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# frozen_string_literal: true # # = open3.rb: Popen, but with stderr, too # # Author:: Yukihiro Matsumoto # Documentation:: Konrad Meyer # # Open3 gives you access to stdin, stdout, and stderr when running other # programs. # # # Open3 grants you access to stdin, stdout, stderr and a thread to wait for the # child process when running another program. # You can specify various attributes, redirections, current directory, etc., of # the program in the same way as for Process.spawn. # # - Open3.popen3 : pipes for stdin, stdout, stderr # - Open3.popen2 : pipes for stdin, stdout # - Open3.popen2e : pipes for stdin, merged stdout and stderr # - Open3.capture3 : give a string for stdin; get strings for stdout, stderr # - Open3.capture2 : give a string for stdin; get a string for stdout # - Open3.capture2e : give a string for stdin; get a string for merged stdout and stderr # - Open3.pipeline_rw : pipes for first stdin and last stdout of a pipeline # - Open3.pipeline_r : pipe for last stdout of a pipeline # - Open3.pipeline_w : pipe for first stdin of a pipeline # - Open3.pipeline_start : run a pipeline without waiting # - Open3.pipeline : run a pipeline and wait for its completion # require 'open3/version' module Open3 # Open stdin, stdout, and stderr streams and start external executable. # In addition, a thread to wait for the started process is created. # The thread has a pid method and a thread variable :pid which is the pid of # the started process. # # Block form: # # Open3.popen3([env,] cmd... [, opts]) {|stdin, stdout, stderr, wait_thr| # pid = wait_thr.pid # pid of the started process. # ... # exit_status = wait_thr.value # Process::Status object returned. # } # # Non-block form: # # stdin, stdout, stderr, wait_thr = Open3.popen3([env,] cmd... [, opts]) # pid = wait_thr[:pid] # pid of the started process # ... # stdin.close # stdin, stdout and stderr should be closed explicitly in this form. # stdout.close # stderr.close # exit_status = wait_thr.value # Process::Status object returned. # # The parameters env, cmd, and opts are passed to Process.spawn. # A commandline string and a list of argument strings can be accepted as follows: # # Open3.popen3("echo abc") {|i, o, e, t| ... } # Open3.popen3("echo", "abc") {|i, o, e, t| ... } # Open3.popen3(["echo", "argv0"], "abc") {|i, o, e, t| ... } # # If the last parameter, opts, is a Hash, it is recognized as an option for Process.spawn. # # Open3.popen3("pwd", :chdir=>"/") {|i,o,e,t| # p o.read.chomp #=> "/" # } # # wait_thr.value waits for the termination of the process. # The block form also waits for the process when it returns. # # Closing stdin, stdout and stderr does not wait for the process to complete. # # You should be careful to avoid deadlocks. # Since pipes are fixed length buffers, # Open3.popen3("prog") {|i, o, e, t| o.read } deadlocks if # the program generates too much output on stderr. # You should read stdout and stderr simultaneously (using threads or IO.select). # However, if you don't need stderr output, you can use Open3.popen2. # If merged stdout and stderr output is not a problem, you can use Open3.popen2e. # If you really need stdout and stderr output as separate strings, you can consider Open3.capture3. # def popen3(*cmd, &block) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end in_r, in_w = IO.pipe opts[:in] = in_r in_w.sync = true out_r, out_w = IO.pipe opts[:out] = out_w err_r, err_w = IO.pipe opts[:err] = err_w popen_run(cmd, opts, [in_r, out_w, err_w], [in_w, out_r, err_r], &block) end module_function :popen3 # Open3.popen2 is similar to Open3.popen3 except that it doesn't create a pipe for # the standard error stream. # # Block form: # # Open3.popen2([env,] cmd... [, opts]) {|stdin, stdout, wait_thr| # pid = wait_thr.pid # pid of the started process. # ... # exit_status = wait_thr.value # Process::Status object returned. # } # # Non-block form: # # stdin, stdout, wait_thr = Open3.popen2([env,] cmd... [, opts]) # ... # stdin.close # stdin and stdout should be closed explicitly in this form. # stdout.close # # See Process.spawn for the optional hash arguments _env_ and _opts_. # # Example: # # Open3.popen2("wc -c") {|i,o,t| # i.print "answer to life the universe and everything" # i.close # p o.gets #=> "42\n" # } # # Open3.popen2("bc -q") {|i,o,t| # i.puts "obase=13" # i.puts "6 * 9" # p o.gets #=> "42\n" # } # # Open3.popen2("dc") {|i,o,t| # i.print "42P" # i.close # p o.read #=> "*" # } # def popen2(*cmd, &block) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end in_r, in_w = IO.pipe opts[:in] = in_r in_w.sync = true out_r, out_w = IO.pipe opts[:out] = out_w popen_run(cmd, opts, [in_r, out_w], [in_w, out_r], &block) end module_function :popen2 # Open3.popen2e is similar to Open3.popen3 except that it merges # the standard output stream and the standard error stream. # # Block form: # # Open3.popen2e([env,] cmd... [, opts]) {|stdin, stdout_and_stderr, wait_thr| # pid = wait_thr.pid # pid of the started process. # ... # exit_status = wait_thr.value # Process::Status object returned. # } # # Non-block form: # # stdin, stdout_and_stderr, wait_thr = Open3.popen2e([env,] cmd... [, opts]) # ... # stdin.close # stdin and stdout_and_stderr should be closed explicitly in this form. # stdout_and_stderr.close # # See Process.spawn for the optional hash arguments _env_ and _opts_. # # Example: # # check gcc warnings # source = "foo.c" # Open3.popen2e("gcc", "-Wall", source) {|i,oe,t| # oe.each {|line| # if /warning/ =~ line # ... # end # } # } # def popen2e(*cmd, &block) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end in_r, in_w = IO.pipe opts[:in] = in_r in_w.sync = true out_r, out_w = IO.pipe opts[[:out, :err]] = out_w popen_run(cmd, opts, [in_r, out_w], [in_w, out_r], &block) ensure if block in_r.close in_w.close out_r.close out_w.close end end module_function :popen2e def popen_run(cmd, opts, child_io, parent_io) # :nodoc: pid = spawn(*cmd, opts) wait_thr = Process.detach(pid) child_io.each(&:close) result = [*parent_io, wait_thr] if defined? yield begin return yield(*result) ensure parent_io.each(&:close) wait_thr.join end end result end module_function :popen_run class << self private :popen_run end # Open3.capture3 captures the standard output and the standard error of a command. # # stdout_str, stderr_str, status = Open3.capture3([env,] cmd... [, opts]) # # The arguments env, cmd and opts are passed to Open3.popen3 except # <code>opts[:stdin_data]</code> and <code>opts[:binmode]</code>. See Process.spawn. # # If <code>opts[:stdin_data]</code> is specified, it is sent to the command's standard input. # # If <code>opts[:binmode]</code> is true, internal pipes are set to binary mode. # # Examples: # # # dot is a command of graphviz. # graph = <<'End' # digraph g { # a -> b # } # End # drawn_graph, dot_log = Open3.capture3("dot -v", :stdin_data=>graph) # # o, e, s = Open3.capture3("echo abc; sort >&2", :stdin_data=>"foo\nbar\nbaz\n") # p o #=> "abc\n" # p e #=> "bar\nbaz\nfoo\n" # p s #=> #<Process::Status: pid 32682 exit 0> # # # generate a thumbnail image using the convert command of ImageMagick. # # However, if the image is really stored in a file, # # system("convert", "-thumbnail", "80", "png:#{filename}", "png:-") is better # # because of reduced memory consumption. # # But if the image is stored in a DB or generated by the gnuplot Open3.capture2 example, # # Open3.capture3 should be considered. # # # image = File.read("/usr/share/openclipart/png/animals/mammals/sheep-md-v0.1.png", :binmode=>true) # thumbnail, err, s = Open3.capture3("convert -thumbnail 80 png:- png:-", :stdin_data=>image, :binmode=>true) # if s.success? # STDOUT.binmode; print thumbnail # end # def capture3(*cmd) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end stdin_data = opts.delete(:stdin_data) || '' binmode = opts.delete(:binmode) popen3(*cmd, opts) {|i, o, e, t| if binmode i.binmode o.binmode e.binmode end out_reader = Thread.new { o.read } err_reader = Thread.new { e.read } begin if stdin_data.respond_to? :readpartial IO.copy_stream(stdin_data, i) else i.write stdin_data end rescue Errno::EPIPE end i.close [out_reader.value, err_reader.value, t.value] } end module_function :capture3 # Open3.capture2 captures the standard output of a command. # # stdout_str, status = Open3.capture2([env,] cmd... [, opts]) # # The arguments env, cmd and opts are passed to Open3.popen3 except # <code>opts[:stdin_data]</code> and <code>opts[:binmode]</code>. See Process.spawn. # # If <code>opts[:stdin_data]</code> is specified, it is sent to the command's standard input. # # If <code>opts[:binmode]</code> is true, internal pipes are set to binary mode. # # Example: # # # factor is a command for integer factorization. # o, s = Open3.capture2("factor", :stdin_data=>"42") # p o #=> "42: 2 3 7\n" # # # generate x**2 graph in png using gnuplot. # gnuplot_commands = <<"End" # set terminal png # plot x**2, "-" with lines # 1 14 # 2 1 # 3 8 # 4 5 # e # End # image, s = Open3.capture2("gnuplot", :stdin_data=>gnuplot_commands, :binmode=>true) # def capture2(*cmd) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end stdin_data = opts.delete(:stdin_data) binmode = opts.delete(:binmode) popen2(*cmd, opts) {|i, o, t| if binmode i.binmode o.binmode end out_reader = Thread.new { o.read } if stdin_data begin if stdin_data.respond_to? :readpartial IO.copy_stream(stdin_data, i) else i.write stdin_data end rescue Errno::EPIPE end end i.close [out_reader.value, t.value] } end module_function :capture2 # Open3.capture2e captures the standard output and the standard error of a command. # # stdout_and_stderr_str, status = Open3.capture2e([env,] cmd... [, opts]) # # The arguments env, cmd and opts are passed to Open3.popen3 except # <code>opts[:stdin_data]</code> and <code>opts[:binmode]</code>. See Process.spawn. # # If <code>opts[:stdin_data]</code> is specified, it is sent to the command's standard input. # # If <code>opts[:binmode]</code> is true, internal pipes are set to binary mode. # # Example: # # # capture make log # make_log, s = Open3.capture2e("make") # def capture2e(*cmd) if Hash === cmd.last opts = cmd.pop.dup else opts = {} end stdin_data = opts.delete(:stdin_data) binmode = opts.delete(:binmode) popen2e(*cmd, opts) {|i, oe, t| if binmode i.binmode oe.binmode end outerr_reader = Thread.new { oe.read } if stdin_data begin if stdin_data.respond_to? :readpartial IO.copy_stream(stdin_data, i) else i.write stdin_data end rescue Errno::EPIPE end end i.close [outerr_reader.value, t.value] } end module_function :capture2e # Open3.pipeline_rw starts a list of commands as a pipeline with pipes # which connect to stdin of the first command and stdout of the last command. # # Open3.pipeline_rw(cmd1, cmd2, ... [, opts]) {|first_stdin, last_stdout, wait_threads| # ... # } # # first_stdin, last_stdout, wait_threads = Open3.pipeline_rw(cmd1, cmd2, ... [, opts]) # ... # first_stdin.close # last_stdout.close # # Each cmd is a string or an array. # If it is an array, the elements are passed to Process.spawn. # # cmd: # commandline command line string which is passed to a shell # [env, commandline, opts] command line string which is passed to a shell # [env, cmdname, arg1, ..., opts] command name and one or more arguments (no shell) # [env, [cmdname, argv0], arg1, ..., opts] command name and arguments including argv[0] (no shell) # # Note that env and opts are optional, as for Process.spawn. # # The options to pass to Process.spawn are constructed by merging # +opts+, the last hash element of the array, and # specifications for the pipes between each of the commands. # # Example: # # Open3.pipeline_rw("tr -dc A-Za-z", "wc -c") {|i, o, ts| # i.puts "All persons more than a mile high to leave the court." # i.close # p o.gets #=> "42\n" # } # # Open3.pipeline_rw("sort", "cat -n") {|stdin, stdout, wait_thrs| # stdin.puts "foo" # stdin.puts "bar" # stdin.puts "baz" # stdin.close # send EOF to sort. # p stdout.read #=> " 1\tbar\n 2\tbaz\n 3\tfoo\n" # } def pipeline_rw(*cmds, &block) if Hash === cmds.last opts = cmds.pop.dup else opts = {} end in_r, in_w = IO.pipe opts[:in] = in_r in_w.sync = true out_r, out_w = IO.pipe opts[:out] = out_w pipeline_run(cmds, opts, [in_r, out_w], [in_w, out_r], &block) end module_function :pipeline_rw # Open3.pipeline_r starts a list of commands as a pipeline with a pipe # which connects to stdout of the last command. # # Open3.pipeline_r(cmd1, cmd2, ... [, opts]) {|last_stdout, wait_threads| # ... # } # # last_stdout, wait_threads = Open3.pipeline_r(cmd1, cmd2, ... [, opts]) # ... # last_stdout.close # # Each cmd is a string or an array. # If it is an array, the elements are passed to Process.spawn. # # cmd: # commandline command line string which is passed to a shell # [env, commandline, opts] command line string which is passed to a shell # [env, cmdname, arg1, ..., opts] command name and one or more arguments (no shell) # [env, [cmdname, argv0], arg1, ..., opts] command name and arguments including argv[0] (no shell) # # Note that env and opts are optional, as for Process.spawn. # # Example: # # Open3.pipeline_r("zcat /var/log/apache2/access.log.*.gz", # [{"LANG"=>"C"}, "grep", "GET /favicon.ico"], # "logresolve") {|o, ts| # o.each_line {|line| # ... # } # } # # Open3.pipeline_r("yes", "head -10") {|o, ts| # p o.read #=> "y\ny\ny\ny\ny\ny\ny\ny\ny\ny\n" # p ts[0].value #=> #<Process::Status: pid 24910 SIGPIPE (signal 13)> # p ts[1].value #=> #<Process::Status: pid 24913 exit 0> # } # def pipeline_r(*cmds, &block) if Hash === cmds.last opts = cmds.pop.dup else opts = {} end out_r, out_w = IO.pipe opts[:out] = out_w pipeline_run(cmds, opts, [out_w], [out_r], &block) end module_function :pipeline_r # Open3.pipeline_w starts a list of commands as a pipeline with a pipe # which connects to stdin of the first command. # # Open3.pipeline_w(cmd1, cmd2, ... [, opts]) {|first_stdin, wait_threads| # ... # } # # first_stdin, wait_threads = Open3.pipeline_w(cmd1, cmd2, ... [, opts]) # ... # first_stdin.close # # Each cmd is a string or an array. # If it is an array, the elements are passed to Process.spawn. # # cmd: # commandline command line string which is passed to a shell # [env, commandline, opts] command line string which is passed to a shell # [env, cmdname, arg1, ..., opts] command name and one or more arguments (no shell) # [env, [cmdname, argv0], arg1, ..., opts] command name and arguments including argv[0] (no shell) # # Note that env and opts are optional, as for Process.spawn. # # Example: # # Open3.pipeline_w("bzip2 -c", :out=>"/tmp/hello.bz2") {|i, ts| # i.puts "hello" # } # def pipeline_w(*cmds, &block) if Hash === cmds.last opts = cmds.pop.dup else opts = {} end in_r, in_w = IO.pipe opts[:in] = in_r in_w.sync = true pipeline_run(cmds, opts, [in_r], [in_w], &block) end module_function :pipeline_w # Open3.pipeline_start starts a list of commands as a pipeline. # No pipes are created for stdin of the first command and # stdout of the last command. # # Open3.pipeline_start(cmd1, cmd2, ... [, opts]) {|wait_threads| # ... # } # # wait_threads = Open3.pipeline_start(cmd1, cmd2, ... [, opts]) # ... # # Each cmd is a string or an array. # If it is an array, the elements are passed to Process.spawn. # # cmd: # commandline command line string which is passed to a shell # [env, commandline, opts] command line string which is passed to a shell # [env, cmdname, arg1, ..., opts] command name and one or more arguments (no shell) # [env, [cmdname, argv0], arg1, ..., opts] command name and arguments including argv[0] (no shell) # # Note that env and opts are optional, as for Process.spawn. # # Example: # # # Run xeyes in 10 seconds. # Open3.pipeline_start("xeyes") {|ts| # sleep 10 # t = ts[0] # Process.kill("TERM", t.pid) # p t.value #=> #<Process::Status: pid 911 SIGTERM (signal 15)> # } # # # Convert pdf to ps and send it to a printer. # # Collect error message of pdftops and lpr. # pdf_file = "paper.pdf" # printer = "printer-name" # err_r, err_w = IO.pipe # Open3.pipeline_start(["pdftops", pdf_file, "-"], # ["lpr", "-P#{printer}"], # :err=>err_w) {|ts| # err_w.close # p err_r.read # error messages of pdftops and lpr. # } # def pipeline_start(*cmds, &block) if Hash === cmds.last opts = cmds.pop.dup else opts = {} end if block pipeline_run(cmds, opts, [], [], &block) else ts, = pipeline_run(cmds, opts, [], []) ts end end module_function :pipeline_start # Open3.pipeline starts a list of commands as a pipeline. # It waits for the completion of the commands. # No pipes are created for stdin of the first command and # stdout of the last command. # # status_list = Open3.pipeline(cmd1, cmd2, ... [, opts]) # # Each cmd is a string or an array. # If it is an array, the elements are passed to Process.spawn. # # cmd: # commandline command line string which is passed to a shell # [env, commandline, opts] command line string which is passed to a shell # [env, cmdname, arg1, ..., opts] command name and one or more arguments (no shell) # [env, [cmdname, argv0], arg1, ..., opts] command name and arguments including argv[0] (no shell) # # Note that env and opts are optional, as Process.spawn. # # Example: # # fname = "/usr/share/man/man1/ruby.1.gz" # p Open3.pipeline(["zcat", fname], "nroff -man", "less") # #=> [#<Process::Status: pid 11817 exit 0>, # # #<Process::Status: pid 11820 exit 0>, # # #<Process::Status: pid 11828 exit 0>] # # fname = "/usr/share/man/man1/ls.1.gz" # Open3.pipeline(["zcat", fname], "nroff -man", "colcrt") # # # convert PDF to PS and send to a printer by lpr # pdf_file = "paper.pdf" # printer = "printer-name" # Open3.pipeline(["pdftops", pdf_file, "-"], # ["lpr", "-P#{printer}"]) # # # count lines # Open3.pipeline("sort", "uniq -c", :in=>"names.txt", :out=>"count") # # # cyclic pipeline # r,w = IO.pipe # w.print "ibase=14\n10\n" # Open3.pipeline("bc", "tee /dev/tty", :in=>r, :out=>w) # #=> 14 # # 18 # # 22 # # 30 # # 42 # # 58 # # 78 # # 106 # # 202 # def pipeline(*cmds) if Hash === cmds.last opts = cmds.pop.dup else opts = {} end pipeline_run(cmds, opts, [], []) {|ts| ts.map(&:value) } end module_function :pipeline def pipeline_run(cmds, pipeline_opts, child_io, parent_io) # :nodoc: if cmds.empty? raise ArgumentError, "no commands" end opts_base = pipeline_opts.dup opts_base.delete :in opts_base.delete :out wait_thrs = [] r = nil cmds.each_with_index {|cmd, i| cmd_opts = opts_base.dup if String === cmd cmd = [cmd] else cmd_opts.update cmd.pop if Hash === cmd.last end if i == 0 if !cmd_opts.include?(:in) if pipeline_opts.include?(:in) cmd_opts[:in] = pipeline_opts[:in] end end else cmd_opts[:in] = r end if i != cmds.length - 1 r2, w2 = IO.pipe cmd_opts[:out] = w2 else if !cmd_opts.include?(:out) if pipeline_opts.include?(:out) cmd_opts[:out] = pipeline_opts[:out] end end end pid = spawn(*cmd, cmd_opts) wait_thrs << Process.detach(pid) r&.close w2&.close r = r2 } result = parent_io + [wait_thrs] child_io.each(&:close) if defined? yield begin return yield(*result) ensure parent_io.each(&:close) wait_thrs.each(&:join) end end result end module_function :pipeline_run class << self private :pipeline_run end end # JRuby uses different popen logic on Windows, require it here to reuse wrapper methods above. require 'open3/jruby_windows' if RUBY_ENGINE == 'jruby' && JRuby::Util::ON_WINDOWS