def test_execute_empty_tab(self):
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
tab_flow = TabFlow(Tab(tab.slug, tab.name), [])
with self._execute(workflow, tab_flow, {}) as (result, path):
self.assertEqual(result, StepResult(path, []))
self.assertEqual(load_trusted_arrow_file(path), make_table())
def test_resume_backtrack_on_corrupt_cache_error(self):
module_zipfile = create_module_zipfile("mod")
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh -- but CORRUPT
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
minio.put_bytes(
# Write corrupted data -- will lead to CorruptCacheError
rendercache.io.BUCKET,
rendercache.io.crr_parquet_key(step1.cached_render_result),
b"CORRUPT",
)
# step2: no cached result -- must re-render
step2 = tab.wf_modules.create(order=1,
slug="step-2",
module_id_name="mod")
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
with patch.object(Kernel,
"render",
side_effect=mock_render({"B": [2]})):
with self._execute(workflow,
tab_flow, {},
expect_log_level=logging.ERROR) as result:
expected = RenderResult(arrow_table({"B": [2]}))
assert_render_result_equals(result, expected)
self.assertEqual(
# called with step1, then step2
Kernel.render.call_count,
2,
)
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_partial_cache_hit(self):
module_zipfile = create_module_zipfile("mod")
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh. Should not render.
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
# step2: cached result is stale, so must be re-rendered
step2 = tab.wf_modules.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id - 1,
)
rendercache.cache_render_result(
workflow,
step2,
workflow.last_delta_id - 1,
RenderResult(arrow_table({"B": [2]})),
)
step2.last_relevant_delta_id = workflow.last_delta_id
step2.save(update_fields=["last_relevant_delta_id"])
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
with patch.object(Kernel,
"render",
side_effect=mock_render({"B": [3]})):
with self._execute(workflow, tab_flow, {}) as result:
expected = RenderResult(arrow_table({"B": [3]}))
assert_render_result_equals(result, expected)
Kernel.render.assert_called_once() # step2, not step1
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_partial_cache_hit(self, fake_load_module):
ModuleVersion.create_or_replace_from_spec(
{"id_name": "mod", "name": "Mod", "category": "Clean", "parameters": []}
)
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh. Should not render.
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
# step2: cached result is stale, so must be re-rendered
step2 = tab.wf_modules.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id - 1,
)
rendercache.cache_render_result(
workflow,
step2,
workflow.last_delta_id - 1,
RenderResult(arrow_table({"B": [2]})),
)
step2.last_relevant_delta_id = workflow.last_delta_id
step2.save(update_fields=["last_relevant_delta_id"])
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, ParamDType.Dict({}), {}),
ExecuteStep(step2, ParamDType.Dict({}), {}),
],
)
expected = RenderResult(arrow_table({"B": [3]}))
fake_load_module.return_value.render.return_value = expected
with self._execute(workflow, tab_flow, {}) as result:
assert_render_result_equals(result, expected)
fake_load_module.return_value.render.assert_called_once() # step2, not step1
self.assertRegex(
# Output is to the correct file
fake_load_module.return_value.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_resume_backtrack_on_corrupt_cache_error(self, fake_load_module):
ModuleVersion.create_or_replace_from_spec(
{"id_name": "mod", "name": "Mod", "category": "Clean", "parameters": []}
)
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh -- but CORRUPT
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
minio.put_bytes(
# Write corrupted data -- will lead to CorruptCacheError
rendercache.io.BUCKET,
rendercache.io.crr_parquet_key(step1.cached_render_result),
b"CORRUPT",
)
# step2: no cached result -- must re-render
step2 = tab.wf_modules.create(order=1, slug="step-2", module_id_name="mod")
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, ParamDType.Dict({}), {}),
ExecuteStep(step2, ParamDType.Dict({}), {}),
],
)
expected = RenderResult(arrow_table({"B": [2]}))
fake_load_module.return_value.render.return_value = expected
with self._execute(
workflow, tab_flow, {}, expect_log_level=logging.ERROR
) as result:
assert_render_result_equals(result, expected)
self.assertEqual(
# called with step1, then step2
fake_load_module.return_value.render.call_count,
2,
)
self.assertRegex(
# Output is to the correct file
fake_load_module.return_value.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_resume_backtrack_on_corrupt_cache_error(self):
module_zipfile = create_module_zipfile(
"mod", spec_kwargs={"loads_data": True})
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh -- but CORRUPT
step1 = tab.steps.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
write_to_rendercache(workflow, step1, workflow.last_delta_id,
make_table(make_column("A", [1])))
step1.refresh_from_db()
s3.put_bytes(
# Write corrupted data -- will lead to CorruptCacheError
rendercache.io.BUCKET,
rendercache.io.crr_parquet_key(step1.cached_render_result),
b"CORRUPT",
)
# step2: no cached result -- must re-render
step2 = tab.steps.create(order=1, slug="step-2", module_id_name="mod")
tab_flow = TabFlow(
Tab(tab.slug, tab.name),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
new_table = make_table(make_column("B", ["b"]))
with patch.object(Kernel, "render",
side_effect=mock_render(new_table)):
with self._execute(workflow,
tab_flow, {},
expect_log_level=logging.ERROR) as (result,
path):
self.assertEqual(
result, StepResult(path, [Column("B", ColumnType.Text())]))
self.assertEqual(
# called with step1, then step2
Kernel.render.call_count,
2,
)
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_partial_cache_hit(self):
module_zipfile = create_module_zipfile(
"mod", spec_kwargs={"loads_data": True})
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
# step1: cached result is fresh. Should not render.
step1 = tab.steps.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
write_to_rendercache(workflow, step1, workflow.last_delta_id,
make_table(make_column("A", ["a"])))
# step2: cached result is stale, so must be re-rendered
step2 = tab.steps.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
write_to_rendercache(
workflow,
step2,
workflow.last_delta_id - 1,
make_table(make_column("B", ["b"])),
)
tab_flow = TabFlow(
Tab(tab.slug, tab.name),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
new_table = make_table(make_column("C", ["c"]))
with patch.object(Kernel, "render",
side_effect=mock_render(new_table)):
with self._execute(workflow, tab_flow, {}) as (result, path):
self.assertEqual(
result, StepResult(path, [Column("C", ColumnType.Text())]))
assert_arrow_table_equals(load_trusted_arrow_file(path),
new_table)
Kernel.render.assert_called_once() # step2, not step1
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_cache_hit(self):
cached_table1 = make_table(make_column("A", [1]))
cached_table2 = make_table(make_column("B", [2], format="${:,}"))
module_zipfile = create_module_zipfile(
"mod", spec_kwargs={"loads_data": True})
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.steps.create(order=0,
slug="step-1",
last_relevant_delta_id=workflow.last_delta_id)
write_to_rendercache(workflow, step1, workflow.last_delta_id,
cached_table1)
step2 = tab.steps.create(order=1,
slug="step-2",
last_relevant_delta_id=workflow.last_delta_id)
write_to_rendercache(workflow, step2, workflow.last_delta_id,
cached_table2)
tab_flow = TabFlow(
Tab(tab.slug, tab.name),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
unwanted_table = make_table(make_column("No", ["bad"]))
with patch.object(Kernel,
"render",
side_effect=mock_render(unwanted_table)):
with self._execute(workflow, tab_flow, {}) as (result, path):
self.assertEqual(
result,
StepResult(
path,
[Column("B", ColumnType.Number(format="${:,}"))]),
)
assert_arrow_table_equals(load_trusted_arrow_file(path),
cached_table2)
Kernel.render.assert_not_called()
def test_execute_cache_miss(self, fake_load_module):
ModuleVersion.create_or_replace_from_spec(
{"id_name": "mod", "name": "Mod", "category": "Clean", "parameters": []}
)
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
step2 = tab.wf_modules.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, ParamDType.Dict({}), {}),
ExecuteStep(step2, ParamDType.Dict({}), {}),
],
)
expected = RenderResult(arrow_table({"B": [2]}))
fake_load_module.return_value.render.return_value = expected
with self._execute(workflow, tab_flow, {}) as result:
assert_render_result_equals(result, expected)
self.assertEqual(
fake_load_module.return_value.render.call_count, 2 # step2, not step1
)
self.assertRegex(
# Output is to the correct file
fake_load_module.return_value.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_cache_miss(self):
module_zipfile = create_module_zipfile(
"mod", spec_kwargs={"loads_data": True})
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.steps.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
step2 = tab.steps.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
tab_flow = TabFlow(
Tab(tab.slug, tab.name),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
table = make_table(make_column("A", ["a"]))
with patch.object(Kernel, "render", side_effect=mock_render(table)):
with self._execute(workflow, tab_flow, {}) as (result, path):
self.assertEqual(
result, StepResult(path, [Column("A", ColumnType.Text())]))
assert_arrow_table_equals(load_trusted_arrow_file(path), table)
self.assertEqual(Kernel.render.call_count, 2) # step2, not step1
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_cache_hit(self):
module_zipfile = create_module_zipfile("mod")
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
last_relevant_delta_id=workflow.last_delta_id)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
step2 = tab.wf_modules.create(
order=1,
slug="step-2",
last_relevant_delta_id=workflow.last_delta_id)
rendercache.cache_render_result(
workflow,
step2,
workflow.last_delta_id,
RenderResult(arrow_table({"B": [2]})),
)
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
with patch.object(Kernel,
"render",
side_effect=mock_render({"No": ["bad"]})):
with self._execute(workflow, tab_flow, {}) as result:
assert_render_result_equals(
result, RenderResult(arrow_table({"B": [2]}), []))
def test_execute_cache_miss(self):
module_zipfile = create_module_zipfile("mod")
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.wf_modules.create(
order=0,
slug="step-1",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
step2 = tab.wf_modules.create(
order=1,
slug="step-2",
module_id_name="mod",
last_relevant_delta_id=workflow.last_delta_id,
)
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, module_zipfile, {}),
ExecuteStep(step2, module_zipfile, {}),
],
)
with patch.object(Kernel,
"render",
side_effect=mock_render({"B": [2]})):
with self._execute(workflow, tab_flow, {}) as result:
expected = RenderResult(arrow_table({"B": [2]}))
assert_render_result_equals(result, expected)
self.assertEqual(Kernel.render.call_count, 2) # step2, not step1
self.assertRegex(
# Output is to the correct file
Kernel.render.call_args[1]["output_filename"],
r"execute-tab-output.*\.arrow",
)
def test_execute_cache_hit(self, fake_module):
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
step1 = tab.wf_modules.create(
order=0, slug="step-1", last_relevant_delta_id=workflow.last_delta_id
)
rendercache.cache_render_result(
workflow,
step1,
workflow.last_delta_id,
RenderResult(arrow_table({"A": [1]})),
)
step2 = tab.wf_modules.create(
order=1, slug="step-2", last_relevant_delta_id=workflow.last_delta_id
)
rendercache.cache_render_result(
workflow,
step2,
workflow.last_delta_id,
RenderResult(arrow_table({"B": [2]})),
)
tab_flow = TabFlow(
tab.to_arrow(),
[
ExecuteStep(step1, ParamDType.Dict({}), {}),
ExecuteStep(step2, ParamDType.Dict({}), {}),
],
)
with self._execute(workflow, tab_flow, {}) as result:
assert_render_result_equals(
result, RenderResult(arrow_table({"B": [2]}), [])
)
fake_module.assert_not_called()
def test_execute_empty_tab(self):
workflow = Workflow.create_and_init()
tab = workflow.tabs.first()
tab_flow = TabFlow(tab.to_arrow(), [])
with self._execute(workflow, tab_flow, {}) as result:
assert_render_result_equals(result, RenderResult())
