def test_size_q():
n = 13
m = 3
c = dict(q=[n,m])
c = format_and_copy_cone(c)
assert cone_len(c) == n+m
def test_size_s():
n = 13
m = 3
c = dict(s=[n,m])
c = format_and_copy_cone(c)
assert cone_len(c) == (n*(n+1))/2 + (m*(m+1))/2
def test_size_s():
n = 13
m = 3
c = dict(s=[n, m])
c = format_and_copy_cone(c)
assert cone_len(c) == (n * (n + 1)) / 2 + (m * (m + 1)) / 2
def test_size_q():
n = 13
m = 3
c = dict(q=[n, m])
c = format_and_copy_cone(c)
assert cone_len(c) == n + m
def test_cone():
d = dict(f=1, l=20, ep=4, ed=7, q=[3,4,9,10], s=[3,2,4], p=[.1, -.7])
c = format_and_copy_cone(d)
expected = (d['f'] + d['l'] + 3*d['ep'] + 3*d['ed'] +
sum(d['q']) + len(d['p'])*3 + sum([i*(i+1)/2 for i in d['s']]))
assert cone_len(c) == expected
def test_cone():
d = dict(f=1, l=20, ep=4, ed=7, q=[3, 4, 9, 10], s=[3, 2, 4], p=[.1, -.7])
c = format_and_copy_cone(d)
expected = (d['f'] + d['l'] + 3 * d['ep'] + 3 * d['ed'] + sum(d['q']) +
len(d['p']) * 3 + sum([i * (i + 1) / 2 for i in d['s']]))
assert cone_len(c) == expected
def test_size_f():
n = 13
d = dict(f=n)
assert cone_len(d) == n
def test_size_p():
a = [-.4, .7]
c = dict(p=a)
c = format_and_copy_cone(c)
assert cone_len(c) == 3*len(a)
def test_size_ed():
n = 13
c = dict(ed=n)
assert cone_len(c) == 3*n
def test_size_l():
n = 13
c = dict(l=n)
assert cone_len(c) == n
def test_size_f():
n = 13
d = dict(f=n)
assert cone_len(d) == n
def test_size_p():
a = [-.4, .7]
c = dict(p=a)
c = format_and_copy_cone(c)
assert cone_len(c) == 3 * len(a)
def test_size_ed():
n = 13
c = dict(ed=n)
assert cone_len(c) == 3 * n
def test_size_l():
n = 13
c = dict(l=n)
assert cone_len(c) == n