From: Christian Heller Date: Wed, 28 Aug 2024 02:40:29 +0000 (+0200) Subject: Some work on tests, kinda unfinished. X-Git-Url: https://plomlompom.com/repos/te"st.html?a=commitdiff_plain;h=c5b24e606c1e91c6f99f2574e3eb4e09fd74ba6b;p=plomtask Some work on tests, kinda unfinished. --- diff --git a/plomtask/http.py b/plomtask/http.py index e224ea0..99d3850 100644 --- a/plomtask/http.py +++ b/plomtask/http.py @@ -4,8 +4,7 @@ from inspect import signature from typing import Any, Callable from base64 import b64encode, b64decode from binascii import Error as binascii_Exception -from http.server import BaseHTTPRequestHandler -from http.server import HTTPServer +from http.server import HTTPServer, BaseHTTPRequestHandler from urllib.parse import urlparse, parse_qs from json import dumps as json_dumps from os.path import split as path_split diff --git a/tests/processes.py b/tests/processes.py index 2e2f716..42ad22e 100644 --- a/tests/processes.py +++ b/tests/processes.py @@ -23,42 +23,6 @@ class TestsWithDB(TestCaseWithDB): """Module tests requiring DB setup.""" checked_class = Process - def three_processes(self) -> tuple[Process, Process, Process]: - """Return three saved processes.""" - p1, p2, p3 = Process(None), Process(None), Process(None) - for p in [p1, p2, p3]: - p.save(self.db_conn) - return p1, p2, p3 - - def p_of_conditions(self) -> tuple[Process, list[Condition], - list[Condition], list[Condition]]: - """Return Process and its three Condition sets.""" - p = Process(None) - c1, c2, c3 = Condition(None), Condition(None), Condition(None) - for c in [c1, c2, c3]: - c.save(self.db_conn) - assert isinstance(c1.id_, int) - assert isinstance(c2.id_, int) - assert isinstance(c3.id_, int) - set_1 = [c1, c2] - set_2 = [c2, c3] - set_3 = [c1, c3] - conds = [c.id_ for c in set_1 if isinstance(c.id_, int)] - enables = [c.id_ for c in set_2 if isinstance(c.id_, int)] - disables = [c.id_ for c in set_3 if isinstance(c.id_, int)] - p.set_condition_relations(self.db_conn, conds, [], enables, disables) - p.save(self.db_conn) - return p, set_1, set_2, set_3 - - def test_Process_conditions_saving(self) -> None: - """Test .save/.save_core.""" - p, set1, set2, set3 = self.p_of_conditions() - assert p.id_ is not None - r = Process.by_id(self.db_conn, p.id_) - self.assertEqual(sorted(r.conditions), sorted(set1)) - self.assertEqual(sorted(r.enables), sorted(set2)) - self.assertEqual(sorted(r.disables), sorted(set3)) - def test_from_table_row(self) -> None: """Test .from_table_row() properly reads in class from DB.""" super().test_from_table_row() @@ -72,120 +36,98 @@ class TestsWithDB(TestCaseWithDB): self.assertEqual(sorted(r.enables), sorted(set2)) self.assertEqual(sorted(r.disables), sorted(set3)) - # def test_Process_steps(self) -> None: - # """Test addition, nesting, and non-recursion of ProcessSteps""" - # # pylint: disable=too-many-locals - # # pylint: disable=too-many-statements - # p1, p2, p3 = self.three_processes() - # assert isinstance(p1.id_, int) - # assert isinstance(p2.id_, int) - # assert isinstance(p3.id_, int) - # steps_p1: list[ProcessStep] = [] - # # add step of process p2 as first (top-level) step to p1 - # s_p2_to_p1 = ProcessStep(None, p1.id_, p2.id_, None) - # steps_p1 += [s_p2_to_p1] - # p1.set_steps(self.db_conn, steps_p1) - # p1_dict: dict[int, ProcessStepsNode] = {} - # p1_dict[1] = ProcessStepsNode(p2, None, True, {}) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # add step of process p3 as second (top-level) step to p1 - # s_p3_to_p1 = ProcessStep(None, p1.id_, p3.id_, None) - # steps_p1 += [s_p3_to_p1] - # p1.set_steps(self.db_conn, steps_p1) - # p1_dict[2] = ProcessStepsNode(p3, None, True, {}) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # add step of process p3 as first (top-level) step to p2, - # steps_p2: list[ProcessStep] = [] - # s_p3_to_p2 = ProcessStep(None, p2.id_, p3.id_, None) - # steps_p2 += [s_p3_to_p2] - # p2.set_steps(self.db_conn, steps_p2) - # # expect it as implicit sub-step of p1's second (p3) step - # p2_dict = {3: ProcessStepsNode(p3, None, False, {})} - # p1_dict[1].steps[3] = p2_dict[3] - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # add step of process p2 as explicit sub-step to p1's second sub-step - # s_p2_to_p1_first = ProcessStep(None, p1.id_, p2.id_, s_p3_to_p1.id_) - # steps_p1 += [s_p2_to_p1_first] - # p1.set_steps(self.db_conn, steps_p1) - # seen_3 = ProcessStepsNode(p3, None, False, {}, False) - # p1_dict[1].steps[3].seen = True - # p1_dict[2].steps[4] = ProcessStepsNode(p2, s_p3_to_p1.id_, True, - # {3: seen_3}) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # add step of process p3 as explicit sub-step to non-existing p1 - # # sub-step (of id=999), expect it to become another p1 top-level step - # s_p3_to_p1_999 = ProcessStep(None, p1.id_, p3.id_, 999) - # steps_p1 += [s_p3_to_p1_999] - # p1.set_steps(self.db_conn, steps_p1) - # p1_dict[5] = ProcessStepsNode(p3, None, True, {}) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # add step of process p3 as explicit sub-step to p1's implicit p3 - # # sub-step, expect it to become another p1 top-level step - # s_p3_to_p1_impl_p3 = ProcessStep(None, p1.id_, p3.id_, - # s_p3_to_p2.id_) - # steps_p1 += [s_p3_to_p1_impl_p3] - # p1.set_steps(self.db_conn, steps_p1) - # p1_dict[6] = ProcessStepsNode(p3, None, True, {}) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # self.assertEqual(p1.used_as_step_by(self.db_conn), []) - # self.assertEqual(p2.used_as_step_by(self.db_conn), [p1]) - # self.assertEqual(p3.used_as_step_by(self.db_conn), [p1, p2]) - # # # add step of process p3 as explicit sub-step to p1's first - # # # sub-step, expect it to eliminate implicit p3 sub-step - # # s_p3_to_p1_first_explicit = ProcessStep(None, p1.id_, p3.id_, - # # s_p2_to_p1.id_) - # # p1_dict[1].steps = {7: ProcessStepsNode(p3, 1, True, {})} - # # p1_dict[2].steps[4].steps[3].seen = False - # # steps_p1 += [s_p3_to_p1_first_explicit] - # # p1.set_steps(self.db_conn, steps_p1) - # # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # ensure implicit steps non-top explicit steps are shown - # s_p3_to_p2_first = ProcessStep(None, p2.id_, p3.id_, s_p3_to_p2.id_) - # steps_p2 += [s_p3_to_p2_first] - # p2.set_steps(self.db_conn, steps_p2) - # p1_dict[1].steps[3].steps[7] = ProcessStepsNode(p3, 3, False, {}, - # True) - # p1_dict[2].steps[4].steps[3].steps[7] = ProcessStepsNode( - # p3, 3, False, {}, False) - # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) - # # ensure suppressed step nodes are hidden - # assert isinstance(s_p3_to_p2.id_, int) - # p1.set_step_suppressions(self.db_conn, [s_p3_to_p2.id_]) - # p1_dict[1].steps[3].steps = {} - # p1_dict[1].steps[3].is_suppressed = True - # p1_dict[2].steps[4].steps[3].steps = {} - # p1_dict[2].steps[4].steps[3].is_suppressed = True - # self.assertEqual(p1.get_steps(self.db_conn), p1_dict) - - def test_Process_conditions(self) -> None: - """Test setting Process.conditions/enables/disables.""" - p = Process(None) - p.save(self.db_conn) - targets = ['conditions', 'blockers', 'enables', 'disables'] - for i, target in enumerate(targets): - c1, c2 = Condition(None), Condition(None) - c1.save(self.db_conn) - c2.save(self.db_conn) - assert isinstance(c1.id_, int) - assert isinstance(c2.id_, int) - args: list[list[int]] = [[], [], [], []] - args[i] = [] - p.set_condition_relations(self.db_conn, *args) - self.assertEqual(getattr(p, target), []) - args[i] = [c1.id_] - p.set_condition_relations(self.db_conn, *args) - self.assertEqual(getattr(p, target), [c1]) - args[i] = [c2.id_] - p.set_condition_relations(self.db_conn, *args) - self.assertEqual(getattr(p, target), [c2]) - args[i] = [c1.id_, c2.id_] - p.set_condition_relations(self.db_conn, *args) - self.assertEqual(getattr(p, target), [c1, c2]) + def test_Process_steps(self) -> None: + """Test addition, nesting, and non-recursion of ProcessSteps""" + # pylint: disable=too-many-locals + # pylint: disable=too-many-statements + p1, p2, p3 = self.three_processes() + assert isinstance(p1.id_, int) + assert isinstance(p2.id_, int) + assert isinstance(p3.id_, int) + steps_p1: list[ProcessStep] = [] + # # add step of process p2 as first (top-level) step to p1 + # s_p2_to_p1 = ProcessStep(None, p1.id_, p2.id_, None) + # steps_p1 += [s_p2_to_p1] + # p1.set_steps(self.db_conn, steps_p1) + # p1_dict: dict[int, ProcessStepsNode] = {} + # p1_dict[1] = ProcessStepsNode(p2, None, True, {}) + # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # # add step of process p3 as second (top-level) step to p1 + # s_p3_to_p1 = ProcessStep(None, p1.id_, p3.id_, None) + # steps_p1 += [s_p3_to_p1] + # p1.set_steps(self.db_conn, steps_p1) + # p1_dict[2] = ProcessStepsNode(p3, None, True, {}) + # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # # add step of process p3 as first (top-level) step to p2, + # steps_p2: list[ProcessStep] = [] + # s_p3_to_p2 = ProcessStep(None, p2.id_, p3.id_, None) + # steps_p2 += [s_p3_to_p2] + # p2.set_steps(self.db_conn, steps_p2) + # # expect it as implicit sub-step of p1's second (p3) step + # p2_dict = {3: ProcessStepsNode(p3, None, False, {})} + # p1_dict[1].steps[3] = p2_dict[3] + # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # # add step of process p2 as explicit sub-step to p1's second sub-step + # s_p2_to_p1_first = ProcessStep(None, p1.id_, p2.id_, s_p3_to_p1.id_) + # steps_p1 += [s_p2_to_p1_first] + # p1.set_steps(self.db_conn, steps_p1) + # seen_3 = ProcessStepsNode(p3, None, False, {}, False) + # p1_dict[1].steps[3].seen = True + # p1_dict[2].steps[4] = ProcessStepsNode(p2, s_p3_to_p1.id_, True, + # {3: seen_3}) + # self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + + # add step of process p3 as explicit sub-step to non-existing p1 + # sub-step (of id=999), expect it to become another p1 top-level step + s_p3_to_p1_999 = ProcessStep(None, p1.id_, p3.id_, 999) + steps_p1 += [s_p3_to_p1_999] + p1.set_steps(self.db_conn, steps_p1) + p1_dict[5] = ProcessStepsNode(p3, None, True, {}) + self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # add step of process p3 as explicit sub-step to p1's implicit p3 + # sub-step, expect it to become another p1 top-level step + s_p3_to_p1_impl_p3 = ProcessStep(None, p1.id_, p3.id_, + s_p3_to_p2.id_) + steps_p1 += [s_p3_to_p1_impl_p3] + p1.set_steps(self.db_conn, steps_p1) + p1_dict[6] = ProcessStepsNode(p3, None, True, {}) + self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + self.assertEqual(p1.used_as_step_by(self.db_conn), []) + self.assertEqual(p2.used_as_step_by(self.db_conn), [p1]) + self.assertEqual(p3.used_as_step_by(self.db_conn), [p1, p2]) + # add step of process p3 as explicit sub-step to p1's first + # sub-step, expect it to eliminate implicit p3 sub-step + s_p3_to_p1_first_explicit = ProcessStep(None, p1.id_, p3.id_, + s_p2_to_p1.id_) + p1_dict[1].steps = {7: ProcessStepsNode(p3, 1, True, {})} + p1_dict[2].steps[4].steps[3].seen = False + steps_p1 += [s_p3_to_p1_first_explicit] + p1.set_steps(self.db_conn, steps_p1) + self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # ensure implicit steps non-top explicit steps are shown + s_p3_to_p2_first = ProcessStep(None, p2.id_, p3.id_, s_p3_to_p2.id_) + steps_p2 += [s_p3_to_p2_first] + p2.set_steps(self.db_conn, steps_p2) + p1_dict[1].steps[3].steps[7] = ProcessStepsNode(p3, 3, False, {}, + True) + p1_dict[2].steps[4].steps[3].steps[7] = ProcessStepsNode( + p3, 3, False, {}, False) + self.assertEqual(p1.get_steps(self.db_conn, None), p1_dict) + # ensure suppressed step nodes are hidden + assert isinstance(s_p3_to_p2.id_, int) + p1.set_step_suppressions(self.db_conn, [s_p3_to_p2.id_]) + p1_dict[1].steps[3].steps = {} + p1_dict[1].steps[3].is_suppressed = True + p1_dict[2].steps[4].steps[3].steps = {} + p1_dict[2].steps[4].steps[3].is_suppressed = True + self.assertEqual(p1.get_steps(self.db_conn), p1_dict) def test_remove(self) -> None: """Test removal of Processes and ProcessSteps.""" super().test_remove() - p1, p2, p3 = self.three_processes() + p1, p2, p3 = Process(None), Process(None), Process(None) + for p in [p1, p2, p3]: + p.save(self.db_conn) assert isinstance(p1.id_, int) assert isinstance(p2.id_, int) assert isinstance(p3.id_, int) @@ -318,6 +260,13 @@ class TestsWithServer(TestCaseWithServer): self.check_json_get('/process?id=1', exp) self.post_exp_process([exp], {}, 1) self.check_json_get('/process?id=1', exp) + # check conditions posting + for i in range(3): + self.post_exp_cond([exp], {}, i+1) + p = {'conditions': [1, 2], 'disables': [1], + 'blockers': [3], 'enables': [2, 3]} + self.post_exp_process([exp], p, 1) + self.check_json_get('/process?id=1', exp) # check n_todos field self.post_exp_day([], {'new_todo': ['1']}, '2024-01-01') self.post_exp_day([], {'new_todo': ['1']}, '2024-01-02') @@ -334,9 +283,9 @@ class TestsWithServer(TestCaseWithServer): self.check_post({'delete': ''}, '/process?id=4', 302, '/processes') exp = ExpectedGetProcess(4) exp.set('is_new', True) - self.post_exp_process([exp], {}, 1) - self.post_exp_process([exp], {}, 2) - self.post_exp_process([exp], {}, 3) + for i in range(3): + self.post_exp_cond([exp], {}, i+1) + self.post_exp_process([exp], {}, i+1) exp.force('process_candidates', [1, 2, 3]) self.check_json_get('/process?id=4', exp) @@ -346,10 +295,13 @@ class TestsWithServer(TestCaseWithServer): url = '/process?id=1' exp = ExpectedGetProcess(1) self.post_exp_process([exp], {}, 1) - # post first (top-level) step of proc 2 to proc 1 by 'step_of' in 2 + # post first (top-level) step of proc2 to proc1 by 'step_of' in 2 self.post_exp_process([exp], {'step_of': 1}, 2) - exp.lib_set('ProcessStep', [exp.procstep_as_dict(1, 1, 2)]) - exp.set('steps', [exp.stepnode_as_dict(1, 2)]) + exp.lib_set('ProcessStep', [exp.procstep_as_dict(1, owner_id=1, step_process_id=2)]) + exp.set('steps', [ + exp.stepnode_as_dict( + step_id=1, + proc_id=2)]) self.check_json_get(url, exp) # post empty/absent steps list to process, expect clean slate, and old # step to completely disappear @@ -357,43 +309,56 @@ class TestsWithServer(TestCaseWithServer): exp.lib_wipe('ProcessStep') exp.set('steps', []) self.check_json_get(url, exp) - # post new step of proc2 to proc1 by 'new_top_step' + # post anew (as only step yet) step of proc2 to proc1 by 'new_top_step' self.post_exp_process([exp], {'new_top_step': 2}, 1) - exp.lib_set('ProcessStep', [exp.procstep_as_dict(1, 1, 2)]) + exp.lib_set('ProcessStep', + [exp.procstep_as_dict(1, owner_id=1, step_process_id=2)]) self.post_exp_process([exp], {'kept_steps': [1]}, 1) - exp.set('steps', [exp.stepnode_as_dict(1, 2)]) + step_nodes = [exp.stepnode_as_dict(step_id=1, proc_id=2)] + exp.set('steps', step_nodes) self.check_json_get(url, exp) - # fail on single- and multi-step recursion + # fail on single--step recursion p_min = {'title': '', 'description': '', 'effort': 0} self.check_post(p_min | {'new_top_step': 1}, url, 400) self.check_post(p_min | {'step_of': 1}, url, 400) - self.post_exp_process([exp], {'new_top_step': 1}, 2) - self.check_post(p_min | {'step_of': 2, 'new_top_step': 2}, url, 400) - self.post_exp_process([exp], {}, 3) - self.post_exp_process([exp], {'step_of': 3}, 4) - self.check_post(p_min | {'new_top_step': 3, 'step_of': 4}, url, 400) # post sibling steps + self.post_exp_process([exp], {}, 3) + self.post_exp_process([exp], {'kept_steps': [1], 'new_top_step': 3}, 1) + exp.lib_set('ProcessStep', + [exp.procstep_as_dict(2, owner_id=1, step_process_id=3)]) + step_nodes += [exp.stepnode_as_dict(step_id=2, proc_id=3)] + self.check_json_get(url, exp) + # # post implicit sub-step via post to proc2 self.post_exp_process([exp], {}, 4) - self.post_exp_process([exp], {'new_top_step': 4}, 1) - self.post_exp_process([exp], {'kept_steps': [1], 'new_top_step': 4}, 1) - exp.lib_set('ProcessStep', [exp.procstep_as_dict(1, 1, 4), - exp.procstep_as_dict(2, 1, 4)]) - exp.set('steps', [exp.stepnode_as_dict(1, 4), - exp.stepnode_as_dict(2, 4)]) + self.post_exp_process([exp], {'step_of': [1], 'new_top_step': 4}, 2) + exp.lib_set('ProcessStep', + [exp.procstep_as_dict(3, owner_id=2, step_process_id=4)]) + step_nodes[0]['steps'] = [ + exp.stepnode_as_dict(step_id=3, proc_id=4, is_explicit=False)] self.check_json_get(url, exp) - # post sub-step chain + # post explicit sub-step via post to proc1 p = {'kept_steps': [1, 2], 'new_step_to_2': 4} self.post_exp_process([exp], p, 1) - exp.lib_set('ProcessStep', [exp.procstep_as_dict(3, 1, 4, 2)]) - exp.set('steps', [exp.stepnode_as_dict(1, 4), - exp.stepnode_as_dict(2, 4, steps=[ - exp.stepnode_as_dict(3, 4)])]) + exp.lib_set('ProcessStep', [exp.procstep_as_dict( + 4, owner_id=1, step_process_id=4, parent_step_id=2)]) + step_nodes[1]['steps'] = [ + exp.stepnode_as_dict(step_id=4, proc_id=4)] self.check_json_get(url, exp) - # fail posting sub-step that would cause recursion + # fail on multi-step recursion via new step(s) + self.post_exp_process([exp], {}, 5) + self.post_exp_process([exp], {'new_top_step': 1}, 5) + exp.lib_set('ProcessStep', [exp.procstep_as_dict( + 5, owner_id=5, step_process_id=1)]) + self.check_post(p_min | {'step_of': 5, 'new_top_step': 5}, url, 400) self.post_exp_process([exp], {}, 6) - self.post_exp_process([exp], {'new_top_step': 6}, 5) - p = p_min | {'kept_steps': [1, 2, 3], 'new_step_to_2': 5, 'step_of': 6} - self.check_post(p, url, 400) + self.post_exp_process([exp], {'new_top_step': 5}, 6) + exp.lib_set('ProcessStep', [exp.procstep_as_dict( + 6, owner_id=6, step_process_id=5)]) + self.check_post(p_min | {'step_of': 5, 'new_top_step': 6}, url, 400) + # fail on multi-step recursion via explicit sub-step + self.check_json_get(url, exp) + p = {'step_of': 5, 'kept_steps': [1, 2, 4], 'new_step_to_2': 6} + self.check_post(p_min | p, url, 400) def test_fail_GET_process(self) -> None: """Test invalid GET /process params."""