Hacked By AnonymousFox
// An edge in the dependency graph
// Represents a dependency relationship of some kind
const util = require('node:util')
const npa = require('npm-package-arg')
const depValid = require('./dep-valid.js')
class ArboristEdge {
constructor (edge) {
this.name = edge.name
this.spec = edge.spec
this.type = edge.type
const edgeFrom = edge.from?.location
const edgeTo = edge.to?.location
const override = edge.overrides?.value
if (edgeFrom != null) {
this.from = edgeFrom
}
if (edgeTo) {
this.to = edgeTo
}
if (edge.error) {
this.error = edge.error
}
if (edge.peerConflicted) {
this.peerConflicted = true
}
if (override) {
this.overridden = override
}
}
}
class Edge {
#accept
#error
#explanation
#from
#name
#spec
#to
#type
static types = Object.freeze([
'prod',
'dev',
'optional',
'peer',
'peerOptional',
'workspace',
])
// XXX where is this used?
static errors = Object.freeze([
'DETACHED',
'MISSING',
'PEER LOCAL',
'INVALID',
])
constructor (options) {
const { type, name, spec, accept, from, overrides } = options
// XXX are all of these error states even possible?
if (typeof spec !== 'string') {
throw new TypeError('must provide string spec')
}
if (!Edge.types.includes(type)) {
throw new TypeError(`invalid type: ${type}\n(valid types are: ${Edge.types.join(', ')})`)
}
if (type === 'workspace' && npa(spec).type !== 'directory') {
throw new TypeError('workspace edges must be a symlink')
}
if (typeof name !== 'string') {
throw new TypeError('must provide dependency name')
}
if (!from) {
throw new TypeError('must provide "from" node')
}
if (accept !== undefined) {
if (typeof accept !== 'string') {
throw new TypeError('accept field must be a string if provided')
}
this.#accept = accept || '*'
}
if (overrides !== undefined) {
this.overrides = overrides
}
this.#name = name
this.#type = type
this.#spec = spec
this.#explanation = null
this.#from = from
from.edgesOut.get(this.#name)?.detach()
from.addEdgeOut(this)
this.reload(true)
this.peerConflicted = false
}
satisfiedBy (node) {
if (node.name !== this.#name) {
return false
}
// NOTE: this condition means we explicitly do not support overriding
// bundled or shrinkwrapped dependencies
if (node.hasShrinkwrap || node.inShrinkwrap || node.inBundle) {
return depValid(node, this.rawSpec, this.#accept, this.#from)
}
return depValid(node, this.spec, this.#accept, this.#from)
}
// return the edge data, and an explanation of how that edge came to be here
explain (seen = []) {
if (!this.#explanation) {
const explanation = {
type: this.#type,
name: this.#name,
spec: this.spec,
}
if (this.rawSpec !== this.spec) {
explanation.rawSpec = this.rawSpec
explanation.overridden = true
}
if (this.bundled) {
explanation.bundled = this.bundled
}
if (this.error) {
explanation.error = this.error
}
if (this.#from) {
explanation.from = this.#from.explain(null, seen)
}
this.#explanation = explanation
}
return this.#explanation
}
get bundled () {
return !!this.#from?.package?.bundleDependencies?.includes(this.#name)
}
get workspace () {
return this.#type === 'workspace'
}
get prod () {
return this.#type === 'prod'
}
get dev () {
return this.#type === 'dev'
}
get optional () {
return this.#type === 'optional' || this.#type === 'peerOptional'
}
get peer () {
return this.#type === 'peer' || this.#type === 'peerOptional'
}
get type () {
return this.#type
}
get name () {
return this.#name
}
get rawSpec () {
return this.#spec
}
get spec () {
if (this.overrides?.value && this.overrides.value !== '*' && this.overrides.name === this.#name) {
if (this.overrides.value.startsWith('$')) {
const ref = this.overrides.value.slice(1)
// we may be a virtual root, if we are we want to resolve reference overrides
// from the real root, not the virtual one
const pkg = this.#from.sourceReference
? this.#from.sourceReference.root.package
: this.#from.root.package
if (pkg.devDependencies?.[ref]) {
return pkg.devDependencies[ref]
}
if (pkg.optionalDependencies?.[ref]) {
return pkg.optionalDependencies[ref]
}
if (pkg.dependencies?.[ref]) {
return pkg.dependencies[ref]
}
if (pkg.peerDependencies?.[ref]) {
return pkg.peerDependencies[ref]
}
throw new Error(`Unable to resolve reference ${this.overrides.value}`)
}
return this.overrides.value
}
return this.#spec
}
get accept () {
return this.#accept
}
get valid () {
return !this.error
}
get missing () {
return this.error === 'MISSING'
}
get invalid () {
return this.error === 'INVALID'
}
get peerLocal () {
return this.error === 'PEER LOCAL'
}
get error () {
if (!this.#error) {
if (!this.#to) {
if (this.optional) {
this.#error = null
} else {
this.#error = 'MISSING'
}
} else if (this.peer && this.#from === this.#to.parent && !this.#from.isTop) {
this.#error = 'PEER LOCAL'
} else if (!this.satisfiedBy(this.#to)) {
this.#error = 'INVALID'
} else {
this.#error = 'OK'
}
}
if (this.#error === 'OK') {
return null
}
return this.#error
}
reload (hard = false) {
this.#explanation = null
if (this.#from.overrides) {
this.overrides = this.#from.overrides.getEdgeRule(this)
} else {
delete this.overrides
}
const newTo = this.#from.resolve(this.#name)
if (newTo !== this.#to) {
if (this.#to) {
this.#to.edgesIn.delete(this)
}
this.#to = newTo
this.#error = null
if (this.#to) {
this.#to.addEdgeIn(this)
}
} else if (hard) {
this.#error = null
}
}
detach () {
this.#explanation = null
if (this.#to) {
this.#to.edgesIn.delete(this)
}
this.#from.edgesOut.delete(this.#name)
this.#to = null
this.#error = 'DETACHED'
this.#from = null
}
get from () {
return this.#from
}
get to () {
return this.#to
}
toJSON () {
return new ArboristEdge(this)
}
[util.inspect.custom] () {
return this.toJSON()
}
}
module.exports = Edge
Hacked By AnonymousFox1.0, Coded By AnonymousFox