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What is “(program)” in the function column of the Chrome debugger?

3 Answers 3

101

(program) is Chrome itself, the root of the tree calling all other code...it's there because the jump from native code to JavaScript, resource loading, etc. has to start somewhere :)

You can see examples of the treeview in the Chrome developer tool docs.

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    ah -- so if thats a high percent, is there anything i can do about it?
    – hvgotcodes
    Oct 3, 2010 at 0:08
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    @hvgotcodes - It sound be the percentage of all portions below. Now if the self percentage is high, there's not much you can do....unless your markup in general is very heavy. Oct 3, 2010 at 0:09
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    Do you, please, know how to access code in the "(program)" section? Somehow parts of JavaScript in project I'm currently working on do end up there, and the only way I can get there in debugger is by placing "debugger;" into the code, which is not quite comfortable. Jun 19, 2012 at 12:37
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    I think this is actually wrong and @user1009908's answer is correct. Its not the root, its native code. The is supported by the fact that the tree view example don't show it as the root.
    – studgeek
    Mar 27, 2014 at 20:55
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    Regarding high % of program(), sometimes css animations lead to a high CPU usage, which will be reflected in program(). Unfortunately the profiler can't help pin point the source.
    – ılǝ
    Dec 15, 2015 at 15:13
33

I believe (program) is native code, not the root of the tree.

See this thread:

https://bugs.webkit.org/show_bug.cgi?id=88446

So, more like system calls than like main().

Apparently it includes idle time. Also, some profiling of (program) is available from chrome://profiler/

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    Agreed - but just an update: it doesn't include idle time anymore. That's now being reported separately as (idle)
    – Gio
    Jun 13, 2014 at 10:44
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As @Nick says, it has to start somewhere.

It looks like the CPU Profiler part is like so many other profilers that are based on the same concepts as gprof.

For example, self is nearly a useless number unless there is something like a bubble-sort of a big array of numbers in some code that you can edit. Highly unlikely.

Total should include callees, so that's more useful. However, unless samples are taken during blocked time as well as during running time, it is still pretty useless except for totally cpu-bound programs.

It gives you these stats by function, rather than by line of code. That means (if you could rely on Total percent) that a function costs that much, in the sense that if you could somehow make it take zero time, such as by stubbing it, that percent is how much time you would save.

So if you want to focus on a costly function, you need to hunt inside it for what could be optimized. In order to do that, you need to know how the time is subdivided among the lines of code in the function. If you had cost on a line of code basis, it would take you directly to those lines.

I don't know if you will be able to get a better profiler, like a wall-clock stack sampler reporting at the line level, such as Zoom. Here's how I do it.

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  • @hvgotcodes: Not sure. I don't use them, because I just take stackshots in a debugger. But you're on Linux, right? Can you get a trial copy of Zoom? It's pretty good. Oct 3, 2010 at 12:41
  • @hvgotcodes: Well then, the only help I can offer is the method I rely on. Oct 3, 2010 at 17:12

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