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import py
from rpython.rlib.jit import JitDriver, promote, elidable, set_param
from rpython.jit.codewriter.policy import StopAtXPolicy
from rpython.jit.metainterp.test.support import LLJitMixin
class SendTests(object):
def test_green_send(self):
myjitdriver = JitDriver(greens = ['i'], reds = ['counter'])
lst = ["123", "45"]
def f(i):
counter = 20
c = 0
while counter > 0:
myjitdriver.can_enter_jit(counter=counter, i=i)
myjitdriver.jit_merge_point(counter=counter, i=i)
s = lst[i]
c = len(s)
counter -= 1
return c
res = self.meta_interp(f, [1])
assert res == 2
self.check_resops({'jump': 1, 'guard_true': 2, 'int_gt': 2,
'int_sub': 2}) # all folded away
def test_red_builtin_send(self):
myjitdriver = JitDriver(greens = [], reds = ['i', 'counter'])
lst = [{1:1, 2:2, 3:3}, {4:4, 5:5}]
def externfn(i):
return lst[i]
def f(i):
counter = 20
res = 0
while counter > 0:
myjitdriver.can_enter_jit(counter=counter, i=i)
myjitdriver.jit_merge_point(counter=counter, i=i)
dct = externfn(i)
res = len(dct)
counter -= 1
return res
res = self.meta_interp(f, [1], policy=StopAtXPolicy(externfn))
assert res == 2
# 'len' becomes a getfield('num_items') for now in lltype,
# which is itself encoded as a 'getfield_gc'
self.check_resops(call_r=2, getfield_gc_i=2)
def test_send_to_single_target_method(self):
myjitdriver = JitDriver(greens = [], reds = ['i', 'counter'])
class Foo:
def meth(self, y):
return self.x + y
def externfn(i):
foo = Foo()
foo.x = i * 42
return foo
def f(i):
counter = 20
res = 0
while counter > 0:
myjitdriver.can_enter_jit(counter=counter, i=i)
myjitdriver.jit_merge_point(counter=counter, i=i)
foo = externfn(i)
res = foo.meth(i)
counter -= 1
return res
res = self.meta_interp(f, [1], policy=StopAtXPolicy(externfn),
backendopt=True)
assert res == 43
self.check_resops({'int_gt': 2, 'getfield_gc_i': 2,
'guard_true': 2, 'int_sub': 2, 'jump': 1,
'call_r': 2, 'guard_no_exception': 2,
'int_add': 2})
def test_red_send_to_green_receiver(self):
myjitdriver = JitDriver(greens = ['i'], reds = ['counter', 'j'])
class Foo(object):
def meth(self, i):
return 42 + i
class Foobar(Foo):
def meth(self, i):
return 146 + i
lst = [Foo(), Foo(), Foobar(), Foo(), Foobar(), Foo()]
def f(i, j):
counter = 20
res = 0
while counter > 0:
myjitdriver.can_enter_jit(counter=counter, i=i, j=j)
myjitdriver.jit_merge_point(counter=counter, i=i, j=j)
foo = lst[i]
res = foo.meth(j)
counter -= 1
return res
res = self.meta_interp(f, [4, -1])
assert res == 145
self.check_resops(int_add=1)
def test_oosend_base(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'w'])
class Base:
pass
class W1(Base):
def __init__(self, x):
self.x = x
def incr(self):
return W1(self.x + 1)
def getvalue(self):
return self.x
class W2(Base):
def __init__(self, y):
self.y = y
def incr(self):
return W2(self.y + 100)
def getvalue(self):
return self.y
def f(x, y):
if x & 1:
w = W1(x)
else:
w = W2(x)
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, w=w)
myjitdriver.jit_merge_point(x=x, y=y, w=w)
w = w.incr()
y -= 1
return w.getvalue()
res = self.meta_interp(f, [3, 14])
assert res == 17
res = self.meta_interp(f, [4, 14])
assert res == 1404
self.check_resops(guard_class=1, new=0, new_with_vtable=0)
def test_three_receivers(self):
myjitdriver = JitDriver(greens = [], reds = ['y'])
class Base:
pass
class W1(Base):
def foo(self):
return 1
class W2(Base):
def foo(self):
return 2
class W3(Base):
def foo(self):
return 3
def externfn(y):
lst = [W1, W1, W2, W2, W3, W3, W2, W1, W3]
W = lst[y % len(lst)]
return W()
def f(y):
while y > 0:
myjitdriver.can_enter_jit(y=y)
myjitdriver.jit_merge_point(y=y)
w = externfn(y)
w.foo()
y -= 1
return 42
policy = StopAtXPolicy(externfn)
for j in range(69, 75):
res = self.meta_interp(f, [j], policy=policy)
assert res == 42
self.check_enter_count_at_most(5)
self.check_trace_count_at_most(5)
def test_oosend_guard_failure(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'w'])
class Base:
pass
class W1(Base):
def __init__(self, x):
self.x = x
def incr(self):
return W2(self.x + 1)
def getvalue(self):
return self.x
class W2(Base):
def __init__(self, y):
self.y = y
def incr(self):
return W1(self.y + 100)
def getvalue(self):
return self.y
def f(x, y):
set_param(myjitdriver, 'max_unroll_loops', 5)
if x & 1:
w = W1(x)
else:
w = W2(x)
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, w=w)
myjitdriver.jit_merge_point(x=x, y=y, w=w)
w = w.incr()
y -= 1
return w.getvalue()
res = self.meta_interp(f, [3, 28])
assert res == f(3, 28)
res = self.meta_interp(f, [4, 28])
assert res == f(4, 28)
# This checks that the loop was originally aborted due to an
# InvalidLoop condition, and was then unrolled, giving two copies
# of the body in a single bigger loop with no failing guard except
# the final one.
self.check_trace_count(1)
self.check_resops(guard_class=1, int_add=4, int_sub=4)
#self.check_jumps(14)
def test_oosend_guard_failure_2(self):
# same as above, but using prebuilt objects 'w1' and 'w2'
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'w'])
class Base:
pass
class W1(Base):
def __init__(self, x):
self.x = x
def incr(self):
return W2(self.x + 1)
def getvalue(self):
return self.x
class W2(Base):
def __init__(self, y):
self.y = y
def incr(self):
return W1(self.y + 100)
def getvalue(self):
return self.y
w1 = W1(10)
w2 = W2(20)
def f(x, y):
set_param(myjitdriver, 'max_unroll_loops', 5)
if x & 1:
w = w1
else:
w = w2
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, w=w)
myjitdriver.jit_merge_point(x=x, y=y, w=w)
w = w.incr()
y -= 1
return w.getvalue()
res = self.meta_interp(f, [3, 28])
assert res == f(3, 28)
res = self.meta_interp(f, [4, 28])
assert res == f(4, 28)
self.check_trace_count(1)
self.check_resops(guard_class=1, int_add=4, int_sub=4)
#self.check_jumps(14)
def test_oosend_different_initial_class(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'w'])
class Base:
pass
class W1(Base):
def __init__(self, x):
self.x = x
def incr(self):
return W2(self.x + 1)
def getvalue(self):
return self.x
class W2(Base):
def __init__(self, y):
self.y = y
def incr(self):
return W2(self.y * 2)
def getvalue(self):
return self.y
def f(x, y):
w = W1(x)
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, w=w)
myjitdriver.jit_merge_point(x=x, y=y, w=w)
w = w.incr()
y -= 1
return w.getvalue()
res = self.meta_interp(f, [3, 28])
assert res == f(3, 28)
# The effect of the ClassGuard generated by the oosend to incr()
# should be to unroll the first iteration of the loop. Indeed,
# looking only at the loop, we deduce that the class of 'w' is 'W2'.
# However, this doesn't match the initial value of 'w'.
# XXX This not completely easy to check...
self.check_trace_count(1)
self.check_resops(guard_class=1, new_with_vtable=0, int_lshift=2,
int_add=0, new=0)
def test_indirect_call_unknown_object_1(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y'])
def getvalue2():
return 2
def getvalue25():
return 25
def getvalue1001():
return -1001
def externfn(n):
if n % 5:
return getvalue2
elif n % 7:
return getvalue25
else:
return getvalue1001
def f(y):
x = 0
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y)
myjitdriver.jit_merge_point(x=x, y=y)
x += externfn(y)()
y -= 1
return x
res = self.meta_interp(f, [198], policy=StopAtXPolicy(externfn))
assert res == f(198)
self.check_trace_count(4)
def test_indirect_call_unknown_object_2(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'state'])
def getvalue2():
return 2
def getvalue25():
return 25
def getvalue1001():
return -1001
class State:
count = 0
def externfn(self, n):
assert n == 198 - self.count
self.count += 1
if n % 5:
return getvalue2
elif n % 7:
return getvalue25
else:
return getvalue1001
def f(y):
state = State()
x = 0
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, state=state)
myjitdriver.jit_merge_point(x=x, y=y, state=state)
x += state.externfn(y)()
y -= 1
return x
res = self.meta_interp(f, [198],
policy=StopAtXPolicy(State.externfn.im_func))
assert res == f(198)
# we get two TargetTokens, one for the loop and one for the preamble
self.check_jitcell_token_count(1)
self.check_target_token_count(2)
def test_indirect_call_unknown_object_3(self):
myjitdriver = JitDriver(greens = [], reds = ['x', 'y', 'z', 'state'])
def getvalue2():
return 2
def getvalue25():
return 25
def getvalue1001():
return -1001
class State:
count = 0
def externfn(self, n):
assert n == 198 - self.count
self.count += 1
if n % 5:
return getvalue2
elif n % 7:
return getvalue25
else:
return getvalue1001
def f(y):
state = State()
x = z = 0
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y, z=z, state=state)
myjitdriver.jit_merge_point(x=x, y=y, z=z, state=state)
x += z
z = state.externfn(y)()
y -= 1
return x
res = self.meta_interp(f, [198],
policy=StopAtXPolicy(State.externfn.im_func))
assert res == f(198)
# we get four TargetTokens: one for each of the 3 getvalue functions,
# and one entering from the interpreter (the preamble)
self.check_jitcell_token_count(1)
self.check_target_token_count(4)
def test_two_behaviors(self):
myjitdriver = JitDriver(greens = [], reds = ['y', 'x'])
class Int:
def __init__(self, value):
self.value = value
cases = [True]*100 + [False, True]*10 + [False]*20
def f(y):
x = Int(0)
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y)
myjitdriver.jit_merge_point(x=x, y=y)
y -= 1
if cases[y]:
x = Int(x.value + 1)
return x.value
res = self.meta_interp(f, [len(cases)])
assert res == 110
def test_behavior_change_after_a_while(self):
myjitdriver = JitDriver(greens = [], reds = ['y', 'x'])
class Base:
def __init__(self, value):
self.value = value
class Int1(Base):
pass
class Int2(Base):
pass
cases = [False, True, True, True, True]*40
def f(y):
x = Int1(0)
while y > 0:
myjitdriver.can_enter_jit(x=x, y=y)
myjitdriver.jit_merge_point(x=x, y=y)
y -= 1
value = x.value + 1
if cases[y]:
x = Int1(value)
else:
x = Int2(value)
return x.value
res = self.meta_interp(f, [len(cases)])
assert res == 200
# we expect 2 versions of the loop, 1 entry bridge,
# and 1 bridge going from the
# loop back to the loop
self.check_trace_count(2) # preamble/loop and 1 bridge
self.check_jitcell_token_count(1)
self.check_target_token_count(3) # preamble, Int1, Int2
self.check_aborted_count(0)
def test_three_cases(self):
class Node:
def __init__(self, x):
self.x = x
myjitdriver = JitDriver(greens = [], reds = ['node'])
def f(n):
node = Node(n)
while node.x > 0:
myjitdriver.can_enter_jit(node=node)
myjitdriver.jit_merge_point(node=node)
if node.x < 40:
if node.x < 20:
node = Node(node.x - 1)
node = Node(node.x - 1)
node = Node(node.x - 1)
return node.x
res = self.meta_interp(f, [55])
assert res == f(55)
self.check_trace_count(3)
def test_three_classes(self):
class Base:
pass
class A(Base):
def f(self):
return 1
class B(Base):
def f(self):
return 2
class C(Base):
def f(self):
return 3
myjitdriver = JitDriver(greens = [], reds = ['n'])
def extern(n):
if n > 40:
return A()
elif n > 20:
return B()
else:
return C()
def f(n):
while n > 0:
myjitdriver.can_enter_jit(n=n)
myjitdriver.jit_merge_point(n=n)
n -= extern(n).f()
return n
res = self.meta_interp(f, [55], policy=StopAtXPolicy(extern))
assert res == f(55)
self.check_jitcell_token_count(1)
def test_bug1(self):
myjitdriver = JitDriver(greens = [], reds = ['n', 'node'])
class Base:
pass
class A(Base):
def decr(self, n):
return n - 2
class B(Base):
def __init__(self, n):
self.n = n
def decr(self, n):
assert n == self.n
return self.n - 1
def extern(n):
if n <= 21:
return B(n)
else:
return A()
def f(n):
node = A()
while n >= 0:
myjitdriver.can_enter_jit(node=node, n=n)
myjitdriver.jit_merge_point(node=node, n=n)
n = node.decr(n)
node = extern(n)
return n
res = self.meta_interp(f, [60], policy=StopAtXPolicy(extern))
assert res == f(60)
def test_recursive_call_to_portal_from_blackhole(self):
from rpython.rtyper.annlowlevel import hlstr
myjitdriver = JitDriver(greens = ['k'], reds = ['n'])
def f(n, k):
while n >= 0:
myjitdriver.can_enter_jit(n=n, k=k)
myjitdriver.jit_merge_point(n=n, k=k)
if n == 3 and k == 0:
return f(10, 1)
n -= 1
if k == 1:
return "string"
return "xyz"
res = self.meta_interp(f, [20, 0])
assert hlstr(res) == "string"
def test_residual_oosend(self):
myjitdriver = JitDriver(greens=[], reds = ['i', 'obj'])
class A:
def foo(self):
return 41
class B(A):
def foo(self):
return 42
def new(n):
if n:
return A()
else:
return B()
def fn(n, i):
res = 0
obj = new(n)
while i > 0:
myjitdriver.can_enter_jit(i=i, obj=obj)
myjitdriver.jit_merge_point(i=i, obj=obj)
res = obj.foo()
i-=1
return res
policy = StopAtXPolicy(new, A.foo.im_func, B.foo.im_func)
res = self.meta_interp(fn, [0, 20], policy=policy)
assert res == 42
self.check_resops(call_i=2)
def test_residual_oosend_with_void(self):
myjitdriver = JitDriver(greens=[], reds = ['i', 'obj'])
class A:
def foo(self, other):
return 41
def _freeze_(self):
return True
def new(n):
if n:
return A()
else:
return None
pbc = A()
def fn(n, i):
res = 0
obj = new(n)
while i > 0:
myjitdriver.can_enter_jit(i=i, obj=obj)
myjitdriver.jit_merge_point(i=i, obj=obj)
res = obj.foo(pbc)
i-=1
return res
policy = StopAtXPolicy(new, A.foo.im_func)
res = self.meta_interp(fn, [1, 20], policy=policy)
assert res == 41
self.check_resops(call_i=2)
def test_constfold_pure_oosend(self):
myjitdriver = JitDriver(greens=[], reds = ['i', 'obj'])
class A:
@elidable
def foo(self):
return 42
def fn(n, i):
res = 0
obj = A()
while i > 0:
myjitdriver.can_enter_jit(i=i, obj=obj)
myjitdriver.jit_merge_point(i=i, obj=obj)
promote(obj)
res = obj.foo()
i-=1
return res
policy = StopAtXPolicy(A.foo.im_func)
res = self.meta_interp(fn, [1, 20], policy=policy)
assert res == 42
self.check_resops(call=0)
def test_generalize_loop(self):
myjitdriver = JitDriver(greens=[], reds = ['i', 'obj'])
class A:
def __init__(self, n):
self.n = n
def extern(obj):
pass
def fn(i):
obj = A(1)
while i > 0:
myjitdriver.can_enter_jit(i=i, obj=obj)
myjitdriver.jit_merge_point(i=i, obj=obj)
obj = A(obj.n + 1)
if i < 10:
extern(obj)
i -= 1
return obj.n
res = self.meta_interp(fn, [20], policy=StopAtXPolicy(extern))
assert res == 21
class TestLLtype(SendTests, LLJitMixin):
pass
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