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wanderer🌟 / js-dfinity-radix-tree



Tree: 4d4aa45d37fc25f0759d091f2ed9005d37479164

Files: 4d4aa45d37fc25f0759d091f2ed9005d37479164 / index.js

7361 bytesRaw
1const Graph = require('ipld-graph-builder')
2const cbor = require('borc')
3const Uint1Array = require('uint1array')
4const TextEncoder = require('text-encoding').TextEncoder
5const DataStore = require('./datastore.js')
6const treeNode = require('./treeNode.js')
7
8const encoder = new TextEncoder('utf-8')
9
10module.exports = class RadixTree {
11 /**
12 * @param opts
13 * @param opts.root {object} a merkle root to a radix tree. If none, RadixTree will create an new root.
14 * @param opts.db {object} a level db instance alternitly `opts.graph` can be used
15 * @param opts.graph {object} an instance of [ipld-graph-builder](https://github.com/ipld/js-ipld-graph-builder) alternitvly `opts.dag` can be used
16 * @param opts.dag {object} an instance if [ipfs.dag](https://github.com/ipfs/js-ipfs#dag). If there is no `opts.graph` this will be used to create a new graph instance.
17 */
18 constructor (opts) {
19 this.root = opts.root || {
20 '/': RadixTree.emptyTreeState
21 }
22
23 this.dag = opts.dag || new DataStore(opts.db)
24 this.graph = opts.graph || new Graph(this.dag)
25 }
26
27 /**
28 * returns the state of an empty tree
29 */
30 static get emptyTreeState () {
31 return [null, null, null]
32 }
33
34 /**
35 * returns an Uint1Array constructir which is used to repersent keys
36 * @returns {object}
37 */
38 static get ArrayConstructor () {
39 return Uint1Array
40 }
41
42 /**
43 * returns a merkle link for some given data
44 * @param {Buffer} data - the data which you would like to hash
45 * @returns {Buffer}
46 */
47 static getMerkleLink (data) {
48 return DataStore.getMerkleLink(data)
49 }
50
51 async _get (key) {
52 let index = 0
53 let root = this.root
54 let parent
55
56 while (1) {
57 // load the root
58 const exNode = await this.graph.get(root, treeNode.EXTENSION, true)
59 if (exNode) {
60 let subKey = key.subarray(index)
61
62 const {extensionIndex, extensionLen, extension} = findMatchBits(subKey, root)
63 index += extensionIndex
64 // check if we compelete travered the extension
65 if (extensionIndex !== extensionLen) {
66 return {
67 index: index,
68 root: root,
69 extension: extension,
70 extensionIndex: extensionIndex
71 }
72 }
73 }
74
75 let keySegment = key[index]
76 if (keySegment !== undefined) {
77 const branch = treeNode.getBranch(root)
78 await this.graph.get(branch, keySegment, true)
79 // preseves the '/'
80 const nextRoot = branch[keySegment]
81 if (!nextRoot) {
82 return {
83 root: root,
84 index: index
85 }
86 } else {
87 parent = root
88 root = nextRoot
89 }
90 } else {
91 break
92 }
93
94 index++
95 }
96
97 const value = treeNode.getValue(root)
98
99 return {
100 value: value,
101 root: root,
102 parent: parent,
103 index: index
104 }
105 }
106
107 /**
108 * gets a value given a key
109 * @param {*} key
110 * @return {Promise}
111 */
112 async get (key, decode) {
113 key = RadixTree.formatKey(key)
114 let {root, value} = await this._get(key)
115 if (decode && Buffer.isBuffer(value)) {
116 value = cbor.decode(value)
117 treeNode.setValue(root, value)
118 }
119 return value
120 }
121
122 /**
123 * stores a value at a given key
124 * @param {*} key
125 * @return {Promise}
126 */
127 async set (key, value) {
128 key = RadixTree.formatKey(key)
129
130 if (treeNode.isEmpty(this.root)) {
131 this.root['/'] = createNode(key, [null, null], value)['/']
132 } else {
133 let {root, extensionIndex, extension, index, value: rValue} = await this._get(key)
134
135 if (rValue) {
136 treeNode.setValue(root, value)
137 } else {
138 if (extensionIndex !== undefined) {
139 // split the extension node in two
140 const extensionKey = extension[extensionIndex]
141 const remExtension = extension.subarray(extensionIndex + 1)
142 extension = extension.subarray(0, extensionIndex)
143
144 treeNode.setExtension(root, remExtension)
145 const branch = [null, null]
146 branch[extensionKey] = {'/': root['/']}
147 root['/'] = createNode(extension, branch)['/']
148 }
149
150 // if there are remaning key segments create an extension node
151 if (index < key.length) {
152 const keySegment = key[index]
153 const extension = key.subarray(index + 1, key.length)
154 const newNode = createNode(extension, [null, null], value)
155 const rootBranch = treeNode.getBranch(root)
156 rootBranch[keySegment] = newNode
157 treeNode.setBranch(root, rootBranch)
158 } else {
159 treeNode.setValue(root, value)
160 }
161 }
162 }
163 }
164
165 /**
166 * deletes a value at a given key
167 * @param {*} key
168 * @return {Promise}
169 */
170 async delete (key) {
171 key = RadixTree.formatKey(key)
172 const results = await this._get(key)
173 if (results.value !== undefined) {
174 const root = results.root
175 const parent = results.parent
176
177 treeNode.deleteValue(root)
178
179 const branch = treeNode.getBranch(root)
180 if (branch.some(el => el !== null)) {
181 joinNodes(root)
182 } else {
183 if (!parent) {
184 root['/'] = RadixTree.emptyTreeState
185 } else {
186 let branch = treeNode.getBranch(parent)
187 branch = branch.map(node => node === root ? null : node)
188 treeNode.setBranch(parent, branch)
189 await this.graph.tree(parent, 2)
190
191 joinNodes(parent)
192 }
193 }
194 }
195
196 function joinNodes (root) {
197 if (treeNode.getValue(root) === undefined) {
198 let index
199 const branch = treeNode.getBranch(root)
200 const nodes = branch.filter((node, i) => {
201 if (node) {
202 index = i
203 return true
204 }
205 })
206
207 if (nodes.length === 1) {
208 const child = nodes[0]
209 const pExtension = treeNode.getExtension(root)
210 const childExtension = treeNode.getExtension(child)
211 const newExtension = new RadixTree.ArrayConstructor(pExtension.length + childExtension.length + 1)
212
213 newExtension.set(pExtension)
214 newExtension[pExtension.length] = index
215 newExtension.set(childExtension, pExtension.length + 1)
216
217 treeNode.setExtension(child, newExtension)
218 root['/'] = child['/']
219 }
220 }
221 }
222 }
223
224 /**
225 * creates a merkle root for the current tree and stores the data perstantly
226 * @returns {Promise}
227 */
228 flush () {
229 return this.graph.flush(this.root)
230 }
231
232 static formatKey (key) {
233 if (typeof key === 'string') {
234 key = encoder.encode(key)
235 }
236
237 if (key.constructor !== RadixTree.ArrayConstructor) {
238 return new RadixTree.ArrayConstructor(key.buffer)
239 } else {
240 return key
241 }
242 }
243}
244
245function createNode (ex, branch, value) {
246 const node = {
247 '/': []
248 }
249
250 treeNode.setValue(node, value)
251 treeNode.setExtension(node, ex)
252 treeNode.setBranch(node, branch)
253
254 return node
255}
256
257function findMatchBits (key, node) {
258 let extensionIndex = 0
259 const extension = treeNode.getExtension(node)
260 const extensionLen = extension.length
261
262 // checks the extension against the key
263 while (extensionIndex < extensionLen && extension[extensionIndex] === key[extensionIndex]) {
264 extensionIndex++
265 }
266
267 return {
268 extensionIndex: extensionIndex,
269 extensionLen: extensionLen,
270 extension: extension
271 }
272}
273

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