OK,先提一下完结的onMeasure 篇,没看完的小伙伴先看一下onMeasure
<a href=’http://www.jianshu.com/p/f6623f00b4a0′>写给新人看的自定义View-onMeasure篇(1)</a>
<a href=’http://www.jianshu.com/p/fb687e55b0d1′>写给新人看的自定义View-onMeasure篇(2)
</a>
先说一下View的layout 和 onLayout。
这里为了方便理解,以写出自定义View为目的,不做太深入,其一是因为,我们知道这么多,就已经可以写出自定义ViewGroup了,另一方面,深入了我也不知道。总之,大家在看完文章,如果想知道更多的细节的话,就去研究一下View的layout源码。
OK,话不多说,先分析layout主要源码
先看一下View layout方法的源码
public void layout(int l, int t, int r, int b) {
if ((mPrivateFlags3 & PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT) != 0) {
onMeasure(mOldWidthMeasureSpec, mOldHeightMeasureSpec);
mPrivateFlags3 &= ~PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT;
}
int oldL = mLeft;
int oldT = mTop;
int oldB = mBottom;
int oldR = mRight;
boolean changed = isLayoutModeOptical(mParent) ?
setOpticalFrame(l, t, r, b) : setFrame(l, t, r, b);
if (changed || (mPrivateFlags & PFLAG_LAYOUT_REQUIRED) == PFLAG_LAYOUT_REQUIRED) {
onLayout(changed, l, t, r, b);
if (shouldDrawRoundScrollbar()) {
if(mRoundScrollbarRenderer == null) {
mRoundScrollbarRenderer = new RoundScrollbarRenderer(this);
}
} else {
mRoundScrollbarRenderer = null;
}
mPrivateFlags &= ~PFLAG_LAYOUT_REQUIRED;
ListenerInfo li = mListenerInfo;
if (li != null && li.mOnLayoutChangeListeners != null) {
ArrayList<OnLayoutChangeListener> listenersCopy =
(ArrayList<OnLayoutChangeListener>)li.mOnLayoutChangeListeners.clone();
int numListeners = listenersCopy.size();
for (int i = 0; i < numListeners; ++i) {
listenersCopy.get(i).onLayoutChange(this, l, t, r, b, oldL, oldT, oldR, oldB);
}
}
}
mPrivateFlags &= ~PFLAG_FORCE_LAYOUT;
mPrivateFlags3 |= PFLAG3_IS_LAID_OUT;
}
按惯例先说一下每个参数
<b>l:</b>View左边界距离父容器的左边界的距离
<b>t:</b>View上边界距离父容器上边界的距离
<b>r:</b>View右边界距离父容器左边界的距离
<b>b:</b>View下边界距离父容器上边界的距离
具体如下图所示如下图所示:(图片是老师[GcsSloop]Github上面的 我拷贝来用一下)
自定义View.jpeg
好的,下面可以直接看几组关键代码
boolean changed = isLayoutModeOptical(mParent) ?
setOpticalFrame(l, t, r, b) : setFrame(l, t, r, b);
可以看到,isLayoutModeOptical这个方法,是判断是否有光学边界的(光学边界这里暂时用不到,请自行谷歌)我们来仔细看setOpticalFrame,setFrame这两个方法
private boolean setOpticalFrame(int left, int top, int right, int bottom) {
Insets parentInsets = mParent instanceof View ?
((View) mParent).getOpticalInsets() : Insets.NONE;
Insets childInsets = getOpticalInsets();
return setFrame(
left + parentInsets.left - childInsets.left,
top + parentInsets.top - childInsets.top,
right + parentInsets.left + childInsets.right,
bottom + parentInsets.top + childInsets.bottom);
}
可以看到,这个setOpticalFrame方法,最终也是调用了setFrame,那好我们可以直接继续看setFrame方法了。
protected boolean setFrame(int left, int top, int right, int bottom) {
boolean changed = false;
if (DBG) {
Log.d("View", this + " View.setFrame(" + left + "," + top + ","
+ right + "," + bottom + ")");
}
if (mLeft != left || mRight != right || mTop != top || mBottom != bottom) {
changed = true;
// Remember our drawn bit
int drawn = mPrivateFlags & PFLAG_DRAWN;
int oldWidth = mRight - mLeft;
int oldHeight = mBottom - mTop;
int newWidth = right - left;
int newHeight = bottom - top;
boolean sizeChanged = (newWidth != oldWidth) || (newHeight != oldHeight);
// Invalidate our old position
invalidate(sizeChanged);
mLeft = left;
mTop = top;
mRight = right;
mBottom = bottom;
mRenderNode.setLeftTopRightBottom(mLeft, mTop, mRight, mBottom);
mPrivateFlags |= PFLAG_HAS_BOUNDS;
if (sizeChanged) {
sizeChange(newWidth, newHeight, oldWidth, oldHeight);
}
if ((mViewFlags & VISIBILITY_MASK) == VISIBLE || mGhostView != null) {
// If we are visible, force the DRAWN bit to on so that
// this invalidate will go through (at least to our parent).
// This is because someone may have invalidated this view
// before this call to setFrame came in, thereby clearing
// the DRAWN bit.
mPrivateFlags |= PFLAG_DRAWN;
invalidate(sizeChanged);
// parent display list may need to be recreated based on a change in the bounds
// of any child
invalidateParentCaches();
}
// Reset drawn bit to original value (invalidate turns it off)
mPrivateFlags |= drawn;
mBackgroundSizeChanged = true;
if (mForegroundInfo != null) {
mForegroundInfo.mBoundsChanged = true;
}
notifySubtreeAccessibilityStateChangedIfNeeded();
}
return changed;
}
这里面代码就不用一句一句的分析,看大概,我们便可以看出步骤,先是比较了新位置和老位置是否有差异,如果有差异会调用sizechanged来更新我们View的位置。
OK 这个方法大概分析完毕了,我们先回到layout方法继续 onLayout(changed, l, t, r, b); OK ,找到今天的主角了。我们点进去这个方法,看里面做了什么。
/**
* Called from layout when this view should
* assign a size and position to each of its children.
*
* Derived classes with children should override
* this method and call layout on each of
* their children.
* @param changed This is a new size or position for this view
* @param left Left position, relative to parent
* @param top Top position, relative to parent
* @param right Right position, relative to parent
* @param bottom Bottom position, relative to parent
*/
protected void onLayout(boolean changed, int left, int top, int right, int bottom) {
}
有点奇怪,什么也没做。这个其实是android留给我们自己去实现的一个方法,也就是大家都知道的,去布局子View的位置,只有含有子View的容器,才需要重写这个方法,也就是ViewGroup。
OK ,通过上面的分析,可以得到两个结论
1、View通过layout方法来确认自己在父容器中的位置
2、 ViewGroup通过onLayout 方法来确定View在容器中的位置
OK,光有理论没什么卵用,来实现一个简单的流式布局,来验证一下
public class MyViewGroup extends ViewGroup {
public MyViewGroup(Context context) {
super(context);
}
public MyViewGroup(Context context, AttributeSet attrs) {
super(context, attrs);
}
public MyViewGroup(Context context, AttributeSet attrs, int defStyleAttr) {
super(context, attrs, defStyleAttr);
}
@Override
protected void onLayout(boolean changed, int l, int t, int r, int b) {
}
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
super.onMeasure(widthMeasureSpec, heightMeasureSpec);
//遍历子View,测量每个View的大小
for (int i = 0; i < getChildCount(); i++) {
View view = getChildAt(i);
measureChild(view, widthMeasureSpec, heightMeasureSpec);
}
}
}
自定义ViewGroup,通过onLayout()方法给子View布局,前提,我们必须得知道每个子View的宽度和高度,对吧。所以我们先要在onMeasure的时候,测量一下每个子View的具体大小,前面已经把View和ViewGroup的onMeasure都分析过了,这边不在赘述。直接遍历子View,然后measureChild即可得到所有子View的measureSize(注意这里说的是measureSize,为什么是measureSize,之后再谈)。
OK 已经测量出子View的具体大小了,那么下面,我们就来安排他们的位置。
private int horizontalSpace = 10;//水平间距
private int verticalSpace = 10;//垂直间距
@Override
protected void onLayout(boolean changed, int l, int t, int r, int b) {
int hadUsedHorizontal = 0;//水平已经使用的距离
int hadUsedVertical = 0;//垂直已经使用的距离
int width = getMeasuredWidth();
// int height = getMeasuredHeight();
for (int i = 0; i < getChildCount(); i++) {
View view = getChildAt(i);
//判断是否已经超出宽度
if (view.getMeasuredWidth() + hadUsedHorizontal > width) {
//已经超出了宽度
hadUsedVertical = hadUsedVertical + view.getMeasuredHeight() + verticalSpace;
hadUsedHorizontal = 0;
}
view.layout(hadUsedHorizontal, hadUsedVertical, hadUsedHorizontal + view.getMeasuredWidth(), hadUsedVertical + view.getMeasuredHeight());
hadUsedHorizontal = hadUsedHorizontal + horizontalSpace + view.getMeasuredWidth();
}
}
我们先是定义了水平已经使用的距离,和垂直已经使用的距离,而且,如果有需要 我们还需要水平和垂直的间距,都定义出来。OK,可以看到,逻辑很简单,每次layout子View的时候,我们都要判断,子View宽度,已经超出了父View的宽度,如果超出了,就换行。最后调用子View的layout来确定子view的位置。
OK,记得刚才说我们源码里面获取子View大小的时候,宽度为例子使用getMeasuredWidth,为什么用这个而不用getWidth呢?也就是我前面说的measureSize
OK我们看一下。我们在ViewGroup onMeasure的时候,调用了measureChild方法。我们看一下这个源码
protected void measureChild(View child, int parentWidthMeasureSpec,
int parentHeightMeasureSpec) {
final LayoutParams lp = child.getLayoutParams();
final int childWidthMeasureSpec = getChildMeasureSpec(parentWidthMeasureSpec,
mPaddingLeft + mPaddingRight, lp.width);
final int childHeightMeasureSpec = getChildMeasureSpec(parentHeightMeasureSpec,
mPaddingTop + mPaddingBottom, lp.height);
child.measure(childWidthMeasureSpec, childHeightMeasureSpec);
}
调用了child.measure,也就是view的measure方法。我们继续看里面做了什么,由于代码很多,我就不粘贴了。view的.measure 方法调用了自己的onMeasure方法,也就像我们在onMeasure说的那样,之后子View会调用setMeasuredDimension来提交自己的宽高。我们看看这个setMeasuredDimension
private void setMeasuredDimensionRaw(int measuredWidth, int measuredHeight) {
mMeasuredWidth = measuredWidth;
mMeasuredHeight = measuredHeight;
mPrivateFlags |= PFLAG_MEASURED_DIMENSION_SET;
}
OK ,这就清楚了,最终,我们调用measureChild方法 最终会把子View的大小传给mMeasuredSize。那可能会有朋友问,那getWidth,和getHeight会得到什么呢?在onMeasure 方法的时候,getwidth 和getheight都是0;为什么呢?
View的getWidth源码:
public final int getWidth() {
return mRight - mLeft;
}
而我们刚才分析layout的源码时候就知道,mRight和mleft是在layout方法之后才赋值的,所以在测量子View的时候,是无法拿到getWidth 和 getHeight的。
OK 最后贴出源码和布局文件
public class MyViewGroup extends ViewGroup {
private int horizontalSpace = 10;
private int verticalSpace = 10;
public MyViewGroup(Context context) {
super(context);
}
public MyViewGroup(Context context, AttributeSet attrs) {
super(context, attrs);
}
public MyViewGroup(Context context, AttributeSet attrs, int defStyleAttr) {
super(context, attrs, defStyleAttr);
}
@Override
protected void onLayout(boolean changed, int l, int t, int r, int b) {
int hadUsedHorizontal = 0;//水平已经使用的距离
int hadUsedVertical = 0;//垂直已经使用的距离
int width = getMeasuredWidth();
// int height = getMeasuredHeight();
for (int i = 0; i < getChildCount(); i++) {
View view = getChildAt(i);
//判断是否已经超出宽度
if (view.getMeasuredWidth() + hadUsedHorizontal > width) {
//已经超出了宽度
hadUsedVertical = hadUsedVertical + view.getMeasuredHeight() + verticalSpace;
hadUsedHorizontal = 0;
}
view.layout(hadUsedHorizontal, hadUsedVertical, hadUsedHorizontal + view.getMeasuredWidth(), hadUsedVertical + view.getMeasuredHeight());
hadUsedHorizontal = hadUsedHorizontal + horizontalSpace + view.getMeasuredWidth();
}
}
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
super.onMeasure(widthMeasureSpec, heightMeasureSpec);
for (int i = 0; i < getChildCount(); i++) {
View view = getChildAt(i);
measureChild(view, widthMeasureSpec, heightMeasureSpec);
}
}
/**
* @param child 子View
* @param parentWidthMeasureSpec 宽度测量规格
* @param widthUsed 父view在宽度上已经使用的距离
* @param parentHeightMeasureSpec 高度测量规格
* @param heightUsed 父view在高度上已经使用的距离
*/
@Override
protected void measureChildWithMargins(View child, int parentWidthMeasureSpec, int widthUsed, int parentHeightMeasureSpec, int heightUsed) {
super.measureChildWithMargins(child, parentWidthMeasureSpec, widthUsed, parentHeightMeasureSpec, heightUsed);
}
}
布局文件
<?xml version="1.0" encoding="utf-8"?>
<picture.yisi.com.viewconfigrationtest.MyViewGroup xmlns:android="http://schemas.android.com/apk/res/android"
android:layout_width="match_parent"
android:layout_height="match_parent">
<TextView
android:layout_width="80dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
<TextView
android:layout_width="80dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
<TextView
android:layout_width="80dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
<TextView
android:layout_width="80dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
<TextView
android:layout_width="40dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
<TextView
android:layout_width="80dp"
android:layout_height="40dp"
android:background="@color/colorAccent"/>
</picture.yisi.com.viewconfigrationtest.MyViewGroup>
最终效果
Paste_Image.png
之后我们还会继续来完善这个ViewGroup,让他变成一个强大的ViewGroup。OK,onLayout可能就写到这里了,如果有补充的,之后会在补充。这个分析的比较简单,为了是让新人能快速的学会如何使用onLayout,如果大家想深入了解,建议去谷歌一下onLayout,有很多讲的比较详细的。
那么我们明天见喽。
当然,如果你喜欢,别忘了赞赞赞赞我。
