Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

(This is a bit of an X-Y problem, but I decided to ask the question that interests me, rather than the one I strictly need at the moment.) I know the various modern JavaScript engines have dead code eliminators and other means to get rid of code that has no effect or side effect, but how do you identify and/or compose such code?

The Wikipedia article on Dead code elimination gives one straightforward example of unreachable code, that is, code that happens after the unconditional return statement in a function. But can I count on the modern, major JavaScript engines to eliminate such code? For example, will Rhino or V8 eliminate this code?

function (foo) {
    return;
    return foo;
}

function (foo) {
    foo = foo;
}

and what about no op functions?

(function () {}(foo));
jQuery.noop(foo);

All of these examples fool JSHint, and while JSLint catches the weird assignment foo = foo, you can still trick it quite easily with the noops or a pair of variables:

function (foo) {
    var bar = foo;
}

If they can trick the static code analyzers, will they trick the engines themselves?

Short of closely examining the source of all the different JavaScript engines, is there any way to identify and/or construct the kind of code that will surely be eliminated before the program is ever run, and should it be considered a bug if such code is not elided, or is it merely a design choice?

share|improve this question
    
What difference does it make whether the code is eliminated or not? (Where would it "go" if it were eliminated?) –  Pointy Jan 19 '13 at 1:14
1  
Note the dead code elimination is not entirely accurate in JavaScript due to hoisting of function declarations. –  Matt Jan 19 '13 at 1:15
    
@Pointy into the annals of version control history? Or maybe, just maybe, I actually want to trick the static analyzer without tricking the engine. (Let's just say that some JavaScript linters don't recognize abstract methods for what they are, and complain about their signatures.) –  kojiro Jan 19 '13 at 1:16
    
@Matt I thought of that, but if you declare a name and it never gets used in its scope, it's still dead code, no? function () { return; var foo = 1; } –  kojiro Jan 19 '13 at 1:18
    
There are lots of ways of declaring code such that a linter won't be able to tell whether it's dead code. A conservative linter will emit a warning, and any decent linter will have ways for you to explicitly mark such blocks. If you can simply tell the linter to shut up when you know better than it does whether code is dead or not, why not just do that? –  Pointy Jan 19 '13 at 1:20

2 Answers 2

up vote 2 down vote accepted

Finding dead code in JavaScript is a different beast than finding dead code in other languages like C++. For example, You can compile C++ to detect unreachable code, but obviously that's not possible with JavaScript.

The example of dead code you've given function () { return; var foo = 1; } is far less likely to occur than an event handler assigned to an HTML element that no longer exists on the page. No automated dead code analyzer could detect the latter.

What you can do is use a code coverage tool during your test runs and look for unused lines. You just have to ensure your test scripts are very thorough.

share|improve this answer
1  
You can easily write dead code in C++ the compiler can't eliminate. Check out Alan Turing. Its just easier to do in Javascript. –  Ira Baxter Jan 19 '13 at 1:22
2  
@IraBaxter I don't disagree. I'm just pointing out that with C++ you do have some automated tools for detecting dead code, but with JavaScript you don't. –  Elliot B. Jan 19 '13 at 1:25

I can't tell whether todays JavaScript engine actually would eliminate some or even all of the dead code in your example.

Nevertheless, here is the assembler code that V8 generates, for

  1. An empty js file.
  2. function a(foo) {return;return foo;}function b(foo) {foo = foo;}

You might probably tell from this whether there happens any optimizing. Unfortunately I don't know assembler)


I am currently writing an optimizing source to source ECMAScript 5 compiler, that, once finished, aims to perform dead code elimination too.

Here is what I had in mind for a while now. I am not sure whether the algorithm, safely determines dead code or not or if there could be side effects (I bet there are bugs), as said, that's only a thought, which i can follow deeper once I implemented the necessary analyzations.

let's use your example(s).

function (foo) {
    return;
    return foo;
}

function (foo) {
    foo = foo;
}

(function () {}(foo));

function (foo) {
    var bar = foo;
}

1. First pass: Alias Analysis and Alias Propagation


function (foo) {
    return;
    return foo;
}

function (foo) {}


(function () {}(foo));

function (foo) {}

2. Enter Static Single Assignment form -> No change
3. Perform Sparse Conditional Constant Propagation ->


function (foo) {
    return;
    return foo; //marked as dead
}

function (foo) {}

(function () {}(foo));

function (foo) {}

4. Compute ReachingDefinitions, DataDependencies, etc.. for the programs CFG
5. Run additional Dead Code Elimination optimization, that, for every function does the following:

  • Traverse the CFG. For each FunctionExpression and FunctionDeclaration do
    • If the function's CFG entry nodes only edge is the exit node -> mark as dead -> stop.
    • If a node contains a CallSite and the called function is not marked as dead -> stop.
    • For each Definition in each Node, check the EnvironmentRecord that holds the Binding
      • If any Definition's LHS is bound to an EnvironmentRecord other than the functions -> stop
    • If the function contains an empty or none return statement -> mark as dead

function (foo) {//marked as dead, empty return statement
    return;
    return foo; //marked as dead
}

function (foo) {} //marked as dead, no nodes CFG

(function () {}(foo)); //marked as dead, no nodes CFG

function (foo) {} //marked as dead, no nodes in CFG

In a second pass:

  • For each statement, marked as dead
    • If its a function
      • For each reference to the function, substitute its call with a reference to undefined
    • Eliminate the statement.
share|improve this answer
    
How do you expect to eliminate apparantly dead functions, in the face of "eval"? –  Ira Baxter Jul 21 '14 at 10:23
    
@IraBaxter Of course: not at all. If a function contains a call to eval or uses with, anything in their path would need to be scoped dynamically. So a use of eval would render many other functions unoptimizable. –  C5H8NNaO4 Jul 21 '14 at 10:35

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.