exercism/elixir/rational-numbers/test/rational_numbers_test.exs

defmodule RationalNumbersTest do
  use ExUnit.Case

  describe "Addition" do
    # # @tag :pending
    test "Add two positive rational numbers" do
      assert RationalNumbers.add({1, 2}, {2, 3}) == {7, 6}
    end

    # @tag :pending
    test "Add a positive rational number and a negative rational number" do
      assert RationalNumbers.add({1, 2}, {-2, 3}) == {-1, 6}
    end

    # @tag :pending
    test "Add two negative rational numbers" do
      assert RationalNumbers.add({-1, 2}, {-2, 3}) == {-7, 6}
    end

    # @tag :pending
    test "Add a rational number to its additive inverse" do
      assert RationalNumbers.add({1, 2}, {-1, 2}) == {0, 1}
    end
  end

  describe "Subtraction" do
    # @tag :pending
    test "Subtract two positive rational numbers" do
      assert RationalNumbers.subtract({1, 2}, {2, 3}) == {-1, 6}
    end

    # @tag :pending
    test "Subtract a positive rational number and a negative rational number" do
      assert RationalNumbers.subtract({1, 2}, {-2, 3}) == {7, 6}
    end

    # @tag :pending
    test "Subtract two negative rational numbers" do
      assert RationalNumbers.subtract({-1, 2}, {-2, 3}) == {1, 6}
    end

    # @tag :pending
    test "Subtract a rational number from itself" do
      assert RationalNumbers.subtract({1, 2}, {1, 2}) == {0, 1}
    end
  end

  describe "Multiplication" do
    # @tag :pending
    test "Multiply two positive rational numbers" do
      assert RationalNumbers.multiply({1, 2}, {2, 3}) == {1, 3}
    end

    # @tag :pending
    test "Multiply a negative rational number by a positive rational number" do
      assert RationalNumbers.multiply({-1, 2}, {2, 3}) == {-1, 3}
    end

    # @tag :pending
    test "Multiply two negative rational numbers" do
      assert RationalNumbers.multiply({-1, 2}, {-2, 3}) == {1, 3}
    end

    # @tag :pending
    test "Multiply a rational number by its reciprocal" do
      assert RationalNumbers.multiply({1, 2}, {2, 1}) == {1, 1}
    end

    # @tag :pending
    test "Multiply a rational number by 1" do
      assert RationalNumbers.multiply({1, 2}, {1, 1}) == {1, 2}
    end

    # @tag :pending
    test "Multiply a rational number by 0" do
      assert RationalNumbers.multiply({1, 2}, {0, 1}) == {0, 1}
    end
  end

  describe "Division" do
    # @tag :pending
    test "Divide two positive rational numbers" do
      assert RationalNumbers.divide_by({1, 2}, {2, 3}) == {3, 4}
    end

    # @tag :pending
    test "Divide a positive rational number by a negative rational number" do
      assert RationalNumbers.divide_by({1, 2}, {-2, 3}) == {-3, 4}
    end

    # @tag :pending
    test "Divide two negative rational numbers" do
      assert RationalNumbers.divide_by({-1, 2}, {-2, 3}) == {3, 4}
    end

    # @tag :pending
    test "Divide a rational number by 1" do
      assert RationalNumbers.divide_by({1, 2}, {1, 1}) == {1, 2}
    end
  end

  describe "Absolute value" do
    # @tag :pending
    test "Absolute value of a positive rational number" do
      assert RationalNumbers.abs({1, 2}) == {1, 2}
    end

    # @tag :pending
    test "Absolute value of a positive rational number with negative numerator and denominator" do
      assert RationalNumbers.abs({-1, -2}) == {1, 2}
    end

    # @tag :pending
    test "Absolute value of a negative rational number" do
      assert RationalNumbers.abs({-1, 2}) == {1, 2}
    end

    # @tag :pending
    test "Absolute value of a negative rational number with negative denominator" do
      assert RationalNumbers.abs({1, -2}) == {1, 2}
    end

    # @tag :pending
    test "Absolute value of zero" do
      assert RationalNumbers.abs({0, 1}) == {0, 1}
    end

    # @tag :pending
    test "Absolute value of a rational number is reduced to lowest terms" do
      assert RationalNumbers.abs({2, 4}) == {1, 2}
    end
  end

  describe "Exponentiation of a rational number" do
    # @tag :pending
    test "Raise a positive rational number to a positive integer power" do
      assert RationalNumbers.pow_rational({1, 2}, 3) == {1, 8}
    end

    # @tag :pending
    test "Raise a negative rational number to a positive integer power" do
      assert RationalNumbers.pow_rational({-1, 2}, 3) == {-1, 8}
    end

    # @tag :pending
    test "Raise a positive rational number to a negative integer power" do
      assert RationalNumbers.pow_rational({3, 5}, -2) == {25, 9}
    end

    # @tag :pending
    test "Raise a negative rational number to an even negative integer power" do
      assert RationalNumbers.pow_rational({-3, 5}, -2) == {25, 9}
    end

    # @tag :pending
    test "Raise a negative rational number to an odd negative integer power" do
      assert RationalNumbers.pow_rational({-3, 5}, -3) == {-125, 27}
    end

    # @tag :pending
    test "Raise zero to an integer power" do
      assert RationalNumbers.pow_rational({0, 1}, 5) == {0, 1}
    end

    # @tag :pending
    test "Raise one to an integer power" do
      assert RationalNumbers.pow_rational({1, 1}, 4) == {1, 1}
    end

    # @tag :pending
    test "Raise a positive rational number to the power of zero" do
      assert RationalNumbers.pow_rational({1, 2}, 0) == {1, 1}
    end

    # @tag :pending
    test "Raise a negative rational number to the power of zero" do
      assert RationalNumbers.pow_rational({-1, 2}, 0) == {1, 1}
    end
  end

  describe "Exponentiation of a real number to a rational number" do
    # @tag :pending
    test "Raise a real number to a positive rational number" do
      x = 8
      r = {4, 3}
      result = 16.0
      assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10
    end

    # @tag :pending
    test "Raise a real number to a negative rational number" do
      x = 9
      r = {-1, 2}
      result = 0.3333333333333333
      assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10
    end

    # @tag :pending
    test "Raise a real number to a zero rational number" do
      x = 2
      r = {0, 1}
      result = 1.0
      assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10
    end
  end

  describe "Reduction to lowest terms" do
    # @tag :pending
    test "Reduce a positive rational number to lowest terms" do
      assert RationalNumbers.reduce({2, 4}) == {1, 2}
    end

    # @tag :pending
    test "Reduce places the minus sign on the numerator" do
      assert RationalNumbers.reduce({3, -4}) == {-3, 4}
    end

    # @tag :pending
    test "Reduce a negative rational number to lowest terms" do
      assert RationalNumbers.reduce({-4, 6}) == {-2, 3}
    end

    # @tag :pending
    test "Reduce a rational number with a negative denominator to lowest terms" do
      assert RationalNumbers.reduce({3, -9}) == {-1, 3}
    end

    # @tag :pending
    test "Reduce zero to lowest terms" do
      assert RationalNumbers.reduce({0, 6}) == {0, 1}
    end

    # @tag :pending
    test "Reduce an integer to lowest terms" do
      assert RationalNumbers.reduce({-14, 7}) == {-2, 1}
    end

    # @tag :pending
    test "Reduce one to lowest terms" do
      assert RationalNumbers.reduce({13, 13}) == {1, 1}
    end
  end
end
rational_numbers 2024-03-10 11:27:55 +00:00			`defmodule RationalNumbersTest do`
			`use ExUnit.Case`

			`describe "Addition" do`
			`# # @tag :pending`
			`test "Add two positive rational numbers" do`
			`assert RationalNumbers.add({1, 2}, {2, 3}) == {7, 6}`
			`end`

			`# @tag :pending`
			`test "Add a positive rational number and a negative rational number" do`
			`assert RationalNumbers.add({1, 2}, {-2, 3}) == {-1, 6}`
			`end`

			`# @tag :pending`
			`test "Add two negative rational numbers" do`
			`assert RationalNumbers.add({-1, 2}, {-2, 3}) == {-7, 6}`
			`end`

			`# @tag :pending`
			`test "Add a rational number to its additive inverse" do`
			`assert RationalNumbers.add({1, 2}, {-1, 2}) == {0, 1}`
			`end`
			`end`

			`describe "Subtraction" do`
			`# @tag :pending`
			`test "Subtract two positive rational numbers" do`
			`assert RationalNumbers.subtract({1, 2}, {2, 3}) == {-1, 6}`
			`end`

			`# @tag :pending`
			`test "Subtract a positive rational number and a negative rational number" do`
			`assert RationalNumbers.subtract({1, 2}, {-2, 3}) == {7, 6}`
			`end`

			`# @tag :pending`
			`test "Subtract two negative rational numbers" do`
			`assert RationalNumbers.subtract({-1, 2}, {-2, 3}) == {1, 6}`
			`end`

			`# @tag :pending`
			`test "Subtract a rational number from itself" do`
			`assert RationalNumbers.subtract({1, 2}, {1, 2}) == {0, 1}`
			`end`
			`end`

			`describe "Multiplication" do`
			`# @tag :pending`
			`test "Multiply two positive rational numbers" do`
			`assert RationalNumbers.multiply({1, 2}, {2, 3}) == {1, 3}`
			`end`

			`# @tag :pending`
			`test "Multiply a negative rational number by a positive rational number" do`
			`assert RationalNumbers.multiply({-1, 2}, {2, 3}) == {-1, 3}`
			`end`

			`# @tag :pending`
			`test "Multiply two negative rational numbers" do`
			`assert RationalNumbers.multiply({-1, 2}, {-2, 3}) == {1, 3}`
			`end`

			`# @tag :pending`
			`test "Multiply a rational number by its reciprocal" do`
			`assert RationalNumbers.multiply({1, 2}, {2, 1}) == {1, 1}`
			`end`

			`# @tag :pending`
			`test "Multiply a rational number by 1" do`
			`assert RationalNumbers.multiply({1, 2}, {1, 1}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Multiply a rational number by 0" do`
			`assert RationalNumbers.multiply({1, 2}, {0, 1}) == {0, 1}`
			`end`
			`end`

			`describe "Division" do`
			`# @tag :pending`
			`test "Divide two positive rational numbers" do`
			`assert RationalNumbers.divide_by({1, 2}, {2, 3}) == {3, 4}`
			`end`

			`# @tag :pending`
			`test "Divide a positive rational number by a negative rational number" do`
			`assert RationalNumbers.divide_by({1, 2}, {-2, 3}) == {-3, 4}`
			`end`

			`# @tag :pending`
			`test "Divide two negative rational numbers" do`
			`assert RationalNumbers.divide_by({-1, 2}, {-2, 3}) == {3, 4}`
			`end`

			`# @tag :pending`
			`test "Divide a rational number by 1" do`
			`assert RationalNumbers.divide_by({1, 2}, {1, 1}) == {1, 2}`
			`end`
			`end`

			`describe "Absolute value" do`
			`# @tag :pending`
			`test "Absolute value of a positive rational number" do`
			`assert RationalNumbers.abs({1, 2}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Absolute value of a positive rational number with negative numerator and denominator" do`
			`assert RationalNumbers.abs({-1, -2}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Absolute value of a negative rational number" do`
			`assert RationalNumbers.abs({-1, 2}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Absolute value of a negative rational number with negative denominator" do`
			`assert RationalNumbers.abs({1, -2}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Absolute value of zero" do`
			`assert RationalNumbers.abs({0, 1}) == {0, 1}`
			`end`

			`# @tag :pending`
			`test "Absolute value of a rational number is reduced to lowest terms" do`
			`assert RationalNumbers.abs({2, 4}) == {1, 2}`
			`end`
			`end`

			`describe "Exponentiation of a rational number" do`
			`# @tag :pending`
			`test "Raise a positive rational number to a positive integer power" do`
			`assert RationalNumbers.pow_rational({1, 2}, 3) == {1, 8}`
			`end`

			`# @tag :pending`
			`test "Raise a negative rational number to a positive integer power" do`
			`assert RationalNumbers.pow_rational({-1, 2}, 3) == {-1, 8}`
			`end`

			`# @tag :pending`
			`test "Raise a positive rational number to a negative integer power" do`
			`assert RationalNumbers.pow_rational({3, 5}, -2) == {25, 9}`
			`end`

			`# @tag :pending`
			`test "Raise a negative rational number to an even negative integer power" do`
			`assert RationalNumbers.pow_rational({-3, 5}, -2) == {25, 9}`
			`end`

			`# @tag :pending`
			`test "Raise a negative rational number to an odd negative integer power" do`
			`assert RationalNumbers.pow_rational({-3, 5}, -3) == {-125, 27}`
			`end`

			`# @tag :pending`
			`test "Raise zero to an integer power" do`
			`assert RationalNumbers.pow_rational({0, 1}, 5) == {0, 1}`
			`end`

			`# @tag :pending`
			`test "Raise one to an integer power" do`
			`assert RationalNumbers.pow_rational({1, 1}, 4) == {1, 1}`
			`end`

			`# @tag :pending`
			`test "Raise a positive rational number to the power of zero" do`
			`assert RationalNumbers.pow_rational({1, 2}, 0) == {1, 1}`
			`end`

			`# @tag :pending`
			`test "Raise a negative rational number to the power of zero" do`
			`assert RationalNumbers.pow_rational({-1, 2}, 0) == {1, 1}`
			`end`
			`end`

			`describe "Exponentiation of a real number to a rational number" do`
			`# @tag :pending`
			`test "Raise a real number to a positive rational number" do`
			`x = 8`
			`r = {4, 3}`
			`result = 16.0`
			`assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10`
			`end`

			`# @tag :pending`
			`test "Raise a real number to a negative rational number" do`
			`x = 9`
			`r = {-1, 2}`
			`result = 0.3333333333333333`
			`assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10`
			`end`

			`# @tag :pending`
			`test "Raise a real number to a zero rational number" do`
			`x = 2`
			`r = {0, 1}`
			`result = 1.0`
			`assert_in_delta RationalNumbers.pow_real(x, r), result, 1.0e-10`
			`end`
			`end`

			`describe "Reduction to lowest terms" do`
			`# @tag :pending`
			`test "Reduce a positive rational number to lowest terms" do`
			`assert RationalNumbers.reduce({2, 4}) == {1, 2}`
			`end`

			`# @tag :pending`
			`test "Reduce places the minus sign on the numerator" do`
			`assert RationalNumbers.reduce({3, -4}) == {-3, 4}`
			`end`

			`# @tag :pending`
			`test "Reduce a negative rational number to lowest terms" do`
			`assert RationalNumbers.reduce({-4, 6}) == {-2, 3}`
			`end`

			`# @tag :pending`
			`test "Reduce a rational number with a negative denominator to lowest terms" do`
			`assert RationalNumbers.reduce({3, -9}) == {-1, 3}`
			`end`

			`# @tag :pending`
			`test "Reduce zero to lowest terms" do`
			`assert RationalNumbers.reduce({0, 6}) == {0, 1}`
			`end`

			`# @tag :pending`
			`test "Reduce an integer to lowest terms" do`
			`assert RationalNumbers.reduce({-14, 7}) == {-2, 1}`
			`end`

			`# @tag :pending`
			`test "Reduce one to lowest terms" do`
			`assert RationalNumbers.reduce({13, 13}) == {1, 1}`
			`end`
			`end`
			`end`