import concurrent.futures
import gc
import json
import unittest
import quickjs
class LoadModule(unittest.TestCase):
def test_42(self):
self.assertEqual(quickjs.test(), 42)
class Context(unittest.TestCase):
def setUp(self):
self.context = quickjs.Context()
def test_eval_int(self):
self.assertEqual(self.context.eval("40 + 2"), 42)
def test_eval_float(self):
self.assertEqual(self.context.eval("40.0 + 2.0"), 42.0)
def test_eval_str(self):
self.assertEqual(self.context.eval("'4' + '2'"), "42")
def test_eval_bool(self):
self.assertEqual(self.context.eval("true || false"), True)
self.assertEqual(self.context.eval("true && false"), False)
def test_eval_null(self):
self.assertIsNone(self.context.eval("null"))
def test_eval_undefined(self):
self.assertIsNone(self.context.eval("undefined"))
def test_wrong_type(self):
with self.assertRaises(TypeError):
self.assertEqual(self.context.eval(1), 42)
def test_context_between_calls(self):
self.context.eval("x = 40; y = 2;")
self.assertEqual(self.context.eval("x + y"), 42)
def test_function(self):
self.context.eval("""
function special(x) {
return 40 + x;
}
""")
self.assertEqual(self.context.eval("special(2)"), 42)
def test_get(self):
self.context.eval("x = 42; y = 'foo';")
self.assertEqual(self.context.get("x"), 42)
self.assertEqual(self.context.get("y"), "foo")
self.assertEqual(self.context.get("z"), None)
def test_set(self):
self.context.eval("x = 'overriden'")
self.context.set("x", 42)
self.context.set("y", "foo")
self.assertTrue(self.context.eval("x == 42"))
self.assertTrue(self.context.eval("y == 'foo'"))
def test_module(self):
self.context.module("""
export function test() {
return 42;
}
""")
def test_error(self):
with self.assertRaisesRegex(quickjs.JSException, "ReferenceError: 'missing' is not defined"):
self.context.eval("missing + missing")
def test_lifetime(self):
def get_f():
context = quickjs.Context()
f = context.eval("""
a = function(x) {
return 40 + x;
}
""")
return f
f = get_f()
self.assertTrue(f)
# The context has left the scope after f. f needs to keep the context alive for the
# its lifetime. Otherwise, we will get problems.
def test_backtrace(self):
try:
self.context.eval("""
function funcA(x) {
x.a.b = 1;
}
function funcB(x) {
funcA(x);
}
funcB({});
""")
except Exception as e:
msg = str(e)
else:
self.fail("Expected exception.")
self.assertIn("at funcA (:3)\n", msg)
self.assertIn("at funcB (:6)\n", msg)
def test_memory_limit(self):
code = """
(function() {
let arr = [];
for (let i = 0; i < 1000; ++i) {
arr.push(i);
}
})();
"""
self.context.eval(code)
self.context.set_memory_limit(1000)
with self.assertRaisesRegex(quickjs.JSException, "null"):
self.context.eval(code)
self.context.set_memory_limit(1000000)
self.context.eval(code)
def test_time_limit(self):
code = """
(function() {
let arr = [];
for (let i = 0; i < 100000; ++i) {
arr.push(i);
}
return arr;
})();
"""
self.context.eval(code)
self.context.set_time_limit(0)
with self.assertRaisesRegex(quickjs.JSException, "InternalError: interrupted"):
self.context.eval(code)
self.context.set_time_limit(-1)
self.context.eval(code)
def test_memory_usage(self):
self.assertIn("memory_used_size", self.context.memory().keys())
def test_json_simple(self):
self.assertEqual(self.context.parse_json("42"), 42)
def test_json_error(self):
with self.assertRaisesRegex(quickjs.JSException, "unexpected token"):
self.context.parse_json("a b c")
def test_execute_pending_job(self):
self.context.eval("obj = {}")
self.assertEqual(self.context.execute_pending_job(), False)
self.context.eval("Promise.resolve().then(() => {obj.x = 1;})")
self.assertEqual(self.context.execute_pending_job(), True)
self.assertEqual(self.context.eval("obj.x"), 1)
self.assertEqual(self.context.execute_pending_job(), False)
def test_global(self):
self.context.set("f", self.context.globalThis)
self.assertTrue(isinstance(self.context.globalThis, quickjs.Object))
self.assertTrue(self.context.eval("f === globalThis"))
with self.assertRaises(AttributeError):
self.context.globalThis = 1
class CallIntoPython(unittest.TestCase):
def setUp(self):
self.context = quickjs.Context()
def test_make_function(self):
self.context.add_callable("f", lambda x: x + 2)
self.assertEqual(self.context.eval("f(40)"), 42)
self.assertEqual(self.context.eval("f.name"), "f")
def test_make_two_functions(self):
for i in range(10):
self.context.add_callable("f", lambda x: i + x + 2)
self.context.add_callable("g", lambda x: i + x + 40)
f = self.context.get("f")
g = self.context.get("g")
self.assertEqual(f(40) - i, 42)
self.assertEqual(g(2) - i, 42)
self.assertEqual(self.context.eval("((f, a) => f(a))")(f, 40) - i, 42)
def test_make_function_call_from_js(self):
self.context.add_callable("f", lambda x: x + 2)
g = self.context.eval("""(
function() {
return f(20) + 20;
}
)""")
self.assertEqual(g(), 42)
def test_python_function_raises(self):
def error(a):
raise ValueError("A")
self.context.add_callable("error", error)
with self.assertRaisesRegex(quickjs.JSException, "Python call failed"):
self.context.eval("error(0)")
def test_python_function_not_callable(self):
with self.assertRaisesRegex(TypeError, "Argument must be callable."):
self.context.add_callable("not_callable", 1)
def test_python_function_no_slots(self):
for i in range(2**16):
self.context.add_callable(f"a{i}", lambda i=i: i + 1)
self.assertEqual(self.context.eval("a0()"), 1)
self.assertEqual(self.context.eval(f"a{2**16 - 1}()"), 2**16)
def test_function_after_context_del(self):
def make():
ctx = quickjs.Context()
ctx.add_callable("f", lambda: 1)
f = ctx.get("f")
del ctx
return f
gc.collect()
f = make()
self.assertEqual(f(), 1)
def test_python_function_unwritable(self):
self.context.eval("""
Object.defineProperty(globalThis, "obj", {
value: "test",
writable: false,
});
""")
with self.assertRaisesRegex(TypeError, "Failed adding the callable."):
self.context.add_callable("obj", lambda: None)
def test_python_function_is_function(self):
self.context.add_callable("f", lambda: None)
self.assertTrue(self.context.eval("f instanceof Function"))
self.assertTrue(self.context.eval("typeof f === 'function'"))
def test_make_function_two_args(self):
def concat(a, b):
return a + b
self.context.add_callable("concat", concat)
result = self.context.eval("concat(40, 2)")
self.assertEqual(result, 42)
concat = self.context.get("concat")
result = self.context.eval("((f, a, b) => 22 + f(a, b))")(concat, 10, 10)
self.assertEqual(result, 42)
def test_make_function_two_string_args(self):
"""Without the JS_DupValue in js_c_function, this test crashes."""
def concat(a, b):
return a + "-" + b
self.context.add_callable("concat", concat)
concat = self.context.get("concat")
result = concat("aaa", "bbb")
self.assertEqual(result, "aaa-bbb")
def test_can_eval_in_same_context(self):
self.context.add_callable("f", lambda: 40 + self.context.eval("1 + 1"))
self.assertEqual(self.context.eval("f()"), 42)
def test_can_call_in_same_context(self):
inner = self.context.eval("(function() { return 42; })")
self.context.add_callable("f", lambda: inner())
self.assertEqual(self.context.eval("f()"), 42)
def test_delete_function_from_inside_js(self):
self.context.add_callable("f", lambda: None)
# Segfaults if js_python_function_finalizer does not handle threading
# states carefully.
self.context.eval("delete f")
self.assertIsNone(self.context.get("f"))
def test_invalid_argument(self):
self.context.add_callable("p", lambda: 42)
self.assertEqual(self.context.eval("p()"), 42)
with self.assertRaisesRegex(quickjs.JSException, "Python call failed"):
self.context.eval("p(1)")
with self.assertRaisesRegex(quickjs.JSException, "Python call failed"):
self.context.eval("p({})")
def test_time_limit_disallowed(self):
self.context.add_callable("f", lambda x: x + 2)
self.context.set_time_limit(1000)
with self.assertRaises(quickjs.JSException):
self.context.eval("f(40)")
def test_conversion_failure_does_not_raise_system_error(self):
# https://github.com/PetterS/quickjs/issues/38
def test_list():
return [1, 2, 3]
self.context.add_callable("test_list", test_list)
with self.assertRaises(quickjs.JSException):
# With incorrect error handling, this (safely) made Python raise a SystemError
# instead of a JS exception.
self.context.eval("test_list()")
class Object(unittest.TestCase):
def setUp(self):
self.context = quickjs.Context()
def test_function_is_object(self):
f = self.context.eval("""
a = function(x) {
return 40 + x;
}
""")
self.assertIsInstance(f, quickjs.Object)
def test_function_call_int(self):
f = self.context.eval("""
f = function(x) {
return 40 + x;
}
""")
self.assertEqual(f(2), 42)
def test_function_call_int_two_args(self):
f = self.context.eval("""
f = function(x, y) {
return 40 + x + y;
}
""")
self.assertEqual(f(3, -1), 42)
def test_function_call_many_times(self):
n = 1000
f = self.context.eval("""
f = function(x, y) {
return x + y;
}
""")
s = 0
for i in range(n):
s += f(1, 1)
self.assertEqual(s, 2 * n)
def test_function_call_str(self):
f = self.context.eval("""
f = function(a) {
return a + " hej";
}
""")
self.assertEqual(f("1"), "1 hej")
def test_function_call_str_three_args(self):
f = self.context.eval("""
f = function(a, b, c) {
return a + " hej " + b + " ho " + c;
}
""")
self.assertEqual(f("1", "2", "3"), "1 hej 2 ho 3")
def test_function_call_object(self):
d = self.context.eval("d = {data: 42};")
f = self.context.eval("""
f = function(d) {
return d.data;
}
""")
self.assertEqual(f(d), 42)
# Try again to make sure refcounting works.
self.assertEqual(f(d), 42)
self.assertEqual(f(d), 42)
def test_function_call_unsupported_arg(self):
f = self.context.eval("""
f = function(x) {
return 40 + x;
}
""")
with self.assertRaisesRegex(TypeError, "Unsupported type"):
self.assertEqual(f({}), 42)
def test_json(self):
d = self.context.eval("d = {data: 42};")
self.assertEqual(json.loads(d.json()), {"data": 42})
def test_call_nonfunction(self):
d = self.context.eval("({data: 42})")
with self.assertRaisesRegex(quickjs.JSException, "TypeError: not a function"):
d(1)
def test_wrong_context(self):
context1 = quickjs.Context()
context2 = quickjs.Context()
f = context1.eval("(function(x) { return x.a; })")
d = context2.eval("({a: 1})")
with self.assertRaisesRegex(ValueError, "Can not mix JS objects from different contexts."):
f(d)
class FunctionTest(unittest.TestCase):
def test_adder(self):
f = quickjs.Function(
"adder", """
function adder(x, y) {
return x + y;
}
""")
self.assertEqual(f(1, 1), 2)
self.assertEqual(f(100, 200), 300)
self.assertEqual(f("a", "b"), "ab")
def test_identity(self):
identity = quickjs.Function(
"identity", """
function identity(x) {
return x;
}
""")
for x in [True, [1], {"a": 2}, 1, 1.5, "hej", None]:
self.assertEqual(identity(x), x)
def test_bool(self):
f = quickjs.Function(
"f", """
function f(x) {
return [typeof x ,!x];
}
""")
self.assertEqual(f(False), ["boolean", True])
self.assertEqual(f(True), ["boolean", False])
def test_empty(self):
f = quickjs.Function("f", "function f() { }")
self.assertEqual(f(), None)
def test_lists(self):
f = quickjs.Function(
"f", """
function f(arr) {
const result = [];
arr.forEach(function(elem) {
result.push(elem + 42);
});
return result;
}""")
self.assertEqual(f([0, 1, 2]), [42, 43, 44])
def test_dict(self):
f = quickjs.Function(
"f", """
function f(obj) {
return obj.data;
}""")
self.assertEqual(f({"data": {"value": 42}}), {"value": 42})
def test_time_limit(self):
f = quickjs.Function(
"f", """
function f() {
let arr = [];
for (let i = 0; i < 100000; ++i) {
arr.push(i);
}
return arr;
}
""")
f()
f.set_time_limit(0)
with self.assertRaisesRegex(quickjs.JSException, "InternalError: interrupted"):
f()
f.set_time_limit(-1)
f()
def test_garbage_collection(self):
f = quickjs.Function(
"f", """
function f() {
let a = {};
let b = {};
a.b = b;
b.a = a;
a.i = 42;
return a.i;
}
""")
initial_count = f.memory()["obj_count"]
for i in range(10):
prev_count = f.memory()["obj_count"]
self.assertEqual(f(run_gc=False), 42)
current_count = f.memory()["obj_count"]
self.assertGreater(current_count, prev_count)
f.gc()
self.assertLessEqual(f.memory()["obj_count"], initial_count)
def test_deep_recursion(self):
f = quickjs.Function(
"f", """
function f(v) {
if (v <= 0) {
return 0;
} else {
return 1 + f(v - 1);
}
}
""")
self.assertEqual(f(100), 100)
limit = 500
with self.assertRaises(quickjs.StackOverflow):
f(limit)
f.set_max_stack_size(2000 * limit)
self.assertEqual(f(limit), limit)
def test_add_callable(self):
f = quickjs.Function(
"f", """
function f() {
return pfunc();
}
""")
f.add_callable("pfunc", lambda: 42)
self.assertEqual(f(), 42)
def test_execute_pending_job(self):
f = quickjs.Function(
"f", """
obj = {x: 0, y: 0};
async function a() {
obj.x = await 1;
}
a();
Promise.resolve().then(() => {obj.y = 1});
function f() {
return obj.x + obj.y;
}
""")
self.assertEqual(f(), 0)
self.assertEqual(f.execute_pending_job(), True)
self.assertEqual(f(), 1)
self.assertEqual(f.execute_pending_job(), True)
self.assertEqual(f(), 2)
self.assertEqual(f.execute_pending_job(), False)
def test_global(self):
f = quickjs.Function(
"f", """
function f() {
}
""")
self.assertTrue(isinstance(f.globalThis, quickjs.Object))
with self.assertRaises(AttributeError):
f.globalThis = 1
class JavascriptFeatures(unittest.TestCase):
def test_unicode_strings(self):
identity = quickjs.Function(
"identity", """
function identity(x) {
return x;
}
""")
context = quickjs.Context()
for x in ["äpple", "≤≥", "☺"]:
self.assertEqual(identity(x), x)
self.assertEqual(context.eval('(function(){ return "' + x + '";})()'), x)
def test_es2020_optional_chaining(self):
f = quickjs.Function(
"f", """
function f(x) {
return x?.one?.two;
}
""")
self.assertIsNone(f({}))
self.assertIsNone(f({"one": 12}))
self.assertEqual(f({"one": {"two": 42}}), 42)
def test_es2020_null_coalescing(self):
f = quickjs.Function(
"f", """
function f(x) {
return x ?? 42;
}
""")
self.assertEqual(f(""), "")
self.assertEqual(f(0), 0)
self.assertEqual(f(11), 11)
self.assertEqual(f(None), 42)
def test_symbol_conversion(self):
context = quickjs.Context()
context.eval("a = Symbol();")
context.set("b", context.eval("a"))
self.assertTrue(context.eval("a === b"))
def test_large_python_integers_to_quickjs(self):
context = quickjs.Context()
# Without a careful implementation, this made Python raise a SystemError/OverflowError.
context.set("v", 10**25)
# There is precision loss occurring in JS due to
# the floating point implementation of numbers.
self.assertTrue(context.eval("v == 1e25"))
def test_bigint(self):
context = quickjs.Context()
self.assertEqual(context.eval(f"BigInt('{10**100}')"), 10**100)
self.assertEqual(context.eval(f"BigInt('{-10**100}')"), -10**100)
class Threads(unittest.TestCase):
def setUp(self):
self.context = quickjs.Context()
self.executor = concurrent.futures.ThreadPoolExecutor()
def tearDown(self):
self.executor.shutdown()
def test_concurrent(self):
"""Demonstrates that the execution will crash unless the function executes on the same
thread every time.
If the executor in Function is not present, this test will fail.
"""
data = list(range(1000))
jssum = quickjs.Function(
"sum", """
function sum(data) {
return data.reduce((a, b) => a + b, 0)
}
""")
futures = [self.executor.submit(jssum, data) for _ in range(10)]
expected = sum(data)
for future in concurrent.futures.as_completed(futures):
self.assertEqual(future.result(), expected)
def test_concurrent_own_executor(self):
data = list(range(1000))
jssum1 = quickjs.Function("sum",
"""
function sum(data) {
return data.reduce((a, b) => a + b, 0)
}
""",
own_executor=True)
jssum2 = quickjs.Function("sum",
"""
function sum(data) {
return data.reduce((a, b) => a + b, 0)
}
""",
own_executor=True)
futures = [self.executor.submit(f, data) for _ in range(10) for f in (jssum1, jssum2)]
expected = sum(data)
for future in concurrent.futures.as_completed(futures):
self.assertEqual(future.result(), expected)
class QJS(object):
def __init__(self):
self.interp = quickjs.Context()
self.interp.eval('var foo = "bar";')
class QuickJSContextInClass(unittest.TestCase):
def test_github_issue_7(self):
# This used to give stack overflow internal error, due to how QuickJS calculates stack
# frames. Passes with the 2021-03-27 release.
qjs = QJS()
self.assertEqual(qjs.interp.eval('2+2'), 4)