ruby--ruby/test/-ext-/num2int/test_num2int.rb

require 'test/unit'

class TestNum2int < Test::Unit::TestCase
  module Num2int
  end
  require '-test-/num2int/num2int'

  SHRT_MIN = -32768
  SHRT_MAX = 32767
  USHRT_MAX = 65535

  INT_MIN = -2147483648
  INT_MAX = 2147483647
  UINT_MAX = 4294967295

  case [0].pack('L!').size
  when 4
    LONG_MAX = 2147483647
    LONG_MIN = -2147483648
    ULONG_MAX = 4294967295
  when 8
    LONG_MAX = 9223372036854775807
    LONG_MIN = -9223372036854775808
    ULONG_MAX = 18446744073709551615
  end

  LLONG_MAX = 9223372036854775807
  LLONG_MIN = -9223372036854775808
  ULLONG_MAX = 18446744073709551615

  FIXNUM_MAX = LONG_MAX/2
  FIXNUM_MIN = LONG_MIN/2

  def fix2big(n)
    10000000000000000000000000000.coerce(n)[0]
  end

  def assert_num2i_success_internal(exp, func, arg)
    mesg = "#{func}(#{arg.inspect})"
    out = nil
    assert_nothing_raised(mesg) {
      out = Kernel.send(func, arg)
    }
    assert_equal(exp, out, mesg)
  end

  def assert_num2i_success(type, num, result=num)
    func = "NUM2#{type}".upcase
    assert_num2i_success_internal(result.to_s, func, num)
    assert_num2i_success_internal(result.to_s, func, fix2big(num))
    assert_num2i_success_internal(result.to_s, func, Rational(num, 1))
    if num.to_f.to_i == num
      assert_num2i_success_internal(result.to_s, func, num.to_f)
    end
    # The conversion functions such as NUM2INT uses (conceptually) to_int.
    if (arg = num.to_f + 0.5) != num.to_f && arg.to_int == num
      assert_num2i_success_internal(result.to_s, func, arg)
    end
    if (arg = num.to_f - 0.5) != num.to_f && arg.to_int == num
      assert_num2i_success_internal(result.to_s, func, arg)
    end
    if (arg = num + Rational(1,2)) && arg.to_int == num
      assert_num2i_success_internal(result.to_s, func, arg)
    end
    if (arg = num - Rational(1,2)) && arg.to_int == num
      assert_num2i_success_internal(result.to_s, func, arg)
    end
  end

  def assert_num2i_error_internal(func, arg)
    assert_raise(RangeError, "#{func}(#{arg.inspect})") {
      Kernel.send(func, arg)
    }
  end

  def assert_num2i_error(type, num)
    func = "NUM2#{type}".upcase
    assert_num2i_error_internal(func, num)
    assert_num2i_error_internal(func, fix2big(num))
    assert_num2i_error_internal(func, Rational(num, 1))
    if num.to_f.to_i == num
      assert_num2i_error_internal(func, num.to_f)
    end
    # The conversion functions such as NUM2INT uses (conceptually) to_int.
    if (arg = num.to_f + 0.5) != num.to_f && arg.to_int == num
      assert_num2i_error_internal(func, arg)
    end
    if (arg = num.to_f - 0.5) != num.to_f && arg.to_int == num
      assert_num2i_error_internal(func, arg)
    end
    if (arg = num + Rational(1,2)) && arg.to_int == num
      assert_num2i_error_internal(func, arg)
    end
    if (arg = num - Rational(1,2)) && arg.to_int == num
      assert_num2i_error_internal(func, arg)
    end
  end

  def assert_fix2i_success_internal(exp, func, arg)
    mesg = "#{func}(#{arg.inspect})"
    out = nil
    assert_nothing_raised(mesg) {
      out = Kernel.send(func, arg)
    }
    assert_equal(exp, out, mesg)
  end

  def assert_fix2i_success(type, num, result=num)
    return if !num.kind_of?(Fixnum)
    func = "FIX2#{type}".upcase
    assert_fix2i_success_internal(result.to_s, func, num)
  end

  def assert_fix2i_error_internal(func, arg)
    assert_raise(RangeError, "#{func}(#{arg.inspect})") {
      Kernel.send(func, arg)
    }
  end

  def assert_fix2i_error(type, num)
    return if !num.kind_of?(Fixnum)
    func = "FIX2#{type}".upcase
    assert_num2i_error_internal(func, num)
  end

  def test_num2short
    assert_num2i_success(:short, SHRT_MIN)
    assert_num2i_success(:short, SHRT_MAX)
    assert_num2i_error(:short, SHRT_MIN-1)
    assert_num2i_error(:short, SHRT_MAX+1)
  end

  def test_num2ushort
    assert_num2i_success(:ushort, 0)
    assert_num2i_success(:ushort, USHRT_MAX)
    assert_num2i_success(:ushort, -1, USHRT_MAX)
    assert_num2i_success(:ushort, SHRT_MIN, SHRT_MAX+1)
    assert_num2i_error(:ushort, SHRT_MIN-1)
    assert_num2i_error(:ushort, USHRT_MAX+1)
  end

  def test_num2int
    assert_num2i_success(:int, INT_MIN)
    assert_num2i_success(:int, INT_MAX)
    assert_num2i_error(:int, INT_MIN-1)
    assert_num2i_error(:int, INT_MAX+1)
  end

  def test_num2uint
    assert_num2i_success(:uint, 0)
    assert_num2i_success(:uint, UINT_MAX)
    assert_num2i_success(:uint, -1, UINT_MAX)
    assert_num2i_success(:uint, INT_MIN, INT_MAX+1)
    assert_num2i_error(:uint, INT_MIN-1)
    assert_num2i_error(:uint, UINT_MAX+1)
  end

  def test_num2long
    assert_num2i_success(:long, LONG_MIN)
    assert_num2i_success(:long, LONG_MAX)
    assert_num2i_error(:long, LONG_MIN-1)
    assert_num2i_error(:long, LONG_MAX+1)
    assert_num2i_success(:long, FIXNUM_MIN)
    assert_num2i_success(:long, FIXNUM_MIN-1)
    assert_num2i_success(:long, FIXNUM_MAX)
    assert_num2i_success(:long, FIXNUM_MAX+1)
  end

  def test_num2ulong
    assert_num2i_success(:ulong, 0)
    assert_num2i_success(:ulong, ULONG_MAX)
    assert_num2i_success(:ulong, -1, ULONG_MAX)
    assert_num2i_success(:ulong, LONG_MIN, LONG_MAX+1)
    assert_num2i_error(:ulong, LONG_MIN-1)
    assert_num2i_error(:ulong, ULONG_MAX+1)
    assert_num2i_success(:ulong, FIXNUM_MIN, ULONG_MAX-FIXNUM_MAX)
    assert_num2i_success(:ulong, FIXNUM_MIN-1, ULONG_MAX-FIXNUM_MAX-1)
    assert_num2i_success(:ulong, FIXNUM_MAX, FIXNUM_MAX)
    assert_num2i_success(:ulong, FIXNUM_MAX+1, FIXNUM_MAX+1)
  end

  def test_num2ll
    assert_num2i_success(:ll, LLONG_MIN)
    assert_num2i_success(:ll, LLONG_MAX)
    assert_num2i_error(:ll, LLONG_MIN-1)
    assert_num2i_error(:ll, LLONG_MAX+1)
    assert_num2i_success(:ll, FIXNUM_MIN)
    assert_num2i_success(:ll, FIXNUM_MIN-1)
    assert_num2i_success(:ll, FIXNUM_MAX)
    assert_num2i_success(:ll, FIXNUM_MAX+1)
  end if defined?(Num2int.rb_num2ll)

  def test_num2ull
    assert_num2i_success(:ull, 0)
    assert_num2i_success(:ull, ULLONG_MAX)
    assert_num2i_success(:ull, -1, ULLONG_MAX)
    assert_num2i_success(:ull, LLONG_MIN, LLONG_MAX+1)
    assert_num2i_error(:ull, LLONG_MIN-1)
    assert_num2i_error(:ull, ULLONG_MAX+1)
    assert_num2i_success(:ull, FIXNUM_MIN, ULLONG_MAX-FIXNUM_MAX)
    assert_num2i_success(:ull, FIXNUM_MIN-1, ULLONG_MAX-FIXNUM_MAX-1)
    assert_num2i_success(:ull, FIXNUM_MAX)
    assert_num2i_success(:ull, FIXNUM_MAX+1)
  end if defined?(Num2int.rb_num2ull)

  def test_fix2short
    assert_fix2i_success(:short, 0)
    assert_fix2i_success(:short, SHRT_MAX)
    assert_fix2i_success(:short, SHRT_MIN)
    assert_fix2i_error(:short, SHRT_MAX+1)
    assert_fix2i_error(:short, SHRT_MIN-1)
    assert_fix2i_error(:short, FIXNUM_MAX)
    assert_fix2i_error(:short, FIXNUM_MIN)
  end

  def test_fix2int
    assert_fix2i_success(:int, 0)
    assert_fix2i_success(:int, INT_MAX)
    assert_fix2i_success(:int, INT_MIN)
    assert_fix2i_error(:int, INT_MAX+1)
    assert_fix2i_error(:int, INT_MIN-1)
    assert_fix2i_error(:int, FIXNUM_MAX) if INT_MAX < FIXNUM_MAX
    assert_fix2i_error(:int, FIXNUM_MIN) if FIXNUM_MIN < INT_MIN
  end

  def test_fix2uint
    assert_fix2i_success(:uint, 0)
    assert_fix2i_success(:uint, UINT_MAX)
    assert_fix2i_success(:uint, INT_MAX)
    assert_fix2i_success(:uint, INT_MIN, INT_MAX+1)
    assert_fix2i_error(:uint, UINT_MAX+1)
    assert_fix2i_error(:uint, INT_MIN-1)
    assert_fix2i_error(:uint, FIXNUM_MAX) if UINT_MAX < FIXNUM_MAX
    assert_fix2i_error(:uint, FIXNUM_MIN) if FIXNUM_MIN < INT_MIN
  end

  def test_fix2long
    assert_fix2i_success(:long, 0)
    assert_fix2i_success(:long, FIXNUM_MAX)
    assert_fix2i_success(:long, FIXNUM_MIN)
  end

  def test_fix2ulong
    assert_fix2i_success(:ulong, 0)
    assert_fix2i_success(:ulong, FIXNUM_MAX)
    assert_fix2i_success(:ulong, -1, ULONG_MAX)
  end

end