# Comfignat makefile foundation for configuring and building GNAT projects # Copyright 2013 - 2014 B. Persson, Bjorn@Rombobeorn.se # # This material is provided as is, with absolutely no warranty expressed # or implied. Any use is at your own risk. # # Permission is hereby granted to use or copy this makefile # for any purpose, provided the above notices are retained on all copies. # Permission to modify the code and to distribute modified code is granted, # provided the above notices are retained, and a notice that the code was # modified is included with the above copyright notice. # This file is part of Comfignat 1.3 – common, convenient, command-line- # controlled compile-time configuration of software built with the GNAT tools. # For information about Comfignat, see http://www.Rombobeorn.se/Comfignat/. # This file contains generic Make code. It is designed to be included by other # makefiles, called containing makefiles, which add information specific to the # project at hand. Builds are controlled by GNAT project files which import the # abstract project Comfignat and use the directory variables it defines. For # libraries there shall also be usage projects to be installed on the target # system. Usage projects and the Comfignat project will be preprocessed with # Gnatprep. (Build projects may also be preprocessed.) # # If a directories project is provided, then the project files will get the # directory variables from there, otherwise the Make variables will be used. # # This file may not work with other Make clones than GNU Make. (Reusable Make # code is pretty much impossible to write without advanced Make features.) If # Make cannot be used for whatever reason, then it's not too difficult to run # the project files through Gnatprep manually. # # First of all, define some functions and constants for processing directory # variables: # nil = inert_space = _Comfignat_magic_protective_space_character_substitute_ inert_tab = _Comfignat_magic_protective_tab_character_substitute_ inert_percent = _Comfignat_magic_protective_percent_character_substitute_ mung_string = ${subst %,${inert_percent},${subst ${nil} ,${inert_tab},${subst ${nil} ,${inert_space},${1}}}} unmung_string = ${subst ${inert_percent},%,${subst ${inert_tab}, ,${subst ${inert_space}, ,${1}}}} # mung_string and unmung_string are used to prevent Make from interpreting # space and percent characters in strings. relativize = ${if ${filter ${2}%,${1}}, \ ${3}${1:${2}%=%}, \ ${call relativize,${1},${dir ${2:%/=%}},${3}../}} # relativize is the recursive algorithm that converts an absolute pathname into # a relative one. # Parameters: # 1: an absolute pathname to convert to relative # 2: the absolute base pathname, being shortened until it's a prefix of 1 # 3: a growing series of "../" to lead the relative pathname with # If 2 is a prefix of 1, then return 3 concatenated with the part of 1 that # differs from 2. Otherwise delete the last element of 2, add one level of # "../" to 3, and repeat. # Within relativize all pathnames have one trailing slash so that only whole # directory names will match. Otherwise "/usr/lib" could match "/usr/lib64" for # example. prepare_pathname = ${subst //,/,${abspath ${call mung_string,${1}}}/} # prepare_pathname prepares a pathname for use as a parameter to relativize. # · Protect space and percent characters from interpretation by Make. # · Normalize the pathname, eliminating ".", ".." and "//". # · Append a slash. # · If the input was "/", then it is now "//". Change that back to "/". relative_to = \ ${or ${call unmung_string \ ,${patsubst %/,%,${call relativize \ ,${call prepare_pathname,${1}} \ ,${call prepare_pathname,${2}},}}},.} # relative_to converts an absolute pathname into a relative one. What it # actually does is to prepare the input to relativize and fix up its output. # Parameters: # 1: an absolute pathname to convert to relative # 2: the absolute base pathname that 1 shall be made relative to # Processing: # · Prepare the two input pathnames with prepare_pathname. # · Call relativize with the prepared pathnames for parameters 1 and 2, and # an empty string for 3. # · Strip the result of surrounding spaces and the trailing slash. # · Reverse the protection of space and percent characters. # · If the result is an empty string, then return "." instead. make_pathname = ${call relative_to,${${1}},${CURDIR}} # make_pathname takes the name of a variable whose value is an absolute # pathname, and converts that pathname into the right form for usage in Make # targets, prerequisites and functions, which means that it is made relative # to the current working directory to prevent spaces in parent directories' # names from breaking Make. # # Program-name variables and the usual options variables are picked up from the # environment or the command line: # GNATPREP ?= gnatprep GNAT_BUILDER ?= gprbuild # If GNAT_BUILDER looks like it will invoke Gnatmake, then make the default # value of GNATFLAGS compatible with Gnatmake. Otherwise make it suitable for # building multi-language projects with GPRbuild. GNATFLAGS ?= ${if ${findstring gnatmake, \ ${notdir ${call mung_string,${GNAT_BUILDER}}}}, \ ${GNAT_BUILDER_FLAGS} \ -cargs ${ADAFLAGS} \ -bargs ${GNATBINDFLAGS} \ -largs ${GNATLINKFLAGS} ${LDFLAGS}, \ ${GNAT_BUILDER_FLAGS} \ -cargs:Ada ${ADAFLAGS} \ -cargs:C ${CPPFLAGS} ${CFLAGS} \ -cargs:C++ ${CPPFLAGS} ${CXXFLAGS} \ -cargs:Fortran ${FFLAGS} \ -bargs ${GNATBINDFLAGS} \ -largs ${LDFLAGS}} # (DESTDIR is also supported.) # Containing makefiles may assign default values to the options variables # GNATPREPFLAGS, GNAT_BUILDER_FLAGS, ADAFLAGS, CPPFLAGS, CFLAGS, CXXFLAGS, # FFLAGS, GNATBINDFLAGS, GNATLINKFLAGS and LDFLAGS if they are undefined in the # environment, but should expect that users and distributions may override # those defaults. # # These variables should be overridden on the command line as needed, but will # not be picked up from the environment: # dirgpr = # dirgpr should be the filename of the target system's directories project if # there is one. The Gnatprep symbols Directories_GPR and Directories_Project # will be derived from dirgpr, and project files will be configured to use the # directories project. relocatable_package = false # If relocatable_package is true, then directory variables in project files # will be configured with relative pathnames so that the installed directory # tree as a whole can be moved to another location in the filesystem without # breaking the project files. # dirgpr takes precedence over relocatable_package. prefix = /usr/local exec_prefix = ${prefix} datarootdir = ${prefix}/share localstatedir = ${prefix}/var # These variables are used in constructing the default values of the directory # variables below. bindir = ${exec_prefix}/bin libexecdir = ${exec_prefix}/libexec datadir = ${datarootdir} sysconfdir = ${prefix}/etc statedir = ${localstatedir}/lib cachedir = ${localstatedir}/cache logdir = ${localstatedir}/log runstatedir = /run lockdir = ${runstatedir}/lock includedir = ${prefix}/include archincludedir = ${includedir} libdir = ${exec_prefix}/lib alidir = ${libdir} gprdir = ${datarootdir}/gpr localedir = ${datarootdir}/locale mandir = ${datarootdir}/man infodir = ${datarootdir}/info miscdocdir = ${datarootdir}/doc # These are the directories where different kinds of files will be located on # the target system. builddir = ${CURDIR} objdir = ${builddir}/obj stagedir = ${builddir}/stage # builddir is the build directory, which may be separate from the source tree. # Intermediate files produced during the build are kept in objdir. Files to be # installed are written under stagedir, and then copied to their destination in # the installation step. # Containing makefiles should avoid modifying the directory variables. Users # should be able to rely on these defaults. install_cp_flags = ${if ${DESTDIR},--preserve=timestamps} # Timestamps are preserved when installation is done to a staging directory. # This matters for files that aren't generated during the build but copied from # the source tree. Timestamps are not preserved when installation is done # directly to the target system, because that would change the timestamps of # existing directories. # # Containing makefiles may use these variables in their rules, but nothing # should modify them: # srcdir := ${abspath ${dir ${lastword ${MAKEFILE_LIST}}}} # srcdir is the directory in the source tree where makefiles and project files # are. It may be the root of the source tree or a subdirectory. It is computed # as the directory part of the last pathname in MAKEFILE_LIST – which is this # file since there is no include directive above this point. stage_bindir = ${stagedir}${bindir} stage_libexecdir = ${stagedir}${libexecdir} stage_datadir = ${stagedir}${datadir} stage_sysconfdir = ${stagedir}${sysconfdir} stage_statedir = ${stagedir}${statedir} stage_cachedir = ${stagedir}${cachedir} stage_logdir = ${stagedir}${logdir} stage_includedir = ${stagedir}${includedir} stage_archincludedir = ${stagedir}${archincludedir} stage_libdir = ${stagedir}${libdir} stage_alidir = ${stagedir}${alidir} stage_gprdir = ${stagedir}${gprdir} stage_localedir = ${stagedir}${localedir} stage_mandir = ${stagedir}${mandir} stage_infodir = ${stagedir}${infodir} stage_miscdocdir = ${stagedir}${miscdocdir} # These are the directories where different kinds of files to be installed are # written during the build. make_srcdir = ${call make_pathname,srcdir} make_builddir = ${call make_pathname,builddir} make_objdir = ${call make_pathname,objdir} make_stagedir = ${call make_pathname,stagedir} make_bindir = ${call make_pathname,stage_bindir} make_libexecdir = ${call make_pathname,stage_libexecdir} make_datadir = ${call make_pathname,stage_datadir} make_sysconfdir = ${call make_pathname,stage_sysconfdir} make_statedir = ${call make_pathname,stage_statedir} make_cachedir = ${call make_pathname,stage_cachedir} make_logdir = ${call make_pathname,stage_logdir} make_includedir = ${call make_pathname,stage_includedir} make_archincludedir = ${call make_pathname,stage_archincludedir} make_libdir = ${call make_pathname,stage_libdir} make_alidir = ${call make_pathname,stage_alidir} make_gprdir = ${call make_pathname,stage_gprdir} make_localedir = ${call make_pathname,stage_localedir} make_mandir = ${call make_pathname,stage_mandir} make_infodir = ${call make_pathname,stage_infodir} make_miscdocdir = ${call make_pathname,stage_miscdocdir} # These variables are for use in Make targets, prerequisites and other places # where Make expects space-separated lists. preprocess_file = "${GNATPREP}" ${firstword ${filter %.gp,$^}} $@ \ ${options_preprocessing} ${Gnatprep_arguments} \ ${if ${filter ${notdir $@},${notdir ${usage_GPRs}}}, \ ${usage_directories}, \ '-DSrcdir="${srcdir}"'} \ ${GNATPREPFLAGS} # preprocess_file is a command for use in recipes. It runs the first .gp file # among the rule's prerequisites through Gnatprep to produce the target. If the # target is a usage project, then the usage-relevant directory variables are # conveyed to it as Gnatprep symbols. Otherwise srcdir is conveyed. build_GPR = "${GNAT_BUILDER}" -P ${firstword ${filter %.gpr,$^}} \ ${addprefix -aP,${VPATH}} -p \ ${options_building} ${builder_arguments} ${GNATFLAGS} # build_GPR is a command for use in recipes. It performs a build controlled by # the first project file among the rule's prerequisites. # # Adjust the build directory variables, and load the configuration: # # Ensure that builddir is an absolute pathname and is inherited by sub-Makes: ifneq (${Comfignat_overriding_absolute_builddir},) override builddir := ${Comfignat_overriding_absolute_builddir} else ifeq (${origin builddir},command line) override builddir := ${abspath ${builddir}} endif export Comfignat_overriding_absolute_builddir := ${builddir} # Read the configuration file if there is one: configuration = ${make_builddir}/comfignat_configuration.mk -include ${configuration} # Ensure that objdir and stagedir are absolute pathnames and are inherited by # sub-Makes: ifneq (${Comfignat_overriding_absolute_objdir},) override objdir := ${Comfignat_overriding_absolute_objdir} else ifeq (${origin objdir},command line) override objdir := ${abspath ${objdir}} export Comfignat_overriding_absolute_objdir := ${objdir} objdir_is_overridden = true endif ifneq (${Comfignat_overriding_absolute_stagedir},) override stagedir := ${Comfignat_overriding_absolute_stagedir} else ifeq (${origin stagedir},command line) override stagedir := ${abspath ${stagedir}} export Comfignat_overriding_absolute_stagedir := ${stagedir} stagedir_is_overridden = true endif # builddir, objdir and stagedir need to be absolute in project files, because a # pathname relative to a project file can be wrong when a separate build # directory is used and project files are both in srcdir and in builddir. # objdir and stagedir also need to be absolute in the configuration file # because the working directory might change between Make invocations. # Sub-Makes must use the same builddir, objdir and stagedir as the parent, so # the absolute pathnames are conveyed to child processes in environment # variables that won't normally be overridden and are unlikely to be defined by # accident. # The correction of builddir in sub-Makes must happen before builddir is used # in VPATH and in the pathname of the configuration file. # The inclusion of the configuration file must happen after MAKEFILE_LIST has # been used to define srcdir. # The changes to objdir and stagedir must be done after the configuration file # is read because otherwise the configuration would override the command line. # Once modified the variables are no longer of command line origin, so they are # marked as overridden so that "make configure" will save them. # # Containing makefiles should assign or append to these variables as needed: # ifneq (${origin build_GPRs},file) build_GPRs = endif # build_GPRs shall name one or more project files for building the software. # These project files will be used when "make" or "make build" is invoked. ifneq (${origin usage_GPRs},file) usage_GPRs = endif # If the build produces libraries, then usage_GPRs shall name the project files # that other projects should import to link to the libraries. These project # files will be installed to the target system. ifneq (${origin preprocessed_files},file) preprocessed_files = \ ${filter-out ${notdir ${usage_GPRs}}, \ ${basename ${notdir ${wildcard ${make_srcdir}/*.gp}}}} endif # preprocessed_files is a list of files to be produced in the preprocessing # step at the beginning of the build. Containing makefiles may override it or # append additional filenames to it. # The files are assumed to be needed during the build. The default list is all # the .gp files in srcdir except for usage projects, minus the .gp suffix. This # includes comfignat.gpr. ifneq (${origin options},file) options = endif # options may be assigned a list of variable names. Those variables may be # overridden on the command line, and will be defined as Gnatprep symbols and # as external variables for build projects. # Their values must be "true" or "false". # The containing makefile should assign a default value to each variable unless # it shall be mandatory to always set the option on the command line. ifneq (${origin Gnatprep_arguments},file) Gnatprep_arguments = endif # Any text assigned to Gnatprep_arguments will be included in the Gnatprep # command line. It may be used for additional symbol definitions. ifneq (${origin builder_arguments},file) builder_arguments = endif # Any text assigned to builder_arguments will be included in the GPRbuild or # Gnatmake command line. It may be used for external variables for project # files or other arguments that are essential for the build to work. Global # default values for optional arguments should be set in the options variables # instead. VPATH += ${filter-out .,${make_srcdir} ${make_builddir}} # VPATH is a list of directories that Make should search for prerequisites. # If VPATH has been defined as simply expanded before this file was included, # then make_srcdir and make_builddir will be expanded now, so everything that's # involved in their values must be defined before this point. configuration_variables += \ GNATPREP GNAT_BUILDER \ GNATPREPFLAGS GNAT_BUILDER_FLAGS ADAFLAGS CPPFLAGS CFLAGS CXXFLAGS FFLAGS \ GNATBINDFLAGS GNATLINKFLAGS LDFLAGS GNATFLAGS \ DESTDIR \ dirgpr relocatable_package \ prefix exec_prefix datarootdir localstatedir \ bindir libexecdir \ datadir sysconfdir statedir cachedir logdir runstatedir lockdir \ includedir archincludedir libdir alidir gprdir \ localedir mandir infodir miscdocdir \ objdir stagedir \ install_cp_flags \ ${options} # configuration_variables is a list of variables that can be saved in the # persistent configuration with "make configure". Containing makefiles may # append additional variable names. # # Compute symbol definitions for Gnatprep and external variable assignments for # build projects: # # For this some more functions and constants for processing directory variables # are needed. usage_directory_variables = includedir archincludedir libdir alidir # These are the usage-relevant directory variables. They are needed in usage # projects after installation. builder_directory_variables = bindir libexecdir ${usage_directory_variables} # These are the builder-relevant directory variables. They control where the # GNAT tools write files to be installed. usage_relevant = ${filter ${usage_directory_variables},${1}} # usage_relevant returns a list of the words in the input list that are usage- # relevant directory variables. If given a single variable name, it returns # that name if the variable is usage-relevant, or an empty string if it isn't. maybe_relative_to = \ ${if ${or ${filter-out 1,${words ${relocatable_package}}}, \ ${filter-out true false,${relocatable_package}}}, \ ${error relocatable_package must be "true" or "false"} \ ,${if ${filter true,${relocatable_package}} \ ,${call relative_to,${1},${2}},${1}}} # maybe_relative_to converts an absolute pathname into a relative one if a # relocatable package is desired. # Parameters: # 1: an absolute pathname to maybe convert to relative # 2: the absolute base pathname that 1 may be made relative to # First check that the value of relocatable_package is a single word and that # that word is either "true" or "false". Complain and stop if that isn't so. # Then, if relocatable_package is "true", let relative_to convert the pathname, # otherwise return parameter 1 unchanged. embed_pathname = ${call maybe_relative_to,${${1}},${if ${filter bindir,${1}} \ ,${libexecdir},${bindir}}} # embed_pathname takes the name of a variable whose value is an absolute # pathname, and converts that pathname into the right form for inclusion in a # program, which means that bindir is made relative to libexecdir and other # variables are made relative to bindir if a relocatable package is desired. usage_pathname = ${call maybe_relative_to,${${1}},${gprdir}} # usage_pathname takes the name of a variable whose value is an absolute # pathname, and converts that pathname into the right form for inclusion in a # usage project, which means that it is made relative to gprdir if a # relocatable package is desired. define convey_builder_directory_variable all_directories += '-D${1}="${call embed_pathname,${1}}"' all_directories += '-Dstage_${1}="${stage_${1}}"' usage_directories += ${if ${call usage_relevant,${1}}, \ '-D${1}="${call usage_pathname,${1}}"'} endef # convey_builder_directory_variable takes the name of a builder-relevant # directory variable and returns Make code that conveys that variable to # project files. The code snippet ends with a line break. # · Append a symbol definition to all_directories to convey the variable to # comfignat.gpr in the right form for inclusion in a program. # · Also convey to comfignat.gpr the corresponding pathname under the # staging directory, which wouldn't be derived correctly from a relative # pathname. # · If the variable is also usage-relevant, then append a symbol definition # to usage_directories to convey it to usage projects in the form that # usage projects need. define use_directories_project_variable all_directories += '-D${1}=${directories_project}.${1}' usage_directories += ${if ${call usage_relevant,${1}}, \ '-D${1}=${directories_project}.${1}'} endef # use_directories_project_variable takes the name of a builder-relevant # directory variable and returns Make code that makes project files get that # variable from a directories project. The code snippet ends with a line break. # · Append a symbol definition to all_directories for comfignat.gpr. # · If the variable is also usage-relevant, then append a symbol definition # to usage_directories for usage projects. # Now that all those functions are defined, compute the symbol definitions for # the directory variables. # Convey builddir, objdir and stagedir to comfignat.gpr. all_directories = '-DBuilddir="${builddir}"' '-DObjdir="${objdir}"' \ '-DStagedir="${stagedir}"' usage_directories = # Make project files import the directories project if one has been provided. ifneq (${dirgpr},) directories_project := ${basename ${notdir ${call mung_string,${dirgpr}}}} all_directories += '-DDirectories_GPR="${dirgpr}"' all_directories += '-DDirectories_Project=${directories_project}' usage_directories += '-DDirectories_GPR="${dirgpr}"' endif # Convey the builder-irrelevant directory variables, making them available to # build projects for inclusion in binaries. Make most of the pathnames relative # if a relocatable package is desired. all_directories += '-DDatadir="${call embed_pathname,datadir}"' all_directories += '-DSysconfdir="${call embed_pathname,sysconfdir}"' all_directories += '-DStatedir="${call embed_pathname,statedir}"' all_directories += '-DCachedir="${call embed_pathname,cachedir}"' all_directories += '-DLogdir="${call embed_pathname,logdir}"' all_directories += '-DGPRdir="${call embed_pathname,gprdir}"' all_directories += '-DLocaledir="${call embed_pathname,localedir}"' all_directories += '-DMandir="${call embed_pathname,mandir}"' all_directories += '-DInfodir="${call embed_pathname,infodir}"' all_directories += '-DMiscdocdir="${call embed_pathname,miscdocdir}"' all_directories += '-DRunstatedir="${runstatedir}"' all_directories += '-DLockdir="${lockdir}"' # runstatedir and lockdir belong to the operating system and are used for # communication between subsystems. It wouldn't make sense for an application # to have its own runstatedir. Therefore these variables are always absolute # pathnames. # Set the builder-relevant directory variables. ${eval ${foreach var,${builder_directory_variables}, \ ${if ${or ${findstring command line,${origin ${var}}}, \ ${filter true,${${var}_is_configured}}, \ ${filter 0,${words ${dirgpr}}}}, \ ${call convey_builder_directory_variable,${var}}, \ ${call use_directories_project_variable,${var}}}}} # For each builder-relevant directory variable, check whether its value in # project files should be taken from the corresponding Make variable or from a # directories project, and construct symbol definitions accordingly. # If a variable is of command line origin or marked as configured, or if dirgpr # is empty (that is, no directories project has been provided), then convey the # variable to project files. Otherwise make project files use the variable that # the directories project provides. # And now process any boolean options. option_values = \ ${foreach option,${options}, \ ${if ${and ${filter-out environment,${origin ${option}}}, \ ${filter 1,${words ${${option}}}}, \ ${filter true false,${${option}}}}, \ ${option}=${${option}}, \ ${error ${option} must be "true" or "false"}}} # For each variable listed in options, check that it didn't come from the # environment (to prevent accidents), that its value is a single word, and that # that word is either "true" or "false". If so, output a name/value pair; # otherwise complain and stop. # Convey boolean options to Gnatprep. options_preprocessing = ${addprefix -D,${option_values}} # Convey boolean options to build projects. options_building = ${addprefix -X,${option_values}} # # Some other data that the rules below need: # main_makefile := ${firstword ${MAKEFILE_LIST}} delegation_command = @$${MAKE} --file=${abspath ${main_makefile}} \ --include-dir=${abspath ${dir ${main_makefile}}} # delegation_command is the Make command line that delegating makefiles in # separate build directories use to delegate commands to the main makefile. The # first pathname in MAKEFILE_LIST is the main makefile. build_targets = ${addsuffix .phony_target,${build_GPRs}} # A phony target is defined for each build project, and the job of determining # whether the project needs rebuilding is delegated to the builder. staged_usage_GPRs = ${addprefix ${make_gprdir}/,${usage_GPRs}} preprocessed_files_in_builddir = ${addprefix ${make_builddir}/,${preprocessed_files}} # When usage projects are preprocessed they are written to stage_gprdir. Other # preprocessed files are assumed to be needed during the build and are written # to builddir. # # Make rules: # .SECONDEXPANSION: .PHONY: Comfignat_default_goal Comfignat_default_goal: build # How to make directories: %/: mkdir -p $@ .PRECIOUS: %/ # This rule appears to work around a bug that was fixed in GNU Make 3.82: ${make_gprdir}/: mkdir -p $@ # How to initialize a build directory with a delegating makefile: ${make_builddir}/Makefile: | ${make_builddir}/ @echo 'Writing $@.' @( echo 'Comfignat_default_goal: force ; ${delegation_command}'; \ echo '%: force ; ${delegation_command} $$@'; \ echo 'force: ;'; \ echo 'Makefile: ;' \ ) > $@ # This rule generates a delegating makefile in a separate build directory. The # generated makefile delegates all commands to the main makefile. The default # rule invokes the main makefile without a specified goal, triggering the main # makefile's default goal. A match-anything rule forwards any specified goals # to the main makefile. An empty recipe for "Makefile" prevents Make from using # the match-anything rule to update the makefile. # How to save configured variables: .PHONY: configure configure:: ${make_builddir}/Makefile @echo "Writing ${configuration}." @( ${foreach var,${configuration_variables}, \ ${if ${or ${findstring command line,${origin ${var}}}, \ ${filter true,${${var}_is_overridden}}, \ ${filter true,${${var}_is_configured}}}, \ echo 'ifneq "$${origin ${var}}" "command line"'; \ echo ' override ${var} = ${value ${var}}';\ echo 'endif'; \ echo '${var}_is_configured = true'; \ echo;, \ ${if ${or ${findstring environment,${origin ${var}}}, \ ${filter true,${${var}_is_weakly_configured}}}, \ echo 'ifneq "$${origin ${var}}" "environment"'; \ echo ' ${var} = ${value ${var}}'; \ echo 'endif'; \ echo '${var}_is_weakly_configured = true'; \ echo;}}} \ true \ ) > "${configuration}" # Out of the variables listed in configuration_variables, all that were # overridden on the command line, all that are set in the environment and not # overridden elsewhere, and all that were previously configured, are written # to the configuration file. Command-line-configured values override defaults # assigned later in the containing makefile, but can be overridden on the # command line. Environment-configured values override defaults assigned with # "?=", but can be overridden in the environment or on the command line. A # variable is considered previously configured if there is another variable # with "_is_configured" or "_is_weakly_configured" appended to its name and a # value of "true". Such a variable is also written for each configured # variable. As a side effect of this it is possible to delete a variable V from # the configuration by running "make configure V_is_configured=false # V_is_weakly_configured=false". # How to show the values of configured variables: .PHONY: show_configuration show_configuration:: @${foreach var,${configuration_variables}, \ ${if ${filter true,${${var}_is_configured}}, \ echo '${var} = ${value ${var}}';} \ ${if ${filter true,${${var}_is_weakly_configured}}, \ echo '${var} ?= ${value ${var}}';}} \ true # How to preprocess the project Comfignat: ${make_builddir}/comfignat.gpr: comfignat.gpr.gp | ${make_builddir}/ "${GNATPREP}" $< $@ -DInvoked_By_Makefile ${all_directories} ${GNATPREPFLAGS} # How to preprocess files that are needed during the build: ${make_builddir}/%: %.gp | ${make_builddir}/ ${preprocess_file} # How to preprocess usage projects: ${make_gprdir}/%: %.gp | ${make_gprdir}/ ${preprocess_file} # How to stage usage projects that don't need preprocessing: ${make_gprdir}/%: % | ${make_gprdir}/ cp -p $< $@ .PHONY: preprocess preprocess: $${preprocessed_files_in_builddir} # How to build a project: %.gpr.phony_target: %.gpr preprocess ${build_GPR} # Instead of tracking dependencies between project files, this rule simply # requires that all preprocessing of files that are needed during the build is # done before any project is built. .PHONY: base base: $${build_targets} # This builds the projects listed in build_GPRs, plus any additional # prerequisites that the containing makefile might add. .PHONY: build build: base $${staged_usage_GPRs} # This is the default build. Additional targets that should be built by default # may be added as prerequisites. .PHONY: all all: build # Optional targets may be added as prerequisites of "all". ${make_stagedir}: @${MAKE} build # "make install" straight out of a source package triggers a build, but if # something has been built then "make install" doesn't rebuild anything, just # copies the built files to their destination. # How to install what has been built and staged: install: ${make_stagedir} mkdir -p "${DESTDIR}/" cp -RPf ${install_cp_flags} "${stagedir}"/* "${DESTDIR}/" .PHONY: install .PHONY: clean clean:: rm -Rf "${objdir}" "${stagedir}" ${preprocessed_files_in_builddir} .PHONY: unconfigure unconfigure:: rm -f "${configuration}" .PHONY: distclean distclean: clean unconfigure