### @configure_input@ # Copyright (C) 2000-2022 Free Software Foundation, Inc. # This file is part of GNU Emacs. # GNU Emacs is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # GNU Emacs is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with GNU Emacs. If not, see . SHELL = @SHELL@ srcdir = @srcdir@ top_srcdir = @top_srcdir@ top_builddir = @top_builddir@ lisp = $(srcdir) VPATH = $(srcdir) EXEEXT = @EXEEXT@ # Empty for all systems except MinGW, where xargs needs an explicit # limitation. XARGS_LIMIT = @XARGS_LIMIT@ HAVE_NATIVE_COMP = @HAVE_NATIVE_COMP@ ifeq ($(HAVE_NATIVE_COMP),yes) ifndef NATIVE_FULL_AOT NATIVE_SKIP_NONDUMP = 1 endif endif -include ${top_builddir}/src/verbose.mk FIND_DELETE = @FIND_DELETE@ # You can specify a different executable on the make command line, # e.g. "make EMACS=../src/emacs ...". # We never change directory before running Emacs, so a relative file # name is fine, and makes life easier. If we need to change # directory, we can use emacs --chdir. EMACS = ../src/emacs${EXEEXT} # Command line flags for Emacs. EMACSOPT = -batch --no-site-file --no-site-lisp # Extra flags to pass to the byte compiler BYTE_COMPILE_EXTRA_FLAGS = # For example to not display the undefined function warnings you can use this: # BYTE_COMPILE_EXTRA_FLAGS = --eval '(setq byte-compile-warnings (quote (not unresolved)))' # The example above is just for developers, it should not be used by default. # All generated autoload files. loaddefs = $(shell find ${srcdir} -name '*loaddefs.el' ! -name '.*') # Elisp files auto-generated. AUTOGENEL = ${loaddefs} ${srcdir}/cus-load.el ${srcdir}/finder-inf.el \ ${srcdir}/subdirs.el ${srcdir}/eshell/esh-groups.el # Set load-prefer-newer for the benefit of the non-bootstrappers. BYTE_COMPILE_FLAGS = \ --eval "(setq load-prefer-newer t byte-compile-warnings 'all)" \ $(BYTE_COMPILE_EXTRA_FLAGS) # ... but we must prefer .elc files for those in the early bootstrap. compile-first: BYTE_COMPILE_FLAGS = $(BYTE_COMPILE_EXTRA_FLAGS) # Files to compile before others during a bootstrap. This is done to # speed up the bootstrap process. They're ordered by size, so we use # the slowest-compiler on the smallest file and move to larger files # as the compiler gets faster. 'loaddefs-gen.elc'/'radix-tree.el' # comes last because they're not used by the compiler (so its # compilation does not speed up subsequent compilations), it's only # placed here so as to speed up generation of the loaddefs.el files. COMPILE_FIRST = \ $(lisp)/emacs-lisp/macroexp.elc \ $(lisp)/emacs-lisp/cconv.elc \ $(lisp)/emacs-lisp/byte-opt.elc \ $(lisp)/emacs-lisp/bytecomp.elc ifeq ($(HAVE_NATIVE_COMP),yes) COMPILE_FIRST += $(lisp)/emacs-lisp/comp.elc COMPILE_FIRST += $(lisp)/emacs-lisp/comp-cstr.elc endif COMPILE_FIRST += $(lisp)/emacs-lisp/loaddefs-gen.elc COMPILE_FIRST += $(lisp)/emacs-lisp/radix-tree.elc # Files to compile early in compile-main. Works around bug#25556. # Also compile the ja-dic file used to convert the Japanese dictionary # to speed things up. The org files are used to convert org files to # texi files. MAIN_FIRST = ./emacs-lisp/eieio.el ./emacs-lisp/eieio-base.el \ ./cedet/semantic/db.el ./emacs-lisp/cconv.el \ ./international/ja-dic-cnv.el \ ./org/ox.el ./org/ox-texinfo.el ./org/org-macro.el ./org/org-element.el \ ./org/oc.el ./org/ol.el ./emacs-lisp/cl-lib.el # Prevent any settings in the user environment causing problems. unexport EMACSDATA EMACSDOC EMACSLOADPATH EMACSPATH # The actual Emacs command run in the targets below. emacs = '$(EMACS)' $(EMACSOPT) ## Subdirectories, relative to builddir. SUBDIRS = $(sort $(shell find ${srcdir} -type d -print)) ## Subdirectories, relative to srcdir. SUBDIRS_REL = $(patsubst ${srcdir}%,.%,${SUBDIRS}) ## All subdirectories except 'obsolete' and 'term'. SUBDIRS_ALMOST = $(filter-out ${srcdir}/obsolete ${srcdir}/term,${SUBDIRS}) ## All subdirectories except 'obsolete', 'term', and 'leim' (and subdirs). ## We don't want the leim files listed as packages, especially ## since many share basenames with files in language/. SUBDIRS_FINDER = $(filter-out ${srcdir}/leim%,${SUBDIRS_ALMOST}) ## All subdirectories in which we might want to create subdirs.el. SUBDIRS_SUBDIRS = $(filter-out ${srcdir}/cedet% ${srcdir}/leim%,${SUBDIRS}) # cus-load, finder-inf and autoloads are not explicitly requested by # anything, so we add them here to make sure they get built. all: compile-main $(lisp)/cus-load.el $(lisp)/finder-inf.el generate-ja-dic \ org-manuals autoloads PHONY_EXTRAS = .PHONY: all custom-deps finder-data autoloads update-subdirs $(PHONY_EXTRAS) \ generate-ja-dic org-manuals # custom-deps and finder-data both used to scan _all_ the *.el files. # This could lead to problems in parallel builds if automatically # generated *.el files (eg loaddefs etc) were being changed at the same time. # One solution was to add autoloads as a prerequisite: # https://lists.gnu.org/r/emacs-pretest-bug/2007-01/msg00469.html # https://lists.gnu.org/r/bug-gnu-emacs/2007-12/msg00171.html # However, this meant that running these targets modified loaddefs.el, # every time (due to time-stamping). Calling these rules from # bootstrap-after would modify loaddefs after src/emacs, resulting # in make install remaking src/emacs for no real reason: # https://lists.gnu.org/r/emacs-devel/2008-02/msg00311.html # Nowadays these commands don't scan automatically generated files, # since they will never contain any useful information # (see finder-no-scan-regexp and custom-dependencies-no-scan-regexp). custom-deps: $(AM_V_at)$(MAKE) PHONY_EXTRAS=$(lisp)/cus-load.el $(lisp)/cus-load.el $(lisp)/cus-load.el: $(AM_V_GEN)$(emacs) -l cus-dep \ --eval '(setq generated-custom-dependencies-file (unmsys--file-name "$(srcdir)/cus-load.el"))' \ -f custom-make-dependencies ${SUBDIRS_ALMOST} finder-data: $(AM_V_at)$(MAKE) PHONY_EXTRAS=$(lisp)/finder-inf.el \ $(lisp)/finder-inf.el $(lisp)/finder-inf.el: $(AM_V_GEN)$(emacs) -l finder \ --eval '(setq generated-finder-keywords-file (unmsys--file-name "$(srcdir)/finder-inf.el"))' \ -f finder-compile-keywords-make-dist ${SUBDIRS_FINDER} # This is the OKURO-NASI compilation trigger. generate-ja-dic: main-first $(AM_V_at)$(MAKE) -C ../leim generate-ja-dic EMACS="$(EMACS)" $(AM_V_at)$(MAKE) compile-targets TARGETS="./leim/ja-dic/ja-dic.elc" org-manuals: main-first $(AM_V_at)$(MAKE) -C ../doc/misc org.texi modus-themes.texi ## Comments on loaddefs generation: # loaddefs depends on gen-lisp because in ../src, the emacs target # depends on loaddefs, but not on, for instance, leim-list. So having # leim as a dependency of loaddefs (via gen-lisp) ensures leim-list # gets created before the final emacs is dumped. Having leim # dependencies in ../src as well would create a parallel race # condition. # # FIXME: Is the following true any more? # # We'd really like to add "make -C ../admin/unidata all" to gen-lisp, # but it causes a race condition in parallel builds because ../src # also runs that rule. Given the limitations of recursive make, the # only way to fix that would be to remove unidata from ../src rules, # but that doesn't seem possible due to the various non-trivial # dependencies. # The real dependencies of loaddefs.el aren't known to Make, they are # implemented in loaddefs-generate--emacs-batch, so autoloads is an # "all" dependency. "leim" isn't really a dependency here, but we # need leim-list.el at about the same time, so ensure that it's # generated, too. autoloads: $(lisp)/emacs-lisp/loaddefs-gen.elc gen-lisp $(AM_V_GEN)$(emacs) \ -l $(lisp)/emacs-lisp/loaddefs-gen.elc \ -f loaddefs-generate--emacs-batch ${SUBDIRS_ALMOST} # autoloads always runs, but only updates when there's something new. # Provide a force option to enable regeneration of all loaddefs files. .PHONY: autoloads-force autoloads-force: rm -f $(lisp)/loaddefs.el $(MAKE) autoloads ldefs-boot.el: autoloads-force sed '/^;; Local Variables:/a ;; no-byte-compile: t'\ < $(lisp)/loaddefs.el > $(lisp)/ldefs-boot.el # This is required by the bootstrap-emacs target in ../src/Makefile, so # we know that if we have an emacs executable, we also have a subdirs.el. $(lisp)/subdirs.el: $(AM_V_GEN)$(MAKE) update-subdirs update-subdirs: $(AM_V_at)for file in ${SUBDIRS_SUBDIRS}; do \ $(srcdir)/../build-aux/update-subdirs $$file; \ done; .PHONY: updates repo-update update-authors # Some modes of make-dist use this. updates: update-subdirs autoloads finder-data custom-deps # This is useful after updating from the repository; but it doesn't do # anything that a plain "make" at top-level doesn't. The only # difference between this and this directory's "all" rule is that this # runs "autoloads" as well (because it uses "compile" rather than # "compile-main"). In a bootstrap, $(lisp) in src/Makefile triggers # this directory's autoloads rule. repo-update: compile finder-data custom-deps # Update etc/AUTHORS update-authors: $(emacs) -L "$(top_srcdir)/admin" -l authors \ -f batch-update-authors "$(top_srcdir)/etc/AUTHORS" "$(top_srcdir)" FORCE: .PHONY: FORCE tagsfiles = $(shell find ${srcdir} -name '*.el' \ ! -name '.*' ! -name '*loaddefs.el') tagsfiles := $(filter-out ${srcdir}/ldefs-boot.el,${tagsfiles}) tagsfiles := $(filter-out ${srcdir}/eshell/esh-groups.el,${tagsfiles}) ETAGS = ../lib-src/etags${EXEEXT} ${ETAGS}: FORCE ${MAKE} -C ../lib-src $(notdir $@) ## The use of xargs is to stop the command line getting too long ## on MS Windows, when the MSYS Bash passes it to a MinGW compiled ## etags. It might be better to use find in a similar way to ## compile-main. But maybe this is not even necessary any more now ## that this uses relative filenames. TAGS: ${ETAGS} ${tagsfiles} $(AM_V_GEN)rm -f $@ $(AM_V_at)touch $@ $(AM_V_at)ls ${tagsfiles} | xargs $(XARGS_LIMIT) "${ETAGS}" -a -o $@ # The src/Makefile.in has its own set of dependencies and when they decide # that one Lisp file needs to be re-compiled, we had better recompile it as # well, otherwise every subsequent make will again call us, until we finally # end up deciding that yes, the file deserves recompilation. # One option is to try and reproduce exactly the same dependencies here as # we have in src/Makefile.in, but it turns out to be painful # (e.g. src/Makefile.in may have a dependency for ../lisp/foo.elc where we # only know of $(lisp)/foo.elc). So instead we provide a direct way for # src/Makefile.in to rebuild a particular Lisp file, no questions asked. # Use byte-compile-refresh-preloaded to try and work around some of # the most common problems of not bootstrapping from a clean state. THEFILE = no-such-file .PHONY: $(THEFILE)c $(THEFILE)c: ifeq ($(HAVE_NATIVE_COMP),yes) $(AM_V_ELC)$(emacs) $(BYTE_COMPILE_FLAGS) \ -l comp -f byte-compile-refresh-preloaded \ -f batch-byte+native-compile $(THEFILE) else $(AM_V_ELC)$(emacs) $(BYTE_COMPILE_FLAGS) \ -l bytecomp -f byte-compile-refresh-preloaded \ -f batch-byte-compile $(THEFILE) endif ifeq ($(HAVE_NATIVE_COMP),yes) .PHONY: $(THEFILE)n $(THEFILE)n: $(AM_V_ELN)$(emacs) $(BYTE_COMPILE_FLAGS) \ -l comp -f byte-compile-refresh-preloaded \ --eval '(batch-native-compile t)' $(THEFILE) endif # Files MUST be compiled one by one. If we compile several files in a # row (i.e., in the same instance of Emacs) we can't make sure that # the compilation environment is clean. We also set the load-path of # the Emacs used for compilation to the current directory and its # subdirectories, to make sure require's and load's in the files being # compiled find the right files. .SUFFIXES: .elc .el # An old-fashioned suffix rule, which, according to the GNU Make manual, # cannot have prerequisites. ifeq ($(HAVE_NATIVE_COMP),yes) ifeq ($(ANCIENT),yes) # The first compilation of compile-first, using an interpreted compiler: # The resulting .elc files get given a date of 1971-01-01 so that their # date stamp is earlier than the source files, causing these to be compiled # into native code at the second recursive invocation of this $(MAKE), # using these .elc's. This is faster than just compiling the native code # directly using the interpreted compile-first files. (Note: 1970-01-01 # fails on some systems.) .el.elc: $(AM_V_ELC)$(emacs) $(BYTE_COMPILE_FLAGS) \ -l comp -f batch-byte-compile $< touch -t 197101010000 $@ else .el.elc: $(AM_V_ELC)$(emacs) $(BYTE_COMPILE_FLAGS) \ -l comp -f batch-byte+native-compile $< endif else .el.elc: $(AM_V_ELC)$(emacs) $(BYTE_COMPILE_FLAGS) -f batch-byte-compile $< endif .PHONY: compile-first compile-main compile compile-always compile-first: $(COMPILE_FIRST) # In 'compile-main' we could directly do # ... | xargs $(MAKE) # and it works, but it generates a lot of messages like # make[2]: gnus/gnus-mlspl.elc is up to date. # so instead, we use "xargs echo" to split the list of file into manageable # chunks and then use an intermediate 'compile-targets' target so the # actual targets (the .elc files) are not mentioned as targets on the # make command line. .PHONY: compile-targets # TARGETS is set dynamically in the recursive call from 'compile-main'. # Do not build comp.el unless necessary not to exceed max-lisp-eval-depth # in normal builds. ifneq ($(HAVE_NATIVE_COMP),yes) compile-targets: $(filter-out ./emacs-lisp/comp-cstr.elc,$(filter-out ./emacs-lisp/comp.elc,$(TARGETS))) else compile-targets: $(TARGETS) endif # Compile all the Elisp files that need it. Beware: it approximates # 'no-byte-compile', so watch out for false-positives! # The "autoloads" target has to run first, because it may generate new # loaddefs files. But don't depend on it, because that might trigger # unnecessary rebuilds. compile-main: gen-lisp compile-clean main-first | autoloads @(cd $(lisp) && \ els=`echo "${SUBDIRS_REL} " | sed -e 's|/\./|/|g' -e 's|/\. | |g' -e 's| |/*.el |g'`; \ for el in $$els; do \ test -f $$el || continue; \ test ! -f $${el}c && \ GREP_OPTIONS= grep '^;.*[^a-zA-Z]no-byte-compile: *t' $$el > /dev/null && \ continue; \ echo "$${el}c"; \ done | xargs $(XARGS_LIMIT) echo) | \ while read chunk; do \ $(MAKE) compile-targets \ NATIVE_DISABLED=$(NATIVE_SKIP_NONDUMP) \ TARGETS="$$chunk"; \ done # Compile some important files first. main-first: @(cd $(lisp) && \ for el in ${MAIN_FIRST}; do \ echo "$${el}c"; \ done | xargs $(XARGS_LIMIT) echo) | \ while read chunk; do \ $(MAKE) compile-targets \ NATIVE_DISABLED=$(NATIVE_SKIP_NONDUMP) \ TARGETS="$$chunk"; \ done .PHONY: compile-clean # Erase left-over .elc files that do not have a corresponding .el file. compile-clean: @cd $(lisp) && \ elcs=`echo "${SUBDIRS_REL} " | sed -e 's|/\./|/|g' -e 's|/\. | |g' -e 's| |/*.elc |g'`; \ for el in `echo $$elcs | sed -e 's/\.elc/\.el/g'`; do \ if test -f "$$el" || test ! -f "$${el}c"; then :; else \ echo rm "$${el}c"; \ rm "$${el}c"; \ fi; \ done .PHONY: gen-lisp leim semantic ## make -C ../admin/unidata all should be here, but that would race ## with ../src. See comments above for loaddefs. gen-lisp: leim semantic # (re)compile titdic-cnv before recursing into `leim` since its used to # generate some of the Quail source files from tables. leim: $(lisp)/international/titdic-cnv.elc $(MAKE) -C ../leim all EMACS="$(EMACS)" semantic: $(MAKE) -C ../admin/grammars all EMACS="$(EMACS:.%=../.%)" # Compile all Lisp files, but don't recompile those that are up to # date. Some .el files don't get compiled because they set the # local variable no-byte-compile. # Calling make recursively because suffix rule cannot have prerequisites. compile: $(LOADDEFS) autoloads compile-first $(MAKE) compile-main # Compile all Lisp files. This is like 'compile' but compiles files # unconditionally. Some files don't actually get compiled because they # set the local variable no-byte-compile. compile-always: find $(lisp) -name '*.elc' $(FIND_DELETE) $(MAKE) compile .PHONY: backup-compiled-files compile-after-backup # Backup compiled Lisp files in elc.tar.gz. If that file already # exists, make a backup of it. backup-compiled-files: -mv $(lisp)/elc.tar.gz $(lisp)/elc.tar.gz~ -tar czf $(lisp)/elc.tar.gz $(lisp)/*.elc $(lisp)/*/*.elc $(lisp)/*/*/*.elc $(lisp)/*/*/*/*.elc # Compile Lisp files, but save old compiled files first. compile-after-backup: backup-compiled-files compile-always # This does the same job as the "compile" rule, but in a different way. # Rather than spawning a separate Emacs instance to compile each file, # it uses the same Emacs instance to compile everything. # This is faster on a single core, since it avoids the overhead of # starting Emacs many times (it was 33% faster on a test with a # random 10% of the .el files needing recompilation). # Unlike compile, this is not parallelizable; so if you have more than # one core and use make -j#, compile will be (much) faster. # This rule also produces less accurate compilation warnings. # The environment of later files is affected by definitions in # earlier ones, so it does not produce some warnings that it should. # It can also produces spurious warnings about "invalid byte code" if # files that use byte-compile-dynamic are updated. # There is no reason to use this rule unless you only have a single # core and CPU time is an issue. .PHONY: compile-one-process compile-one-process: $(LOADDEFS) compile-first $(emacs) $(BYTE_COMPILE_FLAGS) \ --eval "(batch-byte-recompile-directory 0)" $(lisp) .PHONY: bootstrap-clean distclean maintainer-clean bootstrap-clean: find $(lisp) -name '*.elc' $(FIND_DELETE) rm -f $(AUTOGENEL) distclean: -rm -f ./Makefile $(lisp)/loaddefs.el $(lisp)/loaddefs.elc maintainer-clean: distclean bootstrap-clean rm -f TAGS .PHONY: check-declare check-declare: $(emacs) -l check-declare --eval '(check-declare-directory "$(lisp)")' ## This finds a lot of duplicates between foo.el and obsolete/foo.el. check-defun-dups: sed -n -e '/^(defun /s/\(.\)(.*/\1/p' \ $$(find . -name '*.el' ! -name '.*' -print | \ grep -Ev '(loaddefs|ldefs-boot)\.el|obsolete') | sort | uniq -d # Dependencies ## None of the following matters for bootstrap, which is the only way ## to ensure a correct compilation of all lisp files. ## Manually specifying dependencies of a handful of lisp files, (and ## ones that don't change very often at that) seems pretty pointless ## to me. # https://debbugs.gnu.org/1004 # CC Mode uses a compile time macro system which causes a compile time # dependency in cc-*.elc files on the macros in other cc-*.el and the # version string in cc-defs.el. $(lisp)/progmodes/cc-align.elc\ $(lisp)/progmodes/cc-cmds.elc $(lisp)/progmodes/cc-compat.elc\ $(lisp)/progmodes/cc-engine.elc $(lisp)/progmodes/cc-fonts.elc\ $(lisp)/progmodes/cc-langs.elc $(lisp)/progmodes/cc-menus.elc\ $(lisp)/progmodes/cc-mode.elc $(lisp)/progmodes/cc-styles.elc\ $(lisp)/progmodes/cc-vars.elc: \ $(lisp)/progmodes/cc-bytecomp.elc $(lisp)/progmodes/cc-defs.elc $(lisp)/progmodes/cc-align.elc $(lisp)/progmodes/cc-cmds.elc: \ $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-engine.elc $(lisp)/progmodes/cc-compat.elc: \ $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-styles.elc \ $(lisp)/progmodes/cc-engine.elc $(lisp)/progmodes/cc-defs.elc: $(lisp)/progmodes/cc-bytecomp.elc $(lisp)/progmodes/cc-engine.elc: $(lisp)/progmodes/cc-langs.elc \ $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-fonts.elc: $(lisp)/progmodes/cc-langs.elc \ $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-engine.elc $(lisp)/progmodes/cc-langs.elc: $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-mode.elc: $(lisp)/progmodes/cc-langs.elc \ $(lisp)/progmodes/cc-vars.elc $(lisp)/progmodes/cc-engine.elc \ $(lisp)/progmodes/cc-styles.elc $(lisp)/progmodes/cc-cmds.elc \ $(lisp)/progmodes/cc-align.elc $(lisp)/progmodes/cc-menus.elc $(lisp)/progmodes/cc-styles.elc: $(lisp)/progmodes/cc-vars.elc \ $(lisp)/progmodes/cc-align.elc # https://debbugs.gnu.org/43037 # js.elc (like all modes using CC Mode's compile time macros) needs to # be compiled under the same version of CC Mode it will run with. $(lisp)/progmodes/js.elc: $(lisp)/progmodes/cc-defs.elc \ $(lisp)/progmodes/cc-engine.elc $(lisp)/progmodes/cc-mode.elc # Makefile ends here.