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rspade_system/node_modules/webpack/lib/optimize/AggressiveSplittingPlugin.js
root f6ac36c632 Enhance refactor commands with controller-aware Route() updates and fix code quality violations 
Add semantic token highlighting for 'that' variable and comment file references in VS Code extension
Add Phone_Text_Input and Currency_Input components with formatting utilities
Implement client widgets, form standardization, and soft delete functionality
Add modal scroll lock and update documentation
Implement comprehensive modal system with form integration and validation
Fix modal component instantiation using jQuery plugin API
Implement modal system with responsive sizing, queuing, and validation support
Implement form submission with validation, error handling, and loading states
Implement country/state selectors with dynamic data loading and Bootstrap styling
Revert Rsx::Route() highlighting in Blade/PHP files
Target specific PHP scopes for Rsx::Route() highlighting in Blade
Expand injection selector for Rsx::Route() highlighting
Add custom syntax highlighting for Rsx::Route() and Rsx.Route() calls
Update jqhtml packages to v2.2.165
Add bundle path validation for common mistakes (development mode only)
Create Ajax_Select_Input widget and Rsx_Reference_Data controller
Create Country_Select_Input widget with default country support
Initialize Tom Select on Select_Input widgets
Add Tom Select bundle for enhanced select dropdowns
Implement ISO 3166 geographic data system for country/region selection
Implement widget-based form system with disabled state support

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
2025-10-30 06:21:56 +00:00

344 lines
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/*
MIT License http://www.opensource.org/licenses/mit-license.php
Author Tobias Koppers @sokra
*/
"use strict";
const { STAGE_ADVANCED } = require("../OptimizationStages");
const { intersect } = require("../util/SetHelpers");
const {
compareChunks,
compareModulesByIdentifier
} = require("../util/comparators");
const createSchemaValidation = require("../util/create-schema-validation");
const identifierUtils = require("../util/identifier");
/** @typedef {import("../../declarations/plugins/optimize/AggressiveSplittingPlugin").AggressiveSplittingPluginOptions} AggressiveSplittingPluginOptions */
/** @typedef {import("../Chunk")} Chunk */
/** @typedef {import("../Chunk").ChunkId} ChunkId */
/** @typedef {import("../ChunkGraph")} ChunkGraph */
/** @typedef {import("../Compiler")} Compiler */
/** @typedef {import("../Module")} Module */
const validate = createSchemaValidation(
require("../../schemas/plugins/optimize/AggressiveSplittingPlugin.check"),
() =>
require("../../schemas/plugins/optimize/AggressiveSplittingPlugin.json"),
{
name: "Aggressive Splitting Plugin",
baseDataPath: "options"
}
);
/**
* @param {ChunkGraph} chunkGraph the chunk graph
* @param {Chunk} oldChunk the old chunk
* @param {Chunk} newChunk the new chunk
* @returns {(module: Module) => void} function to move module between chunks
*/
const moveModuleBetween = (chunkGraph, oldChunk, newChunk) => (module) => {
chunkGraph.disconnectChunkAndModule(oldChunk, module);
chunkGraph.connectChunkAndModule(newChunk, module);
};
/**
* @param {ChunkGraph} chunkGraph the chunk graph
* @param {Chunk} chunk the chunk
* @returns {(module: Module) => boolean} filter for entry module
*/
const isNotAEntryModule = (chunkGraph, chunk) => (module) =>
!chunkGraph.isEntryModuleInChunk(module, chunk);
/** @typedef {{ id?: NonNullable<Chunk["id"]>, hash?: NonNullable<Chunk["hash"]>, modules: Module[], size: number }} SplitData */
/** @type {WeakSet<Chunk>} */
const recordedChunks = new WeakSet();
const PLUGIN_NAME = "AggressiveSplittingPlugin";
class AggressiveSplittingPlugin {
/**
* @param {AggressiveSplittingPluginOptions=} options options object
*/
constructor(options = {}) {
validate(options);
this.options = options;
if (typeof this.options.minSize !== "number") {
this.options.minSize = 30 * 1024;
}
if (typeof this.options.maxSize !== "number") {
this.options.maxSize = 50 * 1024;
}
if (typeof this.options.chunkOverhead !== "number") {
this.options.chunkOverhead = 0;
}
if (typeof this.options.entryChunkMultiplicator !== "number") {
this.options.entryChunkMultiplicator = 1;
}
}
/**
* @param {Chunk} chunk the chunk to test
* @returns {boolean} true if the chunk was recorded
*/
static wasChunkRecorded(chunk) {
return recordedChunks.has(chunk);
}
/**
* Apply the plugin
* @param {Compiler} compiler the compiler instance
* @returns {void}
*/
apply(compiler) {
compiler.hooks.thisCompilation.tap(PLUGIN_NAME, (compilation) => {
let needAdditionalSeal = false;
/** @type {SplitData[]} */
let newSplits;
/** @type {Set<Chunk>} */
let fromAggressiveSplittingSet;
/** @type {Map<Chunk, SplitData>} */
let chunkSplitDataMap;
compilation.hooks.optimize.tap(PLUGIN_NAME, () => {
newSplits = [];
fromAggressiveSplittingSet = new Set();
chunkSplitDataMap = new Map();
});
compilation.hooks.optimizeChunks.tap(
{
name: PLUGIN_NAME,
stage: STAGE_ADVANCED
},
(chunks) => {
const chunkGraph = compilation.chunkGraph;
// Precompute stuff
const nameToModuleMap = new Map();
const moduleToNameMap = new Map();
const makePathsRelative =
identifierUtils.makePathsRelative.bindContextCache(
compiler.context,
compiler.root
);
for (const m of compilation.modules) {
const name = makePathsRelative(m.identifier());
nameToModuleMap.set(name, m);
moduleToNameMap.set(m, name);
}
// Check used chunk ids
/** @typedef {Set<ChunkId>} */
const usedIds = new Set();
for (const chunk of chunks) {
usedIds.add(chunk.id);
}
const recordedSplits =
(compilation.records && compilation.records.aggressiveSplits) || [];
const usedSplits = newSplits
? [...recordedSplits, ...newSplits]
: recordedSplits;
const minSize = /** @type {number} */ (this.options.minSize);
const maxSize = /** @type {number} */ (this.options.maxSize);
/**
* @param {SplitData} splitData split data
* @returns {boolean} true when applied, otherwise false
*/
const applySplit = (splitData) => {
// Cannot split if id is already taken
if (splitData.id !== undefined && usedIds.has(splitData.id)) {
return false;
}
// Get module objects from names
const selectedModules = splitData.modules.map((name) =>
nameToModuleMap.get(name)
);
// Does the modules exist at all?
if (!selectedModules.every(Boolean)) return false;
// Check if size matches (faster than waiting for hash)
let size = 0;
for (const m of selectedModules) size += m.size();
if (size !== splitData.size) return false;
// get chunks with all modules
const selectedChunks = intersect(
selectedModules.map(
(m) => new Set(chunkGraph.getModuleChunksIterable(m))
)
);
// No relevant chunks found
if (selectedChunks.size === 0) return false;
// The found chunk is already the split or similar
if (
selectedChunks.size === 1 &&
chunkGraph.getNumberOfChunkModules([...selectedChunks][0]) ===
selectedModules.length
) {
const chunk = [...selectedChunks][0];
if (fromAggressiveSplittingSet.has(chunk)) return false;
fromAggressiveSplittingSet.add(chunk);
chunkSplitDataMap.set(chunk, splitData);
return true;
}
// split the chunk into two parts
const newChunk = compilation.addChunk();
newChunk.chunkReason = "aggressive splitted";
for (const chunk of selectedChunks) {
for (const module of selectedModules) {
moveModuleBetween(chunkGraph, chunk, newChunk)(module);
}
chunk.split(newChunk);
chunk.name = null;
}
fromAggressiveSplittingSet.add(newChunk);
chunkSplitDataMap.set(newChunk, splitData);
if (splitData.id !== null && splitData.id !== undefined) {
newChunk.id = splitData.id;
newChunk.ids = [splitData.id];
}
return true;
};
// try to restore to recorded splitting
let changed = false;
for (let j = 0; j < usedSplits.length; j++) {
const splitData = usedSplits[j];
if (applySplit(splitData)) changed = true;
}
// for any chunk which isn't splitted yet, split it and create a new entry
// start with the biggest chunk
const cmpFn = compareChunks(chunkGraph);
const sortedChunks = [...chunks].sort((a, b) => {
const diff1 =
chunkGraph.getChunkModulesSize(b) -
chunkGraph.getChunkModulesSize(a);
if (diff1) return diff1;
const diff2 =
chunkGraph.getNumberOfChunkModules(a) -
chunkGraph.getNumberOfChunkModules(b);
if (diff2) return diff2;
return cmpFn(a, b);
});
for (const chunk of sortedChunks) {
if (fromAggressiveSplittingSet.has(chunk)) continue;
const size = chunkGraph.getChunkModulesSize(chunk);
if (
size > maxSize &&
chunkGraph.getNumberOfChunkModules(chunk) > 1
) {
const modules = chunkGraph
.getOrderedChunkModules(chunk, compareModulesByIdentifier)
.filter(isNotAEntryModule(chunkGraph, chunk));
const selectedModules = [];
let selectedModulesSize = 0;
for (let k = 0; k < modules.length; k++) {
const module = modules[k];
const newSize = selectedModulesSize + module.size();
if (newSize > maxSize && selectedModulesSize >= minSize) {
break;
}
selectedModulesSize = newSize;
selectedModules.push(module);
}
if (selectedModules.length === 0) continue;
/** @type {SplitData} */
const splitData = {
modules: selectedModules
.map((m) => moduleToNameMap.get(m))
.sort(),
size: selectedModulesSize
};
if (applySplit(splitData)) {
newSplits = [...(newSplits || []), splitData];
changed = true;
}
}
}
if (changed) return true;
}
);
compilation.hooks.recordHash.tap(PLUGIN_NAME, (records) => {
// 4. save made splittings to records
const allSplits = new Set();
/** @type {Set<SplitData>} */
const invalidSplits = new Set();
// Check if some splittings are invalid
// We remove invalid splittings and try again
for (const chunk of compilation.chunks) {
const splitData = chunkSplitDataMap.get(chunk);
if (
splitData !== undefined &&
splitData.hash &&
chunk.hash !== splitData.hash
) {
// Split was successful, but hash doesn't equal
// We can throw away the split since it's useless now
invalidSplits.add(splitData);
}
}
if (invalidSplits.size > 0) {
records.aggressiveSplits =
/** @type {SplitData[]} */
(records.aggressiveSplits).filter(
(splitData) => !invalidSplits.has(splitData)
);
needAdditionalSeal = true;
} else {
// set hash and id values on all (new) splittings
for (const chunk of compilation.chunks) {
const splitData = chunkSplitDataMap.get(chunk);
if (splitData !== undefined) {
splitData.hash =
/** @type {NonNullable<Chunk["hash"]>} */
(chunk.hash);
splitData.id =
/** @type {NonNullable<Chunk["id"]>} */
(chunk.id);
allSplits.add(splitData);
// set flag for stats
recordedChunks.add(chunk);
}
}
// Also add all unused historical splits (after the used ones)
// They can still be used in some future compilation
const recordedSplits =
compilation.records && compilation.records.aggressiveSplits;
if (recordedSplits) {
for (const splitData of recordedSplits) {
if (!invalidSplits.has(splitData)) allSplits.add(splitData);
}
}
// record all splits
records.aggressiveSplits = [...allSplits];
needAdditionalSeal = false;
}
});
compilation.hooks.needAdditionalSeal.tap(PLUGIN_NAME, () => {
if (needAdditionalSeal) {
needAdditionalSeal = false;
return true;
}
});
});
}
}
module.exports = AggressiveSplittingPlugin;
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