今天學習android自定義組件:docs/guide/topics/ui/custom-components.html
其中有兩個對布局界面影響很的方法,onDraw(),和onMeasure().
onDraw()比較好理解.onMeasure()就比較難理解一些,也更復雜些 ,引用文檔中的說法就是:
onMeasure() is a little more involved.
其實還有另一個方面的原因就是我對這個單詞measure不是很知道,然后果了下詞典,就放了下心,確實是測量的意思.
實現onMeasure()方法基本需要完成下面三個方面的事情(最終結果是你自己寫相應代碼得出測量值并調用view的一個方法進行設置,告訴給你的view安排位置大小的父容器你要多大的空間.):
1.傳遞進來的參數,widthMeasureSpec,和heightMeasureSpec是你對你應該得出來的測量值的限制.
The overidden onMeasure() method is called with width and height measure specifications(widthMeasureSpec and heightMeasureSpec parameters,both are integer codes representing dimensions) which should be treated as requirements for the restrictions on the width and height measurements you should produce.
2. 你在onMeasure計算出來設置的width和height將被用來渲染組件.應當盡量在傳遞進來的width和height 聲明之間.
雖然你也可以選擇你設置的尺寸超過傳遞進來的聲明.但是這樣的話,父容器可以選擇,如clipping,scrolling,或者拋出異常,或者(也許是用新的聲明參數)再次調用onMeasure()
Your component's onMeasure() method should calculate a measurement width and height which will be required to render the component.it should try to stay within the specified passed in.although it can choose to exceed them(in this case,the parent can choose what to do,including clipping,scrolling,throwing an excption,or asking the onMeasure to try again,perhaps with different measurement specifications).
3.一但width和height計算好了,就應該調用View.setMeasuredDimension(int width,int height)方法,否則將導致拋出異常.
Once the width and height are calculated,the setMeasureDimension(int width,int height) method must be called with the calculated measurements.Failure to do this will result in an exceptiion being thrown
在Android提提供的一個自定義View示例中(在API demos 中的 view/LabelView)可以看到一個重寫onMeasure()方法的
實例,也比較好理解.
02 | * @see android.view.View#measure(int, int) |
05 | protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { |
06 | setMeasuredDimension(measureWidth(widthMeasureSpec), |
07 | measureHeight(heightMeasureSpec)); |
11 | * Determines the width of this view |
12 | * @param measureSpec A measureSpec packed into an int |
13 | * @return The width of the view, honoring constraints from measureSpec |
15 | private int measureWidth(int measureSpec) { |
17 | int specMode = MeasureSpec.getMode(measureSpec); |
18 | int specSize = MeasureSpec.getSize(measureSpec); |
20 | if (specMode == MeasureSpec.EXACTLY) { |
21 | // We were told how big to be |
25 | result = (int) mTextPaint.measureText(mText) + getPaddingLeft() |
27 | if (specMode == MeasureSpec.AT_MOST) { |
28 | // Respect AT_MOST value if that was what is called for by measureSpec |
29 | result = Math.min(result, specSize); |
直接看measureWidth()
首先看到的是參數,分別代表寬度和高度的MeasureSpec
android2.2文檔中對于MeasureSpec中的說明是:
一個MeasureSpec封裝了從父容器傳遞給子容器的布局需求.
每一個MeasureSpec代表了一個寬度,或者高度的說明.
一個MeasureSpec是一個大小跟模式的組合值.一共有三種模式.
A MeasureSpec encapsulates the layout requirements passed from parent to child Each MeasureSpec represents a requirement for either the width or the height.A MeasureSpec is compsized of a size and a mode.There are three possible modes:
(1)UPSPECIFIED :父容器對于子容器沒有任何限制,子容器想要多大就多大.
UNSPECIFIED The parent has not imposed any constraint on the child.It can be whatever size it wants
(2) EXACTLY
父容器已經為子容器設置了尺寸,子容器應當服從這些邊界,不論子容器想要多大的空間.
EXACTLY The parent has determined and exact size for the child.The child is going to be given those bounds regardless of how big it wants to be.
(3) AT_MOST
子容器可以是聲明大小內的任意大小.
AT_MOST The child can be as large as it wants up to the specified size
MeasureSpec是View類下的靜態公開類,MeasureSpec中的值作為一個整型是為了減少對象的分配開支.此類用于
將size和mode打包或者解包為一個整型.
MeasureSpecs are implemented as ints to reduce object allocation.This class is provided to pack and unpack the size,mode tuple into the int
我比較好奇的是怎么樣將兩個值打包到一個int中,又如何解包.
MeasureSpec類代碼如下 :(注釋已經被我刪除了,因為在上面說明了.)
01 | public static class MeasureSpec { |
02 | private static final int MODE_SHIFT = 30; |
03 | private static final int MODE_MASK = 0x3 << MODE_SHIFT; |
05 | public static final int UNSPECIFIED = 0 << MODE_SHIFT; |
06 | public static final int EXACTLY = 1 << MODE_SHIFT; |
07 | public static final int AT_MOST = 2 << MODE_SHIFT; |
09 | public static int makeMeasureSpec(int size, int mode) { |
12 | public static int getMode(int measureSpec) { |
13 | return (measureSpec & MODE_MASK); |
15 | public static int getSize(int measureSpec) { |
16 | return (measureSpec & ~MODE_MASK); |
我無聊的將他們的十進制值打印出來了:
mode_shift=30,mode_mask=-1073741824,UNSPECIFIED=0,EXACTLY=1073741824,AT_MOST=-2147483648
然后覺得也應該將他們的二進制值打印出來,如下:
mode_shift=11110, // 30
mode_mask=11000000000000000000000000000000,
UNSPECIFIED=0,
EXACTLY=1000000000000000000000000000000,
AT_MOST=10000000000000000000000000000000
1 | MODE_MASK = 0x3 << MODE_SHIFT //也就是說MODE_MASK是由11左移30位得到的.因為Java用補碼表示數值.最后得到的值最高位是1所以就是負數了 |
對于上面的數值我們應該這樣想,不要把0x3看成3而要看成二進制的11,
而把MODE_SHIFF就看成30.那為什么是二進制 的11呢?
呢,因為只有三各模式,如果有四種模式就是111了因為111三個位才可以有四種組合對吧.
我們這樣來看,
UNSPECIFIED=00000000000000000000000000000000,
EXACTLY=01000000000000000000000000000000,
AT_MOST=10000000000000000000000000000000
也就是說,0,1,2
對應 00,01,10
當跟11想與時 00 &11 還是得到 00,11&01 -> 01,10&
我覺得到了這個份上相信,看我博客的也都理解了.
return (measureSpec & ~MODE_MASK);應該是 return (measureSpec & (~MODE_MASK));