artiq/test/py2llvm.py

99 lines
3.1 KiB
Python

import unittest
import ast
import inspect
from fractions import Fraction
from llvm import ee as le
from artiq.language.core import int64
from artiq.py2llvm.infer_types import infer_function_types
from artiq.py2llvm import base_types
from artiq.py2llvm.module import Module
def test_types(choice):
a = 2 # promoted later to int64
b = a + 1 # initially int32, becomes int64 after a is promoted
c = b//2 # initially int32, becomes int64 after b is promoted
d = 4 # stays int32
x = int64(7)
a += x # promotes a to int64
foo = True
bar = None
if choice and foo and not bar:
return d
else:
return x + c
class FunctionTypesCase(unittest.TestCase):
def setUp(self):
self.ns = infer_function_types(
None, ast.parse(inspect.getsource(test_types)),
dict())
def test_base_types(self):
self.assertIsInstance(self.ns["foo"], base_types.VBool)
self.assertIsInstance(self.ns["bar"], base_types.VNone)
self.assertIsInstance(self.ns["d"], base_types.VInt)
self.assertEqual(self.ns["d"].nbits, 32)
self.assertIsInstance(self.ns["x"], base_types.VInt)
self.assertEqual(self.ns["x"].nbits, 64)
def test_promotion(self):
for v in "abc":
self.assertIsInstance(self.ns[v], base_types.VInt)
self.assertEqual(self.ns[v].nbits, 64)
def test_return(self):
self.assertIsInstance(self.ns["return"], base_types.VInt)
self.assertEqual(self.ns["return"].nbits, 64)
class CompiledFunction:
def __init__(self, function, param_types):
module = Module()
funcdef = ast.parse(inspect.getsource(function)).body[0]
self.function, self.retval = module.compile_function(
funcdef, param_types)
self.argval = [param_types[arg.arg] for arg in funcdef.args.args]
self.ee = module.get_ee()
def __call__(self, *args):
args_llvm = [
le.GenericValue.int(av.get_llvm_type(), a)
for av, a in zip(self.argval, args)]
result = self.ee.run_function(self.function, args_llvm)
if isinstance(self.retval, base_types.VBool):
return bool(result.as_int())
elif isinstance(self.retval, base_types.VInt):
return result.as_int_signed()
else:
raise NotImplementedError
def is_prime(x):
d = 2
while d*d <= x:
if not x % d:
return False
d += 1
return True
def simplify_encode(n, d):
f = Fraction(n, d)
return f.numerator*1000 + f.denominator
class CodeGenCase(unittest.TestCase):
def test_is_prime(self):
is_prime_c = CompiledFunction(is_prime, {"x": base_types.VInt()})
for i in range(200):
self.assertEqual(is_prime_c(i), is_prime(i))
def test_frac_simplify(self):
simplify_encode_c = CompiledFunction(
simplify_encode, {"n": base_types.VInt(), "d": base_types.VInt()})
for n in range(5, 20):
for d in range(5, 20):
self.assertEqual(simplify_encode_c(n, d), simplify_encode(n, d))