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ruby--ruby/test/bigdecimal/test_bigmath.rb
mrkn 1c3e07f0d6 * ext/bigdecimal/bigdecimal.c (Init_bigdecimal): add two new constants BigDecimal::INFINITY and BigDecimal::NAN.
* ext/bigdecimal/lib/bigdecimal/math.rb (BigMath.exp): modify the behaviors for infinity arguments as same as Math.exp.

git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@28533 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2010-07-03 07:47:00 +00:00

88 lines
3.2 KiB
Ruby

require_relative "testbase"
require "bigdecimal/math"
class TestBigMath < Test::Unit::TestCase
include TestBigDecimalBase
include BigMath
N = 20
PINF = BigDecimal("+Infinity")
MINF = BigDecimal("-Infinity")
NAN = BigDecimal("NaN")
def test_const
assert_in_delta(Math::PI, PI(N))
assert_in_delta(Math::E, E(N))
end
def test_sqrt
assert_in_delta(2**0.5, sqrt(BigDecimal("2"), N))
assert_equal(10, sqrt(BigDecimal("100"), N))
assert_equal(0.0, sqrt(BigDecimal("0"), N))
assert_equal(0.0, sqrt(BigDecimal("-0"), N))
assert_raise(FloatDomainError) {sqrt(BigDecimal("-1.0"), N)}
assert_raise(FloatDomainError) {sqrt(NAN, N)}
assert_raise(FloatDomainError) {sqrt(PINF, N)}
end
def test_sin
assert_in_delta(0.0, sin(BigDecimal("0.0"), N))
assert_in_delta(Math.sqrt(2.0) / 2, sin(PI(N) / 4, N))
assert_in_delta(1.0, sin(PI(N) / 2, N))
assert_in_delta(0.0, sin(PI(N) * 2, N))
assert_in_delta(0.0, sin(PI(N), N))
assert_in_delta(-1.0, sin(PI(N) / -2, N))
assert_in_delta(0.0, sin(PI(N) * -2, N))
assert_in_delta(0.0, sin(-PI(N), N))
assert_in_delta(0.0, sin(PI(N) * 21, N))
assert_in_delta(0.0, sin(PI(N) * 30, N))
assert_in_delta(-1.0, sin(PI(N) * BigDecimal("301.5"), N))
end
def test_cos
assert_in_delta(1.0, cos(BigDecimal("0.0"), N))
assert_in_delta(Math.sqrt(2.0) / 2, cos(PI(N) / 4, N))
assert_in_delta(0.0, cos(PI(N) / 2, N))
assert_in_delta(1.0, cos(PI(N) * 2, N))
assert_in_delta(-1.0, cos(PI(N), N))
assert_in_delta(0.0, cos(PI(N) / -2, N))
assert_in_delta(1.0, cos(PI(N) * -2, N))
assert_in_delta(-1.0, cos(-PI(N), N))
assert_in_delta(-1.0, cos(PI(N) * 21, N))
assert_in_delta(1.0, cos(PI(N) * 30, N))
assert_in_delta(0.0, cos(PI(N) * BigDecimal("301.5"), N))
end
def test_atan
assert_equal(0.0, atan(BigDecimal("0.0"), N))
assert_in_delta(Math::PI/4, atan(BigDecimal("1.0"), N))
assert_in_delta(Math::PI/6, atan(sqrt(BigDecimal("3.0"), N) / 3, N))
assert_in_delta(Math::PI/2, atan(PINF, N))
assert_equal(BigDecimal("0.823840753418636291769355073102514088959345624027952954058347023122539489"),
atan(BigDecimal("1.08"), 72).round(72), '[ruby-dev:41257]')
end
def test_exp
assert_in_epsilon(Math::E, exp(BigDecimal("1"), N))
assert_in_epsilon(Math.exp(N), exp(BigDecimal("20"), N))
assert_in_epsilon(Math.exp(40), exp(BigDecimal("40"), N))
assert_in_epsilon(Math.exp(-N), exp(BigDecimal("-20"), N))
assert_in_epsilon(Math.exp(-40), exp(BigDecimal("-40"), N))
begin
old_mode = BigDecimal.mode(BigDecimal::EXCEPTION_INFINITY)
BigDecimal.mode(BigDecimal::EXCEPTION_INFINITY, false)
assert(exp(BigDecimal::INFINITY, N).infinite?, "exp(INFINITY) is not an infinity")
ensure
#BigDecimal.mode(BigDecimal::EXCEPTION_INFINITY, old_mode)
end
assert_equal(0.0, exp(-BigDecimal::INFINITY, N))
end
def test_log
assert_in_delta(0.0, log(BigDecimal("1"), N))
assert_in_delta(1.0, log(E(N), N))
assert_in_delta(Math.log(2.0), log(BigDecimal("2"), N))
assert_in_delta(2.0, log(E(N)*E(N), N))
assert_in_delta(Math.log(42.0), log(BigDecimal("42"), N))
assert_in_delta(Math.log(1e-42), log(BigDecimal("1e-42"), N))
end
end