Solo Predictor Example Connection Code: Difference between revisions
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The following provides some standard code pieces which can be used to make connections to Solo_Predictor. These examples may not be appropriate for all applications (e.g. none of these examples are asynchronous calls. They all 'block' the program execution until Solo_Predictor returns a result.) In addition, additional error checking and input/output parsing is required in most cases | The following provides some standard code pieces which can be used to make connections to Solo_Predictor using HTTP (Hypertext Transfer Protocol) requests or low-level sockets directly. These examples may not be appropriate for all applications (e.g. none of these examples are asynchronous calls. They all 'block' the program execution until Solo_Predictor returns a result.) In addition, additional error checking and input/output parsing is required in most cases. | ||
==Examples using HTTP== | |||
===Matlab – HTTP Connection=== | |||
Matlab script demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The script sends a message and retrieve the response. HTTP client code is much simpler than the sockets examples shown below. | |||
<pre> | |||
% Load and view a data file | |||
msg = 'input=''C:/eigenu_dm/datafolder/spectrum1.spc'';:xml;input;'; | |||
% Create the request string | |||
serverIPAddress = '127.0.0.1'; | |||
serverPort = '2211'; | |||
httpstr = ['http://', serverIPAddress, ':', serverPort, '/?']; | |||
httpURL = sprintf('http://%s:%s/?%s', serverIPAddress, serverPort, urlencode(msg)); | |||
% Make HTTP request and read response as text | |||
webData = webread(httpURL); | |||
disp(sprintf('Response is: \n%s\n', webData)); | |||
</pre> | |||
===Java – HTTP Connection=== | |||
Here is an example in Java demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The program sends a message and retrieves the response using the java.net.HttpURLConnection class. | |||
<pre> | |||
package sp_client; | |||
import java.io.BufferedReader; | |||
import java.io.InputStreamReader; | |||
import java.net.HttpURLConnection; | |||
import java.net.URL; | |||
import java.net.URLEncoder; | |||
import java.nio.charset.StandardCharsets; | |||
public class HttpClient { | |||
private final String USER_AGENT = "Mozilla/5.0"; | |||
// HTTP GET request | |||
private void sendGet() throws Exception { | |||
String url = "http://127.0.0.1:2211/?:version"; | |||
String msg = ":plain;data=\'C:/Proj1/datafolder/spectrum1.spc\';" | |||
+ "model = \'C:/Proj1/modelfolder/plsmodel.mat\';" | |||
+ "pred = data | model;pred.prediction;"; | |||
msg = URLEncoder.encode(msg, StandardCharsets.UTF_8.toString()); | |||
url = "http://127.0.0.1:2211/?" + msg; | |||
URL obj = new URL(url); | |||
HttpURLConnection con = (HttpURLConnection) obj.openConnection(); | |||
// optional default is GET | |||
con.setRequestMethod("GET"); | |||
//add request header | |||
con.setRequestProperty("User-Agent", USER_AGENT); | |||
int responseCode = con.getResponseCode(); | |||
System.out.println("\nSending 'GET' request to URL : " + url); | |||
System.out.println("Response Code : " + responseCode); | |||
BufferedReader in = new BufferedReader( | |||
new InputStreamReader(con.getInputStream())); | |||
String inputLine; | |||
StringBuffer response = new StringBuffer(); | |||
while ((inputLine = in.readLine()) != null) { | |||
response.append(inputLine); | |||
} | |||
in.close(); | |||
//print result | |||
System.out.println(response.toString()); | |||
} | |||
public static void main(String[] args) throws Exception { | |||
HttpClient http = new HttpClient(); | |||
// Send Http GET request | |||
http.sendGet(); | |||
} | |||
} | |||
</pre> | |||
===Python – HTTP Connection=== | |||
An example in Python demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The program sends a message and retrieves the response using the Python "requests" library. | |||
<pre> | |||
import requests | |||
#r = requests.get('http://127.0.0.1:2211/?:version') # simple test of connectivity | |||
r = requests.get('http://127.0.0.1:2211/?:plain; data = \'C:/Proj1/datafolder/spectrum1.spc\';model = \'C:/Proj1/modelfolder/plsmodel.mat\'; pred = data | model; pred.prediction;') | |||
print('status_code = ', r.status_code) | |||
prediction_result = r.text # reads content of the response, which should be 20.18080 | |||
</pre> | |||
===Web Browser - HTTP Connection=== | |||
Finally, the same HTTP request can be conveniently sent from a web browser, for example Firefox or Chrome, using the URL: | |||
<pre> | |||
:xml;data = 'C:/Proj1/datafolder/spectrum1.spc';model = 'C:/Proj1/modelfolder/plsmodel.mat'; pred = data | model; pred.prediction; | |||
</pre> | |||
The error status is also included in the response and will include an error message if an error occurred. This can be a very convenient means of quickly testing a command. | |||
==Examples using Sockets== | |||
===C# - Socket Connection=== | ===C# - Socket Connection=== | ||
The | The example code expects three variables: ServerIP as a string indicating the server's IP address, Port as an integer giving the server's port number, and command as a string command to send. It returns Solo_Predictor's output in a variable called outputString. This code requires the following "using" declarations: | ||
using System; | using System; | ||
| Line 10: | Line 118: | ||
using System.ComponentModel; | using System.ComponentModel; | ||
Note that no object or function declarations are given in this code but would generally be required. This function also sets the ReceiveTimeout property on the socket to 2000 milliseconds. This setting can be adjusted as required by the application. The total time of most calls to Solo_Predict is 1/2 second or less (testing | Note that no object or function declarations are given in this code but would generally be required. This function also sets the ReceiveTimeout property on the socket to 2000 milliseconds. This setting can be adjusted as required by the application. The total time of most calls to Solo_Predict is 1/2 second or less (testing application of a PLS model to a 200 point vector took an average of 0.2 seconds including I/O overhead.) | ||
<pre> | <pre> | ||
| Line 17: | Line 125: | ||
{ | { | ||
//make connection to server | //make connection to server | ||
socketForServer = new TcpClient( | socketForServer = new TcpClient(ServerIP,Port); | ||
} | } | ||
catch | catch | ||
| Line 45: | Line 153: | ||
networkStream.Close(); // tidy up | networkStream.Close(); // tidy up | ||
</pre> | </pre> | ||
===Matlab – Socket Connection=== | ===Matlab – Socket Connection=== | ||
| Line 55: | Line 159: | ||
<pre> | <pre> | ||
import java.io. | import java.io.*; | ||
import java.net.\ | import java.net.*; | ||
% Example of how to set parameters. The msg command simply retrieves the loaded dataset in this simple example. | |||
% srv = java.lang.String('127.0.0.1'); | |||
% port = 2211; | |||
% msg = 'input=''C:\Data\proj1\spectrum1.spc'';:xml;input;'; | |||
%Create socket connection and socket reader and writers | %Create socket connection and socket reader and writers | ||
| Line 74: | Line 183: | ||
%wait for reply ready | %wait for reply ready | ||
starttime = now; | starttime = now; | ||
while | while ~clientIn.ready | ||
if (now-starttime)>60/60/60/24; | if (now-starttime)>60/60/60/24; | ||
error('No response from server') | error('No response from server') | ||
Latest revision as of 15:17, 23 September 2022
The following provides some standard code pieces which can be used to make connections to Solo_Predictor using HTTP (Hypertext Transfer Protocol) requests or low-level sockets directly. These examples may not be appropriate for all applications (e.g. none of these examples are asynchronous calls. They all 'block' the program execution until Solo_Predictor returns a result.) In addition, additional error checking and input/output parsing is required in most cases.
Examples using HTTP
Matlab – HTTP Connection
Matlab script demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The script sends a message and retrieve the response. HTTP client code is much simpler than the sockets examples shown below.
% Load and view a data file
msg = 'input=''C:/eigenu_dm/datafolder/spectrum1.spc'';:xml;input;';
% Create the request string
serverIPAddress = '127.0.0.1';
serverPort = '2211';
httpstr = ['http://', serverIPAddress, ':', serverPort, '/?'];
httpURL = sprintf('http://%s:%s/?%s', serverIPAddress, serverPort, urlencode(msg));
% Make HTTP request and read response as text
webData = webread(httpURL);
disp(sprintf('Response is: \n%s\n', webData));
Java – HTTP Connection
Here is an example in Java demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The program sends a message and retrieves the response using the java.net.HttpURLConnection class.
package sp_client;
import java.io.BufferedReader;
import java.io.InputStreamReader;
import java.net.HttpURLConnection;
import java.net.URL;
import java.net.URLEncoder;
import java.nio.charset.StandardCharsets;
public class HttpClient {
private final String USER_AGENT = "Mozilla/5.0";
// HTTP GET request
private void sendGet() throws Exception {
String url = "http://127.0.0.1:2211/?:version";
String msg = ":plain;data=\'C:/Proj1/datafolder/spectrum1.spc\';"
+ "model = \'C:/Proj1/modelfolder/plsmodel.mat\';"
+ "pred = data | model;pred.prediction;";
msg = URLEncoder.encode(msg, StandardCharsets.UTF_8.toString());
url = "http://127.0.0.1:2211/?" + msg;
URL obj = new URL(url);
HttpURLConnection con = (HttpURLConnection) obj.openConnection();
// optional default is GET
con.setRequestMethod("GET");
//add request header
con.setRequestProperty("User-Agent", USER_AGENT);
int responseCode = con.getResponseCode();
System.out.println("\nSending 'GET' request to URL : " + url);
System.out.println("Response Code : " + responseCode);
BufferedReader in = new BufferedReader(
new InputStreamReader(con.getInputStream()));
String inputLine;
StringBuffer response = new StringBuffer();
while ((inputLine = in.readLine()) != null) {
response.append(inputLine);
}
in.close();
//print result
System.out.println(response.toString());
}
public static void main(String[] args) throws Exception {
HttpClient http = new HttpClient();
// Send Http GET request
http.sendGet();
}
}
Python – HTTP Connection
An example in Python demonstrating how a client program can communicate with Solo_Predictor (acting as the server) using the HTTP protocol. The program sends a message and retrieves the response using the Python "requests" library.
import requests
#r = requests.get('http://127.0.0.1:2211/?:version') # simple test of connectivity
r = requests.get('http://127.0.0.1:2211/?:plain; data = \'C:/Proj1/datafolder/spectrum1.spc\';model = \'C:/Proj1/modelfolder/plsmodel.mat\'; pred = data | model; pred.prediction;')
print('status_code = ', r.status_code)
prediction_result = r.text # reads content of the response, which should be 20.18080
Web Browser - HTTP Connection
Finally, the same HTTP request can be conveniently sent from a web browser, for example Firefox or Chrome, using the URL:
:xml;data = 'C:/Proj1/datafolder/spectrum1.spc';model = 'C:/Proj1/modelfolder/plsmodel.mat'; pred = data | model; pred.prediction;
The error status is also included in the response and will include an error message if an error occurred. This can be a very convenient means of quickly testing a command.
Examples using Sockets
C# - Socket Connection
The example code expects three variables: ServerIP as a string indicating the server's IP address, Port as an integer giving the server's port number, and command as a string command to send. It returns Solo_Predictor's output in a variable called outputString. This code requires the following "using" declarations:
using System; using System.Net.Sockets; using System.ComponentModel;
Note that no object or function declarations are given in this code but would generally be required. This function also sets the ReceiveTimeout property on the socket to 2000 milliseconds. This setting can be adjusted as required by the application. The total time of most calls to Solo_Predict is 1/2 second or less (testing application of a PLS model to a 200 point vector took an average of 0.2 seconds including I/O overhead.)
TcpClient socketForServer;
try
{
//make connection to server
socketForServer = new TcpClient(ServerIP,Port);
}
catch
{
outputString = "ERROR: Failed to connect to server";
return;
}
//get stream and stream reader/writer
NetworkStream networkStream = socketForServer.GetStream();
System.IO.StreamReader streamReader = new System.IO.StreamReader(networkStream);
System.IO.StreamWriter streamWriter = new System.IO.StreamWriter(networkStream);
try
{
//send command to server
streamWriter.WriteLine(command);
streamWriter.Flush();
//wait for and retrieve response
string outputString;
socketForServer.ReceiveTimeout = 2000;
outputString = streamReader.ReadToEnd();
}
catch
{
outputString = "ERROR: Exception reading from Server";
}
networkStream.Close(); // tidy up
Matlab – Socket Connection
This code example runs in Matlab and makes use of Java commands to create a socket connection, send a message, and retrieve the response. It assumes that an input message exists in the variable msg as a string command to send and the server ip and port are in the variables srv and port.
import java.io.*;
import java.net.*;
% Example of how to set parameters. The msg command simply retrieves the loaded dataset in this simple example.
% srv = java.lang.String('127.0.0.1');
% port = 2211;
% msg = 'input=''C:\Data\proj1\spectrum1.spc'';:xml;input;';
%Create socket connection and socket reader and writers
clientSocket = java.net.Socket(srv,port);
iStream_client = clientSocket.getInputStream;
iReader_client = InputStreamReader(iStream_client);
outStream_client = clientSocket.getOutputStream;
%create buffers for socket
clientOut = PrintWriter(outStream_client, true);
clientIn = BufferedReader(iReader_client);
%send message to Solo_Predictor
clientOut.println(java.lang.String(msg));
clientOut.flush;
%wait for reply ready
starttime = now;
while ~clientIn.ready
if (now-starttime)>60/60/60/24;
error('No response from server')
end
end
%read in reply and store in cell array
rcv = {};
while clientIn.ready;
rcv{end+1} = char(readLine(clientIn));
end
%concatenate string reply with linefeeds
if length(rcv)>1;
rcv = sprintf('%s\n',rcv{:});
else
rcv = rcv{1};
end