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ruby--ruby/test/-ext-/num2int/test_num2int.rb
shyouhei 8ad7429644 make FIXNUM_MAX visible from Ruby
Because our tests now have several places where FIXNUM_MAX is needed,
we decided to provide it along with several other constants.

	* template/limits.c.tmpl: new file, defining RbConfig::Limits

	* ext/rbconfig/sizeof/depend (limits.c): rule to generate limits.c

	* test/-ext-/num2int/test_num2int.rb: use RbConfig::Limits

	* bootstraptest/test_insns.rb: ditto.

	* .gitignore: ignore new generated file.


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@57465 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2017-01-30 10:12:18 +00:00

265 lines
8.6 KiB
Ruby

# frozen_string_literal: false
require 'test/unit'
require '-test-/num2int'
require '-test-/integer'
require 'rbconfig/sizeof'
class TestNum2int < Test::Unit::TestCase
l = RbConfig::Limits
SHRT_MIN = l["SHRT_MIN"]
SHRT_MAX = l["SHRT_MAX"]
USHRT_MAX = l["USHRT_MAX"]
INT_MIN = l["INT_MIN"]
INT_MAX = l["INT_MAX"]
UINT_MAX = l["UINT_MAX"]
LONG_MAX = l["LONG_MAX"]
LONG_MIN = l["LONG_MIN"]
ULONG_MAX = l["ULONG_MAX"]
LLONG_MAX = l["LLONG_MAX"]
LLONG_MIN = l["LLONG_MIN"]
ULLONG_MAX = l["ULLONG_MAX"]
FIXNUM_MAX = l["FIXNUM_MAX"]
FIXNUM_MIN = l["FIXNUM_MIN"]
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 = Num2int.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})") {
Num2int.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 = Num2int.send(func, arg)
}
assert_equal(exp, out, mesg)
end
def assert_fix2i_success(type, num, result=num)
return if !num.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})") {
Num2int.send(func, arg)
}
end
def assert_fix2i_error(type, num)
return if !num.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_MIN+1)
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_success(:ushort, SHRT_MIN+1, SHRT_MAX+2)
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_MIN+1)
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_success(:uint, INT_MIN+1, INT_MAX+2)
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_MIN+1)
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_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_success(:ulong, LONG_MIN+1, LONG_MAX+2)
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_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_MIN+1)
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_MIN-1)
assert_num2i_success(:ll, FIXNUM_MAX)
assert_num2i_success(:ll, FIXNUM_MAX+1)
end if defined?(Num2int.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_success(:ull, LLONG_MIN+1, LLONG_MAX+2)
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_MIN-1, ULLONG_MAX-FIXNUM_MAX-1)
assert_num2i_success(:ull, FIXNUM_MAX)
assert_num2i_success(:ull, FIXNUM_MAX+1)
end if defined?(Num2int.NUM2ULL)
def test_fix2short
assert_fix2i_success(:short, 0)
assert_fix2i_success(:short, SHRT_MAX)
assert_fix2i_success(:short, SHRT_MIN)
assert_fix2i_success(:short, SHRT_MIN+1)
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)
assert_fix2i_error(:short, FIXNUM_MIN+1)
end
def test_fix2int
assert_fix2i_success(:int, 0)
assert_fix2i_success(:int, INT_MAX)
assert_fix2i_success(:int, INT_MIN)
assert_fix2i_success(:int, INT_MIN+1)
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
assert_fix2i_error(:int, FIXNUM_MIN+1) if FIXNUM_MIN+1 < 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_success(:uint, INT_MIN+1, INT_MAX+2)
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
assert_fix2i_error(:uint, FIXNUM_MIN+1) if FIXNUM_MIN+1 < INT_MIN
end
def test_fix2long
assert_fix2i_success(:long, 0)
assert_fix2i_success(:long, FIXNUM_MAX)
assert_fix2i_success(:long, FIXNUM_MIN)
assert_fix2i_success(:long, FIXNUM_MIN+1)
end
def test_fix2ulong
assert_fix2i_success(:ulong, 0)
assert_fix2i_success(:ulong, FIXNUM_MAX)
assert_fix2i_success(:ulong, -1, ULONG_MAX)
end
end