标签归档:java

android的webview中java调用javascript函数返回值的问题

发表于

在android项目中,我们使用webview将我们自己或他人的web应用嵌入到我们开发的android应用中。
通常我们在嵌入html网页的同时往往会用到javascript。我们需要java和javascript进行函数互相调用。安卓官网上已经介绍了二者之间基本的调用方法。下面讲一下java如何调用javascript有返回值的函数,并得到返回值。

1. 首先用ADT新建一个android工程。
2. 修改layout布局文件activity_main.xml。内容如下:

<LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"
    xmlns:tools="http://schemas.android.com/tools"
    android:layout_width="fill_parent"
    android:layout_height="fill_parent"
    tools:context=".MainActivity" 
    android:orientation="vertical">
	<WebView
    	android:id="@+id/webview"
    	android:layout_width="fill_parent"
    	android:layout_height="200dp"/>
	<LinearLayout
	    android:layout_width="fill_parent"
	    android:layout_height="35dp"
	    android:orientation="horizontal">
	 	<EditText 
	 	    android:id="@+id/edit1"
	 	    android:layout_width="50dp"
	 	    android:layout_height="fill_parent"/>
	 	<TextView android:text="+"
	 	    android:layout_width="30dp"
	 	    android:layout_height="fill_parent"/>
	 	<EditText 
	 	    android:id="@+id/edit2"
	 	    android:layout_width="50dp"
	 	    android:layout_height="fill_parent"/>
	 	<TextView android:text="="
	 	    android:layout_width="30dp"
	 	    android:layout_height="fill_parent"/>
	 	<TextView 
	 	    android:id="@+id/sum"
	 	    android:layout_width="50dp"
	 	    android:layout_height="fill_parent"/>
	</LinearLayout>
	<LinearLayout
	    android:layout_width="fill_parent"
	    android:layout_height="50dp"
	    android:orientation="horizontal">
		<Button 
		    android:layout_width="fill_parent"
		    android:layout_height="fill_parent"
		    android:onClick="clickSumBtn"
		    android:text="sum calculation"/>
	</LinearLayout>
</LinearLayout>

2. 修改MainActivity类。


import android.os.Bundle;
import android.app.Activity;
import android.view.Menu;
import android.view.View;
import android.webkit.JsResult;
import android.webkit.WebChromeClient;
import android.webkit.WebSettings;
import android.webkit.WebView;
import android.widget.EditText;
import android.widget.TextView;

public class MainActivity extends Activity {

	private WebView myWebView;
	
	@Override
	protected void onCreate(Bundle savedInstanceState) {
		super.onCreate(savedInstanceState);
		setContentView(R.layout.activity_main);
		myWebView = (WebView) findViewById(R.id.webview);
		//开启js
		WebSettings webSettings = myWebView.getSettings();
		webSettings.setJavaScriptEnabled(true);

		myWebView.setWebChromeClient(new MyWebChromeClient());
		myWebView.loadUrl("file:///android_asset/hello.htm");
		
	}
	
	public void clickSumBtn(View view){
		EditText editText1 = (EditText)findViewById(R.id.edit1);
		EditText editText2 = (EditText)findViewById(R.id.edit2);
		String str1 = editText1.getText().toString();
		String str2 = editText2.getText().toString();
		String str = "javascript:alert(sum(" + str1 + "," + str2+ "))";
		myWebView.loadUrl(str);
	}
	
	@Override
	public boolean onCreateOptionsMenu(Menu menu) {
		// Inflate the menu; this adds items to the action bar if it is present.
		getMenuInflater().inflate(R.menu.main, menu);
		return true;
	}
	
	final class MyWebChromeClient extends WebChromeClient {

		@Override
	    public boolean onJsAlert(WebView view, String url, String message, JsResult result) {
	        TextView sum = (TextView)findViewById(R.id.sum);
	        sum.setText(message);
	        result.confirm();
	        return true;
	        
	    }
	}

}

3. 在assets目录下新建文件hello.htm。内容如下:

<html>
	<head>
		<script type="text/javascript">
			function sum(v1, v2){
				return v1+v2;
			}
		</script>
	</head>
	<body>
		hello, world!
	</body>
</html>

4. 运行
输入2个数后点击下面的按钮,结果如下图。
QQ图片20140202234351

说明:

我们在安卓布局layout文件里定义了一个加法运算的界面。我们输入2个数后,java调用javascript求和函数计算两数之和,最后需要将结果返回给java。
这里我们定义了一个内部类MyWebChromeClient,它继承了WebChromeClient。我们覆盖了onJsAlert方法。我们通过调用myWebView.loadUrl(“javascript:alert(js函数(参数))”);的方式,在onJsAlert方法里捕获到了js函数的返回值。
这种方法的缺点是会影响到正常情况下使用alert方法。

算术表达式转换成逆波兰表达式(Reverse Polish notation)之java实现

发表于

逆波兰表达式将操作符置于操作数的后面。比如,3+4用逆波兰表示法则是 “3 4 +”。 更复杂的,7+8*2 则是 “7 8 2 * +”。

将算术表达式转换成逆波兰表达式的算法如下:

1. 分配2个栈,栈s1用于临时存储运算符(含一个结束符号);栈s2用于输入逆波兰式,为方便起见,栈s1需先放入一个优先级最低的运算符,在这里假定为’#’;

2. 从算术表达式的左端开始逐个读取字符x,逐序进行如下步骤:

(1)若x是操作数,则分析出完整的运算数(在这里为方便,用字母代替数字),将x直接压入栈s2;

(2)若x是运算符,则分情况讨论:

若x是'(‘,则直接压入栈s1;

若x是’)’,则将距离栈s1栈顶的最近的'(‘之间的运算符,逐个出栈,依次压入栈s2,此时抛弃'(‘;

若x是除'(‘和’)’外的运算符,则再分如下情况讨论:

若当前栈s1的栈顶元素为'(‘,则将x直接压入栈s1;

若当前栈s1的栈顶元素不为'(‘,则将x与栈s1的栈顶元素比较,若x的优先级大于栈s1栈顶运算符优先级,则将x直接压入栈s1。否者,将栈s1的栈顶运算符弹出,压入栈s2中,直到栈s1的栈顶运算符优先级别低于(不包括等于)x的优先级,或栈s1的栈顶运算符为'(‘或”#”。最后再则将x压入栈s1;

3. 在进行完2后,检查栈s1是否为空,若不为空,则将栈中元素依次弹出并压入栈s2中(不包括’#’);

4. 完成上述步骤后,栈s2便为逆波兰式输出结果。但是栈s2应做一下逆序处理,因为此时表达式的首字符位于栈底。

下面是java实现。



import java.util.ArrayList;
import java.util.List;
import java.util.Stack;

public class ReversePolishNotation {
	private final static String PLUS = "+";

	private final static String MINUS = "-";

	private final static String MULTIPLY = "*";

	private final static String DIVIDE = "/";

	private final static String POINT = ".";

	private final static String OPSTART = "(";

	private final static String OPEND = ")";

	private final static String NUMBER_SIGN = "#";

	private String exp;

	private List<String> expList = new ArrayList<String>();

	private List<String> rpnList = new ArrayList<String>();

	public ReversePolishNotation(String exp) {
		this.exp = exp;
	}

	private boolean isDigit(String str) {
		return str.equals("0") || str.equals("1") || str.equals("2")
				|| str.equals("3") || str.equals("4") || str.equals("5")
				|| str.equals("6") || str.equals("7") || str.equals("8")
				|| str.equals("9");
	}

	/**
	 * 是否是负号
	 * 
	 * @param exp
	 * @param ch
	 * @param index
	 * @return
	 */
	private boolean isNegativeSign(String exp, String ch, int index) {
		if (ch.equals("-")) {
			if (index == 0) {
				return true;
			} else {
				String previous = exp.substring(index - 1, index);
				if ((!isDigit(previous)) && (!(previous.equals(OPEND)))) {
					return true;
				} else {
					return false;
				}
			}
		}
		return false;
	}

	private void parse() {
		int length = exp.length();

		String tempStr = "";
		for (int i = 0; i < length; i++) {
			String tempChar = exp.substring(i, i + 1);
			if (isDigit(tempChar) || tempChar.equals(POINT)
					|| isNegativeSign(exp, tempChar, i)) {
				tempStr += tempChar;
			} else {
				if (!tempStr.equals("")) {
					expList.add(tempStr);
				}
				expList.add(tempChar);
				tempStr = "";
			}
		}
		if (!tempStr.equals("")) {
			expList.add(tempStr);
		}

	}

	private boolean isNumber(String str) {
		try {
			Double.parseDouble(str);
			return true;
		} catch (NumberFormatException e) {
			return false;
		}
	}

	/**
	 * 运算符str1 是否比str2优先级高
	 * 
	 * @param str1
	 * @param str2
	 * @return
	 */
	private boolean prior(String str1, String str2) {
		if ((str1.equals(MULTIPLY) || str1.equals(DIVIDE))
				&& (str2.equals(PLUS) || str2.equals(MINUS))) {
			return true;
		} else if ((str1.equals(PLUS) || str1.equals(MINUS)
				|| str1.equals(MULTIPLY) || str1.equals(DIVIDE))
				&& str2.equals(NUMBER_SIGN)) {
			return true;
		}
		return false;
	}

	/**
	 * 运算符str1 是否比str2优先级低
	 * 
	 * @param str1
	 * @param str2
	 * @return
	 */
	private boolean posterior(String str1, String str2) {
		if ((str1.equals(PLUS) || str1.equals(MINUS))
				&& (str2.equals(MULTIPLY) || str2.equals(DIVIDE))) {
			return true;
		} else if (str1.equals(NUMBER_SIGN)
				&& (str2.equals(PLUS) || str2.equals(MINUS)
						|| str2.equals(MULTIPLY) || str2.equals(DIVIDE))) {
			return true;
		}
		return false;
	}

	private void generateRPN() {
		Stack<String> s1 = new Stack<String>();
		s1.push(NUMBER_SIGN);
		Stack<String> s2 = new Stack<String>();
		for (int i = 0; i < expList.size(); i++) {
			String item = expList.get(i);
			if (isNumber(item)) {
				s2.push(item);
			} else if (item.equals(OPSTART)) {
				s1.push(item);
			} else if (item.equals(OPEND)) {
				String c;
				do {
					c = s1.pop();
					if (!c.equals(OPSTART)) {
						s2.push(c);
					}
				} while (!c.equals(OPSTART));
			} else {
				String top = s1.peek();
				if (top.equals("(")) {
					s1.push(item);
				} else {
					if (prior(item, top)) {
						s1.push(item);
					} else {
						String c;
						do {
							c = s1.pop();
							s2.push(c);
							if (posterior(s1.peek(), item)
									|| s1.peek().equals("(")
									|| s1.peek().equals(NUMBER_SIGN)) {
								break;
							}

						} while (true);
						s1.push(item);
					}
				}
			}
		}

		while (!s1.isEmpty()) {
			String c = s1.pop();
			if (!c.equals(NUMBER_SIGN)) {
				s2.push(c);
			}
		}
		rpnList = new ArrayList<String>();
		rpnList.addAll(s2);

	}

	public List<String> getRPN() {
		parse();
		generateRPN();
		return rpnList;
	}

	/**
	 * @param args
	 */
	public static void main(String[] args) {
		String exp = "7+8*2";
		ReversePolishNotation rpn = new ReversePolishNotation(exp);
		List<String> rpnExp = rpn.getRPN();
		System.out.println("算术表达式:" + exp);
		System.out.println("逆波兰表达式:" + rpnExp);

		exp = "(30-4*5)*(3+5)-5";
		rpn = new ReversePolishNotation(exp);
		rpnExp = rpn.getRPN();
		System.out.println("算术表达式:" + exp);
		System.out.println("逆波兰表达式:" + rpnExp);

		exp = "(8-4)*(88/2/11)";
		rpn = new ReversePolishNotation(exp);
		rpnExp = rpn.getRPN();
		System.out.println("算术表达式:" + exp);
		System.out.println("逆波兰表达式:" + rpnExp);
	}

}

控制台输出如下:

算术表达式:7+8*2
逆波兰表达式:[7, 8, 2, *, +]
算术表达式:(30-4*5)*(3+5)-5
逆波兰表达式:[30, 4, 5, *, -, 3, 5, +, *, 5, -]
算术表达式:(8-4)*(88/2/11)
逆波兰表达式:[8, 4, -, 88, 2, /, 11, /, *]

 

2PMMS(2-phase multiway merge sort)算法java实现

发表于

2PMMS(2-phase multiway merge sort),顾名思义,由2个阶段组成。第一个阶段将源文件分批次读到内存中,采用某种内部排序算法进行排序,然后将每次排序后的结果写到硬盘上,1个批次对应1个文件;第二个阶段将n个文件批量读到缓存里,从N个缓存序列里找到最小数,放到输出缓存里。每次放完后,要检查每个输入缓存是否读完,如果读完则从对应的文件里继续读数据到缓存,直到文件全部读完为止;并检查输出缓存是否已满,如满则输出到文件并清空输出缓存。

4个类:

(1)

public class Main {

/*
* 2 arguments
* first argument: inputfile ex: d:\\data\\input.dat
* second argument: output folder ex: d:\\data
*/
public static void main(String[] args) throws Exception {
    if(args.length!=2){
        System.out.println("arguments are not valid");
        return;
    }
    long startTime = System.currentTimeMillis();
    //read data, sort, output sorted data to files
    PhaseOne phaseOne = new PhaseOne();
    List<String> fileNameList = phaseOne.generateSortedFile(args[0], args[1]);
    //merge
    PhaseTwo phaseTwo = new PhaseTwo();
    phaseTwo.merge(fileNameList, args[1]);
    //delete temp files
    for(String fileName: fileNameList){
        new File(fileName).delete();
    }
    long finishTime = System.currentTimeMillis();
    double totalTime = (double)(finishTime - startTime) / 1000;
    System.out.println("total time: " + totalTime + " seconds");
}

}

(2)

import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.FileReader;
import java.io.FileWriter;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;

public class PhaseOne {

private final int amountOnce = 550000;

public List<String> generateSortedFile(String inputFile, String outputFolder) {
    List<String> fileNameList = new ArrayList<String>();
    BufferedReader reader = null;
    try {
        reader = new BufferedReader(new FileReader(inputFile));
        String tempString = null;
        int line = 0;
        int[] array = new int[amountOnce];
        while ((tempString = reader.readLine()) != null) {
        //System.out.println("line " + line + ": " + tempString);
        array[line % amountOnce] = Integer.parseInt(tempString);
        if(line % amountOnce == amountOnce -1){
            String fileNO = (line/amountOnce)<10 ? "0"+ line/amountOnce : String.valueOf(line/amountOnce);
            String fileName = outputFolder+ "/tmp"+ fileNO+".dat";
            writeData(array, line%amountOnce+1, fileName,fileNameList);
        }
        line++;
    }
    String fileNO = (line/amountOnce)<10 ? "0"+ line/amountOnce : String.valueOf(line/amountOnce);
    String fileName = outputFolder+ "/tmp"+ fileNO+".dat";
    writeData(array, line%amountOnce, fileName, fileNameList);
    reader.close();
} catch (IOException e) {
    e.printStackTrace();
} finally {
    if (reader != null) {
    try {
        reader.close();
    }
    catch (IOException e1) {
    }
}
return fileNameList;
}
}

private void writeData(int[] array, int length, String fileName, List<String> fileNames) throws IOException{
    Quicksort.quickSort(array, length);
    BufferedWriter output = new BufferedWriter(new FileWriter(fileName));
    for(int i=0;i<length;i++){
        output.write(String.valueOf(array[i]));
        output.write("\r\n");
    }
    output.close();
    fileNames.add(fileName);
    array = new int[amountOnce];
}
}

(3)

import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.FileOutputStream;
import java.io.FileReader;
import java.io.IOException;
import java.io.OutputStreamWriter;
import java.util.ArrayList;
import java.util.List;

public class PhaseTwo {

public static int inputBufferSize = 30000;

public static int outputBufferSize = 100000;

public static boolean finishFlag = false;

public void merge(List<String> fileNameList, String outputFolder) {
    int[] outputBuffer = new int[outputBufferSize];
    int[][] inputBuffers = new int[fileNameList.size()][inputBufferSize];
    List<BufferedReader> readers = new ArrayList<BufferedReader>();
    try {
        for(int i=0;i<fileNameList.size();i++){
            BufferedReader reader = new BufferedReader(new FileReader(fileNameList.get(i)));
            readers.add(reader);
            String tempString = null;
            int line = 0;
            while ((tempString = readers.get(i).readLine()) != null) {
            inputBuffers[i][line] = Integer.parseInt(tempString);
            line++;
            if(line >= inputBufferSize){
                break;
            }
        }
    }


    int[] pointers = new int[fileNameList.size()];

    int outputBufferIndex = 0;
    while(true){
        int min = findMin(inputBuffers,pointers, readers);
        outputBuffer[outputBufferIndex % outputBufferSize] = min;
        if(outputBufferIndex % outputBufferSize == outputBufferSize-1){
            outputData(outputBuffer, outputBufferSize, outputFolder+"/result.dat");
        }
        outputBufferIndex++;
        if(finishFlag){
            break;
        }
    }
    outputData(outputBuffer, outputBufferIndex%outputBufferSize, outputFolder+"/result.dat");

    for(int i=0;i<fileNameList.size();i++){
        readers.get(i).close();
    }
    System.out.println("------------------");

} catch (IOException e) {
    e.printStackTrace();
} finally {
    for(int i=0;i<fileNameList.size();i++){
    if (readers.get(i) != null) {
    try {
        readers.get(i).close();
    }
    catch (IOException e1) {
    }
}
}
}
}

private int findMin(int[][] arrays, int[] pointers, List<BufferedReader> readers) throws IOException{
    int min = 0;
    int index = 0;
    for(int i=0;i<arrays.length;i++){
        if(arrays[i][pointers[i]]>0){
            min = arrays[i][pointers[i]];
            index = i;
            break;
        }
    }

    for(int i=index+1;i<arrays.length;i++){
        if(arrays[i][pointers[i]]<=0){
            continue;
        }
        if(arrays[i][pointers[i]] < min){
            min = arrays[i][pointers[i]];
            index = i;
        }
    }
    pointers[index] = pointers[index]+1;

    for(int i=0;i<pointers.length;i++){
        if(pointers[i]>=inputBufferSize){
            arrays[i] = new int[inputBufferSize];
            String tempString = null;
            int line = 0;
            while ((tempString = readers.get(i).readLine()) != null) {
                arrays[i][line] = Integer.parseInt(tempString);
                line++;
                if(line >= inputBufferSize){
                    break;
                }
            }
            pointers[i]= 0;
        }
    } 

    //update finishFlag
    if(!finishFlag){
        boolean flag = true;
        for(int i=0;i<arrays.length;i++){
        if(arrays[i][pointers[i]]>0){
            flag = false;
            break;
        }
    }
    finishFlag = flag;
}
return min;
}

private void outputData(int[] outputBuffer, int length, String outputFile) throws IOException{
BufferedWriter output = new BufferedWriter(new OutputStreamWriter(new FileOutputStream(outputFile, true)));
for(int i=0;i<length;i++){
    StringBuffer sb = new StringBuffer();
    sb.append(outputBuffer[i]);
    sb.append("\r\n");
    output.write(sb.toString());
}
output.close();
outputBuffer = new int[outputBufferSize];
}

}

(4)

public class Quicksort {
    public static void quickSort(int[] data, int length) {
        recQuickSort(data, 0, length-1);
    }

private static void recQuickSort(int[] data,int left, int right) {
    if(right-left <= 0){
    return;
}
else {
    long pivot = data[right];
    int partition = partitionIt(data, left, right, pivot);
    recQuickSort(data, left, partition-1);
    recQuickSort(data, partition+1, right);
}
}

private static int partitionIt(int[] data, int left, int right, long pivot) {
    int leftPtr = left-1;
    int rightPtr = right;
    while(true) {
        while(data[++leftPtr] < pivot )
        ;
        while(rightPtr > 0 && data[--rightPtr] > pivot)
        ;
        if(leftPtr >= rightPtr){
        break;
    }
    else{
        swap(data, leftPtr, rightPtr);
    }
}
swap(data, leftPtr, right);
    return leftPtr;
}

private static void swap(int[] data, int dex1, int dex2) {
    int temp = data[dex1];
    data[dex1] = data[dex2];
    data[dex2] = temp;
}
}