brianhansonxyz/rspade_system
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
9be3dfc14eabf8911eac28a4f4e30c75020e555c
rspade_system/node_modules/webpack/lib/dependencies/AMDDefineDependencyParserPlugin.js
root 9ebcc359ae Fix code quality violations and enhance ROUTE-EXISTS-01 rule 
Implement JQHTML function cache ID system and fix bundle compilation
Implement underscore prefix for system tables
Fix JS syntax linter to support decorators and grant exception to Task system
SPA: Update planning docs and wishlists with remaining features
SPA: Document Navigation API abandonment and future enhancements
Implement SPA browser integration with History API (Phase 1)
Convert contacts view page to SPA action
Convert clients pages to SPA actions and document conversion procedure
SPA: Merge GET parameters and update documentation
Implement SPA route URL generation in JavaScript and PHP
Implement SPA bootstrap controller architecture
Add SPA routing manual page (rsx:man spa)
Add SPA routing documentation to CLAUDE.md
Phase 4 Complete: Client-side SPA routing implementation
Update get_routes() consumers for unified route structure
Complete SPA Phase 3: PHP-side route type detection and is_spa flag
Restore unified routes structure and Manifest_Query class
Refactor route indexing and add SPA infrastructure
Phase 3 Complete: SPA route registration in manifest
Implement SPA Phase 2: Extract router code and test decorators
Rename Jqhtml_Component to Component and complete SPA foundation setup

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

Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-19 17:48:15 +00:00

499 lines
15 KiB
JavaScript
Raw Blame History

/*
MIT License http://www.opensource.org/licenses/mit-license.php
Author Tobias Koppers @sokra
*/
"use strict";
const RuntimeGlobals = require("../RuntimeGlobals");
const AMDDefineDependency = require("./AMDDefineDependency");
const AMDRequireArrayDependency = require("./AMDRequireArrayDependency");
const AMDRequireContextDependency = require("./AMDRequireContextDependency");
const AMDRequireItemDependency = require("./AMDRequireItemDependency");
const ConstDependency = require("./ConstDependency");
const ContextDependencyHelpers = require("./ContextDependencyHelpers");
const DynamicExports = require("./DynamicExports");
const LocalModuleDependency = require("./LocalModuleDependency");
const { addLocalModule, getLocalModule } = require("./LocalModulesHelpers");
/** @typedef {import("estree").ArrowFunctionExpression} ArrowFunctionExpression */
/** @typedef {import("estree").CallExpression} CallExpression */
/** @typedef {import("estree").Expression} Expression */
/** @typedef {import("estree").FunctionExpression} FunctionExpression */
/** @typedef {import("estree").Identifier} Identifier */
/** @typedef {import("estree").Literal} Literal */
/** @typedef {import("estree").MemberExpression} MemberExpression */
/** @typedef {import("estree").ObjectExpression} ObjectExpression */
/** @typedef {import("estree").SpreadElement} SpreadElement */
/** @typedef {import("../../declarations/WebpackOptions").JavascriptParserOptions} JavascriptParserOptions */
/** @typedef {import("../Dependency").DependencyLocation} DependencyLocation */
/** @typedef {import("../javascript/BasicEvaluatedExpression")} BasicEvaluatedExpression */
/** @typedef {import("../javascript/JavascriptParser")} JavascriptParser */
/** @typedef {import("../javascript/JavascriptParser").ExportedVariableInfo} ExportedVariableInfo */
/** @typedef {import("../javascript/JavascriptParser").Range} Range */
/**
* @param {Expression | SpreadElement} expr expression
* @returns {expr is CallExpression} true if it's a bound function expression
*/
const isBoundFunctionExpression = (expr) => {
if (expr.type !== "CallExpression") return false;
if (expr.callee.type !== "MemberExpression") return false;
if (expr.callee.computed) return false;
if (expr.callee.object.type !== "FunctionExpression") return false;
if (expr.callee.property.type !== "Identifier") return false;
if (expr.callee.property.name !== "bind") return false;
return true;
};
/** @typedef {FunctionExpression | ArrowFunctionExpression} UnboundFunctionExpression */
/**
* @param {Expression | SpreadElement} expr expression
* @returns {expr is FunctionExpression | ArrowFunctionExpression} true when unbound function expression
*/
const isUnboundFunctionExpression = (expr) => {
if (expr.type === "FunctionExpression") return true;
if (expr.type === "ArrowFunctionExpression") return true;
return false;
};
/**
* @param {Expression | SpreadElement} expr expression
* @returns {expr is FunctionExpression | ArrowFunctionExpression | CallExpression} true when callable
*/
const isCallable = (expr) => {
if (isUnboundFunctionExpression(expr)) return true;
if (isBoundFunctionExpression(expr)) return true;
return false;
};
/** @typedef {Record<number, string>} Identifiers */
const PLUGIN_NAME = "AMDDefineDependencyParserPlugin";
class AMDDefineDependencyParserPlugin {
/**
* @param {JavascriptParserOptions} options parserOptions
*/
constructor(options) {
this.options = options;
}
/**
* @param {JavascriptParser} parser the parser
* @returns {void}
*/
apply(parser) {
parser.hooks.call
.for("define")
.tap(PLUGIN_NAME, this.processCallDefine.bind(this, parser));
}
/**
* @param {JavascriptParser} parser the parser
* @param {CallExpression} expr call expression
* @param {BasicEvaluatedExpression} param param
* @param {Identifiers} identifiers identifiers
* @param {string=} namedModule named module
* @returns {boolean | undefined} result
*/
processArray(parser, expr, param, identifiers, namedModule) {
if (param.isArray()) {
const items = /** @type {BasicEvaluatedExpression[]} */ (param.items);
for (const [idx, item] of items.entries()) {
if (
item.isString() &&
["require", "module", "exports"].includes(
/** @type {string} */ (item.string)
)
) {
identifiers[idx] =
/** @type {string} */
(item.string);
}
const result = this.processItem(parser, expr, item, namedModule);
if (result === undefined) {
this.processContext(parser, expr, item);
}
}
return true;
} else if (param.isConstArray()) {
/** @type {(string | LocalModuleDependency | AMDRequireItemDependency)[]} */
const deps = [];
const array = /** @type {string[]} */ (param.array);
for (const [idx, request] of array.entries()) {
let dep;
let localModule;
if (request === "require") {
identifiers[idx] = request;
dep = RuntimeGlobals.require;
} else if (["exports", "module"].includes(request)) {
identifiers[idx] = request;
dep = request;
} else if ((localModule = getLocalModule(parser.state, request))) {
localModule.flagUsed();
dep = new LocalModuleDependency(localModule, undefined, false);
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
parser.state.module.addPresentationalDependency(dep);
} else {
dep = this.newRequireItemDependency(request);
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
dep.optional = Boolean(parser.scope.inTry);
parser.state.current.addDependency(dep);
}
deps.push(dep);
}
const dep = this.newRequireArrayDependency(
deps,
/** @type {Range} */ (param.range)
);
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
dep.optional = Boolean(parser.scope.inTry);
parser.state.module.addPresentationalDependency(dep);
return true;
}
}
/**
* @param {JavascriptParser} parser the parser
* @param {CallExpression} expr call expression
* @param {BasicEvaluatedExpression} param param
* @param {string=} namedModule named module
* @returns {boolean | undefined} result
*/
processItem(parser, expr, param, namedModule) {
if (param.isConditional()) {
const options = /** @type {BasicEvaluatedExpression[]} */ (param.options);
for (const item of options) {
const result = this.processItem(parser, expr, item);
if (result === undefined) {
this.processContext(parser, expr, item);
}
}
return true;
} else if (param.isString()) {
let dep;
let localModule;
if (param.string === "require") {
dep = new ConstDependency(
RuntimeGlobals.require,
/** @type {Range} */ (param.range),
[RuntimeGlobals.require]
);
} else if (param.string === "exports") {
dep = new ConstDependency(
"exports",
/** @type {Range} */ (param.range),
[RuntimeGlobals.exports]
);
} else if (param.string === "module") {
dep = new ConstDependency(
"module",
/** @type {Range} */ (param.range),
[RuntimeGlobals.module]
);
} else if (
(localModule = getLocalModule(
parser.state,
/** @type {string} */ (param.string),
namedModule
))
) {
localModule.flagUsed();
dep = new LocalModuleDependency(localModule, param.range, false);
} else {
dep = this.newRequireItemDependency(
/** @type {string} */ (param.string),
param.range
);
dep.optional = Boolean(parser.scope.inTry);
parser.state.current.addDependency(dep);
return true;
}
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
parser.state.module.addPresentationalDependency(dep);
return true;
}
}
/**
* @param {JavascriptParser} parser the parser
* @param {CallExpression} expr call expression
* @param {BasicEvaluatedExpression} param param
* @returns {boolean | undefined} result
*/
processContext(parser, expr, param) {
const dep = ContextDependencyHelpers.create(
AMDRequireContextDependency,
/** @type {Range} */ (param.range),
param,
expr,
this.options,
{
category: "amd"
},
parser
);
if (!dep) return;
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
dep.optional = Boolean(parser.scope.inTry);
parser.state.current.addDependency(dep);
return true;
}
/**
* @param {JavascriptParser} parser the parser
* @param {CallExpression} expr call expression
* @returns {boolean | undefined} result
*/
processCallDefine(parser, expr) {
/** @type {Expression | SpreadElement | undefined} */
let array;
/** @type {FunctionExpression | ArrowFunctionExpression | CallExpression | Identifier | undefined} */
let fn;
/** @type {ObjectExpression | Identifier | undefined} */
let obj;
/** @type {string | undefined} */
let namedModule;
switch (expr.arguments.length) {
case 1:
if (isCallable(expr.arguments[0])) {
// define(f() {…})
fn = expr.arguments[0];
} else if (expr.arguments[0].type === "ObjectExpression") {
// define({…})
obj = expr.arguments[0];
} else {
// define(expr)
// unclear if function or object
obj = fn = /** @type {Identifier} */ (expr.arguments[0]);
}
break;
case 2:
if (expr.arguments[0].type === "Literal") {
namedModule = /** @type {string} */ (expr.arguments[0].value);
// define("…", …)
if (isCallable(expr.arguments[1])) {
// define("…", f() {…})
fn = expr.arguments[1];
} else if (expr.arguments[1].type === "ObjectExpression") {
// define("…", {…})
obj = expr.arguments[1];
} else {
// define("…", expr)
// unclear if function or object
obj = fn = /** @type {Identifier} */ (expr.arguments[1]);
}
} else {
array = expr.arguments[0];
if (isCallable(expr.arguments[1])) {
// define([…], f() {})
fn = expr.arguments[1];
} else if (expr.arguments[1].type === "ObjectExpression") {
// define([…], {…})
obj = expr.arguments[1];
} else {
// define([…], expr)
// unclear if function or object
obj = fn = /** @type {Identifier} */ (expr.arguments[1]);
}
}
break;
case 3:
// define("…", […], f() {…})
namedModule =
/** @type {string} */
(
/** @type {Literal} */
(expr.arguments[0]).value
);
array = expr.arguments[1];
if (isCallable(expr.arguments[2])) {
// define("…", […], f() {})
fn = expr.arguments[2];
} else if (expr.arguments[2].type === "ObjectExpression") {
// define("…", […], {…})
obj = expr.arguments[2];
} else {
// define("…", […], expr)
// unclear if function or object
obj = fn = /** @type {Identifier} */ (expr.arguments[2]);
}
break;
default:
return;
}
DynamicExports.bailout(parser.state);
/** @type {Identifier[] | null} */
let fnParams = null;
let fnParamsOffset = 0;
if (fn) {
if (isUnboundFunctionExpression(fn)) {
fnParams =
/** @type {Identifier[]} */
(fn.params);
} else if (isBoundFunctionExpression(fn)) {
const object =
/** @type {FunctionExpression} */
(/** @type {MemberExpression} */ (fn.callee).object);
fnParams =
/** @type {Identifier[]} */
(object.params);
fnParamsOffset = fn.arguments.length - 1;
if (fnParamsOffset < 0) {
fnParamsOffset = 0;
}
}
}
/** @type {Map<string, ExportedVariableInfo>} */
const fnRenames = new Map();
if (array) {
/** @type {Identifiers} */
const identifiers = {};
const param = parser.evaluateExpression(array);
const result = this.processArray(
parser,
expr,
param,
identifiers,
namedModule
);
if (!result) return;
if (fnParams) {
fnParams = fnParams.slice(fnParamsOffset).filter((param, idx) => {
if (identifiers[idx]) {
fnRenames.set(param.name, parser.getVariableInfo(identifiers[idx]));
return false;
}
return true;
});
}
} else {
const identifiers = ["require", "exports", "module"];
if (fnParams) {
fnParams = fnParams.slice(fnParamsOffset).filter((param, idx) => {
if (identifiers[idx]) {
fnRenames.set(param.name, parser.getVariableInfo(identifiers[idx]));
return false;
}
return true;
});
}
}
/** @type {boolean | undefined} */
let inTry;
if (fn && isUnboundFunctionExpression(fn)) {
inTry = parser.scope.inTry;
parser.inScope(/** @type {Identifier[]} */ (fnParams), () => {
for (const [name, varInfo] of fnRenames) {
parser.setVariable(name, varInfo);
}
parser.scope.inTry = /** @type {boolean} */ (inTry);
if (fn.body.type === "BlockStatement") {
parser.detectMode(fn.body.body);
const prev = parser.prevStatement;
parser.preWalkStatement(fn.body);
parser.prevStatement = prev;
parser.walkStatement(fn.body);
} else {
parser.walkExpression(fn.body);
}
});
} else if (fn && isBoundFunctionExpression(fn)) {
inTry = parser.scope.inTry;
const object =
/** @type {FunctionExpression} */
(/** @type {MemberExpression} */ (fn.callee).object);
parser.inScope(
/** @type {Identifier[]} */
(object.params).filter(
(i) => !["require", "module", "exports"].includes(i.name)
),
() => {
for (const [name, varInfo] of fnRenames) {
parser.setVariable(name, varInfo);
}
parser.scope.inTry = /** @type {boolean} */ (inTry);
parser.detectMode(object.body.body);
const prev = parser.prevStatement;
parser.preWalkStatement(object.body);
parser.prevStatement = prev;
parser.walkStatement(object.body);
}
);
if (fn.arguments) {
parser.walkExpressions(fn.arguments);
}
} else if (fn || obj) {
parser.walkExpression(
/** @type {FunctionExpression | ArrowFunctionExpression | CallExpression | ObjectExpression | Identifier} */
(fn || obj)
);
}
const dep = this.newDefineDependency(
/** @type {Range} */ (expr.range),
array ? /** @type {Range} */ (array.range) : null,
fn ? /** @type {Range} */ (fn.range) : null,
obj ? /** @type {Range} */ (obj.range) : null,
namedModule || null
);
dep.loc = /** @type {DependencyLocation} */ (expr.loc);
if (namedModule) {
dep.localModule = addLocalModule(parser.state, namedModule);
}
parser.state.module.addPresentationalDependency(dep);
return true;
}
/**
* @param {Range} range range
* @param {Range | null} arrayRange array range
* @param {Range | null} functionRange function range
* @param {Range | null} objectRange object range
* @param {string | null} namedModule true, when define is called with a name
* @returns {AMDDefineDependency} AMDDefineDependency
*/
newDefineDependency(
range,
arrayRange,
functionRange,
objectRange,
namedModule
) {
return new AMDDefineDependency(
range,
arrayRange,
functionRange,
objectRange,
namedModule
);
}
/**
* @param {(string | LocalModuleDependency | AMDRequireItemDependency)[]} depsArray deps array
* @param {Range} range range
* @returns {AMDRequireArrayDependency} AMDRequireArrayDependency
*/
newRequireArrayDependency(depsArray, range) {
return new AMDRequireArrayDependency(depsArray, range);
}
/**
* @param {string} request request
* @param {Range=} range range
* @returns {AMDRequireItemDependency} AMDRequireItemDependency
*/
newRequireItemDependency(request, range) {
return new AMDRequireItemDependency(request, range);
}
}
module.exports = AMDDefineDependencyParserPlugin;
Reference in New Issue View Git Blame Copy Permalink