2016-02-23 16:21:40 +00:00
// Modified embenchen to direct to asm-wasm.
// Flags: --expose-wasm
var EXPECTED _OUTPUT = 'sum:8930\n' ;
var Module = {
arguments : [ 1 ] ,
print : function ( x ) { Module . printBuffer += x + '\n' ; } ,
preRun : [ function ( ) { Module . printBuffer = '' } ] ,
postRun : [ function ( ) {
assertEquals ( EXPECTED _OUTPUT , Module . printBuffer ) ;
} ] ,
} ;
// The Module object: Our interface to the outside world. We import
// and export values on it, and do the work to get that through
// closure compiler if necessary. There are various ways Module can be used:
// 1. Not defined. We create it here
// 2. A function parameter, function(Module) { ..generated code.. }
// 3. pre-run appended it, var Module = {}; ..generated code..
// 4. External script tag defines var Module.
// We need to do an eval in order to handle the closure compiler
// case, where this code here is minified but Module was defined
// elsewhere (e.g. case 4 above). We also need to check if Module
// already exists (e.g. case 3 above).
// Note that if you want to run closure, and also to use Module
// after the generated code, you will need to define var Module = {};
// before the code. Then that object will be used in the code, and you
// can continue to use Module afterwards as well.
var Module ;
if ( ! Module ) Module = ( typeof Module !== 'undefined' ? Module : null ) || { } ;
// Sometimes an existing Module object exists with properties
// meant to overwrite the default module functionality. Here
// we collect those properties and reapply _after_ we configure
// the current environment's defaults to avoid having to be so
// defensive during initialization.
var moduleOverrides = { } ;
for ( var key in Module ) {
if ( Module . hasOwnProperty ( key ) ) {
moduleOverrides [ key ] = Module [ key ] ;
}
}
// The environment setup code below is customized to use Module.
// *** Environment setup code ***
var ENVIRONMENT _IS _NODE = typeof process === 'object' && typeof require === 'function' ;
var ENVIRONMENT _IS _WEB = typeof window === 'object' ;
var ENVIRONMENT _IS _WORKER = typeof importScripts === 'function' ;
var ENVIRONMENT _IS _SHELL = ! ENVIRONMENT _IS _WEB && ! ENVIRONMENT _IS _NODE && ! ENVIRONMENT _IS _WORKER ;
if ( ENVIRONMENT _IS _NODE ) {
// Expose functionality in the same simple way that the shells work
// Note that we pollute the global namespace here, otherwise we break in node
if ( ! Module [ 'print' ] ) Module [ 'print' ] = function print ( x ) {
process [ 'stdout' ] . write ( x + '\n' ) ;
} ;
if ( ! Module [ 'printErr' ] ) Module [ 'printErr' ] = function printErr ( x ) {
process [ 'stderr' ] . write ( x + '\n' ) ;
} ;
var nodeFS = require ( 'fs' ) ;
var nodePath = require ( 'path' ) ;
Module [ 'read' ] = function read ( filename , binary ) {
filename = nodePath [ 'normalize' ] ( filename ) ;
var ret = nodeFS [ 'readFileSync' ] ( filename ) ;
// The path is absolute if the normalized version is the same as the resolved.
if ( ! ret && filename != nodePath [ 'resolve' ] ( filename ) ) {
filename = path . join ( _ _dirname , '..' , 'src' , filename ) ;
ret = nodeFS [ 'readFileSync' ] ( filename ) ;
}
if ( ret && ! binary ) ret = ret . toString ( ) ;
return ret ;
} ;
Module [ 'readBinary' ] = function readBinary ( filename ) { return Module [ 'read' ] ( filename , true ) } ;
Module [ 'load' ] = function load ( f ) {
globalEval ( read ( f ) ) ;
} ;
Module [ 'arguments' ] = process [ 'argv' ] . slice ( 2 ) ;
module [ 'exports' ] = Module ;
}
else if ( ENVIRONMENT _IS _SHELL ) {
if ( ! Module [ 'print' ] ) Module [ 'print' ] = print ;
if ( typeof printErr != 'undefined' ) Module [ 'printErr' ] = printErr ; // not present in v8 or older sm
if ( typeof read != 'undefined' ) {
Module [ 'read' ] = read ;
} else {
Module [ 'read' ] = function read ( ) { throw 'no read() available (jsc?)' } ;
}
Module [ 'readBinary' ] = function readBinary ( f ) {
return read ( f , 'binary' ) ;
} ;
if ( typeof scriptArgs != 'undefined' ) {
Module [ 'arguments' ] = scriptArgs ;
} else if ( typeof arguments != 'undefined' ) {
Module [ 'arguments' ] = arguments ;
}
this [ 'Module' ] = Module ;
eval ( "if (typeof gc === 'function' && gc.toString().indexOf('[native code]') > 0) var gc = undefined" ) ; // wipe out the SpiderMonkey shell 'gc' function, which can confuse closure (uses it as a minified name, and it is then initted to a non-falsey value unexpectedly)
}
else if ( ENVIRONMENT _IS _WEB || ENVIRONMENT _IS _WORKER ) {
Module [ 'read' ] = function read ( url ) {
var xhr = new XMLHttpRequest ( ) ;
xhr . open ( 'GET' , url , false ) ;
xhr . send ( null ) ;
return xhr . responseText ;
} ;
if ( typeof arguments != 'undefined' ) {
Module [ 'arguments' ] = arguments ;
}
if ( typeof console !== 'undefined' ) {
if ( ! Module [ 'print' ] ) Module [ 'print' ] = function print ( x ) {
console . log ( x ) ;
} ;
if ( ! Module [ 'printErr' ] ) Module [ 'printErr' ] = function printErr ( x ) {
console . log ( x ) ;
} ;
} else {
// Probably a worker, and without console.log. We can do very little here...
var TRY _USE _DUMP = false ;
if ( ! Module [ 'print' ] ) Module [ 'print' ] = ( TRY _USE _DUMP && ( typeof ( dump ) !== "undefined" ) ? ( function ( x ) {
dump ( x ) ;
} ) : ( function ( x ) {
// self.postMessage(x); // enable this if you want stdout to be sent as messages
} ) ) ;
}
if ( ENVIRONMENT _IS _WEB ) {
window [ 'Module' ] = Module ;
} else {
Module [ 'load' ] = importScripts ;
}
}
else {
// Unreachable because SHELL is dependant on the others
throw 'Unknown runtime environment. Where are we?' ;
}
function globalEval ( x ) {
eval . call ( null , x ) ;
}
if ( ! Module [ 'load' ] == 'undefined' && Module [ 'read' ] ) {
Module [ 'load' ] = function load ( f ) {
globalEval ( Module [ 'read' ] ( f ) ) ;
} ;
}
if ( ! Module [ 'print' ] ) {
Module [ 'print' ] = function ( ) { } ;
}
if ( ! Module [ 'printErr' ] ) {
Module [ 'printErr' ] = Module [ 'print' ] ;
}
if ( ! Module [ 'arguments' ] ) {
Module [ 'arguments' ] = [ ] ;
}
// *** Environment setup code ***
// Closure helpers
Module . print = Module [ 'print' ] ;
Module . printErr = Module [ 'printErr' ] ;
// Callbacks
Module [ 'preRun' ] = [ ] ;
Module [ 'postRun' ] = [ ] ;
// Merge back in the overrides
for ( var key in moduleOverrides ) {
if ( moduleOverrides . hasOwnProperty ( key ) ) {
Module [ key ] = moduleOverrides [ key ] ;
}
}
// === Auto-generated preamble library stuff ===
//========================================
// Runtime code shared with compiler
//========================================
var Runtime = {
stackSave : function ( ) {
return STACKTOP ;
} ,
stackRestore : function ( stackTop ) {
STACKTOP = stackTop ;
} ,
forceAlign : function ( target , quantum ) {
quantum = quantum || 4 ;
if ( quantum == 1 ) return target ;
if ( isNumber ( target ) && isNumber ( quantum ) ) {
return Math . ceil ( target / quantum ) * quantum ;
} else if ( isNumber ( quantum ) && isPowerOfTwo ( quantum ) ) {
return '(((' + target + ')+' + ( quantum - 1 ) + ')&' + - quantum + ')' ;
}
return 'Math.ceil((' + target + ')/' + quantum + ')*' + quantum ;
} ,
isNumberType : function ( type ) {
return type in Runtime . INT _TYPES || type in Runtime . FLOAT _TYPES ;
} ,
isPointerType : function isPointerType ( type ) {
return type [ type . length - 1 ] == '*' ;
} ,
isStructType : function isStructType ( type ) {
if ( isPointerType ( type ) ) return false ;
if ( isArrayType ( type ) ) return true ;
if ( /<?\{ ?[^}]* ?\}>?/ . test ( type ) ) return true ; // { i32, i8 } etc. - anonymous struct types
// See comment in isStructPointerType()
return type [ 0 ] == '%' ;
} ,
INT _TYPES : { "i1" : 0 , "i8" : 0 , "i16" : 0 , "i32" : 0 , "i64" : 0 } ,
FLOAT _TYPES : { "float" : 0 , "double" : 0 } ,
or64 : function ( x , y ) {
var l = ( x | 0 ) | ( y | 0 ) ;
var h = ( Math . round ( x / 4294967296 ) | Math . round ( y / 4294967296 ) ) * 4294967296 ;
return l + h ;
} ,
and64 : function ( x , y ) {
var l = ( x | 0 ) & ( y | 0 ) ;
var h = ( Math . round ( x / 4294967296 ) & Math . round ( y / 4294967296 ) ) * 4294967296 ;
return l + h ;
} ,
xor64 : function ( x , y ) {
var l = ( x | 0 ) ^ ( y | 0 ) ;
var h = ( Math . round ( x / 4294967296 ) ^ Math . round ( y / 4294967296 ) ) * 4294967296 ;
return l + h ;
} ,
getNativeTypeSize : function ( type ) {
switch ( type ) {
case 'i1' : case 'i8' : return 1 ;
case 'i16' : return 2 ;
case 'i32' : return 4 ;
case 'i64' : return 8 ;
case 'float' : return 4 ;
case 'double' : return 8 ;
default : {
if ( type [ type . length - 1 ] === '*' ) {
return Runtime . QUANTUM _SIZE ; // A pointer
} else if ( type [ 0 ] === 'i' ) {
var bits = parseInt ( type . substr ( 1 ) ) ;
assert ( bits % 8 === 0 ) ;
return bits / 8 ;
} else {
return 0 ;
}
}
}
} ,
getNativeFieldSize : function ( type ) {
return Math . max ( Runtime . getNativeTypeSize ( type ) , Runtime . QUANTUM _SIZE ) ;
} ,
dedup : function dedup ( items , ident ) {
var seen = { } ;
if ( ident ) {
return items . filter ( function ( item ) {
if ( seen [ item [ ident ] ] ) return false ;
seen [ item [ ident ] ] = true ;
return true ;
} ) ;
} else {
return items . filter ( function ( item ) {
if ( seen [ item ] ) return false ;
seen [ item ] = true ;
return true ;
} ) ;
}
} ,
set : function set ( ) {
var args = typeof arguments [ 0 ] === 'object' ? arguments [ 0 ] : arguments ;
var ret = { } ;
for ( var i = 0 ; i < args . length ; i ++ ) {
ret [ args [ i ] ] = 0 ;
}
return ret ;
} ,
STACK _ALIGN : 8 ,
getAlignSize : function ( type , size , vararg ) {
// we align i64s and doubles on 64-bit boundaries, unlike x86
if ( ! vararg && ( type == 'i64' || type == 'double' ) ) return 8 ;
if ( ! type ) return Math . min ( size , 8 ) ; // align structures internally to 64 bits
return Math . min ( size || ( type ? Runtime . getNativeFieldSize ( type ) : 0 ) , Runtime . QUANTUM _SIZE ) ;
} ,
calculateStructAlignment : function calculateStructAlignment ( type ) {
type . flatSize = 0 ;
type . alignSize = 0 ;
var diffs = [ ] ;
var prev = - 1 ;
var index = 0 ;
type . flatIndexes = type . fields . map ( function ( field ) {
index ++ ;
var size , alignSize ;
if ( Runtime . isNumberType ( field ) || Runtime . isPointerType ( field ) ) {
size = Runtime . getNativeTypeSize ( field ) ; // pack char; char; in structs, also char[X]s.
alignSize = Runtime . getAlignSize ( field , size ) ;
} else if ( Runtime . isStructType ( field ) ) {
if ( field [ 1 ] === '0' ) {
// this is [0 x something]. When inside another structure like here, it must be at the end,
// and it adds no size
// XXX this happens in java-nbody for example... assert(index === type.fields.length, 'zero-length in the middle!');
size = 0 ;
if ( Types . types [ field ] ) {
alignSize = Runtime . getAlignSize ( null , Types . types [ field ] . alignSize ) ;
} else {
alignSize = type . alignSize || QUANTUM _SIZE ;
}
} else {
size = Types . types [ field ] . flatSize ;
alignSize = Runtime . getAlignSize ( null , Types . types [ field ] . alignSize ) ;
}
} else if ( field [ 0 ] == 'b' ) {
// bN, large number field, like a [N x i8]
size = field . substr ( 1 ) | 0 ;
alignSize = 1 ;
} else if ( field [ 0 ] === '<' ) {
// vector type
size = alignSize = Types . types [ field ] . flatSize ; // fully aligned
} else if ( field [ 0 ] === 'i' ) {
// illegal integer field, that could not be legalized because it is an internal structure field
// it is ok to have such fields, if we just use them as markers of field size and nothing more complex
size = alignSize = parseInt ( field . substr ( 1 ) ) / 8 ;
assert ( size % 1 === 0 , 'cannot handle non-byte-size field ' + field ) ;
} else {
assert ( false , 'invalid type for calculateStructAlignment' ) ;
}
if ( type . packed ) alignSize = 1 ;
type . alignSize = Math . max ( type . alignSize , alignSize ) ;
var curr = Runtime . alignMemory ( type . flatSize , alignSize ) ; // if necessary, place this on aligned memory
type . flatSize = curr + size ;
if ( prev >= 0 ) {
diffs . push ( curr - prev ) ;
}
prev = curr ;
return curr ;
} ) ;
if ( type . name _ && type . name _ [ 0 ] === '[' ) {
// arrays have 2 elements, so we get the proper difference. then we scale here. that way we avoid
// allocating a potentially huge array for [999999 x i8] etc.
type . flatSize = parseInt ( type . name _ . substr ( 1 ) ) * type . flatSize / 2 ;
}
type . flatSize = Runtime . alignMemory ( type . flatSize , type . alignSize ) ;
if ( diffs . length == 0 ) {
type . flatFactor = type . flatSize ;
} else if ( Runtime . dedup ( diffs ) . length == 1 ) {
type . flatFactor = diffs [ 0 ] ;
}
type . needsFlattening = ( type . flatFactor != 1 ) ;
return type . flatIndexes ;
} ,
generateStructInfo : function ( struct , typeName , offset ) {
var type , alignment ;
if ( typeName ) {
offset = offset || 0 ;
type = ( typeof Types === 'undefined' ? Runtime . typeInfo : Types . types ) [ typeName ] ;
if ( ! type ) return null ;
if ( type . fields . length != struct . length ) {
printErr ( 'Number of named fields must match the type for ' + typeName + ': possibly duplicate struct names. Cannot return structInfo' ) ;
return null ;
}
alignment = type . flatIndexes ;
} else {
var type = { fields : struct . map ( function ( item ) { return item [ 0 ] } ) } ;
alignment = Runtime . calculateStructAlignment ( type ) ;
}
var ret = {
_ _size _ _ : type . flatSize
} ;
if ( typeName ) {
struct . forEach ( function ( item , i ) {
if ( typeof item === 'string' ) {
ret [ item ] = alignment [ i ] + offset ;
} else {
// embedded struct
var key ;
for ( var k in item ) key = k ;
ret [ key ] = Runtime . generateStructInfo ( item [ key ] , type . fields [ i ] , alignment [ i ] ) ;
}
} ) ;
} else {
struct . forEach ( function ( item , i ) {
ret [ item [ 1 ] ] = alignment [ i ] ;
} ) ;
}
return ret ;
} ,
dynCall : function ( sig , ptr , args ) {
if ( args && args . length ) {
if ( ! args . splice ) args = Array . prototype . slice . call ( args ) ;
args . splice ( 0 , 0 , ptr ) ;
return Module [ 'dynCall_' + sig ] . apply ( null , args ) ;
} else {
return Module [ 'dynCall_' + sig ] . call ( null , ptr ) ;
}
} ,
functionPointers : [ ] ,
addFunction : function ( func ) {
for ( var i = 0 ; i < Runtime . functionPointers . length ; i ++ ) {
if ( ! Runtime . functionPointers [ i ] ) {
Runtime . functionPointers [ i ] = func ;
return 2 * ( 1 + i ) ;
}
}
throw 'Finished up all reserved function pointers. Use a higher value for RESERVED_FUNCTION_POINTERS.' ;
} ,
removeFunction : function ( index ) {
Runtime . functionPointers [ ( index - 2 ) / 2 ] = null ;
} ,
getAsmConst : function ( code , numArgs ) {
// code is a constant string on the heap, so we can cache these
if ( ! Runtime . asmConstCache ) Runtime . asmConstCache = { } ;
var func = Runtime . asmConstCache [ code ] ;
if ( func ) return func ;
var args = [ ] ;
for ( var i = 0 ; i < numArgs ; i ++ ) {
args . push ( String . fromCharCode ( 36 ) + i ) ; // $0, $1 etc
}
var source = Pointer _stringify ( code ) ;
if ( source [ 0 ] === '"' ) {
// tolerate EM_ASM("..code..") even though EM_ASM(..code..) is correct
if ( source . indexOf ( '"' , 1 ) === source . length - 1 ) {
source = source . substr ( 1 , source . length - 2 ) ;
} else {
// something invalid happened, e.g. EM_ASM("..code($0)..", input)
abort ( 'invalid EM_ASM input |' + source + '|. Please use EM_ASM(..code..) (no quotes) or EM_ASM({ ..code($0).. }, input) (to input values)' ) ;
}
}
try {
var evalled = eval ( '(function(' + args . join ( ',' ) + '){ ' + source + ' })' ) ; // new Function does not allow upvars in node
} catch ( e ) {
Module . printErr ( 'error in executing inline EM_ASM code: ' + e + ' on: \n\n' + source + '\n\nwith args |' + args + '| (make sure to use the right one out of EM_ASM, EM_ASM_ARGS, etc.)' ) ;
throw e ;
}
return Runtime . asmConstCache [ code ] = evalled ;
} ,
warnOnce : function ( text ) {
if ( ! Runtime . warnOnce . shown ) Runtime . warnOnce . shown = { } ;
if ( ! Runtime . warnOnce . shown [ text ] ) {
Runtime . warnOnce . shown [ text ] = 1 ;
Module . printErr ( text ) ;
}
} ,
funcWrappers : { } ,
getFuncWrapper : function ( func , sig ) {
assert ( sig ) ;
if ( ! Runtime . funcWrappers [ func ] ) {
Runtime . funcWrappers [ func ] = function dynCall _wrapper ( ) {
return Runtime . dynCall ( sig , func , arguments ) ;
} ;
}
return Runtime . funcWrappers [ func ] ;
} ,
UTF8Processor : function ( ) {
var buffer = [ ] ;
var needed = 0 ;
this . processCChar = function ( code ) {
code = code & 0xFF ;
if ( buffer . length == 0 ) {
if ( ( code & 0x80 ) == 0x00 ) { // 0xxxxxxx
return String . fromCharCode ( code ) ;
}
buffer . push ( code ) ;
if ( ( code & 0xE0 ) == 0xC0 ) { // 110xxxxx
needed = 1 ;
} else if ( ( code & 0xF0 ) == 0xE0 ) { // 1110xxxx
needed = 2 ;
} else { // 11110xxx
needed = 3 ;
}
return '' ;
}
if ( needed ) {
buffer . push ( code ) ;
needed -- ;
if ( needed > 0 ) return '' ;
}
var c1 = buffer [ 0 ] ;
var c2 = buffer [ 1 ] ;
var c3 = buffer [ 2 ] ;
var c4 = buffer [ 3 ] ;
var ret ;
if ( buffer . length == 2 ) {
ret = String . fromCharCode ( ( ( c1 & 0x1F ) << 6 ) | ( c2 & 0x3F ) ) ;
} else if ( buffer . length == 3 ) {
ret = String . fromCharCode ( ( ( c1 & 0x0F ) << 12 ) | ( ( c2 & 0x3F ) << 6 ) | ( c3 & 0x3F ) ) ;
} else {
// http://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae
var codePoint = ( ( c1 & 0x07 ) << 18 ) | ( ( c2 & 0x3F ) << 12 ) |
( ( c3 & 0x3F ) << 6 ) | ( c4 & 0x3F ) ;
ret = String . fromCharCode (
Math . floor ( ( codePoint - 0x10000 ) / 0x400 ) + 0xD800 ,
( codePoint - 0x10000 ) % 0x400 + 0xDC00 ) ;
}
buffer . length = 0 ;
return ret ;
}
this . processJSString = function processJSString ( string ) {
/ * T O D O : u s e T e x t E n c o d e r w h e n p r e s e n t ,
var encoder = new TextEncoder ( ) ;
encoder [ 'encoding' ] = "utf-8" ;
var utf8Array = encoder [ 'encode' ] ( aMsg . data ) ;
* /
string = unescape ( encodeURIComponent ( string ) ) ;
var ret = [ ] ;
for ( var i = 0 ; i < string . length ; i ++ ) {
ret . push ( string . charCodeAt ( i ) ) ;
}
return ret ;
}
} ,
getCompilerSetting : function ( name ) {
throw 'You must build with -s RETAIN_COMPILER_SETTINGS=1 for Runtime.getCompilerSetting or emscripten_get_compiler_setting to work' ;
} ,
stackAlloc : function ( size ) { var ret = STACKTOP ; STACKTOP = ( STACKTOP + size ) | 0 ; STACKTOP = ( ( ( STACKTOP ) + 7 ) & - 8 ) ; return ret ; } ,
staticAlloc : function ( size ) { var ret = STATICTOP ; STATICTOP = ( STATICTOP + size ) | 0 ; STATICTOP = ( ( ( STATICTOP ) + 7 ) & - 8 ) ; return ret ; } ,
dynamicAlloc : function ( size ) { var ret = DYNAMICTOP ; DYNAMICTOP = ( DYNAMICTOP + size ) | 0 ; DYNAMICTOP = ( ( ( DYNAMICTOP ) + 7 ) & - 8 ) ; if ( DYNAMICTOP >= TOTAL _MEMORY ) enlargeMemory ( ) ; ; return ret ; } ,
alignMemory : function ( size , quantum ) { var ret = size = Math . ceil ( ( size ) / ( quantum ? quantum : 8 ) ) * ( quantum ? quantum : 8 ) ; return ret ; } ,
makeBigInt : function ( low , high , unsigned ) { var ret = ( unsigned ? ( ( + ( ( low >>> 0 ) ) ) + ( ( + ( ( high >>> 0 ) ) ) * ( + 4294967296 ) ) ) : ( ( + ( ( low >>> 0 ) ) ) + ( ( + ( ( high | 0 ) ) ) * ( + 4294967296 ) ) ) ) ; return ret ; } ,
GLOBAL _BASE : 8 ,
QUANTUM _SIZE : 4 ,
_ _dummy _ _ : 0
}
Module [ 'Runtime' ] = Runtime ;
//========================================
// Runtime essentials
//========================================
var _ _THREW _ _ = 0 ; // Used in checking for thrown exceptions.
var ABORT = false ; // whether we are quitting the application. no code should run after this. set in exit() and abort()
var EXITSTATUS = 0 ;
var undef = 0 ;
// tempInt is used for 32-bit signed values or smaller. tempBigInt is used
// for 32-bit unsigned values or more than 32 bits. TODO: audit all uses of tempInt
var tempValue , tempInt , tempBigInt , tempInt2 , tempBigInt2 , tempPair , tempBigIntI , tempBigIntR , tempBigIntS , tempBigIntP , tempBigIntD , tempDouble , tempFloat ;
var tempI64 , tempI64b ;
var tempRet0 , tempRet1 , tempRet2 , tempRet3 , tempRet4 , tempRet5 , tempRet6 , tempRet7 , tempRet8 , tempRet9 ;
function assert ( condition , text ) {
if ( ! condition ) {
abort ( 'Assertion failed: ' + text ) ;
}
}
var globalScope = this ;
// C calling interface. A convenient way to call C functions (in C files, or
// defined with extern "C").
//
// Note: LLVM optimizations can inline and remove functions, after which you will not be
// able to call them. Closure can also do so. To avoid that, add your function to
// the exports using something like
//
// -s EXPORTED_FUNCTIONS='["_main", "_myfunc"]'
//
// @param ident The name of the C function (note that C++ functions will be name-mangled - use extern "C")
// @param returnType The return type of the function, one of the JS types 'number', 'string' or 'array' (use 'number' for any C pointer, and
// 'array' for JavaScript arrays and typed arrays; note that arrays are 8-bit).
// @param argTypes An array of the types of arguments for the function (if there are no arguments, this can be ommitted). Types are as in returnType,
// except that 'array' is not possible (there is no way for us to know the length of the array)
// @param args An array of the arguments to the function, as native JS values (as in returnType)
// Note that string arguments will be stored on the stack (the JS string will become a C string on the stack).
// @return The return value, as a native JS value (as in returnType)
function ccall ( ident , returnType , argTypes , args ) {
return ccallFunc ( getCFunc ( ident ) , returnType , argTypes , args ) ;
}
Module [ "ccall" ] = ccall ;
// Returns the C function with a specified identifier (for C++, you need to do manual name mangling)
function getCFunc ( ident ) {
try {
var func = Module [ '_' + ident ] ; // closure exported function
if ( ! func ) func = eval ( '_' + ident ) ; // explicit lookup
} catch ( e ) {
}
assert ( func , 'Cannot call unknown function ' + ident + ' (perhaps LLVM optimizations or closure removed it?)' ) ;
return func ;
}
// Internal function that does a C call using a function, not an identifier
function ccallFunc ( func , returnType , argTypes , args ) {
var stack = 0 ;
function toC ( value , type ) {
if ( type == 'string' ) {
if ( value === null || value === undefined || value === 0 ) return 0 ; // null string
value = intArrayFromString ( value ) ;
type = 'array' ;
}
if ( type == 'array' ) {
if ( ! stack ) stack = Runtime . stackSave ( ) ;
var ret = Runtime . stackAlloc ( value . length ) ;
writeArrayToMemory ( value , ret ) ;
return ret ;
}
return value ;
}
function fromC ( value , type ) {
if ( type == 'string' ) {
return Pointer _stringify ( value ) ;
}
assert ( type != 'array' ) ;
return value ;
}
var i = 0 ;
var cArgs = args ? args . map ( function ( arg ) {
return toC ( arg , argTypes [ i ++ ] ) ;
} ) : [ ] ;
var ret = fromC ( func . apply ( null , cArgs ) , returnType ) ;
if ( stack ) Runtime . stackRestore ( stack ) ;
return ret ;
}
// Returns a native JS wrapper for a C function. This is similar to ccall, but
// returns a function you can call repeatedly in a normal way. For example:
//
// var my_function = cwrap('my_c_function', 'number', ['number', 'number']);
// alert(my_function(5, 22));
// alert(my_function(99, 12));
//
function cwrap ( ident , returnType , argTypes ) {
var func = getCFunc ( ident ) ;
return function ( ) {
return ccallFunc ( func , returnType , argTypes , Array . prototype . slice . call ( arguments ) ) ;
}
}
Module [ "cwrap" ] = cwrap ;
// Sets a value in memory in a dynamic way at run-time. Uses the
// type data. This is the same as makeSetValue, except that
// makeSetValue is done at compile-time and generates the needed
// code then, whereas this function picks the right code at
// run-time.
// Note that setValue and getValue only do *aligned* writes and reads!
// Note that ccall uses JS types as for defining types, while setValue and
// getValue need LLVM types ('i8', 'i32') - this is a lower-level operation
function setValue ( ptr , value , type , noSafe ) {
type = type || 'i8' ;
if ( type . charAt ( type . length - 1 ) === '*' ) type = 'i32' ; // pointers are 32-bit
switch ( type ) {
case 'i1' : HEAP8 [ ( ptr ) ] = value ; break ;
case 'i8' : HEAP8 [ ( ptr ) ] = value ; break ;
case 'i16' : HEAP16 [ ( ( ptr ) >> 1 ) ] = value ; break ;
case 'i32' : HEAP32 [ ( ( ptr ) >> 2 ) ] = value ; break ;
case 'i64' : ( tempI64 = [ value >>> 0 , ( tempDouble = value , ( + ( Math _abs ( tempDouble ) ) ) >= ( + 1 ) ? ( tempDouble > ( + 0 ) ? ( ( Math _min ( ( + ( Math _floor ( ( tempDouble ) / ( + 4294967296 ) ) ) ) , ( + 4294967295 ) ) ) | 0 ) >>> 0 : ( ~ ~ ( ( + ( Math _ceil ( ( tempDouble - + ( ( ( ~ ~ ( tempDouble ) ) ) >>> 0 ) ) / ( + 4294967296 ) ) ) ) ) ) >>> 0 ) : 0 ) ] , HEAP32 [ ( ( ptr ) >> 2 ) ] = tempI64 [ 0 ] , HEAP32 [ ( ( ( ptr ) + ( 4 ) ) >> 2 ) ] = tempI64 [ 1 ] ) ; break ;
case 'float' : HEAPF32 [ ( ( ptr ) >> 2 ) ] = value ; break ;
case 'double' : HEAPF64 [ ( ( ptr ) >> 3 ) ] = value ; break ;
default : abort ( 'invalid type for setValue: ' + type ) ;
}
}
Module [ 'setValue' ] = setValue ;
// Parallel to setValue.
function getValue ( ptr , type , noSafe ) {
type = type || 'i8' ;
if ( type . charAt ( type . length - 1 ) === '*' ) type = 'i32' ; // pointers are 32-bit
switch ( type ) {
case 'i1' : return HEAP8 [ ( ptr ) ] ;
case 'i8' : return HEAP8 [ ( ptr ) ] ;
case 'i16' : return HEAP16 [ ( ( ptr ) >> 1 ) ] ;
case 'i32' : return HEAP32 [ ( ( ptr ) >> 2 ) ] ;
case 'i64' : return HEAP32 [ ( ( ptr ) >> 2 ) ] ;
case 'float' : return HEAPF32 [ ( ( ptr ) >> 2 ) ] ;
case 'double' : return HEAPF64 [ ( ( ptr ) >> 3 ) ] ;
default : abort ( 'invalid type for setValue: ' + type ) ;
}
return null ;
}
Module [ 'getValue' ] = getValue ;
var ALLOC _NORMAL = 0 ; // Tries to use _malloc()
var ALLOC _STACK = 1 ; // Lives for the duration of the current function call
var ALLOC _STATIC = 2 ; // Cannot be freed
var ALLOC _DYNAMIC = 3 ; // Cannot be freed except through sbrk
var ALLOC _NONE = 4 ; // Do not allocate
Module [ 'ALLOC_NORMAL' ] = ALLOC _NORMAL ;
Module [ 'ALLOC_STACK' ] = ALLOC _STACK ;
Module [ 'ALLOC_STATIC' ] = ALLOC _STATIC ;
Module [ 'ALLOC_DYNAMIC' ] = ALLOC _DYNAMIC ;
Module [ 'ALLOC_NONE' ] = ALLOC _NONE ;
// allocate(): This is for internal use. You can use it yourself as well, but the interface
// is a little tricky (see docs right below). The reason is that it is optimized
// for multiple syntaxes to save space in generated code. So you should
// normally not use allocate(), and instead allocate memory using _malloc(),
// initialize it with setValue(), and so forth.
// @slab: An array of data, or a number. If a number, then the size of the block to allocate,
// in *bytes* (note that this is sometimes confusing: the next parameter does not
// affect this!)
// @types: Either an array of types, one for each byte (or 0 if no type at that position),
// or a single type which is used for the entire block. This only matters if there
// is initial data - if @slab is a number, then this does not matter at all and is
// ignored.
// @allocator: How to allocate memory, see ALLOC_*
function allocate ( slab , types , allocator , ptr ) {
var zeroinit , size ;
if ( typeof slab === 'number' ) {
zeroinit = true ;
size = slab ;
} else {
zeroinit = false ;
size = slab . length ;
}
var singleType = typeof types === 'string' ? types : null ;
var ret ;
if ( allocator == ALLOC _NONE ) {
ret = ptr ;
} else {
ret = [ _malloc , Runtime . stackAlloc , Runtime . staticAlloc , Runtime . dynamicAlloc ] [ allocator === undefined ? ALLOC _STATIC : allocator ] ( Math . max ( size , singleType ? 1 : types . length ) ) ;
}
if ( zeroinit ) {
var ptr = ret , stop ;
assert ( ( ret & 3 ) == 0 ) ;
stop = ret + ( size & ~ 3 ) ;
for ( ; ptr < stop ; ptr += 4 ) {
HEAP32 [ ( ( ptr ) >> 2 ) ] = 0 ;
}
stop = ret + size ;
while ( ptr < stop ) {
HEAP8 [ ( ( ptr ++ ) | 0 ) ] = 0 ;
}
return ret ;
}
if ( singleType === 'i8' ) {
if ( slab . subarray || slab . slice ) {
HEAPU8 . set ( slab , ret ) ;
} else {
HEAPU8 . set ( new Uint8Array ( slab ) , ret ) ;
}
return ret ;
}
var i = 0 , type , typeSize , previousType ;
while ( i < size ) {
var curr = slab [ i ] ;
if ( typeof curr === 'function' ) {
curr = Runtime . getFunctionIndex ( curr ) ;
}
type = singleType || types [ i ] ;
if ( type === 0 ) {
i ++ ;
continue ;
}
if ( type == 'i64' ) type = 'i32' ; // special case: we have one i32 here, and one i32 later
setValue ( ret + i , curr , type ) ;
// no need to look up size unless type changes, so cache it
if ( previousType !== type ) {
typeSize = Runtime . getNativeTypeSize ( type ) ;
previousType = type ;
}
i += typeSize ;
}
return ret ;
}
Module [ 'allocate' ] = allocate ;
function Pointer _stringify ( ptr , /* optional */ length ) {
// TODO: use TextDecoder
// Find the length, and check for UTF while doing so
var hasUtf = false ;
var t ;
var i = 0 ;
while ( 1 ) {
t = HEAPU8 [ ( ( ( ptr ) + ( i ) ) | 0 ) ] ;
if ( t >= 128 ) hasUtf = true ;
else if ( t == 0 && ! length ) break ;
i ++ ;
if ( length && i == length ) break ;
}
if ( ! length ) length = i ;
var ret = '' ;
if ( ! hasUtf ) {
var MAX _CHUNK = 1024 ; // split up into chunks, because .apply on a huge string can overflow the stack
var curr ;
while ( length > 0 ) {
curr = String . fromCharCode . apply ( String , HEAPU8 . subarray ( ptr , ptr + Math . min ( length , MAX _CHUNK ) ) ) ;
ret = ret ? ret + curr : curr ;
ptr += MAX _CHUNK ;
length -= MAX _CHUNK ;
}
return ret ;
}
var utf8 = new Runtime . UTF8Processor ( ) ;
for ( i = 0 ; i < length ; i ++ ) {
t = HEAPU8 [ ( ( ( ptr ) + ( i ) ) | 0 ) ] ;
ret += utf8 . processCChar ( t ) ;
}
return ret ;
}
Module [ 'Pointer_stringify' ] = Pointer _stringify ;
// Given a pointer 'ptr' to a null-terminated UTF16LE-encoded string in the emscripten HEAP, returns
// a copy of that string as a Javascript String object.
function UTF16ToString ( ptr ) {
var i = 0 ;
var str = '' ;
while ( 1 ) {
var codeUnit = HEAP16 [ ( ( ( ptr ) + ( i * 2 ) ) >> 1 ) ] ;
if ( codeUnit == 0 )
return str ;
++ i ;
// fromCharCode constructs a character from a UTF-16 code unit, so we can pass the UTF16 string right through.
str += String . fromCharCode ( codeUnit ) ;
}
}
Module [ 'UTF16ToString' ] = UTF16ToString ;
// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',
// null-terminated and encoded in UTF16LE form. The copy will require at most (str.length*2+1)*2 bytes of space in the HEAP.
function stringToUTF16 ( str , outPtr ) {
for ( var i = 0 ; i < str . length ; ++ i ) {
// charCodeAt returns a UTF-16 encoded code unit, so it can be directly written to the HEAP.
var codeUnit = str . charCodeAt ( i ) ; // possibly a lead surrogate
HEAP16 [ ( ( ( outPtr ) + ( i * 2 ) ) >> 1 ) ] = codeUnit ;
}
// Null-terminate the pointer to the HEAP.
HEAP16 [ ( ( ( outPtr ) + ( str . length * 2 ) ) >> 1 ) ] = 0 ;
}
Module [ 'stringToUTF16' ] = stringToUTF16 ;
// Given a pointer 'ptr' to a null-terminated UTF32LE-encoded string in the emscripten HEAP, returns
// a copy of that string as a Javascript String object.
function UTF32ToString ( ptr ) {
var i = 0 ;
var str = '' ;
while ( 1 ) {
var utf32 = HEAP32 [ ( ( ( ptr ) + ( i * 4 ) ) >> 2 ) ] ;
if ( utf32 == 0 )
return str ;
++ i ;
// Gotcha: fromCharCode constructs a character from a UTF-16 encoded code (pair), not from a Unicode code point! So encode the code point to UTF-16 for constructing.
if ( utf32 >= 0x10000 ) {
var ch = utf32 - 0x10000 ;
str += String . fromCharCode ( 0xD800 | ( ch >> 10 ) , 0xDC00 | ( ch & 0x3FF ) ) ;
} else {
str += String . fromCharCode ( utf32 ) ;
}
}
}
Module [ 'UTF32ToString' ] = UTF32ToString ;
// Copies the given Javascript String object 'str' to the emscripten HEAP at address 'outPtr',
// null-terminated and encoded in UTF32LE form. The copy will require at most (str.length+1)*4 bytes of space in the HEAP,
// but can use less, since str.length does not return the number of characters in the string, but the number of UTF-16 code units in the string.
function stringToUTF32 ( str , outPtr ) {
var iChar = 0 ;
for ( var iCodeUnit = 0 ; iCodeUnit < str . length ; ++ iCodeUnit ) {
// Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap.
var codeUnit = str . charCodeAt ( iCodeUnit ) ; // possibly a lead surrogate
if ( codeUnit >= 0xD800 && codeUnit <= 0xDFFF ) {
var trailSurrogate = str . charCodeAt ( ++ iCodeUnit ) ;
codeUnit = 0x10000 + ( ( codeUnit & 0x3FF ) << 10 ) | ( trailSurrogate & 0x3FF ) ;
}
HEAP32 [ ( ( ( outPtr ) + ( iChar * 4 ) ) >> 2 ) ] = codeUnit ;
++ iChar ;
}
// Null-terminate the pointer to the HEAP.
HEAP32 [ ( ( ( outPtr ) + ( iChar * 4 ) ) >> 2 ) ] = 0 ;
}
Module [ 'stringToUTF32' ] = stringToUTF32 ;
function demangle ( func ) {
var i = 3 ;
// params, etc.
var basicTypes = {
'v' : 'void' ,
'b' : 'bool' ,
'c' : 'char' ,
's' : 'short' ,
'i' : 'int' ,
'l' : 'long' ,
'f' : 'float' ,
'd' : 'double' ,
'w' : 'wchar_t' ,
'a' : 'signed char' ,
'h' : 'unsigned char' ,
't' : 'unsigned short' ,
'j' : 'unsigned int' ,
'm' : 'unsigned long' ,
'x' : 'long long' ,
'y' : 'unsigned long long' ,
'z' : '...'
} ;
var subs = [ ] ;
var first = true ;
function dump ( x ) {
//return;
if ( x ) Module . print ( x ) ;
Module . print ( func ) ;
var pre = '' ;
for ( var a = 0 ; a < i ; a ++ ) pre += ' ' ;
Module . print ( pre + '^' ) ;
}
function parseNested ( ) {
i ++ ;
if ( func [ i ] === 'K' ) i ++ ; // ignore const
var parts = [ ] ;
while ( func [ i ] !== 'E' ) {
if ( func [ i ] === 'S' ) { // substitution
i ++ ;
var next = func . indexOf ( '_' , i ) ;
var num = func . substring ( i , next ) || 0 ;
parts . push ( subs [ num ] || '?' ) ;
i = next + 1 ;
continue ;
}
if ( func [ i ] === 'C' ) { // constructor
parts . push ( parts [ parts . length - 1 ] ) ;
i += 2 ;
continue ;
}
var size = parseInt ( func . substr ( i ) ) ;
var pre = size . toString ( ) . length ;
if ( ! size || ! pre ) { i -- ; break ; } // counter i++ below us
var curr = func . substr ( i + pre , size ) ;
parts . push ( curr ) ;
subs . push ( curr ) ;
i += pre + size ;
}
i ++ ; // skip E
return parts ;
}
function parse ( rawList , limit , allowVoid ) { // main parser
limit = limit || Infinity ;
var ret = '' , list = [ ] ;
function flushList ( ) {
return '(' + list . join ( ', ' ) + ')' ;
}
var name ;
if ( func [ i ] === 'N' ) {
// namespaced N-E
name = parseNested ( ) . join ( '::' ) ;
limit -- ;
if ( limit === 0 ) return rawList ? [ name ] : name ;
} else {
// not namespaced
if ( func [ i ] === 'K' || ( first && func [ i ] === 'L' ) ) i ++ ; // ignore const and first 'L'
var size = parseInt ( func . substr ( i ) ) ;
if ( size ) {
var pre = size . toString ( ) . length ;
name = func . substr ( i + pre , size ) ;
i += pre + size ;
}
}
first = false ;
if ( func [ i ] === 'I' ) {
i ++ ;
var iList = parse ( true ) ;
var iRet = parse ( true , 1 , true ) ;
ret += iRet [ 0 ] + ' ' + name + '<' + iList . join ( ', ' ) + '>' ;
} else {
ret = name ;
}
paramLoop : while ( i < func . length && limit -- > 0 ) {
//dump('paramLoop');
var c = func [ i ++ ] ;
if ( c in basicTypes ) {
list . push ( basicTypes [ c ] ) ;
} else {
switch ( c ) {
case 'P' : list . push ( parse ( true , 1 , true ) [ 0 ] + '*' ) ; break ; // pointer
case 'R' : list . push ( parse ( true , 1 , true ) [ 0 ] + '&' ) ; break ; // reference
case 'L' : { // literal
i ++ ; // skip basic type
var end = func . indexOf ( 'E' , i ) ;
var size = end - i ;
list . push ( func . substr ( i , size ) ) ;
i += size + 2 ; // size + 'EE'
break ;
}
case 'A' : { // array
var size = parseInt ( func . substr ( i ) ) ;
i += size . toString ( ) . length ;
if ( func [ i ] !== '_' ) throw '?' ;
i ++ ; // skip _
list . push ( parse ( true , 1 , true ) [ 0 ] + ' [' + size + ']' ) ;
break ;
}
case 'E' : break paramLoop ;
default : ret += '?' + c ; break paramLoop ;
}
}
}
if ( ! allowVoid && list . length === 1 && list [ 0 ] === 'void' ) list = [ ] ; // avoid (void)
if ( rawList ) {
if ( ret ) {
list . push ( ret + '?' ) ;
}
return list ;
} else {
return ret + flushList ( ) ;
}
}
try {
// Special-case the entry point, since its name differs from other name mangling.
if ( func == 'Object._main' || func == '_main' ) {
return 'main()' ;
}
if ( typeof func === 'number' ) func = Pointer _stringify ( func ) ;
if ( func [ 0 ] !== '_' ) return func ;
if ( func [ 1 ] !== '_' ) return func ; // C function
if ( func [ 2 ] !== 'Z' ) return func ;
switch ( func [ 3 ] ) {
case 'n' : return 'operator new()' ;
case 'd' : return 'operator delete()' ;
}
return parse ( ) ;
} catch ( e ) {
return func ;
}
}
function demangleAll ( text ) {
return text . replace ( /__Z[\w\d_]+/g , function ( x ) { var y = demangle ( x ) ; return x === y ? x : ( x + ' [' + y + ']' ) } ) ;
}
function stackTrace ( ) {
var stack = new Error ( ) . stack ;
return stack ? demangleAll ( stack ) : '(no stack trace available)' ; // Stack trace is not available at least on IE10 and Safari 6.
}
// Memory management
var PAGE _SIZE = 4096 ;
function alignMemoryPage ( x ) {
return ( x + 4095 ) & - 4096 ;
}
var HEAP ;
var HEAP8 , HEAPU8 , HEAP16 , HEAPU16 , HEAP32 , HEAPU32 , HEAPF32 , HEAPF64 ;
var STATIC _BASE = 0 , STATICTOP = 0 , staticSealed = false ; // static area
var STACK _BASE = 0 , STACKTOP = 0 , STACK _MAX = 0 ; // stack area
var DYNAMIC _BASE = 0 , DYNAMICTOP = 0 ; // dynamic area handled by sbrk
function enlargeMemory ( ) {
abort ( 'Cannot enlarge memory arrays. Either (1) compile with -s TOTAL_MEMORY=X with X higher than the current value ' + TOTAL _MEMORY + ', (2) compile with ALLOW_MEMORY_GROWTH which adjusts the size at runtime but prevents some optimizations, or (3) set Module.TOTAL_MEMORY before the program runs.' ) ;
}
var TOTAL _STACK = Module [ 'TOTAL_STACK' ] || 5242880 ;
var TOTAL _MEMORY = Module [ 'TOTAL_MEMORY' ] || 134217728 ;
var FAST _MEMORY = Module [ 'FAST_MEMORY' ] || 2097152 ;
var totalMemory = 4096 ;
while ( totalMemory < TOTAL _MEMORY || totalMemory < 2 * TOTAL _STACK ) {
if ( totalMemory < 16 * 1024 * 1024 ) {
totalMemory *= 2 ;
} else {
totalMemory += 16 * 1024 * 1024
}
}
if ( totalMemory !== TOTAL _MEMORY ) {
Module . printErr ( 'increasing TOTAL_MEMORY to ' + totalMemory + ' to be more reasonable' ) ;
TOTAL _MEMORY = totalMemory ;
}
// Initialize the runtime's memory
// check for full engine support (use string 'subarray' to avoid closure compiler confusion)
assert ( typeof Int32Array !== 'undefined' && typeof Float64Array !== 'undefined' && ! ! ( new Int32Array ( 1 ) [ 'subarray' ] ) && ! ! ( new Int32Array ( 1 ) [ 'set' ] ) ,
'JS engine does not provide full typed array support' ) ;
var buffer = new ArrayBuffer ( TOTAL _MEMORY ) ;
HEAP8 = new Int8Array ( buffer ) ;
HEAP16 = new Int16Array ( buffer ) ;
HEAP32 = new Int32Array ( buffer ) ;
HEAPU8 = new Uint8Array ( buffer ) ;
HEAPU16 = new Uint16Array ( buffer ) ;
HEAPU32 = new Uint32Array ( buffer ) ;
HEAPF32 = new Float32Array ( buffer ) ;
HEAPF64 = new Float64Array ( buffer ) ;
// Endianness check (note: assumes compiler arch was little-endian)
HEAP32 [ 0 ] = 255 ;
assert ( HEAPU8 [ 0 ] === 255 && HEAPU8 [ 3 ] === 0 , 'Typed arrays 2 must be run on a little-endian system' ) ;
Module [ 'HEAP' ] = HEAP ;
Module [ 'HEAP8' ] = HEAP8 ;
Module [ 'HEAP16' ] = HEAP16 ;
Module [ 'HEAP32' ] = HEAP32 ;
Module [ 'HEAPU8' ] = HEAPU8 ;
Module [ 'HEAPU16' ] = HEAPU16 ;
Module [ 'HEAPU32' ] = HEAPU32 ;
Module [ 'HEAPF32' ] = HEAPF32 ;
Module [ 'HEAPF64' ] = HEAPF64 ;
function callRuntimeCallbacks ( callbacks ) {
while ( callbacks . length > 0 ) {
var callback = callbacks . shift ( ) ;
if ( typeof callback == 'function' ) {
callback ( ) ;
continue ;
}
var func = callback . func ;
if ( typeof func === 'number' ) {
if ( callback . arg === undefined ) {
Runtime . dynCall ( 'v' , func ) ;
} else {
Runtime . dynCall ( 'vi' , func , [ callback . arg ] ) ;
}
} else {
func ( callback . arg === undefined ? null : callback . arg ) ;
}
}
}
var _ _ATPRERUN _ _ = [ ] ; // functions called before the runtime is initialized
var _ _ATINIT _ _ = [ ] ; // functions called during startup
var _ _ATMAIN _ _ = [ ] ; // functions called when main() is to be run
var _ _ATEXIT _ _ = [ ] ; // functions called during shutdown
var _ _ATPOSTRUN _ _ = [ ] ; // functions called after the runtime has exited
var runtimeInitialized = false ;
function preRun ( ) {
// compatibility - merge in anything from Module['preRun'] at this time
if ( Module [ 'preRun' ] ) {
if ( typeof Module [ 'preRun' ] == 'function' ) Module [ 'preRun' ] = [ Module [ 'preRun' ] ] ;
while ( Module [ 'preRun' ] . length ) {
addOnPreRun ( Module [ 'preRun' ] . shift ( ) ) ;
}
}
callRuntimeCallbacks ( _ _ATPRERUN _ _ ) ;
}
function ensureInitRuntime ( ) {
if ( runtimeInitialized ) return ;
runtimeInitialized = true ;
callRuntimeCallbacks ( _ _ATINIT _ _ ) ;
}
function preMain ( ) {
callRuntimeCallbacks ( _ _ATMAIN _ _ ) ;
}
function exitRuntime ( ) {
callRuntimeCallbacks ( _ _ATEXIT _ _ ) ;
}
function postRun ( ) {
// compatibility - merge in anything from Module['postRun'] at this time
if ( Module [ 'postRun' ] ) {
if ( typeof Module [ 'postRun' ] == 'function' ) Module [ 'postRun' ] = [ Module [ 'postRun' ] ] ;
while ( Module [ 'postRun' ] . length ) {
addOnPostRun ( Module [ 'postRun' ] . shift ( ) ) ;
}
}
callRuntimeCallbacks ( _ _ATPOSTRUN _ _ ) ;
}
function addOnPreRun ( cb ) {
_ _ATPRERUN _ _ . unshift ( cb ) ;
}
Module [ 'addOnPreRun' ] = Module . addOnPreRun = addOnPreRun ;
function addOnInit ( cb ) {
_ _ATINIT _ _ . unshift ( cb ) ;
}
Module [ 'addOnInit' ] = Module . addOnInit = addOnInit ;
function addOnPreMain ( cb ) {
_ _ATMAIN _ _ . unshift ( cb ) ;
}
Module [ 'addOnPreMain' ] = Module . addOnPreMain = addOnPreMain ;
function addOnExit ( cb ) {
_ _ATEXIT _ _ . unshift ( cb ) ;
}
Module [ 'addOnExit' ] = Module . addOnExit = addOnExit ;
function addOnPostRun ( cb ) {
_ _ATPOSTRUN _ _ . unshift ( cb ) ;
}
Module [ 'addOnPostRun' ] = Module . addOnPostRun = addOnPostRun ;
// Tools
// This processes a JS string into a C-line array of numbers, 0-terminated.
// For LLVM-originating strings, see parser.js:parseLLVMString function
function intArrayFromString ( stringy , dontAddNull , length /* optional */ ) {
var ret = ( new Runtime . UTF8Processor ( ) ) . processJSString ( stringy ) ;
if ( length ) {
ret . length = length ;
}
if ( ! dontAddNull ) {
ret . push ( 0 ) ;
}
return ret ;
}
Module [ 'intArrayFromString' ] = intArrayFromString ;
function intArrayToString ( array ) {
var ret = [ ] ;
for ( var i = 0 ; i < array . length ; i ++ ) {
var chr = array [ i ] ;
if ( chr > 0xFF ) {
chr &= 0xFF ;
}
ret . push ( String . fromCharCode ( chr ) ) ;
}
return ret . join ( '' ) ;
}
Module [ 'intArrayToString' ] = intArrayToString ;
// Write a Javascript array to somewhere in the heap
function writeStringToMemory ( string , buffer , dontAddNull ) {
var array = intArrayFromString ( string , dontAddNull ) ;
var i = 0 ;
while ( i < array . length ) {
var chr = array [ i ] ;
HEAP8 [ ( ( ( buffer ) + ( i ) ) | 0 ) ] = chr ;
i = i + 1 ;
}
}
Module [ 'writeStringToMemory' ] = writeStringToMemory ;
function writeArrayToMemory ( array , buffer ) {
for ( var i = 0 ; i < array . length ; i ++ ) {
HEAP8 [ ( ( ( buffer ) + ( i ) ) | 0 ) ] = array [ i ] ;
}
}
Module [ 'writeArrayToMemory' ] = writeArrayToMemory ;
function writeAsciiToMemory ( str , buffer , dontAddNull ) {
for ( var i = 0 ; i < str . length ; i ++ ) {
HEAP8 [ ( ( ( buffer ) + ( i ) ) | 0 ) ] = str . charCodeAt ( i ) ;
}
if ( ! dontAddNull ) HEAP8 [ ( ( ( buffer ) + ( str . length ) ) | 0 ) ] = 0 ;
}
Module [ 'writeAsciiToMemory' ] = writeAsciiToMemory ;
function unSign ( value , bits , ignore ) {
if ( value >= 0 ) {
return value ;
}
return bits <= 32 ? 2 * Math . abs ( 1 << ( bits - 1 ) ) + value // Need some trickery, since if bits == 32, we are right at the limit of the bits JS uses in bitshifts
: Math . pow ( 2 , bits ) + value ;
}
function reSign ( value , bits , ignore ) {
if ( value <= 0 ) {
return value ;
}
var half = bits <= 32 ? Math . abs ( 1 << ( bits - 1 ) ) // abs is needed if bits == 32
: Math . pow ( 2 , bits - 1 ) ;
if ( value >= half && ( bits <= 32 || value > half ) ) { // for huge values, we can hit the precision limit and always get true here. so don't do that
// but, in general there is no perfect solution here. With 64-bit ints, we get rounding and errors
// TODO: In i64 mode 1, resign the two parts separately and safely
value = - 2 * half + value ; // Cannot bitshift half, as it may be at the limit of the bits JS uses in bitshifts
}
return value ;
}
// check for imul support, and also for correctness ( https://bugs.webkit.org/show_bug.cgi?id=126345 )
if ( ! Math [ 'imul' ] || Math [ 'imul' ] ( 0xffffffff , 5 ) !== - 5 ) Math [ 'imul' ] = function imul ( a , b ) {
var ah = a >>> 16 ;
var al = a & 0xffff ;
var bh = b >>> 16 ;
var bl = b & 0xffff ;
return ( al * bl + ( ( ah * bl + al * bh ) << 16 ) ) | 0 ;
} ;
Math . imul = Math [ 'imul' ] ;
var Math _abs = Math . abs ;
var Math _cos = Math . cos ;
var Math _sin = Math . sin ;
var Math _tan = Math . tan ;
var Math _acos = Math . acos ;
var Math _asin = Math . asin ;
var Math _atan = Math . atan ;
var Math _atan2 = Math . atan2 ;
var Math _exp = Math . exp ;
var Math _log = Math . log ;
var Math _sqrt = Math . sqrt ;
var Math _ceil = Math . ceil ;
var Math _floor = Math . floor ;
var Math _pow = Math . pow ;
var Math _imul = Math . imul ;
var Math _fround = Math . fround ;
var Math _min = Math . min ;
// A counter of dependencies for calling run(). If we need to
// do asynchronous work before running, increment this and
// decrement it. Incrementing must happen in a place like
// PRE_RUN_ADDITIONS (used by emcc to add file preloading).
// Note that you can add dependencies in preRun, even though
// it happens right before run - run will be postponed until
// the dependencies are met.
var runDependencies = 0 ;
var runDependencyWatcher = null ;
var dependenciesFulfilled = null ; // overridden to take different actions when all run dependencies are fulfilled
function addRunDependency ( id ) {
runDependencies ++ ;
if ( Module [ 'monitorRunDependencies' ] ) {
Module [ 'monitorRunDependencies' ] ( runDependencies ) ;
}
}
Module [ 'addRunDependency' ] = addRunDependency ;
function removeRunDependency ( id ) {
runDependencies -- ;
if ( Module [ 'monitorRunDependencies' ] ) {
Module [ 'monitorRunDependencies' ] ( runDependencies ) ;
}
if ( runDependencies == 0 ) {
if ( runDependencyWatcher !== null ) {
clearInterval ( runDependencyWatcher ) ;
runDependencyWatcher = null ;
}
if ( dependenciesFulfilled ) {
var callback = dependenciesFulfilled ;
dependenciesFulfilled = null ;
callback ( ) ; // can add another dependenciesFulfilled
}
}
}
Module [ 'removeRunDependency' ] = removeRunDependency ;
Module [ "preloadedImages" ] = { } ; // maps url to image data
Module [ "preloadedAudios" ] = { } ; // maps url to audio data
var memoryInitializer = null ;
// === Body ===
STATIC _BASE = 8 ;
STATICTOP = STATIC _BASE + Runtime . alignMemory ( 27 ) ;
/* global initializers */ _ _ATINIT _ _ . push ( ) ;
/* memory initializer */ allocate ( [ 101 , 114 , 114 , 111 , 114 , 58 , 32 , 37 , 100 , 92 , 110 , 0 , 0 , 0 , 0 , 0 , 115 , 117 , 109 , 58 , 37 , 100 , 10 , 0 ] , "i8" , ALLOC _NONE , Runtime . GLOBAL _BASE ) ;
var tempDoublePtr = Runtime . alignMemory ( allocate ( 12 , "i8" , ALLOC _STATIC ) , 8 ) ;
assert ( tempDoublePtr % 8 == 0 ) ;
function copyTempFloat ( ptr ) { // functions, because inlining this code increases code size too much
HEAP8 [ tempDoublePtr ] = HEAP8 [ ptr ] ;
HEAP8 [ tempDoublePtr + 1 ] = HEAP8 [ ptr + 1 ] ;
HEAP8 [ tempDoublePtr + 2 ] = HEAP8 [ ptr + 2 ] ;
HEAP8 [ tempDoublePtr + 3 ] = HEAP8 [ ptr + 3 ] ;
}
function copyTempDouble ( ptr ) {
HEAP8 [ tempDoublePtr ] = HEAP8 [ ptr ] ;
HEAP8 [ tempDoublePtr + 1 ] = HEAP8 [ ptr + 1 ] ;
HEAP8 [ tempDoublePtr + 2 ] = HEAP8 [ ptr + 2 ] ;
HEAP8 [ tempDoublePtr + 3 ] = HEAP8 [ ptr + 3 ] ;
HEAP8 [ tempDoublePtr + 4 ] = HEAP8 [ ptr + 4 ] ;
HEAP8 [ tempDoublePtr + 5 ] = HEAP8 [ ptr + 5 ] ;
HEAP8 [ tempDoublePtr + 6 ] = HEAP8 [ ptr + 6 ] ;
HEAP8 [ tempDoublePtr + 7 ] = HEAP8 [ ptr + 7 ] ;
}
function _malloc ( bytes ) {
/ * O v e r - a l l o c a t e t o m a k e s u r e i t i s b y t e - a l i g n e d b y 8 .
* This will leak memory , but this is only the dummy
* implementation ( replaced by dlmalloc normally ) so
* not an issue .
* /
var ptr = Runtime . dynamicAlloc ( bytes + 8 ) ;
return ( ptr + 8 ) & 0xFFFFFFF8 ;
}
Module [ "_malloc" ] = _malloc ;
var ERRNO _CODES = { EPERM : 1 , ENOENT : 2 , ESRCH : 3 , EINTR : 4 , EIO : 5 , ENXIO : 6 , E2BIG : 7 , ENOEXEC : 8 , EBADF : 9 , ECHILD : 10 , EAGAIN : 11 , EWOULDBLOCK : 11 , ENOMEM : 12 , EACCES : 13 , EFAULT : 14 , ENOTBLK : 15 , EBUSY : 16 , EEXIST : 17 , EXDEV : 18 , ENODEV : 19 , ENOTDIR : 20 , EISDIR : 21 , EINVAL : 22 , ENFILE : 23 , EMFILE : 24 , ENOTTY : 25 , ETXTBSY : 26 , EFBIG : 27 , ENOSPC : 28 , ESPIPE : 29 , EROFS : 30 , EMLINK : 31 , EPIPE : 32 , EDOM : 33 , ERANGE : 34 , ENOMSG : 42 , EIDRM : 43 , ECHRNG : 44 , EL2NSYNC : 45 , EL3HLT : 46 , EL3RST : 47 , ELNRNG : 48 , EUNATCH : 49 , ENOCSI : 50 , EL2HLT : 51 , EDEADLK : 35 , ENOLCK : 37 , EBADE : 52 , EBADR : 53 , EXFULL : 54 , ENOANO : 55 , EBADRQC : 56 , EBADSLT : 57 , EDEADLOCK : 35 , EBFONT : 59 , ENOSTR : 60 , ENODATA : 61 , ETIME : 62 , ENOSR : 63 , ENONET : 64 , ENOPKG : 65 , EREMOTE : 66 , ENOLINK : 67 , EADV : 68 , ESRMNT : 69 , ECOMM : 70 , EPROTO : 71 , EMULTIHOP : 72 , EDOTDOT : 73 , EBADMSG : 74 , ENOTUNIQ : 76 , EBADFD : 77 , EREMCHG : 78 , ELIBACC : 79 , ELIBBAD : 80 , ELIBSCN : 81 , ELIBMAX : 82 , ELIBEXEC : 83 , ENOSYS : 38 , ENOTEMPTY : 39 , ENAMETOOLONG : 36 , ELOOP : 40 , EOPNOTSUPP : 95 , EPFNOSUPPORT : 96 , ECONNRESET : 104 , ENOBUFS : 105 , EAFNOSUPPORT : 97 , EPROTOTYPE : 91 , ENOTSOCK : 88 , ENOPROTOOPT : 92 , ESHUTDOWN : 108 , ECONNREFUSED : 111 , EADDRINUSE : 98 , ECONNABORTED : 103 , ENETUNREACH : 101 , ENETDOWN : 100 , ETIMEDOUT : 110 , EHOSTDOWN : 112 , EHOSTUNREACH : 113 , EINPROGRESS : 115 , EALREADY : 114 , EDESTADDRREQ : 89 , EMSGSIZE : 90 , EPROTONOSUPPORT : 93 , ESOCKTNOSUPPORT : 94 , EADDRNOTAVAIL : 99 , ENETRESET : 102 , EISCONN : 106 , ENOTCONN : 107 , ETOOMANYREFS : 109 , EUSERS : 87 , EDQUOT : 122 , ESTALE : 116 , ENOTSUP : 95 , ENOMEDIUM : 123 , EILSEQ : 84 , EOVERFLOW : 75 , ECANCELED : 125 , ENOTRECOVERABLE : 131 , EOWNERDEAD : 130 , ESTRPIPE : 86 } ;
var ERRNO _MESSAGES = { 0 : "Success" , 1 : "Not super-user" , 2 : "No such file or directory" , 3 : "No such process" , 4 : "Interrupted system call" , 5 : "I/O error" , 6 : "No such device or address" , 7 : "Arg list too long" , 8 : "Exec format error" , 9 : "Bad file number" , 10 : "No children" , 11 : "No more processes" , 12 : "Not enough core" , 13 : "Permission denied" , 14 : "Bad address" , 15 : "Block device required" , 16 : "Mount device busy" , 17 : "File exists" , 18 : "Cross-device link" , 19 : "No such device" , 20 : "Not a directory" , 21 : "Is a directory" , 22 : "Invalid argument" , 23 : "Too many open files in system" , 24 : "Too many open files" , 25 : "Not a typewriter" , 26 : "Text file busy" , 27 : "File too large" , 28 : "No space left on device" , 29 : "Illegal seek" , 30 : "Read only file system" , 31 : "Too many links" , 32 : "Broken pipe" , 33 : "Math arg out of domain of func" , 34 : "Math result not representable" , 35 : "File locking deadlock error" , 36 : "File or path name too long" , 37 : "No record locks available" , 38 : "Function not implemented" , 39 : "Directory not empty" , 40 : "Too many symbolic links" , 42 : "No message of desired type" , 43 : "Identifier removed" , 44 : "Channel number out of range" , 45 : "Level 2 not synchronized" , 46 : "Level 3 halted" , 47 : "Level 3 reset" , 48 : "Link number out of range" , 49 : "Protocol driver not attached" , 50 : "No CSI structure available" , 51 : "Level 2 halted" , 52 : "Invalid exchange" , 53 : "Invalid request descriptor" , 54 : "Exchange full" , 55 : "No anode" , 56 : "Invalid request code" , 57 : "Invalid slot" , 59 : "Bad font file fmt" , 60 : "Device not a stream" , 61 : "No data (for no delay io)" , 62 : "Timer expired" , 63 : "Out of streams resources" , 64 : "Machine is not on the network" , 65 : "Package not installed" , 66 : "The object is remote" , 67 : "The link has been severed" , 68 : "Advertise error" , 69 : "Srmount error" , 70 : "Communication error on send" , 71 : "Protocol error" , 72 : "Multihop attempted" , 73 : "Cross mount point (not really error)" , 74 : "Trying to read unreadable message" , 75 : "Value too large for defined data type" , 76 : "Given log. name not unique" , 77 : "f.d. invalid for this operation" , 78 : "Remote address changed" , 79 : "Can access a needed shared lib" , 80 : "Accessing a corrupted shared lib" , 81 : ".lib section in a.out corrupted" , 82 : "Attempting to link in too many libs" , 83 : "Attempting to exec a shared library" , 84 : "Illegal byte sequence" , 86 : "Streams pipe error" , 87 : "Too many users" , 88 : "Socket operation on non-socket" , 89 : "Destination address required" , 90 : "Message too long" , 91 : "Protocol wrong type for socket" , 92 : "Protocol not available" , 93 : "Unknown protocol" , 94 : "Socket type not supported" , 95 : "Not supported" , 96 : "Protocol family not supported" , 97 : "Address family not supported by protocol family" , 98 : "Address already in use" , 99 : "Address not available" , 100 : "Network interface is not configured" , 101 : "Network is unreachable" , 102 : "Connection reset by network" , 103 : "Connection aborted" , 104 : "Connection reset by peer" , 105 : "No buffer space available" , 106 : "Socket is already connected" , 107 : "Socket is not connected" , 108 : "Can't send after socket shutdown" , 109 : "Too many references" , 110 : "Connection timed out" , 111 : "Connection refused" , 112 : "Host is down" , 113 : "Host is unreachable" , 114 : "Socket already connected" , 115 : "Connection already in progress" , 116 : "Stale file handle" , 122 : "Quota exceeded" , 123 : "No medium (in tape drive)" , 125 : "Operation canceled" , 130 : "Previous owner died" , 131 : "State not recoverable" } ;
var _ _ _errno _state = 0 ; function _ _ _setErrNo ( value ) {
// For convenient setting and returning of errno.
HEAP32 [ ( ( _ _ _errno _state ) >> 2 ) ] = value ;
return value ;
}
var TTY = { ttys : [ ] , init : function ( ) {
// https://github.com/kripken/emscripten/pull/1555
// if (ENVIRONMENT_IS_NODE) {
// // currently, FS.init does not distinguish if process.stdin is a file or TTY
// // device, it always assumes it's a TTY device. because of this, we're forcing
// // process.stdin to UTF8 encoding to at least make stdin reading compatible
// // with text files until FS.init can be refactored.
// process['stdin']['setEncoding']('utf8');
// }
} , shutdown : function ( ) {
// https://github.com/kripken/emscripten/pull/1555
// if (ENVIRONMENT_IS_NODE) {
// // inolen: any idea as to why node -e 'process.stdin.read()' wouldn't exit immediately (with process.stdin being a tty)?
// // isaacs: because now it's reading from the stream, you've expressed interest in it, so that read() kicks off a _read() which creates a ReadReq operation
// // inolen: I thought read() in that case was a synchronous operation that just grabbed some amount of buffered data if it exists?
// // isaacs: it is. but it also triggers a _read() call, which calls readStart() on the handle
// // isaacs: do process.stdin.pause() and i'd think it'd probably close the pending call
// process['stdin']['pause']();
// }
} , register : function ( dev , ops ) {
TTY . ttys [ dev ] = { input : [ ] , output : [ ] , ops : ops } ;
FS . registerDevice ( dev , TTY . stream _ops ) ;
} , stream _ops : { open : function ( stream ) {
var tty = TTY . ttys [ stream . node . rdev ] ;
if ( ! tty ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENODEV ) ;
}
stream . tty = tty ;
stream . seekable = false ;
} , close : function ( stream ) {
// flush any pending line data
if ( stream . tty . output . length ) {
stream . tty . ops . put _char ( stream . tty , 10 ) ;
}
} , read : function ( stream , buffer , offset , length , pos /* ignored */ ) {
if ( ! stream . tty || ! stream . tty . ops . get _char ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENXIO ) ;
}
var bytesRead = 0 ;
for ( var i = 0 ; i < length ; i ++ ) {
var result ;
try {
result = stream . tty . ops . get _char ( stream . tty ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
if ( result === undefined && bytesRead === 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EAGAIN ) ;
}
if ( result === null || result === undefined ) break ;
bytesRead ++ ;
buffer [ offset + i ] = result ;
}
if ( bytesRead ) {
stream . node . timestamp = Date . now ( ) ;
}
return bytesRead ;
} , write : function ( stream , buffer , offset , length , pos ) {
if ( ! stream . tty || ! stream . tty . ops . put _char ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENXIO ) ;
}
for ( var i = 0 ; i < length ; i ++ ) {
try {
stream . tty . ops . put _char ( stream . tty , buffer [ offset + i ] ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
}
if ( length ) {
stream . node . timestamp = Date . now ( ) ;
}
return i ;
} } , default _tty _ops : { get _char : function ( tty ) {
if ( ! tty . input . length ) {
var result = null ;
if ( ENVIRONMENT _IS _NODE ) {
result = process [ 'stdin' ] [ 'read' ] ( ) ;
if ( ! result ) {
if ( process [ 'stdin' ] [ '_readableState' ] && process [ 'stdin' ] [ '_readableState' ] [ 'ended' ] ) {
return null ; // EOF
}
return undefined ; // no data available
}
} else if ( typeof window != 'undefined' &&
typeof window . prompt == 'function' ) {
// Browser.
result = window . prompt ( 'Input: ' ) ; // returns null on cancel
if ( result !== null ) {
result += '\n' ;
}
} else if ( typeof readline == 'function' ) {
// Command line.
result = readline ( ) ;
if ( result !== null ) {
result += '\n' ;
}
}
if ( ! result ) {
return null ;
}
tty . input = intArrayFromString ( result , true ) ;
}
return tty . input . shift ( ) ;
} , put _char : function ( tty , val ) {
if ( val === null || val === 10 ) {
Module [ 'print' ] ( tty . output . join ( '' ) ) ;
tty . output = [ ] ;
} else {
tty . output . push ( TTY . utf8 . processCChar ( val ) ) ;
}
} } , default _tty1 _ops : { put _char : function ( tty , val ) {
if ( val === null || val === 10 ) {
Module [ 'printErr' ] ( tty . output . join ( '' ) ) ;
tty . output = [ ] ;
} else {
tty . output . push ( TTY . utf8 . processCChar ( val ) ) ;
}
} } } ;
var MEMFS = { ops _table : null , CONTENT _OWNING : 1 , CONTENT _FLEXIBLE : 2 , CONTENT _FIXED : 3 , mount : function ( mount ) {
return MEMFS . createNode ( null , '/' , 16384 | 511 /* 0777 */ , 0 ) ;
} , createNode : function ( parent , name , mode , dev ) {
if ( FS . isBlkdev ( mode ) || FS . isFIFO ( mode ) ) {
// no supported
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
if ( ! MEMFS . ops _table ) {
MEMFS . ops _table = {
dir : {
node : {
getattr : MEMFS . node _ops . getattr ,
setattr : MEMFS . node _ops . setattr ,
lookup : MEMFS . node _ops . lookup ,
mknod : MEMFS . node _ops . mknod ,
rename : MEMFS . node _ops . rename ,
unlink : MEMFS . node _ops . unlink ,
rmdir : MEMFS . node _ops . rmdir ,
readdir : MEMFS . node _ops . readdir ,
symlink : MEMFS . node _ops . symlink
} ,
stream : {
llseek : MEMFS . stream _ops . llseek
}
} ,
file : {
node : {
getattr : MEMFS . node _ops . getattr ,
setattr : MEMFS . node _ops . setattr
} ,
stream : {
llseek : MEMFS . stream _ops . llseek ,
read : MEMFS . stream _ops . read ,
write : MEMFS . stream _ops . write ,
allocate : MEMFS . stream _ops . allocate ,
mmap : MEMFS . stream _ops . mmap
}
} ,
link : {
node : {
getattr : MEMFS . node _ops . getattr ,
setattr : MEMFS . node _ops . setattr ,
readlink : MEMFS . node _ops . readlink
} ,
stream : { }
} ,
chrdev : {
node : {
getattr : MEMFS . node _ops . getattr ,
setattr : MEMFS . node _ops . setattr
} ,
stream : FS . chrdev _stream _ops
} ,
} ;
}
var node = FS . createNode ( parent , name , mode , dev ) ;
if ( FS . isDir ( node . mode ) ) {
node . node _ops = MEMFS . ops _table . dir . node ;
node . stream _ops = MEMFS . ops _table . dir . stream ;
node . contents = { } ;
} else if ( FS . isFile ( node . mode ) ) {
node . node _ops = MEMFS . ops _table . file . node ;
node . stream _ops = MEMFS . ops _table . file . stream ;
node . contents = [ ] ;
node . contentMode = MEMFS . CONTENT _FLEXIBLE ;
} else if ( FS . isLink ( node . mode ) ) {
node . node _ops = MEMFS . ops _table . link . node ;
node . stream _ops = MEMFS . ops _table . link . stream ;
} else if ( FS . isChrdev ( node . mode ) ) {
node . node _ops = MEMFS . ops _table . chrdev . node ;
node . stream _ops = MEMFS . ops _table . chrdev . stream ;
}
node . timestamp = Date . now ( ) ;
// add the new node to the parent
if ( parent ) {
parent . contents [ name ] = node ;
}
return node ;
} , ensureFlexible : function ( node ) {
if ( node . contentMode !== MEMFS . CONTENT _FLEXIBLE ) {
var contents = node . contents ;
node . contents = Array . prototype . slice . call ( contents ) ;
node . contentMode = MEMFS . CONTENT _FLEXIBLE ;
}
} , node _ops : { getattr : function ( node ) {
var attr = { } ;
// device numbers reuse inode numbers.
attr . dev = FS . isChrdev ( node . mode ) ? node . id : 1 ;
attr . ino = node . id ;
attr . mode = node . mode ;
attr . nlink = 1 ;
attr . uid = 0 ;
attr . gid = 0 ;
attr . rdev = node . rdev ;
if ( FS . isDir ( node . mode ) ) {
attr . size = 4096 ;
} else if ( FS . isFile ( node . mode ) ) {
attr . size = node . contents . length ;
} else if ( FS . isLink ( node . mode ) ) {
attr . size = node . link . length ;
} else {
attr . size = 0 ;
}
attr . atime = new Date ( node . timestamp ) ;
attr . mtime = new Date ( node . timestamp ) ;
attr . ctime = new Date ( node . timestamp ) ;
// NOTE: In our implementation, st_blocks = Math.ceil(st_size/st_blksize),
// but this is not required by the standard.
attr . blksize = 4096 ;
attr . blocks = Math . ceil ( attr . size / attr . blksize ) ;
return attr ;
} , setattr : function ( node , attr ) {
if ( attr . mode !== undefined ) {
node . mode = attr . mode ;
}
if ( attr . timestamp !== undefined ) {
node . timestamp = attr . timestamp ;
}
if ( attr . size !== undefined ) {
MEMFS . ensureFlexible ( node ) ;
var contents = node . contents ;
if ( attr . size < contents . length ) contents . length = attr . size ;
else while ( attr . size > contents . length ) contents . push ( 0 ) ;
}
} , lookup : function ( parent , name ) {
throw FS . genericErrors [ ERRNO _CODES . ENOENT ] ;
} , mknod : function ( parent , name , mode , dev ) {
return MEMFS . createNode ( parent , name , mode , dev ) ;
} , rename : function ( old _node , new _dir , new _name ) {
// if we're overwriting a directory at new_name, make sure it's empty.
if ( FS . isDir ( old _node . mode ) ) {
var new _node ;
try {
new _node = FS . lookupNode ( new _dir , new _name ) ;
} catch ( e ) {
}
if ( new _node ) {
for ( var i in new _node . contents ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTEMPTY ) ;
}
}
}
// do the internal rewiring
delete old _node . parent . contents [ old _node . name ] ;
old _node . name = new _name ;
new _dir . contents [ new _name ] = old _node ;
old _node . parent = new _dir ;
} , unlink : function ( parent , name ) {
delete parent . contents [ name ] ;
} , rmdir : function ( parent , name ) {
var node = FS . lookupNode ( parent , name ) ;
for ( var i in node . contents ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTEMPTY ) ;
}
delete parent . contents [ name ] ;
} , readdir : function ( node ) {
var entries = [ '.' , '..' ]
for ( var key in node . contents ) {
if ( ! node . contents . hasOwnProperty ( key ) ) {
continue ;
}
entries . push ( key ) ;
}
return entries ;
} , symlink : function ( parent , newname , oldpath ) {
var node = MEMFS . createNode ( parent , newname , 511 /* 0777 */ | 40960 , 0 ) ;
node . link = oldpath ;
return node ;
} , readlink : function ( node ) {
if ( ! FS . isLink ( node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
return node . link ;
} } , stream _ops : { read : function ( stream , buffer , offset , length , position ) {
var contents = stream . node . contents ;
if ( position >= contents . length )
return 0 ;
var size = Math . min ( contents . length - position , length ) ;
assert ( size >= 0 ) ;
if ( size > 8 && contents . subarray ) { // non-trivial, and typed array
buffer . set ( contents . subarray ( position , position + size ) , offset ) ;
} else
{
for ( var i = 0 ; i < size ; i ++ ) {
buffer [ offset + i ] = contents [ position + i ] ;
}
}
return size ;
} , write : function ( stream , buffer , offset , length , position , canOwn ) {
var node = stream . node ;
node . timestamp = Date . now ( ) ;
var contents = node . contents ;
if ( length && contents . length === 0 && position === 0 && buffer . subarray ) {
// just replace it with the new data
if ( canOwn && offset === 0 ) {
node . contents = buffer ; // this could be a subarray of Emscripten HEAP, or allocated from some other source.
node . contentMode = ( buffer . buffer === HEAP8 . buffer ) ? MEMFS . CONTENT _OWNING : MEMFS . CONTENT _FIXED ;
} else {
node . contents = new Uint8Array ( buffer . subarray ( offset , offset + length ) ) ;
node . contentMode = MEMFS . CONTENT _FIXED ;
}
return length ;
}
MEMFS . ensureFlexible ( node ) ;
var contents = node . contents ;
while ( contents . length < position ) contents . push ( 0 ) ;
for ( var i = 0 ; i < length ; i ++ ) {
contents [ position + i ] = buffer [ offset + i ] ;
}
return length ;
} , llseek : function ( stream , offset , whence ) {
var position = offset ;
if ( whence === 1 ) { // SEEK_CUR.
position += stream . position ;
} else if ( whence === 2 ) { // SEEK_END.
if ( FS . isFile ( stream . node . mode ) ) {
position += stream . node . contents . length ;
}
}
if ( position < 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
stream . ungotten = [ ] ;
stream . position = position ;
return position ;
} , allocate : function ( stream , offset , length ) {
MEMFS . ensureFlexible ( stream . node ) ;
var contents = stream . node . contents ;
var limit = offset + length ;
while ( limit > contents . length ) contents . push ( 0 ) ;
} , mmap : function ( stream , buffer , offset , length , position , prot , flags ) {
if ( ! FS . isFile ( stream . node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENODEV ) ;
}
var ptr ;
var allocated ;
var contents = stream . node . contents ;
// Only make a new copy when MAP_PRIVATE is specified.
if ( ! ( flags & 2 ) &&
( contents . buffer === buffer || contents . buffer === buffer . buffer ) ) {
// We can't emulate MAP_SHARED when the file is not backed by the buffer
// we're mapping to (e.g. the HEAP buffer).
allocated = false ;
ptr = contents . byteOffset ;
} else {
// Try to avoid unnecessary slices.
if ( position > 0 || position + length < contents . length ) {
if ( contents . subarray ) {
contents = contents . subarray ( position , position + length ) ;
} else {
contents = Array . prototype . slice . call ( contents , position , position + length ) ;
}
}
allocated = true ;
ptr = _malloc ( length ) ;
if ( ! ptr ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOMEM ) ;
}
buffer . set ( contents , ptr ) ;
}
return { ptr : ptr , allocated : allocated } ;
} } } ;
var IDBFS = { dbs : { } , indexedDB : function ( ) {
return window . indexedDB || window . mozIndexedDB || window . webkitIndexedDB || window . msIndexedDB ;
} , DB _VERSION : 21 , DB _STORE _NAME : "FILE_DATA" , mount : function ( mount ) {
// reuse all of the core MEMFS functionality
return MEMFS . mount . apply ( null , arguments ) ;
} , syncfs : function ( mount , populate , callback ) {
IDBFS . getLocalSet ( mount , function ( err , local ) {
if ( err ) return callback ( err ) ;
IDBFS . getRemoteSet ( mount , function ( err , remote ) {
if ( err ) return callback ( err ) ;
var src = populate ? remote : local ;
var dst = populate ? local : remote ;
IDBFS . reconcile ( src , dst , callback ) ;
} ) ;
} ) ;
} , getDB : function ( name , callback ) {
// check the cache first
var db = IDBFS . dbs [ name ] ;
if ( db ) {
return callback ( null , db ) ;
}
var req ;
try {
req = IDBFS . indexedDB ( ) . open ( name , IDBFS . DB _VERSION ) ;
} catch ( e ) {
return callback ( e ) ;
}
req . onupgradeneeded = function ( e ) {
var db = e . target . result ;
var transaction = e . target . transaction ;
var fileStore ;
if ( db . objectStoreNames . contains ( IDBFS . DB _STORE _NAME ) ) {
fileStore = transaction . objectStore ( IDBFS . DB _STORE _NAME ) ;
} else {
fileStore = db . createObjectStore ( IDBFS . DB _STORE _NAME ) ;
}
fileStore . createIndex ( 'timestamp' , 'timestamp' , { unique : false } ) ;
} ;
req . onsuccess = function ( ) {
db = req . result ;
// add to the cache
IDBFS . dbs [ name ] = db ;
callback ( null , db ) ;
} ;
req . onerror = function ( ) {
callback ( this . error ) ;
} ;
} , getLocalSet : function ( mount , callback ) {
var entries = { } ;
function isRealDir ( p ) {
return p !== '.' && p !== '..' ;
} ;
function toAbsolute ( root ) {
return function ( p ) {
return PATH . join2 ( root , p ) ;
}
} ;
var check = FS . readdir ( mount . mountpoint ) . filter ( isRealDir ) . map ( toAbsolute ( mount . mountpoint ) ) ;
while ( check . length ) {
var path = check . pop ( ) ;
var stat ;
try {
stat = FS . stat ( path ) ;
} catch ( e ) {
return callback ( e ) ;
}
if ( FS . isDir ( stat . mode ) ) {
check . push . apply ( check , FS . readdir ( path ) . filter ( isRealDir ) . map ( toAbsolute ( path ) ) ) ;
}
entries [ path ] = { timestamp : stat . mtime } ;
}
return callback ( null , { type : 'local' , entries : entries } ) ;
} , getRemoteSet : function ( mount , callback ) {
var entries = { } ;
IDBFS . getDB ( mount . mountpoint , function ( err , db ) {
if ( err ) return callback ( err ) ;
var transaction = db . transaction ( [ IDBFS . DB _STORE _NAME ] , 'readonly' ) ;
transaction . onerror = function ( ) { callback ( this . error ) ; } ;
var store = transaction . objectStore ( IDBFS . DB _STORE _NAME ) ;
var index = store . index ( 'timestamp' ) ;
index . openKeyCursor ( ) . onsuccess = function ( event ) {
var cursor = event . target . result ;
if ( ! cursor ) {
return callback ( null , { type : 'remote' , db : db , entries : entries } ) ;
}
entries [ cursor . primaryKey ] = { timestamp : cursor . key } ;
cursor . continue ( ) ;
} ;
} ) ;
} , loadLocalEntry : function ( path , callback ) {
var stat , node ;
try {
var lookup = FS . lookupPath ( path ) ;
node = lookup . node ;
stat = FS . stat ( path ) ;
} catch ( e ) {
return callback ( e ) ;
}
if ( FS . isDir ( stat . mode ) ) {
return callback ( null , { timestamp : stat . mtime , mode : stat . mode } ) ;
} else if ( FS . isFile ( stat . mode ) ) {
return callback ( null , { timestamp : stat . mtime , mode : stat . mode , contents : node . contents } ) ;
} else {
return callback ( new Error ( 'node type not supported' ) ) ;
}
} , storeLocalEntry : function ( path , entry , callback ) {
try {
if ( FS . isDir ( entry . mode ) ) {
FS . mkdir ( path , entry . mode ) ;
} else if ( FS . isFile ( entry . mode ) ) {
FS . writeFile ( path , entry . contents , { encoding : 'binary' , canOwn : true } ) ;
} else {
return callback ( new Error ( 'node type not supported' ) ) ;
}
FS . utime ( path , entry . timestamp , entry . timestamp ) ;
} catch ( e ) {
return callback ( e ) ;
}
callback ( null ) ;
} , removeLocalEntry : function ( path , callback ) {
try {
var lookup = FS . lookupPath ( path ) ;
var stat = FS . stat ( path ) ;
if ( FS . isDir ( stat . mode ) ) {
FS . rmdir ( path ) ;
} else if ( FS . isFile ( stat . mode ) ) {
FS . unlink ( path ) ;
}
} catch ( e ) {
return callback ( e ) ;
}
callback ( null ) ;
} , loadRemoteEntry : function ( store , path , callback ) {
var req = store . get ( path ) ;
req . onsuccess = function ( event ) { callback ( null , event . target . result ) ; } ;
req . onerror = function ( ) { callback ( this . error ) ; } ;
} , storeRemoteEntry : function ( store , path , entry , callback ) {
var req = store . put ( entry , path ) ;
req . onsuccess = function ( ) { callback ( null ) ; } ;
req . onerror = function ( ) { callback ( this . error ) ; } ;
} , removeRemoteEntry : function ( store , path , callback ) {
var req = store . delete ( path ) ;
req . onsuccess = function ( ) { callback ( null ) ; } ;
req . onerror = function ( ) { callback ( this . error ) ; } ;
} , reconcile : function ( src , dst , callback ) {
var total = 0 ;
var create = [ ] ;
Object . keys ( src . entries ) . forEach ( function ( key ) {
var e = src . entries [ key ] ;
var e2 = dst . entries [ key ] ;
if ( ! e2 || e . timestamp > e2 . timestamp ) {
create . push ( key ) ;
total ++ ;
}
} ) ;
var remove = [ ] ;
Object . keys ( dst . entries ) . forEach ( function ( key ) {
var e = dst . entries [ key ] ;
var e2 = src . entries [ key ] ;
if ( ! e2 ) {
remove . push ( key ) ;
total ++ ;
}
} ) ;
if ( ! total ) {
return callback ( null ) ;
}
var errored = false ;
var completed = 0 ;
var db = src . type === 'remote' ? src . db : dst . db ;
var transaction = db . transaction ( [ IDBFS . DB _STORE _NAME ] , 'readwrite' ) ;
var store = transaction . objectStore ( IDBFS . DB _STORE _NAME ) ;
function done ( err ) {
if ( err ) {
if ( ! done . errored ) {
done . errored = true ;
return callback ( err ) ;
}
return ;
}
if ( ++ completed >= total ) {
return callback ( null ) ;
}
} ;
transaction . onerror = function ( ) { done ( this . error ) ; } ;
// sort paths in ascending order so directory entries are created
// before the files inside them
create . sort ( ) . forEach ( function ( path ) {
if ( dst . type === 'local' ) {
IDBFS . loadRemoteEntry ( store , path , function ( err , entry ) {
if ( err ) return done ( err ) ;
IDBFS . storeLocalEntry ( path , entry , done ) ;
} ) ;
} else {
IDBFS . loadLocalEntry ( path , function ( err , entry ) {
if ( err ) return done ( err ) ;
IDBFS . storeRemoteEntry ( store , path , entry , done ) ;
} ) ;
}
} ) ;
// sort paths in descending order so files are deleted before their
// parent directories
remove . sort ( ) . reverse ( ) . forEach ( function ( path ) {
if ( dst . type === 'local' ) {
IDBFS . removeLocalEntry ( path , done ) ;
} else {
IDBFS . removeRemoteEntry ( store , path , done ) ;
}
} ) ;
} } ;
var NODEFS = { isWindows : false , staticInit : function ( ) {
NODEFS . isWindows = ! ! process . platform . match ( /^win/ ) ;
} , mount : function ( mount ) {
assert ( ENVIRONMENT _IS _NODE ) ;
return NODEFS . createNode ( null , '/' , NODEFS . getMode ( mount . opts . root ) , 0 ) ;
} , createNode : function ( parent , name , mode , dev ) {
if ( ! FS . isDir ( mode ) && ! FS . isFile ( mode ) && ! FS . isLink ( mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var node = FS . createNode ( parent , name , mode ) ;
node . node _ops = NODEFS . node _ops ;
node . stream _ops = NODEFS . stream _ops ;
return node ;
} , getMode : function ( path ) {
var stat ;
try {
stat = fs . lstatSync ( path ) ;
if ( NODEFS . isWindows ) {
// On Windows, directories return permission bits 'rw-rw-rw-', even though they have 'rwxrwxrwx', so
// propagate write bits to execute bits.
stat . mode = stat . mode | ( ( stat . mode & 146 ) >> 1 ) ;
}
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
return stat . mode ;
} , realPath : function ( node ) {
var parts = [ ] ;
while ( node . parent !== node ) {
parts . push ( node . name ) ;
node = node . parent ;
}
parts . push ( node . mount . opts . root ) ;
parts . reverse ( ) ;
return PATH . join . apply ( null , parts ) ;
} , flagsToPermissionStringMap : { 0 : "r" , 1 : "r+" , 2 : "r+" , 64 : "r" , 65 : "r+" , 66 : "r+" , 129 : "rx+" , 193 : "rx+" , 514 : "w+" , 577 : "w" , 578 : "w+" , 705 : "wx" , 706 : "wx+" , 1024 : "a" , 1025 : "a" , 1026 : "a+" , 1089 : "a" , 1090 : "a+" , 1153 : "ax" , 1154 : "ax+" , 1217 : "ax" , 1218 : "ax+" , 4096 : "rs" , 4098 : "rs+" } , flagsToPermissionString : function ( flags ) {
if ( flags in NODEFS . flagsToPermissionStringMap ) {
return NODEFS . flagsToPermissionStringMap [ flags ] ;
} else {
return flags ;
}
} , node _ops : { getattr : function ( node ) {
var path = NODEFS . realPath ( node ) ;
var stat ;
try {
stat = fs . lstatSync ( path ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
// node.js v0.10.20 doesn't report blksize and blocks on Windows. Fake them with default blksize of 4096.
// See http://support.microsoft.com/kb/140365
if ( NODEFS . isWindows && ! stat . blksize ) {
stat . blksize = 4096 ;
}
if ( NODEFS . isWindows && ! stat . blocks ) {
stat . blocks = ( stat . size + stat . blksize - 1 ) / stat . blksize | 0 ;
}
return {
dev : stat . dev ,
ino : stat . ino ,
mode : stat . mode ,
nlink : stat . nlink ,
uid : stat . uid ,
gid : stat . gid ,
rdev : stat . rdev ,
size : stat . size ,
atime : stat . atime ,
mtime : stat . mtime ,
ctime : stat . ctime ,
blksize : stat . blksize ,
blocks : stat . blocks
} ;
} , setattr : function ( node , attr ) {
var path = NODEFS . realPath ( node ) ;
try {
if ( attr . mode !== undefined ) {
fs . chmodSync ( path , attr . mode ) ;
// update the common node structure mode as well
node . mode = attr . mode ;
}
if ( attr . timestamp !== undefined ) {
var date = new Date ( attr . timestamp ) ;
fs . utimesSync ( path , date , date ) ;
}
if ( attr . size !== undefined ) {
fs . truncateSync ( path , attr . size ) ;
}
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , lookup : function ( parent , name ) {
var path = PATH . join2 ( NODEFS . realPath ( parent ) , name ) ;
var mode = NODEFS . getMode ( path ) ;
return NODEFS . createNode ( parent , name , mode ) ;
} , mknod : function ( parent , name , mode , dev ) {
var node = NODEFS . createNode ( parent , name , mode , dev ) ;
// create the backing node for this in the fs root as well
var path = NODEFS . realPath ( node ) ;
try {
if ( FS . isDir ( node . mode ) ) {
fs . mkdirSync ( path , node . mode ) ;
} else {
fs . writeFileSync ( path , '' , { mode : node . mode } ) ;
}
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
return node ;
} , rename : function ( oldNode , newDir , newName ) {
var oldPath = NODEFS . realPath ( oldNode ) ;
var newPath = PATH . join2 ( NODEFS . realPath ( newDir ) , newName ) ;
try {
fs . renameSync ( oldPath , newPath ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , unlink : function ( parent , name ) {
var path = PATH . join2 ( NODEFS . realPath ( parent ) , name ) ;
try {
fs . unlinkSync ( path ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , rmdir : function ( parent , name ) {
var path = PATH . join2 ( NODEFS . realPath ( parent ) , name ) ;
try {
fs . rmdirSync ( path ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , readdir : function ( node ) {
var path = NODEFS . realPath ( node ) ;
try {
return fs . readdirSync ( path ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , symlink : function ( parent , newName , oldPath ) {
var newPath = PATH . join2 ( NODEFS . realPath ( parent ) , newName ) ;
try {
fs . symlinkSync ( oldPath , newPath ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , readlink : function ( node ) {
var path = NODEFS . realPath ( node ) ;
try {
return fs . readlinkSync ( path ) ;
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} } , stream _ops : { open : function ( stream ) {
var path = NODEFS . realPath ( stream . node ) ;
try {
if ( FS . isFile ( stream . node . mode ) ) {
stream . nfd = fs . openSync ( path , NODEFS . flagsToPermissionString ( stream . flags ) ) ;
}
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , close : function ( stream ) {
try {
if ( FS . isFile ( stream . node . mode ) && stream . nfd ) {
fs . closeSync ( stream . nfd ) ;
}
} catch ( e ) {
if ( ! e . code ) throw e ;
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
} , read : function ( stream , buffer , offset , length , position ) {
// FIXME this is terrible.
var nbuffer = new Buffer ( length ) ;
var res ;
try {
res = fs . readSync ( stream . nfd , nbuffer , 0 , length , position ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
if ( res > 0 ) {
for ( var i = 0 ; i < res ; i ++ ) {
buffer [ offset + i ] = nbuffer [ i ] ;
}
}
return res ;
} , write : function ( stream , buffer , offset , length , position ) {
// FIXME this is terrible.
var nbuffer = new Buffer ( buffer . subarray ( offset , offset + length ) ) ;
var res ;
try {
res = fs . writeSync ( stream . nfd , nbuffer , 0 , length , position ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
return res ;
} , llseek : function ( stream , offset , whence ) {
var position = offset ;
if ( whence === 1 ) { // SEEK_CUR.
position += stream . position ;
} else if ( whence === 2 ) { // SEEK_END.
if ( FS . isFile ( stream . node . mode ) ) {
try {
var stat = fs . fstatSync ( stream . nfd ) ;
position += stat . size ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES [ e . code ] ) ;
}
}
}
if ( position < 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
stream . position = position ;
return position ;
} } } ;
var _stdin = allocate ( 1 , "i32*" , ALLOC _STATIC ) ;
var _stdout = allocate ( 1 , "i32*" , ALLOC _STATIC ) ;
var _stderr = allocate ( 1 , "i32*" , ALLOC _STATIC ) ;
function _fflush ( stream ) {
// int fflush(FILE *stream);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/fflush.html
// we don't currently perform any user-space buffering of data
} var FS = { root : null , mounts : [ ] , devices : [ null ] , streams : [ ] , nextInode : 1 , nameTable : null , currentPath : "/" , initialized : false , ignorePermissions : true , ErrnoError : null , genericErrors : { } , handleFSError : function ( e ) {
if ( ! ( e instanceof FS . ErrnoError ) ) throw e + ' : ' + stackTrace ( ) ;
return _ _ _setErrNo ( e . errno ) ;
} , lookupPath : function ( path , opts ) {
path = PATH . resolve ( FS . cwd ( ) , path ) ;
opts = opts || { } ;
var defaults = {
follow _mount : true ,
recurse _count : 0
} ;
for ( var key in defaults ) {
if ( opts [ key ] === undefined ) {
opts [ key ] = defaults [ key ] ;
}
}
if ( opts . recurse _count > 8 ) { // max recursive lookup of 8
throw new FS . ErrnoError ( ERRNO _CODES . ELOOP ) ;
}
// split the path
var parts = PATH . normalizeArray ( path . split ( '/' ) . filter ( function ( p ) {
return ! ! p ;
} ) , false ) ;
// start at the root
var current = FS . root ;
var current _path = '/' ;
for ( var i = 0 ; i < parts . length ; i ++ ) {
var islast = ( i === parts . length - 1 ) ;
if ( islast && opts . parent ) {
// stop resolving
break ;
}
current = FS . lookupNode ( current , parts [ i ] ) ;
current _path = PATH . join2 ( current _path , parts [ i ] ) ;
// jump to the mount's root node if this is a mountpoint
if ( FS . isMountpoint ( current ) ) {
if ( ! islast || ( islast && opts . follow _mount ) ) {
current = current . mounted . root ;
}
}
// by default, lookupPath will not follow a symlink if it is the final path component.
// setting opts.follow = true will override this behavior.
if ( ! islast || opts . follow ) {
var count = 0 ;
while ( FS . isLink ( current . mode ) ) {
var link = FS . readlink ( current _path ) ;
current _path = PATH . resolve ( PATH . dirname ( current _path ) , link ) ;
var lookup = FS . lookupPath ( current _path , { recurse _count : opts . recurse _count } ) ;
current = lookup . node ;
if ( count ++ > 40 ) { // limit max consecutive symlinks to 40 (SYMLOOP_MAX).
throw new FS . ErrnoError ( ERRNO _CODES . ELOOP ) ;
}
}
}
}
return { path : current _path , node : current } ;
} , getPath : function ( node ) {
var path ;
while ( true ) {
if ( FS . isRoot ( node ) ) {
var mount = node . mount . mountpoint ;
if ( ! path ) return mount ;
return mount [ mount . length - 1 ] !== '/' ? mount + '/' + path : mount + path ;
}
path = path ? node . name + '/' + path : node . name ;
node = node . parent ;
}
} , hashName : function ( parentid , name ) {
var hash = 0 ;
for ( var i = 0 ; i < name . length ; i ++ ) {
hash = ( ( hash << 5 ) - hash + name . charCodeAt ( i ) ) | 0 ;
}
return ( ( parentid + hash ) >>> 0 ) % FS . nameTable . length ;
} , hashAddNode : function ( node ) {
var hash = FS . hashName ( node . parent . id , node . name ) ;
node . name _next = FS . nameTable [ hash ] ;
FS . nameTable [ hash ] = node ;
} , hashRemoveNode : function ( node ) {
var hash = FS . hashName ( node . parent . id , node . name ) ;
if ( FS . nameTable [ hash ] === node ) {
FS . nameTable [ hash ] = node . name _next ;
} else {
var current = FS . nameTable [ hash ] ;
while ( current ) {
if ( current . name _next === node ) {
current . name _next = node . name _next ;
break ;
}
current = current . name _next ;
}
}
} , lookupNode : function ( parent , name ) {
var err = FS . mayLookup ( parent ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
var hash = FS . hashName ( parent . id , name ) ;
for ( var node = FS . nameTable [ hash ] ; node ; node = node . name _next ) {
var nodeName = node . name ;
if ( node . parent . id === parent . id && nodeName === name ) {
return node ;
}
}
// if we failed to find it in the cache, call into the VFS
return FS . lookup ( parent , name ) ;
} , createNode : function ( parent , name , mode , rdev ) {
if ( ! FS . FSNode ) {
FS . FSNode = function ( parent , name , mode , rdev ) {
if ( ! parent ) {
parent = this ; // root node sets parent to itself
}
this . parent = parent ;
this . mount = parent . mount ;
this . mounted = null ;
this . id = FS . nextInode ++ ;
this . name = name ;
this . mode = mode ;
this . node _ops = { } ;
this . stream _ops = { } ;
this . rdev = rdev ;
} ;
FS . FSNode . prototype = { } ;
// compatibility
var readMode = 292 | 73 ;
var writeMode = 146 ;
// NOTE we must use Object.defineProperties instead of individual calls to
// Object.defineProperty in order to make closure compiler happy
Object . defineProperties ( FS . FSNode . prototype , {
read : {
get : function ( ) { return ( this . mode & readMode ) === readMode ; } ,
set : function ( val ) { val ? this . mode |= readMode : this . mode &= ~ readMode ; }
} ,
write : {
get : function ( ) { return ( this . mode & writeMode ) === writeMode ; } ,
set : function ( val ) { val ? this . mode |= writeMode : this . mode &= ~ writeMode ; }
} ,
isFolder : {
get : function ( ) { return FS . isDir ( this . mode ) ; } ,
} ,
isDevice : {
get : function ( ) { return FS . isChrdev ( this . mode ) ; } ,
} ,
} ) ;
}
var node = new FS . FSNode ( parent , name , mode , rdev ) ;
FS . hashAddNode ( node ) ;
return node ;
} , destroyNode : function ( node ) {
FS . hashRemoveNode ( node ) ;
} , isRoot : function ( node ) {
return node === node . parent ;
} , isMountpoint : function ( node ) {
return ! ! node . mounted ;
} , isFile : function ( mode ) {
return ( mode & 61440 ) === 32768 ;
} , isDir : function ( mode ) {
return ( mode & 61440 ) === 16384 ;
} , isLink : function ( mode ) {
return ( mode & 61440 ) === 40960 ;
} , isChrdev : function ( mode ) {
return ( mode & 61440 ) === 8192 ;
} , isBlkdev : function ( mode ) {
return ( mode & 61440 ) === 24576 ;
} , isFIFO : function ( mode ) {
return ( mode & 61440 ) === 4096 ;
} , isSocket : function ( mode ) {
return ( mode & 49152 ) === 49152 ;
} , flagModes : { "r" : 0 , "rs" : 1052672 , "r+" : 2 , "w" : 577 , "wx" : 705 , "xw" : 705 , "w+" : 578 , "wx+" : 706 , "xw+" : 706 , "a" : 1089 , "ax" : 1217 , "xa" : 1217 , "a+" : 1090 , "ax+" : 1218 , "xa+" : 1218 } , modeStringToFlags : function ( str ) {
var flags = FS . flagModes [ str ] ;
if ( typeof flags === 'undefined' ) {
throw new Error ( 'Unknown file open mode: ' + str ) ;
}
return flags ;
} , flagsToPermissionString : function ( flag ) {
var accmode = flag & 2097155 ;
var perms = [ 'r' , 'w' , 'rw' ] [ accmode ] ;
if ( ( flag & 512 ) ) {
perms += 'w' ;
}
return perms ;
} , nodePermissions : function ( node , perms ) {
if ( FS . ignorePermissions ) {
return 0 ;
}
// return 0 if any user, group or owner bits are set.
if ( perms . indexOf ( 'r' ) !== - 1 && ! ( node . mode & 292 ) ) {
return ERRNO _CODES . EACCES ;
} else if ( perms . indexOf ( 'w' ) !== - 1 && ! ( node . mode & 146 ) ) {
return ERRNO _CODES . EACCES ;
} else if ( perms . indexOf ( 'x' ) !== - 1 && ! ( node . mode & 73 ) ) {
return ERRNO _CODES . EACCES ;
}
return 0 ;
} , mayLookup : function ( dir ) {
return FS . nodePermissions ( dir , 'x' ) ;
} , mayCreate : function ( dir , name ) {
try {
var node = FS . lookupNode ( dir , name ) ;
return ERRNO _CODES . EEXIST ;
} catch ( e ) {
}
return FS . nodePermissions ( dir , 'wx' ) ;
} , mayDelete : function ( dir , name , isdir ) {
var node ;
try {
node = FS . lookupNode ( dir , name ) ;
} catch ( e ) {
return e . errno ;
}
var err = FS . nodePermissions ( dir , 'wx' ) ;
if ( err ) {
return err ;
}
if ( isdir ) {
if ( ! FS . isDir ( node . mode ) ) {
return ERRNO _CODES . ENOTDIR ;
}
if ( FS . isRoot ( node ) || FS . getPath ( node ) === FS . cwd ( ) ) {
return ERRNO _CODES . EBUSY ;
}
} else {
if ( FS . isDir ( node . mode ) ) {
return ERRNO _CODES . EISDIR ;
}
}
return 0 ;
} , mayOpen : function ( node , flags ) {
if ( ! node ) {
return ERRNO _CODES . ENOENT ;
}
if ( FS . isLink ( node . mode ) ) {
return ERRNO _CODES . ELOOP ;
} else if ( FS . isDir ( node . mode ) ) {
if ( ( flags & 2097155 ) !== 0 || // opening for write
( flags & 512 ) ) {
return ERRNO _CODES . EISDIR ;
}
}
return FS . nodePermissions ( node , FS . flagsToPermissionString ( flags ) ) ;
} , MAX _OPEN _FDS : 4096 , nextfd : function ( fd _start , fd _end ) {
fd _start = fd _start || 0 ;
fd _end = fd _end || FS . MAX _OPEN _FDS ;
for ( var fd = fd _start ; fd <= fd _end ; fd ++ ) {
if ( ! FS . streams [ fd ] ) {
return fd ;
}
}
throw new FS . ErrnoError ( ERRNO _CODES . EMFILE ) ;
} , getStream : function ( fd ) {
return FS . streams [ fd ] ;
} , createStream : function ( stream , fd _start , fd _end ) {
if ( ! FS . FSStream ) {
FS . FSStream = function ( ) { } ;
FS . FSStream . prototype = { } ;
// compatibility
Object . defineProperties ( FS . FSStream . prototype , {
object : {
get : function ( ) { return this . node ; } ,
set : function ( val ) { this . node = val ; }
} ,
isRead : {
get : function ( ) { return ( this . flags & 2097155 ) !== 1 ; }
} ,
isWrite : {
get : function ( ) { return ( this . flags & 2097155 ) !== 0 ; }
} ,
isAppend : {
get : function ( ) { return ( this . flags & 1024 ) ; }
}
} ) ;
}
if ( 0 ) {
// reuse the object
stream . _ _proto _ _ = FS . FSStream . prototype ;
} else {
var newStream = new FS . FSStream ( ) ;
for ( var p in stream ) {
newStream [ p ] = stream [ p ] ;
}
stream = newStream ;
}
var fd = FS . nextfd ( fd _start , fd _end ) ;
stream . fd = fd ;
FS . streams [ fd ] = stream ;
return stream ;
} , closeStream : function ( fd ) {
FS . streams [ fd ] = null ;
} , getStreamFromPtr : function ( ptr ) {
return FS . streams [ ptr - 1 ] ;
} , getPtrForStream : function ( stream ) {
return stream ? stream . fd + 1 : 0 ;
} , chrdev _stream _ops : { open : function ( stream ) {
var device = FS . getDevice ( stream . node . rdev ) ;
// override node's stream ops with the device's
stream . stream _ops = device . stream _ops ;
// forward the open call
if ( stream . stream _ops . open ) {
stream . stream _ops . open ( stream ) ;
}
} , llseek : function ( ) {
throw new FS . ErrnoError ( ERRNO _CODES . ESPIPE ) ;
} } , major : function ( dev ) {
return ( ( dev ) >> 8 ) ;
} , minor : function ( dev ) {
return ( ( dev ) & 0xff ) ;
} , makedev : function ( ma , mi ) {
return ( ( ma ) << 8 | ( mi ) ) ;
} , registerDevice : function ( dev , ops ) {
FS . devices [ dev ] = { stream _ops : ops } ;
} , getDevice : function ( dev ) {
return FS . devices [ dev ] ;
} , getMounts : function ( mount ) {
var mounts = [ ] ;
var check = [ mount ] ;
while ( check . length ) {
var m = check . pop ( ) ;
mounts . push ( m ) ;
check . push . apply ( check , m . mounts ) ;
}
return mounts ;
} , syncfs : function ( populate , callback ) {
if ( typeof ( populate ) === 'function' ) {
callback = populate ;
populate = false ;
}
var mounts = FS . getMounts ( FS . root . mount ) ;
var completed = 0 ;
function done ( err ) {
if ( err ) {
if ( ! done . errored ) {
done . errored = true ;
return callback ( err ) ;
}
return ;
}
if ( ++ completed >= mounts . length ) {
callback ( null ) ;
}
} ;
// sync all mounts
mounts . forEach ( function ( mount ) {
if ( ! mount . type . syncfs ) {
return done ( null ) ;
}
mount . type . syncfs ( mount , populate , done ) ;
} ) ;
} , mount : function ( type , opts , mountpoint ) {
var root = mountpoint === '/' ;
var pseudo = ! mountpoint ;
var node ;
if ( root && FS . root ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
} else if ( ! root && ! pseudo ) {
var lookup = FS . lookupPath ( mountpoint , { follow _mount : false } ) ;
mountpoint = lookup . path ; // use the absolute path
node = lookup . node ;
if ( FS . isMountpoint ( node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
}
if ( ! FS . isDir ( node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTDIR ) ;
}
}
var mount = {
type : type ,
opts : opts ,
mountpoint : mountpoint ,
mounts : [ ]
} ;
// create a root node for the fs
var mountRoot = type . mount ( mount ) ;
mountRoot . mount = mount ;
mount . root = mountRoot ;
if ( root ) {
FS . root = mountRoot ;
} else if ( node ) {
// set as a mountpoint
node . mounted = mount ;
// add the new mount to the current mount's children
if ( node . mount ) {
node . mount . mounts . push ( mount ) ;
}
}
return mountRoot ;
} , unmount : function ( mountpoint ) {
var lookup = FS . lookupPath ( mountpoint , { follow _mount : false } ) ;
if ( ! FS . isMountpoint ( lookup . node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
// destroy the nodes for this mount, and all its child mounts
var node = lookup . node ;
var mount = node . mounted ;
var mounts = FS . getMounts ( mount ) ;
Object . keys ( FS . nameTable ) . forEach ( function ( hash ) {
var current = FS . nameTable [ hash ] ;
while ( current ) {
var next = current . name _next ;
if ( mounts . indexOf ( current . mount ) !== - 1 ) {
FS . destroyNode ( current ) ;
}
current = next ;
}
} ) ;
// no longer a mountpoint
node . mounted = null ;
// remove this mount from the child mounts
var idx = node . mount . mounts . indexOf ( mount ) ;
assert ( idx !== - 1 ) ;
node . mount . mounts . splice ( idx , 1 ) ;
} , lookup : function ( parent , name ) {
return parent . node _ops . lookup ( parent , name ) ;
} , mknod : function ( path , mode , dev ) {
var lookup = FS . lookupPath ( path , { parent : true } ) ;
var parent = lookup . node ;
var name = PATH . basename ( path ) ;
var err = FS . mayCreate ( parent , name ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
if ( ! parent . node _ops . mknod ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
return parent . node _ops . mknod ( parent , name , mode , dev ) ;
} , create : function ( path , mode ) {
mode = mode !== undefined ? mode : 438 /* 0666 */ ;
mode &= 4095 ;
mode |= 32768 ;
return FS . mknod ( path , mode , 0 ) ;
} , mkdir : function ( path , mode ) {
mode = mode !== undefined ? mode : 511 /* 0777 */ ;
mode &= 511 | 512 ;
mode |= 16384 ;
return FS . mknod ( path , mode , 0 ) ;
} , mkdev : function ( path , mode , dev ) {
if ( typeof ( dev ) === 'undefined' ) {
dev = mode ;
mode = 438 /* 0666 */ ;
}
mode |= 8192 ;
return FS . mknod ( path , mode , dev ) ;
} , symlink : function ( oldpath , newpath ) {
var lookup = FS . lookupPath ( newpath , { parent : true } ) ;
var parent = lookup . node ;
var newname = PATH . basename ( newpath ) ;
var err = FS . mayCreate ( parent , newname ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
if ( ! parent . node _ops . symlink ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
return parent . node _ops . symlink ( parent , newname , oldpath ) ;
} , rename : function ( old _path , new _path ) {
var old _dirname = PATH . dirname ( old _path ) ;
var new _dirname = PATH . dirname ( new _path ) ;
var old _name = PATH . basename ( old _path ) ;
var new _name = PATH . basename ( new _path ) ;
// parents must exist
var lookup , old _dir , new _dir ;
try {
lookup = FS . lookupPath ( old _path , { parent : true } ) ;
old _dir = lookup . node ;
lookup = FS . lookupPath ( new _path , { parent : true } ) ;
new _dir = lookup . node ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
}
// need to be part of the same mount
if ( old _dir . mount !== new _dir . mount ) {
throw new FS . ErrnoError ( ERRNO _CODES . EXDEV ) ;
}
// source must exist
var old _node = FS . lookupNode ( old _dir , old _name ) ;
// old path should not be an ancestor of the new path
var relative = PATH . relative ( old _path , new _dirname ) ;
if ( relative . charAt ( 0 ) !== '.' ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
// new path should not be an ancestor of the old path
relative = PATH . relative ( new _path , old _dirname ) ;
if ( relative . charAt ( 0 ) !== '.' ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTEMPTY ) ;
}
// see if the new path already exists
var new _node ;
try {
new _node = FS . lookupNode ( new _dir , new _name ) ;
} catch ( e ) {
// not fatal
}
// early out if nothing needs to change
if ( old _node === new _node ) {
return ;
}
// we'll need to delete the old entry
var isdir = FS . isDir ( old _node . mode ) ;
var err = FS . mayDelete ( old _dir , old _name , isdir ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
// need delete permissions if we'll be overwriting.
// need create permissions if new doesn't already exist.
err = new _node ?
FS . mayDelete ( new _dir , new _name , isdir ) :
FS . mayCreate ( new _dir , new _name ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
if ( ! old _dir . node _ops . rename ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
if ( FS . isMountpoint ( old _node ) || ( new _node && FS . isMountpoint ( new _node ) ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
}
// if we are going to change the parent, check write permissions
if ( new _dir !== old _dir ) {
err = FS . nodePermissions ( old _dir , 'w' ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
}
// remove the node from the lookup hash
FS . hashRemoveNode ( old _node ) ;
// do the underlying fs rename
try {
old _dir . node _ops . rename ( old _node , new _dir , new _name ) ;
} catch ( e ) {
throw e ;
} finally {
// add the node back to the hash (in case node_ops.rename
// changed its name)
FS . hashAddNode ( old _node ) ;
}
} , rmdir : function ( path ) {
var lookup = FS . lookupPath ( path , { parent : true } ) ;
var parent = lookup . node ;
var name = PATH . basename ( path ) ;
var node = FS . lookupNode ( parent , name ) ;
var err = FS . mayDelete ( parent , name , true ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
if ( ! parent . node _ops . rmdir ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
if ( FS . isMountpoint ( node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
}
parent . node _ops . rmdir ( parent , name ) ;
FS . destroyNode ( node ) ;
} , readdir : function ( path ) {
var lookup = FS . lookupPath ( path , { follow : true } ) ;
var node = lookup . node ;
if ( ! node . node _ops . readdir ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTDIR ) ;
}
return node . node _ops . readdir ( node ) ;
} , unlink : function ( path ) {
var lookup = FS . lookupPath ( path , { parent : true } ) ;
var parent = lookup . node ;
var name = PATH . basename ( path ) ;
var node = FS . lookupNode ( parent , name ) ;
var err = FS . mayDelete ( parent , name , false ) ;
if ( err ) {
// POSIX says unlink should set EPERM, not EISDIR
if ( err === ERRNO _CODES . EISDIR ) err = ERRNO _CODES . EPERM ;
throw new FS . ErrnoError ( err ) ;
}
if ( ! parent . node _ops . unlink ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
if ( FS . isMountpoint ( node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBUSY ) ;
}
parent . node _ops . unlink ( parent , name ) ;
FS . destroyNode ( node ) ;
} , readlink : function ( path ) {
var lookup = FS . lookupPath ( path ) ;
var link = lookup . node ;
if ( ! link . node _ops . readlink ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
return link . node _ops . readlink ( link ) ;
} , stat : function ( path , dontFollow ) {
var lookup = FS . lookupPath ( path , { follow : ! dontFollow } ) ;
var node = lookup . node ;
if ( ! node . node _ops . getattr ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
return node . node _ops . getattr ( node ) ;
} , lstat : function ( path ) {
return FS . stat ( path , true ) ;
} , chmod : function ( path , mode , dontFollow ) {
var node ;
if ( typeof path === 'string' ) {
var lookup = FS . lookupPath ( path , { follow : ! dontFollow } ) ;
node = lookup . node ;
} else {
node = path ;
}
if ( ! node . node _ops . setattr ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
node . node _ops . setattr ( node , {
mode : ( mode & 4095 ) | ( node . mode & ~ 4095 ) ,
timestamp : Date . now ( )
} ) ;
} , lchmod : function ( path , mode ) {
FS . chmod ( path , mode , true ) ;
} , fchmod : function ( fd , mode ) {
var stream = FS . getStream ( fd ) ;
if ( ! stream ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
FS . chmod ( stream . node , mode ) ;
} , chown : function ( path , uid , gid , dontFollow ) {
var node ;
if ( typeof path === 'string' ) {
var lookup = FS . lookupPath ( path , { follow : ! dontFollow } ) ;
node = lookup . node ;
} else {
node = path ;
}
if ( ! node . node _ops . setattr ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
node . node _ops . setattr ( node , {
timestamp : Date . now ( )
// we ignore the uid / gid for now
} ) ;
} , lchown : function ( path , uid , gid ) {
FS . chown ( path , uid , gid , true ) ;
} , fchown : function ( fd , uid , gid ) {
var stream = FS . getStream ( fd ) ;
if ( ! stream ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
FS . chown ( stream . node , uid , gid ) ;
} , truncate : function ( path , len ) {
if ( len < 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var node ;
if ( typeof path === 'string' ) {
var lookup = FS . lookupPath ( path , { follow : true } ) ;
node = lookup . node ;
} else {
node = path ;
}
if ( ! node . node _ops . setattr ) {
throw new FS . ErrnoError ( ERRNO _CODES . EPERM ) ;
}
if ( FS . isDir ( node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EISDIR ) ;
}
if ( ! FS . isFile ( node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var err = FS . nodePermissions ( node , 'w' ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
node . node _ops . setattr ( node , {
size : len ,
timestamp : Date . now ( )
} ) ;
} , ftruncate : function ( fd , len ) {
var stream = FS . getStream ( fd ) ;
if ( ! stream ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
if ( ( stream . flags & 2097155 ) === 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
FS . truncate ( stream . node , len ) ;
} , utime : function ( path , atime , mtime ) {
var lookup = FS . lookupPath ( path , { follow : true } ) ;
var node = lookup . node ;
node . node _ops . setattr ( node , {
timestamp : Math . max ( atime , mtime )
} ) ;
} , open : function ( path , flags , mode , fd _start , fd _end ) {
flags = typeof flags === 'string' ? FS . modeStringToFlags ( flags ) : flags ;
mode = typeof mode === 'undefined' ? 438 /* 0666 */ : mode ;
if ( ( flags & 64 ) ) {
mode = ( mode & 4095 ) | 32768 ;
} else {
mode = 0 ;
}
var node ;
if ( typeof path === 'object' ) {
node = path ;
} else {
path = PATH . normalize ( path ) ;
try {
var lookup = FS . lookupPath ( path , {
follow : ! ( flags & 131072 )
} ) ;
node = lookup . node ;
} catch ( e ) {
// ignore
}
}
// perhaps we need to create the node
if ( ( flags & 64 ) ) {
if ( node ) {
// if O_CREAT and O_EXCL are set, error out if the node already exists
if ( ( flags & 128 ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EEXIST ) ;
}
} else {
// node doesn't exist, try to create it
node = FS . mknod ( path , mode , 0 ) ;
}
}
if ( ! node ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOENT ) ;
}
// can't truncate a device
if ( FS . isChrdev ( node . mode ) ) {
flags &= ~ 512 ;
}
// check permissions
var err = FS . mayOpen ( node , flags ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
// do truncation if necessary
if ( ( flags & 512 ) ) {
FS . truncate ( node , 0 ) ;
}
// we've already handled these, don't pass down to the underlying vfs
flags &= ~ ( 128 | 512 ) ;
// register the stream with the filesystem
var stream = FS . createStream ( {
node : node ,
path : FS . getPath ( node ) , // we want the absolute path to the node
flags : flags ,
seekable : true ,
position : 0 ,
stream _ops : node . stream _ops ,
// used by the file family libc calls (fopen, fwrite, ferror, etc.)
ungotten : [ ] ,
error : false
} , fd _start , fd _end ) ;
// call the new stream's open function
if ( stream . stream _ops . open ) {
stream . stream _ops . open ( stream ) ;
}
if ( Module [ 'logReadFiles' ] && ! ( flags & 1 ) ) {
if ( ! FS . readFiles ) FS . readFiles = { } ;
if ( ! ( path in FS . readFiles ) ) {
FS . readFiles [ path ] = 1 ;
Module [ 'printErr' ] ( 'read file: ' + path ) ;
}
}
return stream ;
} , close : function ( stream ) {
try {
if ( stream . stream _ops . close ) {
stream . stream _ops . close ( stream ) ;
}
} catch ( e ) {
throw e ;
} finally {
FS . closeStream ( stream . fd ) ;
}
} , llseek : function ( stream , offset , whence ) {
if ( ! stream . seekable || ! stream . stream _ops . llseek ) {
throw new FS . ErrnoError ( ERRNO _CODES . ESPIPE ) ;
}
return stream . stream _ops . llseek ( stream , offset , whence ) ;
} , read : function ( stream , buffer , offset , length , position ) {
if ( length < 0 || position < 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
if ( ( stream . flags & 2097155 ) === 1 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
if ( FS . isDir ( stream . node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EISDIR ) ;
}
if ( ! stream . stream _ops . read ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var seeking = true ;
if ( typeof position === 'undefined' ) {
position = stream . position ;
seeking = false ;
} else if ( ! stream . seekable ) {
throw new FS . ErrnoError ( ERRNO _CODES . ESPIPE ) ;
}
var bytesRead = stream . stream _ops . read ( stream , buffer , offset , length , position ) ;
if ( ! seeking ) stream . position += bytesRead ;
return bytesRead ;
} , write : function ( stream , buffer , offset , length , position , canOwn ) {
if ( length < 0 || position < 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
if ( ( stream . flags & 2097155 ) === 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
if ( FS . isDir ( stream . node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EISDIR ) ;
}
if ( ! stream . stream _ops . write ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var seeking = true ;
if ( typeof position === 'undefined' ) {
position = stream . position ;
seeking = false ;
} else if ( ! stream . seekable ) {
throw new FS . ErrnoError ( ERRNO _CODES . ESPIPE ) ;
}
if ( stream . flags & 1024 ) {
// seek to the end before writing in append mode
FS . llseek ( stream , 0 , 2 ) ;
}
var bytesWritten = stream . stream _ops . write ( stream , buffer , offset , length , position , canOwn ) ;
if ( ! seeking ) stream . position += bytesWritten ;
return bytesWritten ;
} , allocate : function ( stream , offset , length ) {
if ( offset < 0 || length <= 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
if ( ( stream . flags & 2097155 ) === 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EBADF ) ;
}
if ( ! FS . isFile ( stream . node . mode ) && ! FS . isDir ( node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENODEV ) ;
}
if ( ! stream . stream _ops . allocate ) {
throw new FS . ErrnoError ( ERRNO _CODES . EOPNOTSUPP ) ;
}
stream . stream _ops . allocate ( stream , offset , length ) ;
} , mmap : function ( stream , buffer , offset , length , position , prot , flags ) {
// TODO if PROT is PROT_WRITE, make sure we have write access
if ( ( stream . flags & 2097155 ) === 1 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EACCES ) ;
}
if ( ! stream . stream _ops . mmap ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENODEV ) ;
}
return stream . stream _ops . mmap ( stream , buffer , offset , length , position , prot , flags ) ;
} , ioctl : function ( stream , cmd , arg ) {
if ( ! stream . stream _ops . ioctl ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTTY ) ;
}
return stream . stream _ops . ioctl ( stream , cmd , arg ) ;
} , readFile : function ( path , opts ) {
opts = opts || { } ;
opts . flags = opts . flags || 'r' ;
opts . encoding = opts . encoding || 'binary' ;
if ( opts . encoding !== 'utf8' && opts . encoding !== 'binary' ) {
throw new Error ( 'Invalid encoding type "' + opts . encoding + '"' ) ;
}
var ret ;
var stream = FS . open ( path , opts . flags ) ;
var stat = FS . stat ( path ) ;
var length = stat . size ;
var buf = new Uint8Array ( length ) ;
FS . read ( stream , buf , 0 , length , 0 ) ;
if ( opts . encoding === 'utf8' ) {
ret = '' ;
var utf8 = new Runtime . UTF8Processor ( ) ;
for ( var i = 0 ; i < length ; i ++ ) {
ret += utf8 . processCChar ( buf [ i ] ) ;
}
} else if ( opts . encoding === 'binary' ) {
ret = buf ;
}
FS . close ( stream ) ;
return ret ;
} , writeFile : function ( path , data , opts ) {
opts = opts || { } ;
opts . flags = opts . flags || 'w' ;
opts . encoding = opts . encoding || 'utf8' ;
if ( opts . encoding !== 'utf8' && opts . encoding !== 'binary' ) {
throw new Error ( 'Invalid encoding type "' + opts . encoding + '"' ) ;
}
var stream = FS . open ( path , opts . flags , opts . mode ) ;
if ( opts . encoding === 'utf8' ) {
var utf8 = new Runtime . UTF8Processor ( ) ;
var buf = new Uint8Array ( utf8 . processJSString ( data ) ) ;
FS . write ( stream , buf , 0 , buf . length , 0 , opts . canOwn ) ;
} else if ( opts . encoding === 'binary' ) {
FS . write ( stream , data , 0 , data . length , 0 , opts . canOwn ) ;
}
FS . close ( stream ) ;
} , cwd : function ( ) {
return FS . currentPath ;
} , chdir : function ( path ) {
var lookup = FS . lookupPath ( path , { follow : true } ) ;
if ( ! FS . isDir ( lookup . node . mode ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTDIR ) ;
}
var err = FS . nodePermissions ( lookup . node , 'x' ) ;
if ( err ) {
throw new FS . ErrnoError ( err ) ;
}
FS . currentPath = lookup . path ;
} , createDefaultDirectories : function ( ) {
FS . mkdir ( '/tmp' ) ;
} , createDefaultDevices : function ( ) {
// create /dev
FS . mkdir ( '/dev' ) ;
// setup /dev/null
FS . registerDevice ( FS . makedev ( 1 , 3 ) , {
read : function ( ) { return 0 ; } ,
write : function ( ) { return 0 ; }
} ) ;
FS . mkdev ( '/dev/null' , FS . makedev ( 1 , 3 ) ) ;
// setup /dev/tty and /dev/tty1
// stderr needs to print output using Module['printErr']
// so we register a second tty just for it.
TTY . register ( FS . makedev ( 5 , 0 ) , TTY . default _tty _ops ) ;
TTY . register ( FS . makedev ( 6 , 0 ) , TTY . default _tty1 _ops ) ;
FS . mkdev ( '/dev/tty' , FS . makedev ( 5 , 0 ) ) ;
FS . mkdev ( '/dev/tty1' , FS . makedev ( 6 , 0 ) ) ;
// we're not going to emulate the actual shm device,
// just create the tmp dirs that reside in it commonly
FS . mkdir ( '/dev/shm' ) ;
FS . mkdir ( '/dev/shm/tmp' ) ;
} , createStandardStreams : function ( ) {
// TODO deprecate the old functionality of a single
// input / output callback and that utilizes FS.createDevice
// and instead require a unique set of stream ops
// by default, we symlink the standard streams to the
// default tty devices. however, if the standard streams
// have been overwritten we create a unique device for
// them instead.
if ( Module [ 'stdin' ] ) {
FS . createDevice ( '/dev' , 'stdin' , Module [ 'stdin' ] ) ;
} else {
FS . symlink ( '/dev/tty' , '/dev/stdin' ) ;
}
if ( Module [ 'stdout' ] ) {
FS . createDevice ( '/dev' , 'stdout' , null , Module [ 'stdout' ] ) ;
} else {
FS . symlink ( '/dev/tty' , '/dev/stdout' ) ;
}
if ( Module [ 'stderr' ] ) {
FS . createDevice ( '/dev' , 'stderr' , null , Module [ 'stderr' ] ) ;
} else {
FS . symlink ( '/dev/tty1' , '/dev/stderr' ) ;
}
// open default streams for the stdin, stdout and stderr devices
var stdin = FS . open ( '/dev/stdin' , 'r' ) ;
HEAP32 [ ( ( _stdin ) >> 2 ) ] = FS . getPtrForStream ( stdin ) ;
assert ( stdin . fd === 0 , 'invalid handle for stdin (' + stdin . fd + ')' ) ;
var stdout = FS . open ( '/dev/stdout' , 'w' ) ;
HEAP32 [ ( ( _stdout ) >> 2 ) ] = FS . getPtrForStream ( stdout ) ;
assert ( stdout . fd === 1 , 'invalid handle for stdout (' + stdout . fd + ')' ) ;
var stderr = FS . open ( '/dev/stderr' , 'w' ) ;
HEAP32 [ ( ( _stderr ) >> 2 ) ] = FS . getPtrForStream ( stderr ) ;
assert ( stderr . fd === 2 , 'invalid handle for stderr (' + stderr . fd + ')' ) ;
} , ensureErrnoError : function ( ) {
if ( FS . ErrnoError ) return ;
FS . ErrnoError = function ErrnoError ( errno ) {
this . errno = errno ;
for ( var key in ERRNO _CODES ) {
if ( ERRNO _CODES [ key ] === errno ) {
this . code = key ;
break ;
}
}
this . message = ERRNO _MESSAGES [ errno ] ;
} ;
FS . ErrnoError . prototype = new Error ( ) ;
FS . ErrnoError . prototype . constructor = FS . ErrnoError ;
// Some errors may happen quite a bit, to avoid overhead we reuse them (and suffer a lack of stack info)
[ ERRNO _CODES . ENOENT ] . forEach ( function ( code ) {
FS . genericErrors [ code ] = new FS . ErrnoError ( code ) ;
FS . genericErrors [ code ] . stack = '<generic error, no stack>' ;
} ) ;
} , staticInit : function ( ) {
FS . ensureErrnoError ( ) ;
FS . nameTable = new Array ( 4096 ) ;
FS . mount ( MEMFS , { } , '/' ) ;
FS . createDefaultDirectories ( ) ;
FS . createDefaultDevices ( ) ;
} , init : function ( input , output , error ) {
assert ( ! FS . init . initialized , 'FS.init was previously called. If you want to initialize later with custom parameters, remove any earlier calls (note that one is automatically added to the generated code)' ) ;
FS . init . initialized = true ;
FS . ensureErrnoError ( ) ;
// Allow Module.stdin etc. to provide defaults, if none explicitly passed to us here
Module [ 'stdin' ] = input || Module [ 'stdin' ] ;
Module [ 'stdout' ] = output || Module [ 'stdout' ] ;
Module [ 'stderr' ] = error || Module [ 'stderr' ] ;
FS . createStandardStreams ( ) ;
} , quit : function ( ) {
FS . init . initialized = false ;
for ( var i = 0 ; i < FS . streams . length ; i ++ ) {
var stream = FS . streams [ i ] ;
if ( ! stream ) {
continue ;
}
FS . close ( stream ) ;
}
} , getMode : function ( canRead , canWrite ) {
var mode = 0 ;
if ( canRead ) mode |= 292 | 73 ;
if ( canWrite ) mode |= 146 ;
return mode ;
} , joinPath : function ( parts , forceRelative ) {
var path = PATH . join . apply ( null , parts ) ;
if ( forceRelative && path [ 0 ] == '/' ) path = path . substr ( 1 ) ;
return path ;
} , absolutePath : function ( relative , base ) {
return PATH . resolve ( base , relative ) ;
} , standardizePath : function ( path ) {
return PATH . normalize ( path ) ;
} , findObject : function ( path , dontResolveLastLink ) {
var ret = FS . analyzePath ( path , dontResolveLastLink ) ;
if ( ret . exists ) {
return ret . object ;
} else {
_ _ _setErrNo ( ret . error ) ;
return null ;
}
} , analyzePath : function ( path , dontResolveLastLink ) {
// operate from within the context of the symlink's target
try {
var lookup = FS . lookupPath ( path , { follow : ! dontResolveLastLink } ) ;
path = lookup . path ;
} catch ( e ) {
}
var ret = {
isRoot : false , exists : false , error : 0 , name : null , path : null , object : null ,
parentExists : false , parentPath : null , parentObject : null
} ;
try {
var lookup = FS . lookupPath ( path , { parent : true } ) ;
ret . parentExists = true ;
ret . parentPath = lookup . path ;
ret . parentObject = lookup . node ;
ret . name = PATH . basename ( path ) ;
lookup = FS . lookupPath ( path , { follow : ! dontResolveLastLink } ) ;
ret . exists = true ;
ret . path = lookup . path ;
ret . object = lookup . node ;
ret . name = lookup . node . name ;
ret . isRoot = lookup . path === '/' ;
} catch ( e ) {
ret . error = e . errno ;
} ;
return ret ;
} , createFolder : function ( parent , name , canRead , canWrite ) {
var path = PATH . join2 ( typeof parent === 'string' ? parent : FS . getPath ( parent ) , name ) ;
var mode = FS . getMode ( canRead , canWrite ) ;
return FS . mkdir ( path , mode ) ;
} , createPath : function ( parent , path , canRead , canWrite ) {
parent = typeof parent === 'string' ? parent : FS . getPath ( parent ) ;
var parts = path . split ( '/' ) . reverse ( ) ;
while ( parts . length ) {
var part = parts . pop ( ) ;
if ( ! part ) continue ;
var current = PATH . join2 ( parent , part ) ;
try {
FS . mkdir ( current ) ;
} catch ( e ) {
// ignore EEXIST
}
parent = current ;
}
return current ;
} , createFile : function ( parent , name , properties , canRead , canWrite ) {
var path = PATH . join2 ( typeof parent === 'string' ? parent : FS . getPath ( parent ) , name ) ;
var mode = FS . getMode ( canRead , canWrite ) ;
return FS . create ( path , mode ) ;
} , createDataFile : function ( parent , name , data , canRead , canWrite , canOwn ) {
var path = name ? PATH . join2 ( typeof parent === 'string' ? parent : FS . getPath ( parent ) , name ) : parent ;
var mode = FS . getMode ( canRead , canWrite ) ;
var node = FS . create ( path , mode ) ;
if ( data ) {
if ( typeof data === 'string' ) {
var arr = new Array ( data . length ) ;
for ( var i = 0 , len = data . length ; i < len ; ++ i ) arr [ i ] = data . charCodeAt ( i ) ;
data = arr ;
}
// make sure we can write to the file
FS . chmod ( node , mode | 146 ) ;
var stream = FS . open ( node , 'w' ) ;
FS . write ( stream , data , 0 , data . length , 0 , canOwn ) ;
FS . close ( stream ) ;
FS . chmod ( node , mode ) ;
}
return node ;
} , createDevice : function ( parent , name , input , output ) {
var path = PATH . join2 ( typeof parent === 'string' ? parent : FS . getPath ( parent ) , name ) ;
var mode = FS . getMode ( ! ! input , ! ! output ) ;
if ( ! FS . createDevice . major ) FS . createDevice . major = 64 ;
var dev = FS . makedev ( FS . createDevice . major ++ , 0 ) ;
// Create a fake device that a set of stream ops to emulate
// the old behavior.
FS . registerDevice ( dev , {
open : function ( stream ) {
stream . seekable = false ;
} ,
close : function ( stream ) {
// flush any pending line data
if ( output && output . buffer && output . buffer . length ) {
output ( 10 ) ;
}
} ,
read : function ( stream , buffer , offset , length , pos /* ignored */ ) {
var bytesRead = 0 ;
for ( var i = 0 ; i < length ; i ++ ) {
var result ;
try {
result = input ( ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
if ( result === undefined && bytesRead === 0 ) {
throw new FS . ErrnoError ( ERRNO _CODES . EAGAIN ) ;
}
if ( result === null || result === undefined ) break ;
bytesRead ++ ;
buffer [ offset + i ] = result ;
}
if ( bytesRead ) {
stream . node . timestamp = Date . now ( ) ;
}
return bytesRead ;
} ,
write : function ( stream , buffer , offset , length , pos ) {
for ( var i = 0 ; i < length ; i ++ ) {
try {
output ( buffer [ offset + i ] ) ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
}
if ( length ) {
stream . node . timestamp = Date . now ( ) ;
}
return i ;
}
} ) ;
return FS . mkdev ( path , mode , dev ) ;
} , createLink : function ( parent , name , target , canRead , canWrite ) {
var path = PATH . join2 ( typeof parent === 'string' ? parent : FS . getPath ( parent ) , name ) ;
return FS . symlink ( target , path ) ;
} , forceLoadFile : function ( obj ) {
if ( obj . isDevice || obj . isFolder || obj . link || obj . contents ) return true ;
var success = true ;
if ( typeof XMLHttpRequest !== 'undefined' ) {
throw new Error ( "Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread." ) ;
} else if ( Module [ 'read' ] ) {
// Command-line.
try {
// WARNING: Can't read binary files in V8's d8 or tracemonkey's js, as
// read() will try to parse UTF8.
obj . contents = intArrayFromString ( Module [ 'read' ] ( obj . url ) , true ) ;
} catch ( e ) {
success = false ;
}
} else {
throw new Error ( 'Cannot load without read() or XMLHttpRequest.' ) ;
}
if ( ! success ) _ _ _setErrNo ( ERRNO _CODES . EIO ) ;
return success ;
} , createLazyFile : function ( parent , name , url , canRead , canWrite ) {
// Lazy chunked Uint8Array (implements get and length from Uint8Array). Actual getting is abstracted away for eventual reuse.
function LazyUint8Array ( ) {
this . lengthKnown = false ;
this . chunks = [ ] ; // Loaded chunks. Index is the chunk number
}
LazyUint8Array . prototype . get = function LazyUint8Array _get ( idx ) {
if ( idx > this . length - 1 || idx < 0 ) {
return undefined ;
}
var chunkOffset = idx % this . chunkSize ;
var chunkNum = Math . floor ( idx / this . chunkSize ) ;
return this . getter ( chunkNum ) [ chunkOffset ] ;
}
LazyUint8Array . prototype . setDataGetter = function LazyUint8Array _setDataGetter ( getter ) {
this . getter = getter ;
}
LazyUint8Array . prototype . cacheLength = function LazyUint8Array _cacheLength ( ) {
// Find length
var xhr = new XMLHttpRequest ( ) ;
xhr . open ( 'HEAD' , url , false ) ;
xhr . send ( null ) ;
if ( ! ( xhr . status >= 200 && xhr . status < 300 || xhr . status === 304 ) ) throw new Error ( "Couldn't load " + url + ". Status: " + xhr . status ) ;
var datalength = Number ( xhr . getResponseHeader ( "Content-length" ) ) ;
var header ;
var hasByteServing = ( header = xhr . getResponseHeader ( "Accept-Ranges" ) ) && header === "bytes" ;
var chunkSize = 1024 * 1024 ; // Chunk size in bytes
if ( ! hasByteServing ) chunkSize = datalength ;
// Function to get a range from the remote URL.
var doXHR = ( function ( from , to ) {
if ( from > to ) throw new Error ( "invalid range (" + from + ", " + to + ") or no bytes requested!" ) ;
if ( to > datalength - 1 ) throw new Error ( "only " + datalength + " bytes available! programmer error!" ) ;
// TODO: Use mozResponseArrayBuffer, responseStream, etc. if available.
var xhr = new XMLHttpRequest ( ) ;
xhr . open ( 'GET' , url , false ) ;
if ( datalength !== chunkSize ) xhr . setRequestHeader ( "Range" , "bytes=" + from + "-" + to ) ;
// Some hints to the browser that we want binary data.
if ( typeof Uint8Array != 'undefined' ) xhr . responseType = 'arraybuffer' ;
if ( xhr . overrideMimeType ) {
xhr . overrideMimeType ( 'text/plain; charset=x-user-defined' ) ;
}
xhr . send ( null ) ;
if ( ! ( xhr . status >= 200 && xhr . status < 300 || xhr . status === 304 ) ) throw new Error ( "Couldn't load " + url + ". Status: " + xhr . status ) ;
if ( xhr . response !== undefined ) {
return new Uint8Array ( xhr . response || [ ] ) ;
} else {
return intArrayFromString ( xhr . responseText || '' , true ) ;
}
} ) ;
var lazyArray = this ;
lazyArray . setDataGetter ( function ( chunkNum ) {
var start = chunkNum * chunkSize ;
var end = ( chunkNum + 1 ) * chunkSize - 1 ; // including this byte
end = Math . min ( end , datalength - 1 ) ; // if datalength-1 is selected, this is the last block
if ( typeof ( lazyArray . chunks [ chunkNum ] ) === "undefined" ) {
lazyArray . chunks [ chunkNum ] = doXHR ( start , end ) ;
}
if ( typeof ( lazyArray . chunks [ chunkNum ] ) === "undefined" ) throw new Error ( "doXHR failed!" ) ;
return lazyArray . chunks [ chunkNum ] ;
} ) ;
this . _length = datalength ;
this . _chunkSize = chunkSize ;
this . lengthKnown = true ;
}
if ( typeof XMLHttpRequest !== 'undefined' ) {
if ( ! ENVIRONMENT _IS _WORKER ) throw 'Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc' ;
var lazyArray = new LazyUint8Array ( ) ;
Object . defineProperty ( lazyArray , "length" , {
get : function ( ) {
if ( ! this . lengthKnown ) {
this . cacheLength ( ) ;
}
return this . _length ;
}
} ) ;
Object . defineProperty ( lazyArray , "chunkSize" , {
get : function ( ) {
if ( ! this . lengthKnown ) {
this . cacheLength ( ) ;
}
return this . _chunkSize ;
}
} ) ;
var properties = { isDevice : false , contents : lazyArray } ;
} else {
var properties = { isDevice : false , url : url } ;
}
var node = FS . createFile ( parent , name , properties , canRead , canWrite ) ;
// This is a total hack, but I want to get this lazy file code out of the
// core of MEMFS. If we want to keep this lazy file concept I feel it should
// be its own thin LAZYFS proxying calls to MEMFS.
if ( properties . contents ) {
node . contents = properties . contents ;
} else if ( properties . url ) {
node . contents = null ;
node . url = properties . url ;
}
// override each stream op with one that tries to force load the lazy file first
var stream _ops = { } ;
var keys = Object . keys ( node . stream _ops ) ;
keys . forEach ( function ( key ) {
var fn = node . stream _ops [ key ] ;
stream _ops [ key ] = function forceLoadLazyFile ( ) {
if ( ! FS . forceLoadFile ( node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
return fn . apply ( null , arguments ) ;
} ;
} ) ;
// use a custom read function
stream _ops . read = function stream _ops _read ( stream , buffer , offset , length , position ) {
if ( ! FS . forceLoadFile ( node ) ) {
throw new FS . ErrnoError ( ERRNO _CODES . EIO ) ;
}
var contents = stream . node . contents ;
if ( position >= contents . length )
return 0 ;
var size = Math . min ( contents . length - position , length ) ;
assert ( size >= 0 ) ;
if ( contents . slice ) { // normal array
for ( var i = 0 ; i < size ; i ++ ) {
buffer [ offset + i ] = contents [ position + i ] ;
}
} else {
for ( var i = 0 ; i < size ; i ++ ) { // LazyUint8Array from sync binary XHR
buffer [ offset + i ] = contents . get ( position + i ) ;
}
}
return size ;
} ;
node . stream _ops = stream _ops ;
return node ;
} , createPreloadedFile : function ( parent , name , url , canRead , canWrite , onload , onerror , dontCreateFile , canOwn ) {
Browser . init ( ) ;
// TODO we should allow people to just pass in a complete filename instead
// of parent and name being that we just join them anyways
var fullname = name ? PATH . resolve ( PATH . join2 ( parent , name ) ) : parent ;
function processData ( byteArray ) {
function finish ( byteArray ) {
if ( ! dontCreateFile ) {
FS . createDataFile ( parent , name , byteArray , canRead , canWrite , canOwn ) ;
}
if ( onload ) onload ( ) ;
removeRunDependency ( 'cp ' + fullname ) ;
}
var handled = false ;
Module [ 'preloadPlugins' ] . forEach ( function ( plugin ) {
if ( handled ) return ;
if ( plugin [ 'canHandle' ] ( fullname ) ) {
plugin [ 'handle' ] ( byteArray , fullname , finish , function ( ) {
if ( onerror ) onerror ( ) ;
removeRunDependency ( 'cp ' + fullname ) ;
} ) ;
handled = true ;
}
} ) ;
if ( ! handled ) finish ( byteArray ) ;
}
addRunDependency ( 'cp ' + fullname ) ;
if ( typeof url == 'string' ) {
Browser . asyncLoad ( url , function ( byteArray ) {
processData ( byteArray ) ;
} , onerror ) ;
} else {
processData ( url ) ;
}
} , indexedDB : function ( ) {
return window . indexedDB || window . mozIndexedDB || window . webkitIndexedDB || window . msIndexedDB ;
} , DB _NAME : function ( ) {
return 'EM_FS_' + window . location . pathname ;
} , DB _VERSION : 20 , DB _STORE _NAME : "FILE_DATA" , saveFilesToDB : function ( paths , onload , onerror ) {
onload = onload || function ( ) { } ;
onerror = onerror || function ( ) { } ;
var indexedDB = FS . indexedDB ( ) ;
try {
var openRequest = indexedDB . open ( FS . DB _NAME ( ) , FS . DB _VERSION ) ;
} catch ( e ) {
return onerror ( e ) ;
}
openRequest . onupgradeneeded = function openRequest _onupgradeneeded ( ) {
console . log ( 'creating db' ) ;
var db = openRequest . result ;
db . createObjectStore ( FS . DB _STORE _NAME ) ;
} ;
openRequest . onsuccess = function openRequest _onsuccess ( ) {
var db = openRequest . result ;
var transaction = db . transaction ( [ FS . DB _STORE _NAME ] , 'readwrite' ) ;
var files = transaction . objectStore ( FS . DB _STORE _NAME ) ;
var ok = 0 , fail = 0 , total = paths . length ;
function finish ( ) {
if ( fail == 0 ) onload ( ) ; else onerror ( ) ;
}
paths . forEach ( function ( path ) {
var putRequest = files . put ( FS . analyzePath ( path ) . object . contents , path ) ;
putRequest . onsuccess = function putRequest _onsuccess ( ) { ok ++ ; if ( ok + fail == total ) finish ( ) } ;
putRequest . onerror = function putRequest _onerror ( ) { fail ++ ; if ( ok + fail == total ) finish ( ) } ;
} ) ;
transaction . onerror = onerror ;
} ;
openRequest . onerror = onerror ;
} , loadFilesFromDB : function ( paths , onload , onerror ) {
onload = onload || function ( ) { } ;
onerror = onerror || function ( ) { } ;
var indexedDB = FS . indexedDB ( ) ;
try {
var openRequest = indexedDB . open ( FS . DB _NAME ( ) , FS . DB _VERSION ) ;
} catch ( e ) {
return onerror ( e ) ;
}
openRequest . onupgradeneeded = onerror ; // no database to load from
openRequest . onsuccess = function openRequest _onsuccess ( ) {
var db = openRequest . result ;
try {
var transaction = db . transaction ( [ FS . DB _STORE _NAME ] , 'readonly' ) ;
} catch ( e ) {
onerror ( e ) ;
return ;
}
var files = transaction . objectStore ( FS . DB _STORE _NAME ) ;
var ok = 0 , fail = 0 , total = paths . length ;
function finish ( ) {
if ( fail == 0 ) onload ( ) ; else onerror ( ) ;
}
paths . forEach ( function ( path ) {
var getRequest = files . get ( path ) ;
getRequest . onsuccess = function getRequest _onsuccess ( ) {
if ( FS . analyzePath ( path ) . exists ) {
FS . unlink ( path ) ;
}
FS . createDataFile ( PATH . dirname ( path ) , PATH . basename ( path ) , getRequest . result , true , true , true ) ;
ok ++ ;
if ( ok + fail == total ) finish ( ) ;
} ;
getRequest . onerror = function getRequest _onerror ( ) { fail ++ ; if ( ok + fail == total ) finish ( ) } ;
} ) ;
transaction . onerror = onerror ;
} ;
openRequest . onerror = onerror ;
} } ; var PATH = { splitPath : function ( filename ) {
var splitPathRe = /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/ ;
return splitPathRe . exec ( filename ) . slice ( 1 ) ;
} , normalizeArray : function ( parts , allowAboveRoot ) {
// if the path tries to go above the root, `up` ends up > 0
var up = 0 ;
for ( var i = parts . length - 1 ; i >= 0 ; i -- ) {
var last = parts [ i ] ;
if ( last === '.' ) {
parts . splice ( i , 1 ) ;
} else if ( last === '..' ) {
parts . splice ( i , 1 ) ;
up ++ ;
} else if ( up ) {
parts . splice ( i , 1 ) ;
up -- ;
}
}
// if the path is allowed to go above the root, restore leading ..s
if ( allowAboveRoot ) {
for ( ; up -- ; up ) {
parts . unshift ( '..' ) ;
}
}
return parts ;
} , normalize : function ( path ) {
var isAbsolute = path . charAt ( 0 ) === '/' ,
trailingSlash = path . substr ( - 1 ) === '/' ;
// Normalize the path
path = PATH . normalizeArray ( path . split ( '/' ) . filter ( function ( p ) {
return ! ! p ;
} ) , ! isAbsolute ) . join ( '/' ) ;
if ( ! path && ! isAbsolute ) {
path = '.' ;
}
if ( path && trailingSlash ) {
path += '/' ;
}
return ( isAbsolute ? '/' : '' ) + path ;
} , dirname : function ( path ) {
var result = PATH . splitPath ( path ) ,
root = result [ 0 ] ,
dir = result [ 1 ] ;
if ( ! root && ! dir ) {
// No dirname whatsoever
return '.' ;
}
if ( dir ) {
// It has a dirname, strip trailing slash
dir = dir . substr ( 0 , dir . length - 1 ) ;
}
return root + dir ;
} , basename : function ( path ) {
// EMSCRIPTEN return '/'' for '/', not an empty string
if ( path === '/' ) return '/' ;
var lastSlash = path . lastIndexOf ( '/' ) ;
if ( lastSlash === - 1 ) return path ;
return path . substr ( lastSlash + 1 ) ;
} , extname : function ( path ) {
return PATH . splitPath ( path ) [ 3 ] ;
} , join : function ( ) {
var paths = Array . prototype . slice . call ( arguments , 0 ) ;
return PATH . normalize ( paths . join ( '/' ) ) ;
} , join2 : function ( l , r ) {
return PATH . normalize ( l + '/' + r ) ;
} , resolve : function ( ) {
var resolvedPath = '' ,
resolvedAbsolute = false ;
for ( var i = arguments . length - 1 ; i >= - 1 && ! resolvedAbsolute ; i -- ) {
var path = ( i >= 0 ) ? arguments [ i ] : FS . cwd ( ) ;
// Skip empty and invalid entries
if ( typeof path !== 'string' ) {
throw new TypeError ( 'Arguments to path.resolve must be strings' ) ;
} else if ( ! path ) {
continue ;
}
resolvedPath = path + '/' + resolvedPath ;
resolvedAbsolute = path . charAt ( 0 ) === '/' ;
}
// At this point the path should be resolved to a full absolute path, but
// handle relative paths to be safe (might happen when process.cwd() fails)
resolvedPath = PATH . normalizeArray ( resolvedPath . split ( '/' ) . filter ( function ( p ) {
return ! ! p ;
} ) , ! resolvedAbsolute ) . join ( '/' ) ;
return ( ( resolvedAbsolute ? '/' : '' ) + resolvedPath ) || '.' ;
} , relative : function ( from , to ) {
from = PATH . resolve ( from ) . substr ( 1 ) ;
to = PATH . resolve ( to ) . substr ( 1 ) ;
function trim ( arr ) {
var start = 0 ;
for ( ; start < arr . length ; start ++ ) {
if ( arr [ start ] !== '' ) break ;
}
var end = arr . length - 1 ;
for ( ; end >= 0 ; end -- ) {
if ( arr [ end ] !== '' ) break ;
}
if ( start > end ) return [ ] ;
return arr . slice ( start , end - start + 1 ) ;
}
var fromParts = trim ( from . split ( '/' ) ) ;
var toParts = trim ( to . split ( '/' ) ) ;
var length = Math . min ( fromParts . length , toParts . length ) ;
var samePartsLength = length ;
for ( var i = 0 ; i < length ; i ++ ) {
if ( fromParts [ i ] !== toParts [ i ] ) {
samePartsLength = i ;
break ;
}
}
var outputParts = [ ] ;
for ( var i = samePartsLength ; i < fromParts . length ; i ++ ) {
outputParts . push ( '..' ) ;
}
outputParts = outputParts . concat ( toParts . slice ( samePartsLength ) ) ;
return outputParts . join ( '/' ) ;
} } ; var Browser = { mainLoop : { scheduler : null , method : "" , shouldPause : false , paused : false , queue : [ ] , pause : function ( ) {
Browser . mainLoop . shouldPause = true ;
} , resume : function ( ) {
if ( Browser . mainLoop . paused ) {
Browser . mainLoop . paused = false ;
Browser . mainLoop . scheduler ( ) ;
}
Browser . mainLoop . shouldPause = false ;
} , updateStatus : function ( ) {
if ( Module [ 'setStatus' ] ) {
var message = Module [ 'statusMessage' ] || 'Please wait...' ;
var remaining = Browser . mainLoop . remainingBlockers ;
var expected = Browser . mainLoop . expectedBlockers ;
if ( remaining ) {
if ( remaining < expected ) {
Module [ 'setStatus' ] ( message + ' (' + ( expected - remaining ) + '/' + expected + ')' ) ;
} else {
Module [ 'setStatus' ] ( message ) ;
}
} else {
Module [ 'setStatus' ] ( '' ) ;
}
}
} } , isFullScreen : false , pointerLock : false , moduleContextCreatedCallbacks : [ ] , workers : [ ] , init : function ( ) {
if ( ! Module [ "preloadPlugins" ] ) Module [ "preloadPlugins" ] = [ ] ; // needs to exist even in workers
if ( Browser . initted || ENVIRONMENT _IS _WORKER ) return ;
Browser . initted = true ;
try {
new Blob ( ) ;
Browser . hasBlobConstructor = true ;
} catch ( e ) {
Browser . hasBlobConstructor = false ;
console . log ( "warning: no blob constructor, cannot create blobs with mimetypes" ) ;
}
Browser . BlobBuilder = typeof MozBlobBuilder != "undefined" ? MozBlobBuilder : ( typeof WebKitBlobBuilder != "undefined" ? WebKitBlobBuilder : ( ! Browser . hasBlobConstructor ? console . log ( "warning: no BlobBuilder" ) : null ) ) ;
Browser . URLObject = typeof window != "undefined" ? ( window . URL ? window . URL : window . webkitURL ) : undefined ;
if ( ! Module . noImageDecoding && typeof Browser . URLObject === 'undefined' ) {
console . log ( "warning: Browser does not support creating object URLs. Built-in browser image decoding will not be available." ) ;
Module . noImageDecoding = true ;
}
// Support for plugins that can process preloaded files. You can add more of these to
// your app by creating and appending to Module.preloadPlugins.
//
// Each plugin is asked if it can handle a file based on the file's name. If it can,
// it is given the file's raw data. When it is done, it calls a callback with the file's
// (possibly modified) data. For example, a plugin might decompress a file, or it
// might create some side data structure for use later (like an Image element, etc.).
var imagePlugin = { } ;
imagePlugin [ 'canHandle' ] = function imagePlugin _canHandle ( name ) {
return ! Module . noImageDecoding && /\.(jpg|jpeg|png|bmp)$/i . test ( name ) ;
} ;
imagePlugin [ 'handle' ] = function imagePlugin _handle ( byteArray , name , onload , onerror ) {
var b = null ;
if ( Browser . hasBlobConstructor ) {
try {
b = new Blob ( [ byteArray ] , { type : Browser . getMimetype ( name ) } ) ;
if ( b . size !== byteArray . length ) { // Safari bug #118630
// Safari's Blob can only take an ArrayBuffer
b = new Blob ( [ ( new Uint8Array ( byteArray ) ) . buffer ] , { type : Browser . getMimetype ( name ) } ) ;
}
} catch ( e ) {
Runtime . warnOnce ( 'Blob constructor present but fails: ' + e + '; falling back to blob builder' ) ;
}
}
if ( ! b ) {
var bb = new Browser . BlobBuilder ( ) ;
bb . append ( ( new Uint8Array ( byteArray ) ) . buffer ) ; // we need to pass a buffer, and must copy the array to get the right data range
b = bb . getBlob ( ) ;
}
var url = Browser . URLObject . createObjectURL ( b ) ;
var img = new Image ( ) ;
img . onload = function img _onload ( ) {
assert ( img . complete , 'Image ' + name + ' could not be decoded' ) ;
var canvas = document . createElement ( 'canvas' ) ;
canvas . width = img . width ;
canvas . height = img . height ;
var ctx = canvas . getContext ( '2d' ) ;
ctx . drawImage ( img , 0 , 0 ) ;
Module [ "preloadedImages" ] [ name ] = canvas ;
Browser . URLObject . revokeObjectURL ( url ) ;
if ( onload ) onload ( byteArray ) ;
} ;
img . onerror = function img _onerror ( event ) {
console . log ( 'Image ' + url + ' could not be decoded' ) ;
if ( onerror ) onerror ( ) ;
} ;
img . src = url ;
} ;
Module [ 'preloadPlugins' ] . push ( imagePlugin ) ;
var audioPlugin = { } ;
audioPlugin [ 'canHandle' ] = function audioPlugin _canHandle ( name ) {
return ! Module . noAudioDecoding && name . substr ( - 4 ) in { '.ogg' : 1 , '.wav' : 1 , '.mp3' : 1 } ;
} ;
audioPlugin [ 'handle' ] = function audioPlugin _handle ( byteArray , name , onload , onerror ) {
var done = false ;
function finish ( audio ) {
if ( done ) return ;
done = true ;
Module [ "preloadedAudios" ] [ name ] = audio ;
if ( onload ) onload ( byteArray ) ;
}
function fail ( ) {
if ( done ) return ;
done = true ;
Module [ "preloadedAudios" ] [ name ] = new Audio ( ) ; // empty shim
if ( onerror ) onerror ( ) ;
}
if ( Browser . hasBlobConstructor ) {
try {
var b = new Blob ( [ byteArray ] , { type : Browser . getMimetype ( name ) } ) ;
} catch ( e ) {
return fail ( ) ;
}
var url = Browser . URLObject . createObjectURL ( b ) ; // XXX we never revoke this!
var audio = new Audio ( ) ;
audio . addEventListener ( 'canplaythrough' , function ( ) { finish ( audio ) } , false ) ; // use addEventListener due to chromium bug 124926
audio . onerror = function audio _onerror ( event ) {
if ( done ) return ;
console . log ( 'warning: browser could not fully decode audio ' + name + ', trying slower base64 approach' ) ;
function encode64 ( data ) {
var BASE = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/' ;
var PAD = '=' ;
var ret = '' ;
var leftchar = 0 ;
var leftbits = 0 ;
for ( var i = 0 ; i < data . length ; i ++ ) {
leftchar = ( leftchar << 8 ) | data [ i ] ;
leftbits += 8 ;
while ( leftbits >= 6 ) {
var curr = ( leftchar >> ( leftbits - 6 ) ) & 0x3f ;
leftbits -= 6 ;
ret += BASE [ curr ] ;
}
}
if ( leftbits == 2 ) {
ret += BASE [ ( leftchar & 3 ) << 4 ] ;
ret += PAD + PAD ;
} else if ( leftbits == 4 ) {
ret += BASE [ ( leftchar & 0xf ) << 2 ] ;
ret += PAD ;
}
return ret ;
}
audio . src = 'data:audio/x-' + name . substr ( - 3 ) + ';base64,' + encode64 ( byteArray ) ;
finish ( audio ) ; // we don't wait for confirmation this worked - but it's worth trying
} ;
audio . src = url ;
// workaround for chrome bug 124926 - we do not always get oncanplaythrough or onerror
Browser . safeSetTimeout ( function ( ) {
finish ( audio ) ; // try to use it even though it is not necessarily ready to play
} , 10000 ) ;
} else {
return fail ( ) ;
}
} ;
Module [ 'preloadPlugins' ] . push ( audioPlugin ) ;
// Canvas event setup
var canvas = Module [ 'canvas' ] ;
// forced aspect ratio can be enabled by defining 'forcedAspectRatio' on Module
// Module['forcedAspectRatio'] = 4 / 3;
canvas . requestPointerLock = canvas [ 'requestPointerLock' ] ||
canvas [ 'mozRequestPointerLock' ] ||
canvas [ 'webkitRequestPointerLock' ] ||
canvas [ 'msRequestPointerLock' ] ||
function ( ) { } ;
canvas . exitPointerLock = document [ 'exitPointerLock' ] ||
document [ 'mozExitPointerLock' ] ||
document [ 'webkitExitPointerLock' ] ||
document [ 'msExitPointerLock' ] ||
function ( ) { } ; // no-op if function does not exist
canvas . exitPointerLock = canvas . exitPointerLock . bind ( document ) ;
function pointerLockChange ( ) {
Browser . pointerLock = document [ 'pointerLockElement' ] === canvas ||
document [ 'mozPointerLockElement' ] === canvas ||
document [ 'webkitPointerLockElement' ] === canvas ||
document [ 'msPointerLockElement' ] === canvas ;
}
document . addEventListener ( 'pointerlockchange' , pointerLockChange , false ) ;
document . addEventListener ( 'mozpointerlockchange' , pointerLockChange , false ) ;
document . addEventListener ( 'webkitpointerlockchange' , pointerLockChange , false ) ;
document . addEventListener ( 'mspointerlockchange' , pointerLockChange , false ) ;
if ( Module [ 'elementPointerLock' ] ) {
canvas . addEventListener ( "click" , function ( ev ) {
if ( ! Browser . pointerLock && canvas . requestPointerLock ) {
canvas . requestPointerLock ( ) ;
ev . preventDefault ( ) ;
}
} , false ) ;
}
} , createContext : function ( canvas , useWebGL , setInModule , webGLContextAttributes ) {
var ctx ;
var errorInfo = '?' ;
function onContextCreationError ( event ) {
errorInfo = event . statusMessage || errorInfo ;
}
try {
if ( useWebGL ) {
var contextAttributes = {
antialias : false ,
alpha : false
} ;
if ( webGLContextAttributes ) {
for ( var attribute in webGLContextAttributes ) {
contextAttributes [ attribute ] = webGLContextAttributes [ attribute ] ;
}
}
canvas . addEventListener ( 'webglcontextcreationerror' , onContextCreationError , false ) ;
try {
[ 'experimental-webgl' , 'webgl' ] . some ( function ( webglId ) {
return ctx = canvas . getContext ( webglId , contextAttributes ) ;
} ) ;
} finally {
canvas . removeEventListener ( 'webglcontextcreationerror' , onContextCreationError , false ) ;
}
} else {
ctx = canvas . getContext ( '2d' ) ;
}
if ( ! ctx ) throw ':(' ;
} catch ( e ) {
Module . print ( 'Could not create canvas: ' + [ errorInfo , e ] ) ;
return null ;
}
if ( useWebGL ) {
// Set the background of the WebGL canvas to black
canvas . style . backgroundColor = "black" ;
// Warn on context loss
canvas . addEventListener ( 'webglcontextlost' , function ( event ) {
alert ( 'WebGL context lost. You will need to reload the page.' ) ;
} , false ) ;
}
if ( setInModule ) {
GLctx = Module . ctx = ctx ;
Module . useWebGL = useWebGL ;
Browser . moduleContextCreatedCallbacks . forEach ( function ( callback ) { callback ( ) } ) ;
Browser . init ( ) ;
}
return ctx ;
} , destroyContext : function ( canvas , useWebGL , setInModule ) { } , fullScreenHandlersInstalled : false , lockPointer : undefined , resizeCanvas : undefined , requestFullScreen : function ( lockPointer , resizeCanvas ) {
Browser . lockPointer = lockPointer ;
Browser . resizeCanvas = resizeCanvas ;
if ( typeof Browser . lockPointer === 'undefined' ) Browser . lockPointer = true ;
if ( typeof Browser . resizeCanvas === 'undefined' ) Browser . resizeCanvas = false ;
var canvas = Module [ 'canvas' ] ;
function fullScreenChange ( ) {
Browser . isFullScreen = false ;
var canvasContainer = canvas . parentNode ;
if ( ( document [ 'webkitFullScreenElement' ] || document [ 'webkitFullscreenElement' ] ||
document [ 'mozFullScreenElement' ] || document [ 'mozFullscreenElement' ] ||
document [ 'fullScreenElement' ] || document [ 'fullscreenElement' ] ||
document [ 'msFullScreenElement' ] || document [ 'msFullscreenElement' ] ||
document [ 'webkitCurrentFullScreenElement' ] ) === canvasContainer ) {
canvas . cancelFullScreen = document [ 'cancelFullScreen' ] ||
document [ 'mozCancelFullScreen' ] ||
document [ 'webkitCancelFullScreen' ] ||
document [ 'msExitFullscreen' ] ||
document [ 'exitFullscreen' ] ||
function ( ) { } ;
canvas . cancelFullScreen = canvas . cancelFullScreen . bind ( document ) ;
if ( Browser . lockPointer ) canvas . requestPointerLock ( ) ;
Browser . isFullScreen = true ;
if ( Browser . resizeCanvas ) Browser . setFullScreenCanvasSize ( ) ;
} else {
// remove the full screen specific parent of the canvas again to restore the HTML structure from before going full screen
canvasContainer . parentNode . insertBefore ( canvas , canvasContainer ) ;
canvasContainer . parentNode . removeChild ( canvasContainer ) ;
if ( Browser . resizeCanvas ) Browser . setWindowedCanvasSize ( ) ;
}
if ( Module [ 'onFullScreen' ] ) Module [ 'onFullScreen' ] ( Browser . isFullScreen ) ;
Browser . updateCanvasDimensions ( canvas ) ;
}
if ( ! Browser . fullScreenHandlersInstalled ) {
Browser . fullScreenHandlersInstalled = true ;
document . addEventListener ( 'fullscreenchange' , fullScreenChange , false ) ;
document . addEventListener ( 'mozfullscreenchange' , fullScreenChange , false ) ;
document . addEventListener ( 'webkitfullscreenchange' , fullScreenChange , false ) ;
document . addEventListener ( 'MSFullscreenChange' , fullScreenChange , false ) ;
}
// create a new parent to ensure the canvas has no siblings. this allows browsers to optimize full screen performance when its parent is the full screen root
var canvasContainer = document . createElement ( "div" ) ;
canvas . parentNode . insertBefore ( canvasContainer , canvas ) ;
canvasContainer . appendChild ( canvas ) ;
// use parent of canvas as full screen root to allow aspect ratio correction (Firefox stretches the root to screen size)
canvasContainer . requestFullScreen = canvasContainer [ 'requestFullScreen' ] ||
canvasContainer [ 'mozRequestFullScreen' ] ||
canvasContainer [ 'msRequestFullscreen' ] ||
( canvasContainer [ 'webkitRequestFullScreen' ] ? function ( ) { canvasContainer [ 'webkitRequestFullScreen' ] ( Element [ 'ALLOW_KEYBOARD_INPUT' ] ) } : null ) ;
canvasContainer . requestFullScreen ( ) ;
} , requestAnimationFrame : function requestAnimationFrame ( func ) {
if ( typeof window === 'undefined' ) { // Provide fallback to setTimeout if window is undefined (e.g. in Node.js)
setTimeout ( func , 1000 / 60 ) ;
} else {
if ( ! window . requestAnimationFrame ) {
window . requestAnimationFrame = window [ 'requestAnimationFrame' ] ||
window [ 'mozRequestAnimationFrame' ] ||
window [ 'webkitRequestAnimationFrame' ] ||
window [ 'msRequestAnimationFrame' ] ||
window [ 'oRequestAnimationFrame' ] ||
window [ 'setTimeout' ] ;
}
window . requestAnimationFrame ( func ) ;
}
} , safeCallback : function ( func ) {
return function ( ) {
if ( ! ABORT ) return func . apply ( null , arguments ) ;
} ;
} , safeRequestAnimationFrame : function ( func ) {
return Browser . requestAnimationFrame ( function ( ) {
if ( ! ABORT ) func ( ) ;
} ) ;
} , safeSetTimeout : function ( func , timeout ) {
return setTimeout ( function ( ) {
if ( ! ABORT ) func ( ) ;
} , timeout ) ;
} , safeSetInterval : function ( func , timeout ) {
return setInterval ( function ( ) {
if ( ! ABORT ) func ( ) ;
} , timeout ) ;
} , getMimetype : function ( name ) {
return {
'jpg' : 'image/jpeg' ,
'jpeg' : 'image/jpeg' ,
'png' : 'image/png' ,
'bmp' : 'image/bmp' ,
'ogg' : 'audio/ogg' ,
'wav' : 'audio/wav' ,
'mp3' : 'audio/mpeg'
} [ name . substr ( name . lastIndexOf ( '.' ) + 1 ) ] ;
} , getUserMedia : function ( func ) {
if ( ! window . getUserMedia ) {
window . getUserMedia = navigator [ 'getUserMedia' ] ||
navigator [ 'mozGetUserMedia' ] ;
}
window . getUserMedia ( func ) ;
} , getMovementX : function ( event ) {
return event [ 'movementX' ] ||
event [ 'mozMovementX' ] ||
event [ 'webkitMovementX' ] ||
0 ;
} , getMovementY : function ( event ) {
return event [ 'movementY' ] ||
event [ 'mozMovementY' ] ||
event [ 'webkitMovementY' ] ||
0 ;
} , getMouseWheelDelta : function ( event ) {
return Math . max ( - 1 , Math . min ( 1 , event . type === 'DOMMouseScroll' ? event . detail : - event . wheelDelta ) ) ;
} , mouseX : 0 , mouseY : 0 , mouseMovementX : 0 , mouseMovementY : 0 , calculateMouseEvent : function ( event ) { // event should be mousemove, mousedown or mouseup
if ( Browser . pointerLock ) {
// When the pointer is locked, calculate the coordinates
// based on the movement of the mouse.
// Workaround for Firefox bug 764498
if ( event . type != 'mousemove' &&
( 'mozMovementX' in event ) ) {
Browser . mouseMovementX = Browser . mouseMovementY = 0 ;
} else {
Browser . mouseMovementX = Browser . getMovementX ( event ) ;
Browser . mouseMovementY = Browser . getMovementY ( event ) ;
}
// check if SDL is available
if ( typeof SDL != "undefined" ) {
Browser . mouseX = SDL . mouseX + Browser . mouseMovementX ;
Browser . mouseY = SDL . mouseY + Browser . mouseMovementY ;
} else {
// just add the mouse delta to the current absolut mouse position
// FIXME: ideally this should be clamped against the canvas size and zero
Browser . mouseX += Browser . mouseMovementX ;
Browser . mouseY += Browser . mouseMovementY ;
}
} else {
// Otherwise, calculate the movement based on the changes
// in the coordinates.
var rect = Module [ "canvas" ] . getBoundingClientRect ( ) ;
var x , y ;
// Neither .scrollX or .pageXOffset are defined in a spec, but
// we prefer .scrollX because it is currently in a spec draft.
// (see: http://www.w3.org/TR/2013/WD-cssom-view-20131217/)
var scrollX = ( ( typeof window . scrollX !== 'undefined' ) ? window . scrollX : window . pageXOffset ) ;
var scrollY = ( ( typeof window . scrollY !== 'undefined' ) ? window . scrollY : window . pageYOffset ) ;
if ( event . type == 'touchstart' ||
event . type == 'touchend' ||
event . type == 'touchmove' ) {
var t = event . touches . item ( 0 ) ;
if ( t ) {
x = t . pageX - ( scrollX + rect . left ) ;
y = t . pageY - ( scrollY + rect . top ) ;
} else {
return ;
}
} else {
x = event . pageX - ( scrollX + rect . left ) ;
y = event . pageY - ( scrollY + rect . top ) ;
}
// the canvas might be CSS-scaled compared to its backbuffer;
// SDL-using content will want mouse coordinates in terms
// of backbuffer units.
var cw = Module [ "canvas" ] . width ;
var ch = Module [ "canvas" ] . height ;
x = x * ( cw / rect . width ) ;
y = y * ( ch / rect . height ) ;
Browser . mouseMovementX = x - Browser . mouseX ;
Browser . mouseMovementY = y - Browser . mouseY ;
Browser . mouseX = x ;
Browser . mouseY = y ;
}
} , xhrLoad : function ( url , onload , onerror ) {
var xhr = new XMLHttpRequest ( ) ;
xhr . open ( 'GET' , url , true ) ;
xhr . responseType = 'arraybuffer' ;
xhr . onload = function xhr _onload ( ) {
if ( xhr . status == 200 || ( xhr . status == 0 && xhr . response ) ) { // file URLs can return 0
onload ( xhr . response ) ;
} else {
onerror ( ) ;
}
} ;
xhr . onerror = onerror ;
xhr . send ( null ) ;
} , asyncLoad : function ( url , onload , onerror , noRunDep ) {
Browser . xhrLoad ( url , function ( arrayBuffer ) {
assert ( arrayBuffer , 'Loading data file "' + url + '" failed (no arrayBuffer).' ) ;
onload ( new Uint8Array ( arrayBuffer ) ) ;
if ( ! noRunDep ) removeRunDependency ( 'al ' + url ) ;
} , function ( event ) {
if ( onerror ) {
onerror ( ) ;
} else {
throw 'Loading data file "' + url + '" failed.' ;
}
} ) ;
if ( ! noRunDep ) addRunDependency ( 'al ' + url ) ;
} , resizeListeners : [ ] , updateResizeListeners : function ( ) {
var canvas = Module [ 'canvas' ] ;
Browser . resizeListeners . forEach ( function ( listener ) {
listener ( canvas . width , canvas . height ) ;
} ) ;
} , setCanvasSize : function ( width , height , noUpdates ) {
var canvas = Module [ 'canvas' ] ;
Browser . updateCanvasDimensions ( canvas , width , height ) ;
if ( ! noUpdates ) Browser . updateResizeListeners ( ) ;
} , windowedWidth : 0 , windowedHeight : 0 , setFullScreenCanvasSize : function ( ) {
// check if SDL is available
if ( typeof SDL != "undefined" ) {
var flags = HEAPU32 [ ( ( SDL . screen + Runtime . QUANTUM _SIZE * 0 ) >> 2 ) ] ;
flags = flags | 0x00800000 ; // set SDL_FULLSCREEN flag
HEAP32 [ ( ( SDL . screen + Runtime . QUANTUM _SIZE * 0 ) >> 2 ) ] = flags
}
Browser . updateResizeListeners ( ) ;
} , setWindowedCanvasSize : function ( ) {
// check if SDL is available
if ( typeof SDL != "undefined" ) {
var flags = HEAPU32 [ ( ( SDL . screen + Runtime . QUANTUM _SIZE * 0 ) >> 2 ) ] ;
flags = flags & ~ 0x00800000 ; // clear SDL_FULLSCREEN flag
HEAP32 [ ( ( SDL . screen + Runtime . QUANTUM _SIZE * 0 ) >> 2 ) ] = flags
}
Browser . updateResizeListeners ( ) ;
} , updateCanvasDimensions : function ( canvas , wNative , hNative ) {
if ( wNative && hNative ) {
canvas . widthNative = wNative ;
canvas . heightNative = hNative ;
} else {
wNative = canvas . widthNative ;
hNative = canvas . heightNative ;
}
var w = wNative ;
var h = hNative ;
if ( Module [ 'forcedAspectRatio' ] && Module [ 'forcedAspectRatio' ] > 0 ) {
if ( w / h < Module [ 'forcedAspectRatio' ] ) {
w = Math . round ( h * Module [ 'forcedAspectRatio' ] ) ;
} else {
h = Math . round ( w / Module [ 'forcedAspectRatio' ] ) ;
}
}
if ( ( ( document [ 'webkitFullScreenElement' ] || document [ 'webkitFullscreenElement' ] ||
document [ 'mozFullScreenElement' ] || document [ 'mozFullscreenElement' ] ||
document [ 'fullScreenElement' ] || document [ 'fullscreenElement' ] ||
document [ 'msFullScreenElement' ] || document [ 'msFullscreenElement' ] ||
document [ 'webkitCurrentFullScreenElement' ] ) === canvas . parentNode ) && ( typeof screen != 'undefined' ) ) {
var factor = Math . min ( screen . width / w , screen . height / h ) ;
w = Math . round ( w * factor ) ;
h = Math . round ( h * factor ) ;
}
if ( Browser . resizeCanvas ) {
if ( canvas . width != w ) canvas . width = w ;
if ( canvas . height != h ) canvas . height = h ;
if ( typeof canvas . style != 'undefined' ) {
canvas . style . removeProperty ( "width" ) ;
canvas . style . removeProperty ( "height" ) ;
}
} else {
if ( canvas . width != wNative ) canvas . width = wNative ;
if ( canvas . height != hNative ) canvas . height = hNative ;
if ( typeof canvas . style != 'undefined' ) {
if ( w != wNative || h != hNative ) {
canvas . style . setProperty ( "width" , w + "px" , "important" ) ;
canvas . style . setProperty ( "height" , h + "px" , "important" ) ;
} else {
canvas . style . removeProperty ( "width" ) ;
canvas . style . removeProperty ( "height" ) ;
}
}
}
} } ;
function _mkport ( ) { throw 'TODO' } var SOCKFS = { mount : function ( mount ) {
return FS . createNode ( null , '/' , 16384 | 511 /* 0777 */ , 0 ) ;
} , createSocket : function ( family , type , protocol ) {
var streaming = type == 1 ;
if ( protocol ) {
assert ( streaming == ( protocol == 6 ) ) ; // if SOCK_STREAM, must be tcp
}
// create our internal socket structure
var sock = {
family : family ,
type : type ,
protocol : protocol ,
server : null ,
peers : { } ,
pending : [ ] ,
recv _queue : [ ] ,
sock _ops : SOCKFS . websocket _sock _ops
} ;
// create the filesystem node to store the socket structure
var name = SOCKFS . nextname ( ) ;
var node = FS . createNode ( SOCKFS . root , name , 49152 , 0 ) ;
node . sock = sock ;
// and the wrapping stream that enables library functions such
// as read and write to indirectly interact with the socket
var stream = FS . createStream ( {
path : name ,
node : node ,
flags : FS . modeStringToFlags ( 'r+' ) ,
seekable : false ,
stream _ops : SOCKFS . stream _ops
} ) ;
// map the new stream to the socket structure (sockets have a 1:1
// relationship with a stream)
sock . stream = stream ;
return sock ;
} , getSocket : function ( fd ) {
var stream = FS . getStream ( fd ) ;
if ( ! stream || ! FS . isSocket ( stream . node . mode ) ) {
return null ;
}
return stream . node . sock ;
} , stream _ops : { poll : function ( stream ) {
var sock = stream . node . sock ;
return sock . sock _ops . poll ( sock ) ;
} , ioctl : function ( stream , request , varargs ) {
var sock = stream . node . sock ;
return sock . sock _ops . ioctl ( sock , request , varargs ) ;
} , read : function ( stream , buffer , offset , length , position /* ignored */ ) {
var sock = stream . node . sock ;
var msg = sock . sock _ops . recvmsg ( sock , length ) ;
if ( ! msg ) {
// socket is closed
return 0 ;
}
buffer . set ( msg . buffer , offset ) ;
return msg . buffer . length ;
} , write : function ( stream , buffer , offset , length , position /* ignored */ ) {
var sock = stream . node . sock ;
return sock . sock _ops . sendmsg ( sock , buffer , offset , length ) ;
} , close : function ( stream ) {
var sock = stream . node . sock ;
sock . sock _ops . close ( sock ) ;
} } , nextname : function ( ) {
if ( ! SOCKFS . nextname . current ) {
SOCKFS . nextname . current = 0 ;
}
return 'socket[' + ( SOCKFS . nextname . current ++ ) + ']' ;
} , websocket _sock _ops : { createPeer : function ( sock , addr , port ) {
var ws ;
if ( typeof addr === 'object' ) {
ws = addr ;
addr = null ;
port = null ;
}
if ( ws ) {
// for sockets that've already connected (e.g. we're the server)
// we can inspect the _socket property for the address
if ( ws . _socket ) {
addr = ws . _socket . remoteAddress ;
port = ws . _socket . remotePort ;
}
// if we're just now initializing a connection to the remote,
// inspect the url property
else {
var result = /ws[s]?:\/\/([^:]+):(\d+)/ . exec ( ws . url ) ;
if ( ! result ) {
throw new Error ( 'WebSocket URL must be in the format ws(s)://address:port' ) ;
}
addr = result [ 1 ] ;
port = parseInt ( result [ 2 ] , 10 ) ;
}
} else {
// create the actual websocket object and connect
try {
// runtimeConfig gets set to true if WebSocket runtime configuration is available.
var runtimeConfig = ( Module [ 'websocket' ] && ( 'object' === typeof Module [ 'websocket' ] ) ) ;
// The default value is 'ws://' the replace is needed because the compiler replaces "//" comments with '#'
// comments without checking context, so we'd end up with ws:#, the replace swaps the "#" for "//" again.
var url = 'ws:#' . replace ( '#' , '//' ) ;
if ( runtimeConfig ) {
if ( 'string' === typeof Module [ 'websocket' ] [ 'url' ] ) {
url = Module [ 'websocket' ] [ 'url' ] ; // Fetch runtime WebSocket URL config.
}
}
if ( url === 'ws://' || url === 'wss://' ) { // Is the supplied URL config just a prefix, if so complete it.
url = url + addr + ':' + port ;
}
// Make the WebSocket subprotocol (Sec-WebSocket-Protocol) default to binary if no configuration is set.
var subProtocols = 'binary' ; // The default value is 'binary'
if ( runtimeConfig ) {
if ( 'string' === typeof Module [ 'websocket' ] [ 'subprotocol' ] ) {
subProtocols = Module [ 'websocket' ] [ 'subprotocol' ] ; // Fetch runtime WebSocket subprotocol config.
}
}
// The regex trims the string (removes spaces at the beginning and end, then splits the string by
// <any space>,<any space> into an Array. Whitespace removal is important for Websockify and ws.
subProtocols = subProtocols . replace ( /^ +| +$/g , "" ) . split ( / *, */ ) ;
// The node ws library API for specifying optional subprotocol is slightly different than the browser's.
var opts = ENVIRONMENT _IS _NODE ? { 'protocol' : subProtocols . toString ( ) } : subProtocols ;
// If node we use the ws library.
var WebSocket = ENVIRONMENT _IS _NODE ? require ( 'ws' ) : window [ 'WebSocket' ] ;
ws = new WebSocket ( url , opts ) ;
ws . binaryType = 'arraybuffer' ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EHOSTUNREACH ) ;
}
}
var peer = {
addr : addr ,
port : port ,
socket : ws ,
dgram _send _queue : [ ]
} ;
SOCKFS . websocket _sock _ops . addPeer ( sock , peer ) ;
SOCKFS . websocket _sock _ops . handlePeerEvents ( sock , peer ) ;
// if this is a bound dgram socket, send the port number first to allow
// us to override the ephemeral port reported to us by remotePort on the
// remote end.
if ( sock . type === 2 && typeof sock . sport !== 'undefined' ) {
peer . dgram _send _queue . push ( new Uint8Array ( [
255 , 255 , 255 , 255 ,
'p' . charCodeAt ( 0 ) , 'o' . charCodeAt ( 0 ) , 'r' . charCodeAt ( 0 ) , 't' . charCodeAt ( 0 ) ,
( ( sock . sport & 0xff00 ) >> 8 ) , ( sock . sport & 0xff )
] ) ) ;
}
return peer ;
} , getPeer : function ( sock , addr , port ) {
return sock . peers [ addr + ':' + port ] ;
} , addPeer : function ( sock , peer ) {
sock . peers [ peer . addr + ':' + peer . port ] = peer ;
} , removePeer : function ( sock , peer ) {
delete sock . peers [ peer . addr + ':' + peer . port ] ;
} , handlePeerEvents : function ( sock , peer ) {
var first = true ;
var handleOpen = function ( ) {
try {
var queued = peer . dgram _send _queue . shift ( ) ;
while ( queued ) {
peer . socket . send ( queued ) ;
queued = peer . dgram _send _queue . shift ( ) ;
}
} catch ( e ) {
// not much we can do here in the way of proper error handling as we've already
// lied and said this data was sent. shut it down.
peer . socket . close ( ) ;
}
} ;
function handleMessage ( data ) {
assert ( typeof data !== 'string' && data . byteLength !== undefined ) ; // must receive an ArrayBuffer
data = new Uint8Array ( data ) ; // make a typed array view on the array buffer
// if this is the port message, override the peer's port with it
var wasfirst = first ;
first = false ;
if ( wasfirst &&
data . length === 10 &&
data [ 0 ] === 255 && data [ 1 ] === 255 && data [ 2 ] === 255 && data [ 3 ] === 255 &&
data [ 4 ] === 'p' . charCodeAt ( 0 ) && data [ 5 ] === 'o' . charCodeAt ( 0 ) && data [ 6 ] === 'r' . charCodeAt ( 0 ) && data [ 7 ] === 't' . charCodeAt ( 0 ) ) {
// update the peer's port and it's key in the peer map
var newport = ( ( data [ 8 ] << 8 ) | data [ 9 ] ) ;
SOCKFS . websocket _sock _ops . removePeer ( sock , peer ) ;
peer . port = newport ;
SOCKFS . websocket _sock _ops . addPeer ( sock , peer ) ;
return ;
}
sock . recv _queue . push ( { addr : peer . addr , port : peer . port , data : data } ) ;
} ;
if ( ENVIRONMENT _IS _NODE ) {
peer . socket . on ( 'open' , handleOpen ) ;
peer . socket . on ( 'message' , function ( data , flags ) {
if ( ! flags . binary ) {
return ;
}
handleMessage ( ( new Uint8Array ( data ) ) . buffer ) ; // copy from node Buffer -> ArrayBuffer
} ) ;
peer . socket . on ( 'error' , function ( ) {
// don't throw
} ) ;
} else {
peer . socket . onopen = handleOpen ;
peer . socket . onmessage = function peer _socket _onmessage ( event ) {
handleMessage ( event . data ) ;
} ;
}
} , poll : function ( sock ) {
if ( sock . type === 1 && sock . server ) {
// listen sockets should only say they're available for reading
// if there are pending clients.
return sock . pending . length ? ( 64 | 1 ) : 0 ;
}
var mask = 0 ;
var dest = sock . type === 1 ? // we only care about the socket state for connection-based sockets
SOCKFS . websocket _sock _ops . getPeer ( sock , sock . daddr , sock . dport ) :
null ;
if ( sock . recv _queue . length ||
! dest || // connection-less sockets are always ready to read
( dest && dest . socket . readyState === dest . socket . CLOSING ) ||
( dest && dest . socket . readyState === dest . socket . CLOSED ) ) { // let recv return 0 once closed
mask |= ( 64 | 1 ) ;
}
if ( ! dest || // connection-less sockets are always ready to write
( dest && dest . socket . readyState === dest . socket . OPEN ) ) {
mask |= 4 ;
}
if ( ( dest && dest . socket . readyState === dest . socket . CLOSING ) ||
( dest && dest . socket . readyState === dest . socket . CLOSED ) ) {
mask |= 16 ;
}
return mask ;
} , ioctl : function ( sock , request , arg ) {
switch ( request ) {
case 21531 :
var bytes = 0 ;
if ( sock . recv _queue . length ) {
bytes = sock . recv _queue [ 0 ] . data . length ;
}
HEAP32 [ ( ( arg ) >> 2 ) ] = bytes ;
return 0 ;
default :
return ERRNO _CODES . EINVAL ;
}
} , close : function ( sock ) {
// if we've spawned a listen server, close it
if ( sock . server ) {
try {
sock . server . close ( ) ;
} catch ( e ) {
}
sock . server = null ;
}
// close any peer connections
var peers = Object . keys ( sock . peers ) ;
for ( var i = 0 ; i < peers . length ; i ++ ) {
var peer = sock . peers [ peers [ i ] ] ;
try {
peer . socket . close ( ) ;
} catch ( e ) {
}
SOCKFS . websocket _sock _ops . removePeer ( sock , peer ) ;
}
return 0 ;
} , bind : function ( sock , addr , port ) {
if ( typeof sock . saddr !== 'undefined' || typeof sock . sport !== 'undefined' ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ; // already bound
}
sock . saddr = addr ;
sock . sport = port || _mkport ( ) ;
// in order to emulate dgram sockets, we need to launch a listen server when
// binding on a connection-less socket
// note: this is only required on the server side
if ( sock . type === 2 ) {
// close the existing server if it exists
if ( sock . server ) {
sock . server . close ( ) ;
sock . server = null ;
}
// swallow error operation not supported error that occurs when binding in the
// browser where this isn't supported
try {
sock . sock _ops . listen ( sock , 0 ) ;
} catch ( e ) {
if ( ! ( e instanceof FS . ErrnoError ) ) throw e ;
if ( e . errno !== ERRNO _CODES . EOPNOTSUPP ) throw e ;
}
}
} , connect : function ( sock , addr , port ) {
if ( sock . server ) {
throw new FS . ErrnoError ( ERRNO _CODS . EOPNOTSUPP ) ;
}
// TODO autobind
// if (!sock.addr && sock.type == 2) {
// }
// early out if we're already connected / in the middle of connecting
if ( typeof sock . daddr !== 'undefined' && typeof sock . dport !== 'undefined' ) {
var dest = SOCKFS . websocket _sock _ops . getPeer ( sock , sock . daddr , sock . dport ) ;
if ( dest ) {
if ( dest . socket . readyState === dest . socket . CONNECTING ) {
throw new FS . ErrnoError ( ERRNO _CODES . EALREADY ) ;
} else {
throw new FS . ErrnoError ( ERRNO _CODES . EISCONN ) ;
}
}
}
// add the socket to our peer list and set our
// destination address / port to match
var peer = SOCKFS . websocket _sock _ops . createPeer ( sock , addr , port ) ;
sock . daddr = peer . addr ;
sock . dport = peer . port ;
// always "fail" in non-blocking mode
throw new FS . ErrnoError ( ERRNO _CODES . EINPROGRESS ) ;
} , listen : function ( sock , backlog ) {
if ( ! ENVIRONMENT _IS _NODE ) {
throw new FS . ErrnoError ( ERRNO _CODES . EOPNOTSUPP ) ;
}
if ( sock . server ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ; // already listening
}
var WebSocketServer = require ( 'ws' ) . Server ;
var host = sock . saddr ;
sock . server = new WebSocketServer ( {
host : host ,
port : sock . sport
// TODO support backlog
} ) ;
sock . server . on ( 'connection' , function ( ws ) {
if ( sock . type === 1 ) {
var newsock = SOCKFS . createSocket ( sock . family , sock . type , sock . protocol ) ;
// create a peer on the new socket
var peer = SOCKFS . websocket _sock _ops . createPeer ( newsock , ws ) ;
newsock . daddr = peer . addr ;
newsock . dport = peer . port ;
// push to queue for accept to pick up
sock . pending . push ( newsock ) ;
} else {
// create a peer on the listen socket so calling sendto
// with the listen socket and an address will resolve
// to the correct client
SOCKFS . websocket _sock _ops . createPeer ( sock , ws ) ;
}
} ) ;
sock . server . on ( 'closed' , function ( ) {
sock . server = null ;
} ) ;
sock . server . on ( 'error' , function ( ) {
// don't throw
} ) ;
} , accept : function ( listensock ) {
if ( ! listensock . server ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
var newsock = listensock . pending . shift ( ) ;
newsock . stream . flags = listensock . stream . flags ;
return newsock ;
} , getname : function ( sock , peer ) {
var addr , port ;
if ( peer ) {
if ( sock . daddr === undefined || sock . dport === undefined ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTCONN ) ;
}
addr = sock . daddr ;
port = sock . dport ;
} else {
// TODO saddr and sport will be set for bind()'d UDP sockets, but what
// should we be returning for TCP sockets that've been connect()'d?
addr = sock . saddr || 0 ;
port = sock . sport || 0 ;
}
return { addr : addr , port : port } ;
} , sendmsg : function ( sock , buffer , offset , length , addr , port ) {
if ( sock . type === 2 ) {
// connection-less sockets will honor the message address,
// and otherwise fall back to the bound destination address
if ( addr === undefined || port === undefined ) {
addr = sock . daddr ;
port = sock . dport ;
}
// if there was no address to fall back to, error out
if ( addr === undefined || port === undefined ) {
throw new FS . ErrnoError ( ERRNO _CODES . EDESTADDRREQ ) ;
}
} else {
// connection-based sockets will only use the bound
addr = sock . daddr ;
port = sock . dport ;
}
// find the peer for the destination address
var dest = SOCKFS . websocket _sock _ops . getPeer ( sock , addr , port ) ;
// early out if not connected with a connection-based socket
if ( sock . type === 1 ) {
if ( ! dest || dest . socket . readyState === dest . socket . CLOSING || dest . socket . readyState === dest . socket . CLOSED ) {
throw new FS . ErrnoError ( ERRNO _CODES . ENOTCONN ) ;
} else if ( dest . socket . readyState === dest . socket . CONNECTING ) {
throw new FS . ErrnoError ( ERRNO _CODES . EAGAIN ) ;
}
}
// create a copy of the incoming data to send, as the WebSocket API
// doesn't work entirely with an ArrayBufferView, it'll just send
// the entire underlying buffer
var data ;
if ( buffer instanceof Array || buffer instanceof ArrayBuffer ) {
data = buffer . slice ( offset , offset + length ) ;
} else { // ArrayBufferView
data = buffer . buffer . slice ( buffer . byteOffset + offset , buffer . byteOffset + offset + length ) ;
}
// if we're emulating a connection-less dgram socket and don't have
// a cached connection, queue the buffer to send upon connect and
// lie, saying the data was sent now.
if ( sock . type === 2 ) {
if ( ! dest || dest . socket . readyState !== dest . socket . OPEN ) {
// if we're not connected, open a new connection
if ( ! dest || dest . socket . readyState === dest . socket . CLOSING || dest . socket . readyState === dest . socket . CLOSED ) {
dest = SOCKFS . websocket _sock _ops . createPeer ( sock , addr , port ) ;
}
dest . dgram _send _queue . push ( data ) ;
return length ;
}
}
try {
// send the actual data
dest . socket . send ( data ) ;
return length ;
} catch ( e ) {
throw new FS . ErrnoError ( ERRNO _CODES . EINVAL ) ;
}
} , recvmsg : function ( sock , length ) {
// http://pubs.opengroup.org/onlinepubs/7908799/xns/recvmsg.html
if ( sock . type === 1 && sock . server ) {
// tcp servers should not be recv()'ing on the listen socket
throw new FS . ErrnoError ( ERRNO _CODES . ENOTCONN ) ;
}
var queued = sock . recv _queue . shift ( ) ;
if ( ! queued ) {
if ( sock . type === 1 ) {
var dest = SOCKFS . websocket _sock _ops . getPeer ( sock , sock . daddr , sock . dport ) ;
if ( ! dest ) {
// if we have a destination address but are not connected, error out
throw new FS . ErrnoError ( ERRNO _CODES . ENOTCONN ) ;
}
else if ( dest . socket . readyState === dest . socket . CLOSING || dest . socket . readyState === dest . socket . CLOSED ) {
// return null if the socket has closed
return null ;
}
else {
// else, our socket is in a valid state but truly has nothing available
throw new FS . ErrnoError ( ERRNO _CODES . EAGAIN ) ;
}
} else {
throw new FS . ErrnoError ( ERRNO _CODES . EAGAIN ) ;
}
}
// queued.data will be an ArrayBuffer if it's unadulterated, but if it's
// requeued TCP data it'll be an ArrayBufferView
var queuedLength = queued . data . byteLength || queued . data . length ;
var queuedOffset = queued . data . byteOffset || 0 ;
var queuedBuffer = queued . data . buffer || queued . data ;
var bytesRead = Math . min ( length , queuedLength ) ;
var res = {
buffer : new Uint8Array ( queuedBuffer , queuedOffset , bytesRead ) ,
addr : queued . addr ,
port : queued . port
} ;
// push back any unread data for TCP connections
if ( sock . type === 1 && bytesRead < queuedLength ) {
var bytesRemaining = queuedLength - bytesRead ;
queued . data = new Uint8Array ( queuedBuffer , queuedOffset + bytesRead , bytesRemaining ) ;
sock . recv _queue . unshift ( queued ) ;
}
return res ;
} } } ; function _send ( fd , buf , len , flags ) {
var sock = SOCKFS . getSocket ( fd ) ;
if ( ! sock ) {
_ _ _setErrNo ( ERRNO _CODES . EBADF ) ;
return - 1 ;
}
// TODO honor flags
return _write ( fd , buf , len ) ;
}
function _pwrite ( fildes , buf , nbyte , offset ) {
// ssize_t pwrite(int fildes, const void *buf, size_t nbyte, off_t offset);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/write.html
var stream = FS . getStream ( fildes ) ;
if ( ! stream ) {
_ _ _setErrNo ( ERRNO _CODES . EBADF ) ;
return - 1 ;
}
try {
var slab = HEAP8 ;
return FS . write ( stream , slab , buf , nbyte , offset ) ;
} catch ( e ) {
FS . handleFSError ( e ) ;
return - 1 ;
}
} function _write ( fildes , buf , nbyte ) {
// ssize_t write(int fildes, const void *buf, size_t nbyte);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/write.html
var stream = FS . getStream ( fildes ) ;
if ( ! stream ) {
_ _ _setErrNo ( ERRNO _CODES . EBADF ) ;
return - 1 ;
}
try {
var slab = HEAP8 ;
return FS . write ( stream , slab , buf , nbyte ) ;
} catch ( e ) {
FS . handleFSError ( e ) ;
return - 1 ;
}
}
function _fileno ( stream ) {
// int fileno(FILE *stream);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/fileno.html
stream = FS . getStreamFromPtr ( stream ) ;
if ( ! stream ) return - 1 ;
return stream . fd ;
} function _fwrite ( ptr , size , nitems , stream ) {
// size_t fwrite(const void *restrict ptr, size_t size, size_t nitems, FILE *restrict stream);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/fwrite.html
var bytesToWrite = nitems * size ;
if ( bytesToWrite == 0 ) return 0 ;
var fd = _fileno ( stream ) ;
var bytesWritten = _write ( fd , ptr , bytesToWrite ) ;
if ( bytesWritten == - 1 ) {
var streamObj = FS . getStreamFromPtr ( stream ) ;
if ( streamObj ) streamObj . error = true ;
return 0 ;
} else {
return Math . floor ( bytesWritten / size ) ;
}
}
Module [ "_strlen" ] = _strlen ;
function _ _reallyNegative ( x ) {
return x < 0 || ( x === 0 && ( 1 / x ) === - Infinity ) ;
} function _ _formatString ( format , varargs ) {
var textIndex = format ;
var argIndex = 0 ;
function getNextArg ( type ) {
// NOTE: Explicitly ignoring type safety. Otherwise this fails:
// int x = 4; printf("%c\n", (char)x);
var ret ;
if ( type === 'double' ) {
ret = HEAPF64 [ ( ( ( varargs ) + ( argIndex ) ) >> 3 ) ] ;
} else if ( type == 'i64' ) {
ret = [ HEAP32 [ ( ( ( varargs ) + ( argIndex ) ) >> 2 ) ] ,
HEAP32 [ ( ( ( varargs ) + ( argIndex + 4 ) ) >> 2 ) ] ] ;
} else {
type = 'i32' ; // varargs are always i32, i64, or double
ret = HEAP32 [ ( ( ( varargs ) + ( argIndex ) ) >> 2 ) ] ;
}
argIndex += Runtime . getNativeFieldSize ( type ) ;
return ret ;
}
var ret = [ ] ;
var curr , next , currArg ;
while ( 1 ) {
var startTextIndex = textIndex ;
curr = HEAP8 [ ( textIndex ) ] ;
if ( curr === 0 ) break ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
if ( curr == 37 ) {
// Handle flags.
var flagAlwaysSigned = false ;
var flagLeftAlign = false ;
var flagAlternative = false ;
var flagZeroPad = false ;
var flagPadSign = false ;
flagsLoop : while ( 1 ) {
switch ( next ) {
case 43 :
flagAlwaysSigned = true ;
break ;
case 45 :
flagLeftAlign = true ;
break ;
case 35 :
flagAlternative = true ;
break ;
case 48 :
if ( flagZeroPad ) {
break flagsLoop ;
} else {
flagZeroPad = true ;
break ;
}
case 32 :
flagPadSign = true ;
break ;
default :
break flagsLoop ;
}
textIndex ++ ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
}
// Handle width.
var width = 0 ;
if ( next == 42 ) {
width = getNextArg ( 'i32' ) ;
textIndex ++ ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
} else {
while ( next >= 48 && next <= 57 ) {
width = width * 10 + ( next - 48 ) ;
textIndex ++ ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
}
}
// Handle precision.
var precisionSet = false , precision = - 1 ;
if ( next == 46 ) {
precision = 0 ;
precisionSet = true ;
textIndex ++ ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
if ( next == 42 ) {
precision = getNextArg ( 'i32' ) ;
textIndex ++ ;
} else {
while ( 1 ) {
var precisionChr = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
if ( precisionChr < 48 ||
precisionChr > 57 ) break ;
precision = precision * 10 + ( precisionChr - 48 ) ;
textIndex ++ ;
}
}
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
}
if ( precision < 0 ) {
precision = 6 ; // Standard default.
precisionSet = false ;
}
// Handle integer sizes. WARNING: These assume a 32-bit architecture!
var argSize ;
switch ( String . fromCharCode ( next ) ) {
case 'h' :
var nextNext = HEAP8 [ ( ( textIndex + 2 ) | 0 ) ] ;
if ( nextNext == 104 ) {
textIndex ++ ;
argSize = 1 ; // char (actually i32 in varargs)
} else {
argSize = 2 ; // short (actually i32 in varargs)
}
break ;
case 'l' :
var nextNext = HEAP8 [ ( ( textIndex + 2 ) | 0 ) ] ;
if ( nextNext == 108 ) {
textIndex ++ ;
argSize = 8 ; // long long
} else {
argSize = 4 ; // long
}
break ;
case 'L' : // long long
case 'q' : // int64_t
case 'j' : // intmax_t
argSize = 8 ;
break ;
case 'z' : // size_t
case 't' : // ptrdiff_t
case 'I' : // signed ptrdiff_t or unsigned size_t
argSize = 4 ;
break ;
default :
argSize = null ;
}
if ( argSize ) textIndex ++ ;
next = HEAP8 [ ( ( textIndex + 1 ) | 0 ) ] ;
// Handle type specifier.
switch ( String . fromCharCode ( next ) ) {
case 'd' : case 'i' : case 'u' : case 'o' : case 'x' : case 'X' : case 'p' : {
// Integer.
var signed = next == 100 || next == 105 ;
argSize = argSize || 4 ;
var currArg = getNextArg ( 'i' + ( argSize * 8 ) ) ;
var argText ;
// Flatten i64-1 [low, high] into a (slightly rounded) double
if ( argSize == 8 ) {
currArg = Runtime . makeBigInt ( currArg [ 0 ] , currArg [ 1 ] , next == 117 ) ;
}
// Truncate to requested size.
if ( argSize <= 4 ) {
var limit = Math . pow ( 256 , argSize ) - 1 ;
currArg = ( signed ? reSign : unSign ) ( currArg & limit , argSize * 8 ) ;
}
// Format the number.
var currAbsArg = Math . abs ( currArg ) ;
var prefix = '' ;
if ( next == 100 || next == 105 ) {
argText = reSign ( currArg , 8 * argSize , 1 ) . toString ( 10 ) ;
} else if ( next == 117 ) {
argText = unSign ( currArg , 8 * argSize , 1 ) . toString ( 10 ) ;
currArg = Math . abs ( currArg ) ;
} else if ( next == 111 ) {
argText = ( flagAlternative ? '0' : '' ) + currAbsArg . toString ( 8 ) ;
} else if ( next == 120 || next == 88 ) {
prefix = ( flagAlternative && currArg != 0 ) ? '0x' : '' ;
if ( currArg < 0 ) {
// Represent negative numbers in hex as 2's complement.
currArg = - currArg ;
argText = ( currAbsArg - 1 ) . toString ( 16 ) ;
var buffer = [ ] ;
for ( var i = 0 ; i < argText . length ; i ++ ) {
buffer . push ( ( 0xF - parseInt ( argText [ i ] , 16 ) ) . toString ( 16 ) ) ;
}
argText = buffer . join ( '' ) ;
while ( argText . length < argSize * 2 ) argText = 'f' + argText ;
} else {
argText = currAbsArg . toString ( 16 ) ;
}
if ( next == 88 ) {
prefix = prefix . toUpperCase ( ) ;
argText = argText . toUpperCase ( ) ;
}
} else if ( next == 112 ) {
if ( currAbsArg === 0 ) {
argText = '(nil)' ;
} else {
prefix = '0x' ;
argText = currAbsArg . toString ( 16 ) ;
}
}
if ( precisionSet ) {
while ( argText . length < precision ) {
argText = '0' + argText ;
}
}
// Add sign if needed
if ( currArg >= 0 ) {
if ( flagAlwaysSigned ) {
prefix = '+' + prefix ;
} else if ( flagPadSign ) {
prefix = ' ' + prefix ;
}
}
// Move sign to prefix so we zero-pad after the sign
if ( argText . charAt ( 0 ) == '-' ) {
prefix = '-' + prefix ;
argText = argText . substr ( 1 ) ;
}
// Add padding.
while ( prefix . length + argText . length < width ) {
if ( flagLeftAlign ) {
argText += ' ' ;
} else {
if ( flagZeroPad ) {
argText = '0' + argText ;
} else {
prefix = ' ' + prefix ;
}
}
}
// Insert the result into the buffer.
argText = prefix + argText ;
argText . split ( '' ) . forEach ( function ( chr ) {
ret . push ( chr . charCodeAt ( 0 ) ) ;
} ) ;
break ;
}
case 'f' : case 'F' : case 'e' : case 'E' : case 'g' : case 'G' : {
// Float.
var currArg = getNextArg ( 'double' ) ;
var argText ;
if ( isNaN ( currArg ) ) {
argText = 'nan' ;
flagZeroPad = false ;
} else if ( ! isFinite ( currArg ) ) {
argText = ( currArg < 0 ? '-' : '' ) + 'inf' ;
flagZeroPad = false ;
} else {
var isGeneral = false ;
var effectivePrecision = Math . min ( precision , 20 ) ;
// Convert g/G to f/F or e/E, as per:
// http://pubs.opengroup.org/onlinepubs/9699919799/functions/printf.html
if ( next == 103 || next == 71 ) {
isGeneral = true ;
precision = precision || 1 ;
var exponent = parseInt ( currArg . toExponential ( effectivePrecision ) . split ( 'e' ) [ 1 ] , 10 ) ;
if ( precision > exponent && exponent >= - 4 ) {
next = ( ( next == 103 ) ? 'f' : 'F' ) . charCodeAt ( 0 ) ;
precision -= exponent + 1 ;
} else {
next = ( ( next == 103 ) ? 'e' : 'E' ) . charCodeAt ( 0 ) ;
precision -- ;
}
effectivePrecision = Math . min ( precision , 20 ) ;
}
if ( next == 101 || next == 69 ) {
argText = currArg . toExponential ( effectivePrecision ) ;
// Make sure the exponent has at least 2 digits.
if ( /[eE][-+]\d$/ . test ( argText ) ) {
argText = argText . slice ( 0 , - 1 ) + '0' + argText . slice ( - 1 ) ;
}
} else if ( next == 102 || next == 70 ) {
argText = currArg . toFixed ( effectivePrecision ) ;
if ( currArg === 0 && _ _reallyNegative ( currArg ) ) {
argText = '-' + argText ;
}
}
var parts = argText . split ( 'e' ) ;
if ( isGeneral && ! flagAlternative ) {
// Discard trailing zeros and periods.
while ( parts [ 0 ] . length > 1 && parts [ 0 ] . indexOf ( '.' ) != - 1 &&
( parts [ 0 ] . slice ( - 1 ) == '0' || parts [ 0 ] . slice ( - 1 ) == '.' ) ) {
parts [ 0 ] = parts [ 0 ] . slice ( 0 , - 1 ) ;
}
} else {
// Make sure we have a period in alternative mode.
if ( flagAlternative && argText . indexOf ( '.' ) == - 1 ) parts [ 0 ] += '.' ;
// Zero pad until required precision.
while ( precision > effectivePrecision ++ ) parts [ 0 ] += '0' ;
}
argText = parts [ 0 ] + ( parts . length > 1 ? 'e' + parts [ 1 ] : '' ) ;
// Capitalize 'E' if needed.
if ( next == 69 ) argText = argText . toUpperCase ( ) ;
// Add sign.
if ( currArg >= 0 ) {
if ( flagAlwaysSigned ) {
argText = '+' + argText ;
} else if ( flagPadSign ) {
argText = ' ' + argText ;
}
}
}
// Add padding.
while ( argText . length < width ) {
if ( flagLeftAlign ) {
argText += ' ' ;
} else {
if ( flagZeroPad && ( argText [ 0 ] == '-' || argText [ 0 ] == '+' ) ) {
argText = argText [ 0 ] + '0' + argText . slice ( 1 ) ;
} else {
argText = ( flagZeroPad ? '0' : ' ' ) + argText ;
}
}
}
// Adjust case.
if ( next < 97 ) argText = argText . toUpperCase ( ) ;
// Insert the result into the buffer.
argText . split ( '' ) . forEach ( function ( chr ) {
ret . push ( chr . charCodeAt ( 0 ) ) ;
} ) ;
break ;
}
case 's' : {
// String.
var arg = getNextArg ( 'i8*' ) ;
var argLength = arg ? _strlen ( arg ) : '(null)' . length ;
if ( precisionSet ) argLength = Math . min ( argLength , precision ) ;
if ( ! flagLeftAlign ) {
while ( argLength < width -- ) {
ret . push ( 32 ) ;
}
}
if ( arg ) {
for ( var i = 0 ; i < argLength ; i ++ ) {
ret . push ( HEAPU8 [ ( ( arg ++ ) | 0 ) ] ) ;
}
} else {
ret = ret . concat ( intArrayFromString ( '(null)' . substr ( 0 , argLength ) , true ) ) ;
}
if ( flagLeftAlign ) {
while ( argLength < width -- ) {
ret . push ( 32 ) ;
}
}
break ;
}
case 'c' : {
// Character.
if ( flagLeftAlign ) ret . push ( getNextArg ( 'i8' ) ) ;
while ( -- width > 0 ) {
ret . push ( 32 ) ;
}
if ( ! flagLeftAlign ) ret . push ( getNextArg ( 'i8' ) ) ;
break ;
}
case 'n' : {
// Write the length written so far to the next parameter.
var ptr = getNextArg ( 'i32*' ) ;
HEAP32 [ ( ( ptr ) >> 2 ) ] = ret . length ;
break ;
}
case '%' : {
// Literal percent sign.
ret . push ( curr ) ;
break ;
}
default : {
// Unknown specifiers remain untouched.
for ( var i = startTextIndex ; i < textIndex + 2 ; i ++ ) {
ret . push ( HEAP8 [ ( i ) ] ) ;
}
}
}
textIndex += 2 ;
// TODO: Support a/A (hex float) and m (last error) specifiers.
// TODO: Support %1${specifier} for arg selection.
} else {
ret . push ( curr ) ;
textIndex += 1 ;
}
}
return ret ;
} function _fprintf ( stream , format , varargs ) {
// int fprintf(FILE *restrict stream, const char *restrict format, ...);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/printf.html
var result = _ _formatString ( format , varargs ) ;
var stack = Runtime . stackSave ( ) ;
var ret = _fwrite ( allocate ( result , 'i8' , ALLOC _STACK ) , 1 , result . length , stream ) ;
Runtime . stackRestore ( stack ) ;
return ret ;
} function _printf ( format , varargs ) {
// int printf(const char *restrict format, ...);
// http://pubs.opengroup.org/onlinepubs/000095399/functions/printf.html
var stdout = HEAP32 [ ( ( _stdout ) >> 2 ) ] ;
return _fprintf ( stdout , format , varargs ) ;
}
Module [ "_memset" ] = _memset ;
function _emscripten _memcpy _big ( dest , src , num ) {
HEAPU8 . set ( HEAPU8 . subarray ( src , src + num ) , dest ) ;
return dest ;
}
Module [ "_memcpy" ] = _memcpy ;
function _free ( ) {
}
Module [ "_free" ] = _free ;
Module [ "requestFullScreen" ] = function Module _requestFullScreen ( lockPointer , resizeCanvas ) { Browser . requestFullScreen ( lockPointer , resizeCanvas ) } ;
Module [ "requestAnimationFrame" ] = function Module _requestAnimationFrame ( func ) { Browser . requestAnimationFrame ( func ) } ;
Module [ "setCanvasSize" ] = function Module _setCanvasSize ( width , height , noUpdates ) { Browser . setCanvasSize ( width , height , noUpdates ) } ;
Module [ "pauseMainLoop" ] = function Module _pauseMainLoop ( ) { Browser . mainLoop . pause ( ) } ;
Module [ "resumeMainLoop" ] = function Module _resumeMainLoop ( ) { Browser . mainLoop . resume ( ) } ;
Module [ "getUserMedia" ] = function Module _getUserMedia ( ) { Browser . getUserMedia ( ) }
FS . staticInit ( ) ; _ _ATINIT _ _ . unshift ( { func : function ( ) { if ( ! Module [ "noFSInit" ] && ! FS . init . initialized ) FS . init ( ) } } ) ; _ _ATMAIN _ _ . push ( { func : function ( ) { FS . ignorePermissions = false } } ) ; _ _ATEXIT _ _ . push ( { func : function ( ) { FS . quit ( ) } } ) ; Module [ "FS_createFolder" ] = FS . createFolder ; Module [ "FS_createPath" ] = FS . createPath ; Module [ "FS_createDataFile" ] = FS . createDataFile ; Module [ "FS_createPreloadedFile" ] = FS . createPreloadedFile ; Module [ "FS_createLazyFile" ] = FS . createLazyFile ; Module [ "FS_createLink" ] = FS . createLink ; Module [ "FS_createDevice" ] = FS . createDevice ;
_ _ _errno _state = Runtime . staticAlloc ( 4 ) ; HEAP32 [ ( ( _ _ _errno _state ) >> 2 ) ] = 0 ;
_ _ATINIT _ _ . unshift ( { func : function ( ) { TTY . init ( ) } } ) ; _ _ATEXIT _ _ . push ( { func : function ( ) { TTY . shutdown ( ) } } ) ; TTY . utf8 = new Runtime . UTF8Processor ( ) ;
if ( ENVIRONMENT _IS _NODE ) { var fs = require ( "fs" ) ; NODEFS . staticInit ( ) ; }
_ _ATINIT _ _ . push ( { func : function ( ) { SOCKFS . root = FS . mount ( SOCKFS , { } , null ) ; } } ) ;
STACK _BASE = STACKTOP = Runtime . alignMemory ( STATICTOP ) ;
staticSealed = true ; // seal the static portion of memory
STACK _MAX = STACK _BASE + 5242880 ;
DYNAMIC _BASE = DYNAMICTOP = Runtime . alignMemory ( STACK _MAX ) ;
assert ( DYNAMIC _BASE < TOTAL _MEMORY , "TOTAL_MEMORY not big enough for stack" ) ;
var Math _min = Math . min ;
function asmPrintInt ( x , y ) {
Module . print ( 'int ' + x + ',' + y ) ; // + ' ' + new Error().stack);
}
function asmPrintFloat ( x , y ) {
Module . print ( 'float ' + x + ',' + y ) ; // + ' ' + new Error().stack);
}
// EMSCRIPTEN_START_ASM
2016-03-08 14:46:54 +00:00
var asm = Wasm . instantiateModuleFromAsm ( ( function Module ( global , env , buffer ) {
2016-02-23 16:21:40 +00:00
'use asm' ;
var HEAP8 = new global . Int8Array ( buffer ) ;
var HEAP16 = new global . Int16Array ( buffer ) ;
var HEAP32 = new global . Int32Array ( buffer ) ;
var HEAPU8 = new global . Uint8Array ( buffer ) ;
var HEAPU16 = new global . Uint16Array ( buffer ) ;
var HEAPU32 = new global . Uint32Array ( buffer ) ;
var HEAPF32 = new global . Float32Array ( buffer ) ;
var HEAPF64 = new global . Float64Array ( buffer ) ;
var STACKTOP = env . STACKTOP | 0 ;
var STACK _MAX = env . STACK _MAX | 0 ;
var tempDoublePtr = env . tempDoublePtr | 0 ;
var ABORT = env . ABORT | 0 ;
var _ _THREW _ _ = 0 ;
var threwValue = 0 ;
var setjmpId = 0 ;
var undef = 0 ;
var nan = + env . NaN , inf = + env . Infinity ;
var tempInt = 0 , tempBigInt = 0 , tempBigIntP = 0 , tempBigIntS = 0 , tempBigIntR = 0.0 , tempBigIntI = 0 , tempBigIntD = 0 , tempValue = 0 , tempDouble = 0.0 ;
var tempRet0 = 0 ;
var tempRet1 = 0 ;
var tempRet2 = 0 ;
var tempRet3 = 0 ;
var tempRet4 = 0 ;
var tempRet5 = 0 ;
var tempRet6 = 0 ;
var tempRet7 = 0 ;
var tempRet8 = 0 ;
var tempRet9 = 0 ;
var Math _floor = global . Math . floor ;
var Math _abs = global . Math . abs ;
var Math _sqrt = global . Math . sqrt ;
var Math _pow = global . Math . pow ;
var Math _cos = global . Math . cos ;
var Math _sin = global . Math . sin ;
var Math _tan = global . Math . tan ;
var Math _acos = global . Math . acos ;
var Math _asin = global . Math . asin ;
var Math _atan = global . Math . atan ;
var Math _atan2 = global . Math . atan2 ;
var Math _exp = global . Math . exp ;
var Math _log = global . Math . log ;
var Math _ceil = global . Math . ceil ;
var Math _imul = global . Math . imul ;
var abort = env . abort ;
var assert = env . assert ;
var asmPrintInt = env . asmPrintInt ;
var asmPrintFloat = env . asmPrintFloat ;
var Math _min = env . min ;
var _free = env . _free ;
var _emscripten _memcpy _big = env . _emscripten _memcpy _big ;
var _printf = env . _printf ;
var _send = env . _send ;
var _pwrite = env . _pwrite ;
var _ _reallyNegative = env . _ _reallyNegative ;
var _fwrite = env . _fwrite ;
var _malloc = env . _malloc ;
var _mkport = env . _mkport ;
var _fprintf = env . _fprintf ;
var _ _ _setErrNo = env . _ _ _setErrNo ;
var _ _formatString = env . _ _formatString ;
var _fileno = env . _fileno ;
var _fflush = env . _fflush ;
var _write = env . _write ;
var tempFloat = 0.0 ;
// EMSCRIPTEN_START_FUNCS
function _main ( i3 , i5 ) {
i3 = i3 | 0 ;
i5 = i5 | 0 ;
var i1 = 0 , i2 = 0 , i4 = 0 , i6 = 0 , i7 = 0 , i8 = 0 , i9 = 0 , i10 = 0 , i11 = 0 , i12 = 0 , i13 = 0 , i14 = 0 , i15 = 0 , i16 = 0 , i17 = 0 , i18 = 0 , i19 = 0 ;
i1 = STACKTOP ;
STACKTOP = STACKTOP + 16 | 0 ;
i2 = i1 ;
L1 : do {
if ( ( i3 | 0 ) > 1 ) {
i3 = HEAP8 [ HEAP32 [ i5 + 4 >> 2 ] | 0 ] | 0 ;
switch ( i3 | 0 ) {
case 50 :
{
i3 = 625 ;
break L1 ;
}
case 51 :
{
i4 = 4 ;
break L1 ;
}
case 52 :
{
i3 = 6250 ;
break L1 ;
}
case 53 :
{
i3 = 12500 ;
break L1 ;
}
case 49 :
{
i3 = 75 ;
break L1 ;
}
case 48 :
{
i12 = 0 ;
STACKTOP = i1 ;
return i12 | 0 ;
}
default :
{
HEAP32 [ i2 >> 2 ] = i3 + - 48 ;
_printf ( 8 , i2 | 0 ) | 0 ;
i12 = - 1 ;
STACKTOP = i1 ;
return i12 | 0 ;
}
}
} else {
i4 = 4 ;
}
} while ( 0 ) ;
if ( ( i4 | 0 ) == 4 ) {
i3 = 1250 ;
}
i4 = 0 ;
i12 = 0 ;
do {
i9 = ( i4 | 0 ) % 10 | 0 ;
i5 = i9 + i4 | 0 ;
i6 = ( i4 | 0 ) % 255 | 0 ;
i8 = ( i4 | 0 ) % 15 | 0 ;
i10 = ( ( i4 | 0 ) % 120 | 0 | 0 ) % 1024 | 0 ;
i11 = ( ( i4 | 0 ) % 1024 | 0 ) + i4 | 0 ;
i5 = ( ( i5 | 0 ) % 1024 | 0 ) + i5 | 0 ;
i8 = ( ( i8 | 0 ) % 1024 | 0 ) + i8 | 0 ;
i6 = ( ( ( i6 | 0 ) % 1024 | 0 ) + i6 + i10 | 0 ) % 1024 | 0 ;
i7 = 0 ;
do {
i17 = i7 << 1 ;
i14 = ( i7 | 0 ) % 120 | 0 ;
i18 = ( i17 | 0 ) % 1024 | 0 ;
i19 = ( i9 + i7 | 0 ) % 1024 | 0 ;
i16 = ( ( i7 | 0 ) % 255 | 0 | 0 ) % 1024 | 0 ;
i15 = ( i7 | 0 ) % 1024 | 0 ;
i13 = ( ( i7 | 0 ) % 15 | 0 | 0 ) % 1024 | 0 ;
i12 = ( ( ( i19 + i18 + i16 + i10 + i15 + i13 + ( ( i11 + i19 | 0 ) % 1024 | 0 ) + ( ( i5 + i18 | 0 ) % 1024 | 0 ) + ( ( i18 + i17 + i16 | 0 ) % 1024 | 0 ) + i6 + ( ( i8 + i15 | 0 ) % 1024 | 0 ) + ( ( ( ( i14 | 0 ) % 1024 | 0 ) + i14 + i13 | 0 ) % 1024 | 0 ) | 0 ) % 100 | 0 ) + i12 | 0 ) % 10240 | 0 ;
i7 = i7 + 1 | 0 ;
} while ( ( i7 | 0 ) != 5e4 ) ;
i4 = i4 + 1 | 0 ;
} while ( ( i4 | 0 ) < ( i3 | 0 ) ) ;
HEAP32 [ i2 >> 2 ] = i12 ;
_printf ( 24 , i2 | 0 ) | 0 ;
i19 = 0 ;
STACKTOP = i1 ;
return i19 | 0 ;
}
function _memcpy ( i3 , i2 , i1 ) {
i3 = i3 | 0 ;
i2 = i2 | 0 ;
i1 = i1 | 0 ;
var i4 = 0 ;
if ( ( i1 | 0 ) >= 4096 ) return _emscripten _memcpy _big ( i3 | 0 , i2 | 0 , i1 | 0 ) | 0 ;
i4 = i3 | 0 ;
if ( ( i3 & 3 ) == ( i2 & 3 ) ) {
while ( i3 & 3 ) {
if ( ( i1 | 0 ) == 0 ) return i4 | 0 ;
HEAP8 [ i3 ] = HEAP8 [ i2 ] | 0 ;
i3 = i3 + 1 | 0 ;
i2 = i2 + 1 | 0 ;
i1 = i1 - 1 | 0 ;
}
while ( ( i1 | 0 ) >= 4 ) {
HEAP32 [ i3 >> 2 ] = HEAP32 [ i2 >> 2 ] ;
i3 = i3 + 4 | 0 ;
i2 = i2 + 4 | 0 ;
i1 = i1 - 4 | 0 ;
}
}
while ( ( i1 | 0 ) > 0 ) {
HEAP8 [ i3 ] = HEAP8 [ i2 ] | 0 ;
i3 = i3 + 1 | 0 ;
i2 = i2 + 1 | 0 ;
i1 = i1 - 1 | 0 ;
}
return i4 | 0 ;
}
function _memset ( i1 , i4 , i3 ) {
i1 = i1 | 0 ;
i4 = i4 | 0 ;
i3 = i3 | 0 ;
var i2 = 0 , i5 = 0 , i6 = 0 , i7 = 0 ;
i2 = i1 + i3 | 0 ;
if ( ( i3 | 0 ) >= 20 ) {
i4 = i4 & 255 ;
i7 = i1 & 3 ;
i6 = i4 | i4 << 8 | i4 << 16 | i4 << 24 ;
i5 = i2 & ~ 3 ;
if ( i7 ) {
i7 = i1 + 4 - i7 | 0 ;
while ( ( i1 | 0 ) < ( i7 | 0 ) ) {
HEAP8 [ i1 ] = i4 ;
i1 = i1 + 1 | 0 ;
}
}
while ( ( i1 | 0 ) < ( i5 | 0 ) ) {
HEAP32 [ i1 >> 2 ] = i6 ;
i1 = i1 + 4 | 0 ;
}
}
while ( ( i1 | 0 ) < ( i2 | 0 ) ) {
HEAP8 [ i1 ] = i4 ;
i1 = i1 + 1 | 0 ;
}
return i1 - i3 | 0 ;
}
function copyTempDouble ( i1 ) {
i1 = i1 | 0 ;
HEAP8 [ tempDoublePtr ] = HEAP8 [ i1 ] ;
HEAP8 [ tempDoublePtr + 1 | 0 ] = HEAP8 [ i1 + 1 | 0 ] ;
HEAP8 [ tempDoublePtr + 2 | 0 ] = HEAP8 [ i1 + 2 | 0 ] ;
HEAP8 [ tempDoublePtr + 3 | 0 ] = HEAP8 [ i1 + 3 | 0 ] ;
HEAP8 [ tempDoublePtr + 4 | 0 ] = HEAP8 [ i1 + 4 | 0 ] ;
HEAP8 [ tempDoublePtr + 5 | 0 ] = HEAP8 [ i1 + 5 | 0 ] ;
HEAP8 [ tempDoublePtr + 6 | 0 ] = HEAP8 [ i1 + 6 | 0 ] ;
HEAP8 [ tempDoublePtr + 7 | 0 ] = HEAP8 [ i1 + 7 | 0 ] ;
}
function copyTempFloat ( i1 ) {
i1 = i1 | 0 ;
HEAP8 [ tempDoublePtr ] = HEAP8 [ i1 ] ;
HEAP8 [ tempDoublePtr + 1 | 0 ] = HEAP8 [ i1 + 1 | 0 ] ;
HEAP8 [ tempDoublePtr + 2 | 0 ] = HEAP8 [ i1 + 2 | 0 ] ;
HEAP8 [ tempDoublePtr + 3 | 0 ] = HEAP8 [ i1 + 3 | 0 ] ;
}
function runPostSets ( ) { }
function _strlen ( i1 ) {
i1 = i1 | 0 ;
var i2 = 0 ;
i2 = i1 ;
while ( HEAP8 [ i2 ] | 0 ) {
i2 = i2 + 1 | 0 ;
}
return i2 - i1 | 0 ;
}
function stackAlloc ( i1 ) {
i1 = i1 | 0 ;
var i2 = 0 ;
i2 = STACKTOP ;
STACKTOP = STACKTOP + i1 | 0 ;
STACKTOP = STACKTOP + 7 & - 8 ;
return i2 | 0 ;
}
function setThrew ( i1 , i2 ) {
i1 = i1 | 0 ;
i2 = i2 | 0 ;
if ( ( _ _THREW _ _ | 0 ) == 0 ) {
_ _THREW _ _ = i1 ;
threwValue = i2 ;
}
}
function stackRestore ( i1 ) {
i1 = i1 | 0 ;
STACKTOP = i1 ;
}
function setTempRet9 ( i1 ) {
i1 = i1 | 0 ;
tempRet9 = i1 ;
}
function setTempRet8 ( i1 ) {
i1 = i1 | 0 ;
tempRet8 = i1 ;
}
function setTempRet7 ( i1 ) {
i1 = i1 | 0 ;
tempRet7 = i1 ;
}
function setTempRet6 ( i1 ) {
i1 = i1 | 0 ;
tempRet6 = i1 ;
}
function setTempRet5 ( i1 ) {
i1 = i1 | 0 ;
tempRet5 = i1 ;
}
function setTempRet4 ( i1 ) {
i1 = i1 | 0 ;
tempRet4 = i1 ;
}
function setTempRet3 ( i1 ) {
i1 = i1 | 0 ;
tempRet3 = i1 ;
}
function setTempRet2 ( i1 ) {
i1 = i1 | 0 ;
tempRet2 = i1 ;
}
function setTempRet1 ( i1 ) {
i1 = i1 | 0 ;
tempRet1 = i1 ;
}
function setTempRet0 ( i1 ) {
i1 = i1 | 0 ;
tempRet0 = i1 ;
}
function stackSave ( ) {
return STACKTOP | 0 ;
}
// EMSCRIPTEN_END_FUNCS
return { _strlen : _strlen , _memcpy : _memcpy , _main : _main , _memset : _memset , runPostSets : runPostSets , stackAlloc : stackAlloc , stackSave : stackSave , stackRestore : stackRestore , setThrew : setThrew , setTempRet0 : setTempRet0 , setTempRet1 : setTempRet1 , setTempRet2 : setTempRet2 , setTempRet3 : setTempRet3 , setTempRet4 : setTempRet4 , setTempRet5 : setTempRet5 , setTempRet6 : setTempRet6 , setTempRet7 : setTempRet7 , setTempRet8 : setTempRet8 , setTempRet9 : setTempRet9 } ;
} ) . toString ( ) ,
// EMSCRIPTEN_END_ASM
{ "Math" : Math , "Int8Array" : Int8Array , "Int16Array" : Int16Array , "Int32Array" : Int32Array , "Uint8Array" : Uint8Array , "Uint16Array" : Uint16Array , "Uint32Array" : Uint32Array , "Float32Array" : Float32Array , "Float64Array" : Float64Array , "abort" : abort , "assert" : assert , "asmPrintInt" : asmPrintInt , "asmPrintFloat" : asmPrintFloat , "min" : Math _min , "_free" : _free , "_emscripten_memcpy_big" : _emscripten _memcpy _big , "_printf" : _printf , "_send" : _send , "_pwrite" : _pwrite , "__reallyNegative" : _ _reallyNegative , "_fwrite" : _fwrite , "_malloc" : _malloc , "_mkport" : _mkport , "_fprintf" : _fprintf , "___setErrNo" : _ _ _setErrNo , "__formatString" : _ _formatString , "_fileno" : _fileno , "_fflush" : _fflush , "_write" : _write , "STACKTOP" : STACKTOP , "STACK_MAX" : STACK _MAX , "tempDoublePtr" : tempDoublePtr , "ABORT" : ABORT , "NaN" : NaN , "Infinity" : Infinity } , buffer ) ;
var _strlen = Module [ "_strlen" ] = asm [ "_strlen" ] ;
var _memcpy = Module [ "_memcpy" ] = asm [ "_memcpy" ] ;
var _main = Module [ "_main" ] = asm [ "_main" ] ;
var _memset = Module [ "_memset" ] = asm [ "_memset" ] ;
var runPostSets = Module [ "runPostSets" ] = asm [ "runPostSets" ] ;
Runtime . stackAlloc = function ( size ) { return asm [ 'stackAlloc' ] ( size ) } ;
Runtime . stackSave = function ( ) { return asm [ 'stackSave' ] ( ) } ;
Runtime . stackRestore = function ( top ) { asm [ 'stackRestore' ] ( top ) } ;
// Warning: printing of i64 values may be slightly rounded! No deep i64 math used, so precise i64 code not included
var i64Math = null ;
// === Auto-generated postamble setup entry stuff ===
if ( memoryInitializer ) {
if ( ENVIRONMENT _IS _NODE || ENVIRONMENT _IS _SHELL ) {
var data = Module [ 'readBinary' ] ( memoryInitializer ) ;
HEAPU8 . set ( data , STATIC _BASE ) ;
} else {
addRunDependency ( 'memory initializer' ) ;
Browser . asyncLoad ( memoryInitializer , function ( data ) {
HEAPU8 . set ( data , STATIC _BASE ) ;
removeRunDependency ( 'memory initializer' ) ;
} , function ( data ) {
throw 'could not load memory initializer ' + memoryInitializer ;
} ) ;
}
}
function ExitStatus ( status ) {
this . name = "ExitStatus" ;
this . message = "Program terminated with exit(" + status + ")" ;
this . status = status ;
} ;
ExitStatus . prototype = new Error ( ) ;
ExitStatus . prototype . constructor = ExitStatus ;
var initialStackTop ;
var preloadStartTime = null ;
var calledMain = false ;
dependenciesFulfilled = function runCaller ( ) {
// If run has never been called, and we should call run (INVOKE_RUN is true, and Module.noInitialRun is not false)
if ( ! Module [ 'calledRun' ] && shouldRunNow ) run ( [ ] . concat ( Module [ "arguments" ] ) ) ;
if ( ! Module [ 'calledRun' ] ) dependenciesFulfilled = runCaller ; // try this again later, after new deps are fulfilled
}
Module [ 'callMain' ] = Module . callMain = function callMain ( args ) {
assert ( runDependencies == 0 , 'cannot call main when async dependencies remain! (listen on __ATMAIN__)' ) ;
assert ( _ _ATPRERUN _ _ . length == 0 , 'cannot call main when preRun functions remain to be called' ) ;
args = args || [ ] ;
ensureInitRuntime ( ) ;
var argc = args . length + 1 ;
function pad ( ) {
for ( var i = 0 ; i < 4 - 1 ; i ++ ) {
argv . push ( 0 ) ;
}
}
var argv = [ allocate ( intArrayFromString ( "/bin/this.program" ) , 'i8' , ALLOC _NORMAL ) ] ;
pad ( ) ;
for ( var i = 0 ; i < argc - 1 ; i = i + 1 ) {
argv . push ( allocate ( intArrayFromString ( args [ i ] ) , 'i8' , ALLOC _NORMAL ) ) ;
pad ( ) ;
}
argv . push ( 0 ) ;
argv = allocate ( argv , 'i32' , ALLOC _NORMAL ) ;
initialStackTop = STACKTOP ;
try {
var ret = Module [ '_main' ] ( argc , argv , 0 ) ;
// if we're not running an evented main loop, it's time to exit
if ( ! Module [ 'noExitRuntime' ] ) {
exit ( ret ) ;
}
}
catch ( e ) {
if ( e instanceof ExitStatus ) {
// exit() throws this once it's done to make sure execution
// has been stopped completely
return ;
} else if ( e == 'SimulateInfiniteLoop' ) {
// running an evented main loop, don't immediately exit
Module [ 'noExitRuntime' ] = true ;
return ;
} else {
if ( e && typeof e === 'object' && e . stack ) Module . printErr ( 'exception thrown: ' + [ e , e . stack ] ) ;
throw e ;
}
} finally {
calledMain = true ;
}
}
function run ( args ) {
args = args || Module [ 'arguments' ] ;
if ( preloadStartTime === null ) preloadStartTime = Date . now ( ) ;
if ( runDependencies > 0 ) {
Module . printErr ( 'run() called, but dependencies remain, so not running' ) ;
return ;
}
preRun ( ) ;
if ( runDependencies > 0 ) return ; // a preRun added a dependency, run will be called later
if ( Module [ 'calledRun' ] ) return ; // run may have just been called through dependencies being fulfilled just in this very frame
function doRun ( ) {
if ( Module [ 'calledRun' ] ) return ; // run may have just been called while the async setStatus time below was happening
Module [ 'calledRun' ] = true ;
ensureInitRuntime ( ) ;
preMain ( ) ;
if ( ENVIRONMENT _IS _WEB && preloadStartTime !== null ) {
Module . printErr ( 'pre-main prep time: ' + ( Date . now ( ) - preloadStartTime ) + ' ms' ) ;
}
if ( Module [ '_main' ] && shouldRunNow ) {
Module [ 'callMain' ] ( args ) ;
}
postRun ( ) ;
}
if ( Module [ 'setStatus' ] ) {
Module [ 'setStatus' ] ( 'Running...' ) ;
setTimeout ( function ( ) {
setTimeout ( function ( ) {
Module [ 'setStatus' ] ( '' ) ;
} , 1 ) ;
if ( ! ABORT ) doRun ( ) ;
} , 1 ) ;
} else {
doRun ( ) ;
}
}
Module [ 'run' ] = Module . run = run ;
function exit ( status ) {
ABORT = true ;
EXITSTATUS = status ;
STACKTOP = initialStackTop ;
// exit the runtime
exitRuntime ( ) ;
// TODO We should handle this differently based on environment.
// In the browser, the best we can do is throw an exception
// to halt execution, but in node we could process.exit and
// I'd imagine SM shell would have something equivalent.
// This would let us set a proper exit status (which
// would be great for checking test exit statuses).
// https://github.com/kripken/emscripten/issues/1371
// throw an exception to halt the current execution
throw new ExitStatus ( status ) ;
}
Module [ 'exit' ] = Module . exit = exit ;
function abort ( text ) {
if ( text ) {
Module . print ( text ) ;
Module . printErr ( text ) ;
}
ABORT = true ;
EXITSTATUS = 1 ;
var extra = '\nIf this abort() is unexpected, build with -s ASSERTIONS=1 which can give more information.' ;
throw 'abort() at ' + stackTrace ( ) + extra ;
}
Module [ 'abort' ] = Module . abort = abort ;
// {{PRE_RUN_ADDITIONS}}
if ( Module [ 'preInit' ] ) {
if ( typeof Module [ 'preInit' ] == 'function' ) Module [ 'preInit' ] = [ Module [ 'preInit' ] ] ;
while ( Module [ 'preInit' ] . length > 0 ) {
Module [ 'preInit' ] . pop ( ) ( ) ;
}
}
// shouldRunNow refers to calling main(), not run().
var shouldRunNow = true ;
if ( Module [ 'noInitialRun' ] ) {
shouldRunNow = false ;
}
run ( [ ] . concat ( Module [ "arguments" ] ) ) ;