Alloy

Minimal, OTP-native agent loop for Elixir.

Alloy is the completion-tool-call loop and nothing else. Send messages to any LLM, execute tool calls, loop until done. Swap providers with one line. Run agents as supervised GenServers. No opinions on sessions, persistence, memory, scheduling, or UI — those belong in your application.

{:ok, result} = Alloy.run("Read mix.exs and tell me the version",
  provider: {Alloy.Provider.OpenAI, api_key: System.get_env("OPENAI_API_KEY"), model: "gpt-5.4"},
  tools: [Alloy.Tool.Core.Read]
)

result.text #=> "The version is 0.12.0"

Why Alloy?

Most agent frameworks try to be everything — sessions, memory, RAG, multi-agent orchestration, scheduling, UI. Alloy does one thing well: the agent loop. Inspired by Pi Agent's minimalism, Alloy brings the same philosophy to the BEAM with OTP's natural advantages: supervision, fault isolation, parallel tool execution, and real concurrency.

• 6 providers — Anthropic, Gemini, OpenAI, Codex, xAI, and OpenAICompat (works with any OpenAI-compatible API: Ollama, OpenRouter, DeepSeek, Mistral, Groq, Together, etc.)
• 4 built-in tools — read, write, edit, bash
• GenServer agents — supervised, stateful, message-passing
• Streaming — token-by-token from any provider, unified interface
• Async dispatch — send_message/2 fires non-blocking, result arrives via PubSub
• Middleware — custom hooks, tool blocking, argument editing
• Context compaction — summary-based compaction when approaching token limits, with configurable reserve and fallback to truncation
• Memory primitive — Alloy.Memory behaviour for Anthropic's memory_20250818 tool. Alloy owns the wire format and path validation; you own the store (in-memory, disk, Postgres — whatever fits)
• Prompt caching — Anthropic cache: true adds cache breakpoints for 60-90% input token savings
• Reasoning blocks — DeepSeek/xAI reasoning_content parsed as first-class thinking blocks
• Tool safety — concurrent?/0 controls parallel execution, max_result_chars/0 caps output, prompt-too-long auto-recovery
• Structured output — until_tool forces the loop to continue until a specific tool is called
• Provider passthrough — extra_body injects arbitrary provider-specific params (response_format, temperature, reasoning_effort)
• Telemetry — run, turn, provider, and compaction lifecycle events for OTEL/logging/metrics
• Cost guard — max_budget_cents halts the loop before overspending
• OTP-native — supervision trees, hot code reloading, real parallel tool execution
• ~7,500 lines — small enough to read, understand, and extend

Design Boundary

Alloy stays minimal by owning protocol and loop concerns, not application workflows.

What belongs in Alloy:

• Provider wire-format translation
• Tool-call / completion loop mechanics
• Normalized message blocks
• Opaque provider-owned state such as stored response IDs
• Provider response metadata such as citations or server-side tool telemetry

What does not belong in Alloy:

• Sessions and persistence policy
• File storage, indexing, or retrieval workflows
• UI rendering for citations, search, or artifacts
• Scheduling, background job orchestration, or dashboards
• Tenant plans, quotas, billing, or hosted infrastructure policy

Rule of thumb: if the feature is required to speak a provider API correctly, and could help any Alloy consumer, it likely belongs here. If it needs a database table, product defaults, UI decisions, or tenancy logic, it belongs in your application layer.

Installation

Add alloy to your dependencies in mix.exs:

def deps do
  [
    {:alloy, "~> 0.12"},
    # Optional: supervised runtime wrapper (sessions, async dispatch, memory stores)
    {:alloy_agent, "~> 0.1"}
  ]
end

Quick Start

Simple completion

{:ok, result} = Alloy.run("What is 2+2?",
  provider: {Alloy.Provider.Anthropic, api_key: "sk-ant-...", model: "claude-sonnet-4-6"}
)

result.text #=> "4"

Agent with tools

{:ok, result} = Alloy.run("Read mix.exs and summarize the dependencies",
  provider: {Alloy.Provider.Gemini,
    api_key: "...", model: "gemini-2.5-flash-lite"},
  tools: [Alloy.Tool.Core.Read, Alloy.Tool.Core.Bash],
  max_turns: 10
)

Gemini model IDs Alloy now budgets for include gemini-2.5-pro, gemini-2.5-flash, gemini-2.5-flash-lite, gemini-3-pro-preview, and gemini-3-flash-preview.

Swap providers in one line

# The same tools and conversation work with any provider
opts = [tools: [Alloy.Tool.Core.Read], max_turns: 10]

# Anthropic
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.Anthropic, api_key: "...", model: "claude-sonnet-4-6"}} | opts])

# OpenAI
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.OpenAI, api_key: "...", model: "gpt-5.4"}} | opts])

# Gemini
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.Gemini, api_key: "...", model: "gemini-2.5-flash"}} | opts])

# xAI via Responses-compatible API
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.OpenAI, api_key: "...", api_url: "https://api.x.ai", model: "grok-4.20-0309-reasoning"}} | opts])

# xAI via chat completions (reasoning models, extra_body)
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.OpenAICompat, api_key: "...", api_url: "https://api.x.ai", model: "grok-4.1-fast-reasoning"}} | opts])

# Any OpenAI-compatible API (Ollama, OpenRouter, DeepSeek, Mistral, Groq, etc.)
Alloy.run("Read mix.exs", [{:provider, {Alloy.Provider.OpenAICompat, api_url: "http://localhost:11434", model: "llama4"}} | opts])

Streaming

For a one-shot run, use Alloy.stream/3:

{:ok, result} =
  Alloy.stream("Explain OTP", fn chunk ->
    IO.write(chunk)
  end,
    provider: {Alloy.Provider.OpenAI, api_key: "...", model: "gpt-5.4"}
  )

For a persistent agent process with conversation state, use Alloy.Agent.Server.stream_chat/4:

{:ok, agent} = Alloy.Agent.Server.start_link(
  provider: {Alloy.Provider.OpenAI, api_key: "...", model: "gpt-5.4"},
  tools: [Alloy.Tool.Core.Read]
)

{:ok, result} = Alloy.Agent.Server.stream_chat(agent, "Explain OTP", fn chunk ->
  IO.write(chunk)  # Print each token as it arrives
end)

All providers support streaming. If a custom provider doesn't implement stream/4, the turn loop falls back to complete/3 automatically.

Alloy.run/2 remains the buffered convenience API. Use Alloy.stream/3 when you want the same one-shot flow with token streaming.

Provider-owned state

Some provider APIs expose server-side state such as stored response IDs. That transport concern lives in Alloy; your app decides whether and how to persist it.

Results expose provider-owned state in result.metadata.provider_state:

{:ok, result} =
  Alloy.run("Read the repo",
    provider: {Alloy.Provider.OpenAI,
      api_key: System.get_env("XAI_API_KEY"),
      api_url: "https://api.x.ai",
      model: "grok-4.20-0309-reasoning",
      store: true
    }
  )

provider_state = result.metadata.provider_state

Pass that state back to the same provider on the next turn to continue a provider-native conversation:

{:ok, next_result} =
  Alloy.run("Keep going",
    messages: result.messages,
    provider: {Alloy.Provider.OpenAI,
      api_key: System.get_env("XAI_API_KEY"),
      api_url: "https://api.x.ai",
      model: "grok-4.20-0309-reasoning",
      provider_state: provider_state
    }
  )

Provider-native tools and citations

Responses-compatible providers can expose built-in server-side tools without leaking those wire details into your app layer.

For xAI search tools:

{:ok, result} =
  Alloy.run("Summarise the latest xAI docs updates",
    provider: {Alloy.Provider.OpenAI,
      api_key: System.get_env("XAI_API_KEY"),
      api_url: "https://api.x.ai",
      model: "grok-4.20-0309-reasoning",
      web_search: %{allowed_domains: ["docs.x.ai"]},
      include: ["inline_citations"]
    }
  )

Citation metadata is exposed in two places:

• result.metadata.provider_response.citations for provider-level citation data
• assistant text blocks may include :annotations for inline citation spans

Overriding model metadata

Alloy derives the compaction budget from the configured provider model when it knows that model's context window. If you need to support a just-released model before Alloy ships a catalog update, override it in config:

{:ok, result} = Alloy.run("Summarise this repository",
  provider: {Alloy.Provider.OpenAI, api_key: "...", model: "gpt-5.4-2026-03-05"},
  model_metadata_overrides: %{
    "gpt-5.4" => 900_000,
    "acme-reasoner" => %{limit: 640_000, suffix_patterns: ["", ~r/^-\d{4}\.\d{2}$/]}
  }
)

Set max_tokens explicitly when you want a fixed compaction budget. Otherwise Alloy derives it from the current model, including after Alloy.Agent.Server.set_model/2 switches to a different provider model.

Use compaction: when you want to tune how much room Alloy reserves before it summarizes older context:

{:ok, result} = Alloy.run("Summarise this repository",
  provider: {Alloy.Provider.OpenAI, api_key: "...", model: "gpt-5.4"},
  compaction: [
    reserve_tokens: 12_000,
    keep_recent_tokens: 8_000,
    fallback: :truncate
  ]
)

Cost guard

Cap how much an agent run can spend:

{:ok, result} = Alloy.run("Research this codebase thoroughly",
  provider: {Alloy.Provider.Anthropic, api_key: "...", model: "claude-sonnet-4-6"},
  tools: [Alloy.Tool.Core.Read, Alloy.Tool.Core.Bash],
  max_budget_cents: 50
)

case result.status do
  :completed -> IO.puts(result.text)
  :budget_exceeded -> IO.puts("Stopped: spent #{result.usage.estimated_cost_cents}¢")
end

Set max_budget_cents: nil (default) for no limit.

Anthropic prompt caching

Enable prompt caching to save 60-90% on input tokens. Alloy automatically adds cache_control breakpoints to the system prompt and last tool definition:

{:ok, result} = Alloy.run("Explain this codebase",
  provider: {Alloy.Provider.Anthropic,
    api_key: "...", model: "claude-sonnet-4-6",
    cache: true
  },
  tools: [Alloy.Tool.Core.Read, Alloy.Tool.Core.Bash],
  system_prompt: "You are a senior Elixir developer."
)

# Cache usage is reported in result.usage
result.usage.cache_creation_input_tokens  #=> 1500
result.usage.cache_read_input_tokens      #=> 1500  (on subsequent calls)

Memory (Anthropic memory_20250818)

Alloy exposes memory as a behaviour — Alloy.Memory — matching the split Anthropic uses in their own Python SDK: Alloy owns the protocol (six commands on a /memories/ tree, return-string formats, path validation); your code owns the backing store. No bytes touch Anthropic's servers.

defmodule MyApp.Memory.Disk do
  @behaviour Alloy.Memory

  @impl true
  def view(store, path), do: # read from disk
  @impl true
  def create(store, path, text), do: # write
  @impl true
  def str_replace(store, path, old, new), do: # ...
  @impl true
  def insert(store, path, line, text), do: # ...
  @impl true
  def delete(store, path), do: # ...
  @impl true
  def rename(store, old_path, new_path), do: # ...
end

{:ok, result} = Alloy.run("Remember the user prefers SI units",
  provider: {Alloy.Provider.Anthropic, api_key: "sk-ant-...", model: "claude-sonnet-4-6"},
  memory: {MyApp.Memory.Disk, root: "/var/agent/memories"}
)

When :memory is set, Alloy injects the memory_20250818 tool into the Anthropic request and adds the context-management-2025-06-27 beta header. Memory tool calls are routed through Alloy.Memory.Router (not the general tool executor) so the typed-tool contract stays clean.

The store term (second element of {module, opts}) is opaque — pass a keyword list, a map, a pid(), or a struct, whichever your store needs. Alloy does not bake session scoping into the contract; if you want per-session memory trees, thread session_id: "..." through your store opts and namespace inside your implementation.

As of 0.12.0, memory is Anthropic-only — configuring :memory with any other provider raises at Alloy.run/2 entry. Other providers will be wired as they ship their own memory primitives.

Reasoning model support (DeepSeek, xAI)

OpenAI-compatible reasoning models that return reasoning_content (DeepSeek-R1, xAI Grok reasoning variants) are automatically parsed into thinking blocks:

{:ok, result} = Alloy.run("Solve this step by step",
  provider: {Alloy.Provider.OpenAICompat,
    api_url: "https://api.x.ai",
    api_key: "...", model: "grok-4.1-fast-reasoning"
  }
)

# Thinking blocks are preserved in message content
[thinking, text] = hd(result.messages).content
thinking.type     #=> "thinking"
thinking.thinking #=> "Step 1: Let me consider..."
text.type         #=> "text"
text.text         #=> "The answer is 42."

Provider-specific parameters (extra_body)

Pass arbitrary provider-specific parameters via extra_body. It merges last, so it can override any default field:

{:ok, result} = Alloy.run("Return JSON",
  provider: {Alloy.Provider.OpenAICompat,
    api_url: "https://api.deepseek.com",
    api_key: "...", model: "deepseek-chat",
    extra_body: %{
      "response_format" => %{"type" => "json_object"},
      "temperature" => 0.3
    }
  }
)

Works for any provider param: reasoning_effort, max_completion_tokens, presence_penalty, etc.

Telemetry

Alloy emits telemetry events for observability. Attach handlers for OTEL, logging, or custom metrics:

:telemetry.attach_many("my-handler", [
  [:alloy, :run, :start],
  [:alloy, :run, :stop],
  [:alloy, :turn, :start],
  [:alloy, :turn, :stop],
  [:alloy, :provider, :request],
  [:alloy, :compaction, :done],
  [:alloy, :tool, :start],
  [:alloy, :tool, :stop],
  [:alloy, :event]
], &MyApp.Telemetry.handle_event/4, nil)

Event	Measurements	Metadata
[:alloy, :run, :start]	system_time	model
[:alloy, :run, :stop]	duration_ms	status, turns, model
[:alloy, :turn, :start]	system_time	turn
[:alloy, :turn, :stop]	—	turn, status
[:alloy, :provider, :request]	duration_ms	provider, model, streaming, attempt, result
[:alloy, :compaction, :done]	messages_before, messages_after	turn
[:alloy, :tool, :start]	—	tool identity, correlation
[:alloy, :tool, :stop]	duration_ms	tool identity, result

Structured output with until_tool

Force the model to call a specific tool before the loop completes. This is more reliable than response format instructions because the tool schema is validated at the API level:

defmodule SubmitAnswer do
  @behaviour Alloy.Tool
  def name, do: "submit_answer"
  def description, do: "Submit your final answer as structured data."
  def input_schema do
    %{type: "object", properties: %{
      answer: %{type: "string"},
      confidence: %{type: "number", minimum: 0, maximum: 1}
    }, required: ["answer", "confidence"]}
  end
  def execute(input, _ctx), do: {:ok, "Received: #{input["answer"]}"}
end

{:ok, result} = Alloy.run("What is the capital of France?",
  provider: {Alloy.Provider.Anthropic, api_key: "...", model: "claude-sonnet-4-6"},
  tools: [SubmitAnswer],
  until_tool: "submit_answer"
)

Middleware: editing tool arguments

Middleware can return {:edit, modified_call} from :before_tool_call to rewrite tool arguments before execution (e.g., policy enforcement, input sanitization):

defmodule SanitizeBash do
  @behaviour Alloy.Middleware

  def call(:before_tool_call, state) do
    call = state.config.context[:current_tool_call]

    if call[:name] == "bash" && String.contains?(call[:input]["command"], "rm ") do
      {:edit, %{call | input: %{"command" => "echo 'rm commands are blocked'"}}}
    else
      state
    end
  end

  def call(_hook, state), do: state
end

Supervised GenServer agent

{:ok, agent} = Alloy.Agent.Server.start_link(
  provider: {Alloy.Provider.Anthropic, api_key: "...", model: "claude-sonnet-4-6"},
  tools: [Alloy.Tool.Core.Read, Alloy.Tool.Core.Edit, Alloy.Tool.Core.Bash],
  system_prompt: "You are a senior Elixir developer."
)

{:ok, response} = Alloy.Agent.Server.chat(agent, "What does this project do?")
{:ok, response} = Alloy.Agent.Server.chat(agent, "Now refactor the main module")

Async dispatch (Phoenix LiveView)

Fire a message without blocking the caller — ideal for LiveView and background jobs:

# Subscribe to receive the result
Phoenix.PubSub.subscribe(MyApp.PubSub, "agent:#{session_id}:responses")

# Returns {:ok, request_id} immediately — agent works in the background
{:ok, req_id} = Alloy.Agent.Server.send_message(agent, "Summarise this report",
  request_id: "req-123"
)

# Handle the result whenever it arrives
def handle_info({:agent_response, %{text: text, request_id: "req-123"}}, socket) do
  {:noreply, assign(socket, :response, text)}
end

Providers

Vendor	Recommended Module	Example Models
Anthropic	Alloy.Provider.Anthropic	claude-opus-4-6, claude-sonnet-4-6, claude-haiku-4-5
Gemini	Alloy.Provider.Gemini	gemini-2.5-pro, gemini-2.5-flash, gemini-3-pro-preview, gemma-4-26b-a4b-it (open-weight)
OpenAI	Alloy.Provider.OpenAI	gpt-5.4
xAI	Alloy.Provider.OpenAI with api_url: "https://api.x.ai"	grok-4.20-0309-reasoning, grok-4.20-multi-agent-0309, grok-4.1-fast-reasoning, grok-code-fast-1
Other OpenAI-compatible APIs	Alloy.Provider.OpenAICompat	kimi-k2.6 (Moonshot), qwen3-coder-plus (1M ctx), glm-4.6, mistral-large-2512, plus Ollama, OpenRouter, DeepSeek, Groq, Together

Use Alloy.Provider.OpenAI for native Responses APIs like OpenAI and xAI. Use Alloy.Provider.Gemini for Gemini's native GenerateContent API. Use Alloy.Provider.OpenAICompat for chat-completions compatible APIs and local runtimes.

OpenAICompat works with any API that implements the OpenAI chat completions format. Just set api_url, model, and optionally api_key and chat_path.

Built-in Tools

Tool	Module	Description
read	Alloy.Tool.Core.Read	Read files from disk
write	Alloy.Tool.Core.Write	Write files to disk
edit	Alloy.Tool.Core.Edit	Search-and-replace editing
bash	Alloy.Tool.Core.Bash	Execute shell commands (restricted shell by default)

Custom tools

defmodule MyApp.Tools.WebSearch do
  @behaviour Alloy.Tool

  @impl true
  def name, do: "web_search"

  @impl true
  def description, do: "Search the web for information"

  @impl true
  def input_schema do
    %{
      type: "object",
      properties: %{query: %{type: "string", description: "Search query"}},
      required: ["query"]
    }
  end

  @impl true
  def execute(%{"query" => query}, _context) do
    # Your implementation here
    {:ok, "Results for: #{query}"}
  end
end

Code execution (Anthropic)

Enable Anthropic's server-side code execution sandbox:

{:ok, result} = Alloy.run("Calculate the first 20 Fibonacci numbers",
  provider: {Alloy.Provider.Anthropic, api_key: "...", model: "claude-sonnet-4-6"},
  code_execution: true
)

Architecture

Alloy.run/2                    One-shot agent loop (pure function)
Alloy.Agent.Server             GenServer wrapper (stateful, supervisable)
Alloy.Agent.Turn               Single turn: call provider → execute tools → return
Alloy.Provider                 Behaviour: translate wire format ↔ Alloy.Message
Alloy.Tool                     Behaviour: name, description, input_schema, execute
Alloy.Middleware               Pipeline: custom hooks, tool blocking
Alloy.Context.Compactor        Automatic conversation summarization

Sessions, persistence, multi-agent coordination, scheduling, skills, and UI belong in your application layer. See Anvil for a reference Phoenix application built on Alloy.

License

MIT — see LICENSE.

Releases

Hex.pm publishing is handled by GitHub Actions on v* tags. Successful publishes also dispatch the landing-site version sync workflow.