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|
import py
from rpython.annotator import model as annmodel
from rpython.annotator import specialize
from rpython.rtyper.lltypesystem.lltype import typeOf
from rpython.rtyper.test.tool import BaseRtypingTest
from rpython.rtyper.llannotation import SomePtr, lltype_to_annotation
class MyBase:
def m(self, x):
return self.z + x
class MySubclass(MyBase):
def m(self, x):
return self.z - x
class MyStrangerSubclass(MyBase):
def m(self, x, y):
return x*y
class MyBaseWithInit:
def __init__(self, a):
self.a1 = a
class MySubclassWithInit(MyBaseWithInit):
def __init__(self, a, b):
MyBaseWithInit.__init__(self, a)
self.b1 = b
class MySubclassWithoutInit(MyBaseWithInit):
pass
class MySubclassWithoutMethods(MyBase):
pass
class Freezing:
def _freeze_(self):
return True
def mymethod(self, y):
return self.x + y
class TestRPBC(BaseRtypingTest):
def test_easy_call(self):
def f(x):
return x+1
def g(y):
return f(y+2)
res = self.interpret(g, [5])
assert res == 8
def test_multiple_call(self):
def f1(x):
return x+1
def f2(x):
return x+2
def g(y):
if y < 0:
f = f1
else:
f = f2
return f(y+3)
res = self.interpret(g, [-1])
assert res == 3
res = self.interpret(g, [1])
assert res == 6
def test_function_is_null(self):
def f1(x):
return x+1
def f2(x):
return x+2
def g(x):
if x < 0:
return None
elif x == 0:
return f2
else:
return f1
def fn(x):
func = g(x)
if func:
return 42
else:
return 43
assert self.interpret(fn, [1]) == 42
assert self.interpret(fn, [-1]) == 43
def test_method_call(self):
def f(a, b):
obj = MyBase()
obj.z = a
return obj.m(b)
res = self.interpret(f, [4, 5])
assert res == 9
def test_virtual_method_call(self):
def f(a, b):
if a > 0:
obj = MyBase()
else:
obj = MySubclass()
obj.z = a
return obj.m(b)
res = self.interpret(f, [1, 2.3])
assert res == 3.3
res = self.interpret(f, [-1, 2.3])
assert res == -3.3
def test_stranger_subclass_1(self):
def f1():
obj = MyStrangerSubclass()
obj.z = 100
return obj.m(6, 7)
res = self.interpret(f1, [])
assert res == 42
def test_stranger_subclass_2(self):
def f2():
obj = MyStrangerSubclass()
obj.z = 100
return obj.m(6, 7) + MyBase.m(obj, 58)
res = self.interpret(f2, [])
assert res == 200
def test_class_init(self):
def f(a):
instance = MyBaseWithInit(a)
return instance.a1
assert self.interpret(f, [5]) == 5
def test_class_init_2(self):
def f(a, b):
instance = MySubclassWithInit(a, b)
return instance.a1 * instance.b1
assert self.interpret(f, [6, 7]) == 42
def test_class_calling_init(self):
def f():
instance = MySubclassWithInit(1, 2)
instance.__init__(3, 4)
return instance.a1 * instance.b1
assert self.interpret(f, []) == 12
def test_class_init_w_kwds(self):
def f(a):
instance = MyBaseWithInit(a=a)
return instance.a1
assert self.interpret(f, [5]) == 5
def test_class_init_2_w_kwds(self):
def f(a, b):
instance = MySubclassWithInit(a, b=b)
return instance.a1 * instance.b1
assert self.interpret(f, [6, 7]) == 42
def test_class_init_inherited(self):
def f(a):
instance = MySubclassWithoutInit(a)
return instance.a1
assert self.interpret(f, [42]) == 42
def test_class_method_inherited(self):
# The strange names for this test are taken from richards,
# where the problem originally arose.
class Task:
def waitTask(self, a):
return a+1
def fn(self, a):
raise NotImplementedError
def runTask(self, a):
return self.fn(a)
class HandlerTask(Task):
def fn(self, a):
return self.waitTask(a)+2
class DeviceTask(Task):
def fn(self, a):
return self.waitTask(a)+3
def f(a, b):
if b:
inst = HandlerTask()
else:
inst = DeviceTask()
return inst.runTask(a)
assert self.interpret(f, [42, True]) == 45
assert self.interpret(f, [42, False]) == 46
def test_freezing(self):
fr1 = Freezing()
fr2 = Freezing()
fr1.x = 5
fr2.x = 6
def g(fr):
return fr.x
def f(n):
if n > 0:
fr = fr1
elif n < 0:
fr = fr2
else:
fr = None
return g(fr)
res = self.interpret(f, [1])
assert res == 5
res = self.interpret(f, [-1])
assert res == 6
def test_call_frozen_pbc_simple(self):
fr1 = Freezing()
fr1.x = 5
def f(n):
return fr1.mymethod(n)
res = self.interpret(f, [6])
assert res == 11
def test_call_frozen_pbc_simple_w_kwds(self):
fr1 = Freezing()
fr1.x = 5
def f(n):
return fr1.mymethod(y=n)
res = self.interpret(f, [6])
assert res == 11
def test_call_frozen_pbc_multiple(self):
fr1 = Freezing()
fr2 = Freezing()
fr1.x = 5
fr2.x = 6
def f(n):
if n > 0:
fr = fr1
else:
fr = fr2
return fr.mymethod(n)
res = self.interpret(f, [1])
assert res == 6
res = self.interpret(f, [-1])
assert res == 5
def test_call_frozen_pbc_multiple_w_kwds(self):
fr1 = Freezing()
fr2 = Freezing()
fr1.x = 5
fr2.x = 6
def f(n):
if n > 0:
fr = fr1
else:
fr = fr2
return fr.mymethod(y=n)
res = self.interpret(f, [1])
assert res == 6
res = self.interpret(f, [-1])
assert res == 5
def test_is_among_frozen(self):
fr1 = Freezing()
fr2 = Freezing()
def givefr1():
return fr1
def givefr2():
return fr2
def f(i):
if i == 1:
fr = givefr1()
else:
fr = givefr2()
return fr is fr1
res = self.interpret(f, [0])
assert res is False
res = self.interpret(f, [1])
assert res is True
def test_unbound_method(self):
def f():
inst = MySubclass()
inst.z = 40
return MyBase.m(inst, 2)
res = self.interpret(f, [])
assert res == 42
def test_call_defaults(self):
def g(a, b=2, c=3):
return a+b+c
def f1():
return g(1)
def f2():
return g(1, 10)
def f3():
return g(1, 10, 100)
res = self.interpret(f1, [])
assert res == 1+2+3
res = self.interpret(f2, [])
assert res == 1+10+3
res = self.interpret(f3, [])
assert res == 1+10+100
def test_call_memoized_function(self):
fr1 = Freezing()
fr2 = Freezing()
def getorbuild(key):
a = 1
if key is fr1:
result = eval("a+2")
else:
result = eval("a+6")
return result
getorbuild._annspecialcase_ = "specialize:memo"
def f1(i):
if i > 0:
fr = fr1
else:
fr = fr2
return getorbuild(fr)
res = self.interpret(f1, [0])
assert res == 7
res = self.interpret(f1, [1])
assert res == 3
def test_call_memoized_function_with_bools(self):
fr1 = Freezing()
fr2 = Freezing()
def getorbuild(key, flag1, flag2):
a = 1
if key is fr1:
result = eval("a+2")
else:
result = eval("a+6")
if flag1:
result += 100
if flag2:
result += 1000
return result
getorbuild._annspecialcase_ = "specialize:memo"
def f1(i):
if i > 0:
fr = fr1
else:
fr = fr2
return getorbuild(fr, i % 2 == 0, i % 3 == 0)
for n in [0, 1, 2, -3, 6]:
res = self.interpret(f1, [n])
assert res == f1(n)
def test_call_memoized_cache(self):
# this test checks that we add a separate field
# per specialization and also it uses a subclass of
# the standard rpython.rlib.cache.Cache
from rpython.rlib.cache import Cache
fr1 = Freezing()
fr2 = Freezing()
class Cache1(Cache):
def _build(self, key):
"NOT_RPYTHON"
if key is fr1:
return fr2
else:
return fr1
class Cache2(Cache):
def _build(self, key):
"NOT_RPYTHON"
a = 1
if key is fr1:
result = eval("a+2")
else:
result = eval("a+6")
return result
cache1 = Cache1()
cache2 = Cache2()
def f1(i):
if i > 0:
fr = fr1
else:
fr = fr2
newfr = cache1.getorbuild(fr)
return cache2.getorbuild(newfr)
res = self.interpret(f1, [0])
assert res == 3
res = self.interpret(f1, [1])
assert res == 7
def test_call_memo_with_single_value(self):
class A: pass
def memofn(cls):
return len(cls.__name__)
memofn._annspecialcase_ = "specialize:memo"
def f1():
A() # make sure we have a ClassDef
return memofn(A)
res = self.interpret(f1, [])
assert res == 1
def test_call_memo_with_class(self):
class A: pass
class FooBar(A): pass
def memofn(cls):
return len(cls.__name__)
memofn._annspecialcase_ = "specialize:memo"
def f1(i):
if i == 1:
cls = A
else:
cls = FooBar
FooBar() # make sure we have ClassDefs
return memofn(cls)
res = self.interpret(f1, [1])
assert res == 1
res = self.interpret(f1, [2])
assert res == 6
def test_call_memo_with_string(self):
def memofn(s):
return eval(s)
memofn._annspecialcase_ = "specialize:memo"
def f1(i):
if i == 1:
return memofn("6*7")
else:
return memofn("1+2+3+4")
res = self.interpret(f1, [1])
assert res == 42
res = self.interpret(f1, [2])
assert res == 10
def test_rpbc_bound_method_static_call(self):
class R:
def meth(self):
return 0
r = R()
m = r.meth
def fn():
return m()
res = self.interpret(fn, [])
assert res == 0
def test_rpbc_bound_method_static_call_w_kwds(self):
class R:
def meth(self, x):
return x
r = R()
m = r.meth
def fn():
return m(x=3)
res = self.interpret(fn, [])
assert res == 3
def test_constant_return_disagreement(self):
class R:
def meth(self):
return 0
r = R()
def fn():
return r.meth()
res = self.interpret(fn, [])
assert res == 0
def test_None_is_false(self):
def fn(i):
if i == 0:
v = None
else:
v = fn
return bool(v)
res = self.interpret(fn, [1])
assert res is True
res = self.interpret(fn, [0])
assert res is False
def test_classpbc_getattr(self):
class A:
myvalue = 123
class B(A):
myvalue = 456
def f(i):
if i == 0:
v = A
else:
v = B
return v.myvalue
res = self.interpret(f, [0])
assert res == 123
res = self.interpret(f, [1])
assert res == 456
def test_function_or_None(self):
def g1():
return 42
def f(i):
g = None
if i > 5:
g = g1
if i > 6:
return g()
else:
return 12
res = self.interpret(f, [0])
assert res == 12
res = self.interpret(f, [6])
assert res == 12
res = self.interpret(f, [7])
assert res == 42
def test_simple_function_pointer(self):
def f1(x):
return x + 1
def f2(x):
return x + 2
l = [f1, f2]
def pointersimple(i):
return l[i](i)
res = self.interpret(pointersimple, [1])
assert res == 3
def test_classdef_getattr(self):
class A:
myvalue = 123
class B(A):
myvalue = 456
def f(i):
B() # for A and B to have classdefs
if i == 0:
v = A
else:
v = B
return v.myvalue
res = self.interpret(f, [0])
assert res == 123
res = self.interpret(f, [1])
assert res == 456
def test_call_classes(self):
class A: pass
class B(A): pass
def f(i):
if i == 1:
cls = B
else:
cls = A
return cls()
res = self.interpret(f, [0])
assert self.class_name(res) == 'A'
res = self.interpret(f, [1])
assert self.class_name(res) == 'B'
def test_call_classes_or_None(self):
class A: pass
class B(A): pass
def f(i):
if i == -1:
cls = None
elif i == 1:
cls = B
else:
cls = A
return cls()
res = self.interpret(f, [0])
assert self.class_name(res) == 'A'
res = self.interpret(f, [1])
assert self.class_name(res) == 'B'
#def f(i):
# if i == -1:
# cls = None
# else:
# cls = A
# return cls()
#res = self.interpret(f, [0])
#assert self.class_name(res) == 'A'
def test_call_classes_with_init2(self):
class A:
def __init__(self, z):
self.z = z
class B(A):
def __init__(self, z, x=42):
A.__init__(self, z)
self.extra = x
def f(i, z):
if i == 1:
cls = B
else:
cls = A
return cls(z)
res = self.interpret(f, [0, 5])
assert self.class_name(res) == 'A'
assert self.read_attr(res, "z") == 5
res = self.interpret(f, [1, -7645])
assert self.class_name(res) == 'B'
assert self.read_attr(res, "z") == -7645
assert self.read_attr(res, "extra") == 42
def test_conv_from_None(self):
class A(object): pass
def none():
return None
def f(i):
if i == 1:
return none()
else:
return "ab"
res = self.interpret(f, [1])
assert not res
res = self.interpret(f, [0])
assert self.ll_to_string(res) == "ab"
def g(i):
if i == 1:
return none()
else:
return A()
res = self.interpret(g, [1])
assert not res
res = self.interpret(g, [0])
assert self.class_name(res) == 'A'
def test_conv_from_classpbcset_to_larger(self):
class A(object): pass
class B(A): pass
class C(A): pass
def a():
return A
def b():
return B
def g(i):
if i == 1:
cls = a()
else:
cls = b()
return cls()
res = self.interpret(g, [0])
assert self.class_name(res) == 'B'
res = self.interpret(g, [1])
assert self.class_name(res) == 'A'
def bc(j):
if j == 1:
return B
else:
return C
def g(i, j):
if i == 1:
cls = a()
else:
cls = bc(j)
return cls()
res = self.interpret(g, [0, 0])
assert self.class_name(res) == 'C'
res = self.interpret(g, [0, 1])
assert self.class_name(res) == 'B'
res = self.interpret(g, [1, 0])
assert self.class_name(res) == 'A'
def test_call_starargs(self):
def g(x=-100, *arg):
return x + len(arg)
def f(i):
if i == -1:
return g()
elif i == 0:
return g(4)
elif i == 1:
return g(5, 15)
elif i == 2:
return g(7, 17, 27)
else:
return g(10, 198, 1129, 13984)
res = self.interpret(f, [-1])
assert res == -100
res = self.interpret(f, [0])
assert res == 4
res = self.interpret(f, [1])
assert res == 6
res = self.interpret(f, [2])
assert res == 9
res = self.interpret(f, [3])
assert res == 13
def test_call_keywords(self):
def g(a=1, b=2, c=3):
return 100*a+10*b+c
def f(i):
if i == 0:
return g(a=7)
elif i == 1:
return g(b=11)
elif i == 2:
return g(c=13)
elif i == 3:
return g(a=7, b=11)
elif i == 4:
return g(b=7, a=11)
elif i == 5:
return g(a=7, c=13)
elif i == 6:
return g(c=7, a=13)
elif i == 7:
return g(a=7,b=11,c=13)
elif i == 8:
return g(a=7,c=11,b=13)
elif i == 9:
return g(b=7,a=11,c=13)
else:
return g(b=7,c=11,a=13)
for i in range(11):
res = self.interpret(f, [i])
assert res == f(i)
def test_call_star_and_keywords(self):
def g(a=1, b=2, c=3):
return 100*a+10*b+c
def f(i, x):
if x == 1:
j = 11
else:
j = 22
if i == 0:
return g(7)
elif i == 1:
return g(7,*(j,))
elif i == 2:
return g(7,*(11,j))
elif i == 3:
return g(a=7)
elif i == 4:
return g(b=7, *(j,))
elif i == 5:
return g(b=7, c=13, *(j,))
elif i == 6:
return g(c=7, b=13, *(j,))
elif i == 7:
return g(c=7,*(j,))
elif i == 8:
return g(c=7,*(11,j))
else:
return 0
for i in range(9):
for x in range(1):
res = self.interpret(f, [i, x])
assert res == f(i, x)
def test_call_star_and_keywords_starargs(self):
def g(a=1, b=2, c=3, *rest):
return 1000*len(rest)+100*a+10*b+c
def f(i, x):
if x == 1:
j = 13
else:
j = 31
if i == 0:
return g()
elif i == 1:
return g(*(j,))
elif i == 2:
return g(*(13, j))
elif i == 3:
return g(*(13, j, 19))
elif i == 4:
return g(*(13, j, 19, 21))
elif i == 5:
return g(7)
elif i == 6:
return g(7, *(j,))
elif i == 7:
return g(7, *(13, j))
elif i == 8:
return g(7, *(13, 17, j))
elif i == 9:
return g(7, *(13, 17, j, 21))
elif i == 10:
return g(7, 9)
elif i == 11:
return g(7, 9, *(j,))
elif i == 12:
return g(7, 9, *(j, 17))
elif i == 13:
return g(7, 9, *(13, j, 19))
elif i == 14:
return g(7, 9, 11)
elif i == 15:
return g(7, 9, 11, *(j,))
elif i == 16:
return g(7, 9, 11, *(13, j))
elif i == 17:
return g(7, 9, 11, *(13, 17, j))
elif i == 18:
return g(7, 9, 11, 2)
elif i == 19:
return g(7, 9, 11, 2, *(j,))
elif i == 20:
return g(7, 9, 11, 2, *(13, j))
else:
return 0
for i in range(21):
for x in range(1):
res = self.interpret(f, [i, x])
assert res == f(i, x)
def test_conv_from_funcpbcset_to_larger(self):
def f1():
return 7
def f2():
return 11
def f3():
return 13
def a():
return f1
def b():
return f2
def g(i):
if i == 1:
f = a()
else:
f = b()
return f()
res = self.interpret(g, [0])
assert res == 11
res = self.interpret(g, [1])
assert res == 7
def bc(j):
if j == 1:
return f2
else:
return f3
def g(i, j):
if i == 1:
cls = a()
else:
cls = bc(j)
return cls()
res = self.interpret(g, [0, 0])
assert res == 13
res = self.interpret(g, [0, 1])
assert res == 11
res = self.interpret(g, [1, 0])
assert res == 7
def test_call_special_starargs_method(self):
class Star:
def __init__(self, d):
self.d = d
def meth(self, *args):
return self.d + len(args)
def f(i, j):
s = Star(i)
return s.meth(i, j)
res = self.interpret(f, [3, 0])
assert res == 5
def test_call_star_method(self):
class N:
def __init__(self, d):
self.d = d
def meth(self, a, b):
return self.d + a + b
def f(i, j):
n = N(i)
return n.meth(*(i, j))
res = self.interpret(f, [3, 7])
assert res == 13
def test_call_star_special_starargs_method(self):
class N:
def __init__(self, d):
self.d = d
def meth(self, *args):
return self.d + len(args)
def f(i, j):
n = N(i)
return n.meth(*(i, j))
res = self.interpret(f, [3, 0])
assert res == 5
def test_various_patterns_but_one_signature_method(self):
class A:
def meth(self, a, b=0):
raise NotImplementedError
class B(A):
def meth(self, a, b=0):
return a+b
class C(A):
def meth(self, a, b=0):
return a*b
def f(i):
if i == 0:
x = B()
else:
x = C()
r1 = x.meth(1)
r2 = x.meth(3, 2)
r3 = x.meth(7, b=11)
return r1+r2+r3
res = self.interpret(f, [0])
assert res == 1+3+2+7+11
res = self.interpret(f, [1])
assert res == 3*2+11*7
def test_multiple_ll_one_hl_op(self):
class E(Exception):
pass
class A(object):
pass
class B(A):
pass
class C(object):
def method(self, x):
if x:
raise E()
else:
return A()
class D(C):
def method(self, x):
if x:
raise E()
else:
return B()
def call(x):
c = D()
c.method(x)
try:
c.method(x + 1)
except E:
pass
c = C()
c.method(x)
try:
return c.method(x + 1)
except E:
return None
res = self.interpret(call, [0])
def test_multiple_pbc_with_void_attr(self):
class A:
def _freeze_(self):
return True
a1 = A()
a2 = A()
unique = A()
unique.result = 42
a1.value = unique
a2.value = unique
def g(a):
return a.value.result
def f(i):
if i == 1:
a = a1
else:
a = a2
return g(a)
res = self.interpret(f, [0])
assert res == 42
res = self.interpret(f, [1])
assert res == 42
def test_function_or_none(self):
def h(y):
return y+84
def g(y):
return y+42
def f(x, y):
if x == 1:
func = g
elif x == 2:
func = h
else:
func = None
if func:
return func(y)
return -1
res = self.interpret(f, [1, 100])
assert res == 142
res = self.interpret(f, [2, 100])
assert res == 184
res = self.interpret(f, [3, 100])
assert res == -1
def test_pbc_getattr_conversion(self):
fr1 = Freezing()
fr2 = Freezing()
fr3 = Freezing()
fr1.value = 10
fr2.value = 5
fr3.value = 2.5
def pick12(i):
if i > 0:
return fr1
else:
return fr2
def pick23(i):
if i > 5:
return fr2
else:
return fr3
def f(i):
x = pick12(i)
y = pick23(i)
return x.value, y.value
for i in [0, 5, 10]:
res = self.interpret(f, [i])
item0, item1 = self.ll_unpack_tuple(res, 2)
assert type(item0) is int # precise
assert type(item1) in (float, int) # we get int on JS
assert item0 == f(i)[0]
assert item1 == f(i)[1]
def test_pbc_getattr_conversion_with_classes(self):
class base: pass
class fr1(base): pass
class fr2(base): pass
class fr3(base): pass
fr1.value = 10
fr2.value = 5
fr3.value = 2.5
def pick12(i):
if i > 0:
return fr1
else:
return fr2
def pick23(i):
if i > 5:
return fr2
else:
return fr3
def f(i):
x = pick12(i)
y = pick23(i)
return x.value, y.value
for i in [0, 5, 10]:
res = self.interpret(f, [i])
item0, item1 = self.ll_unpack_tuple(res, 2)
assert type(item0) is int # precise
assert type(item1) in (float, int) # we get int on JS
assert item0 == f(i)[0]
assert item1 == f(i)[1]
def test_pbc_imprecise_attrfamily(self):
fr1 = Freezing(); fr1.x = 5; fr1.y = [8]
fr2 = Freezing(); fr2.x = 6; fr2.y = ["string"]
def head(fr):
return fr.y[0]
def f(n):
if n == 1:
fr = fr1
else:
fr = fr2
return head(fr1) + fr.x
res = self.interpret(f, [2])
assert res == 8 + 6
def test_multiple_specialized_functions(self):
def myadder(x, y): # int,int->int or str,str->str
return x+y
def myfirst(x, y): # int,int->int or str,str->str
return x
def mysecond(x, y): # int,int->int or str,str->str
return y
myadder._annspecialcase_ = 'specialize:argtype(0)'
myfirst._annspecialcase_ = 'specialize:argtype(0)'
mysecond._annspecialcase_ = 'specialize:argtype(0)'
def f(i):
if i == 0:
g = myfirst
elif i == 1:
g = mysecond
else:
g = myadder
s = g("hel", "lo")
n = g(40, 2)
return len(s) * n
for i in range(3):
res = self.interpret(f, [i])
assert res == f(i)
def test_specialized_method_of_frozen(self):
class space:
def _freeze_(self):
return True
def __init__(self, tag):
self.tag = tag
def wrap(self, x):
if isinstance(x, int):
return self.tag + '< %d >' % x
else:
return self.tag + x
wrap._annspecialcase_ = 'specialize:argtype(1)'
space1 = space("tag1:")
space2 = space("tag2:")
def f(i):
if i == 1:
sp = space1
else:
sp = space2
w1 = sp.wrap('hello')
w2 = sp.wrap(42)
return w1 + w2
res = self.interpret(f, [1])
assert self.ll_to_string(res) == 'tag1:hellotag1:< 42 >'
res = self.interpret(f, [0])
assert self.ll_to_string(res) == 'tag2:hellotag2:< 42 >'
def test_specialized_method(self):
class A:
def __init__(self, tag):
self.tag = tag
def wrap(self, x):
if isinstance(x, int):
return self.tag + '< %d >' % x
else:
return self.tag + x
wrap._annspecialcase_ = 'specialize:argtype(1)'
a1 = A("tag1:")
a2 = A("tag2:")
def f(i):
if i == 1:
sp = a1
else:
sp = a2
w1 = sp.wrap('hello')
w2 = sp.wrap(42)
return w1 + w2
res = self.interpret(f, [1])
assert self.ll_to_string(res) == 'tag1:hellotag1:< 42 >'
res = self.interpret(f, [0])
assert self.ll_to_string(res) == 'tag2:hellotag2:< 42 >'
def test_precise_method_call_1(self):
class A(object):
def meth(self, x=5):
return x+1
class B(A):
def meth(self, x=5):
return x+2
class C(A):
pass
def f(i, n):
# call both A.meth and B.meth with an explicit argument
if i > 0:
x = A()
else:
x = B()
result1 = x.meth(n)
# now call A.meth only, using the default argument
result2 = C().meth()
return result1 * result2
for i in [0, 1]:
res = self.interpret(f, [i, 1234])
assert res == f(i, 1234)
def test_precise_method_call_2(self):
class A(object):
def meth(self, x=5):
return x+1
class B(A):
def meth(self, x=5):
return x+2
class C(A):
def meth(self, x=5):
return x+3
def f(i, n):
# call both A.meth and B.meth with an explicit argument
if i > 0:
x = A()
else:
x = B()
result1 = x.meth(n)
# now call A.meth and C.meth, using the default argument
if i > 0:
x = C()
else:
x = A()
result2 = x.meth()
return result1 * result2
for i in [0, 1]:
res = self.interpret(f, [i, 1234])
assert res == f(i, 1234)
def test_disjoint_pbcs(self):
class Frozen(object):
def __init__(self, v):
self.v = v
def _freeze_(self):
return True
fr1 = Frozen(2)
fr2 = Frozen(3)
def g1(x):
return x.v
def g2(y):
return y.v
def h(x):
return x is not None
def h2(x):
return x is fr1
def f():
a = g1(fr1)
b = g2(fr2)
h(None)
return (h(fr1) + 10*h(fr2) + 100*a + 1000*b +
10000*h2(fr1) + 100000*h2(fr2))
res = self.interpret(f, [])
assert res == 13211
def test_disjoint_pbcs_2(self):
class Frozen(object):
def __init__(self, v):
self.v = v
def _freeze_(self):
return True
fr1 = Frozen(1)
fr2 = Frozen(2)
fr3 = Frozen(3)
def getv(x):
return x.v
def h(x):
return (x is not None) + 2*(x is fr2) + 3*(x is fr3)
def f(n):
if n == 1:
fr = fr1
else:
fr = fr2
total = getv(fr)
if n == 3:
fr = fr3
h(None)
return total + 10*h(fr)
res = self.interpret(f, [3])
assert res == 42
def test_convert_multiple_to_single(self):
class A:
def meth(self, fr):
return 65
class B(A):
def meth(self, fr):
return 66
fr1 = Freezing()
fr2 = Freezing()
def f():
return A().meth(fr1) * B().meth(fr2)
res = self.interpret(f, [])
assert res == 65*66
def test_convert_multiple_to_single_method_of_frozen_pbc(self):
class A:
def meth(self, frmeth):
return frmeth(100)
class B(A):
def meth(self, frmeth):
return frmeth(1000)
fr1 = Freezing(); fr1.x = 65
fr2 = Freezing(); fr2.x = 66
def f():
return A().meth(fr1.mymethod) * B().meth(fr2.mymethod)
res = self.interpret(f, [])
assert res == 165 * 1066
def test_convert_none_to_frozen_pbc(self):
fr1 = Freezing(); fr1.x = 65
fr2 = Freezing(); fr2.y = 65
def g(fr):
return fr.x
def identity(z):
return z
def f(n): # NB. this crashes with n == 0
if n == 0:
fr = identity(None)
else:
fr = fr1
return g(fr)
res = self.interpret(f, [1])
assert res == 65
def test_multiple_attribute_access_patterns(self):
class Base(object):
pass
class A(Base):
value = 1000
def meth(self): return self.n + 1
class B(A):
def meth(self): return self.n + 2
class C(Base):
value = 2000
def meth(self): ShouldNotBeSeen
def AorB(n):
if n == 5: return A
else: return B
def BorC(n):
if n == 3: return B
else: return C
def f(n):
value = BorC(n).value
x = B()
x.n = 100
return value + AorB(n).meth(x)
for i in [1, 3, 5]:
res = self.interpret(f, [i])
assert res == f(i)
def test_function_as_frozen_pbc(self):
def f1(): pass
def f2(): pass
def choose(n):
if n == 1:
return f1
else:
return f2
def f(n):
return choose(n) is f1
res = self.interpret(f, [1])
assert res == True
res = self.interpret(f, [2])
assert res == False
def test_call_from_list(self):
def f0(n): return n+200
def f1(n): return n+192
def f2(n): return n+46
def f3(n): return n+2987
def f4(n): return n+217
lst = [f0, f1, f2, f3, f4]
def f(i, n):
return lst[i](n)
for i in range(5):
res = self.interpret(f, [i, 1000])
assert res == f(i, 1000)
def test_None_is_None(self):
def g():
return None
def f():
return g() is None
res = self.interpret(f, [])
assert res == True
def test_except_class_call(self):
class A:
pass # no constructor
def f():
try:
A()
IndexError()
return 12
except ValueError:
return 23
res = self.interpret(f, [])
assert res == 12
def test_exception_with_non_empty_baseclass(self):
class BE(Exception):
pass
class E1(BE):
pass
class E2(BE):
pass
def f(x):
if x:
e = E1()
else:
e = E2()
witness = E1()
witness.x = 42
e.x = 3
return witness.x
res = self.interpret(f, [0])
assert res == 42
res = self.interpret(f, [1])
assert res == 42
def test_funcornone_to_func(self):
def g(y):
return y*2
def f(x):
if x > 0:
g1 = g
else:
g1 = None
x += 1
if g1:
return g1(x)
else:
return -1
res = self.interpret(f, [20])
assert res == 42
def test_specialize_functionarg(self):
def f(x, y):
return x + y
def g(x, y, z):
return x + y + z
def functionarg(func, *extraargs):
return func(42, *extraargs)
functionarg._annspecialcase_ = "specialize:arg(0)"
def call_functionarg():
return functionarg(f, 1) + functionarg(g, 1, 2)
assert call_functionarg() == 2 * 42 + 4
res = self.interpret(call_functionarg, [])
assert res == 2 * 42 + 4
def test_convert_multiple_classes_to_single(self):
class A:
result = 321
def meth(self, n):
if n:
return A
else:
return B
class B(A):
result = 123
def meth(self, n):
return B
def f(n):
A().meth(n)
cls = B().meth(n)
return cls().result
res = self.interpret(f, [5])
assert res == 123
def test_is_among_functions(self):
def g1(): pass
def g2(): pass
def g3(): pass
def f(n):
if n > 5:
g = g2
else:
g = g1
g()
g3()
return g is g3
res = self.interpret(f, [2])
assert res == False
def test_is_among_functions_2(self):
def g1(): pass
def g2(): pass
def f(n):
if n > 5:
g = g2
else:
g = g1
g()
return g is g2
res = self.interpret(f, [2])
assert res == False
res = self.interpret(f, [8])
assert res == True
def test_is_among_functions_3(self):
def g0(): pass
def g1(): pass
def g2(): pass
def g3(): pass
def g4(): pass
def g5(): pass
def g6(): pass
def g7(): pass
glist = [g0, g1, g2, g3, g4, g5, g6, g7]
def f(n):
if n > 5:
g = g2
else:
g = g1
h = glist[n]
g()
h()
return g is h
res = self.interpret(f, [2])
assert res == False
res = self.interpret(f, [1])
assert res == True
res = self.interpret(f, [6])
assert res == False
def test_shrink_pbc_set(self):
def g1():
return 10
def g2():
return 20
def g3():
return 30
def h1(g): # g in {g1, g2}
return 1 + g()
def h2(g): # g in {g1, g2, g3}
return 2 + g()
def f(n):
if n > 5: g = g1
else: g = g2
if n % 2: h = h1
else: h = h2
res = h(g)
if n > 7: g = g3
h2(g)
return res
res = self.interpret(f, [7])
assert res == 11
def test_single_pbc_getattr(self):
class C:
def __init__(self, v1, v2):
self.v1 = v1
self.v2 = v2
def _freeze_(self):
return True
c1 = C(11, lambda: "hello")
c2 = C(22, lambda: 623)
def f1(l, c):
l.append(c.v1)
def f2(c):
return c.v2
def f3(c):
return c.v2
def g():
l = []
f1(l, c1)
f1(l, c2)
return f2(c1)(), f3(c2)()
res = self.interpret(g, [])
item0, item1 = self.ll_unpack_tuple(res, 2)
assert self.ll_to_string(item0) == "hello"
assert item1 == 623
def test_always_raising_methods(self):
class Base:
def m(self):
raise KeyError
class A(Base):
def m(self):
return 42
class B(Base):
pass
def f(n):
if n > 3:
o = A()
else:
o = B()
try:
o.m()
except KeyError:
assert 0
return B().m()
self.interpret_raises(KeyError, f, [7])
def test_possible_missing_attribute_access(self):
py.test.skip("Should explode or give some warning")
class Base(object):
pass
class A(Base):
a = 1
b = 2
class B(Base):
a = 2
b = 2
class C(Base):
b = 8
def f(n):
if n > 3:
x = A
elif n > 1:
x = B
else:
x = C
if n > 0:
return x.a
return 9
self.interpret(f, [int])
def test_funcpointer_default_value(self):
def foo(x): return x+1
class Foo:
func = None
def __init__(self, n):
if n == 1:
self.func = foo
def fn(n):
a = Foo(n)
if a.func:
return a.func(n)
return -1
res = self.interpret(fn, [0])
assert res == -1
def test_is_none(self):
from rpython.rlib.nonconst import NonConstant
def g(x):
return NonConstant(g) is None
res = self.interpret(g, [1])
assert not res
def test_pbc_of_classes_not_all_used(self):
class Base(object): pass
class A(Base): pass
class B(Base): pass
def poke(lst):
pass
def g():
A()
poke([A, B])
self.interpret(g, [])
def test_pbc_of_classes_isinstance_only(self):
class Base(object): pass
class ASub(Base): pass
def g():
x = Base()
return isinstance(x, ASub)
res = self.interpret(g, [])
assert res == False
def test_class___name__(self):
class Base(object): pass
class ASub(Base): pass
def g(n):
if n == 1:
x = Base()
else:
x = ASub()
return x.__class__.__name__
res = self.interpret(g, [1])
assert self.ll_to_string(res) == "Base"
res = self.interpret(g, [2])
assert self.ll_to_string(res) == "ASub"
def test_str_class(self):
class Base(object): pass
class ASub(Base): pass
def g(n):
if n == 1:
x = Base()
else:
x = ASub()
return str(x.__class__)
res = self.interpret(g, [1])
assert self.ll_to_string(res) == "Base"
res = self.interpret(g, [2])
assert self.ll_to_string(res) == "ASub"
def test_bug_callfamily(self):
def cb1():
xxx # never actually called
def cb2():
pass
def g(cb, result):
assert (cb is None) == (result == 0)
def h(cb):
cb()
def f():
g(None, 0)
g(cb1, 1)
g(cb2, 2)
h(cb2)
return 42
res = self.interpret(f, [])
assert res == 42
def test_equality_of_frozen_pbcs_inside_data_structures(self):
class A:
def _freeze_(self):
return True
a1 = A()
a2 = A()
def f():
return [a1] == [a1]
def g(i):
x1 = [a1, a2][i]
x2 = [a1, a2][i]
return (x1,) == (x2,)
res = self.interpret(f, [])
assert res == True
res = self.interpret(g, [1])
assert res == True
def test_convert_from_anything_to_impossible(self):
def f1():
return 42
def f2():
raise ValueError
def f3():
raise ValueError
def f(i):
if i > 5:
f = f2
else:
f = f3
try:
f()
except ValueError:
pass
if i > 1:
f = f2
else:
f = f1
return f()
self.interpret(f, [-5])
# ____________________________________________________________
def test_hlinvoke_simple():
def f(a,b):
return a + b
from rpython.translator import translator
from rpython.annotator import annrpython
a = annrpython.RPythonAnnotator()
s_f = a.bookkeeper.immutablevalue(f)
a.bookkeeper.emulate_pbc_call('f', s_f, [annmodel.SomeInteger(), annmodel.SomeInteger()])
a.complete()
from rpython.rtyper import rtyper
rt = rtyper.RPythonTyper(a)
rt.specialize()
def ll_h(R, f, x):
from rpython.rlib.objectmodel import hlinvoke
return hlinvoke(R, f, x, 2)
from rpython.rtyper import annlowlevel
r_f = rt.getrepr(s_f)
s_R = a.bookkeeper.immutablevalue(r_f)
s_ll_f = lltype_to_annotation(r_f.lowleveltype)
ll_h_graph = annlowlevel.annotate_lowlevel_helper(a, ll_h, [s_R, s_ll_f, annmodel.SomeInteger()])
assert a.binding(ll_h_graph.getreturnvar()).knowntype == int
rt.specialize_more_blocks()
from rpython.rtyper.llinterp import LLInterpreter
interp = LLInterpreter(rt)
#a.translator.view()
res = interp.eval_graph(ll_h_graph, [None, None, 3])
assert res == 5
def test_hlinvoke_simple2():
def f1(a,b):
return a + b
def f2(a,b):
return a - b
from rpython.annotator import annrpython
a = annrpython.RPythonAnnotator()
def g(i):
if i:
f = f1
else:
f = f2
f(5,4)
f(3,2)
a.build_types(g, [int])
from rpython.rtyper import rtyper
rt = rtyper.RPythonTyper(a)
rt.specialize()
def ll_h(R, f, x):
from rpython.rlib.objectmodel import hlinvoke
return hlinvoke(R, f, x, 2)
from rpython.rtyper import annlowlevel
f1desc = a.bookkeeper.getdesc(f1)
f2desc = a.bookkeeper.getdesc(f2)
s_f = annmodel.SomePBC([f1desc, f2desc])
r_f = rt.getrepr(s_f)
s_R = a.bookkeeper.immutablevalue(r_f)
s_ll_f = lltype_to_annotation(r_f.lowleveltype)
ll_h_graph= annlowlevel.annotate_lowlevel_helper(a, ll_h, [s_R, s_ll_f, annmodel.SomeInteger()])
assert a.binding(ll_h_graph.getreturnvar()).knowntype == int
rt.specialize_more_blocks()
from rpython.rtyper.llinterp import LLInterpreter
interp = LLInterpreter(rt)
#a.translator.view()
res = interp.eval_graph(ll_h_graph, [None, r_f.convert_desc(f1desc), 3])
assert res == 5
res = interp.eval_graph(ll_h_graph, [None, r_f.convert_desc(f2desc), 3])
assert res == 1
def test_hlinvoke_hltype():
class A(object):
def __init__(self, v):
self.v = v
def f(a):
return A(a)
from rpython.annotator import annrpython
a = annrpython.RPythonAnnotator()
def g():
a = A(None)
f(a)
a.build_types(g, [])
from rpython.rtyper import rtyper
from rpython.rtyper import rclass
rt = rtyper.RPythonTyper(a)
rt.specialize()
def ll_h(R, f, a):
from rpython.rlib.objectmodel import hlinvoke
return hlinvoke(R, f, a)
from rpython.rtyper import annlowlevel
s_f = a.bookkeeper.immutablevalue(f)
r_f = rt.getrepr(s_f)
s_R = a.bookkeeper.immutablevalue(r_f)
s_ll_f = lltype_to_annotation(r_f.lowleveltype)
A_repr = rclass.getinstancerepr(rt, a.bookkeeper.getdesc(A).
getuniqueclassdef())
ll_h_graph = annlowlevel.annotate_lowlevel_helper(
a, ll_h, [s_R, s_ll_f, SomePtr(A_repr.lowleveltype)])
s = a.binding(ll_h_graph.getreturnvar())
assert s.ll_ptrtype == A_repr.lowleveltype
rt.specialize_more_blocks()
from rpython.rtyper.llinterp import LLInterpreter
interp = LLInterpreter(rt)
#a.translator.view()
c_a = A_repr.convert_const(A(None))
res = interp.eval_graph(ll_h_graph, [None, None, c_a])
assert typeOf(res) == A_repr.lowleveltype
def test_hlinvoke_method_hltype():
class A(object):
def __init__(self, v):
self.v = v
class Impl(object):
def f(self, a):
return A(a)
from rpython.annotator import annrpython
a = annrpython.RPythonAnnotator()
def g():
a = A(None)
i = Impl()
i.f(a)
a.build_types(g, [])
from rpython.rtyper import rtyper
from rpython.rtyper import rclass
rt = rtyper.RPythonTyper(a)
rt.specialize()
def ll_h(R, f, a):
from rpython.rlib.objectmodel import hlinvoke
return hlinvoke(R, f, a)
from rpython.rtyper import annlowlevel
Impl_def = a.bookkeeper.getdesc(Impl).getuniqueclassdef()
Impl_f_desc = a.bookkeeper.getmethoddesc(
a.bookkeeper.getdesc(Impl.f.im_func),
Impl_def,
Impl_def,
'f')
s_f = annmodel.SomePBC([Impl_f_desc])
r_f = rt.getrepr(s_f)
s_R = a.bookkeeper.immutablevalue(r_f)
s_ll_f = lltype_to_annotation(r_f.lowleveltype)
A_repr = rclass.getinstancerepr(rt, a.bookkeeper.getdesc(A).
getuniqueclassdef())
ll_h_graph = annlowlevel.annotate_lowlevel_helper(
a, ll_h, [s_R, s_ll_f, SomePtr(A_repr.lowleveltype)])
s = a.binding(ll_h_graph.getreturnvar())
assert s.ll_ptrtype == A_repr.lowleveltype
rt.specialize_more_blocks()
from rpython.rtyper.llinterp import LLInterpreter
interp = LLInterpreter(rt)
# low-level value is just the instance
c_f = rclass.getinstancerepr(rt, Impl_def).convert_const(Impl())
c_a = A_repr.convert_const(A(None))
res = interp.eval_graph(ll_h_graph, [None, c_f, c_a])
assert typeOf(res) == A_repr.lowleveltype
def test_hlinvoke_pbc_method_hltype():
class A(object):
def __init__(self, v):
self.v = v
class Impl(object):
def _freeze_(self):
return True
def f(self, a):
return A(a)
from rpython.annotator import annrpython
a = annrpython.RPythonAnnotator()
i = Impl()
def g():
a = A(None)
i.f(a)
a.build_types(g, [])
from rpython.rtyper import rtyper
from rpython.rtyper import rclass
rt = rtyper.RPythonTyper(a)
rt.specialize()
def ll_h(R, f, a):
from rpython.rlib.objectmodel import hlinvoke
return hlinvoke(R, f, a)
from rpython.rtyper import annlowlevel
s_f = a.bookkeeper.immutablevalue(i.f)
r_f = rt.getrepr(s_f)
s_R = a.bookkeeper.immutablevalue(r_f)
s_ll_f = lltype_to_annotation(r_f.lowleveltype)
A_repr = rclass.getinstancerepr(rt, a.bookkeeper.getdesc(A).
getuniqueclassdef())
ll_h_graph = annlowlevel.annotate_lowlevel_helper(
a, ll_h, [s_R, s_ll_f, SomePtr(A_repr.lowleveltype)])
s = a.binding(ll_h_graph.getreturnvar())
assert s.ll_ptrtype == A_repr.lowleveltype
rt.specialize_more_blocks()
from rpython.rtyper.llinterp import LLInterpreter
interp = LLInterpreter(rt)
c_f = r_f.convert_const(i.f)
c_a = A_repr.convert_const(A(None))
res = interp.eval_graph(ll_h_graph, [None, c_f, c_a])
assert typeOf(res) == A_repr.lowleveltype
# ____________________________________________________________
class TestSmallFuncSets(TestRPBC):
def setup_class(cls):
from rpython.config.translationoption import get_combined_translation_config
cls.config = get_combined_translation_config(translating=True)
cls.config.translation.withsmallfuncsets = 3
def interpret(self, fn, args, **kwds):
kwds['config'] = self.config
return TestRPBC.interpret(fn, args, **kwds)
def test_class_missing_base_method_should_crash(self):
class Base(object):
pass # no method 'm' here
class A(Base):
def m(self):
return 42
class B(Base):
def m(self):
return 63
def g(n):
if n == 1:
return A()
elif n == 2:
return B()
else:
return Base()
def f(n):
return g(n).m()
assert self.interpret(f, [1]) == 42
assert self.interpret(f, [2]) == 63
e = py.test.raises(ValueError, self.interpret, f, [3])
assert str(e.value).startswith(r"exit case '\xff' not found")
@py.test.mark.parametrize('limit', [3, 5])
def test_conversion_table(self, limit):
# with limit==3, check conversion from Char to Ptr(Func).
# with limit>3, check conversion from Char to Char.
def f1():
return 111
def f2():
return 222
def f3():
return 333
def g(n):
if n & 1:
return f1
else:
return f2
def f(n):
x = g(n) # can be f1 or f2
if n > 10:
x = f3 # now can be f1 or f2 or f3
return x()
from rpython.config.translationoption import get_combined_translation_config
self.config = get_combined_translation_config(translating=True)
self.config.translation.withsmallfuncsets = limit
assert self.interpret(f, [3]) == 111
assert self.interpret(f, [4]) == 222
assert self.interpret(f, [13]) == 333
assert self.interpret(f, [14]) == 333
def test_smallfuncsets_basic():
from rpython.translator.translator import TranslationContext, graphof
from rpython.config.translationoption import get_combined_translation_config
from rpython.rtyper.llinterp import LLInterpreter
config = get_combined_translation_config(translating=True)
config.translation.withsmallfuncsets = 10
def g(x):
return x + 1
def h(x):
return x - 1
def f(x, y):
if y > 0:
func = g
else:
func = h
return func(x)
t = TranslationContext(config=config)
a = t.buildannotator()
a.build_types(f, [int, int])
rtyper = t.buildrtyper()
rtyper.specialize()
graph = graphof(t, f)
interp = LLInterpreter(rtyper)
res = interp.eval_graph(graph, [0, 0])
assert res == -1
res = interp.eval_graph(graph, [0, 1])
assert res == 1
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