// -*- C++ -*- /* \file pmprof.h * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Jean-Marc Lasgouttes * * Full author contact details are available in file CREDITS. */ #ifndef PMPROF_H #define PMPROF_H #ifdef _WIN32 #include #else #include #endif #include /** How to use this trivial profiler: * * * at the beginning of the interesting block, just add: * PROFILE_THIS_BLOCK(some_identifier) * * A trailing semicolon can be added at your discretion. * * * when the program ends, statistics will be sent to standard error, like: * * ##### some_identifier: 6.48475usec, count=25405 * * The code measured by the profiler corresponds to the lifetime of a * local variable declared by the PROFILE_THIS_BLOCK macro. * * Some examples of profiling scope: In the snippets below, c1, c2... * designate code chunks, and the identifiers of profiling blocks are * chosen to reflect what they count. * * { * c1 * PROFILE_THIS_BLOCK(c2) * c2 * } * * * { * PROFILE_THIS_BLOCK(c1_c2) * c1 * PROFILE_THIS_BLOCK(c2) * c2 * } * * * { * { * PROFILE_THIS_BLOCK(c1) * c1 * } * PROFILE_THIS_BLOCK(c2) * c2 * } * * * { * PROFILE_THIS_BLOCK(c1_c2_c3) * c1 * { * PROFILE_THIS_BLOCK(c2) * c2 * } * c3 * } * * Influence of identifier names: they are mainly used for display * purpose, but the same name should not be used twice in the same * scope. * * { * PROFILE_THIS_BLOCK(foo) * c1 * PROFILE_THIS_BLOCK(foo) // error: identifier clash * c2 * } * * In the example below, c1+c2 and c2 are counted separately, but in * the output, both are confusingly labelled `foo'. * * { * PROFILE_THIS_BLOCK(foo) * c1 * { * PROFILE_THIS_BLOCK(foo) // error: identifier clash * c2 * } * } */ #ifdef _WIN32 /* This function does not really returns the "time of day", * but it will suffice to evaluate elapsed times. */ int gettimeofday(struct timeval * tv, struct timezone * /*tz*/) { LARGE_INTEGER frequency, t; QueryPerformanceFrequency(&frequency); QueryPerformanceCounter(&t); tv->tv_sec = long(t.QuadPart / frequency.QuadPart); tv->tv_usec = long((1000000.0 * (t.QuadPart % frequency.QuadPart)) / frequency.QuadPart); return 0; } #endif // _WIN32 /* Helper class for gathering data. Instantiate this as a static * variable, so that its destructor will be executed when the program * ends. */ class PMProfStat { public: PMProfStat(char const * name) : name_(name), sec_(0), usec_(0), count_(0) {}; ~PMProfStat() { if (count_>0) std::cerr << "##### " << name_ << ": " << 1.0 * (sec_ * 1000000 + usec_)/ count_ << "usec, count=" << count_ << std::endl; } void add(const long long s, const long long u) { sec_ += s; usec_ += u; count_++; } private: char const * name_; long long sec_, usec_; unsigned long long count_; }; /* Helper class which gathers data at the end of the scope. One * instance of this one should be created at each execution of the * block. At the end of the block, it sends statistics to the static * PMProfStat object. */ class PMProfInstance { public: PMProfInstance(PMProfStat * stat) : stat_(stat) { gettimeofday(&before_, 0); } ~PMProfInstance() { gettimeofday(&after_, 0); stat_->add(after_.tv_sec - before_.tv_sec, after_.tv_usec - before_.tv_usec); } private: timeval before_, after_; PMProfStat * stat_; }; #define PROFILE_THIS_BLOCK(a) \ static PMProfStat PMPS_##a(#a);\ PMProfInstance PMPI_##a(&PMPS_##a); #endif