Token-Oriented Object Notation is a compact, human-readable format designed for passing structured data to Large Language Models with significantly reduced token usage. It's intended for LLM input, not output.

TOON's sweet spot is uniform complex objects – multiple fields per row, same structure across items. It borrows YAML's indentation-based structure for nested objects and CSV's tabular format for uniform data rows, then optimizes both for token efficiency in LLM contexts.

AI is becoming cheaper and more accessible, but larger context windows allow for larger data inputs as well. LLM tokens still cost money – and standard JSON is verbose and token-expensive:

{
  "users": [
    { "id": 1, "name": "Alice", "role": "admin" },
    { "id": 2, "name": "Bob", "role": "user" }
  ]
}

TOON conveys the same information with fewer tokens:

users[2]{id,name,role}:
  1,Alice,admin
  2,Bob,user

• 💸 Token-efficient: typically 30–60% fewer tokens than JSON
• 🤿 LLM-friendly guardrails: explicit lengths and field lists help models validate output
• 🍱 Minimal syntax: removes redundant punctuation (braces, brackets, most quotes)
• 📐 Indentation-based structure: replaces braces with whitespace for better readability
• 🧺 Tabular arrays: declare keys once, then stream rows without repetition

⭐ GitHub Repositories       ██████████████░░░░░░░░░░░   8,745 tokens
                             vs JSON: 15,145  💰 42.3% saved
                             vs XML:  17,095  💰 48.8% saved

📈 Daily Analytics           ██████████░░░░░░░░░░░░░░░   4,507 tokens
                             vs JSON: 10,977  💰 58.9% saved
                             vs XML:  13,128  💰 65.7% saved

🛒 E-Commerce Order          ████████████████░░░░░░░░░     166 tokens
                             vs JSON:    257  💰 35.4% saved
                             vs XML:     271  💰 38.7% saved

─────────────────────────────────────────────────────────────────────
Total                        ████████████░░░░░░░░░░░░░  13,418 tokens
                             vs JSON: 26,379  💰 49.1% saved
                             vs XML:  30,494  💰 56.0% saved

{
  "repositories": [
    {
      "id": 28457823,
      "name": "freeCodeCamp",
      "repo": "freeCodeCamp/freeCodeCamp",
      "description": "freeCodeCamp.org's open-source codebase and curriculum. Learn math, programming,…",
      "createdAt": "2014-12-24T17:49:19Z",
      "updatedAt": "2025-10-27T07:40:58Z",
      "pushedAt": "2025-10-26T11:31:08Z",
      "stars": 430828,
      "watchers": 8582,
      "forks": 42136,
      "defaultBranch": "main"
    },
    {
      "id": 132750724,
      "name": "build-your-own-x",
      "repo": "codecrafters-io/build-your-own-x",
      "description": "Master programming by recreating your favorite technologies from scratch.",
      "createdAt": "2018-05-09T12:03:18Z",
      "updatedAt": "2025-10-27T07:43:25Z",
      "pushedAt": "2025-10-10T18:45:01Z",
      "stars": 430102,
      "watchers": 6322,
      "forks": 40388,
      "defaultBranch": "master"
    },
    {
      "id": 21737465,
      "name": "awesome",
      "repo": "sindresorhus/awesome",
      "description": "😎 Awesome lists about all kinds of interesting topics",
      "createdAt": "2014-07-11T13:42:37Z",
      "updatedAt": "2025-10-27T07:44:27Z",
      "pushedAt": "2025-10-23T17:26:53Z",
      "stars": 409760,
      "watchers": 8016,
      "forks": 32015,
      "defaultBranch": "main"
    }
  ]
}

repositories[3]{id,name,repo,description,createdAt,updatedAt,pushedAt,stars,watchers,forks,defaultBranch}:
  28457823,freeCodeCamp,freeCodeCamp/freeCodeCamp,"freeCodeCamp.org's open-source codebase and curriculum. Learn math, programming,…","2014-12-24T17:49:19Z","2025-10-27T07:40:58Z","2025-10-26T11:31:08Z",430828,8582,42136,main
  132750724,build-your-own-x,codecrafters-io/build-your-own-x,Master programming by recreating your favorite technologies from scratch.,"2018-05-09T12:03:18Z","2025-10-27T07:43:25Z","2025-10-10T18:45:01Z",430102,6322,40388,master
  21737465,awesome,sindresorhus/awesome,😎 Awesome lists about all kinds of interesting topics,"2014-07-11T13:42:37Z","2025-10-27T07:44:27Z","2025-10-23T17:26:53Z",409760,8016,32015,main

{
  "metrics": [
    {
      "date": "2025-01-01",
      "views": 6890,
      "clicks": 401,
      "conversions": 23,
      "revenue": 6015.59,
      "bounceRate": 0.63
    },
    {
      "date": "2025-01-02",
      "views": 6940,
      "clicks": 323,
      "conversions": 37,
      "revenue": 9086.44,
      "bounceRate": 0.36
    },
    {
      "date": "2025-01-03",
      "views": 4390,
      "clicks": 346,
      "conversions": 26,
      "revenue": 6360.75,
      "bounceRate": 0.48
    },
    {
      "date": "2025-01-04",
      "views": 3429,
      "clicks": 231,
      "conversions": 13,
      "revenue": 2360.96,
      "bounceRate": 0.65
    },
    {
      "date": "2025-01-05",
      "views": 5804,
      "clicks": 186,
      "conversions": 22,
      "revenue": 2535.96,
      "bounceRate": 0.37
    }
  ]
}

metrics[5]{date,views,clicks,conversions,revenue,bounceRate}:
  2025-01-01,6890,401,23,6015.59,0.63
  2025-01-02,6940,323,37,9086.44,0.36
  2025-01-03,4390,346,26,6360.75,0.48
  2025-01-04,3429,231,13,2360.96,0.65
  2025-01-05,5804,186,22,2535.96,0.37

Accuracy across 3 LLMs on 159 data retrieval questions:

gpt-5-nano
  toon         ████████████████████  99.4% (158/159)
  yaml         ███████████████████░  95.0% (151/159)
  csv          ██████████████████░░  92.5% (147/159)
  json         ██████████████████░░  92.5% (147/159)
  xml          ██████████████████░░  91.2% (145/159)

claude-haiku-4-5
  toon         ███████████████░░░░░  75.5% (120/159)
  xml          ███████████████░░░░░  75.5% (120/159)
  csv          ███████████████░░░░░  75.5% (120/159)
  json         ███████████████░░░░░  75.5% (120/159)
  yaml         ███████████████░░░░░  74.2% (118/159)

gemini-2.5-flash
  xml          ██████████████████░░  91.8% (146/159)
  csv          █████████████████░░░  86.2% (137/159)
  toon         █████████████████░░░  84.9% (135/159)
  json         ████████████████░░░░  81.8% (130/159)
  yaml         ████████████████░░░░  78.6% (125/159)

Advantage: TOON achieves 86.6% accuracy (vs JSON's 83.2%) while using 46.3% fewer tokens.

# npm
npm install @byjohann/toon

# pnpm
pnpm add @byjohann/toon

# yarn
yarn add @byjohann/toon

import { encode } from '@byjohann/toon'

const data = {
  user: {
    id: 123,
    name: 'Ada',
    tags: ['reading', 'gaming'],
    active: true,
    preferences: []
  }
}

console.log(encode(data))

Output:

user:
  id: 123
  name: Ada
  tags[2]: reading,gaming
  active: true
  preferences[0]:

TOON formatting is deterministic and minimal:

• Indentation: 2 spaces per nesting level.
• Lines:
  • key: value for primitives (single space after colon).
  • key: for nested/empty objects (no trailing space on that line).
• Arrays:
  • Delimiter encoding: Comma delimiters are implicit in array headers (e.g., tags[3]:, items[2]{id,name}:). Tab and pipe delimiters are explicitly shown in array headers (e.g., tags[3|]:, items[2 ]{id name}:).
  • Primitive arrays inline: key[N]: v1,v2 (comma) or key[N<delim>]: v1<delim>v2 (tab/pipe).
  • Tabular arrays: key[N]{f1,f2}: … (comma) or key[N<delim>]{f1<delim>f2}: … (tab/pipe).
  • List items: two spaces, hyphen, space (" - …").
• Whitespace invariants:
  • No trailing spaces at end of any line.
  • No trailing newline at end of output.

Simple objects with primitive values:

encode({
  id: 123,
  name: 'Ada',
  active: true
})

id: 123
name: Ada
active: true

Nested objects:

encode({
  user: {
    id: 123,
    name: 'Ada'
  }
})

user:
  id: 123
  name: Ada

encode({
  tags: ['admin', 'ops', 'dev']
})

tags[3]: admin,ops,dev

When all objects share the same primitive fields, TOON uses an efficient tabular format:

encode({
  items: [
    { sku: 'A1', qty: 2, price: 9.99 },
    { sku: 'B2', qty: 1, price: 14.5 }
  ]
})

items[2]{sku,qty,price}:
  A1,2,9.99
  B2,1,14.5

Tabular formatting applies recursively: nested arrays of objects (whether as object properties or inside list items) also use tabular format if they meet the same requirements.

encode({
  items: [
    {
      users: [
        { id: 1, name: 'Ada' },
        { id: 2, name: 'Bob' }
      ],
      status: 'active'
    }
  ]
})

items[1]:
  - users[2]{id,name}:
    1,Ada
    2,Bob
    status: active

Arrays that don't meet the tabular requirements use list format:

items[3]:
  - 1
  - a: 1
  - text

When objects appear in list format, the first field is placed on the hyphen line:

items[2]:
  - id: 1
    name: First
  - id: 2
    name: Second
    extra: true

When you have arrays containing primitive inner arrays:

encode({
  pairs: [
    [1, 2],
    [3, 4]
  ]
})

pairs[2]:
  - [2]: 1,2
  - [2]: 3,4

Empty containers have special representations:

encode({ items: [] }) // items[0]:
encode([]) // [0]:
encode({}) // (empty output)
encode({ config: {} }) // config:

TOON quotes strings only when necessary to maximize token efficiency:

• Inner spaces are allowed; leading or trailing spaces force quotes.
• Unicode and emoji are safe unquoted.
• Quotes and control characters are escaped with backslash.

Keys are unquoted if they match the identifier pattern: start with a letter or underscore, followed by letters, digits, underscores, or dots (e.g., id, userName, user_name, user.name, _private). All other keys must be quoted (e.g., "user name", "order-id", "123", "order:id", "").

String values are quoted when any of the following is true:

Examples of unquoted strings: Unicode and emoji are safe (hello 👋 world), as are strings with inner spaces (hello world).

For arrays of objects to use the efficient tabular format, all of the following must be true:

If any condition fails, TOON falls back to list format.

Some non-JSON types are automatically normalized for LLM-safe output:

Converts any JSON-serializable value to TOON format.

Parameters:

• value – Any JSON-serializable value (object, array, primitive, or nested structure). Non-JSON-serializable values (functions, symbols, undefined, non-finite numbers) are converted to null. Dates are converted to ISO strings, and BigInts are emitted as decimal integers (no quotes).
• options – Optional encoding options:
  • indent?: number – Number of spaces per indentation level (default: 2)
  • delimiter?: ',' | '\t' | '|' – Delimiter for array values and tabular rows (default: ',')
  • lengthMarker?: '#' | false – Optional marker to prefix array lengths (default: false)

Returns:

A TOON-formatted string with no trailing newline or spaces.

Example:

import { encode } from '@byjohann/toon'

const items = [
  { sku: 'A1', qty: 2, price: 9.99 },
  { sku: 'B2', qty: 1, price: 14.5 }
]

encode({ items })

Output:

items[2]{sku,qty,price}:
  A1,2,9.99
  B2,1,14.5

The delimiter option allows you to choose between comma (default), tab, or pipe delimiters for array values and tabular rows. Alternative delimiters can provide additional token savings in specific contexts.

Using tab delimiters instead of commas can reduce token count further, especially for tabular data:

const data = {
  items: [
    { sku: 'A1', name: 'Widget', qty: 2, price: 9.99 },
    { sku: 'B2', name: 'Gadget', qty: 1, price: 14.5 }
  ]
}

encode(data, { delimiter: '\t' })

Output:

items[2	]{sku	name	qty	price}:
  A1	Widget	2	9.99
  B2	Gadget	1	14.5

Benefits:

• Tabs are single characters and often tokenize more efficiently than commas.
• Tabs rarely appear in natural text, reducing the need for quote-escaping.
• The delimiter is explicitly encoded in the array header, making it self-descriptive.

Considerations:

• Some terminals and editors may collapse or expand tabs visually.
• String values containing tabs will still require quoting.

Pipe delimiters offer a middle ground between commas and tabs:

encode(data, { delimiter: '|' })

Output:

items[2|]{sku|name|qty|price}:
  A1|Widget|2|9.99
  B2|Gadget|1|14.5

The lengthMarker option adds an optional hash (#) prefix to array lengths to emphasize that the bracketed value represents a count, not an index:

const data = {
  tags: ['reading', 'gaming', 'coding'],
  items: [
    { sku: 'A1', qty: 2, price: 9.99 },
    { sku: 'B2', qty: 1, price: 14.5 },
  ],
}

encode(data, { lengthMarker: '#' })
// tags[#3]: reading,gaming,coding
// items[#2]{sku,qty,price}:
//   A1,2,9.99
//   B2,1,14.5

// Works with custom delimiters
encode(data, { lengthMarker: '#', delimiter: '|' })
// tags[#3|]: reading|gaming|coding
// items[#2|]{sku|qty|price}:
//   A1|2|9.99
//   B2|1|14.5

• Format familiarity matters as much as token count. TOON's tabular format requires arrays of objects with identical keys and primitive values only – when this doesn't hold (due to mixed types, non-uniform objects, or nested structures), TOON switches to list format where JSON can be cheaper at scale.
  • TOON is best for uniform complex (but not deeply nested) objects, especially large arrays of such objects.
  • JSON is best for non-uniform data and deeply nested structures.
• Token counts vary by tokenizer and model. Benchmarks use a GPT-style tokenizer (cl100k/o200k); actual savings will differ with other models (e.g., SentencePiece).
• TOON is designed for LLM input where human readability and token efficiency matter. It's not a drop-in replacement for JSON in APIs or storage.

TOON works best when you show the format instead of describing it. The structure is self-documenting – models parse it naturally once they see the pattern.

Wrap your encoded data in a fenced code block (label it ```toon for clarity). The indentation and headers are usually enough – models treat it like familiar YAML or CSV. The explicit length markers ([N]) and field headers ({field1,field2}) help the model track structure, especially for large tables.

For output, be more explicit. When you want the model to generate TOON:

• Show the expected header (users[N]{id,name,role}:). The model fills rows instead of repeating keys, reducing generation errors.
• State the rules: 2-space indent, no trailing spaces, [N] matches row count.

Here's a prompt that works for both reading and generating:

Data is in TOON format (2-space indent, arrays show length and fields).

\`\`\`toon
users[3]{id,name,role,lastLogin}:
  1,Alice,admin,2025-01-15T10:30:00Z
  2,Bob,user,2025-01-14T15:22:00Z
  3,Charlie,user,2025-01-13T09:45:00Z
\`\`\`

Task: Return only users with role "user" as TOON. Use the same header. Set [N] to match the row count. Output only the code block.

// Object
{ id: 1, name: 'Ada' }          → id: 1
                                  name: Ada

// Nested object
{ user: { id: 1 } }             → user:
                                    id: 1

// Primitive array (inline)
{ tags: ['foo', 'bar'] }        → tags[2]: foo,bar

// Tabular array (uniform objects)
{ items: [                      → items[2]{id,qty}:
  { id: 1, qty: 5 },                1,5
  { id: 2, qty: 3 }                 2,3
]}

// Mixed / non-uniform (list)
{ items: [1, { a: 1 }, 'x'] }   → items[3]:
                                    - 1
                                    - a: 1
                                    - x

// Array of arrays
{ pairs: [[1, 2], [3, 4]] }     → pairs[2]:
                                    - [2]: 1,2
                                    - [2]: 3,4

// Root array
['x', 'y']                      → [2]: x,y

// Empty containers
{}                              → (empty output)
{ items: [] }                   → items[0]:

// Special quoting
{ note: 'hello, world' }        → note: "hello, world"
{ items: ['true', true] }       → items[2]: "true",true

• Elixir: toon_ex
• PHP: toon-php
• Python: pytoon
  • python-toon
  • toon-python
• Ruby: toon-ruby
• Java: JToon
• .NET: toon.NET
• Swift: TOONEncoder

MIT License © 2025-PRESENT Johann Schopplich