Remix tutorial

In this tutorial, you’ll build Bargain Chef, a full-stack Remix app where one Remix project serves both your Genkit backend and the UI. It uses two AI patterns Genkit simplifies: streaming structured output and tool calling.

What you’ll build

The user types what they’re craving, Gemini drafts a recipe, and the model calls a tool to look up mock grocery sale prices so it can prefer on-sale ingredients. The recipe streams into the UI incrementally, so users see progress before the full recipe is ready.

You can find the finished code on GitHub.

Keeping the backend and UI in one project gives you shared TypeScript types, no CORS configuration during local development, and a single deployment path.

Prerequisites

Node.js v20 or later
npm
Familiarity with Remix and TypeScript

Set up the application

Create the Remix project

Remix is now React Router v7, so scaffold the project with the React Router CLI:

npx create-react-router@latest my-genkit-remix
cd my-genkit-remix

When prompted, select the defaults. This tutorial uses the default Vite-based framework template, which declares routes explicitly in app/routes.ts (the scaffold starts with a single index route pointing at app/routes/home.tsx). You’ll edit that file and add one resource route below.

Install packages

npm install genkit @genkit-ai/google-genai @genkit-ai/fetch
npm install -D genkit-cli tsx

pnpm add genkit @genkit-ai/google-genai @genkit-ai/fetch
pnpm add -D genkit-cli tsx

yarn add genkit @genkit-ai/google-genai @genkit-ai/fetch
yarn add -D genkit-cli tsx

bun add genkit @genkit-ai/google-genai @genkit-ai/fetch
bun add -d genkit-cli tsx

These packages include:

genkit: Core Genkit SDK.
@genkit-ai/google-genai: Plugin that connects Genkit to Google’s Gemini models.
@genkit-ai/fetch: Exposes Genkit flows over the standard Web Fetch API, which matches Remix’s request/response model.
genkit-cli: Genkit CLI tool that enables local testing and observability.

Configure a model API key

This tutorial uses the Gemini API from Google AI Studio.

Get a Gemini API Key

Set the GEMINI_API_KEY environment variable to your key:

export GEMINI_API_KEY=<your API key>

Create the backend

The backend prompts Gemini to draft a recipe, lets the model call a tool to look up mock grocery sale prices, and streams the partial recipe back to the browser as it’s generated.

The core AI logic lives in a flow, which is a Genkit-managed function that adds observability, type safety, and tooling integration on top of a regular async function.

You’ll build the backend in four parts:

Initialize Genkit and register Gemini as the model provider.
Define a tool the model can call to fetch sale prices.
Describe the recipe shape with Zod so Genkit can validate the final output and stream partial recipe chunks.
Define the flow that ties everything together.

Create app/genkit/bargainChefFlow.ts:

import { googleAI } from '@genkit-ai/google-genai';
import { genkit, z } from 'genkit';

const ai = genkit({
  plugins: [googleAI()],
});

const getIngredientsOnSale = ai.defineTool(
  {
    name: 'getIngredientsOnSale',
    description:
      'Returns the ingredients on sale at the local grocery store, with prices. The sale set differs between weekdays and weekends.',
    inputSchema: z.object({
      dayType: z
        .enum(['weekday', 'weekend'])
        .describe('Whether to fetch weekday or weekend sale prices.'),
    }),
    outputSchema: z.array(
      z.object({
        name: z.string(),
        price: z.string(),
      }),
    ),
  },
  async ({ dayType }) => {
    // Mock data: in a real app, query a pricing database.
    return dayType === 'weekend'
      ? [
          { name: 'chicken breast', price: '$2.99/lb' },
          { name: 'pasta', price: '$0.79' },
          { name: 'canned tomatoes', price: '$0.99' },
          { name: 'garlic', price: '$0.50 / head' },
          { name: 'olive oil', price: '$6.99' },
        ]
      : [
          { name: 'eggs', price: '$3.49 / dozen' },
          { name: 'spinach', price: '$1.99' },
          { name: 'parmesan', price: '$4.99' },
          { name: 'lemons', price: '$0.50 each' },
          { name: 'rice', price: '$2.49' },
          { name: 'butter', price: '$3.99' },
        ];
  },
);

const BargainChefInputSchema = z.object({
  craving: z.string().describe('What the user feels like eating right now.'),
});

const RecipeSchema = z.object({
  title: z.string(),
  description: z.string(),
  servings: z.number(),
  ingredients: z.array(
    z.object({
      name: z.string(),
      quantity: z.string(),
      onSale: z.boolean(),
    }),
  ),
  steps: z.array(z.string()),
});

// Exported for the frontend to import as types.
export type BargainChefInput = z.infer<typeof BargainChefInputSchema>;
export type Recipe = z.infer<typeof RecipeSchema>;
export type PartialRecipe = Partial<Recipe>;

export const bargainChefFlow = ai.defineFlow(
  {
    name: 'bargainChefFlow',
    inputSchema: BargainChefInputSchema,
    outputSchema: RecipeSchema,
    streamSchema: RecipeSchema.partial(),
  },
  async ({ craving }, { sendChunk }) => {
    const today = new Date().toLocaleDateString('en-US', { weekday: 'long' });

    const { stream, response } = ai.generateStream({
      model: googleAI.model('gemini-flash-latest', {
        temperature: 0.7,
        thinkingConfig: { thinkingLevel: 'MINIMAL' },
      }),
      prompt: `Today is ${today}. The user is craving: ${craving}.

Call the getIngredientsOnSale tool with the dayType that matches today. Saturday and Sunday are weekends; all other days are weekdays. Then propose ONE recipe that takes advantage of those deals. For each ingredient, set onSale=true if it appears in the tool's response, false otherwise.`,
      tools: [getIngredientsOnSale],
      output: { schema: RecipeSchema },
    });

    for await (const chunk of stream) {
      if (chunk.output) sendChunk(chunk.output);
    }

    const { output } = await response;
    if (!output) throw new Error('Failed to generate recipe');
    return output;
  },
);

A few details are worth noting before you connect the UI:

Final output and streamed chunks: outputSchema is the complete recipe the flow returns at the end. streamSchema is the same shape with every field optional (RecipeSchema.partial()), because early chunks might only include the title or description.
Shared TypeScript types: Recipe, PartialRecipe, and BargainChefInput are inferred from the Zod schemas with z.infer<...> and re-exported for the Remix route to import. Because the route imports them with import type, Genkit and the model plugin stay out of the browser bundle.
The getIngredientsOnSale tool: The model decides when to call it based on the prompt, and the typed inputSchema forces the model to pass dayType: 'weekday' or 'weekend'. In a real app, the tool would query a pricing database, inventory system, or third-party API.
sendChunk: Each call pushes the latest partial recipe to the browser, giving the UI a typed view of the generated JSON as it grows.

Add the server route

Remix resource routes receive a standard Web Request object, so fetchHandler works directly without any adapter. Create app/routes/api.bargainChefFlow.ts:

import type { ActionFunctionArgs } from 'react-router';
import { fetchHandler } from '@genkit-ai/fetch';
import { bargainChefFlow } from '~/genkit/bargainChefFlow';

// fetchHandler wraps a single flow and serves it at this route's path,
// so the client can POST directly to /api/bargainChefFlow.
const handler = fetchHandler(bargainChefFlow);

export async function action({ request }: ActionFunctionArgs) {
  return handler(request);
}

Then register it in app/routes.ts alongside the index route the scaffold created:

import { type RouteConfig, index, route } from '@react-router/dev/routes';

export default [
  index('routes/home.tsx'),
  // The splat (`*`) lets the route also match any streaming sub-path the
  // Genkit client may request under /api/bargainChefFlow.
  route('api/bargainChefFlow/*', 'routes/api.bargainChefFlow.ts'),
] satisfies RouteConfig;

At this point, your Remix app has a Genkit flow served at /api/bargainChefFlow.

Check the project layout

Verify that your project layout matches the structure below:

package.json
vite.config.ts
… other Remix config files
Directoryapp
- routes.ts
- Directoryroutes
  - home.tsx
  - api.bargainChefFlow.ts
- Directorygenkit
  - bargainChefFlow.ts
- root.tsx
- … other Remix source files

Optional: install the Genkit agent skills

If you’re coding with an AI assistant, install the Genkit Agent Skills so it has structured guidance on Genkit APIs, patterns, and common errors:

npx skills add genkit-ai/skills

See Develop with AI for tool-specific installation instructions.

Build the Remix UI

Now update the Remix app so the browser can call your Genkit backend and render streamed output.

Update the route component

Replace the contents of app/routes/home.tsx with the following. The component imports the flow’s TypeScript types with import type, so the UI and backend stay in sync without adding server code to the browser bundle:

import { useState } from 'react';
import { streamFlow } from 'genkit/beta/client';
import type {
  BargainChefInput,
  PartialRecipe,
  Recipe,
} from '~/genkit/bargainChefFlow';

// API route where your bargainChefFlow is served.
const FLOW_URL = '/api/bargainChefFlow';

export default function Home() {
  const [craving, setCraving] = useState('something warm with chicken');
  const [recipe, setRecipe] = useState<PartialRecipe | null>(null);
  const [isStreaming, setIsStreaming] = useState(false);

  async function generateRecipe(event: React.FormEvent) {
    event.preventDefault();
    if (!craving.trim()) return;
    setRecipe(null);
    setIsStreaming(true);
    try {
      const input: BargainChefInput = { craving };
      // streamFlow's generics are <FinalOutput, StreamChunk>.
      const result = streamFlow<Recipe, PartialRecipe>({
        url: FLOW_URL,
        input,
      });
      // result.stream is an async iterable of partial recipes.
      // Each chunk is the accumulated output so far.
      for await (const partial of result.stream) {
        setRecipe(partial);
      }
      // Wait for the final validated output and surface any errors.
      await result.output;
    } catch (err) {
      console.error('Failed to generate recipe', err);
    } finally {
      setIsStreaming(false);
    }
  }

  return (
    <main>
      <h1>Bargain Chef</h1>
      <p className="tagline">
        Tell me what you feel like eating and I'll suggest a recipe built around
        today's grocery deals.
      </p>

      <form className="prompt" onSubmit={generateRecipe}>
        <input
          type="text"
          value={craving}
          onChange={(e) => setCraving(e.target.value)}
          name="craving"
          placeholder="What are you in the mood for?"
          disabled={isStreaming}
        />
        <button type="submit" disabled={isStreaming}>
          {isStreaming ? 'Cooking…' : 'Suggest a recipe'}
        </button>
      </form>

      {recipe && (
        <article>
          {recipe.title && <h2>{recipe.title}</h2>}
          {recipe.description && (
            <p className="description">{recipe.description}</p>
          )}
          {recipe.servings && (
            <p className="serves">
              <strong>Serves:</strong> {recipe.servings}
            </p>
          )}

          {recipe.ingredients?.length ? (
            <>
              <h3>Ingredients</h3>
              <ul className="ingredients">
                {recipe.ingredients.map((ing, i) => (
                  <li key={i}>
                    {ing.quantity} {ing.name}
                    {ing.onSale && <span className="badge">on sale</span>}
                  </li>
                ))}
              </ul>
            </>
          ) : null}

          {recipe.steps?.length ? (
            <>
              <h3>Steps</h3>
              <ol className="steps">
                {recipe.steps.map((step, i) => (
                  <li key={i}>{step}</li>
                ))}
              </ol>
            </>
          ) : null}
        </article>
      )}
    </main>
  );
}

streamFlow returns an object with two useful properties: stream, an async iterable of partial recipe objects, and output, a promise that resolves with the final validated recipe. The component stores each partial recipe in React state, so the component re-renders on every update.

Each recipe section is wrapped in a conditional so it only renders after that field arrives in the stream. The result is a UI that fills in progressively: title first, then description, then ingredients, then steps. Wrapping the input and button in a <form> lets the user submit by pressing Enter, and the onSubmit handler calls preventDefault() so the browser doesn’t reload the page before starting the streaming request.

Add styles

Create app/styles/bargain-chef.css with the following:

body {
  font-family:
    -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, 'Helvetica Neue',
    Arial, sans-serif;
  color: #1a1a1a;
  background: #fafafa;
  min-height: 100vh;
  margin: 0;
  padding: 3rem 1.5rem;
}

main {
  max-width: 640px;
  margin: 0 auto;
}

h1 {
  font-size: 2rem;
  margin: 0 0 0.25rem;
  letter-spacing: -0.01em;
}

.tagline {
  color: #555;
  margin: 0 0 2rem;
}

.prompt {
  display: flex;
  gap: 0.5rem;
  margin-bottom: 2.5rem;
}

.prompt input {
  flex: 1;
  font: inherit;
  font-size: 1rem;
  padding: 0.75rem 1rem;
  border: 1px solid #d0d0d0;
  border-radius: 8px;
  background: #fff;
  transition:
    border-color 120ms ease,
    box-shadow 120ms ease;
}

.prompt input:focus {
  outline: none;
  border-color: #2563eb;
  box-shadow: 0 0 0 3px rgba(37, 99, 235, 0.15);
}

.prompt input:disabled {
  background: #f1f1f1;
  color: #888;
}

.prompt button {
  font: inherit;
  font-size: 1rem;
  font-weight: 500;
  padding: 0.75rem 1.25rem;
  border: 0;
  border-radius: 8px;
  background: #1a1a1a;
  color: #fff;
  cursor: pointer;
  transition: background 120ms ease;
  white-space: nowrap;
}

.prompt button:hover:not(:disabled) {
  background: #2563eb;
}

.prompt button:disabled {
  background: #999;
  cursor: not-allowed;
}

article {
  background: #fff;
  border: 1px solid #e5e5e5;
  border-radius: 12px;
  padding: 1.5rem 1.75rem;
}

article h2 {
  font-size: 1.5rem;
  margin: 0 0 0.5rem;
}

article h3 {
  font-size: 1rem;
  text-transform: uppercase;
  letter-spacing: 0.06em;
  color: #666;
  margin: 1.5rem 0 0.5rem;
}

.description {
  color: #444;
  margin: 0 0 1rem;
}

.serves {
  color: #555;
  margin: 0;
  font-size: 0.95rem;
}

.ingredients,
.steps {
  padding-left: 1.25rem;
  line-height: 1.6;
}

.ingredients li {
  margin-bottom: 0.25rem;
}

.steps li {
  margin-bottom: 0.5rem;
}

.badge {
  display: inline-block;
  margin-left: 0.4rem;
  padding: 0.05rem 0.5rem;
  font-size: 0.75rem;
  font-weight: 500;
  background: #e8f5e9;
  color: #2e7d32;
  border-radius: 999px;
}

@media (max-width: 480px) {
  .prompt {
    flex-direction: column;
  }
  .prompt button {
    width: 100%;
  }
}

Then load the stylesheet from app/root.tsx by adding it to the existing links export (the default template already declares one typed Route.LinksFunction):

import bargainChefStyles from './styles/bargain-chef.css?url';

export const links: Route.LinksFunction = () => [
  // ... existing links
  { rel: 'stylesheet', href: bargainChefStyles },
];

Run the app

Start the Remix development server:

npm run dev

pnpm run dev

yarn dev

bun run dev

Open http://localhost:5173, enter a craving like something warm with chicken, and submit. The title should appear first, followed by the description, ingredients, and steps. Ingredients that the model sourced from the getIngredientsOnSale tool will show an “on sale” badge.

Test and inspect the app

The Genkit Developer UI is a local console for testing flows and inspecting traces. It records every tool call, model invocation, and streamed chunk, so you can see what the model called, what it received back, and how the recipe was assembled.

Start the Developer UI from your project root:

npx genkit start -- tsx --watch app/genkit/bargainChefFlow.ts

pnpm dlx genkit start -- tsx --watch app/genkit/bargainChefFlow.ts

yarn dlx genkit start -- tsx --watch app/genkit/bargainChefFlow.ts

bunx genkit start -- tsx --watch app/genkit/bargainChefFlow.ts

This launches the Developer UI at http://localhost:4000 by default.

In the Developer UI:

The Traces tab shows every invocation of bargainChefFlow, including the ones triggered by your Remix app. Open one and you’ll see the getIngredientsOnSale tool call with the dayType the model chose, the model invocation, and each streamed chunk that the browser received.
The Flows tab lets you run bargainChefFlow directly with custom input, which is useful for iterating on the prompt without round-tripping through the UI. Try sample input like:
```
{ "craving": "something warm with chicken" }
```

Or call the flow with curl

You can also test the resource route directly. Use the -N flag and an Accept: text/event-stream header to consume the streamed response:

curl -N -X POST http://localhost:5173/api/bargainChefFlow \
  -H "Content-Type: application/json" \
  -H "Accept: text/event-stream" \
  -d '{"data":{"craving":"something warm with chicken"}}'

The { "data": ... } wrapper is required: Genkit’s HTTP handler reads the flow input from the request body’s data field.

The response arrives as a series of SSE data: events, each containing the partial recipe accumulated so far.

Use a standalone backend instead

This tutorial uses a Remix resource route for the shortest first-run path. To use the same UI against a standalone backend instead, change three things:

Install the Genkit web client:
- npm
- pnpm
- yarn
- bun
Terminal window
npm install genkit
Terminal window
pnpm add genkit
Terminal window
yarn add genkit
Terminal window
bun add genkit
You can omit the @genkit-ai/google-genai and @genkit-ai/fetch packages, the app/genkit/bargainChefFlow.ts flow, and the app/routes/api.bargainChefFlow.ts resource route (and its entry in app/routes.ts), since the backend lives outside this project.
In app/routes/home.tsx, define local TypeScript interfaces matching your flow’s streamed output instead of importing shared types.

Point FLOW_URL at your backend route:

const FLOW_URL = 'http://localhost:8080/bargainChefFlow';

Then enable CORS on your backend so it accepts requests from http://localhost:5173:

What you built

You now have a working Genkit app that streams structured output from Gemini into a Remix UI incrementally, calls a tool during generation to ground the model’s response in mock sale-price data, validates input and output against schemas, and surfaces every step in a local trace UI.

Next steps

Creating flows: Compose multi-step flows, branch on input, and chain model calls.
Generating content: Swap Gemini for another provider, tune sampling parameters, and work with multimodal input.
Deploy your app: Ship to Cloud Run, Vercel, Firebase, or your own infrastructure.
Developer tools: Dig deeper into the Developer UI, tracing, and evaluation.