7

I have an auto-generated file which looks something like this...

static void do_SomeFunc1(void* parameter)
{
    // Do stuff.
}

// Continues on for another 4000 functions...

void dispatch(int id, void* parameter)
{
    switch(id)
    {
        case ::SomeClass1::id: return do_SomeFunc1(parameter);
        case ::SomeClass2::id: return do_SomeFunc2(parameter);
        // This continues for the next 4000 cases...
    }
}

When I build it like this, the build time is enormous. If I inline all the functions automagically into their respective cases using my script, the build time is cut in half. GCC 4.5.0 says ~50% of the build time is being taken up by "variable tracking" when I use -ftime-report. What does this mean and how can I speed compilation while still maintaining the superior cache locality of pulling out the functions from the switch?

EDIT: Interestingly enough, the build time has exploded only on debug builds, as per the following profiling information of the whole project (which isn't just the file in question, but still a good metric; the file in question takes the most time to build):

  • Debug: 8 minutes 50 seconds
  • Release: 4 minutes, 25 seconds

If you're curious, here are a few sample do_func's, context removed. As you can see, I simplified the problem definition a bit to only show the relevant parts. In case you're wondering, all the self->func calls are calls to boost::signal's.

static void do_Match_Login(Registry* self, const uint8_t* parameters, uint16_t length)
{
    const uint8_t* paramPtr = parameters;

    std::string p0 = extract_string(parameters, &paramPtr, length);
    std::string p1 = extract_string(parameters, &paramPtr, length);
    int32_t p2 = extract_int32(parameters, &paramPtr, length);
    uint32_t p3 = extract_uint32(parameters, &paramPtr, length);
    tuple<Buffer, size_t, size_t> p4 = extract_blob(parameters, &paramPtr, length);

    return self->Match_Login(p0, p1, p2, p3, p4);
}

static void do_Match_ResponseLogin(Registry* self, const uint8_t* parameters, uint16_t length)
{
    const uint8_t* paramPtr = parameters;

    int32_t p0 = extract_int32(parameters, &paramPtr, length);
    std::string p1 = extract_string(parameters, &paramPtr, length);
    array<uint16_t, 3> p2 = extract_vector(parameters, &paramPtr, length);
    std::string p3 = extract_string(parameters, &paramPtr, length);
    uint8_t p4 = extract_uint8(parameters, &paramPtr, length);
    uint8_t p5 = extract_uint8(parameters, &paramPtr, length);
    uint64_t p6 = extract_MUID(parameters, &paramPtr, length);
    bool p7 = extract_bool(parameters, &paramPtr, length);
    tuple<Buffer, size_t, size_t> p8 = extract_blob(parameters, &paramPtr, length);

    return self->Match_ResponseLogin(p0, p1, p2, p3, p4, p5, p6, p7, p8);
}
20
  • 7
    Looks like a case for Replace Conditional with Polymorphism... Jun 2, 2010 at 1:40
  • 1
    Each do_SomeFuncN is literally 1 < x < 6 lines of code. It's not worth it, especially when this file is auto-generated. Jun 2, 2010 at 1:41
  • 2
    It's not difficult to maintain. The problem isn't as simple as I posed it here. The script parses a networking protocol definition, and the dispatch function pipes the extracted parameters into the correct boost::signal. Of course, there are multiple parameter types that need to be handled and verified, so it has to do checking there and make sure it doesn't segfault. Jun 2, 2010 at 1:43
  • 2
    @wowus: Then move it into it's own file so that it doesn't have to be compiled all the time. Jun 2, 2010 at 1:44
  • 2
    Dunno if it'll help, but consider an id->func lookup table.
    – Stephen
    Jun 2, 2010 at 1:44

3 Answers 3

12

You can turn off variable tracking. Variable tracking is used to make the debug information a bit more valuable, but if this code is auto-generated and you're not really going to be debugging it much then it's not really useful. You can just turn it off for that file only.

gcc -fno-var-tracking ...

Should do the trick. As I said, I think you can just do it for that file.

4
  • 1
    Bleh, going to have to dive into CMake docs to figure out how - but that's exactly what I'm looking for; thanks! Jun 2, 2010 at 2:21
  • 7
    SET_SOURCE_FILE_PROPERTIES(fileName.cpp COMPILE_FLAGS -fno-var-tracking) Jun 2, 2010 at 5:41
  • I think it should be SET_SOURCE_FILES_PROPERTIES. At least the extra "S" was needed for me to get CMake to understand.
    – Jordfräs
    Jan 18, 2018 at 11:57
  • 1
    You also need to add PROPERTIES, to get something like this: SET_SOURCE_FILES_PROPERTIES(fileName.cpp PROPERTIES COMPILE_FLAGS -fno-var-tracking)
    – Jordfräs
    Jan 18, 2018 at 12:20
3

In GNU Make, you can turn off variable tracking for a single target if your compile command uses a flags variable in the arguments like

fileName.o: CXXFLAGS += -fno-var-tracking
2
1

Besides the answers telling how to turn off -fvar-tracking at the CMake level and at the g++-command-line level, you can also turn it off per file, by placing this line at the top of the source file:

#pragma GCC optimize("no-var-tracking")

Then, to suppress the bogus warning that Clang gives on that line, you might want to surround it with #pragma GCC diagnostic ignored, like this:

#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunknown-pragmas"
#pragma GCC optimize("no-var-tracking") // to speed up compilation
#pragma GCC diagnostic pop

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