def test_compare_solve_step(self): "Test that solve gives same results as single step" self.setUp() Solver = BasicBidomainSolver solver = Solver(self.mesh, self.time, self.M_i, self.M_e, I_s=self.stimulus, I_a=self.applied_current) (v_, vs) = solver.solution_fields() # Solve interval = (self.t0, self.t0 + self.dt) solutions = solver.solve(interval, self.dt) for (interval, fields) in solutions: (v_, vur) = fields a = vur.vector().norm("l2") # Reset v_ v_.vector()[:] = 0.0 # Step solver.step(interval) b = vs.vector().norm("l2") # Check that result from solve and step match. assert_equal(a, b)
def test_compare_solve_step(self) -> None: "Test that solve gives same results as single step" self.setUp() ps = BasicBidomainSolver.default_parameters() ps["Chi"] = 1.0 ps["Cm"] = 1.0 solver = BasicBidomainSolver(self.mesh, self.time, self.M_i, self.M_e, I_s=self.stimulus, I_a=self.applied_current, parameters=ps) v_, vs = solver.solution_fields() # Solve interval = (self.t0, self.t0 + self.dt) for _, (v_, vur) in solver.solve(*interval, self.dt): a = vur.vector().norm("l2") # Reset v_ v_.vector()[:] = 0.0 # Step solver.step(*interval) b = vs.vector().norm("l2") # Check that result from solve and step match. assert_equal(a, b)
def test_compare_solve_step(self) -> None: """Test that solve gives same results as single step.""" self.setUp() solver = BasicMonodomainSolver(self.mesh, self.time, self.M_i, I_s=self.stimulus) v_, vs = solver.solution_fields() # Solve interval = (self.t0, self.t0 + self.dt) for _, (v_, vur) in solver.solve(*interval, self.dt): a = vur.vector().norm("l2") # Reset v_ v_.vector()[:] = 0.0 # Step solver.step(*interval) b = vs.vector().norm("l2") # Check that result from solve and step match. assert_equal(a, b)
def test_replay(self, Solver, solver_type, tol): "Test that replay of basic bidomain solver reports success." self._setup_solver(Solver, solver_type) self._solve() # Check replay info_green("Running replay basic (%s)" % solver_type) success = replay_dolfin(stop=True, tol=tol) assert_equal(success, True)
def DefineDocument(doc): view = docapi.DocModel().DocumentView(doc, doc.ResourceContext()) testtools.create_default_processing_context_for_view( view, mode=docapi.IProcessingContext.PM_DESIGNTIME) view.Update() for statement, origin, result in g_tests: spec = resourcesapi.ScriptSpec('js', statement, origin) assert_equal(view.ViewDebug().CheckSyntax(spec), result) spec = resourcesapi.ScriptSpec('py', 'a = 1', 'python_test') testtools.should_throw(lambda: view.ViewDebug().CheckSyntax(spec), 'RuntimeError: Not implemented')
def test_other(): # Other tests-- not very systematic assert_equal(pow(3, 3) % 8, pow(3, 3, 8)) assert_equal(pow(3, 3) % -8, pow(3, 3, -8)) assert_equal(pow(3, 2) % -2, pow(3, 2, -2)) assert_equal(pow(-3, 3) % 8, pow(-3, 3, 8)) assert_equal(pow(-3, 3) % -8, pow(-3, 3, -8)) assert_equal(pow(5, 2) % -8, pow(5, 2, -8)) assert_equal(pow(3, 3) % 8, pow(3, 3, 8)) assert_equal(pow(3, 3) % -8, pow(3, 3, -8)) assert_equal(pow(3, 2) % -2, pow(3, 2, -2)) assert_equal(pow(-3, 3) % 8, pow(-3, 3, 8)) assert_equal(pow(-3, 3) % -8, pow(-3, 3, -8)) assert_equal(pow(5, 2) % -8, pow(5, 2, -8)) for i in range(-10, 11): for j in range(0, 6): if j == 1: # FIXME: num-bigint bug for this case # https://github.com/rust-num/num-bigint/pull/113 continue if i < 0: # FIXME: num-bigint bug for negative base # https://github.com/rust-num/num-bigint/pull/114 continue for k in range(-7, 11): if j >= 0 and k != 0: assert_equal(pow(i, j) % k, pow(i, j, k)) if j >= 0 and k != 0: assert_equal(pow(int(i), j) % k, pow(int(i), j, k))
def powtest(type): if type != float: for i in range(-1000, 1000): assert_equal(pow(type(i), 0), 1) assert_equal(pow(type(i), 1), type(i)) assert_equal(pow(type(0), 1), type(0)) assert_equal(pow(type(1), 1), type(1)) for i in range(-100, 100): assert_equal(pow(type(i), 3), i * i * i) pow2 = 1 for i in range(0, 31): assert_equal(pow(2, i), pow2) if i != 30: pow2 = pow2 * 2 for othertype in (int, ): for i in list(range(-10, 0)) + list(range(1, 10)): ii = type(i) for j in range(1, 11): jj = -othertype(j) pow(ii, jj) for othertype in int, float: for i in range(1, 100): zero = type(0) exp = -othertype(i / 10.0) if exp == 0: continue assert_raises(ZeroDivisionError, pow, zero, exp) il, ih = -20, 20 jl, jh = -5, 5 kl, kh = -10, 10 asseq = assert_equal if type == float: il = 1 asseq = assert_almost_equal elif type == int: jl = 0 elif type == int: jl, jh = 0, 15 for i in range(il, ih + 1): for j in range(jl, jh + 1): for k in range(kl, kh + 1): if j == 1 and k % 2 == 0: # FIXME: num-bigint bug for this case # https://github.com/rust-num/num-bigint/pull/113 continue if i < 0 or k < 0: # FIXME: num-bigint bug for negative base or mod # https://github.com/rust-num/num-bigint/pull/114 continue if k != 0: if type == float or j < 0: assert_raises(TypeError, pow, type(i), j, k) continue asseq(pow(type(i), j, k), pow(type(i), j) % type(k))
def test_other(): # Other tests-- not very systematic assert_equal(pow(3, 3) % 8, pow(3, 3, 8)) assert_equal(pow(3, 3) % -8, pow(3, 3, -8)) assert_equal(pow(3, 2) % -2, pow(3, 2, -2)) assert_equal(pow(-3, 3) % 8, pow(-3, 3, 8)) assert_equal(pow(-3, 3) % -8, pow(-3, 3, -8)) assert_equal(pow(5, 2) % -8, pow(5, 2, -8)) assert_equal(pow(3, 3) % 8, pow(3, 3, 8)) assert_equal(pow(3, 3) % -8, pow(3, 3, -8)) assert_equal(pow(3, 2) % -2, pow(3, 2, -2)) assert_equal(pow(-3, 3) % 8, pow(-3, 3, 8)) assert_equal(pow(-3, 3) % -8, pow(-3, 3, -8)) assert_equal(pow(5, 2) % -8, pow(5, 2, -8)) for i in range(-10, 11): for j in range(0, 6): for k in range(-7, 11): if j >= 0 and k != 0: assert_equal(pow(i, j) % k, pow(i, j, k)) if j >= 0 and k != 0: assert_equal(pow(int(i), j) % k, pow(int(i), j, k))
def powtest(type): if type != float: for i in range(-1000, 1000): assert_equal(pow(type(i), 0), 1) assert_equal(pow(type(i), 1), type(i)) assert_equal(pow(type(0), 1), type(0)) assert_equal(pow(type(1), 1), type(1)) for i in range(-100, 100): assert_equal(pow(type(i), 3), i * i * i) pow2 = 1 for i in range(0, 31): assert_equal(pow(2, i), pow2) if i != 30: pow2 = pow2 * 2 for othertype in (int, ): for i in list(range(-10, 0)) + list(range(1, 10)): ii = type(i) for j in range(1, 11): jj = -othertype(j) pow(ii, jj) for othertype in int, float: for i in range(1, 100): zero = type(0) exp = -othertype(i / 10.0) if exp == 0: continue assert_raises(ZeroDivisionError, pow, zero, exp) il, ih = -20, 20 jl, jh = -5, 5 kl, kh = -10, 10 asseq = assert_equal if type == float: il = 1 asseq = assert_almost_equal elif type == int: jl = 0 elif type == int: jl, jh = 0, 15 for i in range(il, ih + 1): for j in range(jl, jh + 1): for k in range(kl, kh + 1): if k != 0: if type == float or j < 0: assert_raises(TypeError, pow, type(i), j, k) continue asseq(pow(type(i), j, k), pow(type(i), j) % type(k))
x = 1000 * b"1234" assert uh(h(x)) == x assert uh(b"ABCDEF") == b"\xab\xcd\xef" assert binascii.a2b_hex(b"6161") == b"aa" assert uh("abcd") == b"\xab\xcd" with assert_raises(ValueError): uh(b"a") # Odd-length string with assert_raises(ValueError): uh(b"nn") # Non-hexadecimal digit found assert binascii.crc32(b"hello world") == 222957957 assert binascii.crc32(b"hello world", 555555) == 1216827162 assert binascii.crc32(b"goodbye interesting world", 777777) == 1885538403 enc_b64 = binascii.b2a_base64 assert_equal(enc_b64(b"213"), b"MjEz\n") assert_equal(enc_b64(b"213", newline=False), b"MjEz") dec_b64 = binascii.a2b_base64 assert_equal(dec_b64(b"UnVzdFB5dGhvbg==\n"), b"RustPython") assert_equal( dec_b64(b"4pii8J+QoyAg4ZaH8J2TpPCdlYrRguKTn/CdlZDwnZWl5Y2Ez4PwnZSrICDimazwn5Gj\n"), "☢🐣 ᖇ𝓤𝕊тⓟ𝕐𝕥卄σ𝔫 ♬👣".encode(), )
class Almost: def fileno(self): return "fileno" assert_raises(TypeError, select.select, 1, 2, 3) assert_raises(TypeError, select.select, [Nope()], [], []) assert_raises(TypeError, select.select, [Almost()], [], []) assert_raises(TypeError, select.select, [], [], [], "not a number") assert_raises(ValueError, select.select, [], [], [], -1) if "win" in sys.platform: assert_raises(OSError, select.select, [0], [], []) recvr = socket.socket() recvr.bind(("127.0.0.1", 9988)) recvr.listen() recvr.settimeout(10.0) sendr = socket.socket() sendr.connect(("127.0.0.1", 9988)) sendr.send(b"aaaa") res = select.select([recvr], [sendr], []) assert_equal(res, ([recvr], [sendr], []))