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/ * E v a l u a t o r
* Evaluates the Abstract Syntax Tree for Netscript
* generated by the Parser class
* /
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// Evaluator should return a Promise, so that any call to evaluate() can just
//wait for that promise to finish before continuing
function evaluate ( exp , workerScript ) {
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return new Promise ( function ( resolve , reject ) {
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var env = workerScript . env ;
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if ( env . stopFlag ) { return reject ( workerScript ) ; }
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if ( exp == null ) {
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return reject ( makeRuntimeRejectMsg ( workerScript , "Error: NULL expression" ) ) ;
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}
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setTimeout ( function ( ) {
if ( env . stopFlag ) { return reject ( workerScript ) ; }
switch ( exp . type ) {
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case "BlockStatement" :
case "Program" :
var evaluateProgPromise = evaluateProg ( exp , workerScript , 0 ) ; //TODO: make every block/program use individual enviroment
evaluateProgPromise . then ( function ( w ) {
resolve ( workerScript ) ;
} , function ( e ) {
if ( typeof e === 'string' || e instanceof String ) {
workerScript . errorMessage = e ;
reject ( workerScript ) ;
} else if ( e instanceof WorkerScript ) {
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reject ( e ) ;
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} else {
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reject ( workerScript ) ;
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}
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} ) ;
break ;
case "Literal" :
resolve ( exp . value ) ;
break ;
case "Identifier" :
if ( ! ( exp . name in env . vars ) ) {
reject ( makeRuntimeRejectMsg ( workerScript , "variable " + exp . name + " not definied" ) ) ;
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}
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resolve ( env . get ( exp . name ) )
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break ;
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case "ExpressionStatement" :
var e = evaluate ( exp . expression , workerScript ) ;
e . then ( function ( res ) {
resolve ( "expression done" ) ;
} , function ( e ) {
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reject ( e ) ;
} ) ;
break ;
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case "ArrayExpression" :
var argPromises = exp . elements . map ( function ( arg ) {
return evaluate ( arg , workerScript ) ;
} ) ;
Promise . all ( argPromises ) . then ( function ( array ) {
resolve ( array )
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} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
break ;
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case "CallExpression" :
evaluate ( exp . callee , workerScript ) . then ( function ( func ) {
var argPromises = exp . arguments . map ( function ( arg ) {
return evaluate ( arg , workerScript ) ;
} ) ;
Promise . all ( argPromises ) . then ( function ( args ) {
if ( exp . callee . type == "MemberExpression" ) {
evaluate ( exp . callee . object , workerScript ) . then ( function ( object ) {
try {
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var res = func . apply ( object , args ) ;
resolve ( res ) ;
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} catch ( e ) {
reject ( makeRuntimeRejectMsg ( workerScript , e ) ) ;
}
} ) . catch ( function ( e ) {
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reject ( e ) ;
} ) ;
} else {
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try {
var out = func . apply ( null , args ) ;
if ( out instanceof Promise ) {
out . then ( function ( res ) {
resolve ( res )
} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
} else {
resolve ( out ) ;
}
} catch ( e ) {
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if ( isScriptErrorMessage ( e ) ) {
reject ( e ) ;
} else {
reject ( makeRuntimeRejectMsg ( workerScript , e ) ) ;
}
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}
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}
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} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
} ) . catch ( function ( e ) {
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reject ( e ) ;
} ) ;
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break ;
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case "MemberExpression" :
var pObject = evaluate ( exp . object , workerScript ) ;
pObject . then ( function ( object ) {
if ( exp . computed ) {
var p = evaluate ( exp . property , workerScript ) ;
p . then ( function ( index ) {
resolve ( object [ index ] ) ;
} ) . catch ( function ( e ) {
reject ( makeRuntimeRejectMsg ( workerScript , "Invalid MemberExpression" ) ) ;
} ) ;
} else {
try {
resolve ( object [ exp . property . name ] )
} catch ( e ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "Failed to get property: " + e . toString ( ) ) ) ;
}
}
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} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
break ;
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case "LogicalExpression" :
case "BinaryExpression" :
var p = evalBinary ( exp , workerScript , resolve , reject ) ;
p . then ( function ( res ) {
resolve ( res ) ;
} ) . catch ( function ( e ) {
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reject ( e ) ;
} ) ;
break ;
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case "AssignmentExpression" :
var p = evalAssignment ( exp , workerScript ) ;
p . then ( function ( res ) {
resolve ( res ) ;
} ) . catch ( function ( e ) {
reject ( e ) ;
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} ) ;
break ;
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case "UpdateExpression" :
if ( exp . argument . type === "Identifier" ) {
if ( exp . argument . name in env . vars ) {
if ( exp . prefix ) {
resolve ( env . get ( exp . argument . name ) )
}
switch ( exp . operator ) {
case "++" :
env . set ( exp . argument . name , env . get ( exp . argument . name ) + 1 ) ;
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break ;
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case "--" :
env . set ( exp . argument . name , env . get ( exp . argument . name ) - 1 ) ;
break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Unrecognized token: " + exp . type + ". This is a bug please report to game developer" ) ) ;
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}
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if ( env . prefix ) {
return ;
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}
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resolve ( env . get ( exp . argument . name ) )
} else {
reject ( makeRuntimeRejectMsg ( workerScript , "variable " + exp . argument . name + " not definied" ) ) ;
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}
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} else {
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reject ( makeRuntimeRejectMsg ( workerScript , "argument must be an identifier" ) ) ;
}
break ;
case "EmptyStatement" :
resolve ( false ) ;
break ;
case "ReturnStatement" :
reject ( makeRuntimeRejectMsg ( workerScript , "Not implemented ReturnStatement" ) ) ;
break ;
case "BreakStatement" :
reject ( makeRuntimeRejectMsg ( workerScript , "Not implemented BreakStatement" ) ) ;
break ;
case "IfStatement" :
evaluateIf ( exp , workerScript ) . then ( function ( forLoopRes ) {
resolve ( "forLoopDone" ) ;
} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
break ;
case "SwitchStatement" :
reject ( makeRuntimeRejectMsg ( workerScript , "Not implemented SwitchStatement" ) ) ;
break ; e
case "WhileStatement" :
evaluateWhile ( exp , workerScript ) . then ( function ( forLoopRes ) {
resolve ( "forLoopDone" ) ;
} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
break ;
case "ForStatement" :
evaluate ( exp . init , workerScript ) . then ( function ( expInit ) {
return evaluateFor ( exp , workerScript ) ;
} ) . then ( function ( forLoopRes ) {
resolve ( "forLoopDone" ) ;
} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
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break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Unrecognized token: " + exp . type + ". This is a bug please report to game developer" ) ) ;
break ;
} //End switch
} , CONSTANTS . CodeInstructionRunTime ) ; //End setTimeout, the Netscript operation run time
} ) ; // End Promise
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}
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/ *
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function evalFunction ( exp , workerScript ) {
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return new Promise ( function ( resolve , reject ) {
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if ( exp . callee . type != "Identifier" ) {
reject ( makeRuntimeRejectMsg ( workerScript , "callee must be an Identifier" ) ) ;
return ;
}
switch ( exp . callee . name ) {
case "print" :
if ( exp . arguments . length != 1 ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "print() call has incorrect number of arguments. Takes 1 argument" ) ) ;
}
var evaluatePromise = evaluate ( exp . arguments [ 0 ] , workerScript ) ;
evaluatePromise . then ( function ( res ) {
workerScript . scriptRef . log ( res . toString ( ) ) ;
resolve ( true ) ;
} ) . catch ( function ( e ) {
reject ( e ) ;
} ) ;
break ;
case "scan" :
if ( exp . arguments . length != 1 ) {
exp . arguments = [ { value : Player . getCurrentServer ( ) . hostname , type : "Literal" } ] ;
}
var ipPromise = evaluate ( exp . arguments [ 0 ] , workerScript ) ;
ipPromise . then ( function ( ip ) {
var server = getServer ( ip ) ;
if ( server == null ) {
workerScript . scriptRef . log ( 'getServerOpenPortsCount() failed. Invalid IP or hostname passed in: ' + ip ) ;
return reject ( makeRuntimeRejectMsg ( workerScript , 'Invalid IP or hostname passed into getServerOpenPortsCount() command' ) ) ;
}
var out = [ ] ;
for ( var i = 0 ; i < server . serversOnNetwork . length ; i ++ ) {
var entry = server . getServerOnNetwork ( i ) . hostname ;
if ( entry == null ) {
continue ;
}
out . push ( entry ) ;
}
workerScript . scriptRef . log ( 'scan() returned ' + server . serversOnNetwork . length + ' connections for ' + server . hostname ) ;
resolve ( out ) ;
} ) . catch ( function ( e ) {
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reject ( e ) ;
} ) ;
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break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Invalid function: " + exp . callee ) ) ;
}
} ) ;
}
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* /
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function evalBinary ( exp , workerScript ) {
return new Promise ( function ( resolve , reject ) {
var expLeftPromise = evaluate ( exp . left , workerScript ) ;
expLeftPromise . then ( function ( expLeft ) {
var expRightPromise = evaluate ( exp . right , workerScript ) ;
expRightPromise . then ( function ( expRight ) {
switch ( exp . operator ) {
case "===" :
case "==" :
resolve ( expLeft === expRight ) ;
break ;
case "!==" :
case "!=" :
resolve ( expLeft !== expRight ) ;
break ;
case "<" :
resolve ( expLeft < expRight ) ;
break ;
case "<=" :
resolve ( expLeft <= expRight ) ;
break ;
case ">" :
resolve ( expLeft > expRight ) ;
break ;
case ">=" :
resolve ( expLeft >= expRight ) ;
break ;
case "+" :
resolve ( expLeft + expRight ) ;
break ;
case "-" :
resolve ( expLeft - expRight ) ;
break ;
case "*" :
resolve ( expLeft * expRight ) ;
break ;
case "/" :
resolve ( expLeft / expRight ) ;
break ;
case "%" :
resolve ( expLeft % expRight ) ;
break ;
case "in" :
resolve ( expLeft in expRight ) ;
break ;
case "instanceof" :
resolve ( expLeft instanceof expRight ) ;
break ;
case "||" :
resolve ( expLeft || expRight ) ;
break ;
case "&&" :
resolve ( expLeft && expRight ) ;
break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Bitwise operators are not implemented" ) ) ;
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}
} , function ( e ) {
reject ( e ) ;
} ) ;
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} , function ( e ) {
reject ( e ) ;
} ) ;
} ) ;
}
function evalUnary ( exp , workerScript ) {
return new Promise ( function ( resolve , reject ) {
var expLeftPromise = evaluate ( exp . left , workerScript ) ;
expLeftPromise . then ( function ( expLeft ) {
switch ( exp . operator ) {
case "++" :
break
case "--" :
break ;
}
} , function ( e ) {
reject ( e ) ;
} ) ;
} ) ;
}
function evalAssignment ( exp , workerScript ) {
var env = workerScript . env ;
return new Promise ( function ( resolve , reject ) {
if ( env . stopFlag ) { return reject ( workerScript ) ; }
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if ( exp . left . type != "Identifier" && exp . left . type != "MemberExpression" ) {
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return reject ( makeRuntimeRejectMsg ( workerScript , "Cannot assign to " + JSON . stringify ( exp . left ) ) ) ;
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}
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if ( exp . operator !== "=" && ! ( exp . left . name in env . vars ) ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "variable " + exp . left . name + " not definied" ) ) ;
}
var expRightPromise = evaluate ( exp . right , workerScript ) ;
expRightPromise . then ( function ( expRight ) {
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if ( exp . left . type == "MemberExpression" ) {
//Assign to array element
//Array object designed by exp.left.object.name
//Index designated by exp.left.property
var name = exp . left . object . name ;
if ( ! ( name in env . vars ) ) {
reject ( makeRuntimeRejectMsg ( workerScript , "variable " + name + " not definied" ) ) ;
}
var arr = env . get ( name ) ;
if ( arr . constructor === Array || arr instanceof Array ) {
var iPromise = evaluate ( exp . left . property , workerScript ) ;
iPromise . then ( function ( idx ) {
if ( isNaN ( idx ) ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "Invalid access to array. Index is not a number: " + idx ) ) ;
} else if ( idx >= arr . length || idx < 0 ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "Out of bounds: Invalid index in [] operator" ) ) ;
} else {
env . setArrayElement ( name , idx , expRight ) ;
}
} ) . catch ( function ( e ) {
return reject ( e ) ;
} ) ;
} else {
return reject ( makeRuntimeRejectMsg ( workerScript , "Trying to access a non-array variable using the [] operator" ) ) ;
}
} else {
//Other assignments
try {
switch ( exp . operator ) {
case "=" :
env . set ( exp . left . name , expRight ) ;
break ;
case "+=" :
env . set ( exp . left . name , env . get ( exp . left . name ) + expRight ) ;
break ;
case "-=" :
env . set ( exp . left . name , env . get ( exp . left . name ) - expRight ) ;
break ;
case "*=" :
env . set ( exp . left . name , env . get ( exp . left . name ) * expRight ) ;
break ;
case "/=" :
env . set ( exp . left . name , env . get ( exp . left . name ) / expRight ) ;
break ;
case "%=" :
env . set ( exp . left . name , env . get ( exp . left . name ) % expRight ) ;
break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Bitwise assignment is not implemented" ) ) ;
}
} catch ( e ) {
return reject ( makeRuntimeRejectMsg ( workerScript , "Failed to set environment variable: " + e . toString ( ) ) ) ;
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}
}
resolve ( false ) ; //Return false so this doesnt cause conditionals to evaluate
} , function ( e ) {
reject ( e ) ;
} ) ;
} ) ;
}
//Returns true if any of the if statements evaluated, false otherwise. Therefore, the else statement
//should evaluate if this returns false
function evaluateIf ( exp , workerScript , i ) {
var env = workerScript . env ;
return new Promise ( function ( resolve , reject ) {
evaluate ( exp . test , workerScript ) . then ( function ( condRes ) {
if ( condRes ) {
evaluate ( exp . consequent , workerScript ) . then ( function ( res ) {
resolve ( true ) ;
} , function ( e ) {
reject ( e ) ;
} ) ;
} else if ( exp . alternate ) {
evaluate ( exp . alternate , workerScript ) . then ( function ( res ) {
resolve ( true ) ;
} , function ( e ) {
reject ( e ) ;
} ) ;
} else {
resolve ( "endIf" )
}
} , function ( e ) {
reject ( e ) ;
} ) ;
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} ) ;
}
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//Evaluate the looping part of a for loop (Initialization block is NOT done in here)
function evaluateFor ( exp , workerScript ) {
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var env = workerScript . env ;
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return new Promise ( function ( resolve , reject ) {
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if ( env . stopFlag ) { reject ( workerScript ) ; return ; }
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var pCond = evaluate ( exp . test , workerScript ) ;
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pCond . then ( function ( resCond ) {
if ( resCond ) {
//Run the for loop code
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var pBody = evaluate ( exp . body , workerScript ) ;
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//After the code executes make a recursive call
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pBody . then ( function ( resCode ) {
var pUpdate = evaluate ( exp . update , workerScript ) ;
pUpdate . then ( function ( resPostloop ) {
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var recursiveCall = evaluateFor ( exp , workerScript ) ;
recursiveCall . then ( function ( foo ) {
resolve ( "endForLoop" ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} else {
resolve ( "endForLoop" ) ; //Doesn't need to resolve to any particular value
}
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} ) ;
}
function evaluateWhile ( exp , workerScript ) {
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var env = workerScript . env ;
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return new Promise ( function ( resolve , reject ) {
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if ( env . stopFlag ) { reject ( workerScript ) ; return ; }
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var pCond = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
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var evaluatePromise = evaluate ( exp . test , workerScript ) ;
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evaluatePromise . then ( function ( resCond ) {
resolve ( resCond ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} , CONSTANTS . CodeInstructionRunTime ) ;
} ) ;
pCond . then ( function ( resCond ) {
if ( resCond ) {
//Run the while loop code
var pCode = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
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var evaluatePromise = evaluate ( exp . body , workerScript ) ;
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evaluatePromise . then ( function ( resCode ) {
resolve ( resCode ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} , CONSTANTS . CodeInstructionRunTime ) ;
} ) ;
//After the code executes make a recursive call
pCode . then ( function ( resCode ) {
var recursiveCall = evaluateWhile ( exp , workerScript ) ;
recursiveCall . then ( function ( foo ) {
resolve ( "endWhileLoop" ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} else {
resolve ( "endWhileLoop" ) ; //Doesn't need to resolve to any particular value
}
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} ) ;
}
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/ *
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function evaluateHacknetNode ( exp , workerScript ) {
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console . log ( "here" ) ;
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var env = workerScript . env ;
return new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
if ( exp . index == null ) {
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if ( ( exp . op . type == "call" && exp . op . func . value == "length" ) ||
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( exp . op . type == "var" && exp . op . value == "length" ) ) {
resolve ( Player . hacknetNodes . length ) ;
workerScript . scriptRef . log ( "hacknetnodes.length returned " + Player . hacknetNodes . length ) ;
return ;
} else {
workerScript . scriptRef . log ( "Invalid/null index for hacknetnodes" ) ;
reject ( makeRuntimeRejectMsg ( workerScript , "Invalid/null index. hacknetnodes array must be accessed with an index" ) ) ;
return ;
}
}
var indexPromise = evaluate ( exp . index . value , workerScript ) ;
indexPromise . then ( function ( index ) {
if ( isNaN ( index ) || index >= Player . hacknetNodes . length || index < 0 ) {
workerScript . scriptRef . log ( "Invalid index value for hacknetnodes[]" ) ;
reject ( makeRuntimeRejectMsg ( workerScript , "Invalid index value for hacknetnodes[]." ) ) ;
return ;
}
var nodeObj = Player . hacknetNodes [ index ] ;
if ( exp . op == null ) {
reject ( makeRuntimeRejectMsg ( workerScript , "No operator or property called for hacknetnodes. Usage: hacknetnodes[i].property/operator" ) ) ;
return ;
} else if ( exp . op . type == "var" ) {
//Get properties: level, ram, cores
switch ( exp . op . value ) {
case "level" :
resolve ( nodeObj . level ) ;
break ;
case "ram" :
resolve ( nodeObj . ram ) ;
break ;
case "cores" :
resolve ( nodeObj . numCores ) ;
break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Unrecognized property for Hacknet Node. Valid properties: ram, cores, level" ) ) ;
break ;
}
} else if ( exp . op . type == "call" ) {
switch ( exp . op . func . value ) {
case "upgradeLevel" :
if ( exp . op . args . length == 1 ) {
var argPromise = evaluate ( exp . op . args [ 0 ] , workerScript ) ;
argPromise . then ( function ( arg ) {
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if ( isNaN ( arg ) || arg < 0 ) {
reject ( makeRuntimeRejectMsg ( workerScript , "Invalid argument passed into upgradeLevel()" ) ) ;
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return ;
}
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arg = Math . round ( arg ) ;
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var res = nodeObj . purchaseLevelUpgrade ( arg ) ;
if ( res ) {
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workerScript . scriptRef . log ( "Upgraded " + nodeObj . name + " " + arg + " times to level " + nodeObj . level ) ;
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}
resolve ( res ) ;
} , function ( e ) {
reject ( e ) ;
} ) ;
} else {
var res = nodeObj . purchaseLevelUpgrade ( 1 ) ;
if ( res ) {
workerScript . scriptRef . log ( "Upgraded " + nodeObj . name + " once to level " + nodeObj . level ) ;
}
resolve ( res ) ;
}
break ;
case "upgradeRam" :
var res = nodeObj . purchaseRamUpgrade ( ) ;
if ( res ) {
workerScript . scriptRef . log ( "Upgraded " + nodeObj . name + "'s RAM to " + nodeObj . ram + "GB" ) ;
}
resolve ( res ) ;
break ;
case "upgradeCore" :
var res = nodeObj . purchaseCoreUpgrade ( ) ;
if ( res ) {
workerScript . scriptRef . log ( "Upgraded " + nodeObj . name + "'s number of cores to " + nodeObj . numCores ) ;
}
resolve ( res ) ;
break ;
default :
reject ( makeRuntimeRejectMsg ( workerScript , "Unrecognized function/operator for hacknet node. Valid functions: upgradeLevel(n), upgradeRam(), upgradeCore()" ) ) ;
break ;
}
} else {
reject ( makeRuntimeRejectMsg ( workerScript , "Unrecognized operation for hacknet node" ) ) ;
return ;
}
} , function ( e ) {
reject ( e ) ;
} ) ;
} , CONSTANTS . CodeInstructionRunTime ) ;
} , function ( e ) {
reject ( e ) ;
} ) ;
}
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* /
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function evaluateProg ( exp , workerScript , index ) {
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var env = workerScript . env ;
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return new Promise ( function ( resolve , reject ) {
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if ( env . stopFlag ) { reject ( workerScript ) ; return ; }
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if ( index >= exp . body . length ) {
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resolve ( "progFinished" ) ;
} else {
//Evaluate this line of code in the prog
var code = new Promise ( function ( resolve , reject ) {
setTimeout ( function ( ) {
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var evaluatePromise = evaluate ( exp . body [ index ] , workerScript ) ;
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evaluatePromise . then ( function ( evalRes ) {
resolve ( evalRes ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
} , CONSTANTS . CodeInstructionRunTime ) ;
} ) ;
//After the code finishes evaluating, evaluate the next line recursively
code . then ( function ( codeRes ) {
var nextLine = evaluateProg ( exp , workerScript , index + 1 ) ;
nextLine . then ( function ( nextLineRes ) {
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resolve ( workerScript ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
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} , function ( e ) {
reject ( e ) ;
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} ) ;
}
} ) ;
}
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function netscriptDelay ( time ) {
return new Promise ( function ( resolve ) {
setTimeout ( resolve , time ) ;
} ) ;
}
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function makeRuntimeRejectMsg ( workerScript , msg ) {
return "|" + workerScript . serverIp + "|" + workerScript . name + "|" + msg ;
}
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function apply _op ( op , a , b ) {
function num ( x ) {
if ( typeof x != "number" )
throw new Error ( "Expected number but got " + x ) ;
return x ;
}
function div ( x ) {
if ( num ( x ) == 0 )
throw new Error ( "Divide by zero" ) ;
return x ;
}
switch ( op ) {
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case "+" : return a + b ;
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case "-" : return num ( a ) - num ( b ) ;
case "*" : return num ( a ) * num ( b ) ;
case "/" : return num ( a ) / div ( b ) ;
case "%" : return num ( a ) % div ( b ) ;
case "&&" : return a !== false && b ;
case "||" : return a !== false ? a : b ;
case "<" : return num ( a ) < num ( b ) ;
case ">" : return num ( a ) > num ( b ) ;
case "<=" : return num ( a ) <= num ( b ) ;
case ">=" : return num ( a ) >= num ( b ) ;
case "==" : return a === b ;
case "!=" : return a !== b ;
}
throw new Error ( "Can't apply operator " + op ) ;
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}
//Run a script from inside a script using run() command
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function runScriptFromScript ( server , scriptname , args , workerScript , threads = 1 ) {
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//Check if the script is already running
var runningScriptObj = findRunningScript ( scriptname , args , server ) ;
if ( runningScriptObj != null ) {
workerScript . scriptRef . log ( scriptname + " is already running on " + server . hostname ) ;
return Promise . resolve ( false ) ;
}
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//Check if the script exists and if it does run it
for ( var i = 0 ; i < server . scripts . length ; ++ i ) {
if ( server . scripts [ i ] . filename == scriptname ) {
//Check for admin rights and that there is enough RAM availble to run
var script = server . scripts [ i ] ;
var ramUsage = script . ramUsage ;
ramUsage = ramUsage * threads * Math . pow ( CONSTANTS . MultithreadingRAMCost , threads - 1 ) ;
var ramAvailable = server . maxRam - server . ramUsed ;
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if ( server . hasAdminRights == false ) {
workerScript . scriptRef . log ( "Cannot run script " + scriptname + " on " + server . hostname + " because you do not have root access!" ) ;
return Promise . resolve ( false ) ;
} else if ( ramUsage > ramAvailable ) {
workerScript . scriptRef . log ( "Cannot run script " + scriptname + "(t=" + threads + ") on " + server . hostname + " because there is not enough available RAM!" ) ;
return Promise . resolve ( false ) ;
} else {
//Able to run script
workerScript . scriptRef . log ( "Running script: " + scriptname + " on " + server . hostname + " with " + threads + " threads and args: " + printArray ( args ) + ". May take a few seconds to start up..." ) ;
var runningScriptObj = new RunningScript ( script , args ) ;
runningScriptObj . threads = threads ;
server . runningScripts . push ( runningScriptObj ) ; //Push onto runningScripts
addWorkerScript ( runningScriptObj , server ) ;
return Promise . resolve ( true ) ;
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}
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}
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}
workerScript . scriptRef . log ( "Could not find script " + scriptname + " on " + server . hostname ) ;
return Promise . resolve ( false ) ;
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}
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function isScriptErrorMessage ( msg ) {
splitMsg = msg . split ( "|" ) ;
if ( splitMsg . length != 4 ) {
return false ;
}
var ip = splitMsg [ 1 ] ;
if ( ! isValidIPAddress ( ip ) ) {
return false ;
}
return true ;
}
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//The same as Player's calculateHackingChance() function but takes in the server as an argument
function scriptCalculateHackingChance ( server ) {
var difficultyMult = ( 100 - server . hackDifficulty ) / 100 ;
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var skillMult = ( 1.75 * Player . hacking _skill ) ;
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var skillChance = ( skillMult - server . requiredHackingSkill ) / skillMult ;
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var chance = skillChance * difficultyMult * Player . hacking _chance _mult ;
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if ( chance > 1 ) { return 1 ; }
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if ( chance < 0 ) { return 0 ; }
else { return chance ; }
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}
//The same as Player's calculateHackingTime() function but takes in the server as an argument
function scriptCalculateHackingTime ( server ) {
var difficultyMult = server . requiredHackingSkill * server . hackDifficulty ;
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var skillFactor = ( 2.5 * difficultyMult + 500 ) / ( Player . hacking _skill + 50 ) ;
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var hackingTime = 5 * skillFactor / Player . hacking _speed _mult ; //This is in seconds
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return hackingTime ;
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}
//The same as Player's calculateExpGain() function but takes in the server as an argument
function scriptCalculateExpGain ( server ) {
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if ( server . baseDifficulty == null ) {
server . baseDifficulty = server . hackDifficulty ;
}
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return ( server . baseDifficulty * Player . hacking _exp _mult * 0.4 + 2 ) ;
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}
//The same as Player's calculatePercentMoneyHacked() function but takes in the server as an argument
function scriptCalculatePercentMoneyHacked ( server ) {
var difficultyMult = ( 100 - server . hackDifficulty ) / 100 ;
var skillMult = ( Player . hacking _skill - ( server . requiredHackingSkill - 1 ) ) / Player . hacking _skill ;
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var percentMoneyHacked = difficultyMult * skillMult * Player . hacking _money _mult / 240 ;
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if ( percentMoneyHacked < 0 ) { return 0 ; }
if ( percentMoneyHacked > 1 ) { return 1 ; }
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return percentMoneyHacked ;
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}
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//Amount of time to execute grow() in milliseconds
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function scriptCalculateGrowTime ( server ) {
var difficultyMult = server . requiredHackingSkill * server . hackDifficulty ;
var skillFactor = ( 2.5 * difficultyMult + 500 ) / ( Player . hacking _skill + 50 ) ;
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var growTime = 16 * skillFactor / Player . hacking _speed _mult ; //This is in seconds
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return growTime * 1000 ;
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}
//Amount of time to execute weaken() in milliseconds
function scriptCalculateWeakenTime ( server ) {
var difficultyMult = server . requiredHackingSkill * server . hackDifficulty ;
var skillFactor = ( 2.5 * difficultyMult + 500 ) / ( Player . hacking _skill + 50 ) ;
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var weakenTime = 20 * skillFactor / Player . hacking _speed _mult ; //This is in seconds
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return weakenTime * 1000 ;
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}
