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I would like to know how products like quantify achieve to measure the time spend in functions/methods without modifying the code. Does someone know ?

Do you have web page describing how to start writing your own tool?

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Well, You are right I have not yet accepted an answer, not that I consider that they are bad, but more that they unfortunately don't completely answer the "How to write a simple code profiler". I got interesting answers but no clue on how to really start doing that tool. I thought that not closing the question will allow more people to answer. –  Dave Jul 28 '11 at 17:55
@Dave: Having written a profiler, let me suggest a way to get started. My method is to start by getting random-time stack samples. pstack, jstack, or lsstack can do it. You don't need a large number. (The crude way I do it is entirely manual - pause in a debugger, then backtrace.) Then if you want you can write a program to process that data and let the user browse it. –  Mike Dunlavey Aug 1 '11 at 17:30
@Mike: It sounds me a sensible way to start. Will give it a try. –  Dave Aug 1 '11 at 17:31
@Dave: Good luck, and take a look at Zoom. The reason I don't use any profiler is I actually find the totally manual method, while more work, much more effective. Maybe that's just me, but I'm not alone. –  Mike Dunlavey Aug 1 '11 at 17:35
@Mike: I do agree and it is why i try to improve my knowledge of these techniques which are usually not documented. As I am working of the same codebase the extra work is a one off and compared to what it can provide defintely worth it. –  Dave Aug 1 '11 at 17:37

8 Answers 8

A non-intrusive profiler can compile the code into an executable form, by the profiler. This format need not match the actually execution format required by the OS. This is similar to Java's Virtual Machine.

The profiler uses a fundamental unit, such as clock cycles, to measure performace. After determining the amount of cycles, the sum can be multiplied by a constant to come up with an approximate time unit. The value is approximate since the program isn't directly running on a processor, but a "virtual" processor.

Other profilers modify code to call "begin measurement" and "end measurement" where the profiling needs to occur (usually at beginning and ends of functions).

JTAG debuggers and other emulators call the measurement functions when specific addresses found.

From an embedded systems perspective, the most accurate performance measurement technique is to find an unused pin or test point, and send a "begin" pulse to the pin and later on an "end-pulse" and use an oscilloscope to measure the exact time difference. Advanced oscilloscopes can provide histograms of this time difference.

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You are asking a very big question. However from what I have seen profilers do modify the code in many cases. EQUATEC for example creates a copy of your executables and libraries which are instrumented. Others will create caches and copies of the code when the profiler is run. So they are not necessarily writing any instrumentation into the code you are working with but they are instrumenting copies of the code or the IL.

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My guess is that the CPU is put into "single step mode."

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What on earth is "single step mode"? –  Chris Jul 28 '11 at 17:47
It's a feature in x86 processors. see the following: en.wikipedia.org/wiki/Trap_flag –  Mike Jul 28 '11 at 21:20
Why the down vote? –  Mike Jul 28 '11 at 23:22

I can guess. Usually profilers 'instruments" your code, on building stage or execution. They can put their measurement calls at the start and at the end of each your function. And do many-many other things.

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I don't know about quatify, but one frequent technique is to use stochastic sampling: interrupt every 100 microseconds or so, and save the current instruction pointer. Then work out from the symbol table which function is was in, and totalize those.

Most profilers do a lot more, and will also instrument the code in some ways, in order to provide additional information.

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The first paragraphi is just what prof and gprof do. Using only the instruction pointer is like trying to tell time with a clock that only has a second hand. –  Mike Dunlavey Aug 1 '11 at 14:49

The profiler may have following attributes:

  • A debugger, which would notice the debugging events in the target process (like thread creation, DLL loading, thread exit etc).
  • A process that would have set of hooks (Windows hooks, standard function calls hooks etc), which would be used for "profiling".
  • May run as as a service too which would notice events at kernel (ring 0) level. This may or may not require hardware virtualization from BIOS.
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Another technique useful in the embedded domain, similar to that descrubed by Thomas Matthews, is to hook up a frequency generator to a pin that will generate an NMI (ie. A non maskable interrupt). Then sample the program counter that was stored on the stack as part of the interrupt frame. This will give a very accurate statistical view of your application with minimal changes to your application.

Of course this is only applicable in specialised cases.

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It's helpful to keep this in mind:

  • One important purpose of a profiler is to help a programmer make his/her program as efficient as possible by locating activities in his/her code that are responsible for a substantial percent of time and can be done in less time.

That sounds obvious, right? But notice:

  • It says locate, not measure. Measuring might be a means to the end of locating, but it's actually very indirect.
  • It says activities, not functions/methods, and not necessarily hot spots. Most often these are function call points that cost more time than expected, and don't really need to be done.
  • It says in his/her code. That's the only code the programmer can modify. It does no good to know that a lot of time is spent in some system routine.
  • It says of time, not of CPU time. If the program spends a substantial percent of time blocked due to I/O or other system functions, that's just as important as CPU time.
  • It says substantial percent, not precise time. If a costly activity is located, what is important is that it is located, not the uncertainty of how costly it is. (If you are hunting for gold nuggets, do you measure one first, and then find it?)

So not just any old sampler or instrumenter will serve this purpose.

IMHO, what works best is something that collects samples of the stack, not just the program counter, and samples at random wall clock time, not just CPU time, and reports not just by function, but by line of code, the percent of samples containing that line. Zoom is such a profiler.

In other words a) Don't take a large number of small samples and mush them together into numbers. b) Do take a small number of large samples and understand what they are telling you.

As an extreme example, if as few as three stack samples are taken, if a particular statement (or instruction) appears somewhere on two of them, what does that statement cost? Well, it's conceivable it's just a coincidence - a false positive, but on average, what it will save is (2+1)/(3+2) = 60% of overall run time. In terms of "bang for buck", it's hard to beat that.

Here's a more detailed summary of the issues.

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