Mercurial > hg > svcore
changeset 183:146eb9e35baa
* Improve output from Profiler class and make it incur less (no) overhead in
release builds with NO_TIMING defined
* Fix a lock contention issue in spectrogram
* Marginal optimisations elsewhere
| author | Chris Cannam |
|---|---|
| date | Tue, 10 Oct 2006 14:51:17 +0000 |
| parents | f75f8a1cd7b1 |
| children | 5a916fee6d2d |
| files | base/Profiler.cpp base/Profiler.h base/RealTime.cpp base/RealTime.h base/ResizeableBitset.h data/fft/FFTDataServer.cpp data/fft/FFTDataServer.h data/fft/FFTFileCache.cpp data/fft/FFTFileCache.h data/model/FFTModel.cpp |
| diffstat | 10 files changed, 222 insertions(+), 74 deletions(-) [+] |
line wrap: on
line diff
--- a/base/Profiler.cpp Mon Oct 09 10:49:46 2006 +0000 +++ b/base/Profiler.cpp Tue Oct 10 14:51:17 2006 +0000 @@ -23,16 +23,8 @@ #include <vector> #include <algorithm> - -//#define NO_TIMING 1 - -#define WANT_TIMING 1 - -#ifdef NDEBUG -#ifndef WANT_TIMING -#define NO_TIMING 1 -#endif -#endif +#include <set> +#include <map> using std::cerr; using std::endl; @@ -63,72 +55,133 @@ pair.second.first += time; pair.second.second = pair.second.second + rt; - TimePair &timePair(m_lastCalls[id]); - timePair.first = time; - timePair.second = rt; + TimePair &lastPair(m_lastCalls[id]); + lastPair.first = time; + lastPair.second = rt; + + TimePair &worstPair(m_worstCalls[id]); + if (time > worstPair.first) { + worstPair.first = time; + } + if (rt > worstPair.second) { + worstPair.second = rt; + } #endif } -void Profiles::dump() +void Profiles::dump() const { -#ifndef NO_TIMING - cerr << "Profiles::dump() :\n"; +#ifndef NO_TIMING - // I'm finding these two confusing dumped out in random order, - // so I'm going to sort them alphabetically: + fprintf(stderr, "Profiling points:\n"); - std::vector<const char *> profileNames; - for (ProfileMap::iterator i = m_profiles.begin(); - i != m_profiles.end(); ++i) { - profileNames.push_back((*i).first); + fprintf(stderr, "\nBy name:\n"); + + typedef std::set<const char *, std::less<std::string> > StringSet; + + StringSet profileNames; + for (ProfileMap::const_iterator i = m_profiles.begin(); + i != m_profiles.end(); ++i) { + profileNames.insert(i->first); } - std::sort(profileNames.begin(), profileNames.end()); + for (StringSet::const_iterator i = profileNames.begin(); + i != profileNames.end(); ++i) { - for (std::vector<const char *>::iterator i = profileNames.begin(); - i != profileNames.end(); ++i) { + ProfileMap::const_iterator j = m_profiles.find(*i); - cerr << "-> " << *i << ": CPU: " - << m_profiles[*i].first << " calls, " - << int((m_profiles[*i].second.first * 1000.0) / CLOCKS_PER_SEC) << "ms, " - << (((double)m_profiles[*i].second.first * 1000000.0 / - (double)m_profiles[*i].first) / CLOCKS_PER_SEC) << "us/call" - << endl; + if (j == m_profiles.end()) continue; - cerr << "-> " << *i << ": real: " - << m_profiles[*i].first << " calls, " - << m_profiles[*i].second.second << ", " - << (m_profiles[*i].second.second / m_profiles[*i].first) - << "/call" - << endl; + const ProfilePair &pp(j->second); - cerr << "-> " << *i << ": last: CPU: " - << int((m_lastCalls[*i].first * 1000.0) / CLOCKS_PER_SEC) << "ms, " - << " real: " - << m_lastCalls[*i].second << endl; + fprintf(stderr, "%s(%d):\n", *i, pp.first); + + fprintf(stderr, "\tCPU: \t%.9g ms/call \t[%d ms total]\n", + (((double)pp.second.first * 1000.0 / + (double)pp.first) / CLOCKS_PER_SEC), + int((pp.second.first * 1000.0) / CLOCKS_PER_SEC)); + + fprintf(stderr, "\tReal: \t%s ms \t[%s ms total]\n", + ((pp.second.second / pp.first) * 1000).toString().c_str(), + (pp.second.second * 1000).toString().c_str()); + + WorstCallMap::const_iterator k = m_worstCalls.find(*i); + if (k == m_worstCalls.end()) continue; + + const TimePair &wc(k->second); + + fprintf(stderr, "\tWorst:\t%s ms/call \t[%d ms CPU]\n", + (wc.second * 1000).toString().c_str(), + int((wc.first * 1000.0) / CLOCKS_PER_SEC)); } - cerr << "Profiles::dump() finished\n"; + typedef std::multimap<RealTime, const char *> TimeRMap; + typedef std::multimap<int, const char *> IntRMap; + + TimeRMap totmap, avgmap, worstmap; + IntRMap ncallmap; + + for (ProfileMap::const_iterator i = m_profiles.begin(); + i != m_profiles.end(); ++i) { + totmap.insert(TimeRMap::value_type(i->second.second.second, i->first)); + avgmap.insert(TimeRMap::value_type(i->second.second.second / + i->second.first, i->first)); + ncallmap.insert(IntRMap::value_type(i->second.first, i->first)); + } + + for (WorstCallMap::const_iterator i = m_worstCalls.begin(); + i != m_worstCalls.end(); ++i) { + worstmap.insert(TimeRMap::value_type(i->second.second, + i->first)); + } + + + fprintf(stderr, "\nBy total:\n"); + for (TimeRMap::const_iterator i = totmap.end(); i != totmap.begin(); ) { + --i; + fprintf(stderr, "%-40s %s ms\n", i->second, + (i->first * 1000).toString().c_str()); + } + + fprintf(stderr, "\nBy average:\n"); + for (TimeRMap::const_iterator i = avgmap.end(); i != avgmap.begin(); ) { + --i; + fprintf(stderr, "%-40s %s ms\n", i->second, + (i->first * 1000).toString().c_str()); + } + + fprintf(stderr, "\nBy worst case:\n"); + for (TimeRMap::const_iterator i = worstmap.end(); i != worstmap.begin(); ) { + --i; + fprintf(stderr, "%-40s %s ms\n", i->second, + (i->first * 1000).toString().c_str(), i->second); + } + + fprintf(stderr, "\nBy number of calls:\n"); + for (IntRMap::const_iterator i = ncallmap.end(); i != ncallmap.begin(); ) { + --i; + fprintf(stderr, "%-40s %d\n", i->second, i->first); + } + #endif } +#ifndef NO_TIMING + Profiler::Profiler(const char* c, bool showOnDestruct) : m_c(c), m_showOnDestruct(showOnDestruct) { -#ifndef NO_TIMING m_startCPU = clock(); struct timeval tv; (void)gettimeofday(&tv, 0); m_startTime = RealTime::fromTimeval(tv); -#endif } void -Profiler::update() +Profiler::update() const { -#ifndef NO_TIMING clock_t elapsedCPU = clock() - m_startCPU; struct timeval tv; @@ -138,12 +191,10 @@ cerr << "Profiler : id = " << m_c << " - elapsed so far = " << ((elapsedCPU * 1000) / CLOCKS_PER_SEC) << "ms CPU, " << elapsedTime << " real" << endl; -#endif } Profiler::~Profiler() { -#ifndef NO_TIMING clock_t elapsedCPU = clock() - m_startCPU; struct timeval tv; @@ -156,6 +207,7 @@ cerr << "Profiler : id = " << m_c << " - elapsed = " << ((elapsedCPU * 1000) / CLOCKS_PER_SEC) << "ms CPU, " << elapsedTime << " real" << endl; -#endif } +#endif +
--- a/base/Profiler.h Mon Oct 09 10:49:46 2006 +0000 +++ b/base/Profiler.h Tue Oct 10 14:51:17 2006 +0000 @@ -30,6 +30,15 @@ #include "RealTime.h" +//#define NO_TIMING 1 + +#define WANT_TIMING 1 + +#ifdef NDEBUG +#ifndef WANT_TIMING +#define NO_TIMING 1 +#endif +#endif /** * Profiling classes @@ -47,7 +56,7 @@ ~Profiles(); void accumulate(const char* id, clock_t time, RealTime rt); - void dump(); + void dump() const; protected: Profiles(); @@ -56,19 +65,38 @@ typedef std::pair<int, TimePair> ProfilePair; typedef std::map<const char *, ProfilePair> ProfileMap; typedef std::map<const char *, TimePair> LastCallMap; + typedef std::map<const char *, TimePair> WorstCallMap; ProfileMap m_profiles; LastCallMap m_lastCalls; + WorstCallMap m_worstCalls; static Profiles* m_instance; }; +#ifndef NO_TIMING + +/** + * Profile point instance class. Construct one of these on the stack + * at the start of a function, in order to record the time consumed + * within that function. The profiler object should be effectively + * optimised out if NO_TIMING is defined, so any overhead in a release + * build should be negligible so long as you remember to define that. + */ class Profiler { public: - Profiler(const char*, bool showOnDestruct = false); + /** + * Create a profile point instance that records time consumed + * against the given profiling point name. If showOnDestruct is + * true, the time consumed will be printed to stderr when the + * object is destroyed; otherwise, only the accumulated, mean and + * worst-case times will be shown when the program exits or + * Profiles::dump() is called. + */ + Profiler(const char *name, bool showOnDestruct = false); ~Profiler(); - void update(); + void update() const; protected: const char* m_c; @@ -76,6 +104,18 @@ RealTime m_startTime; bool m_showOnDestruct; }; - + +#else + +class Profiler +{ +public: + Profiler(const char *, bool) { } + ~Profiler() { } + + void update() { } +}; #endif + +#endif
--- a/base/RealTime.cpp Mon Oct 09 10:49:46 2006 +0000 +++ b/base/RealTime.cpp Tue Oct 10 14:51:17 2006 +0000 @@ -173,6 +173,13 @@ return s; } +RealTime +RealTime::operator*(int m) const +{ + double t = (double(nsec) / ONE_BILLION) * m; + t += sec * m; + return fromSeconds(t); +} RealTime RealTime::operator/(int d) const
--- a/base/RealTime.h Mon Oct 09 10:49:46 2006 +0000 +++ b/base/RealTime.h Tue Oct 10 14:51:17 2006 +0000 @@ -92,6 +92,7 @@ else return sec <= r.sec; } + RealTime operator*(int m) const; RealTime operator/(int d) const; // Find the fractional difference between times
--- a/base/ResizeableBitset.h Mon Oct 09 10:49:46 2006 +0000 +++ b/base/ResizeableBitset.h Tue Oct 10 14:51:17 2006 +0000 @@ -25,7 +25,7 @@ ResizeableBitset() : m_bits(0) { } ResizeableBitset(size_t size) : m_bits(new std::vector<uint8_t>) { - m_bits->assign(size / 8 + 1, 0); + m_bits->assign((size >> 3) + 1, 0); } ResizeableBitset(const ResizeableBitset &b) { m_bits = new std::vector<uint8_t>(*b.m_bits); @@ -45,19 +45,19 @@ delete m_bits; m_bits = new std::vector<uint8_t>; } - m_bits->assign(bits / 8 + 1, 0); + m_bits->assign((bits >> 3) + 1, 0); } bool get(size_t column) const { - return ((*m_bits)[column / 8]) & (1u << (column % 8)); + return ((*m_bits)[column >> 3]) & (1u << (column & 0x07)); } void set(size_t column) { - ((*m_bits)[column / 8]) |= (uint8_t(1) << (column % 8)); + ((*m_bits)[column >> 3]) |= (uint8_t(1) << (column & 0x07)); } void reset(size_t column) { - ((*m_bits)[column / 8]) &= ~(uint8_t(1) << (column % 8)); + ((*m_bits)[column >> 3]) &= ~(uint8_t(1) << (column & 0x07)); } void copy(size_t source, size_t dest) {
--- a/data/fft/FFTDataServer.cpp Mon Oct 09 10:49:46 2006 +0000 +++ b/data/fft/FFTDataServer.cpp Tue Oct 10 14:51:17 2006 +0000 @@ -23,6 +23,7 @@ #include "system/System.h" #include "base/StorageAdviser.h" +#include "base/Profiler.h" #define DEBUG_FFT_SERVER 1 @@ -313,6 +314,9 @@ m_windowIncrement(windowIncrement), m_fftSize(fftSize), m_polar(polar), + m_width(0), + m_height(0), + m_cacheWidth(0), m_memoryCache(false), m_compactCache(false), m_lastUsedCache(-1), @@ -439,6 +443,8 @@ #ifdef DEBUG_FFT_SERVER std::cerr << "FFTDataServer(" << this << "): suspend" << std::endl; #endif + Profiler profiler("FFTDataServer::suspend", false); + QMutexLocker locker(&m_writeMutex); m_suspended = true; for (CacheVector::iterator i = m_caches.begin(); i != m_caches.end(); ++i) { @@ -452,6 +458,8 @@ #ifdef DEBUG_FFT_SERVER std::cerr << "FFTDataServer(" << this << "): suspendWrites" << std::endl; #endif + Profiler profiler("FFTDataServer::suspendWrites", false); + m_suspended = true; } @@ -461,6 +469,8 @@ #ifdef DEBUG_FFT_SERVER std::cerr << "FFTDataServer(" << this << "): resume" << std::endl; #endif + Profiler profiler("FFTDataServer::resume", false); + m_suspended = false; if (m_fillThread) { if (m_fillThread->isFinished()) { @@ -476,6 +486,8 @@ FFTCache * FFTDataServer::getCacheAux(size_t c) { + Profiler profiler("FFTDataServer::getCacheAux", false); + QMutexLocker locker(&m_writeMutex); if (m_lastUsedCache == -1) { @@ -557,10 +569,14 @@ float FFTDataServer::getMagnitudeAt(size_t x, size_t y) { + Profiler profiler("FFTDataServer::getMagnitudeAt", false); + size_t col; FFTCache *cache = getCache(x, col); if (!cache->haveSetColumnAt(col)) { + std::cerr << "FFTDataServer::getMagnitudeAt: calling fillColumn(" + << x << ")" << std::endl; fillColumn(x); } return cache->getMagnitudeAt(col, y); @@ -569,6 +585,8 @@ float FFTDataServer::getNormalizedMagnitudeAt(size_t x, size_t y) { + Profiler profiler("FFTDataServer::getNormalizedMagnitudeAt", false); + size_t col; FFTCache *cache = getCache(x, col); @@ -581,6 +599,8 @@ float FFTDataServer::getMaximumMagnitudeAt(size_t x) { + Profiler profiler("FFTDataServer::getMaximumMagnitudeAt", false); + size_t col; FFTCache *cache = getCache(x, col); @@ -593,6 +613,8 @@ float FFTDataServer::getPhaseAt(size_t x, size_t y) { + Profiler profiler("FFTDataServer::getPhaseAt", false); + size_t col; FFTCache *cache = getCache(x, col); @@ -605,6 +627,8 @@ void FFTDataServer::getValuesAt(size_t x, size_t y, float &real, float &imaginary) { + Profiler profiler("FFTDataServer::getValuesAt", false); + size_t col; FFTCache *cache = getCache(x, col); @@ -623,9 +647,14 @@ bool FFTDataServer::isColumnReady(size_t x) { + Profiler profiler("FFTDataServer::isColumnReady", false); + if (!haveCache(x)) { if (m_lastUsedCache == -1) { - if (m_suspended) resume(); + if (m_suspended) { + std::cerr << "FFTDataServer::isColumnReady(" << x << "): no cache, calling resume" << std::endl; + resume(); + } m_fillThread->start(); } return false; @@ -640,6 +669,8 @@ void FFTDataServer::fillColumn(size_t x) { + Profiler profiler("FFTDataServer::fillColumn", false); + size_t col; #ifdef DEBUG_FFT_SERVER_FILL std::cout << "FFTDataServer::fillColumn(" << x << ")" << std::endl; @@ -720,7 +751,10 @@ m_workbuffer + m_fftSize/2, factor); - if (m_suspended) resume(); + if (m_suspended) { +// std::cerr << "FFTDataServer::fillColumn(" << x << "): calling resume" << std::endl; +// resume(); + } } size_t
--- a/data/fft/FFTDataServer.h Mon Oct 09 10:49:46 2006 +0000 +++ b/data/fft/FFTDataServer.h Tue Oct 10 14:51:17 2006 +0000 @@ -124,6 +124,8 @@ size_t m_width; size_t m_height; size_t m_cacheWidth; + size_t m_cacheWidthPower; + size_t m_cacheWidthMask; bool m_memoryCache; bool m_compactCache;
--- a/data/fft/FFTFileCache.cpp Mon Oct 09 10:49:46 2006 +0000 +++ b/data/fft/FFTFileCache.cpp Tue Oct 10 14:51:17 2006 +0000 @@ -89,6 +89,8 @@ float FFTFileCache::getMagnitudeAt(size_t x, size_t y) const { + Profiler profiler("FFTFileCache::getMagnitudeAt", false); + float value = 0.f; switch (m_storageType) { @@ -294,3 +296,22 @@ 2 * sizeof(size_t); // matrix file header size } +void +FFTFileCache::populateReadBuf(size_t x) const +{ + Profiler profiler("FFTFileCache::populateReadBuf", false); + + if (!m_readbuf) { + m_readbuf = new char[m_mfc->getHeight() * 2 * m_mfc->getCellSize()]; + } + m_mfc->getColumnAt(x, m_readbuf); + if (m_mfc->haveSetColumnAt(x + 1)) { + m_mfc->getColumnAt + (x + 1, m_readbuf + m_mfc->getCellSize() * m_mfc->getHeight()); + m_readbufWidth = 2; + } else { + m_readbufWidth = 1; + } + m_readbufCol = x; +} +
--- a/data/fft/FFTFileCache.h Mon Oct 09 10:49:46 2006 +0000 +++ b/data/fft/FFTFileCache.h Tue Oct 10 14:51:17 2006 +0000 @@ -94,20 +94,7 @@ } } - void populateReadBuf(size_t x) const { - if (!m_readbuf) { - m_readbuf = new char[m_mfc->getHeight() * 2 * m_mfc->getCellSize()]; - } - m_mfc->getColumnAt(x, m_readbuf); - if (m_mfc->haveSetColumnAt(x + 1)) { - m_mfc->getColumnAt - (x + 1, m_readbuf + m_mfc->getCellSize() * m_mfc->getHeight()); - m_readbufWidth = 2; - } else { - m_readbufWidth = 1; - } - m_readbufCol = x; - } + void populateReadBuf(size_t x) const; float getNormalizationFactor(size_t col) const { if (m_storageType != Compact) {
--- a/data/model/FFTModel.cpp Mon Oct 09 10:49:46 2006 +0000 +++ b/data/model/FFTModel.cpp Tue Oct 10 14:51:17 2006 +0000 @@ -16,6 +16,8 @@ #include "FFTModel.h" #include "DenseTimeValueModel.h" +#include "base/Profiler.h" + #include <cassert> FFTModel::FFTModel(const DenseTimeValueModel *model, @@ -81,6 +83,8 @@ void FFTModel::getColumn(size_t x, Column &result) const { + Profiler profiler("FFTModel::getColumn", false); + result.clear(); size_t height(getHeight()); for (size_t y = 0; y < height; ++y) {