require 'stringio' require_relative '../test_helper' module Optimist class ParserTest < ::Minitest::Test def setup @p = Parser.new end def parser @p ||= Parser.new end # initialize # cloaker def test_version assert_nil parser.version assert_equal "optimist 5.2.3", parser.version("optimist 5.2.3") assert_equal "optimist 5.2.3", parser.version end def test_usage assert_nil parser.usage assert_equal "usage string", parser.usage("usage string") assert_equal "usage string", parser.usage end def test_synopsis assert_nil parser.synopsis assert_equal "synopsis string", parser.synopsis("synopsis string") assert_equal "synopsis string", parser.synopsis end # def test_stop_on # def test_stop_on_unknown # die # def test_die_educate_on_error def test_unknown_arguments assert_raises_errmatch(CommandlineError, /unknown argument '--arg'/) { @p.parse(%w(--arg)) } @p.opt "arg" @p.parse(%w(--arg)) assert_raises_errmatch(CommandlineError, /unknown argument '--arg2'/) { @p.parse(%w(--arg2)) } end def test_unknown_arguments_with_suggestions unless (Module::const_defined?("DidYouMean") && Module::const_defined?("DidYouMean::JaroWinkler") && Module::const_defined?("DidYouMean::Levenshtein")) # if we cannot skip("Skipping because DidYouMean was not found") return false end sugp = Parser.new(:suggestions => true) err = assert_raises(CommandlineError) { sugp.parse(%w(--bone)) } assert_match(/unknown argument '--bone'$/, err.message) sugp.opt "cone" sugp.parse(%w(--cone)) # single letter mismatch err = assert_raises(CommandlineError) { sugp.parse(%w(--bone)) } assert_match(/unknown argument '--bone'. Did you mean: \[--cone\] \?$/, err.message) # transposition err = assert_raises(CommandlineError) { sugp.parse(%w(--ocne)) } assert_match(/unknown argument '--ocne'. Did you mean: \[--cone\] \?$/, err.message) # extra letter at end err = assert_raises(CommandlineError) { sugp.parse(%w(--cones)) } assert_match(/unknown argument '--cones'. Did you mean: \[--cone\] \?$/, err.message) # too big of a mismatch to suggest (extra letters in front) err = assert_raises(CommandlineError) { sugp.parse(%w(--snowcone)) } assert_match(/unknown argument '--snowcone'$/, err.message) # too big of a mismatch to suggest (nothing close) err = assert_raises(CommandlineError) { sugp.parse(%w(--clown-nose)) } assert_match(/unknown argument '--clown-nose'$/, err.message) sugp.opt "zippy" sugp.opt "zapzy" # single letter mismatch, matches two err = assert_raises(CommandlineError) { sugp.parse(%w(--zipzy)) } assert_match(/unknown argument '--zipzy'. Did you mean: \[--zippy, --zapzy\] \?$/, err.message) sugp.opt "big_bug" # suggest common case of dash versus underscore in argnames err = assert_raises(CommandlineError) { sugp.parse(%w(--big_bug)) } assert_match(/unknown argument '--big_bug'. Did you mean: \[--big-bug\] \?$/, err.message) end def test_syntax_check @p.opt "arg" @p.parse(%w(--arg)) @p.parse(%w(arg)) assert_raises_errmatch(CommandlineError, /invalid argument syntax: '---arg'/) { @p.parse(%w(---arg)) } assert_raises_errmatch(CommandlineError, /unknown argument '-r'/) { @p.parse(%w(-arg)) } end def test_required_flags_are_required @p.opt "arg", "desc", :required => true @p.opt "arg2", "desc", :required => false @p.opt "arg3", "desc", :required => false @p.parse(%w(--arg)) @p.parse(%w(--arg --arg2)) err_regex = %r/option --arg must be specified/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--arg2)) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--arg2 --arg3)) } end ## flags that take an argument error unless given one def test_argflags_demand_args @p.opt "goodarg", "desc", :type => String @p.opt "goodarg2", "desc", :type => String @p.parse(%w(--goodarg goat)) err_regex = %r/option '--goodarg' needs a parameter/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--goodarg --goodarg2 goat)) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--goodarg)) } end ## flags that don't take arguments ignore them def test_arglessflags_refuse_args @p.opt "goodarg" @p.opt "goodarg2" @p.parse(%w(--goodarg)) @p.parse(%w(--goodarg --goodarg2)) opts = @p.parse %w(--goodarg a) assert_equal true, opts["goodarg"] assert_equal ["a"], @p.leftovers end ## flags that require args of a specific type refuse args of other ## types def test_typed_args_refuse_args_of_other_types @p.opt "goodarg", "desc", :type => :int err_regex = %r/Unsupported argument type 'asdf', registry lookup 'asdf'/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :type => :asdf } @p.parse(%w(--goodarg 3)) err_regex = %r/option 'goodarg' needs an integer/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--goodarg 4.2)) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--goodarg hello)) } end ## type is correctly derived from :default def test_type_correctly_derived_from_default err_regex = %r/multiple argument type cannot be deduced from an empty array/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :default => [] } err_regex = %r/Unsupported argument type 'hashs', registry lookup 'hashs'/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg3", "desc", :default => [{1 => 2}] } err_regex = %r/Unsupported argument type 'hash', registry lookup 'hash'/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg4", "desc", :default => Hash.new } # single arg: int @p.opt "argsi", "desc", :default => 0 opts = @p.parse(%w(--)) assert_equal 0, opts["argsi"] opts = @p.parse(%w(--argsi 4)) assert_equal 4, opts["argsi"] opts = @p.parse(%w(--argsi=4)) assert_equal 4, opts["argsi"] opts = @p.parse(%w(--argsi=-4)) assert_equal( -4, opts["argsi"]) err_regex = /option 'argsi' needs an integer/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argsi 4.2)) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argsi hello)) } # single arg: float @p.opt "argsf", "desc", :default => 3.14 opts = @p.parse(%w(--)) assert_equal 3.14, opts["argsf"] opts = @p.parse(%w(--argsf 2.41)) assert_equal 2.41, opts["argsf"] opts = @p.parse(%w(--argsf 2)) assert_equal 2, opts["argsf"] opts = @p.parse(%w(--argsf 1.0e-2)) assert_equal 1.0e-2, opts["argsf"] err_regex = /option 'argsf' needs a floating-point number/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argsf hello)) } # single arg: date date = Date.today @p.opt "argsd", "desc", :default => date opts = @p.parse(%w(--)) assert_equal Date.today, opts["argsd"] opts = @p.parse(['--argsd', 'Jan 4, 2007']) assert_equal Date.civil(2007, 1, 4), opts["argsd"] err_regex = /option 'argsd' needs a date/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argsd hello)) } # single arg: string @p.opt "argss", "desc", :default => "foobar" opts = @p.parse(%w(--)) assert_equal "foobar", opts["argss"] opts = @p.parse(%w(--argss 2.41)) assert_equal "2.41", opts["argss"] opts = @p.parse(%w(--argss hello)) assert_equal "hello", opts["argss"] # multi args: ints @p.opt "argmi", "desc", :default => [3, 5] opts = @p.parse(%w(--)) assert_equal [3, 5], opts["argmi"] opts = @p.parse(%w(--argmi 4)) assert_equal [4], opts["argmi"] err_regex = /option 'argmi' needs an integer/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argmi 4.2)) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argmi hello)) } # multi args: floats @p.opt "argmf", "desc", :default => [3.34, 5.21] opts = @p.parse(%w(--)) assert_equal [3.34, 5.21], opts["argmf"] opts = @p.parse(%w(--argmf 2)) assert_equal [2], opts["argmf"] opts = @p.parse(%w(--argmf 4.0)) assert_equal [4.0], opts["argmf"] err_regex = /option 'argmf' needs a floating-point number/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argmf hello)) } # multi args: dates dates = [Date.today, Date.civil(2007, 1, 4)] @p.opt "argmd", "desc", :default => dates opts = @p.parse(%w(--)) assert_equal dates, opts["argmd"] opts = @p.parse(['--argmd', 'Jan 4, 2007']) assert_equal [Date.civil(2007, 1, 4)], opts["argmd"] err_regex = /option 'argmd' needs a date/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse(%w(--argmd hello)) } # multi args: strings @p.opt "argmst", "desc", :default => %w(hello world) opts = @p.parse(%w(--)) assert_equal %w(hello world), opts["argmst"] opts = @p.parse(%w(--argmst 3.4)) assert_equal ["3.4"], opts["argmst"] opts = @p.parse(%w(--argmst goodbye)) assert_equal ["goodbye"], opts["argmst"] end ## :type and :default must match if both are specified def test_type_and_default_must_match # Different versions of ruby raise different error messages. err_regex = %r/(type specification and default type don't match|Unsupported argument type)/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :type => :int, :default => "hello" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg2", "desc", :type => :String, :default => 4 } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg2", "desc", :type => :String, :default => ["hi"] } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg2", "desc", :type => :ints, :default => [3.14] } @p.opt "argsi", "desc", :type => :int, :default => 4 @p.opt "argsf", "desc", :type => :float, :default => 3.14 @p.opt "argsd", "desc", :type => :date, :default => Date.today @p.opt "argss", "desc", :type => :string, :default => "yo" @p.opt "argmi", "desc", :type => :ints, :default => [4] @p.opt "argmf", "desc", :type => :floats, :default => [3.14] @p.opt "argmd", "desc", :type => :dates, :default => [Date.today] @p.opt "argmst", "desc", :type => :strings, :default => ["yo"] end ## def test_flags_with_defaults_and_no_args_act_as_switches @p.opt :argd, "desc", :default => "default_string" opts = @p.parse(%w(--)) assert !opts[:argd_given] assert_equal "default_string", opts[:argd] opts = @p.parse(%w( --argd )) assert opts[:argd_given] assert_equal "default_string", opts[:argd] opts = @p.parse(%w(--argd different_string)) assert opts[:argd_given] assert_equal "different_string", opts[:argd] end def test_flag_with_no_defaults_and_no_args_act_as_switches_array opts = nil @p.opt :argd, "desc", :type => :strings, :default => ["default_string"] opts = @p.parse(%w(--argd)) assert_equal ["default_string"], opts[:argd] end def test_type_and_empty_array @p.opt "argmi", "desc", :type => :ints, :default => [] @p.opt "argmf", "desc", :type => :floats, :default => [] @p.opt "argmd", "desc", :type => :dates, :default => [] @p.opt "argms", "desc", :type => :strings, :default => [] err_regex = %r/multiple argument type must be plural/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badi", "desc", :type => :int, :default => [] } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badf", "desc", :type => :float, :default => [] } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badd", "desc", :type => :date, :default => [] } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "bads", "desc", :type => :string, :default => [] } opts = @p.parse([]) assert_equal(opts["argmi"], []) assert_equal(opts["argmf"], []) assert_equal(opts["argmd"], []) assert_equal(opts["argms"], []) end def test_long_detects_bad_names @p.opt "goodarg", "desc", :long => "none" @p.opt "goodarg2", "desc", :long => "--two" @p.opt "goodarg3", "desc", :long => "arg-3" @p.opt "goodarg4", "desc", :long => "--good-arg-four" err_regex = /invalid long option name/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :long => "" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg2", "desc", :long => "--" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg3", "desc", :long => "-one" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg4", "desc", :long => "---toomany" } end def test_short_detects_bad_names @p.opt "goodarg", "desc", :short => "a" @p.opt "goodarg2", "desc", :short => "-b" err_regex = /invalid short option name/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :short => "" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg2", "desc", :short => "-ab" } assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg3", "desc", :short => "--t" } end def test_short_names_created_automatically @p.opt "arg" @p.opt "arg2" @p.opt "arg3" opts = @p.parse %w(-a -g) assert_equal true, opts["arg"] assert_equal false, opts["arg2"] assert_equal true, opts["arg3"] end def test_short_autocreation_skips_dashes_and_numbers @p.opt :arg # auto: a @p.opt :arg_potato # auto: r @p.opt :arg_muffin # auto: g @p.opt :arg_daisy # auto: d (not _)! @p.opt :arg_r2d2f # auto: f (not 2)! opts = @p.parse %w(-f -d) assert_equal true, opts[:arg_daisy] assert_equal true, opts[:arg_r2d2f] assert_equal false, opts[:arg] assert_equal false, opts[:arg_potato] assert_equal false, opts[:arg_muffin] end def test_short_autocreation_is_ok_with_running_out_of_chars @p.opt :arg1 # auto: a @p.opt :arg2 # auto: r @p.opt :arg3 # auto: g @p.opt :arg4 # auto: uh oh! @p.parse [] end def test_short_can_be_nothing @p.opt "arg", "desc", :short => :none @p.parse [] sio = StringIO.new @p.educate sio assert sio.string =~ /--arg\s+desc/ assert_raises_errmatch(CommandlineError, /unknown argument '-a'/) { @p.parse %w(-a) } end ## two args can't have the same name def test_conflicting_names_are_detected @p.opt "goodarg" err_regex = /you already have an argument named 'goodarg'/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "goodarg" } end ## two args can't have the same :long def test_conflicting_longs_detected @p.opt "goodarg", "desc", :long => "--goodarg" err_regex = /long option name \"goodarg\" is already taken/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :long => "--goodarg" } end ## two args can't have the same :short def test_conflicting_shorts_detected @p.opt "goodarg", "desc", :short => "-g" err_regex = /short option name \"g\" is already taken/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt "badarg", "desc", :short => "-g" } end ## note: this behavior has changed in optimist 2.0! def test_flag_parameters @p.opt :defaultnone, "desc" @p.opt :defaultfalse, "desc", :default => false @p.opt :defaulttrue, "desc", :default => true ## default state opts = @p.parse [] assert_equal false, opts[:defaultnone] assert_equal false, opts[:defaultfalse] assert_equal true, opts[:defaulttrue] ## specifying turns them on, regardless of default opts = @p.parse %w(--defaultfalse --defaulttrue --defaultnone) assert_equal true, opts[:defaultnone] assert_equal true, opts[:defaultfalse] assert_equal true, opts[:defaulttrue] ## using short form turns them all on, regardless of default # # (matches positve "non-no" long form) opts = @p.parse %w(-d -e -f) assert_equal true, opts[:defaultnone] assert_equal true, opts[:defaultfalse] assert_equal true, opts[:defaulttrue] ## using --no- form turns them off, regardless of default opts = @p.parse %w(--no-defaultfalse --no-defaulttrue --no-defaultnone) assert_equal false, opts[:defaultnone] assert_equal false, opts[:defaultfalse] assert_equal false, opts[:defaulttrue] end ## note: this behavior has changed in optimist 2.0! def test_flag_parameters_for_inverted_flags @p.opt :no_default_none, "desc" @p.opt :no_default_false, "desc", :default => false @p.opt :no_default_true, "desc", :default => true ## default state opts = @p.parse [] assert_equal false, opts[:no_default_none] assert_equal false, opts[:no_default_false] assert_equal true, opts[:no_default_true] ## specifying turns them all on, regardless of default opts = @p.parse %w(--no-default-false --no-default-true --no-default-none) assert_equal true, opts[:no_default_none] assert_equal true, opts[:no_default_false] assert_equal true, opts[:no_default_true] ## using dropped-no form turns them all off, regardless of default opts = @p.parse %w(--default-false --default-true --default-none) assert_equal false, opts[:no_default_none] assert_equal false, opts[:no_default_false] assert_equal false, opts[:no_default_true] ## using short form turns them all off, regardless of default # # (matches positve "non-no" long form) opts = @p.parse %w(-n -o -d) assert_equal false, opts[:no_default_none] assert_equal false, opts[:no_default_false] assert_equal false, opts[:no_default_true] ## disallow double negatives for reasons of sanity preservation assert_raises_errmatch(CommandlineError, /unknown argument '--no-default-true'/) { @p.parse %w(--no-no-default-true) } end def test_short_options_combine @p.opt :arg1, "desc", :short => "a" @p.opt :arg2, "desc", :short => "b" @p.opt :arg3, "desc", :short => "c", :type => :int opts = @p.parse %w(-a -b) assert_equal true, opts[:arg1] assert_equal true, opts[:arg2] assert_nil opts[:arg3] opts = @p.parse %w(-ab) assert_equal true, opts[:arg1] assert_equal true, opts[:arg2] assert_nil opts[:arg3] opts = @p.parse %w(-ac 4 -b) assert_equal true, opts[:arg1] assert_equal true, opts[:arg2] assert_equal 4, opts[:arg3] err_regex = /option '-c' needs a parameter/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-cab 4) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-cba 4) } end def test_doubledash_ends_option_processing @p.opt :arg1, "desc", :short => "a", :default => 0 @p.opt :arg2, "desc", :short => "b", :default => 0 opts = @p.parse %w(-- -a 3 -b 2) assert_equal opts[:arg1], 0 assert_equal opts[:arg2], 0 assert_equal %w(-a 3 -b 2), @p.leftovers opts = @p.parse %w(-a 3 -- -b 2) assert_equal opts[:arg1], 3 assert_equal opts[:arg2], 0 assert_equal %w(-b 2), @p.leftovers opts = @p.parse %w(-a 3 -b 2 --) assert_equal opts[:arg1], 3 assert_equal opts[:arg2], 2 assert_equal %w(), @p.leftovers end def test_wrap assert_equal [""], @p.wrap("") assert_equal ["a"], @p.wrap("a") assert_equal ["one two", "three"], @p.wrap("one two three", :width => 8) assert_equal ["one two three"], @p.wrap("one two three", :width => 80) assert_equal ["one", "two", "three"], @p.wrap("one two three", :width => 3) assert_equal ["onetwothree"], @p.wrap("onetwothree", :width => 3) assert_equal [ "Test is an awesome program that does something very, very important.", "", "Usage:", " test [options] +", "where [options] are:"], @p.wrap(< 100) Test is an awesome program that does something very, very important. Usage: test [options] + where [options] are: EOM end def test_multi_line_description out = StringIO.new @p.opt :arg, <<-EOM, :type => :int This is an arg with a multi-line description EOM @p.educate(out) assert_equal <<-EOM, out.string Options: --arg= This is an arg with a multi-line description EOM end def test_integer_formatting @p.opt :arg, "desc", :type => :integer, :short => "i" opts = @p.parse %w(-i 5) assert_equal 5, opts[:arg] end def test_integer_formatting_default @p.opt :arg, "desc", :type => :integer, :short => "i", :default => 3 opts = @p.parse %w(-i) assert_equal 3, opts[:arg] end def test_floating_point_formatting @p.opt :arg, "desc", :type => :float, :short => "f" opts = @p.parse %w(-f 1) assert_equal 1.0, opts[:arg] opts = @p.parse %w(-f 1.0) assert_equal 1.0, opts[:arg] opts = @p.parse %w(-f 0.1) assert_equal 0.1, opts[:arg] opts = @p.parse %w(-f .1) assert_equal 0.1, opts[:arg] opts = @p.parse %w(-f .99999999999999999999) assert_equal 1.0, opts[:arg] opts = @p.parse %w(-f -1) assert_equal(-1.0, opts[:arg]) opts = @p.parse %w(-f -1.0) assert_equal(-1.0, opts[:arg]) opts = @p.parse %w(-f -0.1) assert_equal(-0.1, opts[:arg]) opts = @p.parse %w(-f -.1) assert_equal(-0.1, opts[:arg]) err_regex = %r/option 'arg' needs a floating-point number/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f a) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f 1a) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f 1.a) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f a.1) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f 1.0.0) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f .) } err_regex = %r/unknown argument '-.'/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-f -.) } end def test_floating_point_formatting_default @p.opt :arg, "desc", :type => :float, :short => "f", :default => 5.5 opts = @p.parse %w(-f) assert_equal 5.5, opts[:arg] end def test_date_formatting @p.opt :arg, "desc", :type => :date, :short => 'd' opts = @p.parse(['-d', 'Jan 4, 2007']) assert_equal Date.civil(2007, 1, 4), opts[:arg] opts = @p.parse(['-d', 'today']) assert_equal Date.today, opts[:arg] end def test_short_options_cant_be_numeric err_regex = %r/short option name '1' can't be a number or a dash/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt :arg, "desc", :short => "-1" } @p.opt :a1b, "desc" @p.opt :a2b, "desc" @p.parse [] # testing private interface to ensure default # short options did not become numeric assert_equal @p.specs[:a1b].short.chars.first, 'a' assert_equal @p.specs[:a2b].short.chars.first, 'b' end def test_short_options_can_be_weird @p.opt :arg1, "desc", :short => "#" @p.opt :arg2, "desc", :short => "." err_regex = %r/short option name '-' can't be a number or a dash/ assert_raises_errmatch(ArgumentError, err_regex) { @p.opt :arg3, "desc", :short => "-" } end def test_options_cant_be_set_multiple_times_if_not_specified @p.opt :arg, "desc", :short => "-x" @p.parse %w(-x) err_regex = /option '-x' specified multiple times/ assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-x -x) } assert_raises_errmatch(CommandlineError, err_regex) { @p.parse %w(-xx) } end def test_options_can_be_set_multiple_times_if_specified @p.opt :arg, "desc", :short => "-x", :multi => true @p.parse %w(-x) @p.parse %w(-x -x) @p.parse %w(-xx) end def test_short_options_with_multiple_options @p.opt :xarg, "desc", :short => "-x", :type => String, :multi => true opts = @p.parse %w(-x a -x b) assert_equal %w(a b), opts[:xarg] assert_equal [], @p.leftovers end def test_short_options_with_multiple_options_does_not_affect_flags_type @p.opt :xarg, "desc", :short => "-x", :type => :flag, :multi => true opts = @p.parse %w(-x a) assert_equal true, opts[:xarg] assert_equal %w(a), @p.leftovers opts = @p.parse %w(-x a -x b) assert_equal true, opts[:xarg] assert_equal %w(a b), @p.leftovers opts = @p.parse %w(-xx a -x b) assert_equal true, opts[:xarg] assert_equal %w(a b), @p.leftovers end def test_short_options_with_multiple_arguments @p.opt :xarg, "desc", :type => :ints opts = @p.parse %w(-x 3 4 0) assert_equal [3, 4, 0], opts[:xarg] assert_equal [], @p.leftovers @p.opt :yarg, "desc", :type => :floats opts = @p.parse %w(-y 3.14 4.21 0.66) assert_equal [3.14, 4.21, 0.66], opts[:yarg] assert_equal [], @p.leftovers @p.opt :zarg, "desc", :type => :strings opts = @p.parse %w(-z a b c) assert_equal %w(a b c), opts[:zarg] assert_equal [], @p.leftovers end def test_short_options_with_multiple_options_and_arguments @p.opt :xarg, "desc", :type => :ints, :multi => true opts = @p.parse %w(-x 3 4 5 -x 6 7) assert_equal [[3, 4, 5], [6, 7]], opts[:xarg] assert_equal [], @p.leftovers @p.opt :yarg, "desc", :type => :floats, :multi => true opts = @p.parse %w(-y 3.14 4.21 5.66 -y 6.99 7.01) assert_equal [[3.14, 4.21, 5.66], [6.99, 7.01]], opts[:yarg] assert_equal [], @p.leftovers @p.opt :zarg, "desc", :type => :strings, :multi => true opts = @p.parse %w(-z a b c -z d e) assert_equal [%w(a b c), %w(d e)], opts[:zarg] assert_equal [], @p.leftovers end def test_combined_short_options_with_multiple_arguments @p.opt :arg1, "desc", :short => "a" @p.opt :arg2, "desc", :short => "b" @p.opt :arg3, "desc", :short => "c", :type => :ints @p.opt :arg4, "desc", :short => "d", :type => :floats opts = @p.parse %w(-abc 4 6 9) assert_equal true, opts[:arg1] assert_equal true, opts[:arg2] assert_equal [4, 6, 9], opts[:arg3] opts = @p.parse %w(-ac 4 6 9 -bd 3.14 2.41) assert_equal true, opts[:arg1] assert_equal true, opts[:arg2] assert_equal [4, 6, 9], opts[:arg3] assert_equal [3.14, 2.41], opts[:arg4] assert_raises_errmatch(CommandlineError, /option '-c' needs a parameter/) { opts = @p.parse %w(-abcd 3.14 2.41) } end def test_long_options_with_multiple_options @p.opt :xarg, "desc", :type => String, :multi => true opts = @p.parse %w(--xarg=a --xarg=b) assert_equal %w(a b), opts[:xarg] assert_equal [], @p.leftovers opts = @p.parse %w(--xarg a --xarg b) assert_equal %w(a b), opts[:xarg] assert_equal [], @p.leftovers end def test_long_options_with_multiple_arguments @p.opt :xarg, "desc", :type => :ints opts = @p.parse %w(--xarg 3 2 5) assert_equal [3, 2, 5], opts[:xarg] assert_equal [], @p.leftovers opts = @p.parse %w(--xarg=3) assert_equal [3], opts[:xarg] assert_equal [], @p.leftovers @p.opt :yarg, "desc", :type => :floats opts = @p.parse %w(--yarg 3.14 2.41 5.66) assert_equal [3.14, 2.41, 5.66], opts[:yarg] assert_equal [], @p.leftovers opts = @p.parse %w(--yarg=3.14) assert_equal [3.14], opts[:yarg] assert_equal [], @p.leftovers @p.opt :zarg, "desc", :type => :strings opts = @p.parse %w(--zarg a b c) assert_equal %w(a b c), opts[:zarg] assert_equal [], @p.leftovers opts = @p.parse %w(--zarg=a) assert_equal %w(a), opts[:zarg] assert_equal [], @p.leftovers end def test_long_options_with_multiple_options_and_arguments @p.opt :xarg, "desc", :type => :ints, :multi => true opts = @p.parse %w(--xarg 3 2 5 --xarg 2 1) assert_equal [[3, 2, 5], [2, 1]], opts[:xarg] assert_equal [], @p.leftovers opts = @p.parse %w(--xarg=3 --xarg=2) assert_equal [[3], [2]], opts[:xarg] assert_equal [], @p.leftovers @p.opt :yarg, "desc", :type => :floats, :multi => true opts = @p.parse %w(--yarg 3.14 2.72 5 --yarg 2.41 1.41) assert_equal [[3.14, 2.72, 5], [2.41, 1.41]], opts[:yarg] assert_equal [], @p.leftovers opts = @p.parse %w(--yarg=3.14 --yarg=2.41) assert_equal [[3.14], [2.41]], opts[:yarg] assert_equal [], @p.leftovers @p.opt :zarg, "desc", :type => :strings, :multi => true opts = @p.parse %w(--zarg a b c --zarg d e) assert_equal [%w(a b c), %w(d e)], opts[:zarg] assert_equal [], @p.leftovers opts = @p.parse %w(--zarg=a --zarg=d) assert_equal [%w(a), %w(d)], opts[:zarg] assert_equal [], @p.leftovers end def test_long_options_also_take_equals @p.opt :arg, "desc", :long => "arg", :type => String, :default => "hello" opts = @p.parse %w() assert_equal "hello", opts[:arg] opts = @p.parse %w(--arg goat) assert_equal "goat", opts[:arg] opts = @p.parse %w(--arg=goat) assert_equal "goat", opts[:arg] ## actually, this next one is valid. empty string for --arg, and goat as a ## leftover. ## assert_raises(CommandlineError) { opts = @p.parse %w(--arg= goat) } end def test_auto_generated_long_names_convert_underscores_to_hyphens @p.opt :hello_there assert_equal "hello-there", @p.specs[:hello_there].long.long end def test_arguments_passed_through_block @goat = 3 boat = 4 Parser.new(@goat) do |goat| boat = goat end assert_equal @goat, boat end ## test-only access reader method so that we dont have to ## expose settings in the public API. class Optimist::Parser def get_settings_for_testing ; return @settings ;end end def test_two_arguments_passed_through_block newp = Parser.new(:abcd => 123, :efgh => "other" ) do |i| end assert_equal newp.get_settings_for_testing[:abcd], 123 assert_equal newp.get_settings_for_testing[:efgh], "other" end def test_version_and_help_override_errors @p.opt :asdf, "desc", :type => String @p.version "version" @p.parse %w(--asdf goat) assert_raises_errmatch(CommandlineError, /option '--asdf' needs a parameter/) { @p.parse %w(--asdf) } assert_raises(HelpNeeded) { @p.parse %w(--asdf --help) } assert_raises(VersionNeeded) { @p.parse %w(--asdf --version) } end ## courtesy neill zero def test_two_required_one_missing_accuses_correctly @p.opt "arg1", "desc1", :required => true @p.opt "arg2", "desc2", :required => true assert_raises_errmatch(CommandlineError, /arg2/) { @p.parse(%w(--arg1)) } assert_raises_errmatch(CommandlineError, /arg1/) { @p.parse(%w(--arg2)) } @p.parse(%w(--arg1 --arg2)) end def test_stopwords_mixed @p.opt "arg1", :default => false @p.opt "arg2", :default => false @p.stop_on %w(happy sad) opts = @p.parse %w(--arg1 happy --arg2) assert_equal true, opts["arg1"] assert_equal false, opts["arg2"] ## restart parsing @p.leftovers.shift opts = @p.parse @p.leftovers assert_equal false, opts["arg1"] assert_equal true, opts["arg2"] end def test_stopwords_no_stopwords @p.opt "arg1", :default => false @p.opt "arg2", :default => false @p.stop_on %w(happy sad) opts = @p.parse %w(--arg1 --arg2) assert_equal true, opts["arg1"] assert_equal true, opts["arg2"] ## restart parsing @p.leftovers.shift opts = @p.parse @p.leftovers assert_equal false, opts["arg1"] assert_equal false, opts["arg2"] end def test_stopwords_multiple_stopwords @p.opt "arg1", :default => false @p.opt "arg2", :default => false @p.stop_on %w(happy sad) opts = @p.parse %w(happy sad --arg1 --arg2) assert_equal false, opts["arg1"] assert_equal false, opts["arg2"] ## restart parsing @p.leftovers.shift opts = @p.parse @p.leftovers assert_equal false, opts["arg1"] assert_equal false, opts["arg2"] ## restart parsing again @p.leftovers.shift opts = @p.parse @p.leftovers assert_equal true, opts["arg1"] assert_equal true, opts["arg2"] end def test_stopwords_with_short_args @p.opt :global_option, "This is a global option", :short => "-g" @p.stop_on %w(sub-command-1 sub-command-2) global_opts = @p.parse %w(-g sub-command-1 -c) cmd = @p.leftovers.shift @q = Parser.new @q.opt :cmd_option, "This is an option only for the subcommand", :short => "-c" cmd_opts = @q.parse @p.leftovers assert_equal true, global_opts[:global_option] assert_nil global_opts[:cmd_option] assert_equal true, cmd_opts[:cmd_option] assert_nil cmd_opts[:global_option] assert_equal cmd, "sub-command-1" assert_equal @q.leftovers, [] end def test_unknown_subcommand @p.opt :global_flag, "Global flag", :short => "-g", :type => :flag @p.opt :global_param, "Global parameter", :short => "-p", :default => 5 @p.stop_on_unknown expected_opts = { :global_flag => true, :help => false, :global_param => 5, :global_flag_given => true } expected_leftovers = [ "my_subcommand", "-c" ] assert_parses_correctly @p, %w(--global-flag my_subcommand -c), \ expected_opts, expected_leftovers assert_parses_correctly @p, %w(-g my_subcommand -c), \ expected_opts, expected_leftovers expected_opts = { :global_flag => false, :help => false, :global_param => 5, :global_param_given => true } expected_leftovers = [ "my_subcommand", "-c" ] assert_parses_correctly @p, %w(-p 5 my_subcommand -c), \ expected_opts, expected_leftovers assert_parses_correctly @p, %w(--global-param 5 my_subcommand -c), \ expected_opts, expected_leftovers end def test_alternate_args args = %w(-a -b -c) opts = ::Optimist.options(args) do opt :alpher, "Ralph Alpher", :short => "-a" opt :bethe, "Hans Bethe", :short => "-b" opt :gamow, "George Gamow", :short => "-c" end physicists_with_humor = [:alpher, :bethe, :gamow] physicists_with_humor.each do |physicist| assert_equal true, opts[physicist] end end def test_date_arg_type temp = Date.new @p.opt :arg, 'desc', :type => :date @p.opt :arg2, 'desc', :type => Date @p.opt :arg3, 'desc', :default => temp opts = @p.parse [] assert_equal temp, opts[:arg3] opts = @p.parse %w(--arg 5/1/2010) assert_kind_of Date, opts[:arg] assert_equal Date.new(2010, 5, 1), opts[:arg] opts = @p.parse %w(--arg2 5/1/2010) assert_kind_of Date, opts[:arg2] assert_equal Date.new(2010, 5, 1), opts[:arg2] opts = @p.parse %w(--arg3) assert_equal temp, opts[:arg3] end def test_unknown_arg_class_type assert_raises ArgumentError do @p.opt :arg, 'desc', :type => Hash end end def test_io_arg_type @p.opt :arg, "desc", :type => :io @p.opt :arg2, "desc", :type => IO @p.opt :arg3, "desc", :default => $stdout opts = @p.parse [] assert_equal $stdout, opts[:arg3] opts = @p.parse %w(--arg /dev/null) assert_kind_of File, opts[:arg] assert_equal "/dev/null", opts[:arg].path #TODO: move to mocks #opts = @p.parse %w(--arg2 http://google.com/) #assert_kind_of StringIO, opts[:arg2] opts = @p.parse %w(--arg3 stdin) assert_equal $stdin, opts[:arg3] err_regex = %r/file or url for option 'arg' cannot be opened: No such file or directory/ assert_raises_errmatch(CommandlineError, err_regex) { opts = @p.parse %w(--arg /fdasfasef/fessafef/asdfasdfa/fesasf) } end def test_openstruct_style_access @p.opt "arg1", "desc", :type => :int @p.opt :arg2, "desc", :type => :int opts = @p.parse(%w(--arg1 3 --arg2 4)) opts.arg1 opts.arg2 assert_equal 3, opts.arg1 assert_equal 4, opts.arg2 end def test_multi_args_autobox_defaults @p.opt :arg1, "desc", :default => "hello", :multi => true @p.opt :arg2, "desc", :default => ["hello"], :multi => true opts = @p.parse [] assert_equal ["hello"], opts[:arg1] assert_equal ["hello"], opts[:arg2] opts = @p.parse %w(--arg1 hello) assert_equal ["hello"], opts[:arg1] assert_equal ["hello"], opts[:arg2] opts = @p.parse %w(--arg1 hello --arg1 there) assert_equal ["hello", "there"], opts[:arg1] end def test_ambigious_multi_plus_array_default_resolved_as_specified_by_documentation @p.opt :arg1, "desc", :default => ["potato"], :multi => true @p.opt :arg2, "desc", :default => ["potato"], :multi => true, :type => :strings @p.opt :arg3, "desc", :default => ["potato"] @p.opt :arg4, "desc", :default => ["potato", "rhubarb"], :short => :none, :multi => true ## arg1 should be multi-occurring but not multi-valued opts = @p.parse %w(--arg1 one two) assert_equal ["one"], opts[:arg1] assert_equal ["two"], @p.leftovers opts = @p.parse %w(--arg1 one --arg1 two) assert_equal ["one", "two"], opts[:arg1] assert_equal [], @p.leftovers ## arg2 should be multi-valued and multi-occurring opts = @p.parse %w(--arg2 one two) assert_equal [["one", "two"]], opts[:arg2] assert_equal [], @p.leftovers ## arg3 should be multi-valued but not multi-occurring opts = @p.parse %w(--arg3 one two) assert_equal ["one", "two"], opts[:arg3] assert_equal [], @p.leftovers ## arg4 should be multi-valued but not multi-occurring opts = @p.parse %w() assert_equal ["potato", "rhubarb"], opts[:arg4] end def test_given_keys @p.opt :arg1 @p.opt :arg2 opts = @p.parse %w(--arg1) assert opts[:arg1_given] assert !opts[:arg2_given] opts = @p.parse %w(--arg2) assert !opts[:arg1_given] assert opts[:arg2_given] opts = @p.parse [] assert !opts[:arg1_given] assert !opts[:arg2_given] opts = @p.parse %w(--arg1 --arg2) assert opts[:arg1_given] assert opts[:arg2_given] end def test_default_shorts_assigned_only_after_user_shorts @p.opt :aab, "aaa" # should be assigned to -b @p.opt :ccd, "bbb" # should be assigned to -d @p.opt :user1, "user1", :short => 'a' @p.opt :user2, "user2", :short => 'c' opts = @p.parse %w(-a -b) assert opts[:user1] assert !opts[:user2] assert opts[:aab] assert !opts[:ccd] opts = @p.parse %w(-c -d) assert !opts[:user1] assert opts[:user2] assert !opts[:aab] assert opts[:ccd] end def test_short_opts_not_implicitly_created newp = Parser.new(implicit_short_opts: false) newp.opt :user1, "user1" newp.opt :bag, "bag", :short => 'b' assert_raises_errmatch(CommandlineError, /unknown argument '-u'/) do newp.parse %w(-u) end opts = newp.parse %w(--user1) assert opts[:user1] opts = newp.parse %w(-b) assert opts[:bag] end def test_short_opts_not_implicit_help_ver # When implicit_short_opts is false this implies the short options # for the built-in help/version are also not created. newp = Parser.new(implicit_short_opts: false) newp.opt :abc, "abc" newp.version "3.4.5" assert_raises_errmatch(CommandlineError, /unknown argument '-h'/) do newp.parse %w(-h) end assert_raises_errmatch(CommandlineError, /unknown argument '-v'/) do newp.parse %w(-v) end assert_raises(HelpNeeded) do newp.parse %w(--help) end assert_raises(VersionNeeded) do newp.parse %w(--version) end end def test_inexact_match newp = Parser.new(exact_match: false) newp.opt :liberation, "liberate something", :type => :int newp.opt :evaluate, "evaluate something", :type => :string opts = newp.parse %w(--lib 5 --ev bar) assert_equal 5, opts[:liberation] assert_equal 'bar', opts[:evaluate] assert_nil opts[:eval] end def test_exact_match newp = Parser.new() newp.opt :liberation, "liberate something", :type => :int newp.opt :evaluate, "evaluate something", :type => :string assert_raises_errmatch(CommandlineError, /unknown argument '--lib'/) do newp.parse %w(--lib 5) end assert_raises_errmatch(CommandlineError, /unknown argument '--ev'/) do newp.parse %w(--ev bar) end end def test_inexact_collision newp = Parser.new(exact_match: false) newp.opt :bookname, "name of a book", :type => :string newp.opt :bookcost, "cost of the book", :type => :string opts = newp.parse %w(--bookn hairy_potsworth --bookc 10) assert_equal 'hairy_potsworth', opts[:bookname] assert_equal '10', opts[:bookcost] assert_raises_errmatch(CommandlineError, /ambiguous option '--book' matched keys \(bookname,bookcost\)/) do newp.parse %w(--book 5) # ambiguous end ## partial match causes 'specified multiple times' error assert_raises_errmatch(CommandlineError, /specified multiple times/) do newp.parse %w(--bookc 17 --bookcost 22) end end def test_inexact_collision_with_exact newp = Parser.new(exact_match: false) newp.opt :book, "name of a book", :type => :string, :default => "ABC" newp.opt :bookcost, "cost of the book", :type => :int, :default => 5 opts = newp.parse %w(--book warthog --bookc 3) assert_equal 'warthog', opts[:book] assert_equal 3, opts[:bookcost] end def test_accepts_arguments_with_spaces @p.opt :arg1, "arg", :type => String @p.opt :arg2, "arg2", :type => String opts = @p.parse ["--arg1", "hello there", "--arg2=hello there"] assert_equal "hello there", opts[:arg1] assert_equal "hello there", opts[:arg2] assert_equal 0, @p.leftovers.size end def test_multi_args_default_to_empty_array @p.opt :arg1, "arg", :multi => true opts = @p.parse [] assert_equal [], opts[:arg1] end def test_simple_interface_handles_help assert_stdout(/Options:/) do assert_raises(SystemExit) do ::Optimist::options(%w(-h)) do opt :potato end end end # ensure regular status is returned assert_stdout do begin ::Optimist::options(%w(-h)) do opt :potato end rescue SystemExit => e assert_equal 0, e.status end end end def test_simple_interface_handles_version assert_stdout(/1.2/) do assert_raises(SystemExit) do ::Optimist::options(%w(-v)) do version "1.2" opt :potato end end end end def test_simple_interface_handles_regular_usage opts = ::Optimist::options(%w(--potato)) do opt :potato end assert opts[:potato] end def test_simple_interface_handles_die assert_stderr(/Error: argument --potato is invalid/) do ::Optimist::options(%w(--potato)) do opt :potato end assert_raises(SystemExit) { ::Optimist::die :potato, "is invalid" } end end def test_simple_interface_handles_die_without_message assert_stderr(/Error: potato\./) do ::Optimist::options(%w(--potato)) do opt :potato end assert_raises(SystemExit) { ::Optimist::die :potato } end end def test_invalid_option_with_simple_interface assert_stderr(/Error: unknown argument \'--potato\'\./) do assert_raises(SystemExit) do ::Optimist.options(%w(--potato)) end end assert_stderr do begin ::Optimist.options(%w(--potato)) rescue SystemExit => e assert_equal(-1, e.status) end end end def test_supports_callback_inline assert_raises_errmatch(RuntimeError, "good") do @p.opt :cb1 do |vals| raise "good" end @p.parse(%w(--cb1)) end end def test_supports_callback_param assert_raises_errmatch(RuntimeError, "good") do @p.opt :cb1, "with callback", :callback => lambda { |vals| raise "good" } @p.parse(%w(--cb1)) end end def test_ignore_invalid_options @p.opt :arg1, "desc", :type => String @p.opt :b, "desc", :type => String @p.opt :c, "desc", :type => :flag @p.opt :d, "desc", :type => :flag @p.ignore_invalid_options = true opts = @p.parse %w{unknown -S param --arg1 potato -fb daisy --foo -ecg --bar baz -z} assert_equal "potato", opts[:arg1] assert_equal "daisy", opts[:b] assert opts[:c] refute opts[:d] assert_equal %w{unknown -S param -f --foo -eg --bar baz -z}, @p.leftovers end def test_ignore_invalid_options_stop_on_unknown_long @p.opt :arg1, "desc", :type => String @p.ignore_invalid_options = true @p.stop_on_unknown opts = @p.parse %w{--unk --arg1 potato} refute opts[:arg1] assert_equal %w{--unk --arg1 potato}, @p.leftovers end def test_ignore_invalid_options_stop_on_unknown_short @p.opt :arg1, "desc", :type => String @p.ignore_invalid_options = true @p.stop_on_unknown opts = @p.parse %w{-ua potato} refute opts[:arg1] assert_equal %w{-ua potato}, @p.leftovers end def test_ignore_invalid_options_stop_on_unknown_partial_end_short @p.opt :arg1, "desc", :type => :flag @p.ignore_invalid_options = true @p.stop_on_unknown opts = @p.parse %w{-au potato} assert opts[:arg1] assert_equal %w{-u potato}, @p.leftovers end def test_ignore_invalid_options_stop_on_unknown_partial_mid_short @p.opt :arg1, "desc", :type => :flag @p.ignore_invalid_options = true @p.stop_on_unknown opts = @p.parse %w{-abu potato} assert opts[:arg1] assert_equal %w{-bu potato}, @p.leftovers end # Due to strangeness in how the cloaker works, there were # cases where Optimist.parse would work, but Optimist.options # did not, depending on arguments given to the function. # These serve to validate different args given to Optimist.options def test_options_takes_hashy_settings passargs_copy = [] settings_copy = [] ::Optimist.options(%w(--wig --pig), :fizz=>:buzz, :bear=>:cat) do |*passargs| opt :wig opt :pig passargs_copy = passargs.dup settings_copy = @settings end assert_equal [], passargs_copy assert_equal settings_copy[:fizz], :buzz assert_equal settings_copy[:bear], :cat end def test_options_takes_some_other_data passargs_copy = [] settings_copy = [] ::Optimist.options(%w(--nose --close), 1, 2, 3) do |*passargs| opt :nose opt :close passargs_copy = passargs.dup settings_copy = @settings end assert_equal [1,2,3], passargs_copy assert_equal(Optimist::Parser::DEFAULT_SETTINGS, settings_copy) end end end