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Packs ECMAScript/CommonJs/AMD modules for the browser. Allows you to split your codebase into multiple bundles, which can be loaded on demand. Supports loaders to preprocess files, i.e. json, jsx, es7, css, less, ... and your custom stuff.

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/*
	MIT License http://www.opensource.org/licenses/mit-license.php
	Author Tobias Koppers @sokra
*/

"use strict";

const { RawSource } = require("webpack-sources");
const Generator = require("../Generator");
const WebAssemblyUtils = require("./WebAssemblyUtils");

const t = require("@webassemblyjs/ast");
const { moduleContextFromModuleAST } = require("@webassemblyjs/ast");
const { editWithAST, addWithAST } = require("@webassemblyjs/wasm-edit");
const { decode } = require("@webassemblyjs/wasm-parser");

const WebAssemblyExportImportedDependency = require("../dependencies/WebAssemblyExportImportedDependency");

/** @typedef {import("webpack-sources").Source} Source */
/** @typedef {import("../DependencyTemplates")} DependencyTemplates */
/** @typedef {import("../Generator").GenerateContext} GenerateContext */
/** @typedef {import("../Module")} Module */
/** @typedef {import("../ModuleGraph")} ModuleGraph */
/** @typedef {import("../NormalModule")} NormalModule */
/** @typedef {import("../RuntimeTemplate")} RuntimeTemplate */
/** @typedef {import("../util/runtime").RuntimeSpec} RuntimeSpec */
/** @typedef {import("./WebAssemblyUtils").UsedWasmDependency} UsedWasmDependency */
/** @typedef {import("@webassemblyjs/ast").Instruction} Instruction */
/** @typedef {import("@webassemblyjs/ast").ModuleImport} ModuleImport */
/** @typedef {import("@webassemblyjs/ast").ModuleExport} ModuleExport */
/** @typedef {import("@webassemblyjs/ast").Global} Global */
/**
 * @template T
 * @typedef {import("@webassemblyjs/ast").NodePath} NodePath
 */

/**
 * @typedef {(buf: ArrayBuffer) => ArrayBuffer} ArrayBufferTransform
 */

/**
 * @template T
 * @param {((prev: ArrayBuffer) => ArrayBuffer)[]} fns transforms
 * @returns {Function} composed transform
 */
const compose = (...fns) => {
	return fns.reduce(
		(prevFn, nextFn) => {
			return value => nextFn(prevFn(value));
		},
		value => value
	);
};

/**
 * Removes the start instruction
 *
 * @param {object} state state
 * @param {object} state.ast Module's ast
 * @returns {ArrayBufferTransform} transform
 */
const removeStartFunc = state => bin => {
	return editWithAST(state.ast, bin, {
		Start(path) {
			path.remove();
		}
	});
};

/**
 * Get imported globals
 *
 * @param {object} ast Module's AST
 * @returns {t.ModuleImport[]} - nodes
 */
const getImportedGlobals = ast => {
	/** @type {t.ModuleImport[]} */
	const importedGlobals = [];

	t.traverse(ast, {
		ModuleImport({ node }) {
			if (t.isGlobalType(node.descr)) {
				importedGlobals.push(node);
			}
		}
	});

	return importedGlobals;
};

/**
 * Get the count for imported func
 *
 * @param {object} ast Module's AST
 * @returns {number} - count
 */
const getCountImportedFunc = ast => {
	let count = 0;

	t.traverse(ast, {
		ModuleImport({ node }) {
			if (t.isFuncImportDescr(node.descr)) {
				count++;
			}
		}
	});

	return count;
};

/**
 * Get next type index
 *
 * @param {object} ast Module's AST
 * @returns {t.Index} - index
 */
const getNextTypeIndex = ast => {
	const typeSectionMetadata = t.getSectionMetadata(ast, "type");

	if (typeSectionMetadata === undefined) {
		return t.indexLiteral(0);
	}

	return t.indexLiteral(typeSectionMetadata.vectorOfSize.value);
};

/**
 * Get next func index
 *
 * The Func section metadata provide information for implemented funcs
 * in order to have the correct index we shift the index by number of external
 * functions.
 *
 * @param {object} ast Module's AST
 * @param {number} countImportedFunc number of imported funcs
 * @returns {t.Index} - index
 */
const getNextFuncIndex = (ast, countImportedFunc) => {
	const funcSectionMetadata = t.getSectionMetadata(ast, "func");

	if (funcSectionMetadata === undefined) {
		return t.indexLiteral(0 + countImportedFunc);
	}

	const vectorOfSize = funcSectionMetadata.vectorOfSize.value;

	return t.indexLiteral(vectorOfSize + countImportedFunc);
};

/**
 * Creates an init instruction for a global type
 * @param {t.GlobalType} globalType the global type
 * @returns {t.Instruction} init expression
 */
const createDefaultInitForGlobal = globalType => {
	if (globalType.valtype[0] === "i") {
		// create NumberLiteral global initializer
		return t.objectInstruction("const", globalType.valtype, [
			t.numberLiteralFromRaw(66)
		]);
	} else if (globalType.valtype[0] === "f") {
		// create FloatLiteral global initializer
		return t.objectInstruction("const", globalType.valtype, [
			t.floatLiteral(66, false, false, "66")
		]);
	} else {
		throw new Error("unknown type: " + globalType.valtype);
	}
};

/**
 * Rewrite the import globals:
 * - removes the ModuleImport instruction
 * - injects at the same offset a mutable global of the same type
 *
 * Since the imported globals are before the other global declarations, our
 * indices will be preserved.
 *
 * Note that globals will become mutable.
 *
 * @param {object} state transformation state
 * @param {object} state.ast Module's ast
 * @param {t.Instruction[]} state.additionalInitCode list of addition instructions for the init function
 * @returns {ArrayBufferTransform} transform
 */
const rewriteImportedGlobals = state => bin => {
	const additionalInitCode = state.additionalInitCode;
	/** @type {Array} */
	const newGlobals = [];

	bin = editWithAST(state.ast, bin, {
		ModuleImport(path) {
			if (t.isGlobalType(path.node.descr)) {
				const globalType = /** @type {TODO} */ (path.node.descr);

				globalType.mutability = "var";

				const init = [
					createDefaultInitForGlobal(globalType),
					t.instruction("end")
				];

				newGlobals.push(t.global(globalType, init));

				path.remove();
			}
		},

		// in order to preserve non-imported global's order we need to re-inject
		// those as well
		/**
		 * @param {NodePath} path path
		 */
		Global(path) {
			const { node } = path;
			const [init] = node.init;

			if (init.id === "get_global") {
				node.globalType.mutability = "var";

				const initialGlobalIdx = init.args[0];

				node.init = [
					createDefaultInitForGlobal(node.globalType),
					t.instruction("end")
				];

				additionalInitCode.push(
					/**
					 * get_global in global initializer only works for imported globals.
					 * They have the same indices as the init params, so use the
					 * same index.
					 */
					t.instruction("get_local", [initialGlobalIdx]),
					t.instruction("set_global", [t.indexLiteral(newGlobals.length)])
				);
			}

			newGlobals.push(node);

			path.remove();
		}
	});

	// Add global declaration instructions
	return addWithAST(state.ast, bin, newGlobals);
};

/**
 * Rewrite the export names
 * @param {object} state state
 * @param {object} state.ast Module's ast
 * @param {Module} state.module Module
 * @param {ModuleGraph} state.moduleGraph module graph
 * @param {Set} state.externalExports Module
 * @param {RuntimeSpec} state.runtime runtime
 * @returns {ArrayBufferTransform} transform
 */
const rewriteExportNames =
	({ ast, moduleGraph, module, externalExports, runtime }) =>
	bin => {
		return editWithAST(ast, bin, {
			/**
			 * @param {NodePath} path path
			 */
			ModuleExport(path) {
				const isExternal = externalExports.has(path.node.name);
				if (isExternal) {
					path.remove();
					return;
				}
				const usedName = moduleGraph
					.getExportsInfo(module)
					.getUsedName(path.node.name, runtime);
				if (!usedName) {
					path.remove();
					return;
				}
				path.node.name = /** @type {string} */ (usedName);
			}
		});
	};

/**
 * Mangle import names and modules
 * @param {object} state state
 * @param {object} state.ast Module's ast
 * @param {Map} state.usedDependencyMap mappings to mangle names
 * @returns {ArrayBufferTransform} transform
 */
const rewriteImports =
	({ ast, usedDependencyMap }) =>
	bin => {
		return editWithAST(ast, bin, {
			/**
			 * @param {NodePath} path path
			 */
			ModuleImport(path) {
				const result = usedDependencyMap.get(
					path.node.module + ":" + path.node.name
				);

				if (result !== undefined) {
					path.node.module = result.module;
					path.node.name = result.name;
				}
			}
		});
	};

/**
 * Add an init function.
 *
 * The init function fills the globals given input arguments.
 *
 * @param {object} state transformation state
 * @param {object} state.ast Module's ast
 * @param {t.Identifier} state.initFuncId identifier of the init function
 * @param {t.Index} state.startAtFuncOffset index of the start function
 * @param {t.ModuleImport[]} state.importedGlobals list of imported globals
 * @param {t.Instruction[]} state.additionalInitCode list of addition instructions for the init function
 * @param {t.Index} state.nextFuncIndex index of the next function
 * @param {t.Index} state.nextTypeIndex index of the next type
 * @returns {ArrayBufferTransform} transform
 */
const addInitFunction =
	({
		ast,
		initFuncId,
		startAtFuncOffset,
		importedGlobals,
		additionalInitCode,
		nextFuncIndex,
		nextTypeIndex
	}) =>
	bin => {
		const funcParams = importedGlobals.map(importedGlobal => {
			// used for debugging
			const id = t.identifier(
				`${importedGlobal.module}.${importedGlobal.name}`
			);

			return t.funcParam(
				/** @type {string} */ (importedGlobal.descr.valtype),
				id
			);
		});

		/** @type {Instruction[]} */
		const funcBody = [];
		importedGlobals.forEach((importedGlobal, index) => {
			const args = [t.indexLiteral(index)];
			const body = [
				t.instruction("get_local", args),
				t.instruction("set_global", args)
			];

			funcBody.push(...body);
		});

		if (typeof startAtFuncOffset === "number") {
			funcBody.push(
				t.callInstruction(t.numberLiteralFromRaw(startAtFuncOffset))
			);
		}

		for (const instr of additionalInitCode) {
			funcBody.push(instr);
		}

		funcBody.push(t.instruction("end"));

		/** @type {string[]} */
		const funcResults = [];

		// Code section
		const funcSignature = t.signature(funcParams, funcResults);
		const func = t.func(initFuncId, funcSignature, funcBody);

		// Type section
		const functype = t.typeInstruction(undefined, funcSignature);

		// Func section
		const funcindex = t.indexInFuncSection(nextTypeIndex);

		// Export section
		const moduleExport = t.moduleExport(
			initFuncId.value,
			t.moduleExportDescr("Func", nextFuncIndex)
		);

		return addWithAST(ast, bin, [func, moduleExport, funcindex, functype]);
	};

/**
 * Extract mangle mappings from module
 * @param {ModuleGraph} moduleGraph module graph
 * @param {Module} module current module
 * @param {boolean | undefined} mangle mangle imports
 * @returns {Map} mappings to mangled names
 */
const getUsedDependencyMap = (moduleGraph, module, mangle) => {
	/** @type {Map} */
	const map = new Map();
	for (const usedDep of WebAssemblyUtils.getUsedDependencies(
		moduleGraph,
		module,
		mangle
	)) {
		const dep = usedDep.dependency;
		const request = dep.request;
		const exportName = dep.name;
		map.set(request + ":" + exportName, usedDep);
	}
	return map;
};

const TYPES = new Set(["webassembly"]);

/**
 * @typedef {object} WebAssemblyGeneratorOptions
 * @property {boolean} [mangleImports] mangle imports
 */

class WebAssemblyGenerator extends Generator {
	/**
	 * @param {WebAssemblyGeneratorOptions} options options
	 */
	constructor(options) {
		super();
		this.options = options;
	}

	/**
	 * @param {NormalModule} module fresh module
	 * @returns {Set} available types (do not mutate)
	 */
	getTypes(module) {
		return TYPES;
	}

	/**
	 * @param {NormalModule} module the module
	 * @param {string=} type source type
	 * @returns {number} estimate size of the module
	 */
	getSize(module, type) {
		const originalSource = module.originalSource();
		if (!originalSource) {
			return 0;
		}
		return originalSource.size();
	}

	/**
	 * @param {NormalModule} module module for which the code should be generated
	 * @param {GenerateContext} generateContext context for generate
	 * @returns {Source} generated code
	 */
	generate(module, { moduleGraph, runtime }) {
		const bin = /** @type {Source} */ (module.originalSource()).source();

		const initFuncId = t.identifier("");

		// parse it
		const ast = decode(bin, {
			ignoreDataSection: true,
			ignoreCodeSection: true,
			ignoreCustomNameSection: true
		});

		const moduleContext = moduleContextFromModuleAST(ast.body[0]);

		const importedGlobals = getImportedGlobals(ast);
		const countImportedFunc = getCountImportedFunc(ast);
		const startAtFuncOffset = moduleContext.getStart();
		const nextFuncIndex = getNextFuncIndex(ast, countImportedFunc);
		const nextTypeIndex = getNextTypeIndex(ast);

		const usedDependencyMap = getUsedDependencyMap(
			moduleGraph,
			module,
			this.options.mangleImports
		);
		const externalExports = new Set(
			module.dependencies
				.filter(d => d instanceof WebAssemblyExportImportedDependency)
				.map(d => {
					const wasmDep = /** @type {WebAssemblyExportImportedDependency} */ (
						d
					);
					return wasmDep.exportName;
				})
		);

		/** @type {t.Instruction[]} */
		const additionalInitCode = [];

		const transform = compose(
			rewriteExportNames({
				ast,
				moduleGraph,
				module,
				externalExports,
				runtime
			}),

			removeStartFunc({ ast }),

			rewriteImportedGlobals({ ast, additionalInitCode }),

			rewriteImports({
				ast,
				usedDependencyMap
			}),

			addInitFunction({
				ast,
				initFuncId,
				importedGlobals,
				additionalInitCode,
				startAtFuncOffset,
				nextFuncIndex,
				nextTypeIndex
			})
		);

		const newBin = transform(bin);

		const newBuf = Buffer.from(newBin);

		return new RawSource(newBuf);
	}
}

module.exports = WebAssemblyGenerator;




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