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from graph import State, Nodes, Edges
from graph_builder import GraphBuilder
import unittest
class TestAlfredAgent(unittest.TestCase):
"""Test suite for the Alfred agent"""
def setUp(self):
"""Set up test fixtures"""
self.nodes = Nodes()
self.edges = Edges()
self.builder = GraphBuilder()
self.graph = self.builder.build_agent_graph()
def test_manager_node(self):
"""
Test the manager node functionality.
Orchestrates the workflow by delegating tasks to specialized nodes and integrating their outputs
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'manager' node...")
nodes.manager_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_final_answer_node(self):
"""
Test the final_answer node functionality.
Formats and delivers the final response to the user
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'final_answer' node...")
nodes.final_answer_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_auditor_node(self):
"""
Test the auditor node functionality.
Reviews manager's outputs for accuracy, safety, and quality
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'auditor' node...")
nodes.auditor_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_solver_node(self):
"""
Test the solver node functionality.
Central problem-solving node that coordinates with specialized experts based on task requirements
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'solver' node...")
nodes.solver_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_researcher_node(self):
"""
Test the researcher node functionality.
Retrieves and synthesizes information from various sources to answer knowledge-based questions
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'researcher' node...")
nodes.researcher_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_encryption_expert_node(self):
"""
Test the encryption_expert node functionality.
Handles encryption/decryption tasks and encoding/decoding operations
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'encryption_expert' node...")
nodes.encryption_expert_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_encryption_advisor_node(self):
"""
Test the encryption_advisor node functionality.
Provides specialized guidance on complex encryption problems to the encryption expert
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'encryption_advisor' node...")
nodes.encryption_advisor_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_math_expert_node(self):
"""
Test the math_expert node functionality.
Performs mathematical calculations and solves numerical problems
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'math_expert' node...")
nodes.math_expert_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_math_advisor_node(self):
"""
Test the math_advisor node functionality.
Provides specialized guidance on complex mathematical problems to the math expert
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'math_advisor' node...")
nodes.math_advisor_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_reasoner_node(self):
"""
Test the reasoner node functionality.
Performs logical reasoning, inference, and step-by-step problem-solving
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'reasoner' node...")
nodes.reasoner_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_image_handler_node(self):
"""
Test the image_handler node functionality.
Processes, analyzes, and generates information related to images
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'image_handler' node...")
nodes.image_handler_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_video_handler_node(self):
"""
Test the video_handler node functionality.
Processes, analyzes, and generates information related to videos
"""
# Create an instance of Nodes class
nodes = Nodes()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the node function
print(f"Testing 'video_handler' node...")
nodes.video_handler_node(test_state)
# TODO: Add assertions to verify the state changes
print(f"State after node execution: {test_state}")
def test_manager_edge(self):
"""
Test the conditional edge for manager node.
This edge should return one of: "solver", "auditor", "final_answer"
"""
# Create an instance of Edges class
edges = Edges()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the edge function
print(f"Testing 'manager' conditional edge...")
result = edges.manager_edge(test_state)
# TODO: Add assertions to verify the result
print(f"Edge decision: {result}")
assert result in ["solver", "auditor", "final_answer"], f"Edge result '{result}' not in expected values"
def test_solver_edge(self):
"""
Test the conditional edge for solver node.
This edge should return one of: "manager", "researcher", "encryption_expert", "math_expert", "reasoner", "image_handler", "video_handler"
"""
# Create an instance of Edges class
edges = Edges()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the edge function
print(f"Testing 'solver' conditional edge...")
result = edges.solver_edge(test_state)
# TODO: Add assertions to verify the result
print(f"Edge decision: {result}")
assert result in ["manager", "researcher", "encryption_expert", "math_expert", "reasoner", "image_handler", "video_handler"], f"Edge result '{result}' not in expected values"
def test_encryption_expert_edge(self):
"""
Test the conditional edge for encryption_expert node.
This edge should return one of: "solver", "encryption_advisor"
"""
# Create an instance of Edges class
edges = Edges()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the edge function
print(f"Testing 'encryption_expert' conditional edge...")
result = edges.encryption_expert_edge(test_state)
# TODO: Add assertions to verify the result
print(f"Edge decision: {result}")
assert result in ["solver", "encryption_advisor"], f"Edge result '{result}' not in expected values"
def test_math_expert_edge(self):
"""
Test the conditional edge for math_expert node.
This edge should return one of: "solver", "math_advisor"
"""
# Create an instance of Edges class
edges = Edges()
# Create a test state
test_state = {} # TODO: Initialize with appropriate test data
# Test the edge function
print(f"Testing 'math_expert' conditional edge...")
result = edges.math_expert_edge(test_state)
# TODO: Add assertions to verify the result
print(f"Edge decision: {result}")
assert result in ["solver", "math_advisor"], f"Edge result '{result}' not in expected values"
def test_full_workflow(self):
"""
Test the Alfred agent full workflow.
"""
# TODO: Add test code here
print("Testing Alfred complete workflow...")
# Example test
# result = self.graph.invoke({"input": "Test input"})
# self.assertIsNotNone(result)
# print(f"Workflow result: {result}")
if __name__ == "__main__":
unittest.main() |