pydantic-ai-testing
Test PydanticAI agents using TestModel, FunctionModel, VCR cassettes, and inline snapshots. Use when writing unit tests, mocking LLM responses, or recording API interactions.
git clone --depth 1 https://github.com/existential-birds/beagle /tmp/pydantic-ai-testing && cp -r /tmp/pydantic-ai-testing/plugins/beagle-ai/skills/pydantic-ai-testing ~/.claude/skills/pydantic-ai-testingSKILL.md
# Testing PydanticAI Agents
## TestModel (Deterministic Testing)
Use `TestModel` for tests without API calls:
```python
import pytest
from pydantic_ai import Agent
from pydantic_ai.models.test import TestModel
def test_agent_basic():
agent = Agent('openai:gpt-4o')
# Override with TestModel for testing
result = agent.run_sync('Hello', model=TestModel())
# TestModel generates deterministic output based on output_type
assert isinstance(result.output, str)
```
## TestModel Configuration
```python
from pydantic_ai.models.test import TestModel
# Custom text output
model = TestModel(custom_output_text='Custom response')
result = agent.run_sync('Hello', model=model)
assert result.output == 'Custom response'
# Custom structured output (for output_type agents)
from pydantic import BaseModel
class Response(BaseModel):
message: str
score: int
agent = Agent('openai:gpt-4o', output_type=Response)
model = TestModel(custom_output_args={'message': 'Test', 'score': 42})
result = agent.run_sync('Hello', model=model)
assert result.output.message == 'Test'
# Seed for reproducible random output
model = TestModel(seed=42)
# Force tool calls
model = TestModel(call_tools=['my_tool', 'another_tool'])
```
## Override Context Manager
```python
from pydantic_ai import Agent
from pydantic_ai.models.test import TestModel
agent = Agent('openai:gpt-4o', deps_type=MyDeps)
def test_with_override():
mock_deps = MyDeps(db=MockDB())
with agent.override(model=TestModel(), deps=mock_deps):
# All runs use TestModel and mock_deps
result = agent.run_sync('Hello')
assert result.output
```
## FunctionModel (Custom Logic)
For complete control over model responses:
```python
from pydantic_ai import Agent, ModelMessage, ModelResponse, TextPart
from pydantic_ai.models.function import AgentInfo, FunctionModel
def custom_model(
messages: list[ModelMessage],
info: AgentInfo
) -> ModelResponse:
"""Custom model that inspects messages and returns response."""
# Access the last user message
last_msg = messages[-1]
# Return custom response
return ModelResponse(parts=[TextPart('Custom response')])
agent = Agent(FunctionModel(custom_model))
result = agent.run_sync('Hello')
```
### FunctionModel with Tool Calls
```python
from pydantic_ai import ToolCallPart, ModelResponse
from pydantic_ai.models.function import AgentInfo, FunctionModel
def model_with_tools(
messages: list[ModelMessage],
info: AgentInfo
) -> ModelResponse:
# First request: call a tool
if len(messages) == 1:
return ModelResponse(parts=[
ToolCallPart(
tool_name='get_data',
args='{"id": 123}'
)
])
# After tool response: return final result
return ModelResponse(parts=[TextPart('Done with tool result')])
agent = Agent(FunctionModel(model_with_tools))
@agent.tool_plain
def get_data(id: int) -> str:
return f"Data for {id}"
result = agent.run_sync('Get data')
```
## VCR Cassettes (Recorded API Calls)
Record and replay real LLM API interactions:
```python
import pytest
@pytest.mark.vcr
def test_with_recorded_response():
"""Uses recorded cassette from tests/cassettes/"""
agent = Agent('openai:gpt-4o')
result = agent.run_sync('Hello')
assert 'hello' in result.output.lower()
# To record/update cassettes:
# uv run pytest --record-mode=rewrite tests/test_file.py
```
Cassette files are stored in `tests/cassettes/` as YAML.
## Inline Snapshots
Assert expected outputs with auto-updating snapshots:
```python
from inline_snapshot import snapshot
def test_agent_output():
result = agent.run_sync('Hello', model=TestModel())
# First run: creates snapshot
# Subsequent runs: asserts against it
assert result.output == snapshot('expected output here')
# Update snapshots:
# uv run pytest --inline-snapshot=fix
```
## Gates: VCR cassettes and inline snapshots
Recording or fixing rewrites files on disk. Follow this sequence; do not skip steps.
1. **Replay pass (no record/fix flags):** Run `uv run pytest` on the target path; **all green** (or failures are understood and unrelated to the artifact you will refresh).
2. **Scope locked:** Identify the cassette under `tests/cassettes/` or the `snapshot(...)` assertion to update; confirm **only** those files should change.
3. **Record or fix:** Run **one** scoped command: `uv run pytest --record-mode=rewrite …` **or** `uv run pytest --inline-snapshot=fix …` for that path only.
4. **Post-condition:** Run the same tests again **without** record/fix flags; **all green**. Inspect `git diff` — only expected `.yaml` / snapshot changes.
If step 4 fails, revert unintended diffs and fix the test or model before re-recording.
## Testing Tools
```python
from pydantic_ai import Agent, RunContext
from pydantic_ai.models.test import TestModel
def test_tool_is_called():
agent = Agent('openai:gpt-4o')
tool_called = False
@agent.tool_plain
def my_tool(x: int) -> str:
nonlocal tool_called
tool_called = True
return f"Result: {x}"
# Force TestModel to call the tool
result = agent.run_sync(
'Use my_tool',
model=TestModel(call_tools=['my_tool'])
)
assert tool_called
```
## Testing with Dependencies
```python
from dataclasses import dataclass
from unittest.mock import AsyncMock
@dataclass
class Deps:
api: ApiClient
def test_tool_with_deps():
# Create mock dependency
mock_api = AsyncMock()
mock_api.fetch.return_value = {'data': 'test'}
agent = Agent('openai:gpt-4o', deps_type=Deps)
@agent.tool
async def fetch_data(ctx: RunContext[Deps]) -> dict:
return await ctx.deps.api.fetch()
with agent.override(
model=TestModel(call_tools=['fetch_data']),
deps=Deps(api=mock_api)
):
result = agent.run_sync('Fetch data')
mock_api.fetch.assert_called_once()
```
## Capture Messages
Inspetag and push a release after the release PR is merged
create a release PR (auto-detects previous tag)
Guides architectural decisions for Deep Agents applications. Use when deciding between Deep Agents vs alternatives, choosing backend strategies, designing subagent systems, or selecting middleware approaches.
Reviews Deep Agents code for bugs, anti-patterns, and improvements. Use when reviewing code that uses create_deep_agent, backends, subagents, middleware, or human-in-the-loop patterns. Catches common configuration and usage mistakes.
Implements agents using Deep Agents. Use when building agents with create_deep_agent, configuring backends, defining subagents, adding middleware, or setting up human-in-the-loop workflows.
Guides architectural decisions for LangGraph applications. Use when deciding between LangGraph vs alternatives, choosing state management strategies, designing multi-agent systems, or selecting persistence and streaming approaches.
Reviews LangGraph code for bugs, anti-patterns, and improvements. Use when reviewing code that uses StateGraph, nodes, edges, checkpointing, or other LangGraph features. Catches common mistakes in state management, graph structure, and async patterns.
Implements stateful agent graphs using LangGraph. Use when building graphs, adding nodes/edges, defining state schemas, implementing checkpointing, handling interrupts, or creating multi-agent systems with LangGraph.