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|
require "spec"
require "complex"
require "../support/number"
{% unless flag?(:wasm32) %}
require "big"
{% end %}
# exact equality, including component signs
private def assert_complex_eq(z1 : Complex, z2 : Complex, *, file = __FILE__, line = __LINE__)
z1.should eq(z2), file: file, line: line
Math.copysign(1.0, z1.real).should eq(Math.copysign(1.0, z2.real)), file: file, line: line
Math.copysign(1.0, z1.imag).should eq(Math.copysign(1.0, z2.imag)), file: file, line: line
end
private def assert_complex_nan(z : Complex, *, file = __FILE__, line = __LINE__)
z.real.nan?.should be_true, file: file, line: line
z.imag.nan?.should be_true, file: file, line: line
end
describe "Complex" do
describe "as numbers" do
it_can_convert_between([Complex], [Complex])
it_can_convert_between({{BUILTIN_NUMBER_TYPES}}, [Complex])
it_can_convert_between([Complex], {{BUILTIN_NUMBER_TYPES}})
division_between_returns {{BUILTIN_NUMBER_TYPES}}, [Complex], Complex
division_between_returns [Complex], {{BUILTIN_NUMBER_TYPES}}, Complex
division_between_returns [Complex], [Complex], Complex
end
it "i" do
a = 4.5 + 6.7.i
b = Complex.new(4.5, 6.7)
c = Complex.new(4.5, 9.6)
a.should eq(b)
a.should_not eq(c)
end
describe "==" do
it "complex == complex" do
a = Complex.new(1.5, 2)
b = Complex.new(1.5, 2)
c = Complex.new(2.25, 3)
(a == b).should be_true
(a == c).should be_false
end
it "complex == number" do
a = Complex.new(5.3, 0)
b = 5.3
c = 4.2
(a == b).should be_true
(a == c).should be_false
{% unless flag?(:wasm32) %}
(a == BigDecimal.new(53, 1)).should be_false
{% end %}
end
it "number == complex" do
a = -1.75
b = Complex.new(-1.75, 0)
c = Complex.new(7.2, 0)
(a == b).should be_true
(a == c).should be_false
{% unless flag?(:wasm32) %}
(BigDecimal.new(72, 1) == c).should be_false
{% end %}
end
end
it "to_s" do
Complex.new(1.25, 8.2).to_s.should eq("1.25 + 8.2i")
Complex.new(1.25, -8.2).to_s.should eq("1.25 - 8.2i")
Complex.new(+0.0, +0.0).to_s.should eq("0.0 + 0.0i")
Complex.new(-0.0, -0.0).to_s.should eq("-0.0 - 0.0i")
Complex.new(+Float64::INFINITY, +Float64::INFINITY).to_s.should eq("Infinity + Infinityi")
Complex.new(-Float64::INFINITY, -Float64::INFINITY).to_s.should eq("-Infinity - Infinityi")
pos_nan = Math.copysign(Float64::NAN, 1)
neg_nan = Math.copysign(Float64::NAN, -1)
Complex.new(pos_nan, pos_nan).to_s.should eq("NaN + NaNi")
Complex.new(neg_nan, neg_nan).to_s.should eq("NaN + NaNi")
end
it "inspect" do
Complex.new(1.25, 8.2).inspect.should eq("(1.25 + 8.2i)")
Complex.new(1.25, -8.2).inspect.should eq("(1.25 - 8.2i)")
Complex.new(+0.0, +0.0).inspect.should eq("(0.0 + 0.0i)")
Complex.new(-0.0, -0.0).inspect.should eq("(-0.0 - 0.0i)")
Complex.new(+Float64::INFINITY, +Float64::INFINITY).inspect.should eq("(Infinity + Infinityi)")
Complex.new(-Float64::INFINITY, -Float64::INFINITY).inspect.should eq("(-Infinity - Infinityi)")
pos_nan = Math.copysign(Float64::NAN, 1)
neg_nan = Math.copysign(Float64::NAN, -1)
Complex.new(pos_nan, pos_nan).inspect.should eq("(NaN + NaNi)")
Complex.new(neg_nan, neg_nan).inspect.should eq("(NaN + NaNi)")
end
it "abs" do
Complex.new(5.1, 9.7).abs.should eq(10.959014554237985)
end
it "abs2" do
Complex.new(-1.1, 9).abs2.should eq(82.21)
end
describe "sign" do
it "finite, non-zero" do
Complex.new(-1.4, 7.7).sign.should be_close(Complex.new(-0.17888543819998315, 0.9838699100999074), 1e-14)
Complex.new(1.4, -7.7).sign.should be_close(Complex.new(0.17888543819998315, -0.9838699100999074), 1e-14)
end
it "complex zero" do
assert_complex_eq Complex.new(+0.0, +0.0).sign, Complex.new(+0.0, +0.0)
assert_complex_eq Complex.new(+0.0, -0.0).sign, Complex.new(+0.0, -0.0)
assert_complex_eq Complex.new(-0.0, +0.0).sign, Complex.new(-0.0, +0.0)
assert_complex_eq Complex.new(-0.0, -0.0).sign, Complex.new(-0.0, -0.0)
end
it "real zero" do
assert_complex_eq Complex.new(+0.0, +2.0).sign, Complex.new(+0.0, +1.0)
assert_complex_eq Complex.new(+0.0, -2.0).sign, Complex.new(+0.0, -1.0)
assert_complex_eq Complex.new(-0.0, +2.0).sign, Complex.new(-0.0, +1.0)
assert_complex_eq Complex.new(-0.0, -2.0).sign, Complex.new(-0.0, -1.0)
end
it "imaginary zero" do
assert_complex_eq Complex.new(+2.0, +0.0).sign, Complex.new(+1.0, +0.0)
assert_complex_eq Complex.new(+2.0, -0.0).sign, Complex.new(+1.0, -0.0)
assert_complex_eq Complex.new(-2.0, +0.0).sign, Complex.new(-1.0, +0.0)
assert_complex_eq Complex.new(-2.0, -0.0).sign, Complex.new(-1.0, -0.0)
end
it "infinity" do
inf = Float64::INFINITY
# 1st quadrant
assert_complex_eq Complex.new(+inf, +0.0).sign, Complex.new(+1.0, +0.0)
assert_complex_eq Complex.new(+inf, +1.0).sign, Complex.new(+1.0, +0.0)
assert_complex_eq Complex.new(+1.0, +inf).sign, Complex.new(+0.0, +1.0)
assert_complex_eq Complex.new(+0.0, +inf).sign, Complex.new(+0.0, +1.0)
# 2nd quadrant
assert_complex_eq Complex.new(-0.0, +inf).sign, Complex.new(-0.0, +1.0)
assert_complex_eq Complex.new(-1.0, +inf).sign, Complex.new(-0.0, +1.0)
assert_complex_eq Complex.new(-inf, +1.0).sign, Complex.new(-1.0, +0.0)
assert_complex_eq Complex.new(-inf, +0.0).sign, Complex.new(-1.0, +0.0)
# 3rd quadrant
assert_complex_eq Complex.new(-inf, -0.0).sign, Complex.new(-1.0, -0.0)
assert_complex_eq Complex.new(-inf, -1.0).sign, Complex.new(-1.0, -0.0)
assert_complex_eq Complex.new(-1.0, -inf).sign, Complex.new(-0.0, -1.0)
assert_complex_eq Complex.new(-0.0, -inf).sign, Complex.new(-0.0, -1.0)
# 4th quadrant
assert_complex_eq Complex.new(+0.0, -inf).sign, Complex.new(+0.0, -1.0)
assert_complex_eq Complex.new(+1.0, -inf).sign, Complex.new(+0.0, -1.0)
assert_complex_eq Complex.new(+inf, -1.0).sign, Complex.new(+1.0, -0.0)
assert_complex_eq Complex.new(+inf, -0.0).sign, Complex.new(+1.0, -0.0)
# diagonals
sqr = Math.sqrt(0.5)
Complex.new(+inf, +inf).sign.should be_close(Complex.new(+sqr, +sqr), 1e-14)
Complex.new(-inf, +inf).sign.should be_close(Complex.new(-sqr, +sqr), 1e-14)
Complex.new(-inf, -inf).sign.should be_close(Complex.new(-sqr, -sqr), 1e-14)
Complex.new(+inf, -inf).sign.should be_close(Complex.new(+sqr, -sqr), 1e-14)
end
it "not-a-number" do
assert_complex_nan Complex.new(Float64::NAN, +0.0).sign
assert_complex_nan Complex.new(Float64::NAN, +1.0).sign
assert_complex_nan Complex.new(Float64::NAN, Float64::INFINITY).sign
assert_complex_nan Complex.new(-0.0, Float64::NAN).sign
assert_complex_nan Complex.new(-1.0, Float64::NAN).sign
assert_complex_nan Complex.new(-Float64::INFINITY, Float64::NAN).sign
assert_complex_nan Complex.new(Float64::NAN, Float64::NAN).sign
assert_complex_nan Complex.new(Float64::NAN, Float64::NAN).sign
assert_complex_nan Complex.new(Float64::NAN, Float64::NAN).sign
assert_complex_nan Complex.new(Float64::NAN, Float64::NAN).sign
end
end
it "phase" do
Complex.new(11.5, -6.25).phase.should eq(-0.4978223326170012)
end
it "polar" do
Complex.new(7.25, -13.1).polar.should eq({14.972391258579906, -1.0653196179316864})
end
it "cis" do
{% if flag?(:aarch64) && flag?(:darwin) %}
2.4.cis.should eq(Complex.new(-0.7373937155412454, 0.6754631805511511))
{% else %}
2.4.cis.should eq(Complex.new(-0.7373937155412454, 0.675463180551151))
{% end %}
end
it "conj" do
Complex.new(10.1, 3.7).conj.should eq(Complex.new(10.1, -3.7))
end
it "inv" do
Complex.new(1.5, -2.5).inv.should eq(Complex.new(0.17647058823529413, 0.29411764705882354))
end
describe "+" do
it "+ complex" do
(+Complex.new(-5.43, -27.12)).should eq(Complex.new(-5.43, -27.12))
end
it "complex + complex" do
(Complex.new(2.2, 7) + Complex.new(10.1, 1.34)).should eq(Complex.new(12.3, 8.34))
end
it "complex + number" do
(Complex.new(0.3, 5.5) + 15).should eq(Complex.new(15.3, 5.5))
end
it "number + complex" do
(-1.7 + Complex.new(7, 4.1)).should eq(Complex.new(5.3, 4.1))
end
end
describe "-" do
it "- complex" do
(-Complex.new(5.43, 27.12)).should eq(Complex.new(-5.43, -27.12))
end
it "complex - complex" do
(Complex.new(21.7, 2.0) - Complex.new(0.15, 3.4)).should eq(Complex.new(21.55, -1.4))
end
it "complex - number" do
(Complex.new(8.1, 6.15) - 15).should eq(Complex.new(-6.9, 6.15))
end
it "number - complex" do
(-3.27 - Complex.new(7, 5.1)).should eq(Complex.new(-10.27, -5.1))
end
end
describe "*" do
it "complex * complex" do
(Complex.new(12.2, 9.8)*Complex.new(4.78, 2.86)).should eq(Complex.new(30.288, 81.736))
end
it "complex * number" do
(Complex.new(11.3, 15.25)*1.2).should eq(Complex.new(13.56, 18.3))
end
it "number * complex" do
(-1.7*Complex.new(9.7, 3.22)).should eq(Complex.new(-16.49, -5.474))
end
end
describe "/" do
it "complex / complex" do
((Complex.new(4, 6.2))/(Complex.new(0.5, 2.7))).should eq(Complex.new(2.485411140583554, -1.0212201591511936))
((Complex.new(4.1, 6.0))/(Complex.new(10, 2.2))).should eq(Complex.new(0.5169782525753529, 0.48626478443342236))
end
it "complex / number" do
((Complex.new(21.3, 5.8))/1.9).should eq(Complex.new(11.210526315789474, 3.0526315789473686))
end
it "number / complex" do
(-5.7/(Complex.new(2.27, 8.92))).should eq(Complex.new(-0.1527278908111847, 0.6001466017778712))
end
end
it "clones" do
c = Complex.new(4, 6.2)
c.clone.should eq(c)
end
it "hashes real without imag like real only" do
c = Complex.new(4, 0)
c.hash.should eq(4_f64.hash)
end
it "test zero" do
Complex.zero.should eq(Complex.new(0, 0))
end
it "test zero?" do
Complex.new(0, 0).zero?.should eq true
Complex.new(0, 3.4).zero?.should eq false
Complex.new(1.2, 0).zero?.should eq false
Complex.new(1.2, 3.4).zero?.should eq false
end
it "test additive_identity" do
Complex.additive_identity.should eq(Complex.new(0, 0))
end
it "test multiplicative_identity" do
Complex.multiplicative_identity.should eq(Complex.new(1, 0))
end
it "rounds" do
(Complex.new(1.125, 0.875).round(2)).should eq(Complex.new(1.12, 0.88))
(Complex.new(1.135, 0.865).round(2)).should eq(Complex.new(1.14, 0.86))
(Complex.new(1.125, 0.875).round(digits: 1)).should eq(Complex.new(1.1, 0.9))
end
describe "Math" do
it "exp" do
Math.exp(Complex.new(1.15, -5.1)).should be_close(Complex.new(1.1937266270566773, 2.923901365414129), 1e-15)
end
it "log" do
Math.log(Complex.new(1.25, -4.7)).should eq(Complex.new(1.5817344087982312, -1.3108561866063686))
end
it "log2" do
Math.log2(Complex.new(-9.1, 3.2)).should eq(Complex.new(3.2699671225858946, +4.044523592551345))
end
it "log10" do
Math.log10(Complex.new(2.11, 1.21)).should eq(Complex.new(0.38602142355392594, +0.22612668967405536))
end
it "sqrt" do
Math.sqrt(Complex.new(1.32, 7.25)).should be_close(Complex.new(2.0843687106374236, 1.739135682425128), 1e-15)
Math.sqrt(Complex.new(7.11, -0.9)).should be_close(Complex.new(2.671772413453534, -0.1684275194002508), 1e-15)
Math.sqrt(Complex.new(-2.2, 6.22)).should be_close(Complex.new(1.4828360708935342, 2.0973323087062226), 1e-15)
Math.sqrt(Complex.new(-8.3, -1.11)).should be_close(Complex.new(0.1922159681400434, -2.8873771797962275), 1e-15)
end
end
end
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