NAME
makepp_incompatibilities -- Incompatibilities between makepp and GNU make
DESCRIPTION
Makepp was designed to be as close as possible to GNU make. However, because of the difference in philosophy (see makepp_build_algorithm), some of GNU make's features cannot be supported. Others have not been implemented because we haven't had time. Also, in order to emulate GNU make's behavior precisely, you may in some cases have to add additional command line options to the makepp command line, as noted below. Most of the differences from GNU make are quite technical and only rarely cause problems.
Makepp will give warning messages for many things which the traditional unix make accepts without flinching. This is because there are better ways to do them with makepp. If these warnings annoy you, you can turn them off with the --nowarn
command line option.
The
VPATH
variable is currently ignored.vpath
statements are unsupported and will cause errors. Use repositories (see makepp_repositories) instead.Pattern rules only match files in the directory (or if you set
makepp_percent_subdirs=1
, in its subdirectories). This means that a rule like this:%.o: %.c $(CC) $(CFLAGS) -c $(input) -o $(output)
will not be applied to files like
../shared/xyz.c
.A pattern rule present later in a makefile overrides one that is present earlier. This is backwards from GNU make.
Default rules (pattern rules with no pattern dependencies) are only supported with last_chance.
The set of builtin implicit rules (see makepp_builtin) is somewhat different from those for GNU make, though the variable names are largely compatible. The builtin rules should successfully compile C/C++/Fortran programs, and in fact may be able to guess the proper libraries in some cases too. Support for Modula-2 and RatFor and other rare languages is deliberately not present, because I kept running into problems with GNU make's rules when I accidently reused the extensions for those languages.
Archive members are not supported, and neither are the associated automatic variables
$%
,$(%D)
, and$(%F)
.Leading and trailing whitespace in variable assignments is ignored (even if the whitespace is followed by a comment). For more details on whitespace handling incompatibilities, see "Whitespace in variables" in makepp_variables.
Whitespace in variable names is not supported. Neither is beginning a variable name with a numeral. Words with spaces after them (and no colon on the line) are pre- or user-defined statements like
export VAR := value # Not a rule colon override global VAR = value repository dir=otherdir
and spaces in expressions delimit a pre- or user-defined function like
$(basename filenames) $(dir filenames) $(firstword words)
Makepp does not attempt to rebuild files included with the
include
statement unless the makefile contains a rule for building them before the include statement is seen. (It will attempt to rebuild the makefile itself, however.) This is normally used for handling include file dependencies, and is not as useful with makepp since you don't need to do that anyway.The
SHELL
variable is currently partially ignored. Makepp always uses /bin/sh unless/usr/xpg4/bin/sh
or/sbin/xpg4/sh
is found or unless you export theSHELL
variable in your makefile. But if you do, the command parser might not fully understand what your shell command does. On Windows Strawberry or ActiveState Perl you must instead set your SHELL variable before calling makepp.Dependencies of anything on the Makefile still work, but are usually unnecessary. This is usually used to force a rebuild when compilation options change. makepp knows when build commands have changed without anything special in the makefile; it stores this on a file-by-file basis. If you change the makefile, it knows exactly which files need recompilation.
Intermediate files are not deleted. (Because makepp insists on having all of the file dates be the same as they were on the last build, intermediate files must all be present or else rebuilds will occur.) There is no special status accorded to intermediate files. This means that the special targets
.INTERMEDIATE
,.SECONDARY
, and.PRECIOUS
are ignored.The only special target that is supported is
.PHONY
. The remaining are simply ingored.Specifically, GNU make has the following special targets:
- .SUFFIXES
-
Makepp ignores
.SUFFIXES
except for the special case of.SUFFIXES
with no dependencies, like this:.SUFFIXES:
which tells it not to load any of its default rules.
- .INTERMEDIATE, .SECONDARY, .PRECIOUS
-
No special status is accorded to intermediate files and so these targets are not meaningful.
- .IGNORE
-
This target is ignored. If you want to ignore errors, put the word
ignore_error
(or a minus sign) in front of the command whose exit status is to be ignored. - .SILENT
-
This target is ignored. If you want commands not to echo, put the word
noecho
(or the@
character) in front of the command which is not supposed to be echoed, or use the--silent
option to makepp. - .DELETE_ON_ERROR
- .EXPORT_ALL_VARIABLES
- .NOEXPORT
- .POSIX
- .DEFAULT
-
These targets are not supported and are simply ignored.
Three GNU make functions (
eval
andvalue
) are not currently supported.Double colon rules are not fully supported. (They cannot be: in makepp's paradigm, there cannot be more than one way to update a target.) Currently, each successive double colon rule for a given target simply appends its command string and dependency list to the command string and dependency list for this target. For example, if you write this:
a :: b &cat b -o a # Later in your makefile: a :: c &cat c -o >>a
it is exactly the same as if you had written
a : b c &cat b -o a &cat c -o >>a
This is certainly not what double colon rules are intended for, and it will not always work, but it does work for targets like
clean
or for all the stuff that ExtUtils::MakeMaker puts into its makefiles. Don't count on it for anything other than legacy makefiles.The
$(wildcard )
function matches not only files which exist, but also files which do not yet exist, but which have a rule which makepp has seen at the time the$(wildcard )
function is evaluated.-include
will not attempt to make the include file if it doesn't exist. Also, if the file exists but is out of date with respect to its dependencies, it will not be remade; it is not considered an implicit target.This is usually used for files containing dependency information, and since makepp is able to compute a lot of this without depending on additional tools,
-include
is not as important as it used to be.The makefile itself is ordinarily considered an implicit target. It will be rebuilt and reread if any of its dependencies have changed since the last time makepp rebuilt it.
The
define
statement is supported, but handling of@
preceding it is done differently. Currently in makepp,@
in front of a variable which has a multi-line value will only suppress echoing of the first line. For example,define echo-lines &echo line1 -o $@ &echo line2 -o>>$@ endef x: @$(echo-lines)
will not suppress printing of
&echo line2
as it does in GNU make; it will only suppress printing of&echo line1
.Makepp does not support the following environment variables (it does not set them up, and it just ignores them):
Incompatibilities without the variable makepp_percent_subdirs=1
By default, %
in a pattern rule does not match directories. Thus %.c
matches only .c
files in the current directory. If you want it to match files in subdirectories too, then set the variable makepp_percent_subdirs=1
on the command line or near the beginning of a makefile.
Incompatibilities without the -m
option
By default, makepp will attempt to rebuild all targets if any of the dependencies have changed since the last build, or if the command has changed (see makepp_signatures for details). This is normally what you want. Sometimes, however, you don't want the target to be rebuilt if it has been modified apart from the control of makepp (e.g., by editing it, or by running a program manually to make the file). You can force makepp to use the traditional make algorithm, which only rebuilds if any of the targets are newer than the dependencies, by adding the option -m target_newer
to the command line.
As a special exception, any targets which are built while rebuilding the makefile are automatically checked using the target_newer
method in order to avoid problems with configure procedures.
Incompatibilities without the --traditional-recursion
option
Recursive invocations of make are often considered to be an unsafe practice (see "Better system for hierarchical builds" in makepp for details), but they are extremely common in existing makefiles. Makepp supports recursive make for backward compatibility; for new makefiles, it is much better to use the load_makefile
statement, or makepp's implicit makefile loading mechanism.
In order to be able to use repositories for variant builds, and to help make recursive invocations of make safer, makepp normally does not actually invoke itself recursively even if you tell it to. Instead, a subprocess communicates with the parent process, and the actual build is done by the parent process.
This works in most cases, but there are a few incompatibilities. (All of these incompatibilities are removed by adding the --traditional-recursive-make
option to the command line.)
You may not invoke several makefiles from the same directory, e.g., the following will not work:
target: dependencies $(MAKE) -f other_makefile targets
However, this will work:
target: dependencies cd subdir && $(MAKE) -f other_makefile targets
Changes in environment variables are not passed to the recursive make process; the environment of the parent is used instead.
The
MAKEFLAGS
variable is not set up, and altering it has no effect.
This may seem like a long list of restrictions, but many makefiles obey them. For example, as far as I know, all makefiles produced by automake
follow these restrictions.
All of these restrictions go away if you add the --traditional-recursive-make
option to the command line, but that has the following undesirable side effects:
Recursive makes do not execute in parallel, even if the parent does.
Recursive make processes do not know anything about repositories.
Each recursive make process produces its own log file, in the directory it is invoked in, instead of producing one log file for the entire build.
Even with the --traditional-recursive-make
option, the environment variables MAKEOVERRIDES
and MFLAGS
not set up, and are ignored, so makefiles that depend on those will not work.
Incompatibilities without the makepp_simple_concatenation
variable
Rc-style substitution is the default way makepp performs variable substitution into text strings because it very rarely breaks legacy makefiles and is often useful in new makefiles. However, it does introduce occasional incompatibilities in the substitution of variables not surrounded by spaces. For example,
INCLUDE_PREFIX := -I/some/include/dir -I
INCLUDES := $(INCLUDE_PREFIX)/other/include/dir
will set INCLUDES
to -I/some/include/dir/other/include/dir -I/other/include/dir
if rc-style substitution is enabled, whereas GNU make would set it to -I/some/include/dir -I/other/include/dir
.
There is also an incompatibility in the handling of whitespace in a variable:
null :=
T := -o $(null) # T contains -o followed by one space.
OUTFILE = $(T)outfile
will set OUTFILE
to -ooutfile
if rc-style substitution is enabled, whereas GNU make would set it to -o outfile
.
Both of these incompatibilities are removed by setting the makepp_simple_concatenation
variable. Note, however, that even with makepp_simple_concatenation
, makepp still treats whitespace incompatibly in some situations:
T := -o # Don't delete this comment.
GNU make sets T
to contain -o
followed by a space, whereas makepp strips out the trailing space anyway. If you want the trailing space, you must set makepp_simple_concatenation
and also set T
using the technique involving a dummy variable such as null
, as shown above.
Command line incompatibilities
Makepp supports a few of make's more useful command line options. The following, however, are not supported, and are ignored after a warning message is printed:
- -d or --debug
- -i
- -l or --load-average or --max-load
- -m
-
Makepp's
-m
option has to do with signature method selection, whereas GNU make ignores -m. - -p or --print-data-base
- -q or --question
-
Makepp's
-q
option suppresses makepp's chatty informational messages, which is different from -q in GNU make. - -R or --no-builtin-variables
-
Makepp's
-R
option actually does something completely different. - -S --no-keep-going or --stop
-
The
--stop
option stops (puts to sleep) makepp after learning all the rules, so you can continue editing. - -t or --touch
- -w or --print-directory
-
This happens automatically.
- --no-print-directory
- --warn-undefined-variables
Some of these can be easily supported if anyone cares.
Incompatibilities in order of expression expansion
Though I have not seen this used, GNU make allows the following:
colon = :
a$(colon) b
echo $^
Makepp expands $(colon)
too late for this to work. However it offers the alternative $[colon]
syntax, which can do much more than GNU make, because it is expanded very early.
1 POD Error
The following errors were encountered while parsing the POD:
- Around line 251:
Expected text after =item, not a bullet