Parameter
Last updated on
Oct 30, 2023
Description
A function that returns a Future object. For more information, see Asynchronous programming in ColdFusion.
Returns
A Future object.
Syntax
RunAsync() RunAsync(UDFMethod function) RunAsync(UDFMethod function, long timeOut)
History
New in ColdFusion (2018 release).
Parameters
|
|
Required/Optional |
Description |
|---|---|---|
|
function |
Optional |
Closure function that returns a Future object, which holds the result of execution, status, and so on. |
|
timeOut |
Optional |
Timeout in milliseconds. |
Example 1
<cfscript>
//To run a function asynchronously and get the result
future = runAsync(function(){
return "Hello World!";
});
result = future;
writeOutput(result.get());
</cfscript>
Example 2
In this example, you'll see how we chain two methods, display a result.
<cfscript>
// Define a function to fetch the response from a URL
function fetchResponseFromURL(url) {
result = "";
httpService = new http(method = "GET", charset = "utf-8", url = url);
httpService.addParam(name = "q", type = "url", value = "cfml");
result = httpService.send().getPrefix();
writeDump(result);
return result;
}
// once the response is fetched, do the processing (here we just deserialize the json)
future = runAsync(function(){
return fetchResponseFromUrl("http://date.jsontest.com/");
}).then( function(input){
return deserializeJson(input.FileContent)
});
result = future.get()
writedump(result);
</cfscript>
Output
Example 3
In this example, you'll see a non-blocking scenario where we've defined asynchronous functions to send email and SMS.
<cfscript>
// Define an asynchronous function to send an email
function sendEmailAsync(toAddress, subject, body) {
cfmail(to=toAddress, subject=subject, body=body, type="html");
}
// Define an asynchronous function to send an SMS
function sendSmsAsync(phoneNumber, message) {
// Replace the following line with your actual SMS sending logic
// Example: sendSmsFunction(phoneNumber, message);
}
// List of recipients with real-world-like data
recipients = [
{ email: "recipient1@example.com", phone: "1234567890", subject: "Subject 1", body: "Body 1" },
{ email: "recipient2@example.com", phone: "0987654321", subject: "Subject 2", body: "Body 2" },
{ email: "recipient3@example.com", phone: "5555555555", subject: "Subject 3", body: "Body 3" },
{ email: "recipient4@example.com", phone: "6666666666", subject: "Subject 4", body: "Body 4" },
{ email: "recipient5@example.com", phone: "7777777777", subject: "Subject 5", body: "Body 5" },
{ email: "recipient6@example.com", phone: "8888888888", subject: "Subject 6", body: "Body 6" },
{ email: "recipient7@example.com", phone: "9999999999", subject: "Subject 7", body: "Body 7" },
{ email: "recipient8@example.com", phone: "1010101010", subject: "Subject 8", body: "Body 8" },
{ email: "recipient9@example.com", phone: "2020202020", subject: "Subject 9", body: "Body 9" },
{ email: "recipient10@example.com", phone: "3030303030", subject: "Subject 10", body: "Body 10" }
];
// Start the email sending process asynchronously for each recipient
for (var i = 1; i <= arrayLen(recipients); i++) {
var recipient = recipients[i];
runAsync(function() {
sendEmailAsync(recipient.email, recipient.subject, recipient.body);
});
}
// Start the SMS sending process asynchronously for each recipient
for (var i = 1; i <= arrayLen(recipients); i++) {
var recipient = recipients[i];
runAsync(function() {
sendSmsAsync(recipient.phone, "SMS message content");
});
}
// The following code will execute immediately without waiting for the email and SMS sending processes to complete
writeOutput("In main thread...<br>");
</cfscript>
Example 4
In this example, you'll learn to use parallel processing using runAsync, where you'll generate the first 100000 Fibonacci numbers, and also perform a matrix multiplication.
<cfscript>
//Task 1
fibonacciTask = runAsync(function(){
// Generate first 10000000 Fibonacci numbers
fib = [0, 1];
for (var i = 3; i < 10000000; i++) {
fib[i] = fib[i-1] + fib[i-2];
}
return fib;
});
// Task 2
matrixMultiplicationTask = runAsync(function(){
var matrix1 = [];
var matrix2 = [];
var result = [];
// Generate random matrices (for simplicity, let's assume values are between 1 and 10)
for (var i = 1; i <= 200; i++) {
matrix1[i] = [];
matrix2[i] = [];
result[i] = [];
for (var j = 1; j <= 200; j++) {
matrix1[i][j] = randRange(1, 10);
matrix2[i][j] = randRange(1, 10);
}
}
// Multiply matrices
for (var i = 1; i <= 200; i++) {
for (var j = 1; j <= 200; j++) {
result[i][j] = 0;
for (var k = 1; k <= 200; k++) {
result[i][j] = result[i][j] + matrix1[i][k] * matrix2[k][j];
}
}
}
return result;
});
//Task 3
sleepingTask = runAsync(function(){
sleep(9000);
});
writedump(fibonacciTask.get());
writedump(matrixMultiplicationTask.get());
writedump(sleepingTask.get());
</cfscript>
Example 5
In this example, you'll learn to use parallel processing using runAsync, where you'll check if a number is prime, calculate the sum of the prime numbers, and start multiple asynchronous tasks to calculate the sum of prime numbers in parallel.
<cfscript>
// Function to check if a number is prime
function isPrime(num) {
if (num <= 1) return false;
if (num <= 3) return true;
if (num MOD 2 EQ 0 OR num MOD 3 EQ 0) return false;
var i = 5;
while (i * i <= num) {
if (num MOD i EQ 0 OR num MOD (i + 2) EQ 0) return false;
i = i + 6;
}
return true;
}
// Function to calculate the sum of prime numbers
function calculatePrimeSum(start, end) {
var sum = 0;
for (var i = start; i <= end; i++) {
if (isPrime(i)) {
sum = sum + i;
}
}
return sum;
}
// Define the range for prime number calculation
startRange = 1;
endRange = 10000;
// Start multiple asynchronous tasks to calculate the sum of prime numbers in parallel
task1Id = runAsync(function() {
result1 = calculatePrimeSum(startRange, 2500);
return result1;
});
task2Id = runAsync(function() {
result2 = calculatePrimeSum(2501, 5000);
return result2;
});
task3Id = runAsync(function() {
result3 = calculatePrimeSum(5001, 7500);
return result3;
});
task4Id = runAsync(function() {
result4 = calculatePrimeSum(7501, endRange);
return result4;
});
// The following code will execute immediately without waiting for the async tasks to complete
writeOutput("In main thread...<br>...<br>");
writeDump(var=task1Id.get(), label="Task 1 ID");
writeDump(var=task2Id.get(), label="Task 2 ID");
writeDump(var=task3Id.get(), label="Task 3 ID");
writeDump(var=task4Id.get(), label="Task 4 ID");
</cfscript>
Output
In main thread...
...
420812 1127324 1749901 2438359