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denoland-deno/ext/url/01_urlpattern.js
Bartek Iwańczuk 462ce14a78
refactor: migrate extensions to virtual ops module (#22135)
First pass of migrating away from `Deno.core.ensureFastOps()`.

A few "tricky" ones have been left for a follow up.
2024-01-26 23:46:46 +01:00

378 lines
11 KiB
JavaScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// @ts-check
/// <reference path="../../core/internal.d.ts" />
/// <reference path="../../core/lib.deno_core.d.ts" />
/// <reference path="../webidl/internal.d.ts" />
/// <reference path="./internal.d.ts" />
/// <reference path="./lib.deno_url.d.ts" />
import { primordials } from "ext:core/mod.js";
import {
op_urlpattern_parse,
op_urlpattern_process_match_input,
} from "ext:core/ops";
const {
ArrayPrototypePush,
MathRandom,
ObjectAssign,
ObjectCreate,
ObjectPrototypeIsPrototypeOf,
RegExpPrototypeExec,
RegExpPrototypeTest,
SafeMap,
SafeRegExp,
Symbol,
SymbolFor,
TypeError,
} = primordials;
import * as webidl from "ext:deno_webidl/00_webidl.js";
import { createFilteredInspectProxy } from "ext:deno_console/01_console.js";
const _components = Symbol("components");
/**
* @typedef Components
* @property {Component} protocol
* @property {Component} username
* @property {Component} password
* @property {Component} hostname
* @property {Component} port
* @property {Component} pathname
* @property {Component} search
* @property {Component} hash
*/
const COMPONENTS_KEYS = [
"protocol",
"username",
"password",
"hostname",
"port",
"pathname",
"search",
"hash",
];
/**
* @typedef Component
* @property {string} patternString
* @property {RegExp} regexp
* @property {string[]} groupNameList
*/
/**
* This implements a least-recently-used cache that has a pseudo-"young
* generation" by using sampling. The idea is that we want to keep the most
* recently used items in the cache, but we don't want to pay the cost of
* updating the cache on every access. This relies on the fact that the data
* we're caching is not uniformly distributed, and that the most recently used
* items are more likely to be used again soon (long tail distribution).
*
* The LRU cache is implemented as a Map, with the key being the cache key and
* the value being the cache value. When an item is accessed, it is moved to the
* end of the Map. When an item is inserted, if the Map is at capacity, the
* first item in the Map is deleted. Because maps iterate using insertion order,
* this means that the oldest item is always the first.
*
* The sampling is implemented by using a random number generator to decide
* whether to update the cache on each access. This means that the cache will
* not be updated on every access, but will be updated on a random subset of
* accesses.
*
* @template K
* @template V
*/
class SampledLRUCache {
/** @type {SafeMap<K, V>} */
#map = new SafeMap();
#capacity = 0;
#sampleRate = 0.1;
/** @type {K} */
#lastUsedKey = undefined;
/** @type {V} */
#lastUsedValue = undefined;
/** @param {number} capacity */
constructor(capacity) {
this.#capacity = capacity;
}
/**
* @param {K} key
* @param {(key: K) => V} factory
* @return {V}
*/
getOrInsert(key, factory) {
if (this.#lastUsedKey === key) return this.#lastUsedValue;
const value = this.#map.get(key);
if (value !== undefined) {
if (MathRandom() < this.#sampleRate) {
// put the item into the map
this.#map.delete(key);
this.#map.set(key, value);
}
this.#lastUsedKey = key;
this.#lastUsedValue = value;
return value;
} else {
// value doesn't exist yet, create
const value = factory(key);
if (MathRandom() < this.#sampleRate) {
// if the map is at capacity, delete the oldest (first) element
if (this.#map.size > this.#capacity) {
// deno-lint-ignore prefer-primordials
this.#map.delete(this.#map.keys().next().value);
}
// insert the new value
this.#map.set(key, value);
}
this.#lastUsedKey = key;
this.#lastUsedValue = value;
return value;
}
}
}
const matchInputCache = new SampledLRUCache(4096);
class URLPattern {
/** @type {Components} */
[_components];
#reusedResult;
/**
* @param {URLPatternInput} input
* @param {string} [baseURL]
*/
constructor(input, baseURL = undefined) {
this[webidl.brand] = webidl.brand;
const prefix = "Failed to construct 'URLPattern'";
webidl.requiredArguments(arguments.length, 1, prefix);
input = webidl.converters.URLPatternInput(input, prefix, "Argument 1");
if (baseURL !== undefined) {
baseURL = webidl.converters.USVString(baseURL, prefix, "Argument 2");
}
const components = op_urlpattern_parse(input, baseURL);
for (let i = 0; i < COMPONENTS_KEYS.length; ++i) {
const key = COMPONENTS_KEYS[i];
try {
components[key].regexp = new SafeRegExp(
components[key].regexpString,
"u",
);
} catch (e) {
throw new TypeError(`${prefix}: ${key} is invalid; ${e.message}`);
}
}
this[_components] = components;
}
get protocol() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].protocol.patternString;
}
get username() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].username.patternString;
}
get password() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].password.patternString;
}
get hostname() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].hostname.patternString;
}
get port() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].port.patternString;
}
get pathname() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].pathname.patternString;
}
get search() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].search.patternString;
}
get hash() {
webidl.assertBranded(this, URLPatternPrototype);
return this[_components].hash.patternString;
}
/**
* @param {URLPatternInput} input
* @param {string} [baseURL]
* @returns {boolean}
*/
test(input, baseURL = undefined) {
webidl.assertBranded(this, URLPatternPrototype);
const prefix = "Failed to execute 'test' on 'URLPattern'";
webidl.requiredArguments(arguments.length, 1, prefix);
input = webidl.converters.URLPatternInput(input, prefix, "Argument 1");
if (baseURL !== undefined) {
baseURL = webidl.converters.USVString(baseURL, prefix, "Argument 2");
}
const res = baseURL === undefined
? matchInputCache.getOrInsert(
input,
op_urlpattern_process_match_input,
)
: op_urlpattern_process_match_input(input, baseURL);
if (res === null) return false;
const values = res[0];
for (let i = 0; i < COMPONENTS_KEYS.length; ++i) {
const key = COMPONENTS_KEYS[i];
const component = this[_components][key];
switch (component.regexpString) {
case "^$":
if (values[key] !== "") return false;
break;
case "^(.*)$":
break;
default: {
if (!RegExpPrototypeTest(component.regexp, values[key])) return false;
}
}
}
return true;
}
/**
* @param {URLPatternInput} input
* @param {string} [baseURL]
* @returns {URLPatternResult | null}
*/
exec(input, baseURL = undefined) {
webidl.assertBranded(this, URLPatternPrototype);
const prefix = "Failed to execute 'exec' on 'URLPattern'";
webidl.requiredArguments(arguments.length, 1, prefix);
input = webidl.converters.URLPatternInput(input, prefix, "Argument 1");
if (baseURL !== undefined) {
baseURL = webidl.converters.USVString(baseURL, prefix, "Argument 2");
}
const res = baseURL === undefined
? matchInputCache.getOrInsert(
input,
op_urlpattern_process_match_input,
)
: op_urlpattern_process_match_input(input, baseURL);
if (res === null) {
return null;
}
const { 0: values, 1: inputs } = res; /** @type {URLPatternResult} */
// globalThis.allocAttempt++;
this.#reusedResult ??= { inputs: [undefined] };
const result = this.#reusedResult;
// We don't construct the `inputs` until after the matching is done under
// the assumption that most patterns do not match.
const components = this[_components];
for (let i = 0; i < COMPONENTS_KEYS.length; ++i) {
const key = COMPONENTS_KEYS[i];
/** @type {Component} */
const component = components[key];
const res = result[key] ??= {
input: values[key],
groups: component.regexpString === "^(.*)$" ? { "0": values[key] } : {},
};
switch (component.regexpString) {
case "^$":
if (values[key] !== "") return null;
break;
case "^(.*)$":
res.groups["0"] = values[key];
break;
default: {
const match = RegExpPrototypeExec(component.regexp, values[key]);
if (match === null) return null;
const groupList = component.groupNameList;
const groups = res.groups;
for (let i = 0; i < groupList.length; ++i) {
// TODO(lucacasonato): this is vulnerable to override mistake
groups[groupList[i]] = match[i + 1] ?? "";
}
break;
}
}
res.input = values[key];
}
// Now populate result.inputs
result.inputs[0] = typeof inputs[0] === "string"
? inputs[0]
: ObjectAssign(ObjectCreate(null), inputs[0]);
if (inputs[1] !== null) ArrayPrototypePush(result.inputs, inputs[1]);
this.#reusedResult = undefined;
return result;
}
[SymbolFor("Deno.privateCustomInspect")](inspect, inspectOptions) {
return inspect(
createFilteredInspectProxy({
object: this,
evaluate: ObjectPrototypeIsPrototypeOf(URLPatternPrototype, this),
keys: [
"protocol",
"username",
"password",
"hostname",
"port",
"pathname",
"search",
"hash",
],
}),
inspectOptions,
);
}
}
webidl.configureInterface(URLPattern);
const URLPatternPrototype = URLPattern.prototype;
webidl.converters.URLPatternInit = webidl
.createDictionaryConverter("URLPatternInit", [
{ key: "protocol", converter: webidl.converters.USVString },
{ key: "username", converter: webidl.converters.USVString },
{ key: "password", converter: webidl.converters.USVString },
{ key: "hostname", converter: webidl.converters.USVString },
{ key: "port", converter: webidl.converters.USVString },
{ key: "pathname", converter: webidl.converters.USVString },
{ key: "search", converter: webidl.converters.USVString },
{ key: "hash", converter: webidl.converters.USVString },
{ key: "baseURL", converter: webidl.converters.USVString },
]);
webidl.converters["URLPatternInput"] = (V, prefix, context, opts) => {
// Union for (URLPatternInit or USVString)
if (typeof V == "object") {
return webidl.converters.URLPatternInit(V, prefix, context, opts);
}
return webidl.converters.USVString(V, prefix, context, opts);
};
export { URLPattern };