# regular argument assert_equal '1', 'def m() 1 end; m()' assert_equal '1', 'def m(a) a end; m(1)' assert_equal '[1, 2]', 'def m(a,b) [a, b] end; m(1,2)' assert_equal '[1, 2, 3]', 'def m(a,b,c) [a, b, c] end; m(1,2,3)' assert_equal 'wrong number of arguments (1 for 0)', %q{ def m; end begin m(1) rescue => e e.message end } assert_equal 'wrong number of arguments (0 for 1)', %q{ def m a; end begin m rescue => e e.message end } # default argument assert_equal '1', 'def m(x=1) x end; m()' assert_equal '1', 'def m(x=7) x end; m(1)' assert_equal '1', 'def m(a,x=1) x end; m(7)' assert_equal '1', 'def m(a,x=7) x end; m(7,1)' assert_equal '1', 'def m(a,b,x=1) x end; m(7,7)' assert_equal '1', 'def m(a,b,x=7) x end; m(7,7,1)' assert_equal '1', 'def m(a,x=1,y=1) x end; m(7)' assert_equal '1', 'def m(a,x=1,y=1) y end; m(7)' assert_equal '1', 'def m(a,x=7,y=1) x end; m(7,1)' assert_equal '1', 'def m(a,x=7,y=1) y end; m(7,1)' assert_equal '1', 'def m(a,x=7,y=7) x end; m(7,1,1)' assert_equal '1', 'def m(a,x=7,y=7) y end; m(7,1,1)' # rest argument assert_equal '[]', 'def m(*a) a end; m().inspect' assert_equal '[1]', 'def m(*a) a end; m(1).inspect' assert_equal '[1, 2]', 'def m(*a) a end; m(1,2).inspect' assert_equal '[]', 'def m(x,*a) a end; m(7).inspect' assert_equal '[1]', 'def m(x,*a) a end; m(7,1).inspect' assert_equal '[1, 2]', 'def m(x,*a) a end; m(7,1,2).inspect' assert_equal '[]', 'def m(x,y,*a) a end; m(7,7).inspect' assert_equal '[1]', 'def m(x,y,*a) a end; m(7,7,1).inspect' assert_equal '[1, 2]', 'def m(x,y,*a) a end; m(7,7,1,2).inspect' assert_equal '[]', 'def m(x,y=7,*a) a end; m(7).inspect' assert_equal '[]', 'def m(x,y,z=7,*a) a end; m(7,7).inspect' assert_equal '[]', 'def m(x,y,z=7,*a) a end; m(7,7,7).inspect' assert_equal '[]', 'def m(x,y,z=7,zz=7,*a) a end; m(7,7,7).inspect' assert_equal '[]', 'def m(x,y,z=7,zz=7,*a) a end; m(7,7,7,7).inspect' assert_equal '1', 'def m(x,y,z=7,zz=1,*a) zz end; m(7,7,7).inspect' assert_equal '1', 'def m(x,y,z=7,zz=1,*a) zz end; m(7,7,7).inspect' assert_equal '1', 'def m(x,y,z=7,zz=7,*a) zz end; m(7,7,7,1).inspect' # block argument assert_equal 'Proc', 'def m(&block) block end; m{}.class' assert_equal 'nil', 'def m(&block) block end; m().inspect' assert_equal 'Proc', 'def m(a,&block) block end; m(7){}.class' assert_equal 'nil', 'def m(a,&block) block end; m(7).inspect' assert_equal '1', 'def m(a,&block) a end; m(1){}' assert_equal 'Proc', 'def m(a,b=nil,&block) block end; m(7){}.class' assert_equal 'nil', 'def m(a,b=nil,&block) block end; m(7).inspect' assert_equal 'Proc', 'def m(a,b=nil,&block) block end; m(7,7){}.class' assert_equal '1', 'def m(a,b=nil,&block) b end; m(7,1){}' assert_equal 'Proc', 'def m(a,b=nil,*c,&block) block end; m(7){}.class' assert_equal 'nil', 'def m(a,b=nil,*c,&block) block end; m(7).inspect' assert_equal '1', 'def m(a,b=nil,*c,&block) a end; m(1).inspect' assert_equal '1', 'def m(a,b=1,*c,&block) b end; m(7).inspect' assert_equal '1', 'def m(a,b=7,*c,&block) b end; m(7,1).inspect' assert_equal '[1]', 'def m(a,b=7,*c,&block) c end; m(7,7,1).inspect' # splat assert_equal '1', 'def m(a) a end; m(*[1])' assert_equal '1', 'def m(x,a) a end; m(7,*[1])' assert_equal '1', 'def m(x,y,a) a end; m(7,7,*[1])' assert_equal '1', 'def m(a,b) a end; m(*[1,7])' assert_equal '1', 'def m(a,b) b end; m(*[7,1])' assert_equal '1', 'def m(x,a,b) b end; m(7,*[7,1])' assert_equal '1', 'def m(x,y,a,b) b end; m(7,7,*[7,1])' assert_equal '1', 'def m(a,b,c) a end; m(*[1,7,7])' assert_equal '1', 'def m(a,b,c) b end; m(*[7,1,7])' assert_equal '1', 'def m(a,b,c) c end; m(*[7,7,1])' assert_equal '1', 'def m(x,a,b,c) a end; m(7,*[1,7,7])' assert_equal '1', 'def m(x,y,a,b,c) a end; m(7,7,*[1,7,7])' # hash argument assert_equal '1', 'def m(h) h end; m(7=>1)[7]' assert_equal '1', 'def m(h) h end; m(7=>1).size' assert_equal '1', 'def m(h) h end; m(7=>1, 8=>7)[7]' assert_equal '2', 'def m(h) h end; m(7=>1, 8=>7).size' assert_equal '1', 'def m(h) h end; m(7=>1, 8=>7, 9=>7)[7]' assert_equal '3', 'def m(h) h end; m(7=>1, 8=>7, 9=>7).size' assert_equal '1', 'def m(x,h) h end; m(7, 7=>1)[7]' assert_equal '1', 'def m(x,h) h end; m(7, 7=>1, 8=>7)[7]' assert_equal '1', 'def m(x,h) h end; m(7, 7=>1, 8=>7, 9=>7)[7]' assert_equal '1', 'def m(x,y,h) h end; m(7,7, 7=>1)[7]' assert_equal '1', 'def m(x,y,h) h end; m(7,7, 7=>1, 8=>7)[7]' assert_equal '1', 'def m(x,y,h) h end; m(7,7, 7=>1, 8=>7, 9=>7)[7]' # block argument assert_equal '1', %q(def m(&block) mm(&block) end def mm() yield 1 end m {|a| a }) assert_equal '1', %q(def m(x,&block) mm(x,&block) end def mm(x) yield 1 end m(7) {|a| a }) assert_equal '1', %q(def m(x,y,&block) mm(x,y,&block) end def mm(x,y) yield 1 end m(7,7) {|a| a }) # recursive call assert_equal '1', %q(def m(n) n == 0 ? 1 : m(n-1) end; m(5)) # instance method assert_equal '1', %q(class C; def m() 1 end end; C.new.m) assert_equal '1', %q(class C; def m(a) a end end; C.new.m(1)) assert_equal '1', %q(class C; def m(a = 1) a end end; C.new.m) assert_equal '[1]', %q(class C; def m(*a) a end end; C.new.m(1).inspect) assert_equal '1', %q( class C def m() mm() end def mm() 1 end end C.new.m ) # singleton method (const) assert_equal '1', %q(class C; def C.m() 1 end end; C.m) assert_equal '1', %q(class C; def C.m(a) a end end; C.m(1)) assert_equal '1', %q(class C; def C.m(a = 1) a end end; C.m) assert_equal '[1]', %q(class C; def C.m(*a) a end end; C.m(1).inspect) assert_equal '1', %q(class C; end; def C.m() 1 end; C.m) assert_equal '1', %q(class C; end; def C.m(a) a end; C.m(1)) assert_equal '1', %q(class C; end; def C.m(a = 1) a end; C.m) assert_equal '[1]', %q(class C; end; def C.m(*a) a end; C.m(1).inspect) assert_equal '1', %q(class C; def m() 7 end end; def C.m() 1 end; C.m) assert_equal '1', %q( class C def C.m() mm() end def C.mm() 1 end end C.m ) # singleton method (lvar) assert_equal '1', %q(obj = Object.new; def obj.m() 1 end; obj.m) assert_equal '1', %q(obj = Object.new; def obj.m(a) a end; obj.m(1)) assert_equal '1', %q(obj = Object.new; def obj.m(a=1) a end; obj.m) assert_equal '[1]', %q(obj = Object.new; def obj.m(*a) a end; obj.m(1)) assert_equal '1', %q(class C; def m() 7 end; end obj = C.new def obj.m() 1 end obj.m) # inheritance assert_equal '1', %q(class A; def m(a) a end end class B < A; end B.new.m(1)) assert_equal '1', %q(class A; end class B < A; def m(a) a end end B.new.m(1)) assert_equal '1', %q(class A; def m(a) a end end class B < A; end class C < B; end C.new.m(1)) # include assert_equal '1', %q(class A; def m(a) a end end module M; end class B < A; include M; end B.new.m(1)) assert_equal '1', %q(class A; end module M; def m(a) a end end class B < A; include M; end B.new.m(1)) # alias assert_equal '1', %q( def a() 1 end alias m a m() ) assert_equal '1', %q( class C def a() 1 end alias m a end C.new.m ) assert_equal '1', %q( class C def a() 1 end alias :m a end C.new.m ) assert_equal '1', %q( class C def a() 1 end alias m :a end C.new.m ) assert_equal '1', %q( class C def a() 1 end alias :m :a end C.new.m ) assert_equal '1', %q( class C def a() 1 end alias m a undef a end C.new.m ) # undef assert_equal '1', %q( class C def m() end undef m end begin C.new.m; rescue NoMethodError; 1 end ) assert_equal '1', %q( class A def m() end end class C < A def m() end undef m end begin C.new.m; rescue NoMethodError; 1 end ) assert_equal '1', %q( class A; def a() end end # [yarv-dev:999] class B < A def b() end undef a, b end begin B.new.a; rescue NoMethodError; 1 end ) assert_equal '1', %q( class A; def a() end end # [yarv-dev:999] class B < A def b() end undef a, b end begin B.new.b; rescue NoMethodError; 1 end ) assert_equal '3', %q{ def m1 1 end alias m2 m1 alias :"#{'m3'}" m1 m1 + m2 + m3 }, '[ruby-dev:32308]' assert_equal '1', %q{ def foobar end undef :"foo#{:bar}" 1 }, '[ruby-dev:32308]' assert_equal '1', %q{ def foobar 1 end alias :"bar#{:baz}" :"foo#{:bar}" barbaz }, '[ruby-dev:32308]' # private assert_equal '1', %q( class C def m() mm() end def mm() 1 end private :mm end C.new.m ) assert_equal '1', %q( class C def m() 7 end private :m end begin C.m; rescue NoMethodError; 1 end ) assert_equal '1', %q( class C def C.m() mm() end def C.mm() 1 end private_class_method :mm end C.m ) assert_equal '1', %q( class C def C.m() 7 end private_class_method :m end begin C.m; rescue NoMethodError; 1 end ) assert_equal '1', %q( class C; def m() 1 end end C.new.m # cache class C alias mm m; private :mm end C.new.m begin C.new.mm; 7; rescue NoMethodError; 1 end ) # nested method assert_equal '1', %q( class C def m def mm() 1 end end end C.new.m C.new.mm ) assert_equal '1', %q( class C def m def mm() 1 end end end instance_eval "C.new.m; C.new.mm" ) # method_missing assert_equal ':m', %q( class C def method_missing(mid, *args) mid end end C.new.m.inspect ) assert_equal ':mm', %q( class C def method_missing(mid, *args) mid end end C.new.mm.inspect ) assert_equal '[1, 2]', %q( class C def method_missing(mid, *args) args end end C.new.m(1,2).inspect ) assert_equal '1', %q( class C def method_missing(mid, *args) yield 1 end end C.new.m {|a| a }) assert_equal 'nil', %q( class C def method_missing(mid, *args, &block) block end end C.new.m.inspect ) # send assert_equal '1', %q( class C; def m() 1 end end; C.new.__send__(:m) ) assert_equal '1', %q( class C; def m() 1 end end; C.new.send(:m) ) assert_equal '1', %q( class C; def m(a) a end end; C.new.send(:m,1) ) assert_equal '1', %q( class C; def m(a,b) a end end; C.new.send(:m,1,7) ) assert_equal '1', %q( class C; def m(x,a=1) a end end; C.new.send(:m,7) ) assert_equal '1', %q( class C; def m(x,a=7) a end end; C.new.send(:m,7,1) ) assert_equal '[1, 2]', %q( class C; def m(*a) a end end; C.new.send(:m,1,2).inspect ) assert_equal '1', %q( class C; def m() 7 end; private :m end begin C.new.public_send(:m); rescue NoMethodError; 1 end ) assert_equal '1', %q( class C; def m() 1 end; private :m end C.new.send(:m) ) # with block assert_equal '[[:ok1, :foo], [:ok2, :foo, :bar]]', %q{ class C def [](a) \$ary << [yield, a] end def []=(a, b) \$ary << [yield, a, b] end end \$ary = [] C.new[:foo, &lambda{:ok1}] C.new[:foo, &lambda{:ok2}] = :bar \$ary } # with assert_equal '[:ok1, [:ok2, 11]]', %q{ class C def [] \$ary << :ok1 10 end def []=(a) \$ary << [:ok2, a] end end \$ary = [] C.new[]+=1 \$ary } # splat and block arguments assert_equal %q{[[[:x, :y, :z], NilClass], [[1, :x, :y, :z], NilClass], [[1, 2, :x, :y, :z], NilClass], [[:obj], NilClass], [[1, :obj], NilClass], [[1, 2, :obj], NilClass], [[], Proc], [[1], Proc], [[1, 2], Proc], [[], Proc], [[1], Proc], [[1, 2], Proc], [[:x, :y, :z], Proc], [[1, :x, :y, :z], Proc], [[1, 2, :x, :y, :z], Proc]]}, %q{ def m(*args, &b) \$result << [args, b.class] end \$result = [] ary = [:x, :y, :z] obj = :obj b = Proc.new{} m(*ary) m(1,*ary) m(1,2,*ary) m(*obj) m(1,*obj) m(1,2,*obj) m(){} m(1){} m(1,2){} m(&b) m(1,&b) m(1,2,&b) m(*ary,&b) m(1,*ary,&b) m(1,2,*ary,&b) \$result } # post test assert_equal %q{[1, 2, :o1, :o2, [], 3, 4, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4)} assert_equal %q{[1, 2, 3, :o2, [], 4, 5, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5)} assert_equal %q{[1, 2, 3, 4, [], 5, 6, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6)} assert_equal %q{[1, 2, 3, 4, [5], 6, 7, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7)} assert_equal %q{[1, 2, 3, 4, [5, 6], 7, 8, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8)} assert_equal %q{[1, 2, 3, 4, [5, 6, 7], 8, 9, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9)} assert_equal %q{[1, 2, 3, 4, [5, 6, 7, 8], 9, 10, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)} assert_equal %q{[1, 2, 3, 4, [5, 6, 7, 8, 9], 10, 11, NilClass, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11)} assert_equal %q{[1, 2, :o1, :o2, [], 3, 4, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4){}} assert_equal %q{[1, 2, 3, :o2, [], 4, 5, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5){}} assert_equal %q{[1, 2, 3, 4, [], 5, 6, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6){}} assert_equal %q{[1, 2, 3, 4, [5], 6, 7, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7){}} assert_equal %q{[1, 2, 3, 4, [5, 6], 7, 8, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8){}} assert_equal %q{[1, 2, 3, 4, [5, 6, 7], 8, 9, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9){}} assert_equal %q{[1, 2, 3, 4, [5, 6, 7, 8], 9, 10, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9, 10){}} assert_equal %q{[1, 2, 3, 4, [5, 6, 7, 8, 9], 10, 11, Proc, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2, &b) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, b.class, x, y] end ; m(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11){}} assert_equal %q{[1, 2, :o1, :o2, [], 3, 4, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, x, y] end ; m(1, 2, 3, 4)} assert_equal %q{[1, 2, 3, :o2, [], 4, 5, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, x, y] end ; m(1, 2, 3, 4, 5)} assert_equal %q{[1, 2, 3, 4, [], 5, 6, nil, nil]}, %q{ def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2) x, y = :x, :y if \$foo [m1, m2, o1, o2, r, p1, p2, x, y] end ; m(1, 2, 3, 4, 5, 6)} # # super # =begin # below programs are generated by this program: BASE = <; super; end; end EOS__ tests = { %q{ def m } => %q{ C1.new.m }, # %q{ def m a } => %q{ C1.new.m 1 }, %q{ def m a a = :a } => %q{ C1.new.m 1 }, # %q{ def m a, o=:o } => %q{ C1.new.m 1 C1.new.m 1, 2 }, %q{ def m a, o=:o a = :a } => %q{ C1.new.m 1 C1.new.m 1, 2 }, %q{ def m a, o=:o o = :x } => %q{ C1.new.m 1 C1.new.m 1, 2 }, # %q{ def m a, *r } => %q{ C1.new.m 1 C1.new.m 1, 2 C1.new.m 1, 2, 3 }, %q{ def m a, *r r = [:x, :y] } => %q{ C1.new.m 1 C1.new.m 1, 2 C1.new.m 1, 2, 3 }, # %q{ def m a, o=:o, *r } => %q{ C1.new.m 1 C1.new.m 1, 2 C1.new.m 1, 2, 3 C1.new.m 1, 2, 3, 4 }, # %q{ def m a, o=:o, *r, &b } => %q{ C1.new.m 1 C1.new.m 1, 2 C1.new.m 1, 2, 3 C1.new.m 1, 2, 3, 4 C1.new.m(1){} C1.new.m(1, 2){} C1.new.m(1, 2, 3){} C1.new.m(1, 2, 3, 4){} }, # "def m(m1, m2, o1=:o1, o2=:o2, p1, p2)" => %q{ C1.new.m(1,2,3,4) C1.new.m(1,2,3,4,5) C1.new.m(1,2,3,4,5,6) }, # "def m(m1, m2, *r, p1, p2)" => %q{ C1.new.m(1,2,3,4) C1.new.m(1,2,3,4,5) C1.new.m(1,2,3,4,5,6) C1.new.m(1,2,3,4,5,6,7) C1.new.m(1,2,3,4,5,6,7,8) }, # "def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2)" => %q{ C1.new.m(1,2,3,4) C1.new.m(1,2,3,4,5) C1.new.m(1,2,3,4,5,6) C1.new.m(1,2,3,4,5,6,7) C1.new.m(1,2,3,4,5,6,7,8) C1.new.m(1,2,3,4,5,6,7,8,9) }, ### } tests.each{|setup, methods| setup = setup.dup; setup.strip! setup = BASE.gsub(//){setup} methods.split(/\n/).each{|m| m = m.dup; m.strip! next if m.empty? expr = "#{setup}; #{m}" result = eval(expr) puts "assert_equal %q{#{result.inspect}}, %q{\n#{expr}}" puts } } =end assert_equal %q{[:C0_m, [1, 2, :o1, :o2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, p1, p2); super; end; end ; C1.new.m(1,2,3,4)} assert_equal %q{[:C0_m, [1, 2, 3, :o2, 4, 5]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6)} assert_equal %q{[:C0_m, [1, :o]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [1, 2, 3]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r; super; end; end ; C1.new.m 1, 2, 3} assert_equal %q{[:C0_m, [1, 2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r; super; end; end ; C1.new.m 1, 2, 3, 4} assert_equal %q{[:C0_m, [:a]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a a = :a; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, 2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6, 7]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6,7)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6, 7, 8]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6,7,8)} assert_equal %q{[:C0_m, [1, :o]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [1, 2, 3]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m 1, 2, 3} assert_equal %q{[:C0_m, [1, 2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m 1, 2, 3, 4} assert_equal %q{[:C0_m, [1, :o]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m(1){}} assert_equal %q{[:C0_m, [1, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m(1, 2){}} assert_equal %q{[:C0_m, [1, 2, 3]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m(1, 2, 3){}} assert_equal %q{[:C0_m, [1, 2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o, *r, &b; super; end; end ; C1.new.m(1, 2, 3, 4){}} assert_equal %q{[:C0_m, [1, :x]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o o = :x; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, :x]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o o = :x; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [:a, :o]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o a = :a; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [:a, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o a = :a; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [1]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, :x, :y]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r r = [:x, :y]; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, :x, :y]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r r = [:x, :y]; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [1, :x, :y]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r r = [:x, :y]; super; end; end ; C1.new.m 1, 2, 3} assert_equal %q{[:C0_m, [1, 2, :o1, :o2, 3, 4]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4)} assert_equal %q{[:C0_m, [1, 2, 3, :o2, 4, 5]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6, 7]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6,7)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6, 7, 8]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6,7,8)} assert_equal %q{[:C0_m, [1, 2, 3, 4, 5, 6, 7, 8, 9]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m(m1, m2, o1=:o1, o2=:o2, *r, p1, p2); super; end; end ; C1.new.m(1,2,3,4,5,6,7,8,9)} assert_equal %q{[:C0_m, [1]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:C0_m, [1, 2, 3]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, *r; super; end; end ; C1.new.m 1, 2, 3} assert_equal %q{[:C0_m, []]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m; super; end; end ; C1.new.m} assert_equal %q{[:C0_m, [1, :o]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o; super; end; end ; C1.new.m 1} assert_equal %q{[:C0_m, [1, 2]]}, %q{ class C0; def m *args; [:C0_m, args]; end; end class C1 < C0; def m a, o=:o; super; end; end ; C1.new.m 1, 2} assert_equal %q{[:ok, :ok, :ok, :ok, :ok, :ok, :ng, :ng]}, %q{ \$ans = [] class Foo def m end end c1 = c2 = nil lambda{ \$SAFE = 4 c1 = Class.new{ def m end } c2 = Class.new(Foo){ alias mm m } }.call def test begin yield rescue SecurityError \$ans << :ok else \$ans << :ng end end o1 = c1.new o2 = c2.new test{o1.m} test{o2.mm} test{o1.send :m} test{o2.send :mm} test{o1.public_send :m} test{o2.public_send :mm} test{o1.method(:m).call} test{o2.method(:mm).call} \$ans } assert_equal 'ok', %q{ class C def x=(n) end def m self.x = :ok end end C.new.m } assert_equal 'ok', %q{ proc{ \$SAFE = 1 class C def m :ok end end }.call C.new.m }, '[ruby-core:11998]' assert_equal 'ok', %q{ proc{ \$SAFE = 2 class C def m :ok end end }.call C.new.m }, '[ruby-core:11998]' assert_equal 'ok', %q{ proc{ \$SAFE = 3 class C def m :ng end end }.call begin C.new.m rescue SecurityError :ok end }, '[ruby-core:11998]' assert_equal 'ok', %q{ class B def m() :fail end end class C < B undef m begin remove_method :m rescue NameError end end begin C.new.m rescue NameError :ok end }, '[ruby-dev:31816], [ruby-dev:31817]' assert_normal_exit %q{ begin Process.setrlimit(Process::RLIMIT_STACK, 4_202_496) # FreeBSD fails this less than 4M + 8K bytes. rescue Exception exit end class C attr "a" * (10*1024*1024) end }, '[ruby-dev:31818]' assert_equal 'ok', %q{ class Module def define_method2(name, &block) define_method(name, &block) end end class C define_method2(:m) {|x, y| :fail } end begin C.new.m([1,2]) rescue ArgumentError :ok end } assert_not_match /method_missing/, %q{ STDERR.reopen(STDOUT) variable_or_mehtod_not_exist } assert_equal '[false, false, false, false, true, true]', %q{ class C define_method(:foo) { block_given? } end C.new.foo {} class D def foo D.module_eval{ define_method(:m1){ block_given? } } end def bar D.module_eval{ define_method(:m2){ block_given? } } end end D.new.foo D.new.bar{} [C.new.foo, C.new.foo{}, D.new.m1, D.new.m1{}, D.new.m2, D.new.m2{}] }, '[ruby-core:14813]' assert_equal 'ok', %q{ class Foo define_method(:foo) do |&b| b.call end end Foo.new.foo do break :ok end }, '[ruby-dev:36028]' assert_equal '[1, 2, [3, 4]]', %q{ def regular(a, b, *c) [a, b, c] end regular(*[], 1, *[], *[2, 3], *[], 4) }, '[ruby-core:19413]' assert_equal '[1, [:foo, 3, 4, :foo]]', %q{ def regular(a, *b) [a, b] end a = b = [:foo] regular(1, *a, *[3, 4], *b) } assert_equal '["B", "A"]', %q{ class A def m 'A' end end class B < A define_method(:m) do ['B', super()] end end class C < B end C.new.m } assert_equal 'ok', %q{ module Foo def foo begin super rescue NoMethodError :ok end end module_function :foo end Foo.foo }, '[ruby-dev:37587]' assert_equal 'Object#foo', %q{ class Object def self.foo "Object.foo" end def foo "Object#foo" end end module Foo def foo begin super rescue NoMethodError :ok end end module_function :foo end Foo.foo }, '[ruby-dev:37587]'