index.js
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module.exports = flatten
flatten.flatten = flatten
flatten.unflatten = unflatten
function isBuffer (obj) {
return obj &&
obj.constructor &&
(typeof obj.constructor.isBuffer === 'function') &&
obj.constructor.isBuffer(obj)
}
function keyIdentity (key) {
return key
}
function flatten (target, opts) {
opts = opts || {}
const delimiter = opts.delimiter || '.'
const maxDepth = opts.maxDepth
const transformKey = opts.transformKey || keyIdentity
const output = {}
function step (object, prev, currentDepth) {
currentDepth = currentDepth || 1
Object.keys(object).forEach(function (key) {
const value = object[key]
const isarray = opts.safe && Array.isArray(value)
const type = Object.prototype.toString.call(value)
const isbuffer = isBuffer(value)
const isobject = (
type === '[object Object]' ||
type === '[object Array]'
)
const newKey = prev
? prev + delimiter + transformKey(key)
: transformKey(key)
if (!isarray && !isbuffer && isobject && Object.keys(value).length &&
(!opts.maxDepth || currentDepth < maxDepth)) {
return step(value, newKey, currentDepth + 1)
}
output[newKey] = value
})
}
step(target)
return output
}
function unflatten (target, opts) {
opts = opts || {}
const delimiter = opts.delimiter || '.'
const overwrite = opts.overwrite || false
const transformKey = opts.transformKey || keyIdentity
const result = {}
const isbuffer = isBuffer(target)
if (isbuffer || Object.prototype.toString.call(target) !== '[object Object]') {
return target
}
// safely ensure that the key is
// an integer.
function getkey (key) {
const parsedKey = Number(key)
return (
isNaN(parsedKey) ||
key.indexOf('.') !== -1 ||
opts.object
) ? key
: parsedKey
}
function addKeys (keyPrefix, recipient, target) {
return Object.keys(target).reduce(function (result, key) {
result[keyPrefix + delimiter + key] = target[key]
return result
}, recipient)
}
function isEmpty (val) {
const type = Object.prototype.toString.call(val)
const isArray = type === '[object Array]'
const isObject = type === '[object Object]'
if (!val) {
return true
} else if (isArray) {
return !val.length
} else if (isObject) {
return !Object.keys(val).length
}
}
target = Object.keys(target).reduce(function (result, key) {
const type = Object.prototype.toString.call(target[key])
const isObject = (type === '[object Object]' || type === '[object Array]')
if (!isObject || isEmpty(target[key])) {
result[key] = target[key]
return result
} else {
return addKeys(
key,
result,
flatten(target[key], opts)
)
}
}, {})
Object.keys(target).forEach(function (key) {
const split = key.split(delimiter).map(transformKey)
let key1 = getkey(split.shift())
let key2 = getkey(split[0])
let recipient = result
while (key2 !== undefined) {
if (key1 === '__proto__') {
return
}
const type = Object.prototype.toString.call(recipient[key1])
const isobject = (
type === '[object Object]' ||
type === '[object Array]'
)
// do not write over falsey, non-undefined values if overwrite is false
if (!overwrite && !isobject && typeof recipient[key1] !== 'undefined') {
return
}
if ((overwrite && !isobject) || (!overwrite && recipient[key1] == null)) {
recipient[key1] = (
typeof key2 === 'number' &&
!opts.object ? [] : {}
)
}
recipient = recipient[key1]
if (split.length > 0) {
key1 = getkey(split.shift())
key2 = getkey(split[0])
}
}
// unflatten again for 'messy objects'
recipient[key1] = unflatten(target[key], opts)
})
return result
}