claude-code-system-prompts/system-prompts/data-tool-use-reference-typescript.md

Tool Use — TypeScript

For conceptual overview (tool definitions, tool choice, tips), see shared/tool-use-concepts.md.

Tool Runner (Recommended)

Beta: The tool runner is in beta in the TypeScript SDK.

Use `betaZodTool` with Zod schemas to define tools with a `run` function, then pass them to `client.beta.messages.toolRunner()`:

```typescript import Anthropic from "@anthropic-ai/sdk"; import { betaZodTool } from "@anthropic-ai/sdk/helpers/beta/zod"; import { z } from "zod";

const client = new Anthropic();

const getWeather = betaZodTool({ name: "get_weather", description: "Get current weather for a location", inputSchema: z.object({ location: z.string().describe("City and state, e.g., San Francisco, CA"), unit: z.enum(["celsius", "fahrenheit"]).optional(), }), run: async (input) => { // Your implementation here return `72°F and sunny in ${input.location}`; }, });

// The tool runner handles the agentic loop and returns the final message const finalMessage = await client.beta.messages.toolRunner({ model: "{{OPUS_ID}}", max_tokens: 4096, tools: [getWeather], messages: [{ role: "user", content: "What's the weather in Paris?" }], });

console.log(finalMessage.content); ```

Key benefits of the tool runner:

• No manual loop — the SDK handles calling tools and feeding results back
• Type-safe tool inputs via Zod schemas
• Tool schemas are generated automatically from Zod definitions
• Iteration stops automatically when Claude has no more tool calls

---

Manual Agentic Loop

Use this when you need fine-grained control (custom logging, conditional tool execution, streaming individual iterations, human-in-the-loop approval):

```typescript import Anthropic from "@anthropic-ai/sdk";

const client = new Anthropic(); const tools: Anthropic.Tool[] = [...]; // Your tool definitions let messages: Anthropic.MessageParam[] = [{ role: "user", content: userInput }];

while (true) { const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 4096, tools: tools, messages: messages, });

if (response.stop_reason === "end_turn") break;

// Server-side tool hit iteration limit; append assistant turn and re-send to continue if (response.stop_reason === "pause_turn") { messages.push({ role: "assistant", content: response.content }); continue; }

const toolUseBlocks = response.content.filter( (b): b is Anthropic.ToolUseBlock => b.type === "tool_use", );

messages.push({ role: "assistant", content: response.content });

const toolResults: Anthropic.ToolResultBlockParam[] = []; for (const tool of toolUseBlocks) { const result = await executeTool(tool.name, tool.input); toolResults.push({ type: "tool_result", tool_use_id: tool.id, content: result, }); }

messages.push({ role: "user", content: toolResults }); } ```

Streaming Manual Loop

Use `client.messages.stream()` + `finalMessage()` instead of `.create()` when you need streaming within a manual loop. Text deltas are streamed on each iteration; `finalMessage()` collects the complete `Message` so you can inspect `stop_reason` and extract tool-use blocks:

```typescript import Anthropic from "@anthropic-ai/sdk";

const client = new Anthropic(); const tools: Anthropic.Tool[] = [...]; let messages: Anthropic.MessageParam[] = [{ role: "user", content: userInput }];

while (true) { const stream = client.messages.stream({ model: "{{OPUS_ID}}", max_tokens: 4096, tools, messages, });

// Stream text deltas on each iteration stream.on("text", (delta) => { process.stdout.write(delta); });

// finalMessage() resolves with the complete Message — no need to // manually wire up .on("message") / .on("error") / .on("abort") const message = await stream.finalMessage();

if (message.stop_reason === "end_turn") break;

// Server-side tool hit iteration limit; append assistant turn and re-send to continue if (message.stop_reason === "pause_turn") { messages.push({ role: "assistant", content: message.content }); continue; }

const toolUseBlocks = message.content.filter( (b): b is Anthropic.ToolUseBlock => b.type === "tool_use", );

messages.push({ role: "assistant", content: message.content });

const toolResults: Anthropic.ToolResultBlockParam[] = []; for (const tool of toolUseBlocks) { const result = await executeTool(tool.name, tool.input); toolResults.push({ type: "tool_result", tool_use_id: tool.id, content: result, }); }

messages.push({ role: "user", content: toolResults }); } ```

Important: Don't wrap `.on()` events in `new Promise()` to collect the final message — use `stream.finalMessage()` instead. The SDK handles all error/abort/completion states internally.

Error handling in the loop: Use the SDK's typed exceptions (e.g., `Anthropic.RateLimitError`, `Anthropic.APIError`) — see Error Handling for examples. Don't check error messages with string matching.

SDK types: Use `Anthropic.MessageParam`, `Anthropic.Tool`, `Anthropic.ToolUseBlock`, `Anthropic.ToolResultBlockParam`, `Anthropic.Message`, etc. for all API-related data structures. Don't redefine equivalent interfaces.

---

Handling Tool Results

```typescript const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 1024, tools: tools, messages: [{ role: "user", content: "What's the weather in Paris?" }], });

for (const block of response.content) { if (block.type === "tool_use") { const result = await executeTool(block.name, block.input);

const followup = await client.messages.create({
  model: "{{OPUS_ID}}",
  max_tokens: 1024,
  tools: tools,
  messages: [
    { role: "user", content: "What's the weather in Paris?" },
    { role: "assistant", content: response.content },
    {
      role: "user",
      content: [
        { type: "tool_result", tool_use_id: block.id, content: result },
      ],
    },
  ],
});

} } ```

---

Tool Choice

```typescript const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 1024, tools: tools, tool_choice: { type: "tool", name: "get_weather" }, messages: [{ role: "user", content: "What's the weather in Paris?" }], }); ```

---

Server-Side Tools

Version-suffixed `type` literals; `name` is fixed per interface. Pass plain object literals — the `ToolUnion` type is satisfied structurally. The `name`/`type` pair must match the interface: mixing `str_replace_based_edit_tool` (20250728 name) with `text_editor_20250124` (which expects `str_replace_editor`) is a TS2322.

Don't type-annotate as `Tool[]` — `Tool` is just the custom-tool variant. Let structural typing infer from the `tools` param, or annotate as `Anthropic.Messages.ToolUnion[]` if you must:

```typescript // ✓ let inference work — no annotation const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 1024, tools: [ { type: "text_editor_20250728", name: "str_replace_based_edit_tool" }, { type: "bash_20250124", name: "bash" }, { type: "web_search_20260209", name: "web_search" }, { type: "code_execution_20260120", name: "code_execution" }, ], messages: [{ role: "user", content: "..." }], });

// ✗ this is a TS2352 — Tool is the CUSTOM tool variant only // const tools: Anthropic.Tool[] = [{ type: "text_editor_20250728", ... }] ```

Interface	`name`	`type`
`ToolTextEditor20250124`	`str_replace_editor`	`text_editor_20250124`
`ToolTextEditor20250429`	`str_replace_based_edit_tool`	`text_editor_20250429`
`ToolTextEditor20250728`	`str_replace_based_edit_tool`	`text_editor_20250728`
`ToolBash20250124`	`bash`	`bash_20250124`
`WebSearchTool20260209`	`web_search`	`web_search_20260209`
`WebFetchTool20260209`	`web_fetch`	`web_fetch_20260209`
`CodeExecutionTool20260120`	`code_execution`	`code_execution_20260120`

Don't mix beta and non-beta types: if you call `client.beta.messages.create()`, the response `content` is `BetaContentBlock[]` — you cannot pass that to a non-beta `ContentBlockParam[]` without narrowing each element.

---

Code Execution

Basic Usage

```typescript import Anthropic from "@anthropic-ai/sdk";

const client = new Anthropic();

const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 4096, messages: [ { role: "user", content: "Calculate the mean and standard deviation of [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]", }, ], tools: [{ type: "code_execution_20260120", name: "code_execution" }], }); ```

Reading Local Files (ESM note)

`__dirname` doesn't exist in ES modules. For script-relative paths use `import.meta.url`:

```typescript import { readFileSync } from "fs"; import { fileURLToPath } from "url"; import { dirname, join } from "path";

const __dirname = dirname(fileURLToPath(import.meta.url)); const pdfBytes = readFileSync(join(__dirname, "sample.pdf")); ```

Or use a CWD-relative path if the script runs from a known directory: `readFileSync("./sample.pdf")`.

Upload Files for Analysis

```typescript import Anthropic, { toFile } from "@anthropic-ai/sdk"; import { createReadStream } from "fs";

const client = new Anthropic();

// 1. Upload a file const uploaded = await client.beta.files.upload({ file: await toFile(createReadStream("sales_data.csv"), undefined, { type: "text/csv", }), betas: ["files-api-2025-04-14"], });

// 2. Pass to code execution // Code execution is GA; Files API is still beta (pass via RequestOptions) const response = await client.messages.create( { model: "{{OPUS_ID}}", max_tokens: 4096, messages: [ { role: "user", content: [ { type: "text", text: "Analyze this sales data. Show trends and create a visualization.", }, { type: "container_upload", file_id: uploaded.id }, ], }, ], tools: [{ type: "code_execution_20260120", name: "code_execution" }], }, { headers: { "anthropic-beta": "files-api-2025-04-14" } }, ); ```

Retrieve Generated Files

```typescript import path from "path"; import fs from "fs";

const OUTPUT_DIR = "./claude_outputs"; await fs.promises.mkdir(OUTPUT_DIR, { recursive: true });

for (const block of response.content) { if (block.type === "bash_code_execution_tool_result") { const result = block.content; if (result.type === "bash_code_execution_result" && result.content) { for (const fileRef of result.content) { if (fileRef.type === "bash_code_execution_output") { const metadata = await client.beta.files.retrieveMetadata( fileRef.file_id, ); const downloadResponse = await client.beta.files.download(fileRef.file_id); const fileBytes = Buffer.from(await downloadResponse.arrayBuffer()); const safeName = path.basename(metadata.filename); if (!safeName || safeName === "." || safeName === "..") { console.warn(`Skipping invalid filename: ${metadata.filename}`); continue; } const outputPath = path.join(OUTPUT_DIR, safeName); await fs.promises.writeFile(outputPath, fileBytes); console.log(`Saved: ${outputPath}`); } } } } } ```

Container Reuse

```typescript // First request: set up environment const response1 = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 4096, messages: [ { role: "user", content: "Install tabulate and create data.json with sample user data", }, ], tools: [{ type: "code_execution_20260120", name: "code_execution" }], });

// Reuse container // container is nullable — set only when using server-side code execution const containerId = response1.container!.id;

const response2 = await client.messages.create({ container: containerId, model: "{{OPUS_ID}}", max_tokens: 4096, messages: [ { role: "user", content: "Read data.json and display as a formatted table", }, ], tools: [{ type: "code_execution_20260120", name: "code_execution" }], }); ```

---

Memory Tool

Basic Usage

```typescript const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 2048, messages: [ { role: "user", content: "Remember that my preferred language is TypeScript.", }, ], tools: [{ type: "memory_20250818", name: "memory" }], }); ```

SDK Memory Helper

Use `betaMemoryTool` with a `MemoryToolHandlers` implementation:

```typescript import { betaMemoryTool, type MemoryToolHandlers, } from "@anthropic-ai/sdk/helpers/beta/memory";

const handlers: MemoryToolHandlers = { async view(command) { ... }, async create(command) { ... }, async str_replace(command) { ... }, async insert(command) { ... }, async delete(command) { ... }, async rename(command) { ... }, };

const memory = betaMemoryTool(handlers);

const runner = client.beta.messages.toolRunner({ model: "{{OPUS_ID}}", max_tokens: 2048, tools: [memory], messages: [{ role: "user", content: "Remember my preferences" }], });

for await (const message of runner) { console.log(message); } ```

For full implementation examples, use WebFetch:

• `https://github.com/anthropics/anthropic-sdk-typescript/blob/main/examples/tools-helpers-memory.ts`

---

Structured Outputs

JSON Outputs (Zod — Recommended)

```typescript import Anthropic from "@anthropic-ai/sdk"; import { z } from "zod"; import { zodOutputFormat } from "@anthropic-ai/sdk/helpers/zod";

const ContactInfoSchema = z.object({ name: z.string(), email: z.string(), plan: z.string(), interests: z.array(z.string()), demo_requested: z.boolean(), });

const client = new Anthropic();

const response = await client.messages.parse({ model: "{{OPUS_ID}}", max_tokens: 1024, messages: [ { role: "user", content: "Extract: Jane Doe (jane@co.com) wants Enterprise, interested in API and SDKs, wants a demo.", }, ], output_config: { format: zodOutputFormat(ContactInfoSchema), }, });

// parsed_output is null if parsing failed — assert or guard console.log(response.parsed_output!.name); // "Jane Doe" ```

Strict Tool Use

```typescript const response = await client.messages.create({ model: "{{OPUS_ID}}", max_tokens: 1024, messages: [ { role: "user", content: "Book a flight to Tokyo for 2 passengers on March 15", }, ], tools: [ { name: "book_flight", description: "Book a flight to a destination", strict: true, input_schema: { type: "object", properties: { destination: { type: "string" }, date: { type: "string", format: "date" }, passengers: { type: "integer", enum: [1, 2, 3, 4, 5, 6, 7, 8], }, }, required: ["destination", "date", "passengers"], additionalProperties: false, }, }, ], }); ```