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A conditional causes part of a makefile to be obeyed or ignored
depending on the values of variables. Conditionals can compare the
value of one variable to another, or the value of a variable to
a constant string. Conditionals control what make
actually
"sees" in the makefile, so they cannot be used to control shell
commands at the time of execution.
7.1 Example of a Conditional | Example of a conditional | |
7.2 Syntax of Conditionals | The syntax of conditionals. | |
7.3 Conditionals that Test Flags | Conditionals that test flags. |
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The following example of a conditional tells make
to use one set
of libraries if the CC
variable is `gcc', and a different
set of libraries otherwise. It works by controlling which of two
command lines will be used as the command for a rule. The result is
that `CC=gcc' as an argument to make
changes not only which
compiler is used but also which libraries are linked.
libs_for_gcc = -lgnu normal_libs = foo: $(objects) ifeq ($(CC),gcc) $(CC) -o foo $(objects) $(libs_for_gcc) else $(CC) -o foo $(objects) $(normal_libs) endif |
This conditional uses three directives: one ifeq
, one else
and one endif
.
The ifeq
directive begins the conditional, and specifies the
condition. It contains two arguments, separated by a comma and surrounded
by parentheses. Variable substitution is performed on both arguments and
then they are compared. The lines of the makefile following the
ifeq
are obeyed if the two arguments match; otherwise they are
ignored.
The else
directive causes the following lines to be obeyed if the
previous conditional failed. In the example above, this means that the
second alternative linking command is used whenever the first alternative
is not used. It is optional to have an else
in a conditional.
The endif
directive ends the conditional. Every conditional must
end with an endif
. Unconditional makefile text follows.
As this example illustrates, conditionals work at the textual level: the lines of the conditional are treated as part of the makefile, or ignored, according to the condition. This is why the larger syntactic units of the makefile, such as rules, may cross the beginning or the end of the conditional.
When the variable CC
has the value `gcc', the above example has
this effect:
foo: $(objects) $(CC) -o foo $(objects) $(libs_for_gcc) |
When the variable CC
has any other value, the effect is this:
foo: $(objects) $(CC) -o foo $(objects) $(normal_libs) |
Equivalent results can be obtained in another way by conditionalizing a variable assignment and then using the variable unconditionally:
libs_for_gcc = -lgnu normal_libs = ifeq ($(CC),gcc) libs=$(libs_for_gcc) else libs=$(normal_libs) endif foo: $(objects) $(CC) -o foo $(objects) $(libs) |
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The syntax of a simple conditional with no else
is as follows:
conditional-directive text-if-true endif |
The text-if-true may be any lines of text, to be considered as part of the makefile if the condition is true. If the condition is false, no text is used instead.
The syntax of a complex conditional is as follows:
conditional-directive text-if-true else text-if-false endif |
or:
conditional-directive text-if-one-is-true else conditional-directive text-if-true else text-if-false endif |
There can be as many "else
conditional-directive"
clauses as necessary. Once a given condition is true,
text-if-true is used and no other clause is used; if no
condition is true then text-if-false is used. The
text-if-true and text-if-false can be any number of lines
of text.
The syntax of the conditional-directive is the same whether the
conditional is simple or complex; after an else
or not. There
are four different directives that test different conditions. Here is
a table of them:
ifeq (arg1, arg2)
ifeq 'arg1' 'arg2'
ifeq "arg1" "arg2"
ifeq "arg1" 'arg2'
ifeq 'arg1' "arg2"
Expand all variable references in arg1 and arg2 and compare them. If they are identical, the text-if-true is effective; otherwise, the text-if-false, if any, is effective.
Often you want to test if a variable has a non-empty value. When the
value results from complex expansions of variables and functions,
expansions you would consider empty may actually contain whitespace
characters and thus are not seen as empty. However, you can use the
strip
function (see section Functions for String Substitution and Analysis) to avoid interpreting
whitespace as a non-empty value. For example:
ifeq ($(strip $(foo)),) text-if-empty endif |
will evaluate text-if-empty even if the expansion of
$(foo)
contains whitespace characters.
ifneq (arg1, arg2)
ifneq 'arg1' 'arg2'
ifneq "arg1" "arg2"
ifneq "arg1" 'arg2'
ifneq 'arg1' "arg2"
Expand all variable references in arg1 and arg2 and compare them. If they are different, the text-if-true is effective; otherwise, the text-if-false, if any, is effective.
ifdef variable-name
The ifdef
form takes the name of a variable as its
argument, not a reference to a variable. The value of that variable
has a non-empty value, the text-if-true is effective; otherwise,
the text-if-false, if any, is effective. Variables that have
never been defined have an empty value. The text variable-name
is expanded, so it could be a variable or function that expands
to the name of a variable. For example:
bar = true foo = bar ifdef $(foo) frobozz = yes endif |
The variable reference $(foo)
is expanded, yielding bar
,
which is considered to be the name of a variable. The variable
bar
is not expanded, but its value is examined to determine if
it is non-empty.
Note that ifdef
only tests whether a variable has a value. It
does not expand the variable to see if that value is nonempty.
Consequently, tests using ifdef
return true for all definitions
except those like foo =
. To test for an empty value, use
ifeq ($(foo),)
. For example,
bar = foo = $(bar) ifdef foo frobozz = yes else frobozz = no endif |
sets `frobozz' to `yes', while:
foo = ifdef foo frobozz = yes else frobozz = no endif |
sets `frobozz' to `no'.
ifndef variable-name
If the variable variable-name has an empty value, the
text-if-true is effective; otherwise, the text-if-false,
if any, is effective. The rules for expansion and testing of
variable-name are identical to the ifdef
directive.
Extra spaces are allowed and ignored at the beginning of the conditional directive line, but a tab is not allowed. (If the line begins with a tab, it will be considered a command for a rule.) Aside from this, extra spaces or tabs may be inserted with no effect anywhere except within the directive name or within an argument. A comment starting with `#' may appear at the end of the line.
The other two directives that play a part in a conditional are else
and endif
. Each of these directives is written as one word, with no
arguments. Extra spaces are allowed and ignored at the beginning of the
line, and spaces or tabs at the end. A comment starting with `#' may
appear at the end of the line.
Conditionals affect which lines of the makefile make
uses. If
the condition is true, make
reads the lines of the
text-if-true as part of the makefile; if the condition is false,
make
ignores those lines completely. It follows that syntactic
units of the makefile, such as rules, may safely be split across the
beginning or the end of the conditional.
make
evaluates conditionals when it reads a makefile.
Consequently, you cannot use automatic variables in the tests of
conditionals because they are not defined until commands are run
(see section Automatic Variables).
To prevent intolerable confusion, it is not permitted to start a
conditional in one makefile and end it in another. However, you may
write an include
directive within a conditional, provided you do
not attempt to terminate the conditional inside the included file.
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You can write a conditional that tests make
command flags such as
`-t' by using the variable MAKEFLAGS
together with the
findstring
function
(see section Functions for String Substitution and Analysis).
This is useful when touch
is not enough to make a file appear up
to date.
The findstring
function determines whether one string appears as a
substring of another. If you want to test for the `-t' flag,
use `t' as the first string and the value of MAKEFLAGS
as
the other.
For example, here is how to arrange to use `ranlib -t' to finish marking an archive file up to date:
archive.a: … ifneq (,$(findstring t,$(MAKEFLAGS))) +touch archive.a +ranlib -t archive.a else ranlib archive.a endif |
The `+' prefix marks those command lines as "recursive" so
that they will be executed despite use of the `-t' flag.
See section Recursive Use of make
.
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