gowebbuild/vendor/github.com/evanw/esbuild/internal/runtime/runtime.go

// This is esbuild's runtime code. It contains helper functions that are
// automatically injected into output files to implement certain features. For
// example, the "**" operator is replaced with a call to "__pow" when targeting
// ES2015. Tree shaking automatically removes unused code from the runtime.

package runtime

import (
	"github.com/evanw/esbuild/internal/compat"
	"github.com/evanw/esbuild/internal/logger"
)

// The runtime source is always at a special index. The index is always zero
// but this constant is always used instead to improve readability and ensure
// all code that references this index can be discovered easily.
const SourceIndex = uint32(0)

func CanUseES6(unsupportedFeatures compat.JSFeature) bool {
	return !unsupportedFeatures.Has(compat.Let) && !unsupportedFeatures.Has(compat.ForOf)
}

func code(isES6 bool) string {
	// Note: These helper functions used to be named similar things to the helper
	// functions from the TypeScript compiler. However, people sometimes use these
	// two projects in combination and TypeScript's implementation of these helpers
	// causes name collisions. Some examples:
	//
	// * The "tslib" library will overwrite esbuild's helper functions if the bundled
	//   code is run in the global scope: https://github.com/evanw/esbuild/issues/1102
	//
	// * Running the TypeScript compiler on esbuild's output to convert ES6 to ES5
	//   will also overwrite esbuild's helper functions because TypeScript doesn't
	//   change the names of its helper functions to avoid name collisions:
	//   https://github.com/microsoft/TypeScript/issues/43296
	//
	// These can both be considered bugs in TypeScript. However, they are unlikely
	// to be fixed and it's simplest to just avoid using the same names to avoid
	// these bugs. Forbidden names (from "tslib"):
	//
	//   __assign
	//   __asyncDelegator
	//   __asyncGenerator
	//   __asyncValues
	//   __await
	//   __awaiter
	//   __classPrivateFieldGet
	//   __classPrivateFieldSet
	//   __createBinding
	//   __decorate
	//   __exportStar
	//   __extends
	//   __generator
	//   __importDefault
	//   __importStar
	//   __makeTemplateObject
	//   __metadata
	//   __param
	//   __read
	//   __rest
	//   __spread
	//   __spreadArray
	//   __spreadArrays
	//   __values
	//
	// Note: The "__objRest" function has a for-of loop which requires ES6, but
	// transforming destructuring to ES5 isn't even supported so it's ok.
	text := `
		var __create = Object.create
		var __freeze = Object.freeze
		var __defProp = Object.defineProperty
		var __defProps = Object.defineProperties
		var __getOwnPropDesc = Object.getOwnPropertyDescriptor // Note: can return "undefined" due to a Safari bug
		var __getOwnPropDescs = Object.getOwnPropertyDescriptors
		var __getOwnPropNames = Object.getOwnPropertyNames
		var __getOwnPropSymbols = Object.getOwnPropertySymbols
		var __getProtoOf = Object.getPrototypeOf
		var __hasOwnProp = Object.prototype.hasOwnProperty
		var __propIsEnum = Object.prototype.propertyIsEnumerable
		var __reflectGet = Reflect.get
		var __reflectSet = Reflect.set

		export var __pow = Math.pow

		var __defNormalProp = (obj, key, value) => key in obj
			? __defProp(obj, key, {enumerable: true, configurable: true, writable: true, value})
			: obj[key] = value

		export var __spreadValues = (a, b) => {
			for (var prop in b ||= {})
				if (__hasOwnProp.call(b, prop))
					__defNormalProp(a, prop, b[prop])
			if (__getOwnPropSymbols)
		`

	// Avoid "of" when not using ES6
	if isES6 {
		text += `
				for (var prop of __getOwnPropSymbols(b)) {
		`
	} else {
		text += `
				for (var props = __getOwnPropSymbols(b), i = 0, n = props.length, prop; i < n; i++) {
					prop = props[i]
		`
	}

	text += `
					if (__propIsEnum.call(b, prop))
						__defNormalProp(a, prop, b[prop])
				}
			return a
		}
		export var __spreadProps = (a, b) => __defProps(a, __getOwnPropDescs(b))

		// Tells importing modules that this can be considered an ES module
		var __markAsModule = target => __defProp(target, '__esModule', { value: true })

		// Update the "name" property on the function or class for "--keep-names"
		export var __name = (target, value) => __defProp(target, 'name', { value, configurable: true })

		// This fallback "require" function exists so that "typeof require" can
		// naturally be "function" even in non-CommonJS environments since esbuild
		// emulates a CommonJS environment (issue #1202). However, people want this
		// shim to fall back to "globalThis.require" even if it's defined later
		// (including property accesses such as "require.resolve") so we need to
		// use a proxy (issue #1614).
		export var __require =
			/* @__PURE__ */ (x =>
				typeof require !== 'undefined' ? require :
				typeof Proxy !== 'undefined' ? new Proxy(x, {
					get: (a, b) => (typeof require !== 'undefined' ? require : a)[b]
				}) : x
			)(function(x) {
				if (typeof require !== 'undefined') return require.apply(this, arguments)
				throw new Error('Dynamic require of "' + x + '" is not supported')
			})

		// For object rest patterns
		export var __restKey = key => typeof key === 'symbol' ? key : key + ''
		export var __objRest = (source, exclude) => {
			var target = {}
			for (var prop in source)
				if (__hasOwnProp.call(source, prop) && exclude.indexOf(prop) < 0)
					target[prop] = source[prop]
			if (source != null && __getOwnPropSymbols)
	`

	// Avoid "of" when not using ES6
	if isES6 {
		text += `
				for (var prop of __getOwnPropSymbols(source)) {
		`
	} else {
		text += `
				for (var props = __getOwnPropSymbols(source), i = 0, n = props.length, prop; i < n; i++) {
					prop = props[i]
		`
	}

	text += `
					if (exclude.indexOf(prop) < 0 && __propIsEnum.call(source, prop))
						target[prop] = source[prop]
				}
			return target
		}

		// This is for lazily-initialized ESM code. This has two implementations, a
		// compact one for minified code and a verbose one that generates friendly
		// names in V8's profiler and in stack traces.
		export var __esm = (fn, res) => function __init() {
			return fn && (res = (0, fn[__getOwnPropNames(fn)[0]])(fn = 0)), res
		}
		export var __esmMin = (fn, res) => () => (fn && (res = fn(fn = 0)), res)

		// Wraps a CommonJS closure and returns a require() function. This has two
		// implementations, a compact one for minified code and a verbose one that
		// generates friendly names in V8's profiler and in stack traces.
		export var __commonJS = (cb, mod) => function __require() {
			return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = {exports: {}}).exports, mod), mod.exports
		}
		export var __commonJSMin = (cb, mod) => () => (mod || cb((mod = {exports: {}}).exports, mod), mod.exports)

		// Used to implement ESM exports both for "require()" and "import * as"
		export var __export = (target, all) => {
			for (var name in all)
				__defProp(target, name, { get: all[name], enumerable: true })
		}
		export var __reExport = (target, module, copyDefault, desc) => {
			if (module && typeof module === 'object' || typeof module === 'function')
	`

	// Avoid "let" when not using ES6
	if isES6 {
		text += `
				for (let key of __getOwnPropNames(module))
					if (!__hasOwnProp.call(target, key) && (copyDefault || key !== 'default'))
						__defProp(target, key, { get: () => module[key], enumerable: !(desc = __getOwnPropDesc(module, key)) || desc.enumerable })
		`
	} else {
		text += `
				for (var keys = __getOwnPropNames(module), i = 0, n = keys.length, key; i < n; i++) {
					key = keys[i]
					if (!__hasOwnProp.call(target, key) && (copyDefault || key !== 'default'))
						__defProp(target, key, { get: (k => module[k]).bind(null, key), enumerable: !(desc = __getOwnPropDesc(module, key)) || desc.enumerable })
				}
		`
	}

	text += `
			return target
		}

		// Converts the module from CommonJS to ESM
		export var __toESM = (module, isNodeMode) => {
			return __reExport(__markAsModule(
				__defProp(
					module != null ? __create(__getProtoOf(module)) : {},
					'default',

					// If the importer is not in node compatibility mode and this is an ESM
					// file that has been converted to a CommonJS file using a Babel-
					// compatible transform (i.e. "__esModule" has been set), then forward
					// "default" to the export named "default". Otherwise set "default" to
					// "module.exports" for node compatibility.
					!isNodeMode && module && module.__esModule
						? { get: () => module.default, enumerable: true }
						: { value: module, enumerable: true })
			), module)
		}

		// Converts the module from ESM to CommonJS
		export var __toCommonJS = /* @__PURE__ */ (cache => {
			return (module, temp) => {
				return (cache && cache.get(module)) || (
					temp = __reExport(__markAsModule({}), module, /* copyDefault */ 1),
					cache && cache.set(module, temp),
					temp)
			}
		})(typeof WeakMap !== 'undefined' ? new WeakMap : 0)

		// For TypeScript decorators
		// - kind === undefined: class
		// - kind === 1: method, parameter
		// - kind === 2: field
		export var __decorateClass = (decorators, target, key, kind) => {
			var result = kind > 1 ? void 0 : kind ? __getOwnPropDesc(target, key) : target
			for (var i = decorators.length - 1, decorator; i >= 0; i--)
				if (decorator = decorators[i])
					result = (kind ? decorator(target, key, result) : decorator(result)) || result
			if (kind && result)
				__defProp(target, key, result)
			return result
		}
		export var __decorateParam = (index, decorator) => (target, key) => decorator(target, key, index)

		// For class members
		export var __publicField = (obj, key, value) => {
			__defNormalProp(obj, typeof key !== 'symbol' ? key + '' : key, value)
			return value
		}
		var __accessCheck = (obj, member, msg) => {
			if (!member.has(obj)) throw TypeError('Cannot ' + msg)
		}
		export var __privateIn = (member, obj) => {
			if (Object(obj) !== obj) throw TypeError('Cannot use the "in" operator on this value')
			return member.has(obj)
		}
		export var __privateGet = (obj, member, getter) => {
			__accessCheck(obj, member, 'read from private field')
			return getter ? getter.call(obj) : member.get(obj)
		}
		export var __privateAdd = (obj, member, value) => {
			if (member.has(obj)) throw TypeError('Cannot add the same private member more than once')
			member instanceof WeakSet ? member.add(obj) : member.set(obj, value)
		}
		export var __privateSet = (obj, member, value, setter) => {
			__accessCheck(obj, member, 'write to private field')
			setter ? setter.call(obj, value) : member.set(obj, value)
			return value
		}
		export var __privateWrapper = (obj, member, setter, getter) => {
			return {
				set _(value) { __privateSet(obj, member, value, setter) },
				get _() { return __privateGet(obj, member, getter) },
			}
		}
		export var __privateMethod = (obj, member, method) => {
			__accessCheck(obj, member, 'access private method')
			return method
		}

		// For "super" property accesses
		export var __superStaticGet = (obj, member) => __reflectGet(__getProtoOf(obj), member, obj)
		export var __superStaticSet = (obj, member, value) => (__reflectSet(__getProtoOf(obj), member, value, obj), value)
		export var __superWrapper = (getter, setter, member) => {
			return {
				set _(value) { setter(member, value) },
				get _() { return getter(member) },
			}
		}
		export var __superStaticWrapper = (obj, member) => {
			return {
				set _(value) { __superStaticSet(obj, member, value) },
				get _() { return __superStaticGet(obj, member) },
			}
		}

		// For lowering tagged template literals
		export var __template = (cooked, raw) => __freeze(__defProp(cooked, 'raw', { value: __freeze(raw || cooked.slice()) }))

		// This helps for lowering async functions
		export var __async = (__this, __arguments, generator) => {
			return new Promise((resolve, reject) => {
				var fulfilled = value => {
					try {
						step(generator.next(value))
					} catch (e) {
						reject(e)
					}
				}
				var rejected = value => {
					try {
						step(generator.throw(value))
					} catch (e) {
						reject(e)
					}
				}
				var step = x => x.done ? resolve(x.value) : Promise.resolve(x.value).then(fulfilled, rejected)
				step((generator = generator.apply(__this, __arguments)).next())
			})
		}

		// This is for the "binary" loader (custom code is ~2x faster than "atob")
		export var __toBinaryNode = base64 => new Uint8Array(Buffer.from(base64, 'base64'))
		export var __toBinary = /* @__PURE__ */ (() => {
			var table = new Uint8Array(128)
			for (var i = 0; i < 64; i++) table[i < 26 ? i + 65 : i < 52 ? i + 71 : i < 62 ? i - 4 : i * 4 - 205] = i
			return base64 => {
				var n = base64.length, bytes = new Uint8Array((n - (base64[n - 1] == '=') - (base64[n - 2] == '=')) * 3 / 4 | 0)
				for (var i = 0, j = 0; i < n;) {
					var c0 = table[base64.charCodeAt(i++)], c1 = table[base64.charCodeAt(i++)]
					var c2 = table[base64.charCodeAt(i++)], c3 = table[base64.charCodeAt(i++)]
					bytes[j++] = (c0 << 2) | (c1 >> 4)
					bytes[j++] = (c1 << 4) | (c2 >> 2)
					bytes[j++] = (c2 << 6) | c3
				}
				return bytes
			}
		})()
	`

	return text
}

var ES6Source = logger.Source{
	Index:          SourceIndex,
	KeyPath:        logger.Path{Text: "<runtime>"},
	PrettyPath:     "<runtime>",
	IdentifierName: "runtime",
	Contents:       code(true /* isES6 */),
}

var ES5Source = logger.Source{
	Index:          SourceIndex,
	KeyPath:        logger.Path{Text: "<runtime>"},
	PrettyPath:     "<runtime>",
	IdentifierName: "runtime",
	Contents:       code(false /* isES6 */),
}

// The TypeScript decorator transform behaves similar to the official
// TypeScript compiler.
//
// One difference is that the "__decorateClass" function doesn't contain a reference
// to the non-existent "Reflect.decorate" function. This function was never
// standardized and checking for it is wasted code (as well as a potentially
// dangerous cause of unintentional behavior changes in the future).
//
// Another difference is that the "__decorateClass" function doesn't take in an
// optional property descriptor like it does in the official TypeScript
// compiler's support code. This appears to be a dead code path in the official
// support code that is only there for legacy reasons.
//
// Here are some examples of how esbuild's decorator transform works:
//
// ============================= Class decorator ==============================
//
//   // TypeScript                      // JavaScript
//   @dec                               let C = class {
//   class C {                          };
//   }                                  C = __decorateClass([
//                                        dec
//                                      ], C);
//
// ============================ Method decorator ==============================
//
//   // TypeScript                      // JavaScript
//   class C {                          class C {
//     @dec                               foo() {}
//     foo() {}                         }
//   }                                  __decorateClass([
//                                        dec
//                                      ], C.prototype, 'foo', 1);
//
// =========================== Parameter decorator ============================
//
//   // TypeScript                      // JavaScript
//   class C {                          class C {
//     foo(@dec bar) {}                   foo(bar) {}
//   }                                  }
//                                      __decorateClass([
//                                        __decorateParam(0, dec)
//                                      ], C.prototype, 'foo', 1);
//
// ============================= Field decorator ==============================
//
//   // TypeScript                      // JavaScript
//   class C {                          class C {
//     @dec                               constructor() {
//     foo = 123                            this.foo = 123
//   }                                    }
//                                      }
//                                      __decorateClass([
//                                        dec
//                                      ], C.prototype, 'foo', 2);