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wanderer🌟 / js-dfinity-radix-tree



Tree: 588bfeefe36f73792935e70a42db416f2a0d838c

Files: 588bfeefe36f73792935e70a42db416f2a0d838c / index.js

8613 bytesRaw
1const Graph = require('ipld-graph-builder')
2const Uint1Array = require('uint1array')
3const TextEncoder = require('text-encoding').TextEncoder
4const DataStore = require('./datastore.js')
5const treeNode = require('./treeNode.js')
6
7const encoder = new TextEncoder('utf-8')
8
9module.exports = class RadixTree {
10  /**
11   * @param opts
12   * @param opts.root {object} a merkle root to a radix tree. If none, RadixTree will create an new root.
13   * @param opts.db {object} a level db instance; alternatively, `opts.graph` can be used
14   * @param opts.graph {object} an instance of [ipld-graph-builder](https://github.com/ipld/js-ipld-graph-builder); alternatively, `opts.dag` can be used
15   * @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.
16   * @param opts.decoder {object} a cbor decoder
17   */
18  constructor (opts) {
19    this._root = {}
20    this.root = opts.root || RadixTree.emptyTreeState
21
22    this.dag = opts.dag || new DataStore(opts.db, opts.decoder)
23    this.graph = opts.graph || new Graph(this.dag)
24    this._setting = Promise.resolve()
25  }
26
27  /**
28   * the root of the tree
29   * @type {Buffer}
30   */
31  get root () {
32    return this._root['/']
33  }
34
35  set root (root) {
36    this._root['/'] = root
37  }
38
39  /**
40   * gets a value given a key
41   * @param {*} key
42   * @return {Promise}
43   */
44  async get (key) {
45    key = this.formatKey(key)
46    await this.done()
47    return this._get(key)
48  }
49
50  async _get (key) {
51    let index = 0
52    let root = this._root
53    let parent
54
55    while (1) {
56      // load the root
57      const exNode = await this.graph.get(root, treeNode.EXTENSION, true)
58      if (exNode) {
59        let subKey = key.subarray(index)
60        const {extensionIndex, extensionLen, extension} = findMatchBits(subKey, root)
61        index += extensionIndex
62        // check if we complete traversed the extension
63        if (extensionIndex !== extensionLen) {
64          return {index, root, extension, extensionIndex}
65        }
66      }
67
68      let keySegment = key[index]
69      if (keySegment !== undefined) {
70        const branch = treeNode.getBranch(root)
71        await this.graph.get(branch, keySegment, true)
72        // preserves the '/'
73        const nextRoot = branch[keySegment]
74        if (!nextRoot) {
75          return {root, index}
76        } else {
77          parent = root
78          root = nextRoot
79        }
80      } else {
81        break
82      }
83
84      index++
85    }
86
87    const value = treeNode.getValue(root)
88    const node = root['/']
89
90    return {value, root, node, parent, index}
91  }
92
93  /**
94   * stores a value at a given key returning the tree node that the value was saved in
95   * @param {*} key
96   * @return {Promise}
97   */
98  set (key, value) {
99    key = this.formatKey(key)
100    return this._mutationLock(this._set.bind(this, key, value))
101  }
102
103  async _set (key, value) {
104    if (treeNode.isEmpty(this._root)) {
105      this._root['/'] = createNode(key, [null, null], value)['/']
106      return this._root['/']
107    } else {
108      let {node, root, extensionIndex, extension, index, value: rValue} = await this._get(key)
109
110      if (rValue) {
111        treeNode.setValue(root, value)
112        return node
113      } else {
114        if (extensionIndex !== undefined) {
115          // split the extension node in two
116          const extensionKey = extension[extensionIndex]
117          const remExtension = extension.subarray(extensionIndex + 1)
118          extension = extension.subarray(0, extensionIndex)
119
120          treeNode.setExtension(root, remExtension)
121          const branch = [null, null]
122          branch[extensionKey] = {
123            '/': root['/']
124          }
125          root['/'] = createNode(extension, branch)['/']
126        }
127
128        // if there are remaning key segments create an extension node
129        if (index < key.length) {
130          const keySegment = key[index]
131          const extension = key.subarray(index + 1, key.length)
132          const newNode = createNode(extension, [null, null], value)
133          const rootBranch = treeNode.getBranch(root)
134          rootBranch[keySegment] = newNode
135          treeNode.setBranch(root, rootBranch)
136          return newNode['/']
137        } else {
138          treeNode.setValue(root, value)
139          return root['/']
140        }
141      }
142    }
143  }
144
145  /**
146   *smContainer.js deletes a value at a given key
147   * @param {*} key
148   * @return {Promise}
149   */
150  delete (key) {
151    key = this.formatKey(key)
152    return this._mutationLock(this._delete.bind(this, key))
153  }
154
155  async _delete (key) {
156    const results = await this._get(key)
157    if (results.value !== undefined) {
158      const root = results.root
159      const parent = results.parent
160
161      treeNode.deleteValue(root)
162
163      const branch = treeNode.getBranch(root)
164      if (branch.some(el => el !== null)) {
165        joinNodes(root)
166      } else {
167        if (!parent) {
168          root['/'] = RadixTree.emptyTreeState
169        } else {
170          let branch = treeNode.getBranch(parent)
171          branch = branch.map(node => node === root ? null : node)
172          treeNode.setBranch(parent, branch)
173          await this.graph.tree(parent, 2)
174
175          joinNodes(parent)
176        }
177      }
178    }
179
180    function joinNodes (root) {
181      if (treeNode.getValue(root) === undefined) {
182        let index
183        const branch = treeNode.getBranch(root)
184        const nodes = branch.filter((node, i) => {
185          if (node) {
186            index = i
187            return true
188          }
189        })
190
191        if (nodes.length === 1) {
192          const child = nodes[0]
193          const pExtension = treeNode.getExtension(root)
194          const childExtension = treeNode.getExtension(child)
195          const newExtension = new RadixTree.ArrayConstructor(pExtension.length + childExtension.length + 1)
196
197          newExtension.set(pExtension)
198          newExtension[pExtension.length] = index
199          newExtension.set(childExtension, pExtension.length + 1)
200
201          treeNode.setExtension(child, newExtension)
202          root['/'] = child['/']
203        }
204      }
205    }
206  }
207
208  /**
209   * returns a promise that resolve when the tree is done with all of its writes
210   * @returns {Promise}
211   */
212  async done () {
213    let setting
214    while (this._setting !== setting) {
215      setting = this._setting
216      await setting
217    }
218  }
219
220  _mutationLock (func) {
221    const setting = this._setting
222    this._setting = new Promise((resolve, reject) => {
223      return setting.then(() => {
224        return func().then(resolve).catch(reject)
225      })
226    })
227    return this._setting
228  }
229
230  /**
231   * creates a merkle root for the current tree and stores the data persistently
232   * @returns {Promise}
233   */
234  async flush () {
235    await this.done()
236    await this.graph.flush(this._root)
237    return this.root
238  }
239
240  formatKey (key) {
241    key = RadixTree.formatKey(key)
242    return key
243  }
244
245  /**
246   * Checks if a given root exists or not
247   * @param {Buffer} root
248   * @return {Promise<boolean>}
249   */
250  async rootExists (root) {
251    await this.flush()
252    try {
253      await this.dag.get(root)
254    } catch (e) {
255      return false
256    }
257    return true
258  }
259
260  static formatKey (key) {
261    if (typeof key === 'string') {
262      key = encoder.encode(key)
263    }
264
265    if (key.constructor !== RadixTree.ArrayConstructor) {
266      if (Buffer.isBuffer(key)) {
267        return new RadixTree.ArrayConstructor(new Uint8Array(key).buffer)
268      } else {
269        return new RadixTree.ArrayConstructor(key.buffer)
270      }
271    } else {
272      return key
273    }
274  }
275
276  /**
277   * returns the state of an empty tree
278   */
279  static get emptyTreeState () {
280    return [null, null, null]
281  }
282
283  /**
284   * returns an Uint1Array constructor which is used to represent keys
285   * @returns {object}
286   */
287  static get ArrayConstructor () {
288    return Uint1Array
289  }
290
291  /**
292   * returns a merkle link for some given data
293   * @param {Buffer} data - the data which you would like to hash
294   * @returns {Buffer}
295   */
296  static getMerkleLink (data) {
297    return DataStore.getMerkleLink(data)
298  }
299}
300
301function createNode (ex, branch, value) {
302  const node = {
303    '/': []
304  }
305
306  treeNode.setValue(node, value)
307  treeNode.setExtension(node, ex)
308  treeNode.setBranch(node, branch)
309
310  return node
311}
312
313function findMatchBits (key, node) {
314  let extensionIndex = 0
315  const extension = treeNode.getExtension(node)
316  const extensionLen = extension.length
317
318  // checks the extension against the key
319  while (extensionIndex < extensionLen && extension[extensionIndex] === key[extensionIndex]) {
320    extensionIndex++
321  }
322
323  return {extensionIndex, extensionLen, extension}
324}
325

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