1. onMeasure a. 属于View的方法,用来测量自己和内容的来确定宽度和高度 b. view的measure方法体中会调用onMeasure
2. onLayout a. 属于ViewGroup的方法,用来为当前ViewGroup的子元素的位置和大小 b. View的layout方法体中会调用onLayout
3.onMeasure和onLayout onMeasure在onLayout之前调用
4. 设置background后,会重新调用onMeasure和onLayout
onMeasure测量子VIEW大小后调用LAYOUT布局 所以初始化的时候会多次调用onlayout方法
(一)onMeasure:
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec)
onMeasure方法在控件的父元素正要放置它的子控件时调用.它会问一个问题,“你想要用多大地方啊?”,然后传入两个参数——widthMeasureSpec和heightMeasureSpec.
它们指明控件可获得的空间以及关于这个空间描述的元数据.
比返回一个结果要好的方法是你传递View的高度和宽度到setMeasuredDimension方法里.
接下来的代码片段给出了如何重写onMeasure.注意,调用的本地空方法是来计算高度和宽度的.它们会译解widthHeightSpec和heightMeasureSpec值,并计算出合适的高度和宽度值.
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
int measuredHeight = measureHeight(heightMeasureSpec);
int measuredWidth = measureWidth(widthMeasureSpec);
setMeasuredDimension(measuredHeight, measuredWidth);
}
private int measureHeight(int measureSpec) {
// Return measured widget height.
}
private int measureWidth(int measureSpec) {
// Return measured widget width.
}边界参数——widthMeasureSpec和heightMeasureSpec ,效率的原因以整数的方式传入。
封装了父布局传递给子布局的布局要求,每个MeasureSpec 代表了一组宽度和高度的要求。一个MeasureSpec
它有三种模式:
UNSPECIFIED( 未指定),
EXACTLY( 完全)
AT_MOST( 至多)
它常用的三个函数:
1.static int getMode(int measureSpec): 根据提供的测量值( 格式) 提取模式( 上述三个模式之一)
2.static int getSize(int measureSpec): 根据提供的测量值( 格式) 提取大小值( 这个大小也就是我们通常所说的大小)
3.static int makeMeasureSpec(int size,int mode): 根据提供的大小值和模式创建一个测量值( 格式)
view 组件的onMeasure
在它们使用之前,首先要做的是使用MeasureSpec类的静态方法getMode和getSize来译解,如下面的片段所示:
int specMode = MeasureSpec.getMode(measureSpec);
int specSize = MeasureSpec.getSize(measureSpec);
依据specMode的值,如果是AT_MOST,specSize 代表的是最大可获得的空间;如果是EXACTLY,specSize 代表的是精确的尺寸;如果是UNSPECIFIED,对于控件尺寸来说,没有任何参考意义。
当以EXACT方式标记测量尺寸,父元素会坚持在一个指定的精确尺寸区域放置View。在父元素问子元素要多大空间时,AT_MOST指示者会说给我最大的范围。在很多情况下,你得到的值都是相同的。
在两种情况下,你必须绝对的处理这些限制。在一些情况下,它可能会返回超出这些限制的尺寸,在这种情况下,你可以让父元素选择如何对待超出的View,使用裁剪还是滚动等技术。
接下来的框架代码给出了处理View测量的典型实现:
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
int measuredHeight = measureHeight(heightMeasureSpec);
int measuredWidth = measureWidth(widthMeasureSpec);
setMeasuredDimension(measuredHeight, measuredWidth);
}
private int measureHeight(int measureSpec) {
int specMode = MeasureSpec.getMode(measureSpec);
int specSize = MeasureSpec.getSize(measureSpec);
// Default size if no limits are specified.
int result = 500;
if (specMode == MeasureSpec.AT_MOST){
// Calculate the ideal size of your
// control within this maximum size.
// If your control fills the available
// space return the outer bound.
result = specSize;
}
else if (specMode == MeasureSpec.EXACTLY){
// If your control can fit within these bounds return that value.
result = specSize;
}
return result;
}
private int measureWidth(int measureSpec) {
int specMode = MeasureSpec.getMode(measureSpec);
int specSize = MeasureSpec.getSize(measureSpec);
// Default size if no limits are specified.
int result = 500;
if (specMode == MeasureSpec.AT_MOST){
// Calculate the ideal size of your control
// within this maximum size.
// If your control fills the available space
// return the outer bound.
result = specSize;
}
else if (specMode == MeasureSpec.EXACTLY){
// If your control can fit within these bounds return that value.
result = specSize;
}
return result;
}(二)onLayout:
在onLayout之中尽量不要做onMeasure的事情,,,是看到这篇文章,,并没有验证: 文章。。。
直接看例子吧 ,,讲的很清楚了。。。
HelloViewGroup:
public class HelloViewGroup extends ViewGroup {
private float mTouchStartX;
private float mTouchStartY;
private int x = 0;
private int y = 0;
private int mSelectView = -1;
Context mContext;
public HelloViewGroup(Context context) {
super(context);
mContext = context;
// TODO Auto-generated constructor stub
}
@Override
protected void onLayout(boolean changed, int l, int t, int r, int b) {
if (mSelectView != -1) {
View v = getChildAt(mSelectView);
if (v != null)
v.layout(x, y, x + 300, y + 500);
return;
}
View v = getChildAt(0);
if (v != null)
v.layout(x, y, x + 300, y + 500);
View v1 = getChildAt(1);
if (v1 != null)
v1.layout(x + 300, y, x + 600, y + 500);
View v2 = getChildAt(2);
if (v2 != null)
v2.layout(x + 600, y, x + 900, y + 500);
}
public boolean onTouchEvent(MotionEvent event) {
float down_x = event.getX();
float down_y = event.getY();
switch (event.getAction()) {
case MotionEvent.ACTION_DOWN:
if (mSelectView == -1) {
for (int i = 0; i < getChildCount(); i++) {
View child = getChildAt(i);
if ((child.getLeft() < down_x && down_x < child.getRight())
&& (child.getTop() < down_y && down_y < child
.getBottom())) {
mSelectView = i;
break;
}
}
}
break;
case MotionEvent.ACTION_MOVE:
x = (int) event.getRawX() - 100;
y = (int) event.getRawY() - 100;
this.requestLayout();
break;
case MotionEvent.ACTION_UP:
mSelectView = -1;
break;
}
return true;
}
}MainActivity:
public class MainActivity extends Activity {
Context mContext;
/** Called when the activity is first created. */
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
HelloViewGroup my = new HelloViewGroup(this);
mContext = this;
ImageView mIcon = new ImageView( mContext);
ImageView mIcon1 = new ImageView( mContext);
ImageView mIcon2 = new ImageView( mContext);
mIcon.setImageResource(R.drawable.nvshen1);
mIcon1.setImageResource(R.drawable.nvshen2);
mIcon2.setImageResource(R.drawable.nvshen5);
my.addView(mIcon);
my.addView(mIcon1);
my.addView(mIcon2);
setContentView(my);
}
}
