从互联网获取数据android [英] Get Data from the internet android
本文介绍了从互联网获取数据android的处理方法,对大家解决问题具有一定的参考价值,需要的朋友们下面随着小编来一起学习吧!
问题描述
我想构建一个从互联网获取数据的Android应用程序。所以例如我想创建一个非常简单的股票应用程序,它使用来自雅虎财务的数据。我只想这样做一个学习过程。有人可以给我一些解释的代码示例,或者给我推荐一些在这个领域中指定的书籍。谢谢!
I would like to build an Android application that takes data from the Internet. So for example I would like to create a very simple stocks application, which uses data from Yahoo finance. I just want to do this for a learning process. So could someone give me examples of code with explanation or recommend me a few books books, which are specified in this field, please. Thanks!
推荐答案
尝试这个:这是一个例子,我们在NTP中花费时间。
Try this out: This is an example where in we take time from NTP.
SntpClient client = new SntpClient();
String dateFromNtpServer = "";
if (client.requestTime("0.us.pool.ntp.org", 30000)) {
time = client.getNtpTime();
newTime = time;
Log.d("shetty", newTime + "....newTime");
Calendar calendar = Calendar.getInstance();
try {
calendar.setTimeInMillis(time);
calendar.getTime();
GMTtoEST gmttoest = new GMTtoEST();
dateFromNtpServer = gmttoest
.ReturnMeEst(calendar.getTime());
dateFromNtpServer = dateFromNtpServer + " EST";
} catch (Exception e) {
// TODO: handle exception
dateFromNtpServer = "No Response from NTP";
}
}
2)GMTToEst.java
2)GMTToEst.java
import java.text.DateFormat;
import java.text.SimpleDateFormat;
import java.util.Date;
import java.util.TimeZone;
public class GMTtoEST {
public static void main(String args[]) {
Date date = new Date();
DateFormat estFormat = new SimpleDateFormat();
DateFormat gmtFormat = new SimpleDateFormat();
TimeZone gmtTime = TimeZone.getTimeZone("GMT");
TimeZone estTime = TimeZone.getTimeZone("EST");
estFormat.setTimeZone(gmtTime);
gmtFormat.setTimeZone(estTime);
System.out.println("GMT Time: " + estFormat.format(date));
System.out.println("EST Time: " + gmtFormat.format(date));
}
public String ReturnMeEst(Date GmtTime) {
// Date date = new Date();
DateFormat estFormat = new SimpleDateFormat();
DateFormat gmtFormat = new SimpleDateFormat();
TimeZone gmtTime = TimeZone.getTimeZone("GMT");
TimeZone estTime = TimeZone.getTimeZone("EST");
estFormat.setTimeZone(gmtTime);
String timeInGmt = "";
gmtFormat.setTimeZone(estTime);
// System.out.println("GMT Time: " + estFormat.format(date));
System.out.println("EST Time: " + gmtFormat.format(GmtTime));
timeInGmt = gmtFormat.format(GmtTime);
return timeInGmt;
}
}
3)SntpClient.java
3)SntpClient.java
import java.net.DatagramPacket;
import java.net.DatagramSocket;
import java.net.InetAddress;
import android.os.SystemClock;
import android.util.Config;
import android.util.Log;
/**
* {@hide}
*
* Simple SNTP client class for retrieving network time.
*
* Sample usage:
* <pre>SntpClient client = new SntpClient();
* if (client.requestTime("time.foo.com")) {
* long now = client.getNtpTime() + SystemClock.elapsedRealtime() - client.getNtpTimeReference();
* }
* </pre>
*/
public class SntpClient
{
private static final String TAG = "SntpClient";
private static final int REFERENCE_TIME_OFFSET = 16;
private static final int ORIGINATE_TIME_OFFSET = 24;
private static final int RECEIVE_TIME_OFFSET = 32;
private static final int TRANSMIT_TIME_OFFSET = 40;
private static final int NTP_PACKET_SIZE = 48;
private static final int NTP_PORT = 123;
private static final int NTP_MODE_CLIENT = 3;
private static final int NTP_VERSION = 3;
// Number of seconds between Jan 1, 1900 and Jan 1, 1970
// 70 years plus 17 leap days
private static final long OFFSET_1900_TO_1970 = ((365L * 70L) + 17L) * 24L * 60L * 60L;
// system time computed from NTP server response
private long mNtpTime;
// value of SystemClock.elapsedRealtime() corresponding to mNtpTime
private long mNtpTimeReference;
// round trip time in milliseconds
private long mRoundTripTime;
/**
* Sends an SNTP request to the given host and processes the response.
*
* @param host host name of the server.
* @param timeout network timeout in milliseconds.
* @return true if the transaction was successful.
*/
public boolean requestTime(String host, int timeout) {
try {
DatagramSocket socket = new DatagramSocket();
socket.setSoTimeout(timeout);
InetAddress address = InetAddress.getByName(host);
byte[] buffer = new byte[NTP_PACKET_SIZE];
DatagramPacket request = new DatagramPacket(buffer, buffer.length, address, NTP_PORT);
// set mode = 3 (client) and version = 3
// mode is in low 3 bits of first byte
// version is in bits 3-5 of first byte
buffer[0] = NTP_MODE_CLIENT | (NTP_VERSION << 3);
// get current time and write it to the request packet
long requestTime = System.currentTimeMillis();
long requestTicks = SystemClock.elapsedRealtime();
writeTimeStamp(buffer, TRANSMIT_TIME_OFFSET, requestTime);
socket.send(request);
// read the response
DatagramPacket response = new DatagramPacket(buffer, buffer.length);
socket.receive(response);
long responseTicks = SystemClock.elapsedRealtime();
long responseTime = requestTime + (responseTicks - requestTicks);
socket.close();
// extract the results
long originateTime = readTimeStamp(buffer, ORIGINATE_TIME_OFFSET);
long receiveTime = readTimeStamp(buffer, RECEIVE_TIME_OFFSET);
long transmitTime = readTimeStamp(buffer, TRANSMIT_TIME_OFFSET);
long roundTripTime = responseTicks - requestTicks - (transmitTime - receiveTime);
// receiveTime = originateTime + transit + skew
// responseTime = transmitTime + transit - skew
// clockOffset = ((receiveTime - originateTime) + (transmitTime - responseTime))/2
// = ((originateTime + transit + skew - originateTime) +
// (transmitTime - (transmitTime + transit - skew)))/2
// = ((transit + skew) + (transmitTime - transmitTime - transit + skew))/2
// = (transit + skew - transit + skew)/2
// = (2 * skew)/2 = skew
long clockOffset = ((receiveTime - originateTime) + (transmitTime - responseTime))/2;
// if (Config.LOGD) Log.d(TAG, "round trip: " + roundTripTime + " ms");
// if (Config.LOGD) Log.d(TAG, "clock offset: " + clockOffset + " ms");
// save our results - use the times on this side of the network latency
// (response rather than request time)
mNtpTime = responseTime + clockOffset;
mNtpTimeReference = responseTicks;
mRoundTripTime = roundTripTime;
} catch (Exception e) {
if (Config.LOGD)
Log.d(TAG, "request time failed: " + e);
return false;
}
return true;
}
/**
* Returns the time computed from the NTP transaction.
*
* @return time value computed from NTP server response.
*/
public long getNtpTime() {
return mNtpTime;
}
/**
* Returns the reference clock value (value of SystemClock.elapsedRealtime())
* corresponding to the NTP time.
*
* @return reference clock corresponding to the NTP time.
*/
public long getNtpTimeReference() {
return mNtpTimeReference;
}
/**
* Returns the round trip time of the NTP transaction
*
* @return round trip time in milliseconds.
*/
public long getRoundTripTime() {
return mRoundTripTime;
}
/**
* Reads an unsigned 32 bit big endian number from the given offset in the buffer.
*/
private long read32(byte[] buffer, int offset) {
byte b0 = buffer[offset];
byte b1 = buffer[offset+1];
byte b2 = buffer[offset+2];
byte b3 = buffer[offset+3];
// convert signed bytes to unsigned values
int i0 = ((b0 & 0x80) == 0x80 ? (b0 & 0x7F) + 0x80 : b0);
int i1 = ((b1 & 0x80) == 0x80 ? (b1 & 0x7F) + 0x80 : b1);
int i2 = ((b2 & 0x80) == 0x80 ? (b2 & 0x7F) + 0x80 : b2);
int i3 = ((b3 & 0x80) == 0x80 ? (b3 & 0x7F) + 0x80 : b3);
return ((long)i0 << 24) + ((long)i1 << 16) + ((long)i2 << 8) + (long)i3;
}
/**
* Reads the NTP time stamp at the given offset in the buffer and returns
* it as a system time (milliseconds since January 1, 1970)
*/
public long readTimeStamp(byte[] buffer, int offset) {
long seconds = read32(buffer, offset);
long fraction = read32(buffer, offset + 4);
return ((seconds - OFFSET_1900_TO_1970) * 1000) + ((fraction * 1000L) / 0x100000000L);
}
/**
* Writes system time (milliseconds since January 1, 1970) as an NTP time stamp
* at the given offset in the buffer.
*/
private void writeTimeStamp(byte[] buffer, int offset, long time) {
long seconds = time / 1000L;
long milliseconds = time - seconds * 1000L;
seconds += OFFSET_1900_TO_1970;
// write seconds in big endian format
buffer[offset++] = (byte)(seconds >> 24);
buffer[offset++] = (byte)(seconds >> 16);
buffer[offset++] = (byte)(seconds >> 8);
buffer[offset++] = (byte)(seconds >> 0);
long fraction = milliseconds * 0x100000000L / 1000L;
// write fraction in big endian format
buffer[offset++] = (byte)(fraction >> 24);
buffer[offset++] = (byte)(fraction >> 16);
buffer[offset++] = (byte)(fraction >> 8);
// low order bits should be random data
buffer[offset++] = (byte)(Math.random() * 255.0);
}
}
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