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Files: e61d25798db079eb20435ebc17b0e9f1f2da20fa / index.js

8099 bytesRaw

1 const Graph = require('ipld-graph-builder')
2 const Uint1Array = require('uint1array')
3 const TextEncoder = require('text-encoding').TextEncoder
4 const DataStore = require('./datastore.js')
5 const treeNode = require('./treeNode.js')
6 
7 const encoder = new TextEncoder('utf-8')
8 
9 module.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    */
17   constructor (opts) {
18     this.root = opts.root || {
19       '/': RadixTree.emptyTreeState
20     }
21 
22     this.dag = opts.dag || new DataStore(opts.db)
23     this.graph = opts.graph || new Graph(this.dag)
24     this._setting = Promise.resolve()
25   }
26 
27   /**
28    * gets a value given a key
29    * @param {*} key
30    * @return {Promise}
31    */
32   async get (key) {
33     key = this.formatKey(key)
34     await this.done()
35     return this._get(key)
36   }
37 
38   async _get (key) {
39     let index = 0
40     let root = this.root
41     let parent
42 
43     while (1) {
44       // load the root
45       const exNode = await this.graph.get(root, treeNode.EXTENSION, true)
46       if (exNode) {
47         let subKey = key.subarray(index)
48 
49         const {extensionIndex, extensionLen, extension} = findMatchBits(subKey, root)
50         index += extensionIndex
51         // check if we complete traversed the extension
52         if (extensionIndex !== extensionLen) {
53           return {index, root, extension, extensionIndex}
54         }
55       }
56 
57       let keySegment = key[index]
58       if (keySegment !== undefined) {
59         const branch = treeNode.getBranch(root)
60         await this.graph.get(branch, keySegment, true)
61         // preserves the '/'
62         const nextRoot = branch[keySegment]
63         if (!nextRoot) {
64           return {root, index}
65         } else {
66           parent = root
67           root = nextRoot
68         }
69       } else {
70         break
71       }
72 
73       index++
74     }
75 
76     const value = treeNode.getValue(root)
77     const node = root['/']
78 
79     return {value, root, node, parent, index}
80   }
81 
82   /**
83    * stores a value at a given key returning the tree node that the value was saved in
84    * @param {*} key
85    * @return {Promise}
86    */
87   set (key, value) {
88     key = this.formatKey(key)
89     return this._mutationLock(this._set.bind(this, key, value))
90   }
91 
92   async _set (key, value) {
93     if (treeNode.isEmpty(this.root)) {
94       this.root['/'] = createNode(key, [null, null], value)['/']
95       return this.root['/']
96     } else {
97       let {node, root, extensionIndex, extension, index, value: rValue} = await this._get(key)
98 
99       if (rValue) {
100         treeNode.setValue(root, value)
101         return node
102       } else {
103         if (extensionIndex !== undefined) {
104           // split the extension node in two
105           const extensionKey = extension[extensionIndex]
106           const remExtension = extension.subarray(extensionIndex + 1)
107           extension = extension.subarray(0, extensionIndex)
108 
109           treeNode.setExtension(root, remExtension)
110           const branch = [null, null]
111           branch[extensionKey] = {
112             '/': root['/']
113           }
114           root['/'] = createNode(extension, branch)['/']
115         }
116 
117         // if there are remaning key segments create an extension node
118         if (index < key.length) {
119           const keySegment = key[index]
120           const extension = key.subarray(index + 1, key.length)
121           const newNode = createNode(extension, [null, null], value)
122           const rootBranch = treeNode.getBranch(root)
123           rootBranch[keySegment] = newNode
124           treeNode.setBranch(root, rootBranch)
125           return newNode['/']
126         } else {
127           treeNode.setValue(root, value)
128           return root['/']
129         }
130       }
131     }
132   }
133 
134   /**
135    *smContainer.js deletes a value at a given key
136    * @param {*} key
137    * @return {Promise}
138    */
139   delete (key) {
140     key = this.formatKey(key)
141     return this._mutationLock(this._delete.bind(this, key))
142   }
143 
144   async _delete (key) {
145     const results = await this._get(key)
146     if (results.value !== undefined) {
147       const root = results.root
148       const parent = results.parent
149 
150       treeNode.deleteValue(root)
151 
152       const branch = treeNode.getBranch(root)
153       if (branch.some(el => el !== null)) {
154         joinNodes(root)
155       } else {
156         if (!parent) {
157           root['/'] = RadixTree.emptyTreeState
158         } else {
159           let branch = treeNode.getBranch(parent)
160           branch = branch.map(node => node === root ? null : node)
161           treeNode.setBranch(parent, branch)
162           await this.graph.tree(parent, 2)
163 
164           joinNodes(parent)
165         }
166       }
167     }
168 
169     function joinNodes (root) {
170       if (treeNode.getValue(root) === undefined) {
171         let index
172         const branch = treeNode.getBranch(root)
173         const nodes = branch.filter((node, i) => {
174           if (node) {
175             index = i
176             return true
177           }
178         })
179 
180         if (nodes.length === 1) {
181           const child = nodes[0]
182           const pExtension = treeNode.getExtension(root)
183           const childExtension = treeNode.getExtension(child)
184           const newExtension = new RadixTree.ArrayConstructor(pExtension.length + childExtension.length + 1)
185 
186           newExtension.set(pExtension)
187           newExtension[pExtension.length] = index
188           newExtension.set(childExtension, pExtension.length + 1)
189 
190           treeNode.setExtension(child, newExtension)
191           root['/'] = child['/']
192         }
193       }
194     }
195   }
196 
197   /**
198    * returns a promise that resolve when the tree is done with all of its writes
199    * @returns {Promise}
200    */
201   async done () {
202     let setting
203     while (this._setting !== setting) {
204       setting = this._setting
205       await setting
206     }
207   }
208 
209   _mutationLock (func) {
210     const setting = this._setting
211     this._setting = new Promise((resolve, reject) => {
212       return setting.then(() => {
213         return func().then(resolve).catch(reject)
214       })
215     })
216     return this._setting
217   }
218 
219   /**
220    * creates a merkle root for the current tree and stores the data persistently
221    * @returns {Promise}
222    */
223   async flush () {
224     await this.done()
225     return this.graph.flush(this.root)
226   }
227 
228   formatKey (key) {
229     key = RadixTree.formatKey(key)
230     return key
231   }
232 
233   static formatKey (key) {
234     if (typeof key === 'string') {
235       key = encoder.encode(key)
236     }
237 
238     if (key.constructor !== RadixTree.ArrayConstructor) {
239       if (Buffer.isBuffer(key)) {
240         return new RadixTree.ArrayConstructor(new Uint8Array(key).buffer)
241       } else {
242         return new RadixTree.ArrayConstructor(key.buffer)
243       }
244     } else {
245       return key
246     }
247   }
248 
249   /**
250    * returns the state of an empty tree
251    */
252   static get emptyTreeState () {
253     return [null, null, null]
254   }
255 
256   /**
257    * returns an Uint1Array constructor which is used to represent keys
258    * @returns {object}
259    */
260   static get ArrayConstructor () {
261     return Uint1Array
262   }
263 
264   /**
265    * returns a merkle link for some given data
266    * @param {Buffer} data - the data which you would like to hash
267    * @returns {Buffer}
268    */
269   static getMerkleLink (data) {
270     return DataStore.getMerkleLink(data)
271   }
272 }
273 
274 function createNode (ex, branch, value) {
275   const node = {
276     '/': []
277   }
278 
279   treeNode.setValue(node, value)
280   treeNode.setExtension(node, ex)
281   treeNode.setBranch(node, branch)
282 
283   return node
284 }
285 
286 function findMatchBits (key, node) {
287   let extensionIndex = 0
288   const extension = treeNode.getExtension(node)
289   const extensionLen = extension.length
290 
291   // checks the extension against the key
292   while (extensionIndex < extensionLen && extension[extensionIndex] === key[extensionIndex]) {
293     extensionIndex++
294   }
295 
296   return {extensionIndex, extensionLen, extension}
297 }
298

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wanderer🌟 / js-dfinity-radix-tree

Tree: e61d25798db079eb20435ebc17b0e9f1f2da20fa

Files: e61d25798db079eb20435ebc17b0e9f1f2da20fa / index.js

1	const Graph = require('ipld-graph-builder')
2	const Uint1Array = require('uint1array')
3	const TextEncoder = require('text-encoding').TextEncoder
4	const DataStore = require('./datastore.js')
5	const treeNode = require('./treeNode.js')
6
7	const encoder = new TextEncoder('utf-8')
8
9	module.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	*/
17	constructor (opts) {
18	this.root = opts.root \|\| {
19	'/': RadixTree.emptyTreeState
20	}
21
22	this.dag = opts.dag \|\| new DataStore(opts.db)
23	this.graph = opts.graph \|\| new Graph(this.dag)
24	this._setting = Promise.resolve()
25	}
26
27	/**
28	* gets a value given a key
29	* @param {*} key
30	* @return {Promise}
31	*/
32	async get (key) {
33	key = this.formatKey(key)
34	await this.done()
35	return this._get(key)
36	}
37
38	async _get (key) {
39	let index = 0
40	let root = this.root
41	let parent
42
43	while (1) {
44	// load the root
45	const exNode = await this.graph.get(root, treeNode.EXTENSION, true)
46	if (exNode) {
47	let subKey = key.subarray(index)
48
49	const {extensionIndex, extensionLen, extension} = findMatchBits(subKey, root)
50	index += extensionIndex
51	// check if we complete traversed the extension
52	if (extensionIndex !== extensionLen) {
53	return {index, root, extension, extensionIndex}
54	}
55	}
56
57	let keySegment = key[index]
58	if (keySegment !== undefined) {
59	const branch = treeNode.getBranch(root)
60	await this.graph.get(branch, keySegment, true)
61	// preserves the '/'
62	const nextRoot = branch[keySegment]
63	if (!nextRoot) {
64	return {root, index}
65	} else {
66	parent = root
67	root = nextRoot
68	}
69	} else {
70	break
71	}
72
73	index++
74	}
75
76	const value = treeNode.getValue(root)
77	const node = root['/']
78
79	return {value, root, node, parent, index}
80	}
81
82	/**
83	* stores a value at a given key returning the tree node that the value was saved in
84	* @param {*} key
85	* @return {Promise}
86	*/
87	set (key, value) {
88	key = this.formatKey(key)
89	return this._mutationLock(this._set.bind(this, key, value))
90	}
91
92	async _set (key, value) {
93	if (treeNode.isEmpty(this.root)) {
94	this.root['/'] = createNode(key, [null, null], value)['/']
95	return this.root['/']
96	} else {
97	let {node, root, extensionIndex, extension, index, value: rValue} = await this._get(key)
98
99	if (rValue) {
100	treeNode.setValue(root, value)
101	return node
102	} else {
103	if (extensionIndex !== undefined) {
104	// split the extension node in two
105	const extensionKey = extension[extensionIndex]
106	const remExtension = extension.subarray(extensionIndex + 1)
107	extension = extension.subarray(0, extensionIndex)
108
109	treeNode.setExtension(root, remExtension)
110	const branch = [null, null]
111	branch[extensionKey] = {
112	'/': root['/']
113	}
114	root['/'] = createNode(extension, branch)['/']
115	}
116
117	// if there are remaning key segments create an extension node
118	if (index < key.length) {
119	const keySegment = key[index]
120	const extension = key.subarray(index + 1, key.length)
121	const newNode = createNode(extension, [null, null], value)
122	const rootBranch = treeNode.getBranch(root)
123	rootBranch[keySegment] = newNode
124	treeNode.setBranch(root, rootBranch)
125	return newNode['/']
126	} else {
127	treeNode.setValue(root, value)
128	return root['/']
129	}
130	}
131	}
132	}
133
134	/**
135	*smContainer.js deletes a value at a given key
136	* @param {*} key
137	* @return {Promise}
138	*/
139	delete (key) {
140	key = this.formatKey(key)
141	return this._mutationLock(this._delete.bind(this, key))
142	}
143
144	async _delete (key) {
145	const results = await this._get(key)
146	if (results.value !== undefined) {
147	const root = results.root
148	const parent = results.parent
149
150	treeNode.deleteValue(root)
151
152	const branch = treeNode.getBranch(root)
153	if (branch.some(el => el !== null)) {
154	joinNodes(root)
155	} else {
156	if (!parent) {
157	root['/'] = RadixTree.emptyTreeState
158	} else {
159	let branch = treeNode.getBranch(parent)
160	branch = branch.map(node => node === root ? null : node)
161	treeNode.setBranch(parent, branch)
162	await this.graph.tree(parent, 2)
163
164	joinNodes(parent)
165	}
166	}
167	}
168
169	function joinNodes (root) {
170	if (treeNode.getValue(root) === undefined) {
171	let index
172	const branch = treeNode.getBranch(root)
173	const nodes = branch.filter((node, i) => {
174	if (node) {
175	index = i
176	return true
177	}
178	})
179
180	if (nodes.length === 1) {
181	const child = nodes[0]
182	const pExtension = treeNode.getExtension(root)
183	const childExtension = treeNode.getExtension(child)
184	const newExtension = new RadixTree.ArrayConstructor(pExtension.length + childExtension.length + 1)
185
186	newExtension.set(pExtension)
187	newExtension[pExtension.length] = index
188	newExtension.set(childExtension, pExtension.length + 1)
189
190	treeNode.setExtension(child, newExtension)
191	root['/'] = child['/']
192	}
193	}
194	}
195	}
196
197	/**
198	* returns a promise that resolve when the tree is done with all of its writes
199	* @returns {Promise}
200	*/
201	async done () {
202	let setting
203	while (this._setting !== setting) {
204	setting = this._setting
205	await setting
206	}
207	}
208
209	_mutationLock (func) {
210	const setting = this._setting
211	this._setting = new Promise((resolve, reject) => {
212	return setting.then(() => {
213	return func().then(resolve).catch(reject)
214	})
215	})
216	return this._setting
217	}
218
219	/**
220	* creates a merkle root for the current tree and stores the data persistently
221	* @returns {Promise}
222	*/
223	async flush () {
224	await this.done()
225	return this.graph.flush(this.root)
226	}
227
228	formatKey (key) {
229	key = RadixTree.formatKey(key)
230	return key
231	}
232
233	static formatKey (key) {
234	if (typeof key === 'string') {
235	key = encoder.encode(key)
236	}
237
238	if (key.constructor !== RadixTree.ArrayConstructor) {
239	if (Buffer.isBuffer(key)) {
240	return new RadixTree.ArrayConstructor(new Uint8Array(key).buffer)
241	} else {
242	return new RadixTree.ArrayConstructor(key.buffer)
243	}
244	} else {
245	return key
246	}
247	}
248
249	/**
250	* returns the state of an empty tree
251	*/
252	static get emptyTreeState () {
253	return [null, null, null]
254	}
255
256	/**
257	* returns an Uint1Array constructor which is used to represent keys
258	* @returns {object}
259	*/
260	static get ArrayConstructor () {
261	return Uint1Array
262	}
263
264	/**
265	* returns a merkle link for some given data
266	* @param {Buffer} data - the data which you would like to hash
267	* @returns {Buffer}
268	*/
269	static getMerkleLink (data) {
270	return DataStore.getMerkleLink(data)
271	}
272	}
273
274	function createNode (ex, branch, value) {
275	const node = {
276	'/': []
277	}
278
279	treeNode.setValue(node, value)
280	treeNode.setExtension(node, ex)
281	treeNode.setBranch(node, branch)
282
283	return node
284	}
285
286	function findMatchBits (key, node) {
287	let extensionIndex = 0
288	const extension = treeNode.getExtension(node)
289	const extensionLen = extension.length
290
291	// checks the extension against the key
292	while (extensionIndex < extensionLen && extension[extensionIndex] === key[extensionIndex]) {
293	extensionIndex++
294	}
295
296	return {extensionIndex, extensionLen, extension}
297	}
298

wanderer🌟 / js-dfinity-radix-tree

Tree: e61d25798db079eb20435ebc17b0e9f1f2da20fa v0.2.4v0.2.3v0.2.2v0.2.1v0.2.0v0.1.5v0.1.4v0.1.3v0.1.1v0.1.0v0.0.9v0.0.8v0.0.7v0.0.6v0.0.5v0.0.4v0.0.3v0.0.2v0.0.1master <input type="submit" value="Go"/>

Files: e61d25798db079eb20435ebc17b0e9f1f2da20fa / index.js

Tree: e61d25798db079eb20435ebc17b0e9f1f2da20fa