Okay boys and girls, lesson time.
What's happening when you execute this line?
if true ; then echo 1 ; fi
What's happening here is that the if
command is being executed. After that everything that happens is part of the if
command.
What if
does is it executes one or more commands (or rather, pipelines) and, if the return code from the last command executed was successful, it executes the commands after then
until fi
is reached. If the return code was not successful the then
part is skipped and execution continues after fi
.
if
takes no switches, its behavior is not modifiable in anyway.
In the example above the command I told if
to execute was true
. true
is not syntax or a keyword, it's just another command. Try executing it by itself:
true
It will print nothing, but it set its return code to 0
(aka "true"). You can more clearly see that it is a command by rewriting the above if
statement like this:
if /bin/true ; then echo 1 ; fi
Which is entirely equivalent.
Always returning true from a test is not very useful. It is typical to use if
in conjunction with the test
command. test
is sometimes symlinked to or otherwise known as [
. On your system you probably have a /bin/[
program, but if you're using bash
[
will be a builtin command. test
is a more complex command than if
and you can read all about it.
help [
man [
But for now let us say that test
performs some tests according to the options you supply and returns with either a successful return code (0
) or an unsuccessful one. This allows us to say
if [ 1 -lt 2 ] ; then echo one is less than two ; fi
But again, this is always true, so it's not very useful. It would be more useful if 1
and 2
were variables
read -p' Enter first number: ' first
read -p' Enter second number: ' second
echo first: $first
echo second: $second
if [ $first -lt $second ] ; then
echo $first is less than $second
fi
Now you can see that test
is doing its job. Here we are passing test
four arguments. The second argument is -lt
which is a switch telling test
that the first argument and third argument should be tested to see if the first argument is less than the third argument. The fourth argument does nothing but mark the end of the command; when calling test
as [
the final argument must always be ]
.
Before the above if
statement is executed the variables are evaluated. Suppose that I had entered 20 for first
and 25 for second
, after evaluation the script will look like this:
read -p' Enter first number: ' first
read -p' Enter second number: ' second
echo first: 20
echo second: 25
if [ 20 -lt 25 ] ; then
echo 20 is less than 25
fi
And now you can see that when test
is executed it will be testing is 20 less than 25?
, which is true, so if
will execute the then
statement.
Bringing it back to the question at hand: What's going on here?
var1=true
var2=false
if ! $var1 -a $var2 ; then
echo $var1 and $var2 are both true
fi
When the if
command is evaluated it will become
if ! true -a false ; then
This is instructing if
to execute true
and passing the arguments -a false
to the true
command. Now, true
doesn't take any switches or arguments, but it also will not produce an error if you supply them without need. This means that it will execute, return success and the -a false
part will be ignored. The !
will reverse the success in to a failure and the then
part will not be executed.
If you were to replace the above with a version calling test
it would still not work as desired:
var1=true
var2=false
if ! [ $var1 -a $var2 ] ; then
echo $var1 and $var2 are both true
fi
Because the if
line would be evaluated to
if ! [ true -a false ; ] then
And test
would see true
not as a boolean keyword, and not as a command, but as a string. Since a non-empty string is treated as "true" by test
it will always return success to if
, even if you had said
if ! [ false -a yourmom ] ; then
Since both are non-empty strings -a
tests both as true, returns success which is reversed with !
and passed to if
, which does not execute the then
statement.
If you replace the test
version with this version
if ! $var1 && $var2 ; then
Then it will be evaluated in to
if ! true && false ; then
And will be processed like this: if
executes true
which returns success; which is reversed by !
; because the return code of the first command was failure the &&
statement short circuits and false
never gets executed. Because the final command executed returned a failure, failure is passed back to if
which does not execute the then
clause.
I hope this is all clear.
It is perhaps worth pointing out that you can use constructs like this:
! false && true && echo 1
Which does not use if
but still checks return codes, because that is what &&
and ||
are for.
There is kind of a black art to using test
without making any mistakes. In general, when using bash
, the newer [[
command should be used instead because it is more powerful and does away with lots of gotchas which must, for compatibility reasons, be kept in [
.
Since the original poster did not supply a realistic example of what he's trying to accomplish it's hard to give any specific advice as to the best solution. Hopefully this has been sufficiently helpful that he can now figure out the correct thing to do.