llcat 0.10.0

/usr/bin/cat for LLMs

/usr/bin/cat for LLMs

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"What if OpenAI’s API docs were a Unix tool?"

llcat is a general-purpose CLI-based OpenAI-compatible /chat/completions caller.

It is like cURL or cat for LLMs: a stateless, transparent, explicit, low-level, composable tool for scripting and glue.

Conversations, keys, servers and other configurations are explicitly specified each execution as command line arguments. This makes building things with llcat simple and direct.

There is no caching or state saved between runs. Everything gets surfaced and errors are JSON parsable.

Very Quick Start

List the models on OpenRouter:

uvx llcat -u https://openrouter.ai/api -m

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llcat can:

• Use local or remote servers, authenticated or not.
• Store conversation history optionally, as a JSON file.
• Pipe things from stdin and/or be prompted on the command line.
• Do tool calling using the OpenAI spec and MCP STDIO servers.
• List and choose models, system prompts, and add attachments.

llcat's basic CLI parameters are also compatible with Simon Willison's llm.

Example: Transferrable Conversations

Because conversations, models and servers are decoupled, you can easily mix and match them at any time.

Here's one conversation, hopping across models and servers.

Start a chat with Deepseek:

$ llcat -u https://openrouter.ai/api \
        -m deepseek/deepseek-r1-0528:free \
        -c /tmp/convo.txt \
        -sk $(cat openrouter.key) \
        "What is the capital of France?"

Continue it with Qwen:

$ llcat -u https://openrouter.ai/api \
        -m qwen/qwen3-4b:free \
        -c /tmp/convo.txt \
        -sk $(cat openrouter.key) \
        "And what about Canada?"

And finish on the local network:

$ llcat -u http://192.168.1.21:8080 \
        -c /tmp/convo.txt \
        "And what about Japan?"

Since the conversation goes to the filesystem as easily parsable JSON you can use things like inotify or fuse and push it off to a vector search backend or modify the context window between calls.

Example: Adding State

llcat's explicit syntax means lots of things are within reach.

For instance simple wrappers can be made custom to your workflow.

Here's a way to store state with environment variables to make invocation more convenient:

llf()        { llc "$@" 2> >(jq . >&2) | examples/spinner sd }
llc()        { llcat -m "$LLC_MODEL" -u "$LLC_SERVER" -sk "$LLC_KEY" "$@" }
llc-model()  { LLC_MODEL=$(llcat -m  -u "$LLC_SERVER" -sk "$LLC_KEY" | fzf) }
llc-server() { LLC_SERVER=$1 }
llc-key()    { LLC_KEY=$1 }

And now you can do things like this:

$ llc-server http://192.168.1.21:8080
$ llc "write a diss track where the knapsack problem hates on the towers of hanoi"

And what's that llf at the top? That uses jq to pretty print the errors and streamdown to pretty print the output along with a simple program to display a spinner while you wait.

There's no configuration files to parse or implicit states to manage.

Example: Interactive Chat

A conversation interface is also quick:

#!/usr/bin/env bash

# We pick a file for the conversation or allow a user to pass it in with a CONV environment variable
conv=${CONV:-$(mktemp)}
echo -e "  Using: $conv\n"

# Show the previous conversation if there is any, stylize it with streamdown
jq -r '.[] | "\n**\(.role)**: \(.content)"' $conv | sd

# Read prompts in a loop
while read -E -p "  >> " query; do

    # Take the command line arguments of the shell script, pass them to llcat
    llcat -c $conv "$@" "$query" |& sd
    echo
done

So now instead of

llcat -u http://myserver -k mykey -m model

Our conversation loop can be invoked like

conversation.sh -u http://myserver -k mykey -m model

Adding additional features is trivial.

Example: Evals

Running the same thing on multiple models and assessing the outcome is straight forward. Here we're using ollama

pre="llcat -u http://localhost:11434"
for model in $($pre -m); do
   $pre -m $model "translate 国際化がサポートされています。to english" > ${model}.outcome
done

You can use patterns like that also for testing tool calling completion.

If an error happens contacting the server, you get the request, response, and a non-zero exit.

Try this to see what that looks like

uvx llcat -u fakecomputer

Example: Tool calling

The examples directory contains this music playing tool listing the contents of this album:

$ llcat -u http://127.1:8080 -tf tool_file.json -tp tool_program.py "what mp3s do i have in my ~/mp3 directory"
{"level": "debug", "class": "toolcall", "message": "request", "obj": {"id": "iwCGjcRic8GAFB2jUvBUOeF9NNrldfxz", "type": "function", "function": {"name": "list_mp3s", "arguments": {"path":"~/mp3"}}}}
{"level": "debug", "class": "toolcall", "message": "result", "obj": ["Elektrobopacek - Towards the final Battle.mp3", "Elektrobopacek - Escape the Labyrinth.mp3", "Elektrobopacek - Journey to the misty Lands.mp3", "Elektrobopacek - Mistral Forte.mp3", "Elektrobopacek - Leaving Spaceport X-19.mp3", "Elektrobopacek - Dracula Rising.mp3"]}
Here are the MP3 files in your `~/mp3` directory:

1. **Elektrobopacek - Towards the final Battle.mp3**
2. **Elektrobopacek - Escape the Labyrinth.mp3**
3. **Elektrobopacek - Journey to the misty Lands.mp3**
4. **Elektrobopacek - Mistral Forte.mp3**
5. **Elektrobopacek - Leaving Spaceport X-19.mp3**
6. **Elektrobopacek - Dracula Rising.mp3**

Would you like to play any of these? Just share the filename, and I can play it for you! 🎵

In this example you can see how nothing is hidden so if the model makes a mistake it is immediately identifiable.

The debug JSON objects are sent to stderr so routing it separately is trivial.

MCPcat

MCP can be simple with simple tools. There's one included here. mcpcat is a 22 line Bash script.

Here is an example of it in use:

$ mcpcat init list | \
  uv run python -m my-server | \
  jq .

Let's say there's a calculator mcp, you can do something like

$ mcpcat init call calculate '{"expression":"2+2"}' | \
   uv run python -m mcp_server_calculator \
   jq .

The beauty here is you can see the Emperor's new clothes up close. Simply omit the pipe.

$ mcpcat init call calculate '{"expression":"2+2"}'
{"jsonrpc":"2.0","id":4,"method":"initialize","params":{"protocolVersion":"2024-11-05","capabilities":{},"clientInfo":{"name":"mcpcat","version":"1.0"}}}
{"jsonrpc":"2.0","method":"notifications/initialized"}
{"jsonrpc":"2.0","id":3,"method":"tools/call","params":{"name":"calculate","arguments":{"expression":"2+2"}}}

That's all the STDIO Transport is.

There's ways of doing the network transports with this script as well. All you need is the appropriate network tools and compose away.

Usage

Now it's your turn.

usage: llcat [-h] [-c CONVERSATION] [-m [MODEL]] [-sk KEY] [-su SERVER] [-s SYSTEM]
             [-tf TOOL_FILE] [-tp TOOL_PROGRAM] [-a ATTACH] [--version]
             [user_prompt ...]

positional arguments:
  user_prompt           Your prompt

options:
  -h, --help            show this help message and exit
  -c, --conversation CONVERSATION
                        Conversation history file
  -m, --model [MODEL]   Model to use (or list models if no value)
  -sk, --key KEY        Server API key for authorization
  -su, -u, --server SERVER
                        Server URL (e.g., http://::1:8080)
  -s, --system SYSTEM   System prompt
  -tf, --tool_file TOOL_FILE
                        JSON file with tool definitions
  -tp, --tool_program TOOL_PROGRAM
                        Program to execute tool calls
  -a, --attach ATTACH   Attach file(s)
  --version             show program's version number and exit

We're excited to see what you build.

Usage

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