# The Client A **`Client`** is how a Python program talks to an MCP server. It is one object with one lifecycle: construct it, enter `async with`, call methods. Every protocol verb (list the tools, call one, read a resource, render a prompt) is an `async` method on it that returns a typed result. ## Your first client ```python title="client.py" hl_lines="14-18" --8<-- "docs_src/client/tutorial001.py" ``` The server at the top is only there so you have something to connect to. The client is the five highlighted lines. * `Client(mcp)` is given the **server object itself**. That is the in-memory transport: no subprocess, no port, no HTTP. It is how every example on this page, and every test you write, connects. * `async with` is the **lifecycle**. Entering it connects and negotiates; leaving it disconnects. There is no `connect()` / `close()` pair, and a `Client` cannot be reused after the block ends. * Inside the block the connection facts are already there as plain properties. ### What you can pass to `Client` `Client` takes one positional argument and resolves the transport from its type: * An `MCPServer` (or low-level `Server`) instance: connected **in-process**. * A URL string (`Client("http://localhost:8000/mcp")`): Streamable HTTP, the production path. * A **transport**: anything you can `async with ... as (read, write)`, such as `stdio_client(...)` wrapping a subprocess. Everything else on this page is identical across all three. Headers, subprocesses, timeouts, and the `Transport` protocol get their own page: **[Client transports](transports.md)**. ### What's on a connected client Four read-only properties, populated the moment you enter the block: * `client.server_info`: the server's identity. `server_info.name` here is `"Bookshop"`, `server_info.version` is whatever the server reports. * `client.server_capabilities`: what the server can do (`tools`, `resources`, `prompts`, `completions`, ...). A capability the server doesn't have is `None`. * `client.protocol_version`: the protocol version the two sides agreed on. Here it is `"2026-07-28"`. * `client.instructions`: the server's `instructions=` string, or `None` if it didn't set one. You never picked a protocol version. By default the `Client` probes the server and falls back to the classic handshake on older ones, so one client works against any era of server. When you need to control that, **[Protocol versions](../protocol-versions.md)** has the whole story. !!! tip `client.session` is the underlying `ClientSession`, the low-level escape hatch. You won't need it for anything on this page. ## Listing tools ```python title="client.py" hl_lines="15-20" --8<-- "docs_src/client/tutorial002.py" ``` `list_tools()` returns a `ListToolsResult`; the tools are in `.tools`. Each one is the complete definition a host would hand to a model: ```python tool.name # 'search_books' tool.title # 'Search the catalog' tool.description # 'Search the catalog by title or author.' ``` and `tool.input_schema` is the JSON Schema the server derived from the function's type hints: ```json { "type": "object", "properties": { "query": {"title": "Query", "type": "string"}, "limit": {"default": 10, "title": "Limit", "type": "integer"} }, "required": ["query"], "title": "search_booksArguments" } ``` That schema is everything a UI needs to render an argument form, and everything a model needs to produce valid arguments. !!! tip `title` is optional, so a UI showing tools to a human has to pick: the `title` if there is one, the `name` if not. `from mcp.shared.metadata_utils import get_display_name` does exactly that, for tools, resources, resource templates and prompts. ## Calling a tool `call_tool(name, arguments)` runs the tool and gives you back a `CallToolResult`. ```python title="client.py" hl_lines="26-33" --8<-- "docs_src/client/tutorial003.py" ``` The server's `lookup_book` returns a Pydantic `Book`. Here is what the client sees: ```python result.content # [TextContent(type='text', text='{\n "title": "Dune",\n "author": "Frank Herbert",\n "year": 1965\n}')] result.structured_content # {'title': 'Dune', 'author': 'Frank Herbert', 'year': 1965} result.is_error # False ``` One return value, three things to read. Each has a different consumer. ### `content`: what the model reads `content` is a `list` of **content blocks**, and a content block is a union: `TextContent`, `ImageContent`, `AudioContent`, `ResourceLink`, or `EmbeddedResource`. A tool can return several, of different kinds. That is why `main` narrows with `isinstance(block, TextContent)` before touching `block.text`. Notice there is no `.text` outside the `isinstance`: the type checker won't allow it, because `ImageContent` has `.data`, not `.text`. The union is honest about what a tool is allowed to send you; your code should be too. ### `structured_content`: what your application reads `structured_content` is the tool's return value as JSON, matching the tool's declared `output_schema`. No string parsing, no guessing. When both are present they say the same thing twice on purpose: `content` is for a model, `structured_content` is for code. Where the structured half comes from, and how to control it, is the **[Structured Output](../servers/structured-output.md)** page. ### `is_error`: whether the tool failed A tool that raises does **not** raise in your client. It comes back as an ordinary result with `is_error=True`. !!! check Ask `lookup_book` for `"Solaris"` (a title that isn't in the catalog) and the function raises `ValueError`. The call still returns normally: ```python result.is_error # True result.content # [TextContent(type='text', text="Error executing tool lookup_book: No book titled 'Solaris' in the catalog.")] result.structured_content # None ``` The exception's message landed in `content`, where the **model** can read it and try again. That is deliberate: a tool error is part of the conversation, not a crash. Always look at `is_error` before you trust `structured_content`. !!! warning `is_error=True` covers more than your own `raise`. Ask for a tool the server doesn't even have (`call_tool("does_not_exist", {})`) and nothing raises. You get the same shape back, `is_error=True` with `Unknown tool: does_not_exist` in `content`. A `Client` method raises `MCPError` only when the server answers with a JSON-RPC **error** instead of a result, and **[Handling errors](../servers/handling-errors.md)** covers when a server produces which. ## Resources The resource verbs come in pairs: two ways to list, one way to read. ```python title="client.py" hl_lines="23-32" --8<-- "docs_src/client/tutorial004.py" ``` * `list_resources()` returns the **concrete** resources, the ones with a fixed URI. Here: `['catalog://genres']`. * `list_resource_templates()` returns the **parameterised** ones. Here: `['catalog://genres/{genre}']`. They are two different lists because a template isn't readable until you fill it in. * `read_resource(uri)` takes a plain `str` URI and works on both: pass `"catalog://genres/poetry"` and the server matches it to the template. `read_resource` returns `contents`, a list of `TextResourceContents` or `BlobResourceContents`. Same idea as tool content: narrow with `isinstance`, then read `.text` (or `.blob`). A client can also be told when a resource changes. On 2025-era connections that is `subscribe_resource(uri)` / `unsubscribe_resource(uri)` - a method pair `MCPServer` doesn't implement, so on the 2026-07-28 wire (where those verbs no longer exist) the request answers `-32601`, *Method not found*. The 2026 replacement is a `subscriptions/listen` stream, which `MCPServer` *does* serve - `server_capabilities.resources.subscribe` is `True` there - and consuming it with `client.listen(...)` is this section's **[Subscriptions](subscriptions.md)** page. ## Prompts ```python title="client.py" hl_lines="15-20" --8<-- "docs_src/client/tutorial005.py" ``` `list_prompts()` tells you what the server offers and what each prompt needs: ```python prompt.name # 'recommend' prompt.title # 'Recommend a book' prompt.arguments # [PromptArgument(name='genre', required=True)] ``` `get_prompt(name, arguments)` renders it. The arguments dict is `str -> str`: prompt arguments are always strings. The result is `messages`, a list of `PromptMessage`, each with a `role` and a `content` block: ```python message.role # 'user' message.content # TextContent(type='text', text='Recommend one poetry book from the catalog and say why.') ``` A host hands those messages straight to the model. That is the whole feature. ## Completions A server with a completion handler can autocomplete prompt and resource-template arguments as the user types. ```python title="client.py" hl_lines="28-32" --8<-- "docs_src/client/tutorial006.py" ``` * `ref` says *which* prompt or template you're filling in: a `PromptReference` or a `ResourceTemplateReference`. * `argument` is `{"name": ..., "value": ...}`: the argument and what the user has typed so far. The answer is in `result.completion.values`. Type `"p"` and the server comes back with `['poetry']`. The server side, and how a handler uses the *other* already-filled arguments to narrow its suggestions, is the **[Completions](../servers/completions.md)** page. ## Pagination Every `list_*` method takes a `cursor=` keyword and every result carries a `next_cursor`. When `next_cursor` is `None`, you have everything. ```python title="client.py" hl_lines="23-31" --8<-- "docs_src/client/tutorial007.py" ``` This loop is correct against every server. `MCPServer` returns everything in one page, so `next_cursor` is `None` and the loop runs once, which is why most code never writes it. Servers that genuinely page, and the rules cursors obey, are in **[Pagination](../advanced/pagination.md)**. ## In tests `Client(mcp)` with no process and no port is already a test harness for your server. There is one constructor flag built for that: `Client(mcp, raise_exceptions=True)`. It only has an effect on in-memory connections, and **[Testing](../get-started/testing.md)** is the page that explains it and builds the whole pattern around it. ## Recap * `Client(x)` connects in-memory to a server object, over Streamable HTTP to a URL string, and over anything else via a transport. * `async with` is the whole lifecycle. Inside it, `server_info`, `server_capabilities`, `protocol_version` and `instructions` are already populated. * `list_tools()` gives you each tool's `name`, `title`, `description` and `input_schema`. * `call_tool()` returns `content` for the model, `structured_content` for your code, and `is_error`. A raising tool is a result, not an exception. * `content` is a union of block types; narrow with `isinstance` before reading. * `list_resources` / `list_resource_templates` / `read_resource`, `list_prompts` / `get_prompt`, and `complete` round out the verbs. * Every `list_*` takes `cursor=`; loop until `next_cursor` is `None`. The things a server can ask the *client* for, and how you answer them, are **[Client callbacks](callbacks.md)**.