def test_rename():
ordering = {'x': 0, 'xp': 1}
g = BDD(ordering)
x = g.add_expr('x')
xp = g.add_expr('xp')
dvars = {'x': 'xp'}
xrenamed = _bdd.rename(x, g, dvars)
assert xrenamed == xp, xrenamed
ordering = {'x': 0, 'xp': 1, 'y': 2, 'yp': 3, 'z': 4, 'zp': 5}
g = BDD(ordering)
u = g.add_expr('x && y && ! z')
dvars = {'x': 'xp', 'y': 'yp', 'z': 'zp'}
urenamed = _bdd.rename(u, g, dvars)
up = g.add_expr('xp && yp && ! zp')
assert urenamed == up, urenamed
# assertion violations
# non-neighbors
dvars = {'x': 'yp'}
with nt.assert_raises(AssertionError):
_bdd.rename(u, g, dvars)
# u not in bdd
dvars = {'x': 'xp'}
with nt.assert_raises(AssertionError):
_bdd.rename(15, g, dvars)
# y essential for u
dvars = {'xp': 'y'}
with nt.assert_raises(AssertionError):
_bdd.rename(u, g, dvars)
# old and new vars intersect
dvars = {'x': 'x'}
with nt.assert_raises(AssertionError):
_bdd.rename(u, g, dvars)
def test_rename():
ordering = {'x': 0, 'xp': 1}
g = BDD(ordering)
x = g.add_expr('x')
xp = g.add_expr('xp')
dvars = {'x': 'xp'}
xrenamed = _bdd.rename(x, g, dvars)
assert xrenamed == xp, xrenamed
ordering = {'x': 0, 'xp': 1,
'y': 2, 'yp': 3,
'z': 4, 'zp': 5}
g = BDD(ordering)
u = g.add_expr('x && y && ! z')
dvars = {'x': 'xp', 'y': 'yp', 'z': 'zp'}
urenamed = _bdd.rename(u, g, dvars)
up = g.add_expr('xp && yp && ! zp')
assert urenamed == up, urenamed
# assertion violations
# non-neighbors
dvars = {'x': 'yp'}
r = _bdd.rename(u, g, dvars)
r_ = g.add_expr('yp && y && ! z')
assert r == r_, (r, r_)
# u not in bdd
dvars = {'x': 'xp'}
with nt.assert_raises(AssertionError):
_bdd.rename(1000, g, dvars)
# y essential for u
dvars = {'xp': 'y'}
with nt.assert_raises(AssertionError):
_bdd.rename(u, g, dvars)
# old and new vars intersect
dvars = {'x': 'x'}
with nt.assert_raises(AssertionError):
_bdd.rename(u, g, dvars)
def require_closure(z, aut):
bdd = aut.bdd
for p in aut.players:
(action,) = aut.action[p]
zp = _bdd.rename(z, bdd, aut.prime[p])
stay = bdd.apply('and', z, zp)
u = bdd.apply('and', action, stay)
aut.action[p] = [u]
def image(source, aut):
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
pre = bdd.false
for i, p in aut.turns.iteritems():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
(action,) = aut.action[p]
qvars = aut.prime[p]
u = symbolic.cofactor(source, ivar, i, bdd, aut.vars)
u = bdd.apply('and', action, u)
u = bdd.quantify(u, qvars, forall=False)
u = _bdd.rename(u, bdd, aut.unprime[p])
s = '{ivar} = {ip}'.format(ivar=ivar, ip=ip)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
pre = bdd.apply('or', pre, u)
return pre
def image(source, aut):
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
pre = bdd.false
for i, p in aut.turns.items():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
(action, ) = aut.action[p]
qvars = aut.prime[p]
u = symbolic.cofactor(source, ivar, i, bdd, aut.vars)
u = bdd.apply('and', action, u)
u = bdd.quantify(u, qvars, forall=False)
u = _bdd.rename(u, bdd, aut.unprime[p])
s = '{ivar} = {ip}'.format(ivar=ivar, ip=ip)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
pre = bdd.apply('or', pre, u)
return pre
def ue_preimage(target, team, aut):
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
pre = bdd.false
for i, p in aut.turns.iteritems():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
u = symbolic.cofactor(target, ivar, ip, bdd, aut.vars)
u = _bdd.rename(u, bdd, aut.prime[p])
(action,) = aut.action[p]
if p not in team:
u = bdd.apply('not', u)
u = bdd.apply('and', action, u)
u = bdd.quantify(u, aut.unprime[p], forall=False)
if p not in team:
u = bdd.apply('not', u)
s = '{ivar} = {i}'.format(ivar=ivar, i=i)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
pre = bdd.apply('or', pre, u)
return pre
def preimage(target, aut):
"""Predecessors with interleaving repr."""
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
# needed to force extra steps outside
pre = bdd.false
for i, p in aut.turns.iteritems():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
u = symbolic.cofactor(target, ivar, ip, bdd, aut.vars)
(action,) = aut.action[p]
u = _bdd.rename(u, bdd, aut.prime[p])
u = bdd.apply('and', action, u)
qvars = aut.unprime[p]
u = bdd.quantify(u, qvars, forall=False)
s = '{ivar} = {i}'.format(ivar=ivar, i=i)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
# TODO: revisit the index behavior
pre = bdd.apply('or', pre, u)
return pre
def ue_preimage(target, team, aut):
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
pre = bdd.false
for i, p in aut.turns.items():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
u = symbolic.cofactor(target, ivar, ip, bdd, aut.vars)
u = _bdd.rename(u, bdd, aut.prime[p])
(action, ) = aut.action[p]
if p not in team:
u = bdd.apply('not', u)
u = bdd.apply('and', action, u)
u = bdd.quantify(u, aut.unprime[p], forall=False)
if p not in team:
u = bdd.apply('not', u)
s = '{ivar} = {i}'.format(ivar=ivar, i=i)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
pre = bdd.apply('or', pre, u)
return pre
def preimage(target, aut):
"""Predecessors with interleaving repr."""
bdd = aut.bdd
n = len(aut.players)
ivar = '_i'
# needed to force extra steps outside
pre = bdd.false
for i, p in aut.turns.items():
assert i < n, (i, n)
assert p in aut.players, (p, aut.players)
ip = (i + 1) % n
u = symbolic.cofactor(target, ivar, ip, bdd, aut.vars)
(action, ) = aut.action[p]
u = _bdd.rename(u, bdd, aut.prime[p])
u = bdd.apply('and', action, u)
qvars = aut.unprime[p]
u = bdd.quantify(u, qvars, forall=False)
s = '{ivar} = {i}'.format(ivar=ivar, i=i)
turn = aut.add_expr(s)
u = bdd.apply('and', turn, u)
# TODO: revisit the index behavior
pre = bdd.apply('or', pre, u)
return pre
def rename(u, bdd, dvars):
r = _bdd.rename(u.node, u.bdd, dvars)
return bdd._wrap(r)
def rename(u, bdd, dvars):
r = _bdd.rename(u.node, u.bdd, dvars)
return bdd._wrap(r)
