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crewAI/tests/flow_test.py
Brandon Hancock (bhancock_ai) faa231e278 Fix flows to support cycles and added in test (#1556)
2024-11-05 12:02:54 -05:00

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"""Test Flow creation and execution basic functionality."""
import asyncio
import pytest
from crewai.flow.flow import Flow, and_, listen, or_, router, start
def test_simple_sequential_flow():
"""Test a simple flow with two steps called sequentially."""
execution_order = []
class SimpleFlow(Flow):
@start()
def step_1(self):
execution_order.append("step_1")
@listen(step_1)
def step_2(self):
execution_order.append("step_2")
flow = SimpleFlow()
flow.kickoff()
assert execution_order == ["step_1", "step_2"]
def test_flow_with_multiple_starts():
"""Test a flow with multiple start methods."""
execution_order = []
class MultiStartFlow(Flow):
@start()
def step_a(self):
execution_order.append("step_a")
@start()
def step_b(self):
execution_order.append("step_b")
@listen(step_a)
def step_c(self):
execution_order.append("step_c")
@listen(step_b)
def step_d(self):
execution_order.append("step_d")
flow = MultiStartFlow()
flow.kickoff()
assert "step_a" in execution_order
assert "step_b" in execution_order
assert "step_c" in execution_order
assert "step_d" in execution_order
assert execution_order.index("step_c") > execution_order.index("step_a")
assert execution_order.index("step_d") > execution_order.index("step_b")
def test_cyclic_flow():
"""Test a cyclic flow that runs a finite number of iterations."""
execution_order = []
class CyclicFlow(Flow):
iteration = 0
max_iterations = 3
@start("loop")
def step_1(self):
if self.iteration >= self.max_iterations:
return # Do not proceed further
execution_order.append(f"step_1_{self.iteration}")
@listen(step_1)
def step_2(self):
execution_order.append(f"step_2_{self.iteration}")
@router(step_2)
def step_3(self):
execution_order.append(f"step_3_{self.iteration}")
self.iteration += 1
if self.iteration < self.max_iterations:
return "loop"
return "exit"
flow = CyclicFlow()
flow.kickoff()
expected_order = []
for i in range(flow.max_iterations):
expected_order.extend([f"step_1_{i}", f"step_2_{i}", f"step_3_{i}"])
assert execution_order == expected_order
def test_flow_with_and_condition():
"""Test a flow where a step waits for multiple other steps to complete."""
execution_order = []
class AndConditionFlow(Flow):
@start()
def step_1(self):
execution_order.append("step_1")
@start()
def step_2(self):
execution_order.append("step_2")
@listen(and_(step_1, step_2))
def step_3(self):
execution_order.append("step_3")
flow = AndConditionFlow()
flow.kickoff()
assert "step_1" in execution_order
assert "step_2" in execution_order
assert execution_order[-1] == "step_3"
assert execution_order.index("step_3") > execution_order.index("step_1")
assert execution_order.index("step_3") > execution_order.index("step_2")
def test_flow_with_or_condition():
"""Test a flow where a step is triggered when any of multiple steps complete."""
execution_order = []
class OrConditionFlow(Flow):
@start()
def step_a(self):
execution_order.append("step_a")
@start()
def step_b(self):
execution_order.append("step_b")
@listen(or_(step_a, step_b))
def step_c(self):
execution_order.append("step_c")
flow = OrConditionFlow()
flow.kickoff()
assert "step_a" in execution_order or "step_b" in execution_order
assert "step_c" in execution_order
assert execution_order.index("step_c") > min(
execution_order.index("step_a"), execution_order.index("step_b")
)
def test_flow_with_router():
"""Test a flow that uses a router method to determine the next step."""
execution_order = []
class RouterFlow(Flow):
@start()
def start_method(self):
execution_order.append("start_method")
@router(start_method)
def router(self):
execution_order.append("router")
# Ensure the condition is set to True to follow the "step_if_true" path
condition = True
return "step_if_true" if condition else "step_if_false"
@listen("step_if_true")
def truthy(self):
execution_order.append("step_if_true")
@listen("step_if_false")
def falsy(self):
execution_order.append("step_if_false")
flow = RouterFlow()
flow.kickoff()
assert execution_order == ["start_method", "router", "step_if_true"]
def test_async_flow():
"""Test an asynchronous flow."""
execution_order = []
class AsyncFlow(Flow):
@start()
async def step_1(self):
execution_order.append("step_1")
await asyncio.sleep(0.1)
@listen(step_1)
async def step_2(self):
execution_order.append("step_2")
await asyncio.sleep(0.1)
flow = AsyncFlow()
asyncio.run(flow.kickoff_async())
assert execution_order == ["step_1", "step_2"]
def test_flow_with_exceptions():
"""Test flow behavior when exceptions occur in steps."""
execution_order = []
class ExceptionFlow(Flow):
@start()
def step_1(self):
execution_order.append("step_1")
raise ValueError("An error occurred in step_1")
@listen(step_1)
def step_2(self):
execution_order.append("step_2")
flow = ExceptionFlow()
with pytest.raises(ValueError):
flow.kickoff()
# Ensure step_2 did not execute
assert execution_order == ["step_1"]
def test_flow_restart():
"""Test restarting a flow after it has completed."""
execution_order = []
class RestartableFlow(Flow):
@start()
def step_1(self):
execution_order.append("step_1")
@listen(step_1)
def step_2(self):
execution_order.append("step_2")
flow = RestartableFlow()
flow.kickoff()
flow.kickoff() # Restart the flow
assert execution_order == ["step_1", "step_2", "step_1", "step_2"]
def test_flow_with_custom_state():
"""Test a flow that maintains and modifies internal state."""
class StateFlow(Flow):
def __init__(self):
super().__init__()
self.counter = 0
@start()
def step_1(self):
self.counter += 1
@listen(step_1)
def step_2(self):
self.counter *= 2
assert self.counter == 2
flow = StateFlow()
flow.kickoff()
assert flow.counter == 2
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