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# -*- coding: us-ascii -*- # frozen-string-literal: false # module to create Makefile for extension modules # invoke like: ruby -r mkmf extconf.rb require 'rbconfig' require 'fileutils' require 'shellwords' class String # :stopdoc: # Wraps a string in escaped quotes if it contains whitespace. def quote /\s/ =~ self ? "\"#{self}\"" : "#{self}" end # Escape whitespaces for Makefile. def unspace gsub(/\s/, '\\\\\\&') end # Generates a string used as cpp macro name. def tr_cpp strip.upcase.tr_s("^A-Z0-9_*", "_").tr_s("*", "P") end def funcall_style /\)\z/ =~ self ? dup : "#{self}()" end def sans_arguments self[/\A[^()]+/] end # :startdoc: end class Array # :stopdoc: # Wraps all strings in escaped quotes if they contain whitespace. def quote map {|s| s.quote} end # :startdoc: end ## # mkmf.rb is used by Ruby C extensions to generate a Makefile which will # correctly compile and link the C extension to Ruby and a third-party # library. module MakeMakefile #### defer until this module become global-state free. # def self.extended(obj) # obj.init_mkmf # super # end # # def initialize(*args, rbconfig: RbConfig, **rest) # init_mkmf(rbconfig::MAKEFILE_CONFIG, rbconfig::CONFIG) # super(*args, **rest) # end ## # The makefile configuration using the defaults from when Ruby was built. CONFIG = RbConfig::MAKEFILE_CONFIG ORIG_LIBPATH = ENV['LIB'] ## # Extensions for files compiled with a C compiler C_EXT = %w[c m] ## # Extensions for files complied with a C++ compiler CXX_EXT = %w[cc mm cxx cpp] unless File.exist?(File.join(*File.split(__FILE__).tap {|d, b| b.swapcase})) CXX_EXT.concat(%w[C]) end ## # Extensions for source files SRC_EXT = C_EXT + CXX_EXT ## # Extensions for header files HDR_EXT = %w[h hpp] $static = nil $config_h = '$(arch_hdrdir)/ruby/config.h' $default_static = $static unless defined? $configure_args $configure_args = {} args = CONFIG["configure_args"] if ENV["CONFIGURE_ARGS"] args << " " << ENV["CONFIGURE_ARGS"] end for arg in Shellwords::shellwords(args) arg, val = arg.split('=', 2) next unless arg arg.tr!('_', '-') if arg.sub!(/^(?!--)/, '--') val or next arg.downcase! end next if /^--(?:top|topsrc|src|cur)dir$/ =~ arg $configure_args[arg] = val || true end for arg in ARGV arg, val = arg.split('=', 2) next unless arg arg.tr!('_', '-') if arg.sub!(/^(?!--)/, '--') val or next arg.downcase! end $configure_args[arg] = val || true end end $libdir = CONFIG["libdir"] $rubylibdir = CONFIG["rubylibdir"] $archdir = CONFIG["archdir"] $sitedir = CONFIG["sitedir"] $sitelibdir = CONFIG["sitelibdir"] $sitearchdir = CONFIG["sitearchdir"] $vendordir = CONFIG["vendordir"] $vendorlibdir = CONFIG["vendorlibdir"] $vendorarchdir = CONFIG["vendorarchdir"] $mswin = /mswin/ =~ RUBY_PLATFORM $mingw = /mingw/ =~ RUBY_PLATFORM $cygwin = /cygwin/ =~ RUBY_PLATFORM $netbsd = /netbsd/ =~ RUBY_PLATFORM $haiku = /haiku/ =~ RUBY_PLATFORM $solaris = /solaris/ =~ RUBY_PLATFORM $universal = /universal/ =~ RUBY_PLATFORM $dest_prefix_pattern = (File::PATH_SEPARATOR == ';' ? /\A([[:alpha:]]:)?/ : /\A/) # :stopdoc: def config_string(key, config = CONFIG) s = config[key] and !s.empty? and block_given? ? yield(s) : s end module_function :config_string def dir_re(dir) Regexp.new('\$(?:\('+dir+'\)|\{'+dir+'\})(?:\$(?:\(target_prefix\)|\{target_prefix\}))?') end module_function :dir_re def relative_from(path, base) dir = File.join(path, "") if File.expand_path(dir) == File.expand_path(dir, base) path else File.join(base, path) end end INSTALL_DIRS = [ [dir_re('commondir'), "$(RUBYCOMMONDIR)"], [dir_re('sitedir'), "$(RUBYCOMMONDIR)"], [dir_re('vendordir'), "$(RUBYCOMMONDIR)"], [dir_re('rubylibdir'), "$(RUBYLIBDIR)"], [dir_re('archdir'), "$(RUBYARCHDIR)"], [dir_re('sitelibdir'), "$(RUBYLIBDIR)"], [dir_re('vendorlibdir'), "$(RUBYLIBDIR)"], [dir_re('sitearchdir'), "$(RUBYARCHDIR)"], [dir_re('vendorarchdir'), "$(RUBYARCHDIR)"], [dir_re('rubyhdrdir'), "$(RUBYHDRDIR)"], [dir_re('sitehdrdir'), "$(SITEHDRDIR)"], [dir_re('vendorhdrdir'), "$(VENDORHDRDIR)"], [dir_re('bindir'), "$(BINDIR)"], ] def install_dirs(target_prefix = nil) if $extout and $extmk dirs = [ ['BINDIR', '$(extout)/bin'], ['RUBYCOMMONDIR', '$(extout)/common'], ['RUBYLIBDIR', '$(RUBYCOMMONDIR)$(target_prefix)'], ['RUBYARCHDIR', '$(extout)/$(arch)$(target_prefix)'], ['HDRDIR', '$(extout)/include/ruby$(target_prefix)'], ['ARCHHDRDIR', '$(extout)/include/$(arch)/ruby$(target_prefix)'], ['extout', "#$extout"], ['extout_prefix', "#$extout_prefix"], ] elsif $extmk dirs = [ ['BINDIR', '$(bindir)'], ['RUBYCOMMONDIR', '$(rubylibdir)'], ['RUBYLIBDIR', '$(rubylibdir)$(target_prefix)'], ['RUBYARCHDIR', '$(archdir)$(target_prefix)'], ['HDRDIR', '$(rubyhdrdir)/ruby$(target_prefix)'], ['ARCHHDRDIR', '$(rubyhdrdir)/$(arch)/ruby$(target_prefix)'], ] elsif $configure_args.has_key?('--vendor') dirs = [ ['BINDIR', '$(bindir)'], ['RUBYCOMMONDIR', '$(vendordir)$(target_prefix)'], ['RUBYLIBDIR', '$(vendorlibdir)$(target_prefix)'], ['RUBYARCHDIR', '$(vendorarchdir)$(target_prefix)'], ['HDRDIR', '$(rubyhdrdir)/ruby$(target_prefix)'], ['ARCHHDRDIR', '$(rubyhdrdir)/$(arch)/ruby$(target_prefix)'], ] else dirs = [ ['BINDIR', '$(bindir)'], ['RUBYCOMMONDIR', '$(sitedir)$(target_prefix)'], ['RUBYLIBDIR', '$(sitelibdir)$(target_prefix)'], ['RUBYARCHDIR', '$(sitearchdir)$(target_prefix)'], ['HDRDIR', '$(rubyhdrdir)/ruby$(target_prefix)'], ['ARCHHDRDIR', '$(rubyhdrdir)/$(arch)/ruby$(target_prefix)'], ] end dirs << ['target_prefix', (target_prefix ? "/#{target_prefix}" : "")] dirs end def map_dir(dir, map = nil) map ||= INSTALL_DIRS map.inject(dir) {|d, (orig, new)| d.gsub(orig, new)} end topdir = File.dirname(File.dirname(__FILE__)) path = File.expand_path($0) until (dir = File.dirname(path)) == path if File.identical?(dir, topdir) $extmk = true if %r"\A(?:ext|enc|tool|test)\z" =~ File.basename(path) break end path = dir end $extmk ||= false if not $extmk and File.exist?(($hdrdir = RbConfig::CONFIG["rubyhdrdir"]) + "/ruby/ruby.h") $topdir = $hdrdir $top_srcdir = $hdrdir $arch_hdrdir = RbConfig::CONFIG["rubyarchhdrdir"] elsif File.exist?(($hdrdir = ($top_srcdir ||= topdir) + "/include") + "/ruby.h") $topdir ||= RbConfig::CONFIG["topdir"] $arch_hdrdir = "$(extout)/include/$(arch)" else abort <<MESSAGE mkmf.rb can't find header files for ruby at #{$hdrdir}/ruby.h You might have to install separate package for the ruby development environment, ruby-dev or ruby-devel for example. MESSAGE end CONFTEST = "conftest".freeze CONFTEST_C = "#{CONFTEST}.c" OUTFLAG = CONFIG['OUTFLAG'] COUTFLAG = CONFIG['COUTFLAG'] CSRCFLAG = CONFIG['CSRCFLAG'] CPPOUTFILE = config_string('CPPOUTFILE') {|str| str.sub(/\bconftest\b/, CONFTEST)} def rm_f(*files) opt = (Hash === files.last ? [files.pop] : []) FileUtils.rm_f(Dir[*files.flatten], *opt) end module_function :rm_f def rm_rf(*files) opt = (Hash === files.last ? [files.pop] : []) FileUtils.rm_rf(Dir[*files.flatten], *opt) end module_function :rm_rf # Returns time stamp of the +target+ file if it exists and is newer than or # equal to all of +times+. def modified?(target, times) (t = File.mtime(target)) rescue return nil Array === times or times = [times] t if times.all? {|n| n <= t} end def split_libs(*strs) strs.map {|s| s.split(/\s+(?=-|\z)/)}.flatten end def merge_libs(*libs) libs.inject([]) do |x, y| y = y.inject([]) {|ary, e| ary.last == e ? ary : ary << e} y.each_with_index do |v, yi| if xi = x.rindex(v) x[(xi+1)..-1] = merge_libs(y[(yi+1)..-1], x[(xi+1)..-1]) x[xi, 0] = y[0...yi] break end end and x.concat(y) x end end # This is a custom logging module. It generates an mkmf.log file when you # run your extconf.rb script. This can be useful for debugging unexpected # failures. # # This module and its associated methods are meant for internal use only. # module Logging @log = nil @logfile = 'mkmf.log' @orgerr = $stderr.dup @orgout = $stdout.dup @postpone = 0 @quiet = $extmk def self::log_open @log ||= File::open(@logfile, 'wb') @log.sync = true end def self::log_opened? @log and not @log.closed? end def self::open log_open $stderr.reopen(@log) $stdout.reopen(@log) yield ensure $stderr.reopen(@orgerr) $stdout.reopen(@orgout) end def self::message(*s) log_open @log.printf(*s) end def self::logfile file @logfile = file log_close end def self::log_close if @log and not @log.closed? @log.flush @log.close @log = nil end end def self::postpone tmplog = "mkmftmp#{@postpone += 1}.log" open do log, *save = @log, @logfile, @orgout, @orgerr @log, @logfile, @orgout, @orgerr = nil, tmplog, log, log begin log.print(open {yield @log}) ensure @log.close if @log and not @log.closed? File::open(tmplog) {|t| FileUtils.copy_stream(t, log)} if File.exist?(tmplog) @log, @logfile, @orgout, @orgerr = log, *save @postpone -= 1 MakeMakefile.rm_f tmplog end end end class << self attr_accessor :quiet end end def libpath_env # used only if native compiling if libpathenv = config_string("LIBPATHENV") pathenv = ENV[libpathenv] libpath = RbConfig.expand($DEFLIBPATH.join(File::PATH_SEPARATOR)) {libpathenv => [libpath, pathenv].compact.join(File::PATH_SEPARATOR)} else {} end end def xsystem command, opts = nil varpat = /\$\((\w+)\)|\$\{(\w+)\}/ if varpat =~ command vars = Hash.new {|h, k| h[k] = ENV[k]} command = command.dup nil while command.gsub!(varpat) {vars[$1||$2]} end Logging::open do puts command.quote if opts and opts[:werror] result = nil Logging.postpone do |log| output = IO.popen(libpath_env, command, &:read) result = ($?.success? and File.zero?(log.path)) output end result else system(libpath_env, command) end end end def xpopen command, *mode, &block Logging::open do case mode[0] when nil, /^r/ puts "#{command} |" else puts "| #{command}" end IO.popen(libpath_env, command, *mode, &block) end end def log_src(src, heading="checked program was") src = src.split(/^/) fmt = "%#{src.size.to_s.size}d: %s" Logging::message <<"EOM" #{heading}: /* begin */ EOM src.each_with_index {|line, no| Logging::message fmt, no+1, line} Logging::message <<"EOM" /* end */ EOM end def create_tmpsrc(src) src = "#{COMMON_HEADERS}\n#{src}" src = yield(src) if block_given? src.gsub!(/[ \t]+$/, '') src.gsub!(/\A\n+|^\n+$/, '') src.sub!(/[^\n]\z/, "\\&\n") count = 0 begin open(CONFTEST_C, "wb") do |cfile| cfile.print src end rescue Errno::EACCES if (count += 1) < 5 sleep 0.2 retry end end src end def have_devel? unless defined? $have_devel $have_devel = true $have_devel = try_link(MAIN_DOES_NOTHING) end $have_devel end def try_do(src, command, *opts, &b) unless have_devel? raise <<MSG The compiler failed to generate an executable file. You have to install development tools first. MSG end begin src = create_tmpsrc(src, &b) xsystem(command, *opts) ensure log_src(src) end end def link_command(ldflags, opt="", libpath=$DEFLIBPATH|$LIBPATH) librubyarg = $extmk ? $LIBRUBYARG_STATIC : "$(LIBRUBYARG)" conf = RbConfig::CONFIG.merge('hdrdir' => $hdrdir.quote, 'src' => "#{CONFTEST_C}", 'arch_hdrdir' => $arch_hdrdir.quote, 'top_srcdir' => $top_srcdir.quote, 'INCFLAGS' => "#$INCFLAGS", 'CPPFLAGS' => "#$CPPFLAGS", 'CFLAGS' => "#$CFLAGS", 'ARCH_FLAG' => "#$ARCH_FLAG", 'LDFLAGS' => "#$LDFLAGS #{ldflags}", 'LOCAL_LIBS' => "#$LOCAL_LIBS #$libs", 'LIBS' => "#{librubyarg} #{opt} #$LIBS") conf['LIBPATH'] = libpathflag(libpath.map {|s| RbConfig::expand(s.dup, conf)}) RbConfig::expand(TRY_LINK.dup, conf) end def cc_command(opt="") conf = RbConfig::CONFIG.merge('hdrdir' => $hdrdir.quote, 'srcdir' => $srcdir.quote, 'arch_hdrdir' => $arch_hdrdir.quote, 'top_srcdir' => $top_srcdir.quote) RbConfig::expand("$(CC) #$INCFLAGS #$CPPFLAGS #$CFLAGS #$ARCH_FLAG #{opt} -c #{CONFTEST_C}", conf) end def cpp_command(outfile, opt="") conf = RbConfig::CONFIG.merge('hdrdir' => $hdrdir.quote, 'srcdir' => $srcdir.quote, 'arch_hdrdir' => $arch_hdrdir.quote, 'top_srcdir' => $top_srcdir.quote) if $universal and (arch_flag = conf['ARCH_FLAG']) and !arch_flag.empty? conf['ARCH_FLAG'] = arch_flag.gsub(/(?:\G|\s)-arch\s+\S+/, '') end RbConfig::expand("$(CPP) #$INCFLAGS #$CPPFLAGS #$CFLAGS #{opt} #{CONFTEST_C} #{outfile}", conf) end def libpathflag(libpath=$DEFLIBPATH|$LIBPATH) libpath.map{|x| case x when "$(topdir)", /\A\./ LIBPATHFLAG else LIBPATHFLAG+RPATHFLAG end % x.quote }.join end def with_werror(opt, opts = nil) if opts if opts[:werror] and config_string("WERRORFLAG") {|flag| opt = opt ? "#{opt} #{flag}" : flag} (opts = opts.dup).delete(:werror) end yield(opt, opts) else yield(opt) end end def try_link0(src, opt="", *opts, &b) # :nodoc: exe = CONFTEST+$EXEEXT cmd = link_command("", opt) if $universal require 'tmpdir' Dir.mktmpdir("mkmf_", oldtmpdir = ENV["TMPDIR"]) do |tmpdir| begin ENV["TMPDIR"] = tmpdir try_do(src, cmd, *opts, &b) ensure ENV["TMPDIR"] = oldtmpdir end end else try_do(src, cmd, *opts, &b) end and File.executable?(exe) or return nil exe ensure MakeMakefile.rm_rf(*Dir["#{CONFTEST}*"]-[exe]) end # Returns whether or not the +src+ can be compiled as a C source and linked # with its depending libraries successfully. +opt+ is passed to the linker # as options. Note that +$CFLAGS+ and +$LDFLAGS+ are also passed to the # linker. # # If a block given, it is called with the source before compilation. You can # modify the source in the block. # # [+src+] a String which contains a C source # [+opt+] a String which contains linker options def try_link(src, opt="", *opts, &b) exe = try_link0(src, opt, *opts, &b) or return false MakeMakefile.rm_f exe true end # Returns whether or not the +src+ can be compiled as a C source. +opt+ is # passed to the C compiler as options. Note that +$CFLAGS+ is also passed to # the compiler. # # If a block given, it is called with the source before compilation. You can # modify the source in the block. # # [+src+] a String which contains a C source # [+opt+] a String which contains compiler options def try_compile(src, opt="", *opts, &b) with_werror(opt, *opts) {|_opt, *| try_do(src, cc_command(_opt), *opts, &b)} and File.file?("#{CONFTEST}.#{$OBJEXT}") ensure MakeMakefile.rm_f "#{CONFTEST}*" end # Returns whether or not the +src+ can be preprocessed with the C # preprocessor. +opt+ is passed to the preprocessor as options. Note that # +$CFLAGS+ is also passed to the preprocessor. # # If a block given, it is called with the source before preprocessing. You # can modify the source in the block. # # [+src+] a String which contains a C source # [+opt+] a String which contains preprocessor options def try_cpp(src, opt="", *opts, &b) try_do(src, cpp_command(CPPOUTFILE, opt), *opts, &b) and File.file?("#{CONFTEST}.i") ensure MakeMakefile.rm_f "#{CONFTEST}*" end alias_method :try_header, (config_string('try_header') || :try_cpp) def cpp_include(header) if header header = [header] unless header.kind_of? Array header.map {|h| String === h ? "#include <#{h}>\n" : h}.join else "" end end def with_cppflags(flags) cppflags = $CPPFLAGS $CPPFLAGS = flags.dup ret = yield ensure $CPPFLAGS = cppflags unless ret end def try_cppflags(flags, opts = {}) try_header(MAIN_DOES_NOTHING, flags, {:werror => true}.update(opts)) end def append_cppflags(flags, *opts) Array(flags).each do |flag| if checking_for("whether #{flag} is accepted as CPPFLAGS") { try_cppflags(flag, *opts) } $CPPFLAGS << " " << flag end end end def with_cflags(flags) cflags = $CFLAGS $CFLAGS = flags.dup ret = yield ensure $CFLAGS = cflags unless ret end def try_cflags(flags, opts = {}) try_compile(MAIN_DOES_NOTHING, flags, {:werror => true}.update(opts)) end def append_cflags(flags, *opts) Array(flags).each do |flag| if checking_for("whether #{flag} is accepted as CFLAGS") { try_cflags(flag, *opts) } $CFLAGS << " " << flag end end end def with_ldflags(flags) ldflags = $LDFLAGS $LDFLAGS = flags.dup ret = yield ensure $LDFLAGS = ldflags unless ret end def try_ldflags(flags, opts = {}) opts = {:werror => true}.update(opts) if $mswin try_link(MAIN_DOES_NOTHING, flags, opts) end def append_ldflags(flags, *opts) Array(flags).each do |flag| if checking_for("whether #{flag} is accepted as LDFLAGS") { try_ldflags(flag, *opts) } $LDFLAGS << " " << flag end end end def try_static_assert(expr, headers = nil, opt = "", &b) headers = cpp_include(headers) try_compile(<<SRC, opt, &b) #{headers} /*top*/ int conftest_const[(#{expr}) ? 1 : -1]; SRC end def try_constant(const, headers = nil, opt = "", &b) includes = cpp_include(headers) neg = try_static_assert("#{const} < 0", headers, opt) if CROSS_COMPILING if neg const = "-(#{const})" elsif try_static_assert("#{const} > 0", headers, opt) # positive constant elsif try_static_assert("#{const} == 0", headers, opt) return 0 else # not a constant return nil end upper = 1 until try_static_assert("#{const} <= #{upper}", headers, opt) lower = upper upper <<= 1 end return nil unless lower while upper > lower + 1 mid = (upper + lower) / 2 if try_static_assert("#{const} > #{mid}", headers, opt) lower = mid else upper = mid end end upper = -upper if neg return upper else src = %{#{includes} #include <stdio.h> /*top*/ typedef#{neg ? '' : ' unsigned'} #ifdef PRI_LL_PREFIX #define PRI_CONFTEST_PREFIX PRI_LL_PREFIX LONG_LONG #else #define PRI_CONFTEST_PREFIX "l" long #endif conftest_type; conftest_type conftest_const = (conftest_type)(#{const}); int main() {printf("%"PRI_CONFTEST_PREFIX"#{neg ? 'd' : 'u'}\\n", conftest_const); return 0;} } begin if try_link0(src, opt, &b) xpopen("./#{CONFTEST}") do |f| return Integer(f.gets) end end ensure MakeMakefile.rm_f "#{CONFTEST}#{$EXEEXT}" end end nil end # You should use +have_func+ rather than +try_func+. # # [+func+] a String which contains a symbol name # [+libs+] a String which contains library names. # [+headers+] a String or an Array of strings which contains names of header # files. def try_func(func, libs, headers = nil, opt = "", &b) headers = cpp_include(headers) case func when /^&/ decltype = proc {|x|"const volatile void *#{x}"} when /\)$/ call = func when nil call = "" else call = "#{func}()" decltype = proc {|x| "void ((*#{x})())"} end if opt and !opt.empty? [[:to_str], [:join, " "], [:to_s]].each do |meth, *args| if opt.respond_to?(meth) break opt = opt.send(meth, *args) end end opt = "#{opt} #{libs}" else opt = libs end decltype && try_link(<<"SRC", opt, &b) or #{headers} /*top*/ extern int t(void); #{MAIN_DOES_NOTHING 't'} int t(void) { #{decltype["volatile p"]}; p = (#{decltype[]})#{func}; return !p; } SRC call && try_link(<<"SRC", opt, &b) #{headers} /*top*/ extern int t(void); #{MAIN_DOES_NOTHING 't'} #{"extern void #{call};" if decltype} int t(void) { #{call}; return 0; } SRC end # You should use +have_var+ rather than +try_var+. def try_var(var, headers = nil, opt = "", &b) headers = cpp_include(headers) try_compile(<<"SRC", opt, &b) #{headers} /*top*/ extern int t(void); #{MAIN_DOES_NOTHING 't'} int t(void) { const volatile void *volatile p; p = &(&#{var})[0]; return !p; } SRC end # Returns whether or not the +src+ can be preprocessed with the C # preprocessor and matches with +pat+. # # If a block given, it is called with the source before compilation. You can # modify the source in the block. # # [+pat+] a Regexp or a String # [+src+] a String which contains a C source # [+opt+] a String which contains preprocessor options # # NOTE: When pat is a Regexp the matching will be checked in process, # otherwise egrep(1) will be invoked to check it. def egrep_cpp(pat, src, opt = "", &b) src = create_tmpsrc(src, &b) xpopen(cpp_command('', opt)) do |f| if Regexp === pat puts(" ruby -ne 'print if #{pat.inspect}'") f.grep(pat) {|l| puts "#{f.lineno}: #{l}" return true } false else puts(" egrep '#{pat}'") begin stdin = $stdin.dup $stdin.reopen(f) system("egrep", pat) ensure $stdin.reopen(stdin) end end end ensure MakeMakefile.rm_f "#{CONFTEST}*" log_src(src) end # This is used internally by the have_macro? method. def macro_defined?(macro, src, opt = "", &b) src = src.sub(/[^\n]\z/, "\\&\n") try_compile(src + <<"SRC", opt, &b) /*top*/ #ifndef #{macro} # error |:/ === #{macro} undefined === /:| #endif SRC end # Returns whether or not: # * the +src+ can be compiled as a C source, # * the result object can be linked with its depending libraries # successfully, # * the linked file can be invoked as an executable # * and the executable exits successfully # # +opt+ is passed to the linker as options. Note that +$CFLAGS+ and # +$LDFLAGS+ are also passed to the linker. # # If a block given, it is called with the source before compilation. You can # modify the source in the block. # # [+src+] a String which contains a C source # [+opt+] a String which contains linker options # # Returns true when the executable exits successfully, false when it fails, # or nil when preprocessing, compilation or link fails. def try_run(src, opt = "", &b) raise "cannot run test program while cross compiling" if CROSS_COMPILING if try_link0(src, opt, &b) xsystem("./#{CONFTEST}") else nil end ensure MakeMakefile.rm_f "#{CONFTEST}*" end def install_files(mfile, ifiles, map = nil, srcprefix = nil) ifiles or return ifiles.empty? and return srcprefix ||= "$(srcdir)/#{srcprefix}".chomp('/') RbConfig::expand(srcdir = srcprefix.dup) dirs = [] path = Hash.new {|h, i| h[i] = dirs.push([i])[-1]} ifiles.each do |files, dir, prefix| dir = map_dir(dir, map) prefix &&= %r|\A#{Regexp.quote(prefix)}/?| if /\A\.\// =~ files # install files which are in current working directory. files = files[2..-1] len = nil else # install files which are under the $(srcdir). files = File.join(srcdir, files) len = srcdir.size end f = nil Dir.glob(files) do |fx| f = fx f[0..len] = "" if len case File.basename(f) when *$NONINSTALLFILES next end d = File.dirname(f) d.sub!(prefix, "") if prefix d = (d.empty? || d == ".") ? dir : File.join(dir, d) f = File.join(srcprefix, f) if len path[d] << f end unless len or f d = File.dirname(files) d.sub!(prefix, "") if prefix d = (d.empty? || d == ".") ? dir : File.join(dir, d) path[d] << files end end dirs end def install_rb(mfile, dest, srcdir = nil) install_files(mfile, [["lib/**/*.rb", dest, "lib"]], nil, srcdir) end def append_library(libs, lib) # :no-doc: format(LIBARG, lib) + " " + libs end def message(*s) unless Logging.quiet and not $VERBOSE printf(*s) $stdout.flush end end # This emits a string to stdout that allows users to see the results of the # various have* and find* methods as they are tested. # # Internal use only. # def checking_for(m, fmt = nil) f = caller[0][/in `([^<].*)'$/, 1] and f << ": " #` for vim #' m = "checking #{/\Acheck/ =~ f ? '' : 'for '}#{m}... " message "%s", m a = r = nil Logging::postpone do r = yield a = (fmt ? "#{fmt % r}" : r ? "yes" : "no") "#{f}#{m}-------------------- #{a}\n\n" end message "%s\n", a Logging::message "--------------------\n\n" r end def checking_message(target, place = nil, opt = nil) [["in", place], ["with", opt]].inject("#{target}") do |msg, (pre, noun)| if noun [[:to_str], [:join, ","], [:to_s]].each do |meth, *args| if noun.respond_to?(meth) break noun = noun.send(meth, *args) end end unless noun.empty? msg << " #{pre} " unless msg.empty? msg << noun end end msg end end # :startdoc: # Returns whether or not +macro+ is defined either in the common header # files or within any +headers+ you provide. # # Any options you pass to +opt+ are passed along to the compiler. # def have_macro(macro, headers = nil, opt = "", &b) checking_for checking_message(macro, headers, opt) do macro_defined?(macro, cpp_include(headers), opt, &b) end end # Returns whether or not the given entry point +func+ can be found within # +lib+. If +func+ is +nil+, the <code>main()</code> entry point is used by # default. If found, it adds the library to list of libraries to be used # when linking your extension. # # If +headers+ are provided, it will include those header files as the # header files it looks in when searching for +func+. # # The real name of the library to be linked can be altered by # <code>--with-FOOlib</code> configuration option. # def have_library(lib, func = nil, headers = nil, opt = "", &b) lib = with_config(lib+'lib', lib) checking_for checking_message(func && func.funcall_style, LIBARG%lib, opt) do if COMMON_LIBS.include?(lib) true else libs = append_library($libs, lib) if try_func(func, libs, headers, opt, &b) $libs = libs true else false end end end end # Returns whether or not the entry point +func+ can be found within the # library +lib+ in one of the +paths+ specified, where +paths+ is an array # of strings. If +func+ is +nil+ , then the <code>main()</code> function is # used as the entry point. # # If +lib+ is found, then the path it was found on is added to the list of # library paths searched and linked against. # def find_library(lib, func, *paths, &b) lib = with_config(lib+'lib', lib) paths = paths.collect {|path| path.split(File::PATH_SEPARATOR)}.flatten checking_for checking_message(func && func.funcall_style, LIBARG%lib) do libpath = $LIBPATH libs = append_library($libs, lib) begin until r = try_func(func, libs, &b) or paths.empty? $LIBPATH = libpath | [paths.shift] end if r $libs = libs libpath = nil end ensure $LIBPATH = libpath if libpath end r end end # Returns whether or not the function +func+ can be found in the common # header files, or within any +headers+ that you provide. If found, a macro # is passed as a preprocessor constant to the compiler using the function # name, in uppercase, prepended with +HAVE_+. # # To check functions in an additional library, you need to check that # library first using <code>have_library()</code>. The +func+ shall be # either mere function name or function name with arguments. # # For example, if <code>have_func('foo')</code> returned +true+, then the # +HAVE_FOO+ preprocessor macro would be passed to the compiler. # def have_func(func, headers = nil, opt = "", &b) checking_for checking_message(func.funcall_style, headers, opt) do if try_func(func, $libs, headers, opt, &b) $defs << "-DHAVE_#{func.sans_arguments.tr_cpp}" true else false end end end # Returns whether or not the variable +var+ can be found in the common # header files, or within any +headers+ that you provide. If found, a macro # is passed as a preprocessor constant to the compiler using the variable # name, in uppercase, prepended with +HAVE_+. # # To check variables in an additional library, you need to check that # library first using <code>have_library()</code>. # # For example, if <code>have_var('foo')</code> returned true, then the # +HAVE_FOO+ preprocessor macro would be passed to the compiler. # def have_var(var, headers = nil, opt = "", &b) checking_for checking_message(var, headers, opt) do if try_var(var, headers, opt, &b) $defs.push(format("-DHAVE_%s", var.tr_cpp)) true else false end end end # Returns whether or not the given +header+ file can be found on your system. # If found, a macro is passed as a preprocessor constant to the compiler # using the header file name, in uppercase, prepended with +HAVE_+. # # For example, if <code>have_header('foo.h')</code> returned true, then the # +HAVE_FOO_H+ preprocessor macro would be passed to the compiler. # def have_header(header, preheaders = nil, opt = "", &b) checking_for header do if try_header(cpp_include(preheaders)+cpp_include(header), opt, &b) $defs.push(format("-DHAVE_%s", header.tr_cpp)) true else false end end end # Returns whether or not the given +framework+ can be found on your system. # If found, a macro is passed as a preprocessor constant to the compiler # using the framework name, in uppercase, prepended with +HAVE_FRAMEWORK_+. # # For example, if <code>have_framework('Ruby')</code> returned true, then # the +HAVE_FRAMEWORK_RUBY+ preprocessor macro would be passed to the # compiler. # # If +fw+ is a pair of the framework name and its header file name # that header file is checked, instead of the normally used header # file which is named same as the framework. def have_framework(fw, &b) if Array === fw fw, header = *fw else header = "#{fw}.h" end checking_for fw do src = cpp_include("#{fw}/#{header}") << "\n" "int main(void){return 0;}" opt = " -framework #{fw}" if try_link(src, opt, &b) or (objc = try_link(src, "-ObjC#{opt}", &b)) $defs.push(format("-DHAVE_FRAMEWORK_%s", fw.tr_cpp)) # TODO: non-worse way than this hack, to get rid of separating # option and its argument. $LDFLAGS << " -ObjC" if objc and /(\A|\s)-ObjC(\s|\z)/ !~ $LDFLAGS $LIBS << opt true else false end end end # Instructs mkmf to search for the given +header+ in any of the +paths+ # provided, and returns whether or not it was found in those paths. # # If the header is found then the path it was found on is added to the list # of included directories that are sent to the compiler (via the # <code>-I</code> switch). # def find_header(header, *paths) message = checking_message(header, paths) header = cpp_include(header) checking_for message do if try_header(header) true else found = false paths.each do |dir| opt = "-I#{dir}".quote if try_header(header, opt) $INCFLAGS << " " << opt found = true break end end found end end end # Returns whether or not the struct of type +type+ contains +member+. If # it does not, or the struct type can't be found, then false is returned. # You may optionally specify additional +headers+ in which to look for the # struct (in addition to the common header files). # # If found, a macro is passed as a preprocessor constant to the compiler # using the type name and the member name, in uppercase, prepended with # +HAVE_+. # # For example, if <code>have_struct_member('struct foo', 'bar')</code> # returned true, then the +HAVE_STRUCT_FOO_BAR+ preprocessor macro would be # passed to the compiler. # # +HAVE_ST_BAR+ is also defined for backward compatibility. # def have_struct_member(type, member, headers = nil, opt = "", &b) checking_for checking_message("#{type}.#{member}", headers) do if try_compile(<<"SRC", opt, &b) #{cpp_include(headers)} /*top*/ int s = (char *)&((#{type}*)0)->#{member} - (char *)0; #{MAIN_DOES_NOTHING} SRC $defs.push(format("-DHAVE_%s_%s", type.tr_cpp, member.tr_cpp)) $defs.push(format("-DHAVE_ST_%s", member.tr_cpp)) # backward compatibility true else false end end end # Returns whether or not the static type +type+ is defined. # # See also +have_type+ # def try_type(type, headers = nil, opt = "", &b) if try_compile(<<"SRC", opt, &b) #{cpp_include(headers)} /*top*/ typedef #{type} conftest_type; int conftestval[sizeof(conftest_type)?1:-1]; SRC $defs.push(format("-DHAVE_TYPE_%s", type.tr_cpp)) true else false end end # Returns whether or not the static type +type+ is defined. You may # optionally pass additional +headers+ to check against in addition to the # common header files. # # You may also pass additional flags to +opt+ which are then passed along to # the compiler. # # If found, a macro is passed as a preprocessor constant to the compiler # using the type name, in uppercase, prepended with +HAVE_TYPE_+. # # For example, if <code>have_type('foo')</code> returned true, then the # +HAVE_TYPE_FOO+ preprocessor macro would be passed to the compiler. # def have_type(type, headers = nil, opt = "", &b) checking_for checking_message(type, headers, opt) do try_type(type, headers, opt, &b) end end # Returns where the static type +type+ is defined. # # You may also pass additional flags to +opt+ which are then passed along to # the compiler. # # See also +have_type+. # def find_type(type, opt, *headers, &b) opt ||= "" fmt = "not found" def fmt.%(x) x ? x.respond_to?(:join) ? x.join(",") : x : self end checking_for checking_message(type, nil, opt), fmt do headers.find do |h| try_type(type, h, opt, &b) end end end # Returns whether or not the constant +const+ is defined. # # See also +have_const+ # def try_const(const, headers = nil, opt = "", &b) const, type = *const if try_compile(<<"SRC", opt, &b) #{cpp_include(headers)} /*top*/ typedef #{type || 'int'} conftest_type; conftest_type conftestval = #{type ? '' : '(int)'}#{const}; SRC $defs.push(format("-DHAVE_CONST_%s", const.tr_cpp)) true else false end end # Returns whether or not the constant +const+ is defined. You may # optionally pass the +type+ of +const+ as <code>[const, type]</code>, # such as: # # have_const(%w[PTHREAD_MUTEX_INITIALIZER pthread_mutex_t], "pthread.h") # # You may also pass additional +headers+ to check against in addition to the # common header files, and additional flags to +opt+ which are then passed # along to the compiler. # # If found, a macro is passed as a preprocessor constant to the compiler # using the type name, in uppercase, prepended with +HAVE_CONST_+. # # For example, if <code>have_const('foo')</code> returned true, then the # +HAVE_CONST_FOO+ preprocessor macro would be passed to the compiler. # def have_const(const, headers = nil, opt = "", &b) checking_for checking_message([*const].compact.join(' '), headers, opt) do try_const(const, headers, opt, &b) end end # :stopdoc: STRING_OR_FAILED_FORMAT = "%s" def STRING_OR_FAILED_FORMAT.%(x) # :nodoc: x ? super : "failed" end def typedef_expr(type, headers) typename, member = type.split('.', 2) prelude = cpp_include(headers).split(/$/) prelude << "typedef #{typename} rbcv_typedef_;\n" return "rbcv_typedef_", member, prelude end def try_signedness(type, member, headers = nil, opts = nil) raise ArgumentError, "don't know how to tell signedness of members" if member if try_static_assert("(#{type})-1 < 0", headers, opts) return -1 elsif try_static_assert("(#{type})-1 > 0", headers, opts) return +1 end end # :startdoc: # Returns the size of the given +type+. You may optionally specify # additional +headers+ to search in for the +type+. # # If found, a macro is passed as a preprocessor constant to the compiler # using the type name, in uppercase, prepended with +SIZEOF_+, followed by # the type name, followed by <code>=X</code> where "X" is the actual size. # # For example, if <code>check_sizeof('mystruct')</code> returned 12, then # the <code>SIZEOF_MYSTRUCT=12</code> preprocessor macro would be passed to # the compiler. # def check_sizeof(type, headers = nil, opts = "", &b) typedef, member, prelude = typedef_expr(type, headers) prelude << "#{typedef} *rbcv_ptr_;\n" prelude = [prelude] expr = "sizeof((*rbcv_ptr_)#{"." << member if member})" fmt = STRING_OR_FAILED_FORMAT checking_for checking_message("size of #{type}", headers), fmt do if size = try_constant(expr, prelude, opts, &b) $defs.push(format("-DSIZEOF_%s=%s", type.tr_cpp, size)) size end end end # Returns the signedness of the given +type+. You may optionally specify # additional +headers+ to search in for the +type+. # # If the +type+ is found and is a numeric type, a macro is passed as a # preprocessor constant to the compiler using the +type+ name, in uppercase, # prepended with +SIGNEDNESS_OF_+, followed by the +type+ name, followed by # <code>=X</code> where "X" is positive integer if the +type+ is unsigned # and a negative integer if the +type+ is signed. # # For example, if +size_t+ is defined as unsigned, then # <code>check_signedness('size_t')</code> would return +1 and the # <code>SIGNEDNESS_OF_SIZE_T=+1</code> preprocessor macro would be passed to # the compiler. The <code>SIGNEDNESS_OF_INT=-1</code> macro would be set # for <code>check_signedness('int')</code> # def check_signedness(type, headers = nil, opts = nil, &b) typedef, member, prelude = typedef_expr(type, headers) signed = nil checking_for("signedness of #{type}", STRING_OR_FAILED_FORMAT) do signed = try_signedness(typedef, member, [prelude], opts, &b) or next nil $defs.push("-DSIGNEDNESS_OF_%s=%+d" % [type.tr_cpp, signed]) signed < 0 ? "signed" : "unsigned" end signed end # Returns the convertible integer type of the given +type+. You may # optionally specify additional +headers+ to search in for the +type+. # _convertible_ means actually the same type, or typedef'd from the same # type. # # If the +type+ is an integer type and the _convertible_ type is found, # the following macros are passed as preprocessor constants to the compiler # using the +type+ name, in uppercase. # # * +TYPEOF_+, followed by the +type+ name, followed by <code>=X</code> # where "X" is the found _convertible_ type name. # * +TYP2NUM+ and +NUM2TYP+, # where +TYP+ is the +type+ name in uppercase with replacing an +_t+ # suffix with "T", followed by <code>=X</code> where "X" is the macro name # to convert +type+ to an Integer object, and vice versa. # # For example, if +foobar_t+ is defined as unsigned long, then # <code>convertible_int("foobar_t")</code> would return "unsigned long", and # define these macros: # # #define TYPEOF_FOOBAR_T unsigned long # #define FOOBART2NUM ULONG2NUM # #define NUM2FOOBART NUM2ULONG # def convertible_int(type, headers = nil, opts = nil, &b) type, macname = *type checking_for("convertible type of #{type}", STRING_OR_FAILED_FORMAT) do if UNIVERSAL_INTS.include?(type) type else typedef, member, prelude = typedef_expr(type, headers, &b) if member prelude << "static rbcv_typedef_ rbcv_var;" compat = UNIVERSAL_INTS.find {|t| try_static_assert("sizeof(rbcv_var.#{member}) == sizeof(#{t})", [prelude], opts, &b) } else next unless signed = try_signedness(typedef, member, [prelude]) u = "unsigned " if signed > 0 prelude << "extern rbcv_typedef_ foo();" compat = UNIVERSAL_INTS.find {|t| try_compile([prelude, "extern #{u}#{t} foo();"].join("\n"), opts, :werror=>true, &b) } end if compat macname ||= type.sub(/_(?=t\z)/, '').tr_cpp conv = (compat == "long long" ? "LL" : compat.upcase) compat = "#{u}#{compat}" typename = type.tr_cpp $defs.push(format("-DSIZEOF_%s=SIZEOF_%s", typename, compat.tr_cpp)) $defs.push(format("-DTYPEOF_%s=%s", typename, compat.quote)) $defs.push(format("-DPRI_%s_PREFIX=PRI_%s_PREFIX", macname, conv)) conv = (u ? "U" : "") + conv $defs.push(format("-D%s2NUM=%s2NUM", macname, conv)) $defs.push(format("-DNUM2%s=NUM2%s", macname, conv)) compat end end end end # :stopdoc: # Used internally by the what_type? method to determine if +type+ is a scalar # pointer. def scalar_ptr_type?(type, member = nil, headers = nil, &b) try_compile(<<"SRC", &b) # pointer #{cpp_include(headers)} /*top*/ volatile #{type} conftestval; extern int t(void); #{MAIN_DOES_NOTHING 't'} int t(void) {return (int)(1-*(conftestval#{member ? ".#{member}" : ""}));} SRC end # Used internally by the what_type? method to determine if +type+ is a scalar # pointer. def scalar_type?(type, member = nil, headers = nil, &b) try_compile(<<"SRC", &b) # pointer #{cpp_include(headers)} /*top*/ volatile #{type} conftestval; extern int t(void); #{MAIN_DOES_NOTHING 't'} int t(void) {return (int)(1-(conftestval#{member ? ".#{member}" : ""}));} SRC end # Used internally by the what_type? method to check if the _typeof_ GCC # extension is available. def have_typeof? return $typeof if defined?($typeof) $typeof = %w[__typeof__ typeof].find do |t| try_compile(<<SRC) int rbcv_foo; #{t}(rbcv_foo) rbcv_bar; SRC end end def what_type?(type, member = nil, headers = nil, &b) m = "#{type}" var = val = "*rbcv_var_" func = "rbcv_func_(void)" if member m << "." << member else type, member = type.split('.', 2) end if member val = "(#{var}).#{member}" end prelude = [cpp_include(headers).split(/^/)] prelude << ["typedef #{type} rbcv_typedef_;\n", "extern rbcv_typedef_ *#{func};\n", "rbcv_typedef_ #{var};\n", ] type = "rbcv_typedef_" fmt = member && !(typeof = have_typeof?) ? "seems %s" : "%s" if typeof var = "*rbcv_member_" func = "rbcv_mem_func_(void)" member = nil type = "rbcv_mem_typedef_" prelude[-1] << "typedef #{typeof}(#{val}) #{type};\n" prelude[-1] << "extern #{type} *#{func};\n" prelude[-1] << "#{type} #{var};\n" val = var end def fmt.%(x) x ? super : "unknown" end checking_for checking_message(m, headers), fmt do if scalar_ptr_type?(type, member, prelude, &b) if try_static_assert("sizeof(*#{var}) == 1", prelude) return "string" end ptr = "*" elsif scalar_type?(type, member, prelude, &b) unless member and !typeof or try_static_assert("(#{type})-1 < 0", prelude) unsigned = "unsigned" end ptr = "" else next end type = UNIVERSAL_INTS.find do |t| pre = prelude unless member pre += [["#{unsigned} #{t} #{ptr}#{var};\n", "extern #{unsigned} #{t} #{ptr}*#{func};\n"]] end try_static_assert("sizeof(#{ptr}#{val}) == sizeof(#{unsigned} #{t})", pre) end type or next [unsigned, type, ptr].join(" ").strip end end # This method is used internally by the find_executable method. # # Internal use only. # def find_executable0(bin, path = nil) executable_file = proc do |name| begin stat = File.stat(name) rescue SystemCallError else next name if stat.file? and stat.executable? end end exts = config_string('EXECUTABLE_EXTS') {|s| s.split} || config_string('EXEEXT') {|s| [s]} if File.expand_path(bin) == bin return bin if executable_file.call(bin) if exts exts.each {|ext| executable_file.call(file = bin + ext) and return file} end return nil end if path ||= ENV['PATH'] path = path.split(File::PATH_SEPARATOR) else path = %w[/usr/local/bin /usr/ucb /usr/bin /bin] end file = nil path.each do |dir| dir.sub!(/\A"(.*)"\z/m, '\1') if $mswin or $mingw return file if executable_file.call(file = File.join(dir, bin)) if exts exts.each {|ext| executable_file.call(ext = file + ext) and return ext} end end nil end # :startdoc: # Searches for the executable +bin+ on +path+. The default path is your # +PATH+ environment variable. If that isn't defined, it will resort to # searching /usr/local/bin, /usr/ucb, /usr/bin and /bin. # # If found, it will return the full path, including the executable name, of # where it was found. # # Note that this method does not actually affect the generated Makefile. # def find_executable(bin, path = nil) checking_for checking_message(bin, path) do find_executable0(bin, path) end end # :stopdoc: def arg_config(config, default=nil, &block) $arg_config << [config, default] defaults = [] if default defaults << default elsif !block defaults << nil end $configure_args.fetch(config.tr('_', '-'), *defaults, &block) end # :startdoc: # Tests for the presence of a <tt>--with-</tt>_config_ or # <tt>--without-</tt>_config_ option. Returns +true+ if the with option is # given, +false+ if the without option is given, and the default value # otherwise. # # This can be useful for adding custom definitions, such as debug # information. # # Example: # # if with_config("debug") # $defs.push("-DOSSL_DEBUG") unless $defs.include? "-DOSSL_DEBUG" # end # def with_config(config, default=nil) config = config.sub(/^--with[-_]/, '') val = arg_config("--with-"+config) do if arg_config("--without-"+config) false elsif block_given? yield(config, default) else break default end end case val when "yes" true when "no" false else val end end # Tests for the presence of an <tt>--enable-</tt>_config_ or # <tt>--disable-</tt>_config_ option. Returns +true+ if the enable option is # given, +false+ if the disable option is given, and the default value # otherwise. # # This can be useful for adding custom definitions, such as debug # information. # # Example: # # if enable_config("debug") # $defs.push("-DOSSL_DEBUG") unless $defs.include? "-DOSSL_DEBUG" # end # def enable_config(config, default=nil) if arg_config("--enable-"+config) true elsif arg_config("--disable-"+config) false elsif block_given? yield(config, default) else return default end end # Generates a header file consisting of the various macro definitions # generated by other methods such as have_func and have_header. These are # then wrapped in a custom <code>#ifndef</code> based on the +header+ file # name, which defaults to "extconf.h". # # For example: # # # extconf.rb # require 'mkmf' # have_func('realpath') # have_header('sys/utime.h') # create_header # create_makefile('foo') # # The above script would generate the following extconf.h file: # # #ifndef EXTCONF_H # #define EXTCONF_H # #define HAVE_REALPATH 1 # #define HAVE_SYS_UTIME_H 1 # #endif # # Given that the create_header method generates a file based on definitions # set earlier in your extconf.rb file, you will probably want to make this # one of the last methods you call in your script. # def create_header(header = "extconf.h") message "creating %s\n", header sym = header.tr_cpp hdr = ["#ifndef #{sym}\n#define #{sym}\n"] for line in $defs case line when /^-D([^=]+)(?:=(.*))?/ hdr << "#define #$1 #{$2 ? Shellwords.shellwords($2)[0].gsub(/(?=\t+)/, "\\\n") : 1}\n" when /^-U(.*)/ hdr << "#undef #$1\n" end end hdr << "#endif\n" hdr = hdr.join("") log_src(hdr, "#{header} is") unless (IO.read(header) == hdr rescue false) open(header, "wb") do |hfile| hfile.write(hdr) end end $extconf_h = header end # call-seq: # dir_config(target) # dir_config(target, prefix) # dir_config(target, idefault, ldefault) # # Sets a +target+ name that the user can then use to configure # various "with" options with on the command line by using that # name. For example, if the target is set to "foo", then the user # could use the <code>--with-foo-dir=prefix</code>, # <code>--with-foo-include=dir</code> and # <code>--with-foo-lib=dir</code> command line options to tell where # to search for header/library files. # # You may pass along additional parameters to specify default # values. If one is given it is taken as default +prefix+, and if # two are given they are taken as "include" and "lib" defaults in # that order. # # In any case, the return value will be an array of determined # "include" and "lib" directories, either of which can be nil if no # corresponding command line option is given when no default value # is specified. # # Note that dir_config only adds to the list of places to search for # libraries and include files. It does not link the libraries into your # application. # def dir_config(target, idefault=nil, ldefault=nil) if dir = with_config(target + "-dir", (idefault unless ldefault)) defaults = Array === dir ? dir : dir.split(File::PATH_SEPARATOR) idefault = ldefault = nil end idir = with_config(target + "-include", idefault) $arg_config.last[1] ||= "${#{target}-dir}/include" ldir = with_config(target + "-lib", ldefault) $arg_config.last[1] ||= "${#{target}-dir}/#{_libdir_basename}" idirs = idir ? Array === idir ? idir.dup : idir.split(File::PATH_SEPARATOR) : [] if defaults idirs.concat(defaults.collect {|d| d + "/include"}) idir = ([idir] + idirs).compact.join(File::PATH_SEPARATOR) end unless idirs.empty? idirs.collect! {|d| "-I" + d} idirs -= Shellwords.shellwords($CPPFLAGS) unless idirs.empty? $CPPFLAGS = (idirs.quote << $CPPFLAGS).join(" ") end end ldirs = ldir ? Array === ldir ? ldir.dup : ldir.split(File::PATH_SEPARATOR) : [] if defaults ldirs.concat(defaults.collect {|d| "#{d}/#{_libdir_basename}"}) ldir = ([ldir] + ldirs).compact.join(File::PATH_SEPARATOR) end $LIBPATH = ldirs | $LIBPATH [idir, ldir] end # Returns compile/link information about an installed library in a # tuple of <code>[cflags, ldflags, libs]</code>, by using the # command found first in the following commands: # # 1. If <code>--with-{pkg}-config={command}</code> is given via # command line option: <code>{command} {option}</code> # # 2. <code>{pkg}-config {option}</code> # # 3. <code>pkg-config {option} {pkg}</code> # # Where {option} is, for instance, <code>--cflags</code>. # # The values obtained are appended to +$CFLAGS+, +$LDFLAGS+ and # +$libs+. # # If an <code>option</code> argument is given, the config command is # invoked with the option and a stripped output string is returned # without modifying any of the global values mentioned above. def pkg_config(pkg, option=nil) if pkgconfig = with_config("#{pkg}-config") and find_executable0(pkgconfig) # iff package specific config command is given elsif ($PKGCONFIG ||= (pkgconfig = with_config("pkg-config", ("pkg-config" unless CROSS_COMPILING))) && find_executable0(pkgconfig) && pkgconfig) and xsystem("#{$PKGCONFIG} --exists #{pkg}") # default to pkg-config command pkgconfig = $PKGCONFIG get = proc {|opt| opt = xpopen("#{$PKGCONFIG} --#{opt} #{pkg}", err:[:child, :out], &:read) Logging.open {puts opt.each_line.map{|s|"=> #{s.inspect}"}} opt.strip if $?.success? } elsif find_executable0(pkgconfig = "#{pkg}-config") # default to package specific config command, as a last resort. else pkgconfig = nil end if pkgconfig get ||= proc {|opt| opt = xpopen("#{pkgconfig} --#{opt}", err:[:child, :out], &:read) Logging.open {puts opt.each_line.map{|s|"=> #{s.inspect}"}} opt.strip if $?.success? } end orig_ldflags = $LDFLAGS if get and option get[option] elsif get and try_ldflags(ldflags = get['libs']) if incflags = get['cflags-only-I'] $INCFLAGS << " " << incflags cflags = get['cflags-only-other'] else cflags = get['cflags'] end libs = get['libs-only-l'] if cflags $CFLAGS += " " << cflags $CXXFLAGS += " " << cflags end if libs ldflags = (Shellwords.shellwords(ldflags) - Shellwords.shellwords(libs)).quote.join(" ") else libs, ldflags = Shellwords.shellwords(ldflags).partition {|s| s =~ /-l([^ ]+)/ }.map {|l|l.quote.join(" ")} end $libs += " " << libs $LDFLAGS = [orig_ldflags, ldflags].join(' ') Logging::message "package configuration for %s\n", pkg Logging::message "cflags: %s\nldflags: %s\nlibs: %s\n\n", cflags, ldflags, libs [cflags, ldflags, libs] else Logging::message "package configuration for %s is not found\n", pkg nil end end # :stopdoc: def with_destdir(dir) dir = dir.sub($dest_prefix_pattern, '') /\A\$[\(\{]/ =~ dir ? dir : "$(DESTDIR)"+dir end # Converts forward slashes to backslashes. Aimed at MS Windows. # # Internal use only. # def winsep(s) s.tr('/', '\\') end # Converts native path to format acceptable in Makefile # # Internal use only. # if !CROSS_COMPILING case CONFIG['build_os'] when 'mingw32' def mkintpath(path) # mingw uses make from msys and it needs special care # converts from C:\some\path to /C/some/path path = path.dup path.tr!('\\', '/') path.sub!(/\A([A-Za-z]):(?=\/)/, '/\1') path end when 'cygwin' if CONFIG['target_os'] != 'cygwin' def mkintpath(path) IO.popen(["cygpath", "-u", path], &:read).chomp end end end end unless method_defined?(:mkintpath) def mkintpath(path) path end end def configuration(srcdir) mk = [] vpath = $VPATH.dup CONFIG["hdrdir"] ||= $hdrdir mk << %{ SHELL = /bin/sh # V=0 quiet, V=1 verbose. other values don't work. V = 0 Q1 = $(V:1=) Q = $(Q1:0=@) ECHO1 = $(V:1=@ #{CONFIG['NULLCMD']}) ECHO = $(ECHO1:0=@ echo) NULLCMD = #{CONFIG['NULLCMD']} #### Start of system configuration section. #### #{"top_srcdir = " + $top_srcdir.sub(%r"\A#{Regexp.quote($topdir)}/", "$(topdir)/") if $extmk} srcdir = #{srcdir.gsub(/\$\((srcdir)\)|\$\{(srcdir)\}/) {mkintpath(CONFIG[$1||$2]).unspace}} topdir = #{mkintpath(topdir = $extmk ? CONFIG["topdir"] : $topdir).unspace} hdrdir = #{(hdrdir = CONFIG["hdrdir"]) == topdir ? "$(topdir)" : mkintpath(hdrdir).unspace} arch_hdrdir = #{$arch_hdrdir.quote} PATH_SEPARATOR = #{CONFIG['PATH_SEPARATOR']} VPATH = #{vpath.join(CONFIG['PATH_SEPARATOR'])} } if $extmk mk << "RUBYLIB =\n""RUBYOPT = -\n" end prefix = mkintpath(CONFIG["prefix"]) if destdir = prefix[$dest_prefix_pattern, 1] mk << "\nDESTDIR = #{destdir}\n" prefix = prefix[destdir.size..-1] end mk << "prefix = #{with_destdir(prefix).unspace}\n" CONFIG.each do |key, var| mk << "#{key} = #{with_destdir(mkintpath(var)).unspace}\n" if /.prefix$/ =~ key end CONFIG.each do |key, var| next if /^abs_/ =~ key next if /^(?:src|top(?:_src)?|build|hdr)dir$/ =~ key next unless /dir$/ =~ key mk << "#{key} = #{with_destdir(var)}\n" end if !$extmk and !$configure_args.has_key?('--ruby') and sep = config_string('BUILD_FILE_SEPARATOR') sep = ":/=#{sep}" else sep = "" end possible_command = (proc {|s| s if /top_srcdir/ !~ s} unless $extmk) extconf_h = $extconf_h ? "-DRUBY_EXTCONF_H=\\\"$(RUBY_EXTCONF_H)\\\" " : $defs.join(" ") << " " headers = %w[ $(hdrdir)/ruby.h $(hdrdir)/ruby/backward.h $(hdrdir)/ruby/ruby.h $(hdrdir)/ruby/defines.h $(hdrdir)/ruby/missing.h $(hdrdir)/ruby/intern.h $(hdrdir)/ruby/st.h $(hdrdir)/ruby/subst.h ] headers += $headers if RULE_SUBST headers.each {|h| h.sub!(/.*/, &RULE_SUBST.method(:%))} end headers << $config_h headers << '$(RUBY_EXTCONF_H)' if $extconf_h mk << %{ CC_WRAPPER = #{CONFIG['CC_WRAPPER']} CC = #{CONFIG['CC']} CXX = #{CONFIG['CXX']} LIBRUBY = #{CONFIG['LIBRUBY']} LIBRUBY_A = #{CONFIG['LIBRUBY_A']} LIBRUBYARG_SHARED = #$LIBRUBYARG_SHARED LIBRUBYARG_STATIC = #$LIBRUBYARG_STATIC empty = OUTFLAG = #{OUTFLAG}$(empty) COUTFLAG = #{COUTFLAG}$(empty) CSRCFLAG = #{CSRCFLAG}$(empty) RUBY_EXTCONF_H = #{$extconf_h} cflags = #{CONFIG['cflags']} cxxflags = #{CONFIG['cxxflags']} optflags = #{CONFIG['optflags']} debugflags = #{CONFIG['debugflags']} warnflags = #{$warnflags} cppflags = #{CONFIG['cppflags']} CCDLFLAGS = #{$static ? '' : CONFIG['CCDLFLAGS']} CFLAGS = $(CCDLFLAGS) #$CFLAGS $(ARCH_FLAG) INCFLAGS = -I. #$INCFLAGS DEFS = #{CONFIG['DEFS']} CPPFLAGS = #{extconf_h}#{$CPPFLAGS} CXXFLAGS = $(CCDLFLAGS) #$CXXFLAGS $(ARCH_FLAG) ldflags = #{$LDFLAGS} dldflags = #{$DLDFLAGS} #{CONFIG['EXTDLDFLAGS']} ARCH_FLAG = #{$ARCH_FLAG} DLDFLAGS = $(ldflags) $(dldflags) $(ARCH_FLAG) LDSHARED = #{CONFIG['LDSHARED']} LDSHAREDXX = #{config_string('LDSHAREDXX') || '$(LDSHARED)'} AR = #{CONFIG['AR']} EXEEXT = #{CONFIG['EXEEXT']} } CONFIG.each do |key, val| mk << "#{key} = #{val}\n" if /^RUBY.*NAME/ =~ key end mk << %{ arch = #{CONFIG['arch']} sitearch = #{CONFIG['sitearch']} ruby_version = #{RbConfig::CONFIG['ruby_version']} ruby = #{$ruby.sub(%r[\A#{Regexp.quote(RbConfig::CONFIG['bindir'])}(?=/|\z)]) {'$(bindir)'}} RUBY = $(ruby#{sep}) ruby_headers = #{headers.join(' ')} RM = #{config_string('RM', &possible_command) || '$(RUBY) -run -e rm -- -f'} RM_RF = #{'$(RUBY) -run -e rm -- -rf'} RMDIRS = #{config_string('RMDIRS', &possible_command) || '$(RUBY) -run -e rmdir -- -p'} MAKEDIRS = #{config_string('MAKEDIRS', &possible_command) || '@$(RUBY) -run -e mkdir -- -p'} INSTALL = #{config_string('INSTALL', &possible_command) || '@$(RUBY) -run -e install -- -vp'} INSTALL_PROG = #{config_string('INSTALL_PROG') || '$(INSTALL) -m 0755'} INSTALL_DATA = #{config_string('INSTALL_DATA') || '$(INSTALL) -m 0644'} COPY = #{config_string('CP', &possible_command) || '@$(RUBY) -run -e cp -- -v'} TOUCH = exit > #### End of system configuration section. #### preload = #{defined?($preload) && $preload ? $preload.join(' ') : ''} } mk end def timestamp_file(name, target_prefix = nil) pat = {} name = '$(RUBYARCHDIR)' if name == '$(TARGET_SO_DIR)' install_dirs.each do |n, d| pat[n] = $` if /\$\(target_prefix\)\z/ =~ d end name = name.gsub(/\$\((#{pat.keys.join("|")})\)/) {pat[$1]+target_prefix} name.sub!(/(\$\((?:site)?arch\))\/*/, '') arch = $1 || '' name.chomp!('/') name = name.gsub(/(\$[({]|[})])|(\/+)|[^-.\w]+/) {$1 ? "" : $2 ? ".-." : "_"} File.join("$(TIMESTAMP_DIR)", arch, "#{name.sub(/\A(?=.)/, '.')}.time") end # :startdoc: # creates a stub Makefile. # def dummy_makefile(srcdir) configuration(srcdir) << <<RULES << CLEANINGS CLEANFILES = #{$cleanfiles.join(' ')} DISTCLEANFILES = #{$distcleanfiles.join(' ')} all install static install-so install-rb: Makefile @$(NULLCMD) .PHONY: all install static install-so install-rb .PHONY: clean clean-so clean-static clean-rb RULES end def each_compile_rules # :nodoc: vpath_splat = /\$\(\*VPATH\*\)/ COMPILE_RULES.each do |rule| if vpath_splat =~ rule $VPATH.each do |path| yield rule.sub(vpath_splat) {path} end else yield rule end end end # Processes the data contents of the "depend" file. Each line of this file # is expected to be a file name. # # Returns the output of findings, in Makefile format. # def depend_rules(depend) suffixes = [] depout = [] cont = implicit = nil impconv = proc do each_compile_rules {|rule| depout << (rule % implicit[0]) << implicit[1]} implicit = nil end ruleconv = proc do |line| if implicit if /\A\t/ =~ line implicit[1] << line next else impconv[] end end if m = /\A\.(\w+)\.(\w+)(?:\s*:)/.match(line) suffixes << m[1] << m[2] implicit = [[m[1], m[2]], [m.post_match]] next elsif RULE_SUBST and /\A(?!\s*\w+\s*=)[$\w][^#]*:/ =~ line line.sub!(/\s*\#.*$/, '') comment = $& line.gsub!(%r"(\s)(?!\.)([^$(){}+=:\s\\,]+)(?=\s|\z)") {$1 + RULE_SUBST % $2} line = line.chomp + comment + "\n" if comment end depout << line end depend.each_line do |line| line.gsub!(/\.o\b/, ".#{$OBJEXT}") line.gsub!(/\{\$\(VPATH\)\}/, "") unless $nmake line.gsub!(/\$\((?:hdr|top)dir\)\/config.h/, $config_h) line.gsub!(%r"\$\(hdrdir\)/(?!ruby(?![^:;/\s]))(?=[-\w]+\.h)", '\&ruby/') if $nmake && /\A\s*\$\(RM|COPY\)/ =~ line line.gsub!(%r"[-\w\./]{2,}"){$&.tr("/", "\\")} line.gsub!(/(\$\((?!RM|COPY)[^:)]+)(?=\))/, '\1:/=\\') end if /(?:^|[^\\])(?:\\\\)*\\$/ =~ line (cont ||= []) << line next elsif cont line = (cont << line).join cont = nil end ruleconv.call(line) end if cont ruleconv.call(cont.join) elsif implicit impconv.call end unless suffixes.empty? depout.unshift(".SUFFIXES: ." + suffixes.uniq.join(" .") + "\n\n") end if $extconf_h depout.unshift("$(OBJS): $(RUBY_EXTCONF_H)\n\n") depout.unshift("$(OBJS): $(hdrdir)/ruby/win32.h\n\n") if $mswin or $mingw end depout.flatten! depout end # Generates the Makefile for your extension, passing along any options and # preprocessor constants that you may have generated through other methods. # # The +target+ name should correspond the name of the global function name # defined within your C extension, minus the +Init_+. For example, if your # C extension is defined as +Init_foo+, then your target would simply be # "foo". # # If any "/" characters are present in the target name, only the last name # is interpreted as the target name, and the rest are considered toplevel # directory names, and the generated Makefile will be altered accordingly to # follow that directory structure. # # For example, if you pass "test/foo" as a target name, your extension will # be installed under the "test" directory. This means that in order to # load the file within a Ruby program later, that directory structure will # have to be followed, e.g. <code>require 'test/foo'</code>. # # The +srcprefix+ should be used when your source files are not in the same # directory as your build script. This will not only eliminate the need for # you to manually copy the source files into the same directory as your # build script, but it also sets the proper +target_prefix+ in the generated # Makefile. # # Setting the +target_prefix+ will, in turn, install the generated binary in # a directory under your <code>RbConfig::CONFIG['sitearchdir']</code> that # mimics your local filesystem when you run <code>make install</code>. # # For example, given the following file tree: # # ext/ # extconf.rb # test/ # foo.c # # And given the following code: # # create_makefile('test/foo', 'test') # # That will set the +target_prefix+ in the generated Makefile to "test". # That, in turn, will create the following file tree when installed via the # <code>make install</code> command: # # /path/to/ruby/sitearchdir/test/foo.so # # It is recommended that you use this approach to generate your makefiles, # instead of copying files around manually, because some third party # libraries may depend on the +target_prefix+ being set properly. # # The +srcprefix+ argument can be used to override the default source # directory, i.e. the current directory. It is included as part of the # +VPATH+ and added to the list of +INCFLAGS+. # def create_makefile(target, srcprefix = nil) $target = target libpath = $DEFLIBPATH|$LIBPATH message "creating Makefile\n" MakeMakefile.rm_f "#{CONFTEST}*" if CONFIG["DLEXT"] == $OBJEXT for lib in libs = $libs.split lib.sub!(/-l(.*)/, %%"lib\\1.#{$LIBEXT}"%) end $defs.push(format("-DEXTLIB='%s'", libs.join(","))) end if target.include?('/') target_prefix, target = File.split(target) target_prefix[0,0] = '/' else target_prefix = "" end srcprefix ||= "$(srcdir)/#{srcprefix}".chomp('/') RbConfig.expand(srcdir = srcprefix.dup) ext = ".#{$OBJEXT}" orig_srcs = Dir[File.join(srcdir, "*.{#{SRC_EXT.join(%q{,})}}")].sort if not $objs srcs = $srcs || orig_srcs $objs = [] objs = srcs.inject(Hash.new {[]}) {|h, f| h.key?(o = File.basename(f, ".*") << ext) or $objs << o h[o] <<= f h } unless objs.delete_if {|b, f| f.size == 1}.empty? dups = objs.sort.map {|b, f| "#{b[/.*\./]}{#{f.collect {|n| n[/([^.]+)\z/]}.join(',')}}" } abort "source files duplication - #{dups.join(", ")}" end else $objs.collect! {|o| File.basename(o, ".*") << ext} unless $OBJEXT == "o" srcs = $srcs || $objs.collect {|o| o.chomp(ext) << ".c"} end $srcs = srcs hdrs = Dir[File.join(srcdir, "*.{#{HDR_EXT.join(%q{,})}}")] target = nil if $objs.empty? if target and EXPORT_PREFIX if File.exist?(File.join(srcdir, target + '.def')) deffile = "$(srcdir)/$(TARGET).def" unless EXPORT_PREFIX.empty? makedef = %{$(RUBY) -pe "$$_.sub!(/^(?=\\w)/,'#{EXPORT_PREFIX}') unless 1../^EXPORTS$/i" #{deffile}} end else makedef = %{(echo EXPORTS && echo $(TARGET_ENTRY))} end if makedef $cleanfiles << '$(DEFFILE)' origdef = deffile deffile = "$(TARGET)-$(arch).def" end end origdef ||= '' if $extout and $INSTALLFILES $cleanfiles.concat($INSTALLFILES.collect {|files, dir|File.join(dir, files.delete_prefix('./'))}) $distcleandirs.concat($INSTALLFILES.collect {|files, dir| dir}) end if $extmk and $static $defs << "-DRUBY_EXPORT=1" end if $extmk and not $extconf_h create_header end libpath = libpathflag(libpath) dllib = target ? "$(TARGET).#{CONFIG['DLEXT']}" : "" staticlib = target ? "$(TARGET).#$LIBEXT" : "" conf = configuration(srcprefix) conf << "\ libpath = #{($DEFLIBPATH|$LIBPATH).join(" ")} LIBPATH = #{libpath} DEFFILE = #{deffile} CLEANFILES = #{$cleanfiles.join(' ')} DISTCLEANFILES = #{$distcleanfiles.join(' ')} DISTCLEANDIRS = #{$distcleandirs.join(' ')} extout = #{$extout && $extout.quote} extout_prefix = #{$extout_prefix} target_prefix = #{target_prefix} LOCAL_LIBS = #{$LOCAL_LIBS} LIBS = #{$LIBRUBYARG} #{$libs} #{$LIBS} ORIG_SRCS = #{orig_srcs.collect(&File.method(:basename)).join(' ')} SRCS = $(ORIG_SRCS) #{(srcs - orig_srcs).collect(&File.method(:basename)).join(' ')} OBJS = #{$objs.join(" ")} HDRS = #{hdrs.map{|h| '$(srcdir)/' + File.basename(h)}.join(' ')} LOCAL_HDRS = #{$headers.join(' ')} TARGET = #{target} TARGET_NAME = #{target && target[/\A\w+/]} TARGET_ENTRY = #{EXPORT_PREFIX || ''}Init_$(TARGET_NAME) DLLIB = #{dllib} EXTSTATIC = #{$static || ""} STATIC_LIB = #{staticlib unless $static.nil?} #{!$extout && defined?($installed_list) ? "INSTALLED_LIST = #{$installed_list}\n" : ""} TIMESTAMP_DIR = #{$extout && $extmk ? '$(extout)/.timestamp' : '.'} " #" # TODO: fixme install_dirs.each {|d| conf << ("%-14s= %s\n" % d) if /^[[:upper:]]/ =~ d[0]} sodir = $extout ? '$(TARGET_SO_DIR)' : '$(RUBYARCHDIR)' n = '$(TARGET_SO_DIR)$(TARGET)' conf << "\ TARGET_SO_DIR =#{$extout ? " $(RUBYARCHDIR)/" : ''} TARGET_SO = $(TARGET_SO_DIR)$(DLLIB) CLEANLIBS = #{'$(TARGET_SO) ' if target}#{config_string('cleanlibs') {|t| t.gsub(/\$\*/) {n}}} CLEANOBJS = *.#{$OBJEXT} #{config_string('cleanobjs') {|t| t.gsub(/\$\*/, "$(TARGET)#{deffile ? '-$(arch)': ''}")} if target} *.bak " #" conf = yield(conf) if block_given? mfile = open("Makefile", "wb") mfile.puts(conf) mfile.print " all: #{$extout ? "install" : target ? "$(DLLIB)" : "Makefile"} static: #{$extmk && !$static ? "all" : "$(STATIC_LIB)#{$extout ? " install-rb" : ""}"} .PHONY: all install static install-so install-rb .PHONY: clean clean-so clean-static clean-rb " #" mfile.print CLEANINGS fsep = config_string('BUILD_FILE_SEPARATOR') {|s| s unless s == "/"} if fsep sep = ":/=#{fsep}" fseprepl = proc {|s| s = s.gsub("/", fsep) s = s.gsub(/(\$\(\w+)(\))/) {$1+sep+$2} s.gsub(/(\$\{\w+)(\})/) {$1+sep+$2} } rsep = ":#{fsep}=/" else fseprepl = proc {|s| s} sep = "" rsep = "" end dirs = [] mfile.print "install: install-so install-rb\n\n" dir = sodir.dup mfile.print("install-so: ") if target f = "$(DLLIB)" dest = "$(TARGET_SO)" stamp = timestamp_file(dir, target_prefix) if $extout mfile.puts dest mfile.print "clean-so::\n" mfile.print "\t-$(Q)$(RM) #{fseprepl[dest]} #{fseprepl[stamp]}\n" mfile.print "\t-$(Q)$(RMDIRS) #{fseprepl[dir]}#{$ignore_error}\n" else mfile.print "#{f} #{stamp}\n" mfile.print "\t$(INSTALL_PROG) #{fseprepl[f]} #{dir}\n" if defined?($installed_list) mfile.print "\t@echo #{dir}/#{File.basename(f)}>>$(INSTALLED_LIST)\n" end end mfile.print "clean-static::\n" mfile.print "\t-$(Q)$(RM) $(STATIC_LIB)\n" else mfile.puts "Makefile" end mfile.print("install-rb: pre-install-rb do-install-rb install-rb-default\n") mfile.print("install-rb-default: pre-install-rb-default do-install-rb-default\n") mfile.print("pre-install-rb: Makefile\n") mfile.print("pre-install-rb-default: Makefile\n") mfile.print("do-install-rb:\n") mfile.print("do-install-rb-default:\n") for sfx, i in [["-default", [["lib/**/*.rb", "$(RUBYLIBDIR)", "lib"]]], ["", $INSTALLFILES]] files = install_files(mfile, i, nil, srcprefix) or next for dir, *files in files unless dirs.include?(dir) dirs << dir mfile.print "pre-install-rb#{sfx}: #{timestamp_file(dir, target_prefix)}\n" end for f in files dest = "#{dir}/#{File.basename(f)}" mfile.print("do-install-rb#{sfx}: #{dest}\n") mfile.print("#{dest}: #{f} #{timestamp_file(dir, target_prefix)}\n") mfile.print("\t$(Q) $(#{$extout ? 'COPY' : 'INSTALL_DATA'}) #{f} $(@D)\n") if defined?($installed_list) and !$extout mfile.print("\t@echo #{dest}>>$(INSTALLED_LIST)\n") end if $extout mfile.print("clean-rb#{sfx}::\n") mfile.print("\t-$(Q)$(RM) #{fseprepl[dest]}\n") end end end mfile.print "pre-install-rb#{sfx}:\n" if files.empty? mfile.print("\t@$(NULLCMD)\n") else q = "$(MAKE) -q do-install-rb#{sfx}" if $nmake mfile.print "!if \"$(Q)\" == \"@\"\n\t@#{q} || \\\n!endif\n\t" else mfile.print "\t$(Q1:0=@#{q} || )" end mfile.print "$(ECHO1:0=echo) installing#{sfx.sub(/^-/, " ")} #{target} libraries\n" end if $extout dirs.uniq! unless dirs.empty? mfile.print("clean-rb#{sfx}::\n") for dir in dirs.sort_by {|d| -d.count('/')} stamp = timestamp_file(dir, target_prefix) mfile.print("\t-$(Q)$(RM) #{fseprepl[stamp]}\n") mfile.print("\t-$(Q)$(RMDIRS) #{fseprepl[dir]}#{$ignore_error}\n") end end end end dirs.unshift(sodir) if target and !dirs.include?(sodir) dirs.each do |d| t = timestamp_file(d, target_prefix) mfile.print "#{t}:\n\t$(Q) $(MAKEDIRS) $(@D) #{d}\n\t$(Q) $(TOUCH) $@\n" end mfile.print <<-SITEINSTALL site-install: site-install-so site-install-rb site-install-so: install-so site-install-rb: install-rb SITEINSTALL return unless target mfile.print ".SUFFIXES: .#{(SRC_EXT + [$OBJEXT, $ASMEXT]).compact.join(' .')}\n" mfile.print "\n" compile_command = "\n\t$(ECHO) compiling $(<#{rsep})\n\t$(Q) %s\n\n" command = compile_command % COMPILE_CXX asm_command = compile_command.sub(/compiling/, 'translating') % ASSEMBLE_CXX CXX_EXT.each do |e| each_compile_rules do |rule| mfile.printf(rule, e, $OBJEXT) mfile.print(command) mfile.printf(rule, e, $ASMEXT) mfile.print(asm_command) end end command = compile_command % COMPILE_C asm_command = compile_command.sub(/compiling/, 'translating') % ASSEMBLE_C C_EXT.each do |e| each_compile_rules do |rule| mfile.printf(rule, e, $OBJEXT) mfile.print(command) mfile.printf(rule, e, $ASMEXT) mfile.print(asm_command) end end mfile.print "$(TARGET_SO): " mfile.print "$(DEFFILE) " if makedef mfile.print "$(OBJS) Makefile" mfile.print " #{timestamp_file(sodir, target_prefix)}" if $extout mfile.print "\n" mfile.print "\t$(ECHO) linking shared-object #{target_prefix.sub(/\A\/(.*)/, '\1/')}$(DLLIB)\n" mfile.print "\t-$(Q)$(RM) $(@#{sep})\n" link_so = LINK_SO.gsub(/^/, "\t$(Q) ") if srcs.any?(&%r"\.(?:#{CXX_EXT.join('|')})\z".method(:===)) link_so = link_so.sub(/\bLDSHARED\b/, '\&XX') end mfile.print link_so, "\n\n" unless $static.nil? mfile.print "$(STATIC_LIB): $(OBJS)\n\t-$(Q)$(RM) $(@#{sep})\n\t" mfile.print "$(ECHO) linking static-library $(@#{rsep})\n\t$(Q) " mfile.print "$(AR) #{config_string('ARFLAGS') || 'cru '}$@ $(OBJS)" config_string('RANLIB') do |ranlib| mfile.print "\n\t-$(Q)#{ranlib} $(@) 2> /dev/null || true" end end mfile.print "\n\n" if makedef mfile.print "$(DEFFILE): #{origdef}\n" mfile.print "\t$(ECHO) generating $(@#{rsep})\n" mfile.print "\t$(Q) #{makedef} > $@\n\n" end depend = File.join(srcdir, "depend") if File.exist?(depend) mfile.print("###\n", *depend_rules(File.read(depend))) else mfile.print "$(OBJS): $(HDRS) $(ruby_headers)\n" end $makefile_created = true ensure mfile.close if mfile end # :stopdoc: def init_mkmf(config = CONFIG, rbconfig = RbConfig::CONFIG) $makefile_created = false $arg_config = [] $enable_shared = config['ENABLE_SHARED'] == 'yes' $defs = [] $extconf_h = nil if $warnflags = CONFIG['warnflags'] and CONFIG['GCC'] == 'yes' # turn warnings into errors only for bundled extensions. config['warnflags'] = $warnflags.gsub(/(\A|\s)-Werror[-=]/, '\1-W') if /icc\z/ =~ config['CC'] config['warnflags'].gsub!(/(\A|\s)-W(?:division-by-zero|deprecated-declarations)/, '\1') end RbConfig.expand(rbconfig['warnflags'] = config['warnflags'].dup) config.each do |key, val| RbConfig.expand(rbconfig[key] = val.dup) if /warnflags/ =~ val end $warnflags = config['warnflags'] unless $extmk end if (w = rbconfig['CC_WRAPPER']) and !w.empty? and !File.executable?(w) rbconfig['CC_WRAPPER'] = config['CC_WRAPPER'] = '' end $CFLAGS = with_config("cflags", arg_config("CFLAGS", config["CFLAGS"])).dup $CXXFLAGS = (with_config("cxxflags", arg_config("CXXFLAGS", config["CXXFLAGS"]))||'').dup $ARCH_FLAG = with_config("arch_flag", arg_config("ARCH_FLAG", config["ARCH_FLAG"])).dup $CPPFLAGS = with_config("cppflags", arg_config("CPPFLAGS", config["CPPFLAGS"])).dup $LDFLAGS = with_config("ldflags", arg_config("LDFLAGS", config["LDFLAGS"])).dup $INCFLAGS = "-I$(arch_hdrdir)" $INCFLAGS << " -I$(hdrdir)/ruby/backward" unless $extmk $INCFLAGS << " -I$(hdrdir) -I$(srcdir)" $DLDFLAGS = with_config("dldflags", arg_config("DLDFLAGS", config["DLDFLAGS"])).dup $LIBEXT = config['LIBEXT'].dup $OBJEXT = config["OBJEXT"].dup $EXEEXT = config["EXEEXT"].dup $ASMEXT = config_string('ASMEXT', &:dup) || 'S' $LIBS = "#{config['LIBS']} #{config['DLDLIBS']}" $LIBRUBYARG = "" $LIBRUBYARG_STATIC = config['LIBRUBYARG_STATIC'] $LIBRUBYARG_SHARED = config['LIBRUBYARG_SHARED'] $DEFLIBPATH = [$extmk ? "$(topdir)" : "$(#{config["libdirname"] || "libdir"})"] $DEFLIBPATH.unshift(".") $LIBPATH = [] $INSTALLFILES = [] $NONINSTALLFILES = [/~\z/, /\A#.*#\z/, /\A\.#/, /\.bak\z/i, /\.orig\z/, /\.rej\z/, /\.l[ao]\z/, /\.o\z/] $VPATH = %w[$(srcdir) $(arch_hdrdir)/ruby $(hdrdir)/ruby] $objs = nil $srcs = nil $headers = [] $libs = "" if $enable_shared or RbConfig.expand(config["LIBRUBY"].dup) != RbConfig.expand(config["LIBRUBY_A"].dup) $LIBRUBYARG = config['LIBRUBYARG'] end $LOCAL_LIBS = "" $cleanfiles = config_string('CLEANFILES') {|s| Shellwords.shellwords(s)} || [] $cleanfiles << "mkmf.log" $distcleanfiles = config_string('DISTCLEANFILES') {|s| Shellwords.shellwords(s)} || [] $distcleandirs = config_string('DISTCLEANDIRS') {|s| Shellwords.shellwords(s)} || [] $extout ||= nil $extout_prefix ||= nil $arg_config.clear dir_config("opt") end FailedMessage = <<MESSAGE Could not create Makefile due to some reason, probably lack of necessary libraries and/or headers. Check the mkmf.log file for more details. You may need configuration options. Provided configuration options: MESSAGE # Returns whether or not the Makefile was successfully generated. If not, # the script will abort with an error message. # # Internal use only. # def mkmf_failed(path) unless $makefile_created or File.exist?("Makefile") opts = $arg_config.collect {|t, n| "\t#{t}#{n ? "=#{n}" : ""}\n"} abort "*** #{path} failed ***\n" + FailedMessage + opts.join end end private def _libdir_basename @libdir_basename ||= config_string("libdir") {|name| name[/\A\$\(exec_prefix\)\/(.*)/, 1]} || "lib" end def MAIN_DOES_NOTHING(*refs) src = MAIN_DOES_NOTHING unless refs.empty? src = src.sub(/\{/) do $& + "\n if (argc > 1000000) {\n" + refs.map {|n|" int (* volatile #{n}p)(void)=(int (*)(void))&#{n};\n"}.join("") + refs.map {|n|" printf(\"%d\", (*#{n}p)());\n"}.join("") + " }\n" end end src end extend self init_mkmf $make = with_config("make-prog", ENV["MAKE"] || "make") make, = Shellwords.shellwords($make) $nmake = nil case when $mswin $nmake = ?m if /nmake/i =~ make end $ignore_error = $nmake ? '' : ' 2> /dev/null || true' RbConfig::CONFIG["srcdir"] = CONFIG["srcdir"] = $srcdir = arg_config("--srcdir", File.dirname($0)) $configure_args["--topsrcdir"] ||= $srcdir if $curdir = arg_config("--curdir") RbConfig.expand(curdir = $curdir.dup) else curdir = $curdir = "." end unless File.expand_path(RbConfig::CONFIG["topdir"]) == File.expand_path(curdir) CONFIG["topdir"] = $curdir RbConfig::CONFIG["topdir"] = curdir end $configure_args["--topdir"] ||= $curdir $ruby = arg_config("--ruby", File.join(RbConfig::CONFIG["bindir"], CONFIG["ruby_install_name"])) RbConfig.expand(CONFIG["RUBY_SO_NAME"]) # :startdoc: split = Shellwords.method(:shellwords).to_proc EXPORT_PREFIX = config_string('EXPORT_PREFIX') {|s| s.strip} hdr = ['#include "ruby.h"' "\n"] config_string('COMMON_MACROS') do |s| Shellwords.shellwords(s).each do |w| w, v = w.split(/=/, 2) hdr << "#ifndef #{w}" hdr << "#define #{[w, v].compact.join(" ")}" hdr << "#endif /* #{w} */" end end config_string('COMMON_HEADERS') do |s| Shellwords.shellwords(s).each {|w| hdr << "#include <#{w}>"} end ## # Common headers for Ruby C extensions COMMON_HEADERS = hdr.join("\n") ## # Common libraries for Ruby C extensions COMMON_LIBS = config_string('COMMON_LIBS', &split) || [] ## # make compile rules COMPILE_RULES = config_string('COMPILE_RULES', &split) || %w[.%s.%s:] RULE_SUBST = config_string('RULE_SUBST') ## # Command which will compile C files in the generated Makefile COMPILE_C = config_string('COMPILE_C') || '$(CC) $(INCFLAGS) $(CPPFLAGS) $(CFLAGS) $(COUTFLAG)$@ -c $(CSRCFLAG)$<' ## # Command which will compile C++ files in the generated Makefile COMPILE_CXX = config_string('COMPILE_CXX') || '$(CXX) $(INCFLAGS) $(CPPFLAGS) $(CXXFLAGS) $(COUTFLAG)$@ -c $(CSRCFLAG)$<' ## # Command which will translate C files to assembler sources in the generated Makefile ASSEMBLE_C = config_string('ASSEMBLE_C') || COMPILE_C.sub(/(?<=\s)-c(?=\s)/, '-S') ## # Command which will translate C++ files to assembler sources in the generated Makefile ASSEMBLE_CXX = config_string('ASSEMBLE_CXX') || COMPILE_CXX.sub(/(?<=\s)-c(?=\s)/, '-S') ## # Command which will compile a program in order to test linking a library TRY_LINK = config_string('TRY_LINK') || "$(CC) #{OUTFLAG}#{CONFTEST}#{$EXEEXT} $(INCFLAGS) $(CPPFLAGS) " \ "$(CFLAGS) $(src) $(LIBPATH) $(LDFLAGS) $(ARCH_FLAG) $(LOCAL_LIBS) $(LIBS)" ## # Command which will link a shared library LINK_SO = (config_string('LINK_SO') || "").sub(/^$/) do if CONFIG["DLEXT"] == $OBJEXT "ld $(DLDFLAGS) -r -o $@ $(OBJS)\n" else "$(LDSHARED) #{OUTFLAG}$@ $(OBJS) " \ "$(LIBPATH) $(DLDFLAGS) $(LOCAL_LIBS) $(LIBS)" end end ## # Argument which will add a library path to the linker LIBPATHFLAG = config_string('LIBPATHFLAG') || ' -L%s' RPATHFLAG = config_string('RPATHFLAG') || '' ## # Argument which will add a library to the linker LIBARG = config_string('LIBARG') || '-l%s' ## # A C main function which does no work MAIN_DOES_NOTHING = config_string('MAIN_DOES_NOTHING') || "int main(int argc, char **argv)\n{\n return 0;\n}" UNIVERSAL_INTS = config_string('UNIVERSAL_INTS') {|s| Shellwords.shellwords(s)} || %w[int short long long\ long] sep = config_string('BUILD_FILE_SEPARATOR') {|s| ":/=#{s}" if s != "/"} || "" ## # Makefile rules that will clean the extension build directory CLEANINGS = " clean-static:: clean-rb-default:: clean-rb:: clean-so:: clean: clean-so clean-static clean-rb-default clean-rb \t\t-$(Q)$(RM) $(CLEANLIBS#{sep}) $(CLEANOBJS#{sep}) $(CLEANFILES#{sep}) .*.time distclean-rb-default:: distclean-rb:: distclean-so:: distclean-static:: distclean: clean distclean-so distclean-static distclean-rb-default distclean-rb \t\t-$(Q)$(RM) Makefile $(RUBY_EXTCONF_H) #{CONFTEST}.* mkmf.log \t\t-$(Q)$(RM) core ruby$(EXEEXT) *~ $(DISTCLEANFILES#{sep}) \t\t-$(Q)$(RMDIRS) $(DISTCLEANDIRS#{sep})#{$ignore_error} realclean: distclean " end include MakeMakefile if not $extmk and /\A(extconf|makefile).rb\z/ =~ File.basename($0) END {mkmf_failed($0)} end