams lp = (LayoutParams) child.getLayoutParams();
float childExtra = lp.weight;
// MatchParentShrinkingLinearLayout custom code starts here.
if (childExtra > 0 && delta > 0) {
// Child said it could absorb extra space -- give him his share
int share = (int) (childExtra * delta / weightSum);
weightSum -= childExtra;
delta -= share;
final int childWidthMeasureSpec = getChildMeasureSpec(widthMeasureSpec,
mPaddingLeft + mPaddingRight +
lp.leftMargin + lp.rightMargin, lp.width);
// TODO: Use a field like lp.isMeasured to figure out if this
// child has been previously measured
if ((lp.height != 0) || (heightMode != MeasureSpec.EXACTLY)) {
// child was measured once already above...
// base new measurement on stored values
int childHeight = child.getMeasuredHeight() + share;
if (childHeight < 0) {
childHeight = 0;
}
child.measure(childWidthMeasureSpec,
MeasureSpec.makeMeasureSpec(childHeight, MeasureSpec.EXACTLY));
} else {
// child was skipped in the loop above.
// Measure for this first time here
child.measure(childWidthMeasureSpec,
MeasureSpec.makeMeasureSpec(share > 0 ? share : 0,
MeasureSpec.EXACTLY));
}
// Child may now not fit in vertical dimension.
childState = combineMeasuredStates(childState, child.getMeasuredState()
& (MEASURED_STATE_MASK>>MEASURED_HEIGHT_STATE_SHIFT));
} else if (delta < 0 && lp.height == LayoutParams.MATCH_PARENT) {
final int childWidthMeasureSpec = getChildMeasureSpec(widthMeasureSpec,
mPaddingLeft + mPaddingRight +
lp.leftMargin + lp.rightMargin, lp.width);
int childHeight = child.getMeasuredHeight() + delta;
if (childHeight < 0) {
childHeight = 0;
}
delta -= childHeight - child.getMeasuredHeight();
child.measure(childWidthMeasureSpec,
MeasureSpec.makeMeasureSpec(childHeight, MeasureSpec.EXACTLY));
// Child may now not fit in vertical dimension.
childState = combineMeasuredStates(childState, child.getMeasuredState()
& (MEASURED_STATE_MASK>>MEASURED_HEIGHT_STATE_SHIFT));
}
// MatchParentShrinkingLinearLayout custom code ends here.
final int margin = lp.leftMargin + lp.rightMargin;
final int measuredWidth = child.getMeasuredWidth() + margin;
maxWidth = Math.max(maxWidth, measuredWidth);
boolean matchWidthLocally = widthMode != MeasureSpec.EXACTLY &&
lp.width == LayoutParams.MATCH_PARENT;
alternativeMaxWidth = Math.max(alternativeMaxWidth,
matchWidthLocally ? margin : measuredWidth);
allFillParent = allFillParent && lp.width == LayoutParams.MATCH_PARENT;
final int totalLength = mTotalLength;
mTotalLength = Math.max(totalLength, totalLength + child.getMeasuredHeight() +
lp.topMargin + lp.bottomMargin + getNextLocationOffset(child));
}
// Add in our padding
mTotalLength += mPaddingTop + mPaddingBottom;
// TODO: Should we recompute the heightSpec based on the new total length?
} else {
alternativeMaxWidth = Math.max(alternativeMaxWidth,
weightedMaxWidth);
// We have no limit, so make all weighted views as tall as the largest child.
// Children will have already been measured once.
if (useLargestChild && heightMode != MeasureSpec.EXACTLY) {
for (int i = 0; i < count; i++) {
final View child = getVirtualChildAt(i);
if (child == null || child.getVisibility() == View.GONE) {
continue;
}
final LayoutParams lp = (LayoutParams) child.getLayoutParams();
float childExtra = lp.weight;
if (childExtra > 0) {
child.measure(
MeasureSpec.makeMeasureSpec(child.getMeasuredWidth(),
MeasureSpec.EXACTLY),
MeasureSpec.makeMeasureSpec(largestChildHeight,
MeasureSpec.EXACTLY));
}
}
}
}
if (!allFillParent && widthMode != MeasureSpec.EXACTLY) {
maxWidth = alternativeMaxWidth;
}
maxWidth += mPaddingLeft + mPaddingRight;
// Check against our minimum width
maxWidth = Math.max(maxWidth, getSuggestedMinimumWidth());
setMeasuredDimension(resolveSizeAndState(maxWidth, widthMeasureSpec, childState),
heightSizeAndState);
if (matchWidth) {
forceUniformWidth(count, heightMeasureSpec);
}
}
private void forceUniformWidth(int count, int heightMeasureSpec) {
// Pretend that the linear layout has an exact size.
int uniformMeasureSpec = MeasureSpec.makeMeasureSpec(getMeasuredWidth(),
MeasureSpec.EXACTLY);
for (int i = 0; i< count; ++i) {
final View child = getVirtualChildAt(i);
if (child.getVisibility() != GONE) {
LayoutParams lp =
((LayoutParams)child.getLayoutParams());
if (lp.width == LayoutParams.MATCH_PARENT) {
// Temporarily force children to reuse their old measured height
// FIXME: this may not be right for something like wrapping text?
int oldHeight = lp.height;
lp.height = child.getMeasuredHeight();
// Remeasue with new dimensions
measureChildWithMargins(child, uniformMeasureSpec, 0, heightMeasureSpec, 0);
lp.height = oldHeight;
}
}
}
}
/**
* Measures the children when the orientation of this LinearLayout is set
* to {@link #HORIZONTAL}.
*
* @param widthMeasureSpec Horizontal space requirements as imposed by the parent.
* @param heightMeasureSpec Vertical space requirements as imposed by the parent.
*
* @see #getOrientation()
* @see #setOrientation(int)
* @see #onMeasure(int, int)
*/
void measureHorizontal(int widthMeasureSpec, int heightMeasureSpec) {
// MatchParentShrinkingLinearLayout custom code starts here.
throw new IllegalStateException("horizontal mode not supported.");
// MatchParentShrinkingLinearLayout custom code ends here.
}
private void forceUniformHeight(int count, int widthMeasureSpec) {
// Pretend that the linear layout has an exact size. This is the measured height of
// ourselves. The measured height should be the max height of the children, changed
// to accommodate the heightMeasureSpec from the parent
int uniformMeasureSpec = MeasureSpec.makeMeasureSpec(getMeasuredHeight(),
MeasureSpec.EXACTLY);
for (int i = 0; i < count; ++i) {
final View child = getVirtualChildAt(i);
if (child.getVisibility() != GONE) {
LayoutParams lp = (LayoutParams) child.getLayoutParams();
if (lp.height == LayoutParams.MATCH_PARENT) {
// Temporarily force children to reuse their old measured width
// FIXME: this may not be right for something like wrapping text?
int oldWidth = lp.width;
lp.width = child.getMeasuredWidth();
// Remeasure with new dimensions
measureChildWithMargins(child, widthMeasureSpec, 0, uniformMeasureSpec, 0);
lp.width = oldWidth;
}
}
}
}
/**
* <p>Returns the number of children to skip after measuring/laying out
* the specified child.</p>
*
* @param child the child after which we want to skip children
* @param index the index of the child after which we want to skip children
* @return the number of children to skip, 0 by default
*/
int getChildrenSkipCount(View child, int index) {
return 0;
}
/**
* <p>Returns the size (width or height) that should be occupied by a null
* child.</p>
*
* @param childIndex the index of the null child
* @return the width or height of the child depending on the orientation
*/
int measureNullChild(int childIndex) {
return 0;
}
/**
* <p>Measure the child according to the parent's measure specs. This
* method should be overriden by subclasses to force the sizing of
* children. This method is called by {@link #measureVertical(int, int)} and
* {@link #measureHorizontal(int, int)}.</p>
*
* @param child the child to measure
* @param childIndex the index of the child in this view
* @param widthMeasureSpec horizontal space requirements as imposed by the parent
* @param totalWidth extra space that has been used up by the parent horizontally
* @param heightMeasureSpec vertical space requirements as imposed by the parent
* @param totalHeight extra space that has been used up by the parent vertically
*/
void measureChildBeforeLayout(View child, int childIndex,
int widthMeasureSpec, int totalWidth, int heightMeasureSpec,
int totalHeight) {
measureChildWithMargins(child, widthMeasureSpec, totalWidth,
heightMeasureSpec, totalHeight);
}
/**
* <p>Return the location offset of the specified child. This can be used
* by subclasses to change the location of a given widget.</p>
*
* @param child the child for which to obtain the location offset
* @return the location offset in pixels
*/
int getLocationOffset(View child) {
return 0;
}
/**
* <p>Return the size offset of the next sibling of the specified child.
* This can be used by subclasses to change the location of the widget
* following <code>child</code>.</p>
*
* @param child the child whose next sibling will be moved
* @return the location offset of the next child in pixels
*/
int getNextLocationOffset(View child) {
return 0;
}
@Override
protected void onLayout(boolean changed, int l, int t, int r, int b) {
if (mOrientation == VERTICAL) {
layoutVertical(l, t, r, b);
} else {
layoutHorizontal(l, t, r, b);
}
}
/**
* Position the children during a layout pass if the orientation of this
* LinearLayout is set to {@link #VERTICAL}.
*
* @see #getOrientation()
* @see #setOrientation(int)
* @see #onLayout(boolean, int, int, int, int)
* @param left
* @param top
* @param right
* @param bottom
*/
void layoutVertical(int left, int top, int right, int bottom) {
final int paddingLeft = mPaddingLeft;
int childTop;
int childLeft;
// Where right end of child should go
final int width = right - left;
int childRight = width - mPaddingRight;
// Space available for child
int childSpace = width - paddingLeft - mPaddingRight;
final int count = getVirtualChildCount();
final int majorGravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK;
final int minorGravity = mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK;
switch (majorGravity) {
case Gravity.BOTTOM:
// mTotalLength contains the padding already
childTop = mPaddingTop + bottom - top - mTotalLength;
break;
// mTotalLength contains the padding already
case Gravity.CENTER_VERTICAL:
childTop = mPaddingTop + (bottom - top - mTotalLength) / 2;
break;
case Gravity.TOP:
default:
childTop = mPaddingTop;
break;
}
for (int i = 0; i < count; i++) {
final View child = getVirtualChildAt(i);
if (child == null) {
childTop += measureNullChild(i);
} else if (child.getVisibility() != GONE) {
final int childWidth = child.getMeasuredWidth();
final int childHeight = child.getMeasuredHeight();
final LayoutParams lp =
(LayoutParams) child.getLayoutParams();
int gravity = lp.gravity;
if (gravity < 0) {
gravity = minorGravity;
}
final int layoutDirection = getLayoutDirection();
final int absoluteGravity = Gravity.getAbsoluteGravity(gravity, layoutDirection);
switch (absoluteGravity & Gravity.HORIZONTAL_GRAVITY_MASK) {
case Gravity.CENTER_HORIZONTAL:
childLeft = paddingLeft + ((childSpace - childWidth) / 2)
+ lp.leftMargin - lp.rightMargin;
break;
case Gravity.RIGHT:
childLeft = childRight - childWidth - lp.rightMargin;
break;
case Gravity.LEFT:
default:
childLeft = paddingLeft + lp.leftMargin;
break;
}
if (hasDividerBeforeChildAt(i)) {
childTop += mDividerHeight;
}
childTop += lp.topMargin;
setChildFrame(child, childLeft, childTop + getLocationOffset(child),
childWidth, childHeight);
childTop += childHeight + lp.bottomMargin + getNextLocationOffset(child);
i += getChildrenSkipCount(child, i);
}
}
}
@Override
public void onRtlPropertiesChanged(int layoutDirection) {
super.onRtlPropertiesChanged(layoutDirection);
if (layoutDirection != mLayoutDirection) {
mLayoutDirection = layoutDirection;
if (mOrientation == HORIZONTAL) {
requestLayout();
}
}
}
/**
* Position the children during a layout pass if the orientation of this
* LinearLayout is set to {@link #HORIZONTAL}.
*
* @see #getOrientation()
* @see #setOrientation(int)
* @see #onLayout(boolean, int, int, int, int)
* @param left
* @param top
* @param right
* @param bottom
*/
void layoutHorizontal(int left, int top, int right, int bottom) {
final boolean isLayoutRtl = isLayoutRtl();
final int paddingTop = mPaddingTop;
int childTop;
int childLeft;
// Where bottom of child should go
final int height = bottom - top;
int childBottom = height - mPaddingBottom;
// Space available for child
int childSpace = height - paddingTop - mPaddingBottom;
final int count = getVirtualChildCount();
final int majorGravity = mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK;
final int minorGravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK;
final boolean baselineAligned = mBaselineAligned;
final int[] maxAscent = mMaxAscent;
final int[] maxDescent = mMaxDescent;
final int layoutDirection = getLayoutDirection();
switch (Gravity.getAbsoluteGravity(majorGravity, layoutDirection)) {
case Gravity.RIGHT:
// mTotalLength contains the padding already
childLeft = mPaddingLeft + right - left - mTotalLength;
break;
case Gravity.CENTER_HORIZONTAL:
// mTotalLength contains the padding already
childLeft = mPaddingLeft + (right - left - mTotalLength) / 2;
break;
case Gravity.LEFT:
default:
childLeft = mPaddingLeft;
break;
}
int start = 0;
int dir = 1;
//In case of RTL, start drawing from the last child.
if (isLayoutRtl) {
start = count - 1;
dir = -1;
}
for (int i = 0; i < count; i++) {
int childIndex = start + dir * i;
final View child = getVirtualChildAt(childIndex);
if (child == null) {
childLeft += measureNullChild(childIndex);
} else if (child.getVisibility() != GONE) {
final int childWidth = child.getMeasuredWidth();
final int childHeight = child.getMeasuredHeight();
int childBaseline = -1;
final LayoutParams lp =
(LayoutParams) child.getLayoutParams();
if (baselineAligned && lp.height != LayoutParams.MATCH_PARENT) {
childBaseline = child.getBaseline();
}
int gravity = lp.gravity;
if (gravity < 0) {
gravity = minorGravity;
}
switch (gravity & Gravity.VERTICAL_GRAVITY_MASK) {
case Gravity.TOP:
childTop = paddingTop + lp.topMargin;
if (childBaseline != -1) {
childTop += maxAscent[INDEX_TOP] - childBaseline;
}
break;
case Gravity.CENTER_VERTICAL:
// Removed support for baseline alignment when layout_gravity or
// gravity == center_vertical. See bug #1038483.
// Keep the code around if we need to re-enable this feature
// if (childBaseline != -1) {
// // Align baselines vertically only if the child is smaller than us
// if (childSpace - childHeight > 0) {
// childTop = paddingTop + (childSpace / 2) - childBaseline;
// } else {
// childTop = paddingTop + (childSpace - childHeight) / 2;
// }
// } else {
childTop = paddingTop + ((childSpace - childHeight) / 2)
+ lp.topMargin - lp.bottomMargin;
break;
case Gravity.BOTTOM:
childTop = childBottom - childHeight - lp.bottomMargin;
if (childBaseline != -1) {
int descent = child.getMeasuredHeight() - childBaseline;
childTop -= (maxDescent[INDEX_BOTTOM] - descent);
}
break;
default:
childTop = paddingTop;
break;
}
if (hasDividerBeforeChildAt(childIndex)) {
childLeft += mDividerWidth;
}
childLeft += lp.leftMargin;
setChildFrame(child, childLeft + getLocationOffset(child), childTop,
childWidth, childHeight);
childLeft += childWidth + lp.rightMargin +
getNextLocationOffset(child);
i += getChildrenSkipCount(child, childIndex);
}
}
}
private void setChildFrame(View child, int left, int top, int width, int height) {
child.layout(left, top, left + width, top + height);
}
/**
* Should the layout be a column or a row.
* @param orientation Pass {@link #HORIZONTAL} or {@link #VERTICAL}. Default
* value is {@link #HORIZONTAL}.
*
* @attr ref android.R.styleable#LinearLayout_orientation
*/
public void setOrientation(@OrientationMode int orientation) {
if (mOrientation != orientation) {
mOrientation = orientation;
requestLayout();
}
}
/**
* Returns the current orientation.
*
* @return either {@link #HORIZONTAL} or {@link #VERTICAL}
*/
@OrientationMode
public int getOrientation() {
return mOrientation;
}
/**
* Describes how the child views are positioned. Defaults to GRAVITY_TOP. If
* this layout has a VERTICAL orientation, this controls where all the child
* views are placed if there is extra vertical space. If this layout has a
* HORIZONTAL orientation, this controls the alignment of the children.
*
* @param gravity See {@link android.view.Gravity}
*
* @attr ref android.R.styleable#LinearLayout_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 LayoutParams generateLayoutParams(AttributeSet attrs) {
return new LayoutParams(getContext(), attrs);
}
/**
* Returns a set of layout parameters with a width of
* {@link android.view.ViewGroup.LayoutParams#MATCH_PARENT}
* and a height of {@link android.view.ViewGroup.LayoutParams#WRAP_CONTENT}
* when the layout's orientation is {@link #VERTICAL}. When the orientation is
* {@link #HORIZONTAL}, the width is set to {@link LayoutParams#WRAP_CONTENT}
* and the height to {@link LayoutParams#WRAP_CONTENT}.
*/
@Override
protected LayoutParams generateDefaultLayoutParams() {
if (mOrientation == HORIZONTAL) {
return new LayoutParams(LayoutParams.WRAP_CONTENT, LayoutParams.WRAP_CONTENT);
} else if (mOrientation == VERTICAL) {
return new LayoutParams(LayoutParams.MATCH_PARENT, LayoutParams.WRAP_CONTENT);
}
return null;
}
@Override
protected LayoutParams generateLayoutParams(ViewGroup.LayoutParams p) {
return new LayoutParams(p);
}
// Override to allow type-checking of LayoutParams.
@Override
protected boolean checkLayoutParams(ViewGroup.LayoutParams p) {
return p instanceof LayoutParams;
}
@Override
public CharSequence getAccessibilityClassName() {
return MatchParentShrinkingLinearLayout.class.getName();
}
/** @hide */
@Override
protected void encodeProperties(@NonNull ViewHierarchyEncoder encoder) {
super.encodeProperties(encoder);
encoder.addProperty("layout:baselineAligned", mBaselineAligned);
encoder.addProperty("layout:baselineAlignedChildIndex", mBaselineAlignedChildIndex);
encoder.addProperty("measurement:baselineChildTop", mBaselineChildTop);
encoder.addProperty("measurement:orientation", mOrientation);
encoder.addProperty("measurement:gravity", mGravity);
encoder.addProperty("measurement:totalLength", mTotalLength);
encoder.addProperty("layout:totalLength", mTotalLength);
encoder.addProperty("layout:useLargestChild", mUseLargestChild);
}
/**
* Per-child layout information associated with ViewLinearLayout.
*
* @attr ref android.R.styleable#LinearLayout_Layout_layout_weight
* @attr ref android.R.styleable#LinearLayout_Layout_layout_gravity
*/
public static class LayoutParams extends MarginLayoutParams {
/**
* Indicates how much of the extra space in the LinearLayout will be
* allocated to the view associated with these LayoutParams. Specify
* 0 if the view should not be stretched. Otherwise the extra pixels
* will be pro-rated among all views whose weight is greater than 0.
*/
@ViewDebug.ExportedProperty(category = "layout")
public float weight;
/**
* Gravity for the view associated with these LayoutParams.
*
* @see android.view.Gravity
*/
@ViewDebug.ExportedProperty(category = "layout", mapping = {
@ViewDebug.IntToString(from = -1, to = "NONE"),
@ViewDebug.IntToString(from = Gravity.NO_GRAVITY, to = "NONE"),
@ViewDebug.IntToString(from = Gravity.TOP, to = "TOP"),
@ViewDebug.IntToString(from = Gravity.BOTTOM, to = "BOTTOM"),
@ViewDebug.IntToString(from = Gravity.LEFT, to = "LEFT"),
@ViewDebug.IntToString(from = Gravity.RIGHT, to = "RIGHT"),
@ViewDebug.IntToString(from = Gravity.START, to = "START"),
@ViewDebug.IntToString(from = Gravity.END, to = "END"),
@ViewDebug.IntToString(from = Gravity.CENTER_VERTICAL, to = "CENTER_VERTICAL"),
@ViewDebug.IntToString(from = Gravity.FILL_VERTICAL, to = "FILL_VERTICAL"),
@ViewDebug.IntToString(from = Gravity.CENTER_HORIZONTAL, to = "CENTER_HORIZONTAL"),
@ViewDebug.IntToString(from = Gravity.FILL_HORIZONTAL, to = "FILL_HORIZONTAL"),
@ViewDebug.IntToString(from = Gravity.CENTER, to = "CENTER"),
@ViewDebug.IntToString(from = Gravity.FILL, to = "FILL")
})
public int gravity = -1;
/**
* {@inheritDoc}
*/
public LayoutParams(Context c, AttributeSet attrs) {
super(c, attrs);
TypedArray a = c.obtainStyledAttributes(
attrs, com.android.internal.R.styleable.LinearLayout_Layout);
weight = a.getFloat(
com.android.internal.R.styleable.LinearLayout_Layout_layout_weight, 0);
gravity = a.getInt(
com.android.internal.R.styleable.LinearLayout_Layout_layout_gravity, -1);
a.recycle();
}
/**
* {@inheritDoc}
*/
public LayoutParams(int width, int height) {
super(width, height);
weight = 0;
}
/**
* Creates a new set of layout parameters with the specified width, height
* and weight.
*
* @param width the width, either {@link #MATCH_PARENT},
* {@link #WRAP_CONTENT} or a fixed size in pixels
* @param height the height, either {@link #MATCH_PARENT},
* {@link #WRAP_CONTENT} or a fixed size in pixels
* @param weight the weight
*/
public LayoutParams(int width, int height, float weight) {
super(width, height);
this.weight = weight;
}
/**
* {@inheritDoc}
*/
public LayoutParams(ViewGroup.LayoutParams p) {
super(p);
}
/**
* {@inheritDoc}
*/
public LayoutParams(MarginLayoutParams source) {
super(source);
}
/**
* Copy constructor. Clones the width, height, margin values, weight,
* and gravity of the source.
*
* @param source The layout params to copy from.
*/
public LayoutParams(LayoutParams source) {
super(source);
this.weight = source.weight;
this.gravity = source.gravity;
}
@Override
public String debug(String output) {
return output + "MatchParentShrinkingLinearLayout.LayoutParams={width="
+ sizeToString(width) + ", height=" + sizeToString(height)
+ " weight=" + weight + "}";
}
/** @hide */
@Override
protected void encodeProperties(@NonNull ViewHierarchyEncoder encoder) {
super.encodeProperties(encoder);
encoder.addProperty("layout:weight", weight);
encoder.addProperty("layout:gravity", gravity);
}
}
}