예제 #1
0
def test_Range_symbolic():
    # symbolic Range
    sr = Range(x, y, t)
    i = Symbol('i', integer=True)
    ip = Symbol('i', integer=True, positive=True)
    ir = Range(i, i + 20, 2)
    inf = symbols('inf', infinite=True)
    # args
    assert sr.args == (x, y, t)
    assert ir.args == (i, i + 20, 2)
    # reversed
    raises(ValueError, lambda: sr.reversed)
    assert ir.reversed == Range(i + 18, i - 2, -2)
    # contains
    assert inf not in sr
    assert inf not in ir
    assert .1 not in sr
    assert .1 not in ir
    assert i + 1 not in ir
    assert i + 2 in ir
    raises(TypeError,
           lambda: 1 in sr)  # XXX is this what contains is supposed to do?
    # iter
    raises(ValueError, lambda: next(iter(sr)))
    assert next(iter(ir)) == i
    assert sr.intersect(S.Integers) == sr
    assert sr.intersect(FiniteSet(x)) == Intersection({x}, sr)
    raises(ValueError, lambda: sr[:2])
    raises(ValueError, lambda: sr[0])
    raises(ValueError, lambda: sr.as_relational(x))
    # len
    assert len(ir) == ir.size == 10
    raises(ValueError, lambda: len(sr))
    raises(ValueError, lambda: sr.size)
    # bool
    assert bool(ir) == bool(sr) == True
    # getitem
    raises(ValueError, lambda: sr[0])
    raises(ValueError, lambda: sr[-1])
    raises(ValueError, lambda: sr[:2])
    assert ir[:2] == Range(i, i + 4, 2)
    assert ir[0] == i
    assert ir[-2] == i + 16
    assert ir[-1] == i + 18
    raises(ValueError, lambda: Range(i)[-1])
    assert Range(ip)[-1] == ip - 1
    assert ir.inf == i
    assert ir.sup == i + 18
    assert Range(ip).inf == 0
    assert Range(ip).sup == ip - 1
    raises(ValueError, lambda: Range(i).inf)
    # as_relational
    raises(ValueError, lambda: sr.as_relational(x))
    assert ir.as_relational(x) == (x >= i) & Eq(x, floor(x)) & (x <= i + 18)
    assert Range(i, i + 1).as_relational(x) == Eq(x, i)
    # contains() for symbolic values (issue #18146)
    e = Symbol('e', integer=True, even=True)
    o = Symbol('o', integer=True, odd=True)
    assert Range(5).contains(i) == And(i >= 0, i <= 4)
    assert Range(1).contains(i) == Eq(i, 0)
    assert Range(-oo, 5, 1).contains(i) == (i <= 4)
    assert Range(-oo, oo).contains(i) == True
    assert Range(0, 8, 2).contains(i) == Contains(i, Range(0, 8, 2))
    assert Range(0, 8, 2).contains(e) == And(e >= 0, e <= 6)
    assert Range(0, 8, 2).contains(2 * i) == And(2 * i >= 0, 2 * i <= 6)
    assert Range(0, 8, 2).contains(o) == False
    assert Range(1, 9, 2).contains(e) == False
    assert Range(1, 9, 2).contains(o) == And(o >= 1, o <= 7)
    assert Range(8, 0, -2).contains(o) == False
    assert Range(9, 1, -2).contains(o) == And(o >= 3, o <= 9)
    assert Range(-oo, 8, 2).contains(i) == Contains(i, Range(-oo, 8, 2))
예제 #2
0
def test_Range_set():
    empty = Range(0)

    assert Range(5) == Range(0, 5) == Range(0, 5, 1)

    r = Range(10, 20, 2)
    assert 12 in r
    assert 8 not in r
    assert 11 not in r
    assert 30 not in r

    assert list(Range(0, 5)) == list(range(5))
    assert list(Range(5, 0, -1)) == list(range(5, 0, -1))


    assert Range(5, 15).sup == 14
    assert Range(5, 15).inf == 5
    assert Range(15, 5, -1).sup == 15
    assert Range(15, 5, -1).inf == 6
    assert Range(10, 67, 10).sup == 60
    assert Range(60, 7, -10).inf == 10

    assert len(Range(10, 38, 10)) == 3

    assert Range(0, 0, 5) == empty
    assert Range(oo, oo, 1) == empty
    assert Range(oo, 1, 1) == empty
    assert Range(-oo, 1, -1) == empty
    assert Range(1, oo, -1) == empty
    assert Range(1, -oo, 1) == empty
    assert Range(1, -4, oo) == empty
    ip = symbols('ip', positive=True)
    assert Range(0, ip, -1) == empty
    assert Range(0, -ip, 1) == empty
    assert Range(1, -4, -oo) == Range(1, 2)
    assert Range(1, 4, oo) == Range(1, 2)
    assert Range(-oo, oo).size == oo
    assert Range(oo, -oo, -1).size == oo
    raises(ValueError, lambda: Range(-oo, oo, 2))
    raises(ValueError, lambda: Range(x, pi, y))
    raises(ValueError, lambda: Range(x, y, 0))

    assert 5 in Range(0, oo, 5)
    assert -5 in Range(-oo, 0, 5)
    assert oo not in Range(0, oo)
    ni = symbols('ni', integer=False)
    assert ni not in Range(oo)
    u = symbols('u', integer=None)
    assert Range(oo).contains(u) is not False
    inf = symbols('inf', infinite=True)
    assert inf not in Range(-oo, oo)
    raises(ValueError, lambda: Range(0, oo, 2)[-1])
    raises(ValueError, lambda: Range(0, -oo, -2)[-1])
    assert Range(-oo, 1, 1)[-1] is S.Zero
    assert Range(oo, 1, -1)[-1] == 2
    assert inf not in Range(oo)
    assert Range(1, 10, 1)[-1] == 9
    assert all(i.is_Integer for i in Range(0, -1, 1))
    it = iter(Range(-oo, 0, 2))
    raises(TypeError, lambda: next(it))

    assert empty.intersect(S.Integers) == empty
    assert Range(-1, 10, 1).intersect(S.Integers) == Range(-1, 10, 1)
    assert Range(-1, 10, 1).intersect(S.Naturals) == Range(1, 10, 1)
    assert Range(-1, 10, 1).intersect(S.Naturals0) == Range(0, 10, 1)

    # test slicing
    assert Range(1, 10, 1)[5] == 6
    assert Range(1, 12, 2)[5] == 11
    assert Range(1, 10, 1)[-1] == 9
    assert Range(1, 10, 3)[-1] == 7
    raises(ValueError, lambda: Range(oo,0,-1)[1:3:0])
    raises(ValueError, lambda: Range(oo,0,-1)[:1])
    raises(ValueError, lambda: Range(1, oo)[-2])
    raises(ValueError, lambda: Range(-oo, 1)[2])
    raises(IndexError, lambda: Range(10)[-20])
    raises(IndexError, lambda: Range(10)[20])
    raises(ValueError, lambda: Range(2, -oo, -2)[2:2:0])
    assert Range(2, -oo, -2)[2:2:2] == empty
    assert Range(2, -oo, -2)[:2:2] == Range(2, -2, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[:2:2])
    assert Range(-oo, 4, 2)[::-2] == Range(2, -oo, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[::2])
    assert Range(oo, 2, -2)[::] == Range(oo, 2, -2)
    assert Range(-oo, 4, 2)[:-2:-2] == Range(2, 0, -4)
    assert Range(-oo, 4, 2)[:-2:2] == Range(-oo, 0, 4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[:0:-2])
    raises(ValueError, lambda: Range(-oo, 4, 2)[:2:-2])
    assert Range(-oo, 4, 2)[-2::-2] == Range(0, -oo, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[-2:0:-2])
    raises(ValueError, lambda: Range(-oo, 4, 2)[0::2])
    assert Range(oo, 2, -2)[0::] == Range(oo, 2, -2)
    raises(ValueError, lambda: Range(-oo, 4, 2)[0:-2:2])
    assert Range(oo, 2, -2)[0:-2:] == Range(oo, 6, -2)
    raises(ValueError, lambda: Range(oo, 2, -2)[0:2:])
    raises(ValueError, lambda: Range(-oo, 4, 2)[2::-1])
    assert Range(-oo, 4, 2)[-2::2] == Range(0, 4, 4)
    assert Range(oo, 0, -2)[-10:0:2] == empty
    raises(ValueError, lambda: Range(oo, 0, -2)[0])
    raises(ValueError, lambda: Range(oo, 0, -2)[-10:10:2])
    raises(ValueError, lambda: Range(oo, 0, -2)[0::-2])
    assert Range(oo, 0, -2)[0:-4:-2] == empty
    assert Range(oo, 0, -2)[:0:2] == empty
    raises(ValueError, lambda: Range(oo, 0, -2)[:1:-1])

    # test empty Range
    assert Range(x, x, y) == empty
    assert empty.reversed == empty
    assert 0 not in empty
    assert list(empty) == []
    assert len(empty) == 0
    assert empty.size is S.Zero
    assert empty.intersect(FiniteSet(0)) is S.EmptySet
    assert bool(empty) is False
    raises(IndexError, lambda: empty[0])
    assert empty[:0] == empty
    raises(NotImplementedError, lambda: empty.inf)
    raises(NotImplementedError, lambda: empty.sup)
    assert empty.as_relational(x) is S.false

    AB = [None] + list(range(12))
    for R in [
            Range(1, 10),
            Range(1, 10, 2),
        ]:
        r = list(R)
        for a, b, c in cartes(AB, AB, [-3, -1, None, 1, 3]):
            for reverse in range(2):
                r = list(reversed(r))
                R = R.reversed
                result = list(R[a:b:c])
                ans = r[a:b:c]
                txt = ('\n%s[%s:%s:%s] = %s -> %s' % (
                R, a, b, c, result, ans))
                check = ans == result
                assert check, txt

    assert Range(1, 10, 1).boundary == Range(1, 10, 1)

    for r in (Range(1, 10, 2), Range(1, oo, 2)):
        rev = r.reversed
        assert r.inf == rev.inf and r.sup == rev.sup
        assert r.step == -rev.step

    builtin_range = range

    raises(TypeError, lambda: Range(builtin_range(1)))
    assert S(builtin_range(10)) == Range(10)
    assert S(builtin_range(1000000000000)) == Range(1000000000000)

    # test Range.as_relational
    assert Range(1, 4).as_relational(x) == (x >= 1) & (x <= 3)  & Eq(Mod(x, 1), 0)
    assert Range(oo, 1, -2).as_relational(x) == (x >= 3) & (x < oo)  & Eq(Mod(x + 1, -2), 0)
예제 #3
0
def test_Range_symbolic():
    # symbolic Range
    xr = Range(x, x + 4, 5)
    sr = Range(x, y, t)
    i = Symbol('i', integer=True)
    ip = Symbol('i', integer=True, positive=True)
    ipr = Range(ip)
    inr = Range(0, -ip, -1)
    ir = Range(i, i + 19, 2)
    ir2 = Range(i, i*8, 3*i)
    i = Symbol('i', integer=True)
    inf = symbols('inf', infinite=True)
    raises(ValueError, lambda: Range(inf))
    raises(ValueError, lambda: Range(inf, 0, -1))
    raises(ValueError, lambda: Range(inf, inf, 1))
    raises(ValueError, lambda: Range(1, 1, inf))
    # args
    assert xr.args == (x, x + 5, 5)
    assert sr.args == (x, y, t)
    assert ir.args == (i, i + 20, 2)
    assert ir2.args == (i, 10*i, 3*i)
    # reversed
    raises(ValueError, lambda: xr.reversed)
    raises(ValueError, lambda: sr.reversed)
    assert ipr.reversed.args == (ip - 1, -1, -1)
    assert inr.reversed.args == (-ip + 1, 1, 1)
    assert ir.reversed.args == (i + 18, i - 2, -2)
    assert ir2.reversed.args == (7*i, -2*i, -3*i)
    # contains
    assert inf not in sr
    assert inf not in ir
    assert 0 in ipr
    assert 0 in inr
    raises(TypeError, lambda: 1 in ipr)
    raises(TypeError, lambda: -1 in inr)
    assert .1 not in sr
    assert .1 not in ir
    assert i + 1 not in ir
    assert i + 2 in ir
    raises(TypeError, lambda: x in xr)  # XXX is this what contains is supposed to do?
    raises(TypeError, lambda: 1 in sr)  # XXX is this what contains is supposed to do?
    # iter
    raises(ValueError, lambda: next(iter(xr)))
    raises(ValueError, lambda: next(iter(sr)))
    assert next(iter(ir)) == i
    assert next(iter(ir2)) == i
    assert sr.intersect(S.Integers) == sr
    assert sr.intersect(FiniteSet(x)) == Intersection({x}, sr)
    raises(ValueError, lambda: sr[:2])
    raises(ValueError, lambda: xr[0])
    raises(ValueError, lambda: sr[0])
    # len
    assert len(ir) == ir.size == 10
    assert len(ir2) == ir2.size == 3
    raises(ValueError, lambda: len(xr))
    raises(ValueError, lambda: xr.size)
    raises(ValueError, lambda: len(sr))
    raises(ValueError, lambda: sr.size)
    # bool
    assert bool(Range(0)) == False
    assert bool(xr)
    assert bool(ir)
    assert bool(ipr)
    assert bool(inr)
    raises(ValueError, lambda: bool(sr))
    raises(ValueError, lambda: bool(ir2))
    # inf
    raises(ValueError, lambda: xr.inf)
    raises(ValueError, lambda: sr.inf)
    assert ipr.inf == 0
    assert inr.inf == -ip + 1
    assert ir.inf == i
    raises(ValueError, lambda: ir2.inf)
    # sup
    raises(ValueError, lambda: xr.sup)
    raises(ValueError, lambda: sr.sup)
    assert ipr.sup == ip - 1
    assert inr.sup == 0
    assert ir.inf == i
    raises(ValueError, lambda: ir2.sup)
    # getitem
    raises(ValueError, lambda: xr[0])
    raises(ValueError, lambda: sr[0])
    raises(ValueError, lambda: sr[-1])
    raises(ValueError, lambda: sr[:2])
    assert ir[:2] == Range(i, i + 4, 2)
    assert ir[0] == i
    assert ir[-2] == i + 16
    assert ir[-1] == i + 18
    assert ir2[:2] == Range(i, 7*i, 3*i)
    assert ir2[0] == i
    assert ir2[-2] == 4*i
    assert ir2[-1] == 7*i
    raises(ValueError, lambda: Range(i)[-1])
    assert ipr[0] == ipr.inf == 0
    assert ipr[-1] == ipr.sup == ip - 1
    assert inr[0] == inr.sup == 0
    assert inr[-1] == inr.inf == -ip + 1
    raises(ValueError, lambda: ipr[-2])
    assert ir.inf == i
    assert ir.sup == i + 18
    raises(ValueError, lambda: Range(i).inf)
    # as_relational
    assert ir.as_relational(x) == ((x >= i) & (x <= i + 18) &
        Eq(Mod(-i + x, 2), 0))
    assert ir2.as_relational(x) == Eq(
        Mod(-i + x, 3*i), 0) & (((x >= i) & (x <= 7*i) & (3*i >= 1)) |
        ((x <= i) & (x >= 7*i) & (3*i <= -1)))
    assert Range(i, i + 1).as_relational(x) == Eq(x, i)
    assert sr.as_relational(z) == Eq(
        Mod(t, 1), 0) & Eq(Mod(x, 1), 0) & Eq(Mod(-x + z, t), 0
        ) & (((z >= x) & (z <= -t + y) & (t >= 1)) |
        ((z <= x) & (z >= -t + y) & (t <= -1)))
    assert xr.as_relational(z) == Eq(z, x) & Eq(Mod(x, 1), 0)
    # symbols can clash if user wants (but it must be integer)
    assert xr.as_relational(x) == Eq(Mod(x, 1), 0)
    # contains() for symbolic values (issue #18146)
    e = Symbol('e', integer=True, even=True)
    o = Symbol('o', integer=True, odd=True)
    assert Range(5).contains(i) == And(i >= 0, i <= 4)
    assert Range(1).contains(i) == Eq(i, 0)
    assert Range(-oo, 5, 1).contains(i) == (i <= 4)
    assert Range(-oo, oo).contains(i) == True
    assert Range(0, 8, 2).contains(i) == Contains(i, Range(0, 8, 2))
    assert Range(0, 8, 2).contains(e) == And(e >= 0, e <= 6)
    assert Range(0, 8, 2).contains(2*i) == And(2*i >= 0, 2*i <= 6)
    assert Range(0, 8, 2).contains(o) == False
    assert Range(1, 9, 2).contains(e) == False
    assert Range(1, 9, 2).contains(o) == And(o >= 1, o <= 7)
    assert Range(8, 0, -2).contains(o) == False
    assert Range(9, 1, -2).contains(o) == And(o >= 3, o <= 9)
    assert Range(-oo, 8, 2).contains(i) == Contains(i, Range(-oo, 8, 2))
예제 #4
0
def test_Range_set():
    empty = Range(0)

    assert Range(5) == Range(0, 5) == Range(0, 5, 1)

    r = Range(10, 20, 2)
    assert 12 in r
    assert 8 not in r
    assert 11 not in r
    assert 30 not in r

    assert list(Range(0, 5)) == list(range(5))
    assert list(Range(5, 0, -1)) == list(range(5, 0, -1))


    assert Range(5, 15).sup == 14
    assert Range(5, 15).inf == 5
    assert Range(15, 5, -1).sup == 15
    assert Range(15, 5, -1).inf == 6
    assert Range(10, 67, 10).sup == 60
    assert Range(60, 7, -10).inf == 10

    assert len(Range(10, 38, 10)) == 3

    assert Range(0, 0, 5) == empty
    assert Range(oo, oo, 1) == empty
    assert Range(oo, 1, 1) == empty
    assert Range(-oo, 1, -1) == empty
    assert Range(1, oo, -1) == empty
    assert Range(1, -oo, 1) == empty
    assert Range(1, -4, oo) == empty
    assert Range(1, -4, -oo) == Range(1, 2)
    assert Range(1, 4, oo) == Range(1, 2)
    assert Range(-oo, oo).size == oo
    assert Range(oo, -oo, -1).size == oo
    raises(ValueError, lambda: Range(-oo, oo, 2))
    raises(ValueError, lambda: Range(x, pi, y))
    raises(ValueError, lambda: Range(x, y, 0))

    assert 5 in Range(0, oo, 5)
    assert -5 in Range(-oo, 0, 5)
    assert oo not in Range(0, oo)
    ni = symbols('ni', integer=False)
    assert ni not in Range(oo)
    u = symbols('u', integer=None)
    assert Range(oo).contains(u) is not False
    inf = symbols('inf', infinite=True)
    assert inf not in Range(-oo, oo)
    raises(ValueError, lambda: Range(0, oo, 2)[-1])
    raises(ValueError, lambda: Range(0, -oo, -2)[-1])
    assert Range(-oo, 1, 1)[-1] is S.Zero
    assert Range(oo, 1, -1)[-1] == 2
    assert inf not in Range(oo)
    inf = symbols('inf', infinite=True)
    assert inf not in Range(oo)
    assert Range(-oo, 1, 1)[-1] is S.Zero
    assert Range(oo, 1, -1)[-1] == 2
    assert Range(1, 10, 1)[-1] == 9
    assert all(i.is_Integer for i in Range(0, -1, 1))

    it = iter(Range(-oo, 0, 2))
    raises(TypeError, lambda: next(it))

    assert empty.intersect(S.Integers) == empty
    assert Range(-1, 10, 1).intersect(S.Integers) == Range(-1, 10, 1)
    assert Range(-1, 10, 1).intersect(S.Naturals) == Range(1, 10, 1)
    assert Range(-1, 10, 1).intersect(S.Naturals0) == Range(0, 10, 1)

    # test slicing
    assert Range(1, 10, 1)[5] == 6
    assert Range(1, 12, 2)[5] == 11
    assert Range(1, 10, 1)[-1] == 9
    assert Range(1, 10, 3)[-1] == 7
    raises(ValueError, lambda: Range(oo,0,-1)[1:3:0])
    raises(ValueError, lambda: Range(oo,0,-1)[:1])
    raises(ValueError, lambda: Range(1, oo)[-2])
    raises(ValueError, lambda: Range(-oo, 1)[2])
    raises(IndexError, lambda: Range(10)[-20])
    raises(IndexError, lambda: Range(10)[20])
    raises(ValueError, lambda: Range(2, -oo, -2)[2:2:0])
    assert Range(2, -oo, -2)[2:2:2] == empty
    assert Range(2, -oo, -2)[:2:2] == Range(2, -2, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[:2:2])
    assert Range(-oo, 4, 2)[::-2] == Range(2, -oo, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[::2])
    assert Range(oo, 2, -2)[::] == Range(oo, 2, -2)
    assert Range(-oo, 4, 2)[:-2:-2] == Range(2, 0, -4)
    assert Range(-oo, 4, 2)[:-2:2] == Range(-oo, 0, 4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[:0:-2])
    raises(ValueError, lambda: Range(-oo, 4, 2)[:2:-2])
    assert Range(-oo, 4, 2)[-2::-2] == Range(0, -oo, -4)
    raises(ValueError, lambda: Range(-oo, 4, 2)[-2:0:-2])
    raises(ValueError, lambda: Range(-oo, 4, 2)[0::2])
    assert Range(oo, 2, -2)[0::] == Range(oo, 2, -2)
    raises(ValueError, lambda: Range(-oo, 4, 2)[0:-2:2])
    assert Range(oo, 2, -2)[0:-2:] == Range(oo, 6, -2)
    raises(ValueError, lambda: Range(oo, 2, -2)[0:2:])
    raises(ValueError, lambda: Range(-oo, 4, 2)[2::-1])
    assert Range(-oo, 4, 2)[-2::2] == Range(0, 4, 4)
    assert Range(oo, 0, -2)[-10:0:2] == empty
    raises(ValueError, lambda: Range(oo, 0, -2)[-10:10:2])
    raises(ValueError, lambda: Range(oo, 0, -2)[0::-2])
    assert Range(oo, 0, -2)[0:-4:-2] == empty
    assert Range(oo, 0, -2)[:0:2] == empty
    raises(ValueError, lambda: Range(oo, 0, -2)[:1:-1])

    # test empty Range
    assert Range(x, x, y) == empty
    assert empty.reversed == empty
    assert 0 not in empty
    assert list(empty) == []
    assert len(empty) == 0
    assert empty.size is S.Zero
    assert empty.intersect(FiniteSet(0)) is S.EmptySet
    assert bool(empty) is False
    raises(IndexError, lambda: empty[0])
    assert empty[:0] == empty
    raises(NotImplementedError, lambda: empty.inf)
    raises(NotImplementedError, lambda: empty.sup)

    AB = [None] + list(range(12))
    for R in [
            Range(1, 10),
            Range(1, 10, 2),
        ]:
        r = list(R)
        for a, b, c in cartes(AB, AB, [-3, -1, None, 1, 3]):
            for reverse in range(2):
                r = list(reversed(r))
                R = R.reversed
                result = list(R[a:b:c])
                ans = r[a:b:c]
                txt = ('\n%s[%s:%s:%s] = %s -> %s' % (
                R, a, b, c, result, ans))
                check = ans == result
                assert check, txt

    assert Range(1, 10, 1).boundary == Range(1, 10, 1)

    for r in (Range(1, 10, 2), Range(1, oo, 2)):
        rev = r.reversed
        assert r.inf == rev.inf and r.sup == rev.sup
        assert r.step == -rev.step

    # Make sure to use range in Python 3 and xrange in Python 2 (regardless of
    # compatibility imports above)
    if PY3:
        builtin_range = range
    else:
        builtin_range = xrange

    raises(TypeError, lambda: Range(builtin_range(1)))
    assert S(builtin_range(10)) == Range(10)
    if PY3:
        assert S(builtin_range(1000000000000)) == \
            Range(1000000000000)

    # test Range.as_relational
    assert Range(1, 4).as_relational(x) == (x >= 1) & (x <= 3) & Eq(x, floor(x))
    assert Range(oo, 1, -2).as_relational(x) == (x >= 3) & (x < oo) & Eq(x, floor(x))

    # symbolic Range
    sr = Range(x, y, t)
    i = Symbol('i', integer=True)
    ip = Symbol('i', integer=True, positive=True)
    ir = Range(i, i + 20, 2)
    # args
    assert sr.args == (x, y, t)
    assert ir.args == (i, i + 20, 2)
    # reversed
    raises(ValueError, lambda: sr.reversed)
    assert ir.reversed == Range(i + 18, i - 2, -2)
    # contains
    assert inf not in sr
    assert inf not in ir
    assert .1 not in sr
    assert .1 not in ir
    assert i + 1 not in ir
    assert i + 2 in ir
    raises(TypeError, lambda: 1 in sr)  # XXX is this what contains is supposed to do?
    # iter
    raises(ValueError, lambda: next(iter(sr)))
    assert next(iter(ir)) == i
    assert sr.intersect(S.Integers) == sr
    assert sr.intersect(FiniteSet(x)) == Intersection({x}, sr)
    raises(ValueError, lambda: sr[:2])
    raises(ValueError, lambda: sr[0])
    raises(ValueError, lambda: sr.as_relational(x))
    # len
    assert len(ir) == ir.size == 10
    raises(ValueError, lambda: len(sr))
    raises(ValueError, lambda: sr.size)
    # bool
    assert bool(ir) == bool(sr) == True
    # getitem
    raises(ValueError, lambda: sr[0])
    raises(ValueError, lambda: sr[-1])
    raises(ValueError, lambda: sr[:2])
    assert ir[:2] == Range(i, i + 4, 2)
    assert ir[0] == i
    assert ir[-2] == i + 16
    assert ir[-1] == i + 18
    raises(ValueError, lambda: Range(i)[-1])
    assert Range(ip)[-1] == ip - 1
    assert ir.inf == i
    assert ir.sup == i + 18
    assert Range(ip).inf == 0
    assert Range(ip).sup == ip - 1
    raises(ValueError, lambda: Range(i).inf)
    raises(ValueError, lambda: sr.as_relational(x))
    assert ir.as_relational(x) == (
        x >= i) & Eq(x, floor(x)) & (x <= i + 18)