aitbc
816e258d4c
Development Artifact Cleanup: ✅ BROTHER_NODE REORGANIZATION: Moved development test node to appropriate location - dev/test-nodes/brother_node/: Moved from root directory for better organization - Contains development configuration, test logs, and test chain data - No impact on production systems - purely development/testing artifact ✅ DEVELOPMENT ARTIFACTS IDENTIFIED: - Chain ID: aitbc-brother-chain (test/development chain) - Ports: 8010 (P2P) and 8011 (RPC) - different from production - Environment: .env file with test configuration - Logs: rpc.log and node.log from development testing session (March 15, 2026) ✅ ROOT DIRECTORY CLEANUP: Removed development clutter from production directory - brother_node/ moved to dev/test-nodes/brother_node/ - Root directory now contains only production-ready components - Development artifacts properly organized in dev/ subdirectory DIRECTORY STRUCTURE IMPROVEMENT: 📁 dev/test-nodes/: Development and testing node configurations 🏗️ Root Directory: Clean production structure with only essential components 🧪 Development Isolation: Test environments separated from production BENEFITS: ✅ Clean Production Directory: No development artifacts in root ✅ Better Organization: Development nodes grouped in dev/ subdirectory ✅ Clear Separation: Production vs development environments clearly distinguished ✅ Maintainability: Easier to identify and manage development components RESULT: Successfully moved brother_node development artifact to dev/test-nodes/ subdirectory, cleaning up the root directory while preserving development testing environment for future use.
rfdc
Really Fast Deep Clone
Usage
const clone = require('rfdc')()
clone({a: 1, b: {c: 2}}) // => {a: 1, b: {c: 2}}
API
require('rfdc')(opts = { proto: false, circles: false, constructorHandlers: [] }) => clone(obj) => obj2
proto option
Copy prototype properties as well as own properties into the new object.
It's marginally faster to allow enumerable properties on the prototype to be copied into the cloned object (not onto it's prototype, directly onto the object).
To explain by way of code:
require('rfdc')({ proto: false })(Object.create({a: 1})) // => {}
require('rfdc')({ proto: true })(Object.create({a: 1})) // => {a: 1}
Setting proto to true will provide an additional 2% performance boost.
circles option
Keeping track of circular references will slow down performance with an
additional 25% overhead. Even if an object doesn't have any circular references,
the tracking overhead is the cost. By default if an object with a circular
reference is passed to rfdc, it will throw (similar to how JSON.stringify
would throw).
Use the circles option to detect and preserve circular references in the
object. If performance is important, try removing the circular reference from
the object (set to undefined) and then add it back manually after cloning
instead of using this option.
constructorHandlers option
Sometimes consumers may want to add custom clone behaviour for particular classes
(for example RegExp or ObjectId, which aren't supported out-of-the-box).
This can be done by passing constructorHandlers, which takes an array of tuples,
where the first item is the class to match, and the second item is a function that
takes the input and returns a cloned output:
const clone = require('rfdc')({
constructorHandlers: [
[RegExp, (o) => new RegExp(o)],
]
})
clone({r: /foo/}) // => {r: /foo/}
NOTE: For performance reasons, the handlers will only match an instance of the exact class (not a subclass). Subclasses will need to be added separately if they also need special clone behaviour.
default import
It is also possible to directly import the clone function with all options set to their default:
const clone = require("rfdc/default")
clone({a: 1, b: {c: 2}}) // => {a: 1, b: {c: 2}}
Types
rfdc clones all JSON types:
ObjectArrayNumberStringnull
With additional support for:
Date(copied)undefined(copied)Buffer(copied)TypedArray(copied)Map(copied)Set(copied)Function(referenced)AsyncFunction(referenced)GeneratorFunction(referenced)arguments(copied to a normal object)
All other types have output values that match the output
of JSON.parse(JSON.stringify(o)).
For instance:
const rfdc = require('rfdc')()
const err = Error()
err.code = 1
JSON.parse(JSON.stringify(e)) // {code: 1}
rfdc(e) // {code: 1}
JSON.parse(JSON.stringify({rx: /foo/})) // {rx: {}}
rfdc({rx: /foo/}) // {rx: {}}
Benchmarks
npm run bench
benchDeepCopy*100: 671.675ms
benchLodashCloneDeep*100: 1.574s
benchCloneDeep*100: 936.792ms
benchFastCopy*100: 822.668ms
benchFastestJsonCopy*100: 363.898ms // See note below
benchPlainObjectClone*100: 556.635ms
benchNanoCopy*100: 770.234ms
benchRamdaClone*100: 2.695s
benchJsonParseJsonStringify*100: 2.290s // JSON.parse(JSON.stringify(obj))
benchRfdc*100: 412.818ms
benchRfdcProto*100: 424.076ms
benchRfdcCircles*100: 443.357ms
benchRfdcCirclesProto*100: 465.053ms
It is true that fastest-json-copy may be faster, BUT it has such huge limitations that it is rarely useful. For example, it treats things like Date and Map instances the same as empty {}. It can't handle circular references. plain-object-clone is also really limited in capability.
Tests
npm test
169 passing (342.514ms)
Coverage
npm run cov
----------|----------|----------|----------|----------|-------------------|
File | % Stmts | % Branch | % Funcs | % Lines | Uncovered Line #s |
----------|----------|----------|----------|----------|-------------------|
All files | 100 | 100 | 100 | 100 | |
index.js | 100 | 100 | 100 | 100 | |
----------|----------|----------|----------|----------|-------------------|
__proto__ own property copying
rfdc works the same way as Object.assign when it comes to copying ['__proto__'] (e.g. when
an object has an own property key called 'proto'). It results in the target object
prototype object being set per the value of the ['__proto__'] own property.
For detailed write-up on how a way to handle this security-wise see https://www.fastify.io/docs/latest/Guides/Prototype-Poisoning/.
License
MIT