require 'test/unit' require 'set' class TC_Set < Test::Unit::TestCase def test_aref assert_nothing_raised { Set[] Set[nil] Set[1,2,3] } assert_equal(0, Set[].size) assert_equal(1, Set[nil].size) assert_equal(1, Set[[]].size) assert_equal(1, Set[[nil]].size) set = Set[2,4,6,4] assert_equal(Set.new([2,4,6]), set) end def test_s_new assert_nothing_raised { Set.new() Set.new(nil) Set.new([]) Set.new([1,2]) Set.new('a'..'c') } assert_raises(ArgumentError) { Set.new(false) } assert_raises(ArgumentError) { Set.new(1) } assert_raises(ArgumentError) { Set.new(1,2) } assert_equal(0, Set.new().size) assert_equal(0, Set.new(nil).size) assert_equal(0, Set.new([]).size) assert_equal(1, Set.new([nil]).size) ary = [2,4,6,4] set = Set.new(ary) ary.clear assert_equal(false, set.empty?) assert_equal(3, set.size) ary = [1,2,3] s = Set.new(ary) { |o| o * 2 } assert_equal([2,4,6], s.sort) end def test_clone set1 = Set.new set2 = set1.clone set1 << 'abc' assert_equal(Set.new, set2) end def test_dup set1 = Set[1,2] set2 = set1.dup assert_not_same(set1, set2) assert_equal(set1, set2) set1.add(3) assert_not_equal(set1, set2) end def test_size assert_equal(0, Set[].size) assert_equal(2, Set[1,2].size) assert_equal(2, Set[1,2,1].size) end def test_empty? assert_equal(true, Set[].empty?) assert_equal(false, Set[1, 2].empty?) end def test_clear set = Set[1,2] ret = set.clear assert_same(set, ret) assert_equal(true, set.empty?) end def test_replace set = Set[1,2] ret = set.replace('a'..'c') assert_same(set, ret) assert_equal(Set['a','b','c'], set) end def test_to_a set = Set[1,2,3,2] ary = set.to_a assert_equal([1,2,3], ary.sort) end def test_flatten # test1 set1 = Set[ 1, Set[ 5, Set[7, Set[0] ], Set[6,2], 1 ], 3, Set[3,4] ] set2 = set1.flatten set3 = Set.new(0..7) assert_not_same(set2, set1) assert_equal(set3, set2) # test2; destructive orig_set1 = set1 set1.flatten! assert_same(orig_set1, set1) assert_equal(set3, set1) # test3; multiple occurrences of a set in an set set1 = Set[1, 2] set2 = Set[set1, Set[set1, 4], 3] assert_nothing_raised { set2.flatten! } assert_equal(Set.new(1..4), set2) # test4; recursion set2 = Set[] set1 = Set[1, set2] set2.add(set1) assert_raises(ArgumentError) { set1.flatten! } # test5; miscellaneous empty = Set[] set = Set[Set[empty, "a"],Set[empty, "b"]] assert_nothing_raised { set.flatten } set1 = empty.merge(Set["no_more", set]) assert_nil(Set.new(0..31).flatten!) x = Set[Set[],Set[1,2]].flatten! y = Set[1,2] assert_equal(x, y) end def test_include? set = Set[1,2,3] assert_equal(true, set.include?(1)) assert_equal(true, set.include?(2)) assert_equal(true, set.include?(3)) assert_equal(false, set.include?(0)) assert_equal(false, set.include?(nil)) set = Set["1",nil,"2",nil,"0","1",false] assert_equal(true, set.include?(nil)) assert_equal(true, set.include?(false)) assert_equal(true, set.include?("1")) assert_equal(false, set.include?(0)) assert_equal(false, set.include?(true)) end def test_superset? set = Set[1,2,3] assert_raises(ArgumentError) { set.superset?() } assert_raises(ArgumentError) { set.superset?(2) } assert_raises(ArgumentError) { set.superset?([2]) } assert_equal(true, set.superset?(Set[])) assert_equal(true, set.superset?(Set[1,2])) assert_equal(true, set.superset?(Set[1,2,3])) assert_equal(false, set.superset?(Set[1,2,3,4])) assert_equal(false, set.superset?(Set[1,4])) assert_equal(true, set >= Set[1,2,3]) assert_equal(true, set >= Set[1,2]) assert_equal(true, Set[].superset?(Set[])) end def test_proper_superset? set = Set[1,2,3] assert_raises(ArgumentError) { set.proper_superset?() } assert_raises(ArgumentError) { set.proper_superset?(2) } assert_raises(ArgumentError) { set.proper_superset?([2]) } assert_equal(true, set.proper_superset?(Set[])) assert_equal(true, set.proper_superset?(Set[1,2])) assert_equal(false, set.proper_superset?(Set[1,2,3])) assert_equal(false, set.proper_superset?(Set[1,2,3,4])) assert_equal(false, set.proper_superset?(Set[1,4])) assert_equal(false, set > Set[1,2,3]) assert_equal(true, set > Set[1,2]) assert_equal(false, Set[].proper_superset?(Set[])) end def test_subset? set = Set[1,2,3] assert_raises(ArgumentError) { set.subset?() } assert_raises(ArgumentError) { set.subset?(2) } assert_raises(ArgumentError) { set.subset?([2]) } assert_equal(true, set.subset?(Set[1,2,3,4])) assert_equal(true, set.subset?(Set[1,2,3])) assert_equal(false, set.subset?(Set[1,2])) assert_equal(false, set.subset?(Set[])) assert_equal(true, set <= Set[1,2,3]) assert_equal(true, set <= Set[1,2,3,4]) assert_equal(true, Set[].subset?(Set[1])) assert_equal(true, Set[].subset?(Set[])) end def test_proper_subset? set = Set[1,2,3] assert_raises(ArgumentError) { set.proper_subset?() } assert_raises(ArgumentError) { set.proper_subset?(2) } assert_raises(ArgumentError) { set.proper_subset?([2]) } assert_equal(true, set.proper_subset?(Set[1,2,3,4])) assert_equal(false, set.proper_subset?(Set[1,2,3])) assert_equal(false, set.proper_subset?(Set[1,2])) assert_equal(false, set.proper_subset?(Set[])) assert_equal(false, set < Set[1,2,3]) assert_equal(true, set < Set[1,2,3,4]) assert_equal(false, Set[].proper_subset?(Set[])) end def test_each ary = [1,3,5,7,10,20] set = Set.new(ary) ret = set.each { |o| } assert_same(set, ret) e = set.each assert_instance_of(Enumerator, e) assert_nothing_raised { set.each { |o| ary.delete(o) or raise "unexpected element: #{o}" } ary.empty? or raise "forgotten elements: #{ary.join(', ')}" } end def test_add set = Set[1,2,3] ret = set.add(2) assert_same(set, ret) assert_equal(Set[1,2,3], set) ret = set.add?(2) assert_nil(ret) assert_equal(Set[1,2,3], set) ret = set.add(4) assert_same(set, ret) assert_equal(Set[1,2,3,4], set) ret = set.add?(5) assert_same(set, ret) assert_equal(Set[1,2,3,4,5], set) end def test_delete set = Set[1,2,3] ret = set.delete(4) assert_same(set, ret) assert_equal(Set[1,2,3], set) ret = set.delete?(4) assert_nil(ret) assert_equal(Set[1,2,3], set) ret = set.delete(2) assert_equal(set, ret) assert_equal(Set[1,3], set) ret = set.delete?(1) assert_equal(set, ret) assert_equal(Set[3], set) end def test_delete_if set = Set.new(1..10) ret = set.delete_if { |i| i > 10 } assert_same(set, ret) assert_equal(Set.new(1..10), set) set = Set.new(1..10) ret = set.delete_if { |i| i % 3 == 0 } assert_same(set, ret) assert_equal(Set[1,2,4,5,7,8,10], set) end def test_keep_if set = Set.new(1..10) ret = set.keep_if { |i| i <= 10 } assert_same(set, ret) assert_equal(Set.new(1..10), set) set = Set.new(1..10) ret = set.keep_if { |i| i % 3 != 0 } assert_same(set, ret) assert_equal(Set[1,2,4,5,7,8,10], set) end def test_collect! set = Set[1,2,3,'a','b','c',-1..1,2..4] ret = set.collect! { |i| case i when Numeric i * 2 when String i.upcase else nil end } assert_same(set, ret) assert_equal(Set[2,4,6,'A','B','C',nil], set) end def test_reject! set = Set.new(1..10) ret = set.reject! { |i| i > 10 } assert_nil(ret) assert_equal(Set.new(1..10), set) ret = set.reject! { |i| i % 3 == 0 } assert_same(set, ret) assert_equal(Set[1,2,4,5,7,8,10], set) end def test_merge set = Set[1,2,3] ret = set.merge([2,4,6]) assert_same(set, ret) assert_equal(Set[1,2,3,4,6], set) end def test_subtract set = Set[1,2,3] ret = set.subtract([2,4,6]) assert_same(set, ret) assert_equal(Set[1,3], set) end def test_plus set = Set[1,2,3] ret = set + [2,4,6] assert_not_same(set, ret) assert_equal(Set[1,2,3,4,6], ret) end def test_minus set = Set[1,2,3] ret = set - [2,4,6] assert_not_same(set, ret) assert_equal(Set[1,3], ret) end def test_and set = Set[1,2,3,4] ret = set & [2,4,6] assert_not_same(set, ret) assert_equal(Set[2,4], ret) end def test_xor set = Set[1,2,3,4] ret = set ^ [2,4,5,5] assert_not_same(set, ret) assert_equal(Set[1,3,5], ret) end def test_eq set1 = Set[2,3,1] set2 = Set[1,2,3] assert_equal(set1, set1) assert_equal(set1, set2) assert_not_equal(Set[1], [1]) set1 = Class.new(Set)["a", "b"] set2 = Set["a", "b", set1] set1 = set1.add(set1.clone) # assert_equal(set1, set2) # assert_equal(set2, set1) assert_equal(set2, set2.clone) assert_equal(set1.clone, set1) assert_not_equal(Set[Exception.new,nil], Set[Exception.new,Exception.new], "[ruby-dev:26127]") end # def test_hash # end # def test_eql? # end def test_classify set = Set.new(1..10) ret = set.classify { |i| i % 3 } assert_equal(3, ret.size) assert_instance_of(Hash, ret) ret.each_value { |value| assert_instance_of(Set, value) } assert_equal(Set[3,6,9], ret[0]) assert_equal(Set[1,4,7,10], ret[1]) assert_equal(Set[2,5,8], ret[2]) end def test_divide set = Set.new(1..10) ret = set.divide { |i| i % 3 } assert_equal(3, ret.size) n = 0 ret.each { |s| n += s.size } assert_equal(set.size, n) assert_equal(set, ret.flatten) set = Set[7,10,5,11,1,3,4,9,0] ret = set.divide { |a,b| (a - b).abs == 1 } assert_equal(4, ret.size) n = 0 ret.each { |s| n += s.size } assert_equal(set.size, n) assert_equal(set, ret.flatten) ret.each { |s| if s.include?(0) assert_equal(Set[0,1], s) elsif s.include?(3) assert_equal(Set[3,4,5], s) elsif s.include?(7) assert_equal(Set[7], s) elsif s.include?(9) assert_equal(Set[9,10,11], s) else raise "unexpected group: #{s.inspect}" end } end def test_taintness orig = set = Set[1,2,3] assert_equal false, set.tainted? assert_same orig, set.taint assert_equal true, set.tainted? assert_same orig, set.untaint assert_equal false, set.tainted? end def test_freeze orig = set = Set[1,2,3] assert_equal false, set.frozen? set << 4 assert_same orig, set.freeze assert_equal true, set.frozen? assert_raises(RuntimeError) { set << 5 } assert_equal 4, set.size end def test_inspect set1 = Set[1] assert_equal('#', set1.inspect) set2 = Set[Set[0], 1, 2, set1] assert_equal(false, set2.inspect.include?('#')) set1.add(set2) assert_equal(true, set1.inspect.include?('#')) end # def test_pretty_print # end # def test_pretty_print_cycle # end end class TC_SortedSet < Test::Unit::TestCase def test_sortedset s = SortedSet[4,5,3,1,2] assert_equal([1,2,3,4,5], s.to_a) prev = nil s.each { |o| assert(prev < o) if prev; prev = o } assert_not_nil(prev) s.map! { |o| -2 * o } assert_equal([-10,-8,-6,-4,-2], s.to_a) prev = nil ret = s.each { |o| assert(prev < o) if prev; prev = o } assert_not_nil(prev) assert_same(s, ret) s = SortedSet.new([2,1,3]) { |o| o * -2 } assert_equal([-6,-4,-2], s.to_a) s = SortedSet.new(['one', 'two', 'three', 'four']) a = [] ret = s.delete_if { |o| a << o; o.start_with?('t') } assert_same(s, ret) assert_equal(['four', 'one'], s.to_a) assert_equal(['four', 'one', 'three', 'two'], a) s = SortedSet.new(['one', 'two', 'three', 'four']) a = [] ret = s.reject! { |o| a << o; o.start_with?('t') } assert_same(s, ret) assert_equal(['four', 'one'], s.to_a) assert_equal(['four', 'one', 'three', 'two'], a) s = SortedSet.new(['one', 'two', 'three', 'four']) a = [] ret = s.reject! { |o| a << o; false } assert_same(nil, ret) assert_equal(['four', 'one', 'three', 'two'], s.to_a) assert_equal(['four', 'one', 'three', 'two'], a) end end class TC_Enumerable < Test::Unit::TestCase def test_to_set ary = [2,5,4,3,2,1,3] set = ary.to_set assert_instance_of(Set, set) assert_equal([1,2,3,4,5], set.sort) set = ary.to_set { |o| o * -2 } assert_instance_of(Set, set) assert_equal([-10,-8,-6,-4,-2], set.sort) set = ary.to_set(SortedSet) assert_instance_of(SortedSet, set) assert_equal([1,2,3,4,5], set.to_a) set = ary.to_set(SortedSet) { |o| o * -2 } assert_instance_of(SortedSet, set) assert_equal([-10,-8,-6,-4,-2], set.sort) end end # class TC_RestricedSet < Test::Unit::TestCase # def test_s_new # assert_raises(ArgumentError) { RestricedSet.new } # # s = RestricedSet.new([-1,2,3]) { |o| o > 0 } # assert_equal([2,3], s.sort) # end # # def test_restriction_proc # s = RestricedSet.new([-1,2,3]) { |o| o > 0 } # # f = s.restriction_proc # assert_instance_of(Proc, f) # assert(f[1]) # assert(!f[0]) # end # # def test_replace # s = RestricedSet.new(-3..3) { |o| o > 0 } # assert_equal([1,2,3], s.sort) # # s.replace([-2,0,3,4,5]) # assert_equal([3,4,5], s.sort) # end # # def test_merge # s = RestricedSet.new { |o| o > 0 } # s.merge(-5..5) # assert_equal([1,2,3,4,5], s.sort) # # s.merge([10,-10,-8,8]) # assert_equal([1,2,3,4,5,8,10], s.sort) # end # end