PHP CLI Input/Output from keyboard, pipe or arguments
Somewhere in the certification guide there is a chapter dedicated to “streams”.
A small part of it represents the input, output and error streams from PHP. C/C++ has famous stdio.h library, but few people knows that input from keyboard is possible in PHP too.
In short, this can be achieved with PHP://STDIN, PHP://STDOUT and PHP://STDERR.
As this subject is panicking a lot of developers that are studding for ZCE, let’s get the confusion out. A stream represents a flow of information, just like when your reading and internal or external file using fopen.
But as a programmer best understands from cod, let’s get to more practical stuff.
Input
For input there is PHP://STDIN.
The next script is reading input from the keyboard:
1#!/usr/bin/php
2<?php
3// initializing the input stream
4$input = fopen('php://stdin', 'r');
5
6// welcome message
7echo 'Type "exit" and then enter to exit' . PHP_EOL;
8
9// reading the stream input
10while($line = fgets($input, 1024)) {
11 // exit condition with line terminator
12 if($line == 'exit' . PHP_EOL) {
13 echo 'bye bye' . PHP_EOL;
14 break;
15 }
16 // displaying the input from the keyboard
17 echo 'You say: ' . $line . PHP_EOL;
18}
19
20// close stream
21fclose($input);
The first line of code is specially for Linux/Unix, and Windows users can remove it.
The cod above must be placed in to a file, like for instance testStream.php.
You must have execution rights for that file, witch can be achieved with:
1chmod +x testStream.php
Then the file can be executed in Linux directly with:
1$./testStream.php
In Windows you must give the absolute path to PHP, if the path is not already in the system include path:
1>c:\php\php.exe testStream.php
Notice that the input is with “\n” or “\r\n” at the end of the line, that’s why I’m testing “exit” with the line terminator (PHP_EOL). I’m using PHP_EOL so it can work with both Linux/Unix and Windows.
Output
For output there is PHP://STDOUT.
Unlike input, the output is a lot less relevant. Basically the output is the standard one which can be achieved with echo and print.
But for educational purpose let’s modify the previous file to use PHP://STDOUT:
1#!/usr/bin/php
2<?php
3// initializing the input stream
4$input = fopen('php://stdin', 'r');
5
6// initializing the output stream
7$output = fopen('php://stdout', 'w');
8
9// welcome message
10fwrite($output, 'Type "exit" and then enter to exit' . PHP_EOL);
11// reading the steam input
12while($line = fgets($input, 1024)) {
13 // exit condition with line terminator
14 if($line == 'exit' . PHP_EOL) {
15 fwrite($output, 'bye bye' . PHP_EOL);
16 break;
17 }
18 // displaying the input from the keyboard
19 fwrite($output, 'You say: ' . $line . PHP_EOL);
20}
21
22// close input stream
23fclose($input);
24
25// close output stream
26fclose($output);
Basically there isn’t any change in the script, is just that the output was displayed using PHP://STDOUT explicitly.
Error
A more interesting subject then the output is the error stream.
Basically is more relevant in the Unix/Linux environment, probably is relevant in Windows too but I don’t know how to capture it. If your reading this blog and you know how to do this please leave a comment below.
And again let’s change the script so that error messages will use the proper stream. I’ll output an error each time the user enters more then 5 characters (I’m sorry but I don’t have a lot of ideas right now):
1#!/usr/bin/php
2<?php
3// initializing the input stream
4$input = fopen('php://stdin', 'r');
5
6// initializing the output stream
7$output = fopen('php://stdout', 'w');
8
9// initializing the error stream
10$err = fopen('php://stderr', 'w');
11
12// welcome message
13fwrite($output, 'Type "exit" and then enter to exit' . PHP_EOL);
14
15// reading the steam input
16while($line = fgets($input, 1024)) {
17 // exit condition with line terminator
18 if($line == 'exit' . PHP_EOL) {
19 fwrite($output, 'bye bye' . PHP_EOL);
20 break;
21 }
22
23 if(strlen($line) > 5) {
24 fwrite($err, 'WARNING! Input greater then 5 characters: ' . $line);
25 continue;
26 }
27
28 // displaying the input from the keyboard
29 fwrite($output, 'Ai scris: ' . $line . PHP_EOL);
30}
31
32// close input stream
33fclose($input);
34
35// close output stream
36fclose($output);
37
38// close error stream
39fclose($err);
By default in Linux error messages are displayed to the screen, but there are scenarios when the errors are redirected for instance to a log file .
To redirect the error messages to a log file 2>> is used like in the following example:
1$./testStream 2>>testStream.log
Input from PIPE (|)
Let’s take the fallowing scenario: the output of a previous operation contains a serious of email addresses that are both valid and invalid. There should be two files: valid.txt with valid addresses and invalid.txt with invalid ones. The email addresses will be send to the script using pipe.
The list of email addresses will be simulated using a file called email.txt:
1valid_addres@yahoo.com
2another_valid@yahoo.co.uk
3invalid@y.c
4good@gmail.com
5invalid addres@hotmail.com
6foo
The name of the script will be emailTest.php:
1#!/usr/bin/php
2<?php
3// initializing the input stream
4$input = fopen('php://stdin', 'r');
5
6// initializing error stream
7$err = fopen('php://stderr', 'w');
8
9// unlike the previous cases, here is tested for the end of the file
10// because the input is not coming from keyboard
11while(!feof($input)) {
12 // the value is trimmed to remove line terminators
13 $line = trim(fgets($input, 1024));
14
15 // test email address
16 if(filter_var($line, FILTER_VALIDATE_EMAIL)) {
17 // direct output, equivalent to php://stdout stream
18 echo $line . PHP_EOL;
19 } else {
20 // invalid addresses are redirected to the php://stderr stream
21 // to be intercepted later
22 fputs($err, $line . PHP_EOL);
23 }
24}
25
26// close input stream
27fclose($input);
28
29// close error stream
30fclose($err);
For testing I’ll simulate the output of email addresses with the cat command:
1cat email.txt |./emailTest.php >valid.txt 2>invalid.txt
Now the files valid.txt and invalid.txt from the current directory contain the proper values.
Processing like this is very useful for complex operations. Basically is an alternative to Shell Scripting (linux) or Batch Scripting (windows), which are not as flexible.
Script arguments
Often is useful to send direct arguments to a script to have, for instance, a different functionality.
Let’s change the previous scenario to receive the name of the file that contains the email address, as a script argument.
The script arguments are automatically stored in the $argv variable. Notice the first element of the array ($argv[0]) is the name of the script!
The modified example is as follows:
1#!/usr/bin/php
2<?php
3
4// the count stars at 1 to eliminate the name of the script
5for ($i = 1; $i < count($argv); $i++) {
6 // initializing the input stream
7 $input = fopen($argv[$i], 'r');
8
9 // initializing error stream
10 $err = fopen('php://stderr', 'w');
11
12 if(!$input) {
13 continue;
14 }
15
16 // unlike the previous cases, here is tested for the end of the file
17 // because the input is not coming from keyboard
18 while(!feof($input)) {
19 // the value is trimmed to remove line terminators
20 $line = trim(fgets($input, 1024));
21
22 // test email address
23 if(filter_var($line, FILTER_VALIDATE_EMAIL)) {
24 // direct output, equivalent to php://stdout stream
25 echo $line . PHP_EOL;
26 } else {
27 // invalid addresses are redirected to the php://stderr stream
28 // to be intercepted later
29 fputs($err, $line . PHP_EOL);
30 }
31 }
32
33 // close input stream
34 fclose($input);
35
36 // close error stream
37 fclose($err);
38}
Now just run the script with arguments:
1$./argTest.php email.txt >valid.txt 2>invalid.txt