## # Numeric ISO Test assert('Numeric', '15.2.7') do assert_equal(Class, Numeric.class) end assert('Numeric#+@', '15.2.7.4.1') do assert_equal(+1, +1) end assert('Numeric#-@', '15.2.7.4.2') do assert_equal(-1, -1) end assert('Numeric#abs', '15.2.7.4.3') do assert_equal(1, 1.abs) skip unless Object.const_defined?(:Float) assert_equal(1.0, -1.abs) end assert('Numeric#/', '15.2.8.3.4') do n = Class.new(Numeric){ def /(x); 15.1;end }.new assert_equal(2, 10/5) assert_equal(0.0625, 1/16) assert_equal(15.1, n/10) assert_raise(TypeError){ 1/n } assert_raise(TypeError){ 1/nil } end # Not ISO specified assert('Numeric#**') do assert_equal(8, 2 ** 3) assert_equal(-8, -2 ** 3) assert_equal(1, 2 ** 0) skip unless Object.const_defined?(:Float) assert_equal(1.0, 2.2 ** 0) assert_equal(0.5, 2 ** -1) assert_equal(8.0, 2.0**3) end assert('Numeric#step') do assert_step = ->(exp, receiver, args) do inf = !args[0] act = [] ret = receiver.step(*args) do |i| act << i break if inf && exp.size == act.size end expr = "#{receiver.inspect}.step(#{args.map(&:inspect).join(', ')})" assert_true(exp.eql?(act), "#{expr}: counters", assertion_diff(exp, act)) assert_same(receiver, ret, "#{expr}: return value") unless inf end assert_raise(ArgumentError) { 1.step(2, 0) { break } } assert_step.([2, 3, 4], 2, [4]) assert_step.([10, 8, 6, 4, 2], 10, [1, -2]) assert_step.([], 2, [1, 3]) assert_step.([], -2, [-1, -3]) assert_step.([10, 11, 12, 13], 10, []) assert_step.([10, 7, 4], 10, [nil, -3]) skip unless Object.const_defined?(:Float) assert_raise(ArgumentError) { 1.step(2, 0.0) { break } } assert_step.([2.0, 3.0, 4.0], 2, [4.0]) assert_step.([7.0, 4.0, 1.0, -2.0], 7, [-4, -3.0]) assert_step.([2.0, 3.0, 4.0], 2.0, [4]) assert_step.([10.0, 11.0, 12.0, 13.0], 10.0, []) assert_step.([10.0, 7.0, 4.0], 10, [nil, -3.0]) end