Handling command line flags in C/C++
At the C level, command line arguments to a program appear in the parameters to the main
function. For instance, if you compile this program:
#include <stdio.h>
int main(int argc, char **argv)
{
int i;
for (i = 0; i < argc; i++)
printf("argv[%d] = %s\n", i, argv[i]);
return 0;
}
and invoke it with the same arguments as your example 'rm' command, you get this:
$ ./a.out -Rf test
argv[0] = ./a.out
argv[1] = -Rf
argv[2] = test
As you can see, the first entry in argv
is the name of the program itself, and the rest of the array entries are the command line arguments.
The operating system does not care at all what the arguments are; it is up to your program to interpret them. However, there are conventions for how they work, of which the following are the most important:
- Arguments are divided into options and non-options. Options start with a dash, non-options don't.
- Options, as the name implies, are supposed to be optional. If your program requires some command-line arguments to do anything at all useful, those arguments should be non-options (i.e. they should not start with a dash).
- Options can be further divided into short options, which are a single dash followed by a single letter (
-r
,-f
), and long options, which are two dashes followed by one or more dash-separated words (--recursive
,--frobnicate-the-gourds
). Short options can be glommed together into one argument (-rf
) as long as none of them takes arguments (see below). - Options may themselves take arguments.
- The argument to a short option
-x
is either the remainder of theargv
entry, or if there is no further text in that entry, the very nextargv
entry whether or not it starts with a dash. - The argument to a long option is set off with an equals sign:
--output=outputfile.txt
.
- The argument to a short option
- If at all possible, the relative ordering of distinct options (with their arguments) should have no observable effect.
- The special option
--
means "do not treat anything after this point on the command line as an option, even if it looks like one." This is so, for instance, you can remove a file named '-f
' by typingrm -- -f
. - The special option
-
means "read standard input". - There are a number of short option letters reserved by convention: the most important are
-v
= be verbose-q
= be quiet-h
= print some help text-o
file = output to file-f
= force (don't prompt for confirmation of dangerous actions, just do them)
There are a bunch of libraries for helping you parse command line arguments. The most portable, but also the most limited, of these is getopt, which is built into the C library on most systems nowadays. I recommend you read all of the documentation for GNU argp even if you don't want to use that particular one, because it'll further educate you in the conventions.
It's also worth mentioning that wildcard expansion (rm -rf *
) is done before your program is ever invoked. If you ran the above sample program as ./a.out *
in a directory containing only the binary and its source code you would get
argv[0] = ./a.out
argv[1] = a.out
argv[2] = test.c
Actually you can write your own C++ programm which accepts commandline parameters like this:
int main(int argc, char* argv[]){}
The variable argc will contain the number of parameters, while the char* will contain the parameters itself.
You can dispatch the parameters like this:
for (int i = 1; i < argc; i++)
{
if (i + 1 != argc)
{
if (strcmp(argv[i], "-filename") == 0) // This is your parameter name
{
char* filename = argv[i + 1]; // The next value in the array is your value
i++; // Move to the next flag
}
}
}
This simple program should demonstrate the arguments passed to the program (including the program name itself.)
Parsing, interpreting and using those arguments is up to the programmer (you), although there are libraries available to help:
int main(int argc, char* argv[])
{
int i;
for(i=0; i<argc; ++i)
{ printf("Argument %d : %s\n", i, argv[i]);
}
return 0;
}
If you compile this program into a.out
, and run it as:
prompt$> ./a.out ParamOne ParamTwo -rf x.c
You should see output:
Argument 0 : a.out
Argument 1 : ParamOne
Argument 2 : ParamTwo
Argument 3 : -rf
Argument 4 : x.c