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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
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"use strict" ;
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( ( window ) => {
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const {
Array ,
ArrayPrototypeFill ,
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ArrayPrototypeMap ,
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ArrayPrototypePush ,
Error ,
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ErrorCaptureStackTrace ,
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MapPrototypeDelete ,
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MapPrototypeGet ,
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MapPrototypeHas ,
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MapPrototypeSet ,
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ObjectAssign ,
ObjectFreeze ,
ObjectFromEntries ,
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ObjectKeys ,
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Promise ,
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PromiseReject ,
PromiseResolve ,
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PromisePrototypeThen ,
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RangeError ,
ReferenceError ,
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ReflectHas ,
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ReflectApply ,
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SafeArrayIterator ,
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SafeMap ,
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SafePromisePrototypeFinally ,
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setQueueMicrotask ,
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StringPrototypeSlice ,
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StringPrototypeSplit ,
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SymbolFor ,
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SyntaxError ,
TypeError ,
URIError ,
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} = window . _ _bootstrap . primordials ;
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const { ops , asyncOps } = window . Deno . core ;
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const build = {
target : "unknown" ,
arch : "unknown" ,
os : "unknown" ,
vendor : "unknown" ,
env : undefined ,
} ;
function setBuildInfo ( target ) {
const { 0 : arch , 1 : vendor , 2 : os , 3 : env } = StringPrototypeSplit (
target ,
"-" ,
4 ,
) ;
build . target = target ;
build . arch = arch ;
build . vendor = vendor ;
build . os = os ;
build . env = env ;
ObjectFreeze ( build ) ;
}
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const errorMap = { } ;
// Builtin v8 / JS errors
registerErrorClass ( "Error" , Error ) ;
registerErrorClass ( "RangeError" , RangeError ) ;
registerErrorClass ( "ReferenceError" , ReferenceError ) ;
registerErrorClass ( "SyntaxError" , SyntaxError ) ;
registerErrorClass ( "TypeError" , TypeError ) ;
registerErrorClass ( "URIError" , URIError ) ;
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let nextPromiseId = 1 ;
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const promiseMap = new SafeMap ( ) ;
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const RING _SIZE = 4 * 1024 ;
const NO _PROMISE = null ; // Alias to null is faster than plain nulls
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const promiseRing = ArrayPrototypeFill ( new Array ( RING _SIZE ) , NO _PROMISE ) ;
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// TODO(bartlomieju): it future use `v8::Private` so it's not visible
// to users. Currently missing bindings.
const promiseIdSymbol = SymbolFor ( "Deno.core.internalPromiseId" ) ;
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let opCallTracingEnabled = false ;
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const opCallTraces = new SafeMap ( ) ;
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function enableOpCallTracing ( ) {
opCallTracingEnabled = true ;
}
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function isOpCallTracingEnabled ( ) {
return opCallTracingEnabled ;
}
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function movePromise ( promiseId ) {
const idx = promiseId % RING _SIZE ;
// Move old promise from ring to map
const oldPromise = promiseRing [ idx ] ;
if ( oldPromise !== NO _PROMISE ) {
const oldPromiseId = promiseId - RING _SIZE ;
MapPrototypeSet ( promiseMap , oldPromiseId , oldPromise ) ;
}
return promiseRing [ idx ] = NO _PROMISE ;
}
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function setPromise ( promiseId ) {
const idx = promiseId % RING _SIZE ;
// Move old promise from ring to map
const oldPromise = promiseRing [ idx ] ;
if ( oldPromise !== NO _PROMISE ) {
const oldPromiseId = promiseId - RING _SIZE ;
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MapPrototypeSet ( promiseMap , oldPromiseId , oldPromise ) ;
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}
// Set new promise
return promiseRing [ idx ] = newPromise ( ) ;
}
function getPromise ( promiseId ) {
// Check if out of ring bounds, fallback to map
const outOfBounds = promiseId < nextPromiseId - RING _SIZE ;
if ( outOfBounds ) {
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const promise = MapPrototypeGet ( promiseMap , promiseId ) ;
MapPrototypeDelete ( promiseMap , promiseId ) ;
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return promise ;
}
// Otherwise take from ring
const idx = promiseId % RING _SIZE ;
const promise = promiseRing [ idx ] ;
promiseRing [ idx ] = NO _PROMISE ;
return promise ;
}
function newPromise ( ) {
let resolve , reject ;
const promise = new Promise ( ( resolve _ , reject _ ) => {
resolve = resolve _ ;
reject = reject _ ;
} ) ;
promise . resolve = resolve ;
promise . reject = reject ;
return promise ;
}
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function hasPromise ( promiseId ) {
// Check if out of ring bounds, fallback to map
const outOfBounds = promiseId < nextPromiseId - RING _SIZE ;
if ( outOfBounds ) {
return MapPrototypeHas ( promiseMap , promiseId ) ;
}
// Otherwise check it in ring
const idx = promiseId % RING _SIZE ;
return promiseRing [ idx ] != NO _PROMISE ;
}
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const macrotaskCallbacks = [ ] ;
const nextTickCallbacks = [ ] ;
function setMacrotaskCallback ( cb ) {
ArrayPrototypePush ( macrotaskCallbacks , cb ) ;
}
function setNextTickCallback ( cb ) {
ArrayPrototypePush ( nextTickCallbacks , cb ) ;
}
// This function has variable number of arguments. The last argument describes
// if there's a "next tick" scheduled by the Node.js compat layer. Arguments
// before last are alternating integers and any values that describe the
// responses of async ops.
function eventLoopTick ( ) {
// First respond to all pending ops.
for ( let i = 0 ; i < arguments . length - 1 ; i += 2 ) {
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const promiseId = arguments [ i ] ;
const res = arguments [ i + 1 ] ;
const promise = getPromise ( promiseId ) ;
promise . resolve ( res ) ;
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}
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// Drain nextTick queue if there's a tick scheduled.
if ( arguments [ arguments . length - 1 ] ) {
for ( let i = 0 ; i < nextTickCallbacks . length ; i ++ ) {
nextTickCallbacks [ i ] ( ) ;
}
} else {
ops . op _run _microtasks ( ) ;
}
// Finally drain macrotask queue.
for ( let i = 0 ; i < macrotaskCallbacks . length ; i ++ ) {
const cb = macrotaskCallbacks [ i ] ;
while ( true ) {
const res = cb ( ) ;
ops . op _run _microtasks ( ) ;
if ( res === true ) {
break ;
}
}
}
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}
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function registerErrorClass ( className , errorClass ) {
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registerErrorBuilder ( className , ( msg ) => new errorClass ( msg ) ) ;
}
function registerErrorBuilder ( className , errorBuilder ) {
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if ( typeof errorMap [ className ] !== "undefined" ) {
throw new TypeError ( ` Error class for " ${ className } " already registered ` ) ;
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}
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errorMap [ className ] = errorBuilder ;
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}
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function buildCustomError ( className , message , code ) {
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let error ;
try {
error = errorMap [ className ] ? . ( message ) ;
} catch ( e ) {
throw new Error (
` Unsable to build custom error for " ${ className } " \n ${ e . message } ` ,
) ;
}
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// Strip buildCustomError() calls from stack trace
if ( typeof error == "object" ) {
ErrorCaptureStackTrace ( error , buildCustomError ) ;
if ( code ) {
error . code = code ;
}
}
return error ;
}
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function unwrapOpError ( hideFunction ) {
return ( res ) => {
// .$err_class_name is a special key that should only exist on errors
const className = res ? . $err _class _name ;
if ( ! className ) {
return res ;
}
const errorBuilder = errorMap [ className ] ;
const err = errorBuilder ? errorBuilder ( res . message ) : new Error (
` Unregistered error class: " ${ className } " \n ${ res . message } \n Classes of errors returned from ops should be registered via Deno.core.registerErrorClass(). ` ,
) ;
// Set .code if error was a known OS error, see error_codes.rs
if ( res . code ) {
err . code = res . code ;
}
// Strip unwrapOpResult() and errorBuilder() calls from stack trace
ErrorCaptureStackTrace ( err , hideFunction ) ;
throw err ;
} ;
}
function unwrapOpResultNewPromise ( id , res , hideFunction ) {
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// .$err_class_name is a special key that should only exist on errors
if ( res ? . $err _class _name ) {
const className = res . $err _class _name ;
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const errorBuilder = errorMap [ className ] ;
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const err = errorBuilder ? errorBuilder ( res . message ) : new Error (
` Unregistered error class: " ${ className } " \n ${ res . message } \n Classes of errors returned from ops should be registered via Deno.core.registerErrorClass(). ` ,
) ;
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// Set .code if error was a known OS error, see error_codes.rs
if ( res . code ) {
err . code = res . code ;
}
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// Strip unwrapOpResult() and errorBuilder() calls from stack trace
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ErrorCaptureStackTrace ( err , hideFunction ) ;
return PromiseReject ( err ) ;
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}
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const promise = PromiseResolve ( res ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
}
/ *
Basic codegen .
TODO ( mmastrac ) : automate this ( handlebars ? )
let s = "" ;
const vars = "abcdefghijklm" ;
for ( let i = 0 ; i < 10 ; i ++ ) {
let args = "" ;
for ( let j = 0 ; j < i ; j ++ ) {
args += ` ${ vars [ j ] } , ` ;
}
s += `
case $ { i } :
fn = function async _op _$ { i } ( $ { args } ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , $ { args } ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _$ { i } ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _$ { i } ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen ( setPromise ( id ) , unwrapOpError ( eventLoopTick ) ) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
` ;
}
* /
// This function is called once per async stub
function asyncStub ( opName , args ) {
setUpAsyncStub ( opName ) ;
return ReflectApply ( ops [ opName ] , undefined , args ) ;
}
function setUpAsyncStub ( opName ) {
const originalOp = asyncOps [ opName ] ;
let fn ;
// The body of this switch statement can be generated using the script above.
switch ( originalOp . length - 1 ) {
case 0 :
fn = function async _op _0 ( ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _0 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _0 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 1 :
fn = function async _op _1 ( a ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _1 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _1 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 2 :
fn = function async _op _2 ( a , b ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _2 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _2 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 3 :
fn = function async _op _3 ( a , b , c ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _3 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _3 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 4 :
fn = function async _op _4 ( a , b , c , d ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _4 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _4 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 5 :
fn = function async _op _5 ( a , b , c , d , e ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d , e ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _5 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _5 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 6 :
fn = function async _op _6 ( a , b , c , d , e , f ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d , e , f ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _6 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _6 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 7 :
fn = function async _op _7 ( a , b , c , d , e , f , g ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d , e , f , g ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _7 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _7 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 8 :
fn = function async _op _8 ( a , b , c , d , e , f , g , h ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d , e , f , g , h ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _8 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _8 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
case 9 :
fn = function async _op _9 ( a , b , c , d , e , f , g , h , i ) {
const id = nextPromiseId ++ ;
try {
const maybeResult = originalOp ( id , a , b , c , d , e , f , g , h , i ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , async _op _9 ) ;
}
} catch ( err ) {
movePromise ( id ) ;
ErrorCaptureStackTrace ( err , async _op _9 ) ;
return PromiseReject ( err ) ;
}
let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
promise = handleOpCallTracing ( opName , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
} ;
break ;
default :
throw new Error (
` Too many arguments for async op codegen (length of ${ opName } was ${
originalOp . length - 1
} ) ` ,
) ;
}
return ( ops [ opName ] = fn ) ;
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}
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function opAsync2 ( name , arg0 , arg1 ) {
const id = nextPromiseId ++ ;
try {
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const maybeResult = asyncOps [ name ] ( id , arg0 , arg1 ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , opAsync2 ) ;
}
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} catch ( err ) {
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movePromise ( id ) ;
if ( ! ReflectHas ( asyncOps , name ) ) {
return PromiseReject ( new TypeError ( ` ${ name } is not a registered op ` ) ) ;
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}
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ErrorCaptureStackTrace ( err , opAsync2 ) ;
return PromiseReject ( err ) ;
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}
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let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
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promise = handleOpCallTracing ( name , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
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}
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function opAsync ( name , ... args ) {
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const id = nextPromiseId ++ ;
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try {
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const maybeResult = asyncOps [ name ] ( id , ... new SafeArrayIterator ( args ) ) ;
if ( maybeResult !== undefined ) {
movePromise ( id ) ;
return unwrapOpResultNewPromise ( id , maybeResult , opAsync ) ;
}
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} catch ( err ) {
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movePromise ( id ) ;
if ( ! ReflectHas ( asyncOps , name ) ) {
return PromiseReject ( new TypeError ( ` ${ name } is not a registered op ` ) ) ;
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}
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ErrorCaptureStackTrace ( err , opAsync ) ;
return PromiseReject ( err ) ;
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}
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let promise = PromisePrototypeThen (
setPromise ( id ) ,
unwrapOpError ( eventLoopTick ) ,
) ;
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promise = handleOpCallTracing ( name , id , promise ) ;
promise [ promiseIdSymbol ] = id ;
return promise ;
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}
function handleOpCallTracing ( opName , promiseId , p ) {
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if ( opCallTracingEnabled ) {
const stack = StringPrototypeSlice ( new Error ( ) . stack , 6 ) ;
MapPrototypeSet ( opCallTraces , promiseId , { opName , stack } ) ;
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return SafePromisePrototypeFinally (
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p ,
( ) => MapPrototypeDelete ( opCallTraces , promiseId ) ,
) ;
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} else {
return p ;
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}
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}
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function refOp ( promiseId ) {
if ( ! hasPromise ( promiseId ) ) {
return ;
}
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ops . op _ref _op ( promiseId ) ;
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}
function unrefOp ( promiseId ) {
if ( ! hasPromise ( promiseId ) ) {
return ;
}
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ops . op _unref _op ( promiseId ) ;
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}
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function resources ( ) {
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return ObjectFromEntries ( ops . op _resources ( ) ) ;
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}
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function metrics ( ) {
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const { 0 : aggregate , 1 : perOps } = ops . op _metrics ( ) ;
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aggregate . ops = ObjectFromEntries ( ArrayPrototypeMap (
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ops . op _op _names ( ) ,
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( opName , opId ) => [ opName , perOps [ opId ] ] ,
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) ) ;
return aggregate ;
}
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let reportExceptionCallback = undefined ;
// Used to report errors thrown from functions passed to `queueMicrotask()`.
// The callback will be passed the thrown error. For example, you can use this
// to dispatch an error event to the global scope.
// In other words, set the implementation for
// https://html.spec.whatwg.org/multipage/webappapis.html#report-the-exception
function setReportExceptionCallback ( cb ) {
if ( typeof cb != "function" ) {
throw new TypeError ( "expected a function" ) ;
}
reportExceptionCallback = cb ;
}
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function queueMicrotask ( cb ) {
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if ( typeof cb != "function" ) {
throw new TypeError ( "expected a function" ) ;
}
return ops . op _queue _microtask ( ( ) => {
try {
cb ( ) ;
} catch ( error ) {
if ( reportExceptionCallback ) {
reportExceptionCallback ( error ) ;
} else {
throw error ;
}
}
} ) ;
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}
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// Some "extensions" rely on "BadResource" and "Interrupted" errors in the
// JS code (eg. "deno_net") so they are provided in "Deno.core" but later
// reexported on "Deno.errors"
class BadResource extends Error {
constructor ( msg ) {
super ( msg ) ;
this . name = "BadResource" ;
}
}
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const BadResourcePrototype = BadResource . prototype ;
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class Interrupted extends Error {
constructor ( msg ) {
super ( msg ) ;
this . name = "Interrupted" ;
}
}
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const InterruptedPrototype = Interrupted . prototype ;
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const promiseHooks = [
[ ] , // init
[ ] , // before
[ ] , // after
[ ] , // resolve
] ;
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function setPromiseHooks ( init , before , after , resolve ) {
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const hooks = [ init , before , after , resolve ] ;
for ( let i = 0 ; i < hooks . length ; i ++ ) {
const hook = hooks [ i ] ;
// Skip if no callback was provided for this hook type.
if ( hook == null ) {
continue ;
}
// Verify that the type of `hook` is a function.
if ( typeof hook !== "function" ) {
throw new TypeError ( ` Expected function at position ${ i } ` ) ;
}
// Add the hook to the list.
ArrayPrototypePush ( promiseHooks [ i ] , hook ) ;
}
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const wrappedHooks = ArrayPrototypeMap ( promiseHooks , ( hooks ) => {
switch ( hooks . length ) {
case 0 :
return undefined ;
case 1 :
return hooks [ 0 ] ;
case 2 :
return create2xHookWrapper ( hooks [ 0 ] , hooks [ 1 ] ) ;
case 3 :
return create3xHookWrapper ( hooks [ 0 ] , hooks [ 1 ] , hooks [ 2 ] ) ;
default :
return createHookListWrapper ( hooks ) ;
}
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// The following functions are used to create wrapper functions that call
// all the hooks in a list of a certain length. The reason to use a
// function that creates a wrapper is to minimize the number of objects
// captured in the closure.
function create2xHookWrapper ( hook1 , hook2 ) {
return function ( promise , parent ) {
hook1 ( promise , parent ) ;
hook2 ( promise , parent ) ;
} ;
}
function create3xHookWrapper ( hook1 , hook2 , hook3 ) {
return function ( promise , parent ) {
hook1 ( promise , parent ) ;
hook2 ( promise , parent ) ;
hook3 ( promise , parent ) ;
} ;
}
function createHookListWrapper ( hooks ) {
return function ( promise , parent ) {
for ( let i = 0 ; i < hooks . length ; i ++ ) {
const hook = hooks [ i ] ;
hook ( promise , parent ) ;
}
} ;
}
} ) ;
ops . op _set _promise _hooks (
wrappedHooks [ 0 ] ,
wrappedHooks [ 1 ] ,
wrappedHooks [ 2 ] ,
wrappedHooks [ 3 ] ,
) ;
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}
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// Eagerly initialize ops for snapshot purposes
for ( const opName of new SafeArrayIterator ( ObjectKeys ( asyncOps ) ) ) {
setUpAsyncStub ( opName ) ;
}
function generateAsyncOpHandler ( /* opNames... */ ) {
const fastOps = { } ;
for ( const opName of new SafeArrayIterator ( arguments ) ) {
if ( ops [ opName ] === undefined ) {
throw new Error ( ` Unknown or disabled op ' ${ opName } ' ` ) ;
}
if ( asyncOps [ opName ] !== undefined ) {
fastOps [ opName ] = setUpAsyncStub ( opName ) ;
} else {
fastOps [ opName ] = ops [ opName ] ;
}
}
return fastOps ;
}
const {
op _close : close ,
op _try _close : tryClose ,
op _read : read ,
op _read _all : readAll ,
op _write : write ,
op _write _all : writeAll ,
op _read _sync : readSync ,
op _write _sync : writeSync ,
op _shutdown : shutdown ,
} = generateAsyncOpHandler (
"op_close" ,
"op_try_close" ,
"op_read" ,
"op_read_all" ,
"op_write" ,
"op_write_all" ,
"op_read_sync" ,
"op_write_sync" ,
"op_shutdown" ,
) ;
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// Extra Deno.core.* exports
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const core = ObjectAssign ( globalThis . Deno . core , {
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asyncStub ,
generateAsyncOpHandler ,
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opAsync ,
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opAsync2 ,
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resources ,
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metrics ,
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registerErrorBuilder ,
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registerErrorClass ,
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buildCustomError ,
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eventLoopTick ,
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BadResource ,
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BadResourcePrototype ,
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Interrupted ,
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InterruptedPrototype ,
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enableOpCallTracing ,
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isOpCallTracingEnabled ,
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opCallTraces ,
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refOp ,
unrefOp ,
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setReportExceptionCallback ,
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setPromiseHooks ,
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close ,
tryClose ,
read ,
readAll ,
write ,
writeAll ,
readSync ,
writeSync ,
shutdown ,
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print : ( msg , isErr ) => ops . op _print ( msg , isErr ) ,
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setMacrotaskCallback ,
setNextTickCallback ,
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runMicrotasks : ( ) => ops . op _run _microtasks ( ) ,
hasTickScheduled : ( ) => ops . op _has _tick _scheduled ( ) ,
setHasTickScheduled : ( bool ) => ops . op _set _has _tick _scheduled ( bool ) ,
evalContext : (
source ,
specifier ,
) => ops . op _eval _context ( source , specifier ) ,
createHostObject : ( ) => ops . op _create _host _object ( ) ,
encode : ( text ) => ops . op _encode ( text ) ,
decode : ( buffer ) => ops . op _decode ( buffer ) ,
serialize : (
value ,
options ,
errorCallback ,
) => ops . op _serialize ( value , options , errorCallback ) ,
deserialize : ( buffer , options ) => ops . op _deserialize ( buffer , options ) ,
getPromiseDetails : ( promise ) => ops . op _get _promise _details ( promise ) ,
getProxyDetails : ( proxy ) => ops . op _get _proxy _details ( proxy ) ,
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isProxy : ( value ) => ops . op _is _proxy ( value ) ,
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memoryUsage : ( ) => ops . op _memory _usage ( ) ,
setWasmStreamingCallback : ( fn ) => ops . op _set _wasm _streaming _callback ( fn ) ,
abortWasmStreaming : (
rid ,
error ,
) => ops . op _abort _wasm _streaming ( rid , error ) ,
destructureError : ( error ) => ops . op _destructure _error ( error ) ,
opNames : ( ) => ops . op _op _names ( ) ,
eventLoopHasMoreWork : ( ) => ops . op _event _loop _has _more _work ( ) ,
setPromiseRejectCallback : ( fn ) => ops . op _set _promise _reject _callback ( fn ) ,
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byteLength : ( str ) => ops . op _str _byte _length ( str ) ,
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build ,
setBuildInfo ,
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} ) ;
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ObjectAssign ( globalThis . _ _bootstrap , { core } ) ;
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const internals = { } ;
ObjectAssign ( globalThis . _ _bootstrap , { internals } ) ;
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ObjectAssign ( globalThis . Deno , { core } ) ;
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// Direct bindings on `globalThis`
ObjectAssign ( globalThis , { queueMicrotask } ) ;
setQueueMicrotask ( queueMicrotask ) ;
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} ) ( globalThis ) ;