ifndef Lib.mak.included
Lib.mak.included := 1
-# These variables should be provided by the includer Makefile:
+# These variables should be provided by the Makefile that include us:
# P should be the project name, mostly used to handle include directories
# T should be the path to the top-level directory.
# S should be sub-directory where the current makefile is, relative to $T.
# Default mode used to install files
IMODE ?= 0644
-# Degault install flags
+# Default install flags
IFLAGS ?= -D
-# Use precompiled headers if non-empty
+# Use pre-compiled headers if non-empty
GCH ?=
# Directories
##############
-# Base directory where to install files (can be overrided, should be absolute)
+# Base directory where to install files (can be overridden, should be absolute)
prefix ?= /usr/local
# Path to a complete alternative environment, usually a jail, or an installed
# Name of the current directory, relative to $T
R := $(subst $T,,$(patsubst $T/%,%,$(CURDIR)))
-# Base directory where to put variants
-D ?= $T/build
+# Base directory where to put variants (Variants Directory)
+VD ?= $T/build
# Generated files top directory
-G ?= $D/$F
+G ?= $(VD)/$F
-# Objects (and other garbage like precompiled headers and dependency files)
+# Objects (and other garbage like pre-compiled headers and dependency files)
# directory
O ?= $G/obj
# Libraries directory
L ?= $G/lib
+# Documentation directory
+D ?= $(VD)/doc
+
# Installation directory
I := $(DESTDIR)$(prefix)
# returns empty.
eq = $(if $(subst $1,,$2),,$1)
-# Find sources files and get the corresponding object names
-# The first argument should be the sources extension ("c" or "cpp" typically)
-# It expects the variable $T and $O to be defined as commented previously in
-# this file.
-find_objects = $(patsubst $T/%.$1,$O/%.o,$(shell find $C -name '*.$1'))
-
-# Find sources files and get the corresponding object names
-# The first argument should be the sources extension ("c" or "cpp" typically)
-# It expects the variable $T and $O to be defined as commented previously in
-# this file.
-find_headers = $(patsubst $C/%.$1,$2/%.$1,$(shell find $C -name '*.$1'))
+# Find sources files and get the corresponding object names. The first
+# argument should be the sources extension ("c" or "cpp" typically). The
+# second argument is where to search for the sources ($C if omitted). The
+# resulting files will always have the suffix "o" and the directory rewritten
+# to match the directory structure (from $T) but in the $O directory. For
+# example, if $T is "/usr/src", $O is "/tmp/obj", $C is "/usr/src/curr" and it
+# have 2 C sources: "/usr/src/curr/1.c" and "/usr/src/curr/dir/2.c", the call:
+# $(call find_objects,c)
+# Will yield "/tmp/obj/curr/1.o" and "/tmp/obj/curr/dir/2.o".
+find_objects = $(patsubst $T/%.$1,$O/%.o,$(shell \
+ find $(if $2,$2,$C) -name '*.$1'))
+
+# Find files and get the their file names relative to another directory. The
+# first argument should be the files suffix (".h" or ".cpp" for example). The
+# second argument is a directory rewrite, the matched files will be rewriten to
+# be in the directory specified in this argument (it defaults to the third
+# argument if omitted). The third argument is where to search for the files
+# ($C if omitted).
+find_files = $(patsubst $(if $3,$3,$C)/%$1,$(if $2,$2,$(if $3,$3,$C))/%$1, \
+ $(shell find $(if $3,$3,$C) -name '*$1'))
# Abbreviate a file name. Cut the leading part of a file if it match to the $T
# directory, so it can be displayed as if it were a relative directory. Take
# just one argument, the file name.
abbr_helper = $(subst $T,.,$(patsubst $T/%,%,$1))
-abbr = $(if $(call eq,$(call abbr_helper,$1),$1),$1, \
- $(addprefix $(shell echo $R | sed 's|/\?\([^/]\+\)/\?|../|g'),\
+abbr = $(if $(call eq,$(call abbr_helper,$1),$1),$1,$(addprefix \
+ $(shell echo $R | sed 's|/\?\([^/]\+\)/\?|../|g'),\
$(call abbr_helper,$1)))
# Execute a command printing a nice message if $V is @.
# and third arguments are optional and are the target name and command name to
# pretty print.
vexec = $(if $V,\
- echo ' $(notdir $(if $3,$(strip $3),$(firstword $1))) \
+ echo ' $(call abbr,$(if $3,$(strip $3),$(firstword $1))) \
$(call abbr,$(if $2,$(strip $2),$@))' ; )$1
# Same as vexec but it silence the echo command (prepending a @ if $V).
# Link object files to build an executable. The objects files are taken from
# the prerequisite files ($O/%.o). If in the prerequisite files are shared
# objects ($L/lib%.so), they are included as libraries to link to (-l%). This
-# function is designed to be used as a command in a rule. The ouput name is
+# function is designed to be used as a command in a rule. The output name is
# taken from the rule automatic variables. If an argument is provided, it's
# included in the link command line. The variable LINKER is used to link the
# executable; for example, if you want to link a C++ executable, you should use
install_file = $(call exec,install -m $(if $1,$1,0644) $(if $2,$2,-D) \
$(if $3,$3,$<) $(if $4,$4,$@))
+# Concatenate variables together. The first argument is a list of variables
+# names to concatenate. The second argument is an optional prefix for the
+# variables and the third is the string to use as separator (" ~" if omitted).
+# For example:
+# X_A := a
+# X_B := b
+# $(call varcat,A B,X_, --)
+# Will produce something like "a -- b --"
+varcat = $(foreach v,$1,$($2$v)$(if $3,$3, ~))
+
+# Replace variables with specified values in a template file. The first
+# argument is a list of make variables names which will be replaced in the
+# target file. The strings @VARNAME@ in the template file will be replaced
+# with the value of the make $(VARNAME) variable and the result will be stored
+# in the target file. The second (optional) argument is a prefix to add to the
+# make variables names, so if the prefix is PREFIX_ and @VARNAME@ is found in
+# the template file, it will be replaced by the value of the make variable
+# $(PREFIX_VARNAME). The third and fourth arguments are the source file and
+# the destination file (both optional, $< and $@ are used if omitted). The
+# fifth (optional) argument are options to pass to the substitute sed command
+# (for example, use "g" if you want to do multiple substitutions per line).
+replace = $(call exec,sed '$(foreach v,$1,s|@$v@|$($2$v)|$5;)' $(if $3,$3,$<) \
+ > $(if $4,$4,$@))
+
# Create a symbolic link to the project under the $(INCLUDE_DIR). The first
-# argument is the name of symlink to create. The link is only created if it
-# doesn't already exist.
+# argument is the name of symbolic link to create. The link is only created if
+# it doesn't already exist.
symlink_include_dir = $(shell \
test -L $(INCLUDE_DIR)/$1 \
|| ln -s $C $(INCLUDE_DIR)/$1 )
$(if $3,test -f $1 && echo "$3";) \
echo "$2" > $1 ; fi)
+# Include sub-directory's Build.mak. The only argument is a list of
+# subdirectories for which Build.mak should be included. The $S directory is
+# set properly before including each sub-directory's Build.mak and restored
+# afterwards.
+define build_subdir_code
+_parent__$d__dir_ := $$S
+S := $$(if $$(_parent__$d__dir_),$$(_parent__$d__dir_)/$d,$d)
+include $$T/$$S/Build.mak
+S := $$(_parent__$d__dir_)
+endef
+include_subdirs = $(foreach d,$1,$(eval $(build_subdir_code)))
+
-# Overrided flags
+# Overridden flags
##################
# Warn about everything
# Let the program know where it will be installed
override CPPFLAGS += -DPREFIX=$(prefix)
-# Be standard compilant
+# Be standard compliant
override CFLAGS += -std=c99 -pedantic
override CXXFLAGS += -std=c++98 -pedantic
$L/%.so: $G/link-o-flags
$(call link,-shared)
+# Create pkg-config files using a template
+$L/%.pc:
+ $(call replace,$(PC_VARS),$*-PC-)
+
+# Run doxygen to build the documentation. It expects the first prerequisite to
+# be the Doxyfile to use and the next prerequisites the input files. This rule
+# is a little restrictive, but you can always make your own if it doesn't fit
+# your needs ;)
+$D/%/doxygen-stamp:
+ $V mkdir -p $(@D)
+ $(call exec,(cat $<; \
+ echo "FULL_PATH_NAMES=YES"; \
+ echo "INPUT=$(patsubst $(<D)/%,$(INCLUDE_DIR)/$*/%, \
+ $(wordlist 2,$(words $^),$^))"; \
+ echo "OUTPUT_DIRECTORY=$(@D)"; \
+ echo "INCLUDE_PATH=$(INCLUDE_DIR)"; \
+ echo "STRIP_FROM_PATH=$(INCLUDE_DIR)"; \
+ echo "STRIP_FROM_INC_PATH=$(INCLUDE_DIR)"; \
+ echo "QUIET=$(if $V,YES,NO)") | doxygen -,$(@D),doxygen)
+ $V touch $@
+
# Install binary programs
$I/bin/%:
$(call install_file,0755)
$I/sbin/%:
$(call install_file,0755)
+# Install pkg-config specification files
+$I/lib/pkgconfig/%:
+ $(call install_file)
+
# Install libraries
$I/lib/%:
$(call install_file)
.PHONY: clean
clean:
- $(call exec,$(RM) -r $D,$D)
+ $(call exec,$(RM) -r $(VD),$(VD))
# Phony rule to uninstall all built targets (like "install", uses $(install)).
.PHONY: uninstall
# sub-makes to add values to the special variables $(all), after this makefile
# was read.
.SECONDEXPANSION:
-
+
# Phony rule to make all the targets (sub-makefiles can append targets to build
# to the $(all) variable).
.PHONY: all
.PHONY: install
install: $$(install)
+# Phony rule to build all documentation targets (sub-makefiles can append
+# documentation to build to the $(doc) variable).
+.PHONY: doc
+doc: $$(doc)
+
+# Phony rule to build and run all test (sub-makefiles can append targets to
+# build and run tests to the $(test) variable).
+.PHONY: test
+test: $$(test)
+
# Create build directory structure
###################################
-# Create $O, $B, $L and $(INCLUDE_DIR) directories and replicate the directory
-# structure of the project into $O. Create one symlink "last" to the current
-# build directory.
+# Create $O, $B, $L, $D and $(INCLUDE_DIR) directories and replicate the
+# directory structure of the project into $O. Create one symbolic link "last"
+# to the current build directory.
#
# NOTE: the second mkdir can yield no arguments if the project don't have any
# subdirectories, that's why the current directory "." is included, so it
# won't show an error message in case of no subdirectories.
setup_build_dir__ := $(shell \
- mkdir -p $O $B $L $(INCLUDE_DIR); \
+ mkdir -p $O $B $L $D $(INCLUDE_DIR); \
mkdir -p . $(addprefix $O,$(patsubst $T%,%,\
- $(shell find $T -type d -not -path '$D*'))); \
- test -L $D/last || ln -s $F $D/last )
+ $(shell find $T -type d -not -path '$(VD)*'))); \
+ test -L $(VD)/last || ln -s $F $(VD)/last )
# Automatic rebuilding when flags or commands changes
######################################################
# Re-compile C files if one of this variables changes
-COMPILE.c.FLAGS += $(CC) ~ $(CPPFLAGS) ~ $(CFLAGS) ~ $(TARGET_ARCH) ~ $(prefix)
+COMPILE.c.FLAGS := $(call varcat,CC CPPFLAGS CFLAGS TARGET_ARCH prefix)
# Re-compile C++ files if one of this variables changes
-COMPILE.cpp.FLAGS += $(CXX) ~ $(CPPFLAGS) ~ $(CXXFLAGS) ~ $(TARGET_ARCH) \
- ~ $(prefix)
+COMPILE.cpp.FLAGS := $(call varcat,CXX CPPFLAGS CXXFLAGS TARGET_ARCH prefix)
# Re-link binaries and libraries if one of this variables changes
-LINK.o.FLAGS += $(LD) ~ $(LDFLAGS) ~ $(TARGET_ARCH)
+LINK.o.FLAGS := $(call varcat,LD LDFLAGS TARGET_ARCH)
# Create files containing the current flags to trigger a rebuild if they change
setup_flag_files__ := $(call gen_rebuild_flags,$G/compile-c-flags, \
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