source: trip-planner-front/node_modules/@discoveryjs/json-ext/src/parse-chunked.js@ 6fe77af

Last change on this file since 6fe77af was 6a3a178, checked in by Ema <ema_spirova@…>, 3 years ago

initial commit

  • Property mode set to 100644
File size: 13.0 KB
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[6a3a178]1const { isReadableStream } = require('./utils');
2const TextDecoder = require('./text-decoder');
3
4const STACK_OBJECT = 1;
5const STACK_ARRAY = 2;
6const decoder = new TextDecoder();
7
8function isObject(value) {
9 return value !== null && typeof value === 'object';
10}
11
12function adjustPosition(error, parser) {
13 if (error.name === 'SyntaxError' && parser.jsonParseOffset) {
14 error.message = error.message.replace(/at position (\d+)/, (_, pos) =>
15 'at position ' + (Number(pos) + parser.jsonParseOffset)
16 );
17 }
18
19 return error;
20}
21
22function append(array, elements) {
23 // Note: Avoid to use array.push(...elements) since it may lead to
24 // "RangeError: Maximum call stack size exceeded" for a long arrays
25 const initialLength = array.length;
26 array.length += elements.length;
27
28 for (let i = 0; i < elements.length; i++) {
29 array[initialLength + i] = elements[i];
30 }
31}
32
33module.exports = function(chunkEmitter) {
34 let parser = new ChunkParser();
35
36 if (isObject(chunkEmitter) && isReadableStream(chunkEmitter)) {
37 return new Promise((resolve, reject) => {
38 chunkEmitter
39 .on('data', chunk => {
40 try {
41 parser.push(chunk);
42 } catch (e) {
43 reject(adjustPosition(e, parser));
44 parser = null;
45 }
46 })
47 .on('error', (e) => {
48 parser = null;
49 reject(e);
50 })
51 .on('end', () => {
52 try {
53 resolve(parser.finish());
54 } catch (e) {
55 reject(adjustPosition(e, parser));
56 } finally {
57 parser = null;
58 }
59 });
60 });
61 }
62
63 if (typeof chunkEmitter === 'function') {
64 const iterator = chunkEmitter();
65
66 if (isObject(iterator) && (Symbol.iterator in iterator || Symbol.asyncIterator in iterator)) {
67 return new Promise(async (resolve, reject) => {
68 try {
69 for await (const chunk of iterator) {
70 parser.push(chunk);
71 }
72
73 resolve(parser.finish());
74 } catch (e) {
75 reject(adjustPosition(e, parser));
76 } finally {
77 parser = null;
78 }
79 });
80 }
81 }
82
83 throw new Error(
84 'Chunk emitter should be readable stream, generator, ' +
85 'async generator or function returning an iterable object'
86 );
87};
88
89class ChunkParser {
90 constructor() {
91 this.value = undefined;
92 this.valueStack = null;
93
94 this.stack = new Array(100);
95 this.lastFlushDepth = 0;
96 this.flushDepth = 0;
97 this.stateString = false;
98 this.stateStringEscape = false;
99 this.pendingByteSeq = null;
100 this.pendingChunk = null;
101 this.chunkOffset = 0;
102 this.jsonParseOffset = 0;
103 }
104
105 parseAndAppend(fragment, wrap) {
106 // Append new entries or elements
107 if (this.stack[this.lastFlushDepth - 1] === STACK_OBJECT) {
108 if (wrap) {
109 this.jsonParseOffset--;
110 fragment = '{' + fragment + '}';
111 }
112
113 Object.assign(this.valueStack.value, JSON.parse(fragment));
114 } else {
115 if (wrap) {
116 this.jsonParseOffset--;
117 fragment = '[' + fragment + ']';
118 }
119
120 append(this.valueStack.value, JSON.parse(fragment));
121 }
122 }
123
124 prepareAddition(fragment) {
125 const { value } = this.valueStack;
126 const expectComma = Array.isArray(value)
127 ? value.length !== 0
128 : Object.keys(value).length !== 0;
129
130 if (expectComma) {
131 // Skip a comma at the beginning of fragment, otherwise it would
132 // fail to parse
133 if (fragment[0] === ',') {
134 this.jsonParseOffset++;
135 return fragment.slice(1);
136 }
137
138 // When value (an object or array) is not empty and a fragment
139 // doesn't start with a comma, a single valid fragment starting
140 // is a closing bracket. If it's not, a prefix is adding to fail
141 // parsing. Otherwise, the sequence of chunks can be successfully
142 // parsed, although it should not, e.g. ["[{}", "{}]"]
143 if (fragment[0] !== '}' && fragment[0] !== ']') {
144 this.jsonParseOffset -= 3;
145 return '[[]' + fragment;
146 }
147 }
148
149 return fragment;
150 }
151
152 flush(chunk, start, end) {
153 let fragment = chunk.slice(start, end);
154
155 // Save position correction an error in JSON.parse() if any
156 this.jsonParseOffset = this.chunkOffset + start;
157
158 // Prepend pending chunk if any
159 if (this.pendingChunk !== null) {
160 fragment = this.pendingChunk + fragment;
161 this.jsonParseOffset -= this.pendingChunk.length;
162 this.pendingChunk = null;
163 }
164
165 if (this.flushDepth === this.lastFlushDepth) {
166 // Depth didn't changed, so it's a root value or entry/element set
167 if (this.flushDepth > 0) {
168 this.parseAndAppend(this.prepareAddition(fragment), true);
169 } else {
170 // That's an entire value on a top level
171 this.value = JSON.parse(fragment);
172 this.valueStack = {
173 value: this.value,
174 prev: null
175 };
176 }
177 } else if (this.flushDepth > this.lastFlushDepth) {
178 // Add missed closing brackets/parentheses
179 for (let i = this.flushDepth - 1; i >= this.lastFlushDepth; i--) {
180 fragment += this.stack[i] === STACK_OBJECT ? '}' : ']';
181 }
182
183 if (this.lastFlushDepth === 0) {
184 // That's a root value
185 this.value = JSON.parse(fragment);
186 this.valueStack = {
187 value: this.value,
188 prev: null
189 };
190 } else {
191 this.parseAndAppend(this.prepareAddition(fragment), true);
192 }
193
194 // Move down to the depths to the last object/array, which is current now
195 for (let i = this.lastFlushDepth || 1; i < this.flushDepth; i++) {
196 let value = this.valueStack.value;
197
198 if (this.stack[i - 1] === STACK_OBJECT) {
199 // find last entry
200 let key;
201 // eslint-disable-next-line curly
202 for (key in value);
203 value = value[key];
204 } else {
205 // last element
206 value = value[value.length - 1];
207 }
208
209 this.valueStack = {
210 value,
211 prev: this.valueStack
212 };
213 }
214 } else /* this.flushDepth < this.lastFlushDepth */ {
215 fragment = this.prepareAddition(fragment);
216
217 // Add missed opening brackets/parentheses
218 for (let i = this.lastFlushDepth - 1; i >= this.flushDepth; i--) {
219 this.jsonParseOffset--;
220 fragment = (this.stack[i] === STACK_OBJECT ? '{' : '[') + fragment;
221 }
222
223 this.parseAndAppend(fragment, false);
224
225 for (let i = this.lastFlushDepth - 1; i >= this.flushDepth; i--) {
226 this.valueStack = this.valueStack.prev;
227 }
228 }
229
230 this.lastFlushDepth = this.flushDepth;
231 }
232
233 push(chunk) {
234 if (typeof chunk !== 'string') {
235 // Suppose chunk is Buffer or Uint8Array
236
237 // Prepend uncompleted byte sequence if any
238 if (this.pendingByteSeq !== null) {
239 const origRawChunk = chunk;
240 chunk = new Uint8Array(this.pendingByteSeq.length + origRawChunk.length);
241 chunk.set(this.pendingByteSeq);
242 chunk.set(origRawChunk, this.pendingByteSeq.length);
243 this.pendingByteSeq = null;
244 }
245
246 // In case Buffer/Uint8Array, an input is encoded in UTF8
247 // Seek for parts of uncompleted UTF8 symbol on the ending
248 // This makes sense only if we expect more chunks and last char is not multi-bytes
249 if (chunk[chunk.length - 1] > 127) {
250 for (let seqLength = 0; seqLength < chunk.length; seqLength++) {
251 const byte = chunk[chunk.length - 1 - seqLength];
252
253 // 10xxxxxx - 2nd, 3rd or 4th byte
254 // 110xxxxx – first byte of 2-byte sequence
255 // 1110xxxx - first byte of 3-byte sequence
256 // 11110xxx - first byte of 4-byte sequence
257 if (byte >> 6 === 3) {
258 seqLength++;
259
260 // If the sequence is really incomplete, then preserve it
261 // for the future chunk and cut off it from the current chunk
262 if ((seqLength !== 4 && byte >> 3 === 0b11110) ||
263 (seqLength !== 3 && byte >> 4 === 0b1110) ||
264 (seqLength !== 2 && byte >> 5 === 0b110)) {
265 this.pendingByteSeq = chunk.slice(chunk.length - seqLength);
266 chunk = chunk.slice(0, -seqLength);
267 }
268
269 break;
270 }
271 }
272 }
273
274 // Convert chunk to a string, since single decode per chunk
275 // is much effective than decode multiple small substrings
276 chunk = decoder.decode(chunk);
277 }
278
279 const chunkLength = chunk.length;
280 let lastFlushPoint = 0;
281 let flushPoint = 0;
282
283 // Main scan loop
284 scan: for (let i = 0; i < chunkLength; i++) {
285 if (this.stateString) {
286 for (; i < chunkLength; i++) {
287 if (this.stateStringEscape) {
288 this.stateStringEscape = false;
289 } else {
290 switch (chunk.charCodeAt(i)) {
291 case 0x22: /* " */
292 this.stateString = false;
293 continue scan;
294
295 case 0x5C: /* \ */
296 this.stateStringEscape = true;
297 }
298 }
299 }
300
301 break;
302 }
303
304 switch (chunk.charCodeAt(i)) {
305 case 0x22: /* " */
306 this.stateString = true;
307 this.stateStringEscape = false;
308 break;
309
310 case 0x2C: /* , */
311 flushPoint = i;
312 break;
313
314 case 0x7B: /* { */
315 // Open an object
316 flushPoint = i + 1;
317 this.stack[this.flushDepth++] = STACK_OBJECT;
318 break;
319
320 case 0x5B: /* [ */
321 // Open an array
322 flushPoint = i + 1;
323 this.stack[this.flushDepth++] = STACK_ARRAY;
324 break;
325
326 case 0x5D: /* ] */
327 case 0x7D: /* } */
328 // Close an object or array
329 flushPoint = i + 1;
330 this.flushDepth--;
331
332 if (this.flushDepth < this.lastFlushDepth) {
333 this.flush(chunk, lastFlushPoint, flushPoint);
334 lastFlushPoint = flushPoint;
335 }
336
337 break;
338
339 case 0x09: /* \t */
340 case 0x0A: /* \n */
341 case 0x0D: /* \r */
342 case 0x20: /* space */
343 // Move points forward when they points on current position and it's a whitespace
344 if (lastFlushPoint === i) {
345 lastFlushPoint++;
346 }
347
348 if (flushPoint === i) {
349 flushPoint++;
350 }
351
352 break;
353 }
354 }
355
356 if (flushPoint > lastFlushPoint) {
357 this.flush(chunk, lastFlushPoint, flushPoint);
358 }
359
360 // Produce pendingChunk if something left
361 if (flushPoint < chunkLength) {
362 if (this.pendingChunk !== null) {
363 // When there is already a pending chunk then no flush happened,
364 // appending entire chunk to pending one
365 this.pendingChunk += chunk;
366 } else {
367 // Create a pending chunk, it will start with non-whitespace since
368 // flushPoint was moved forward away from whitespaces on scan
369 this.pendingChunk = chunk.slice(flushPoint, chunkLength);
370 }
371 }
372
373 this.chunkOffset += chunkLength;
374 }
375
376 finish() {
377 if (this.pendingChunk !== null) {
378 this.flush('', 0, 0);
379 this.pendingChunk = null;
380 }
381
382 return this.value;
383 }
384};
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