From 2ccc4304cd0a1cb12c68bc1d512f5d28bfe9563a Mon Sep 17 00:00:00 2001 From: tadf Date: Fri, 29 Aug 2008 15:38:09 +0000 Subject: [PATCH] removed some lines which gain the score of coverage. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18927 b2dd03c8-39d4-4d8f-98ff-823fe69b080e --- test/ruby/test_complex.rb | 126 ------------------------------------- test/ruby/test_rational.rb | 104 ------------------------------ 2 files changed, 230 deletions(-) diff --git a/test/ruby/test_complex.rb b/test/ruby/test_complex.rb index 786451febc..9f3f58eb85 100644 --- a/test/ruby/test_complex.rb +++ b/test/ruby/test_complex.rb @@ -1028,132 +1028,6 @@ class Complex_Test < Test::Unit::TestCase end -=begin - def test_canonicalize - f = defined?(Complex::Unify) - Complex.const_set(:Unify, true) unless f - - assert_same(1, Complex.instance_eval { new(1, 0) }) - assert_not_same(1.0, Complex.instance_eval { new(1.0, 0) }) - assert_equal(Complex(1.0, 0), Complex.instance_eval { new(1.0, 0) }) - - Complex.instance_eval { remove_const(:Unify) } unless f - end - - def test_polar - c = Complex.polar(2, 2) - assert_in_delta(2*Math.cos(2), c.real , 0.001) - assert_in_delta(2*Math.sin(2), c.image, 0.001) - - c = Complex.polar(1, Complex(0, 1)) - assert_in_delta(1/Math::E, c.real , 0.001) - assert_in_delta( 0, c.image, 0.001) - end - - def test_generic? - assert_equal(true, Complex.generic?(1)) - assert_equal(true, Complex.generic?(2**100)) - assert_equal(true, Complex.generic?(Rational(1, 2))) - assert_equal(true, Complex.generic?(1.0)) - assert_equal(false, Complex.generic?(Complex(1, 1))) - end - - def test_new_bang2 - o = Object.new - def o.to_i; 1; end - assert_equal(Complex(1, 1), Complex.instance_eval { new!(o, o) }) - end - - def test_denominator - f = defined?(Complex::Unify) - unify_val = f && Complex::Unify - Complex.instance_eval { remove_const(:Unify) } if f - - dummy_rational = Class.new(Rational) - o1 = dummy_rational.instance_eval { new(1, 1) } - o2 = dummy_rational.instance_eval { new(1, 1) } - d1 = d2 = nil - class << o1; self; end.instance_eval { define_method(:denominator) { d1 } rescue nil } - class << o2; self; end.instance_eval { define_method(:denominator) { d2 } rescue nil } - # o1.denominator returns d1 and o1.denominator returns d2 - - c = Complex(o1, o2) - - d1 = d2 = 0 - assert_equal(0, c.denominator) - - d1 = d2 = -1 - assert_equal(1, c.denominator) - - d1 = d2 = 256 - assert_equal(256, c.denominator) - - d1, d2 = 512, 256 - assert_equal(512, c.denominator) - - d1, d2 = 256, 512 - assert_equal(512, c.denominator) - - d1, d2 = -(2**100), -(3**100) - assert_equal(6**100, c.denominator) - - d1, d2 = 1, 2**100 - assert_equal(2**100, c.denominator) - - Complex.const_set(:Unify, unify_val) if f - end - - def test_abs - b = 2**100 - def b.*(x); self; end rescue nil - def b.+(x); -1; end rescue nil - assert_equal(Complex(0, 1), Complex(b, 1).abs) - - def b.+(x); Complex(0, 1); end rescue nil - c = Complex(b, 1).abs - assert_in_delta(1/Math.sqrt(2), c.real , 0.001) - assert_in_delta(1/Math.sqrt(2), c.image, 0.001) - - def b.+(x); Complex(0, -1); end rescue nil - c = Complex(b, 1).abs - assert_in_delta( 1/Math.sqrt(2), c.real , 0.001) - assert_in_delta(-1/Math.sqrt(2), c.image, 0.001) - - inf = 1.0/0.0 - nan = inf/inf - assert_raise(Errno::EDOM, Errno::ERANGE) { Complex(1, nan).abs } - end - - def test_coerce - c = Complex(6, 3) - assert_equal(Complex(42, 0), c.coerce(42).first) - assert_raise(TypeError) { c.coerce(Object.new) } - - o = Object.new - def o.coerce(x); [x.real, x.image]; end - assert_equal(9, c + o) - assert_equal(3, c - o) - assert_equal(18, c * o) - assert_equal(2, c / o) - assert_equal(216, c ** o) - end - - def test_add2 - assert_equal(Complex(2**100, 1), Complex(0, 1) + 2**100) - end - - def test_mul2 - assert_equal(Complex(0.0, 0.0), Complex(1.0, 1.0) * 0) - assert_equal(Complex(0, 0), Complex(0, 0) * (2**100)) - end - - def test_expt2 - assert_equal(Complex(1, 0), Complex(2, 2) ** 0) - assert_equal(Complex(0, -1), Complex(0, 1) ** (2**100-1)) - assert_equal(Complex(1, 0), Complex(1, 0) ** Rational(1, 2**100)) - end -=end - def test_fixed_bug if defined?(Rational) && !Rational.instance_variable_get('@RCS_ID') assert_equal(Complex(1), 1 ** Complex(1)) diff --git a/test/ruby/test_rational.rb b/test/ruby/test_rational.rb index b979da91d8..ece44a9051 100644 --- a/test/ruby/test_rational.rb +++ b/test/ruby/test_rational.rb @@ -1063,110 +1063,6 @@ class Rational_Test < Test::Unit::TestCase assert_equal(0.25, Rational(1,2).fdiv(2)) end -=begin - def test_zero_div - assert_raise(ZeroDivisionError) { Rational(1, 0) } - assert_raise(ZeroDivisionError) { Rational(1, 1) / 0 } - end - - def test_gcd - assert_equal(0, Rational(0, 2**100)) - end - - def test_unify2 - f = defined?(Rational::Unify) - Rational.const_set(:Unify, true) unless f - - assert_same(42, Rational(84, 2)) - assert_same(1, Rational(1, 2) + Rational(1, 2)) - - Rational.instance_eval { remove_const(:Unify) } unless f - end - - def test_coerce - r = Rational(7, 3) - assert_equal(Rational(42, 1), r.coerce(42).first) - assert_raise(TypeError) { r.coerce(Object.new) } - - o = Object.new - def o.coerce(x); [x.numerator, x.denominator]; end - assert_equal(10, r + o) - assert_equal(4, r - o) - assert_equal(21, r * o) - assert_equal(2, r / o) - assert_equal(343, r ** o) - assert_equal(1, r <=> o) - - b = 2**100 - def b.<=>(x); 0; end rescue nil - assert_equal(1, r ** b) - b = 2**100 - def b.**(x); -1; end rescue nil - assert_equal(-1, Rational(1, b)**3) - end - - def test_modulo_remainder - assert_equal(Rational(1, 2), Rational(5, 2).modulo(1)) - assert_equal(Rational(1, 2), Rational(5, 2).modulo(2)) - assert_equal(Rational(5, 2), Rational(5, 2).modulo(3)) - assert_equal(Rational(5, 6), Rational(5, 2).modulo(Rational(5, 3))) - assert_equal(Rational(1, 2), Rational(-5, 2).modulo(1)) - assert_equal(Rational(-1, 2), Rational(5, 2).modulo(-1)) - assert_equal(Rational(-1, 2), Rational(-5, 2).modulo(-1)) - - assert_equal(Rational(1, 2), Rational(5, 2).remainder(1)) - assert_equal(Rational(1, 2), Rational(5, 2).remainder(2)) - assert_equal(Rational(5, 2), Rational(5, 2).remainder(3)) - assert_equal(Rational(5, 6), Rational(5, 2).remainder(Rational(5, 3))) - assert_equal(Rational(-1, 2), Rational(-5, 2).remainder(1)) - assert_equal(Rational(1, 2), Rational(5, 2).remainder(-1)) - assert_equal(Rational(-1, 2), Rational(-5, 2).remainder(-1)) - end - - def test_abs - assert_equal(Rational(1, 2), Rational(1, 2).abs) - assert_equal(Rational(1, 2), Rational(-1, 2).abs) - end - - def test_floor_ceil_truncate_round - assert_equal( 2, Rational( 5, 2).floor) - assert_equal(-3, Rational(-5, 2).floor) - assert_equal( 3, Rational( 5, 2).ceil) - assert_equal(-2, Rational(-5, 2).ceil) - assert_equal( 2, Rational( 5, 2).truncate) - assert_equal(-2, Rational(-5, 2).truncate) - assert_equal( 3, Rational( 5, 2).round) - assert_equal(-3, Rational(-5, 2).round) - assert_equal( 1, Rational( 4, 3).round) - assert_equal(-1, Rational(-4, 3).round) - assert_equal( 2, Rational( 5, 3).round) - assert_equal(-2, Rational(-5, 3).round) - end - - def test_convert - assert_equal(Rational(1, 2), Rational(Complex(1, 0), 2)) - assert_raise(RangeError) { Rational(Complex(1, 1), 1) } - assert_equal(Rational(1, 2), Rational(1, Complex(2, 0))) - assert_raise(RangeError) { Rational(1, Complex(2, 1)) } - assert_equal(Rational(1, 2), Rational(0.25, 0.5)) - assert_equal(Rational(1, 2), Rational('1', '2')) - end - - def test_add2 - assert_equal(Rational(2**100, 3), Rational(0, 1) + Rational(2**100, 3)) - assert_equal(Rational(2, 3**100), Rational(0, 1) + Rational(2, 3**100)) - end - - def test_div2 - assert_raise(ZeroDivisionError) { Rational(1, 1) / Rational(0, 1) } - end - - def test_to_f2 - assert_equal(1, Rational(2**5000,3).to_f.infinite?) - assert_equal(0, Rational(1, 2**5000).to_f) - end -=end - def test_fixed_bug if defined?(Rational::Unify) assert_instance_of(Fixnum, Rational(1,2) ** 0) # mathn's bug