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ruby--ruby/test/ruby/test_integer_comb.rb
akr 5ea4824508 test/lib/test/unit/assertions.rb defines assert_fixnum and assert_bignum.
* test/lib/test/unit/assertions.rb (assert_fixnum): Defined.
  (assert_bignum): Defined.

* test/ruby/test_bignum.rb: Use assert_bignum.

* test/ruby/test_integer_comb.rb: Use assert_fixnum and assert_bignum.

* test/ruby/test_optimization.rb: Ditto.



git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@54874 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2016-05-01 16:01:36 +00:00

628 lines
15 KiB
Ruby

# frozen_string_literal: false
require 'test/unit'
class TestIntegerComb < Test::Unit::TestCase
VS = [
-0x1000000000000000000000000000000000000000000000002,
-0x1000000000000000000000000000000000000000000000001,
-0x1000000000000000000000000000000000000000000000000,
-0xffffffffffffffffffffffffffffffffffffffffffffffff,
-0x1000000000000000000000002,
-0x1000000000000000000000001,
-0x1000000000000000000000000,
-0xffffffffffffffffffffffff,
-0x10000000000000002,
-0x10000000000000001,
-0x10000000000000000,
-0xffffffffffffffff,
-0x4000000000000002,
-0x4000000000000001,
-0x4000000000000000,
-0x3fffffffffffffff,
-0x100000002,
-0x100000001,
-0x100000000,
-0xffffffff,
-0xc717a08d, # 0xc717a08d * 0x524b2245 = 0x4000000000000001
-0x80000002,
-0x80000001,
-0x80000000,
-0x7fffffff,
-0x524b2245,
-0x40000002,
-0x40000001,
-0x40000000,
-0x3fffffff,
-0x10002,
-0x10001,
-0x10000,
-0xffff,
-0x8101, # 0x8101 * 0x7f01 = 0x40000001
-0x8002,
-0x8001,
-0x8000,
-0x7fff,
-0x7f01,
-65,
-64,
-63,
-62,
-33,
-32,
-31,
-30,
-3,
-2,
-1,
0,
1,
2,
3,
30,
31,
32,
33,
62,
63,
64,
65,
0x7f01,
0x7ffe,
0x7fff,
0x8000,
0x8001,
0x8101,
0xfffe,
0xffff,
0x10000,
0x10001,
0x3ffffffe,
0x3fffffff,
0x40000000,
0x40000001,
0x524b2245,
0x7ffffffe,
0x7fffffff,
0x80000000,
0x80000001,
0xc717a08d,
0xfffffffe,
0xffffffff,
0x100000000,
0x100000001,
0x3ffffffffffffffe,
0x3fffffffffffffff,
0x4000000000000000,
0x4000000000000001,
0xfffffffffffffffe,
0xffffffffffffffff,
0x10000000000000000,
0x10000000000000001,
0xffffffffffffffffffffffff,
0x1000000000000000000000000,
0x1000000000000000000000001,
0xffffffffffffffffffffffffffffffffffffffffffffffff,
0x1000000000000000000000000000000000000000000000000,
0x1000000000000000000000000000000000000000000000001
]
#VS.map! {|v| 0x4000000000000000.coerce(v)[0] }
#VS.concat VS.find_all {|v| Fixnum === v }.map {|v| 0x4000000000000000.coerce(v)[0] }
#VS.sort! {|a, b| a.abs <=> b.abs }
FIXNUM_MIN = Integer::FIXNUM_MIN
FIXNUM_MAX = Integer::FIXNUM_MAX
def test_fixnum_range
assert_bignum(FIXNUM_MIN-1)
assert_fixnum(FIXNUM_MIN)
assert_fixnum(FIXNUM_MAX)
assert_bignum(FIXNUM_MAX+1)
end
def check_class(n)
if FIXNUM_MIN <= n && n <= FIXNUM_MAX
assert_fixnum(n)
else
assert_bignum(n)
end
end
def test_aref
VS.each {|a|
100.times {|i|
assert_equal((a >> i).odd? ? 1 : 0, a[i], "(#{a})[#{i}]")
}
}
VS.each {|a|
VS.each {|b|
c = nil
assert_nothing_raised("(#{a})[#{b}]") { c = a[b] }
check_class(c)
if b < 0
assert_equal(0, c, "(#{a})[#{b}]")
else
assert_equal((a >> b).odd? ? 1 : 0, c, "(#{a})[#{b}]")
end
}
}
end
def test_plus
VS.each {|a|
VS.each {|b|
c = a + b
check_class(c)
assert_equal(b + a, c, "#{a} + #{b}")
assert_equal(a, c - b, "(#{a} + #{b}) - #{b}")
assert_equal(a-~b-1, c, "#{a} + #{b}") # Hacker's Delight
assert_equal((a^b)+2*(a&b), c, "#{a} + #{b}") # Hacker's Delight
assert_equal((a|b)+(a&b), c, "#{a} + #{b}") # Hacker's Delight
assert_equal(2*(a|b)-(a^b), c, "#{a} + #{b}") # Hacker's Delight
}
}
end
def test_minus
VS.each {|a|
VS.each {|b|
c = a - b
check_class(c)
assert_equal(a, c + b, "(#{a} - #{b}) + #{b}")
assert_equal(-b, c - a, "(#{a} - #{b}) - #{a}")
assert_equal(a+~b+1, c, "#{a} - #{b}") # Hacker's Delight
assert_equal((a^b)-2*(b&~a), c, "#{a} - #{b}") # Hacker's Delight
assert_equal((a&~b)-(b&~a), c, "#{a} - #{b}") # Hacker's Delight
assert_equal(2*(a&~b)-(a^b), c, "#{a} - #{b}") # Hacker's Delight
}
}
end
def test_mult
VS.each {|a|
VS.each {|b|
c = a * b
check_class(c)
assert_equal(b * a, c, "#{a} * #{b}")
assert_equal(b.send(:*, a), c, "#{a} * #{b}")
assert_equal(b, c / a, "(#{a} * #{b}) / #{a}") if a != 0
assert_equal(a.abs * b.abs, (a * b).abs, "(#{a} * #{b}).abs")
assert_equal((a-100)*(b-100)+(a-100)*100+(b-100)*100+10000, c, "#{a} * #{b}")
assert_equal((a+100)*(b+100)-(a+100)*100-(b+100)*100+10000, c, "#{a} * #{b}")
}
}
end
def test_divmod
VS.each {|a|
VS.each {|b|
if b == 0
assert_raise(ZeroDivisionError) { a.divmod(b) }
else
q, r = a.divmod(b)
check_class(q)
check_class(r)
assert_equal(a, b*q+r)
assert_operator(r.abs, :<, b.abs)
if 0 < b
assert_operator(r, :>=, 0)
assert_operator(r, :<, b)
else
assert_operator(r, :>, b)
assert_operator(r, :<=, 0)
end
assert_equal(q, a/b)
assert_equal(q, a.div(b))
assert_equal(r, a%b)
assert_equal(r, a.modulo(b))
end
}
}
end
def test_pow
small_values = VS.find_all {|v| 0 <= v && v < 1000 }
VS.each {|a|
small_values.each {|b|
c = a ** b
check_class(c)
d = 1
b.times { d *= a }
assert_equal(d, c, "(#{a}) ** #{b}")
if a != 0
d = c
b.times { d /= a }
assert_equal(1, d, "((#{a}) ** #{b}) / #{a} / ...(#{b} times)...")
end
}
}
end
def test_not
VS.each {|a|
b = ~a
check_class(b)
assert_equal(-1 ^ a, b, "~#{a}")
assert_equal(-a-1, b, "~#{a}") # Hacker's Delight
assert_equal(0, a & b, "#{a} & ~#{a}")
assert_equal(-1, a | b, "#{a} | ~#{a}")
}
end
def test_or
VS.each {|a|
VS.each {|b|
c = a | b
check_class(c)
assert_equal(b | a, c, "#{a} | #{b}")
assert_equal(a + b - (a&b), c, "#{a} | #{b}")
assert_equal((a & ~b) + b, c, "#{a} | #{b}") # Hacker's Delight
assert_equal(-1, c | ~a, "(#{a} | #{b}) | ~#{a})")
}
}
end
def test_and
VS.each {|a|
VS.each {|b|
c = a & b
check_class(c)
assert_equal(b & a, c, "#{a} & #{b}")
assert_equal(a + b - (a|b), c, "#{a} & #{b}")
assert_equal((~a | b) - ~a, c, "#{a} & #{b}") # Hacker's Delight
assert_equal(0, c & ~a, "(#{a} & #{b}) & ~#{a}")
}
}
end
def test_xor
VS.each {|a|
VS.each {|b|
c = a ^ b
check_class(c)
assert_equal(b ^ a, c, "#{a} ^ #{b}")
assert_equal((a|b)-(a&b), c, "#{a} ^ #{b}") # Hacker's Delight
assert_equal(b, c ^ a, "(#{a} ^ #{b}) ^ #{a}")
}
}
end
def test_lshift
small_values = VS.find_all {|v| v < 8000 }
VS.each {|a|
small_values.each {|b|
c = a << b
check_class(c)
if 0 <= b
assert_equal(a, c >> b, "(#{a} << #{b}) >> #{b}")
assert_equal(a * 2**b, c, "#{a} << #{b}")
end
0.upto(c.bit_length+10) {|nth|
assert_equal(a[nth-b], c[nth], "(#{a} << #{b})[#{nth}]")
}
}
}
end
def test_rshift
small_values = VS.find_all {|v| -8000 < v }
VS.each {|a|
small_values.each {|b|
c = a >> b
check_class(c)
if b <= 0
assert_equal(a, c << b, "(#{a} >> #{b}) << #{b}")
assert_equal(a * 2**(-b), c, "#{a} >> #{b}")
end
0.upto(c.bit_length+10) {|nth|
assert_equal(a[nth+b], c[nth], "(#{a} >> #{b})[#{nth}]")
}
}
}
end
def test_succ
VS.each {|a|
b = a.succ
check_class(b)
assert_equal(a+1, b, "(#{a}).succ")
assert_equal(a, b.pred, "(#{a}).succ.pred")
assert_equal(a, b-1, "(#{a}).succ - 1")
}
end
def test_pred
VS.each {|a|
b = a.pred
check_class(b)
assert_equal(a-1, b, "(#{a}).pred")
assert_equal(a, b.succ, "(#{a}).pred.succ")
assert_equal(a, b + 1, "(#{a}).pred + 1")
}
end
def test_unary_plus
VS.each {|a|
b = +a
check_class(b)
assert_equal(a, b, "+(#{a})")
}
end
def test_unary_minus
VS.each {|a|
b = -a
check_class(b)
assert_equal(0-a, b, "-(#{a})")
assert_equal(~a+1, b, "-(#{a})")
assert_equal(0, a+b, "#{a}+(-(#{a}))")
}
end
def test_cmp
VS.each_with_index {|a, i|
VS.each_with_index {|b, j|
assert_equal(i <=> j, a <=> b, "#{a} <=> #{b}")
assert_equal(i < j, a < b, "#{a} < #{b}")
assert_equal(i <= j, a <= b, "#{a} <= #{b}")
assert_equal(i > j, a > b, "#{a} > #{b}")
assert_equal(i >= j, a >= b, "#{a} >= #{b}")
}
}
end
def test_eq
VS.each_with_index {|a, i|
VS.each_with_index {|b, j|
c = a == b
assert_equal(b == a, c, "#{a} == #{b}")
assert_equal(i == j, c, "#{a} == #{b}")
}
}
end
def test_abs
VS.each {|a|
b = a.abs
check_class(b)
if a < 0
assert_equal(-a, b, "(#{a}).abs")
else
assert_equal(a, b, "(#{a}).abs")
end
}
end
def test_ceil
VS.each {|a|
b = a.ceil
check_class(b)
assert_equal(a, b, "(#{a}).ceil")
}
end
def test_floor
VS.each {|a|
b = a.floor
check_class(b)
assert_equal(a, b, "(#{a}).floor")
}
end
def test_round
VS.each {|a|
b = a.round
check_class(b)
assert_equal(a, b, "(#{a}).round")
}
end
def test_truncate
VS.each {|a|
b = a.truncate
check_class(b)
assert_equal(a, b, "(#{a}).truncate")
}
end
def test_remainder
VS.each {|a|
VS.each {|b|
if b == 0
assert_raise(ZeroDivisionError) { a.divmod(b) }
else
r = a.remainder(b)
check_class(r)
if a < 0
assert_operator(-b.abs, :<, r, "#{a}.remainder(#{b})")
assert_operator(0, :>=, r, "#{a}.remainder(#{b})")
elsif 0 < a
assert_operator(0, :<=, r, "#{a}.remainder(#{b})")
assert_operator(b.abs, :>, r, "#{a}.remainder(#{b})")
else
assert_equal(0, r, "#{a}.remainder(#{b})")
end
end
}
}
end
def test_zero_nonzero
VS.each {|a|
z = a.zero?
n = a.nonzero?
if a == 0
assert_equal(true, z, "(#{a}).zero?")
assert_equal(nil, n, "(#{a}).nonzero?")
else
assert_equal(false, z, "(#{a}).zero?")
assert_equal(a, n, "(#{a}).nonzero?")
check_class(n)
end
assert(z ^ n, "(#{a}).zero? ^ (#{a}).nonzero?")
}
end
def test_even_odd
VS.each {|a|
e = a.even?
o = a.odd?
assert_equal((a % 2) == 0, e, "(#{a}).even?")
assert_equal((a % 2) == 1, o, "(#{a}).odd")
assert_equal((a & 1) == 0, e, "(#{a}).even?")
assert_equal((a & 1) == 1, o, "(#{a}).odd")
assert(e ^ o, "(#{a}).even? ^ (#{a}).odd?")
}
end
def test_to_s
2.upto(36) {|radix|
VS.each {|a|
s = a.to_s(radix)
b = s.to_i(radix)
assert_equal(a, b, "(#{a}).to_s(#{radix}).to_i(#{radix})")
}
}
end
def test_printf_x
VS.reverse_each {|a|
s = sprintf("%x", a)
if /\A\.\./ =~ s
b = -($'.tr('0123456789abcdef', 'fedcba9876543210').to_i(16) + 1)
else
b = s.to_i(16)
end
assert_equal(a, b, "sprintf('%x', #{a}) = #{s.inspect}")
}
end
def test_printf_x_sign
VS.reverse_each {|a|
s = sprintf("%+x", a)
b = s.to_i(16)
assert_equal(a, b, "sprintf('%+x', #{a}) = #{s.inspect}")
s = sprintf("% x", a)
b = s.to_i(16)
assert_equal(a, b, "sprintf('% x', #{a}) = #{s.inspect}")
}
end
def test_printf_o
VS.reverse_each {|a|
s = sprintf("%o", a)
if /\A\.\./ =~ s
b = -($'.tr('01234567', '76543210').to_i(8) + 1)
else
b = s.to_i(8)
end
assert_equal(a, b, "sprintf('%o', #{a}) = #{s.inspect}")
}
end
def test_printf_o_sign
VS.reverse_each {|a|
s = sprintf("%+o", a)
b = s.to_i(8)
assert_equal(a, b, "sprintf('%+o', #{a}) = #{s.inspect}")
s = sprintf("% o", a)
b = s.to_i(8)
assert_equal(a, b, "sprintf('% o', #{a}) = #{s.inspect}")
}
end
def test_printf_b
VS.reverse_each {|a|
s = sprintf("%b", a)
if /\A\.\./ =~ s
b = -($'.tr('01', '10').to_i(2) + 1)
else
b = s.to_i(2)
end
assert_equal(a, b, "sprintf('%b', #{a}) = #{s.inspect}")
}
end
def test_printf_b_sign
VS.reverse_each {|a|
s = sprintf("%+b", a)
b = s.to_i(2)
assert_equal(a, b, "sprintf('%+b', #{a}) = #{s.inspect}")
s = sprintf("% b", a)
b = s.to_i(2)
assert_equal(a, b, "sprintf('% b', #{a}) = #{s.inspect}")
}
end
def test_printf_diu
VS.reverse_each {|a|
s = sprintf("%d", a)
b = s.to_i
assert_equal(a, b, "sprintf('%d', #{a}) = #{s.inspect}")
s = sprintf("%i", a)
b = s.to_i
assert_equal(a, b, "sprintf('%i', #{a}) = #{s.inspect}")
s = sprintf("%u", a)
b = s.to_i
assert_equal(a, b, "sprintf('%u', #{a}) = #{s.inspect}")
}
end
def test_marshal
VS.reverse_each {|a|
s = Marshal.dump(a)
b = Marshal.load(s)
assert_equal(a, b, "Marshal.load(Marshal.dump(#{a}))")
}
end
def test_pack
%w[c C s S s! S! i I i! I! l L l! L! q Q n N v V].each {|template|
size = [0].pack(template).size
mask = (1 << (size * 8)) - 1
if /[A-Znv]/ =~ template
min = 0
max = (1 << (size * 8))-1
else
min = -(1 << (size * 8 - 1))
max = (1 << (size * 8 - 1)) - 1
end
VS.reverse_each {|a|
s = [a].pack(template)
b = s.unpack(template)[0]
if min <= a && a <= max
assert_equal(a, b, "[#{a}].pack(#{template.dump}).unpack(#{template.dump})[0]")
end
assert_operator(min, :<=, b)
assert_operator(b, :<=, max)
assert_equal(a & mask, b & mask, "[#{a}].pack(#{template.dump}).unpack(#{template.dump})[0] & #{mask}")
}
}
end
def test_pack_ber
template = "w"
VS.reverse_each {|a|
if a < 0
assert_raise(ArgumentError) { [a].pack(template) }
else
s = [a].pack(template)
b = s.unpack(template)[0]
assert_equal(a, b, "[#{a}].pack(#{template.dump}).unpack(#{template.dump})")
end
}
end
def test_pack_utf8
template = "U"
VS.reverse_each {|a|
if a < 0 || 0x7fffffff < a
assert_raise(RangeError) { [a].pack(template) }
else
s = [a].pack(template)
b = s.unpack(template)[0]
assert_equal(a, b, "[#{a}].pack(#{template.dump}).unpack(#{template.dump})")
end
}
end
end