/* -----------------------------------------------------------------------------
- * $Id: Stats.c,v 1.32 2001/08/14 13:40:09 sewardj Exp $
*
- * (c) The GHC Team, 1998-1999
+ * (c) The GHC Team, 1998-2004
*
* Statistics and timing-related functions.
*
#include "Rts.h"
#include "RtsFlags.h"
#include "RtsUtils.h"
-#include "StoragePriv.h"
#include "MBlock.h"
#include "Schedule.h"
#include "Stats.h"
-#include "ParTicky.h" // ToDo: move into Rts.h
+#include "ParTicky.h" /* ToDo: move into Rts.h */
+#include "Profiling.h"
+#include "Storage.h"
+#include "Task.h"
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
-#ifndef mingw32_TARGET_OS
+#ifndef mingw32_HOST_OS
# ifdef HAVE_SYS_TIMES_H
# include <sys/times.h>
# endif
# endif
#endif
-#if ! irix_TARGET_OS && ! defined(mingw32_TARGET_OS)
+#if ! irix_HOST_OS && ! defined(mingw32_HOST_OS)
# if defined(HAVE_SYS_RESOURCE_H)
# include <sys/resource.h>
# endif
#include <windows.h>
#endif
-#if defined(PAR) || !(!defined(HAVE_GETRUSAGE) || irix_TARGET_OS || defined(mingw32_TARGET_OS) || defined(cygwin32_TARGET_OS))
+#if defined(PAR) || !(!defined(HAVE_GETRUSAGE) || irix_HOST_OS || defined(mingw32_HOST_OS) || defined(cygwin32_HOST_OS))
#include <sys/resource.h>
#endif
static int TicksPerSecond = 0;
static TICK_TYPE ElapsedTimeStart = 0;
-static TICK_TYPE CurrentElapsedTime = 0;
-static TICK_TYPE CurrentUserTime = 0;
static TICK_TYPE InitUserTime = 0;
static TICK_TYPE InitElapsedTime = 0;
static ullong GC_tot_alloc = 0;
static ullong GC_tot_copied = 0;
+static ullong GC_tot_scavd_copied = 0;
-static TICK_TYPE GC_start_time, GC_tot_time = 0; /* User GC Time */
-static TICK_TYPE GCe_start_time, GCe_tot_time = 0; /* Elapsed GC time */
+static TICK_TYPE GC_start_time = 0, GC_tot_time = 0; /* User GC Time */
+static TICK_TYPE GCe_start_time = 0, GCe_tot_time = 0; /* Elapsed GC time */
-lnat MaxResidency = 0; /* in words; for stats only */
-lnat AvgResidency = 0;
-lnat ResidencySamples = 0; /* for stats only */
+#ifdef PROFILING
+static TICK_TYPE RP_start_time = 0, RP_tot_time = 0; /* retainer prof user time */
+static TICK_TYPE RPe_start_time = 0, RPe_tot_time = 0; /* retainer prof elap time */
+
+static TICK_TYPE HC_start_time, HC_tot_time = 0; // heap census prof user time
+static TICK_TYPE HCe_start_time, HCe_tot_time = 0; // heap census prof elap time
+#endif
+
+#ifdef PROFILING
+#define PROF_VAL(x) (x)
+#else
+#define PROF_VAL(x) 0
+#endif
+
+static lnat MaxResidency = 0; // in words; for stats only
+static lnat AvgResidency = 0;
+static lnat ResidencySamples = 0; // for stats only
static lnat GC_start_faults = 0, GC_end_faults = 0;
static TICK_TYPE *GC_coll_times;
-static void getTimes(void);
+static void getTimes( long *elapsed, long *user );
static nat pageFaults(void);
+static void statsPrintf( char *s, ... )
+ GNUC3_ATTRIBUTE(format (printf, 1, 2));
+
+static void statsFlush( void );
+static void statsClose( void );
+
/* elapsedtime() -- The current elapsed time in seconds */
-#if defined(mingw32_TARGET_OS) || defined(cygwin32_TARGET_OS)
+#if defined(mingw32_HOST_OS) || defined(cygwin32_HOST_OS)
#define HNS_PER_SEC 10000000LL /* FILETIMES are in units of 100ns */
/* Convert FILETIMEs into secs */
#define FT2longlong(ll,ft) \
(ll) /= (unsigned long long) (HNS_PER_SEC / CLOCKS_PER_SEC)
#endif
-#if defined(mingw32_TARGET_OS) || defined(cygwin32_TARGET_OS)
+#if defined(mingw32_HOST_OS) || defined(cygwin32_HOST_OS)
/* cygwin32 or mingw32 version */
static void
-getTimes(void)
+getTimes( TICK_TYPE *elapsed, TICK_TYPE *user )
{
- FILETIME creationTime, exitTime, kernelTime, userTime;
+ static int is_win9x = -1;
+
+ FILETIME creationTime, exitTime, userTime, kernelTime = {0,0};
long long int kT, uT;
+
+ if (is_win9x < 0) {
+ /* figure out whether we're on a Win9x box or not. */
+ OSVERSIONINFO oi;
+ BOOL b;
+
+ /* Need to init the size field first.*/
+ oi.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
+ b = GetVersionEx(&oi);
+
+ is_win9x = ( (b && (oi.dwPlatformId & VER_PLATFORM_WIN32_WINDOWS)) ? 1 : 0);
+ }
- /* ToDo: pin down elapsed times to just the OS thread(s) that
- are evaluating/managing Haskell code.
- */
- if (!GetProcessTimes (GetCurrentProcess(), &creationTime,
+ if (is_win9x) {
+ /* On Win9x, just attribute all running time to the user. */
+ SYSTEMTIME st;
+
+ GetSystemTime(&st);
+ SystemTimeToFileTime(&st,&userTime);
+ } else {
+ /* ToDo: pin down elapsed times to just the OS thread(s) that
+ are evaluating/managing Haskell code.
+ */
+ if (!GetProcessTimes (GetCurrentProcess(), &creationTime,
&exitTime, &kernelTime, &userTime)) {
/* Probably on a Win95 box..*/
- CurrentElapsedTime = 0;
- CurrentUserTime = 0;
+ *elapsed = 0;
+ *user = 0;
return;
+ }
}
FT2longlong(kT,kernelTime);
FT2longlong(uT,userTime);
- CurrentElapsedTime = uT + kT;
- CurrentUserTime = uT;
+ *elapsed = uT + kT;
+ *user = uT;
+
+ if (is_win9x) {
+ /* Adjust for the fact that we're using system time & not
+ process time on Win9x. */
+ *user -= ElapsedTimeStart;
+ *elapsed -= ElapsedTimeStart;
+ }
}
#else /* !win32 */
static void
-getTimes(void)
+getTimes( TICK_TYPE *user, TICK_TYPE *elapsed )
{
#ifndef HAVE_TIMES
/* We will #ifdef around the fprintf for machines
we *know* are unsupported. (WDP 94/05)
*/
- fprintf(stderr, "NOTE: `getTimes' does nothing!\n");
+ debugBelch("NOTE: `getTimes' does nothing!\n");
return 0.0;
#else /* not stumped */
struct tms t;
clock_t r = times(&t);
- CurrentElapsedTime = r;
- CurrentUserTime = t.tms_utime;
+ *elapsed = r;
+ *user = t.tms_utime;
#endif
-
}
#endif /* !win32 */
* stat_startGC() for details)
*/
double
-mut_user_time_during_GC(void)
+mut_user_time_during_GC( void )
+{
+ return TICK_TO_DBL(GC_start_time - GC_tot_time - PROF_VAL(RP_tot_time + HC_tot_time));
+}
+
+double
+mut_user_time( void )
{
- return TICK_TO_DBL(GC_start_time - GC_tot_time);
+ TICK_TYPE user, elapsed;
+ getTimes(&user, &elapsed);
+ return TICK_TO_DBL(user - GC_tot_time - PROF_VAL(RP_tot_time + HC_tot_time));
}
+#ifdef PROFILING
+/*
+ mut_user_time_during_RP() is similar to mut_user_time_during_GC();
+ it returns the MUT time during retainer profiling.
+ The same is for mut_user_time_during_HC();
+ */
double
-mut_user_time(void)
+mut_user_time_during_RP( void )
{
- getTimes();
- return TICK_TO_DBL(CurrentUserTime - GC_tot_time);
+ return TICK_TO_DBL(RP_start_time - GC_tot_time - RP_tot_time - HC_tot_time);
}
+double
+mut_user_time_during_heap_census( void )
+{
+ return TICK_TO_DBL(HC_start_time - GC_tot_time - RP_tot_time - HC_tot_time);
+}
+#endif /* PROFILING */
+
static nat
pageFaults(void)
{
/* ToDo (on NT): better, get this via the performance data
that's stored in the registry. */
-# if !defined(HAVE_GETRUSAGE) || irix_TARGET_OS || defined(mingw32_TARGET_OS) || defined(cygwin32_TARGET_OS)
+# if !defined(HAVE_GETRUSAGE) || irix_HOST_OS || defined(mingw32_HOST_OS) || defined(cygwin32_HOST_OS)
return 0;
# else
struct rusage t;
initStats(void)
{
nat i;
- FILE *sf = RtsFlags.GcFlags.statsFile;
if (RtsFlags.GcFlags.giveStats >= VERBOSE_GC_STATS) {
- fprintf(sf, " Alloc Collect Live GC GC TOT TOT Page Flts\n");
- fprintf(sf, " bytes bytes bytes user elap user elap\n");
+ statsPrintf(" Alloc Collect Live GC GC TOT TOT Page Flts\n");
+ statsPrintf(" bytes bytes bytes user elap user elap\n");
}
GC_coll_times =
(TICK_TYPE *)stgMallocBytes(
void
stat_startInit(void)
{
+ TICK_TYPE user, elapsed;
+
/* Determine TicksPerSecond ... */
#if defined(CLK_TCK) /* defined by POSIX */
TicksPerSecond = CLK_TCK;
ticks = sysconf(_SC_CLK_TCK);
if ( ticks == -1 ) {
- fprintf(stderr, "stat_init: bad call to 'sysconf'!\n");
+ debugBelch("stat_init: bad call to 'sysconf'!\n");
stg_exit(EXIT_FAILURE);
}
TicksPerSecond = ticks;
/* We will #ifdef around the fprintf for machines
we *know* are unsupported. (WDP 94/05)
*/
- fprintf(stderr, "NOTE: Guessing `TicksPerSecond = 60'!\n");
+ debugBelch("NOTE: Guessing `TicksPerSecond = 60'!\n");
TicksPerSecond = 60;
#endif
- getTimes();
- ElapsedTimeStart = CurrentElapsedTime;
+ getTimes( &user, &elapsed );
+ ElapsedTimeStart = elapsed;
}
void
stat_endInit(void)
{
- getTimes();
- InitUserTime = CurrentUserTime;
- InitElapsedStamp = CurrentElapsedTime;
- if (ElapsedTimeStart > CurrentElapsedTime) {
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+ InitUserTime = user;
+ InitElapsedStamp = elapsed;
+ if (ElapsedTimeStart > elapsed) {
InitElapsedTime = 0;
} else {
- InitElapsedTime = CurrentElapsedTime - ElapsedTimeStart;
+ InitElapsedTime = elapsed - ElapsedTimeStart;
}
}
void
stat_startExit(void)
{
- getTimes();
- MutElapsedStamp = CurrentElapsedTime;
- MutElapsedTime = CurrentElapsedTime - GCe_tot_time - InitElapsedStamp;
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+ MutElapsedStamp = elapsed;
+ MutElapsedTime = elapsed - GCe_tot_time -
+ PROF_VAL(RPe_tot_time + HCe_tot_time) - InitElapsedStamp;
if (MutElapsedTime < 0) { MutElapsedTime = 0; } /* sometimes -0.00 */
-
- /* for SMP, we don't know the mutator time yet, we have to inspect
+
+ /* for threads, we don't know the mutator time yet, we have to inspect
* all the running threads to find out, and they haven't stopped
* yet. So we just timestamp MutUserTime at this point so we can
* calculate the EXIT time. The real MutUserTime is calculated
* in stat_exit below.
*/
-#ifdef SMP
- MutUserTime = CurrentUserTime;
+#if defined(RTS_SUPPORTS_THREADS)
+ MutUserTime = user;
#else
- MutUserTime = CurrentUserTime - GC_tot_time - InitUserTime;
+ MutUserTime = user - GC_tot_time - PROF_VAL(RP_tot_time + HC_tot_time) - InitUserTime;
if (MutUserTime < 0) { MutUserTime = 0; }
#endif
}
void
stat_endExit(void)
{
- getTimes();
-#ifdef SMP
- ExitUserTime = CurrentUserTime - MutUserTime;
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+#if defined(RTS_SUPPORTS_THREADS)
+ ExitUserTime = user - MutUserTime;
#else
- ExitUserTime = CurrentUserTime - MutUserTime - GC_tot_time - InitUserTime;
+ ExitUserTime = user - MutUserTime - GC_tot_time - PROF_VAL(RP_tot_time + HC_tot_time) - InitUserTime;
#endif
- ExitElapsedTime = CurrentElapsedTime - MutElapsedStamp;
+ ExitElapsedTime = elapsed - MutElapsedStamp;
if (ExitUserTime < 0) {
ExitUserTime = 0;
}
stat_startGC(void)
{
nat bell = RtsFlags.GcFlags.ringBell;
+ TICK_TYPE user, elapsed;
+
if (bell) {
if (bell > 1) {
- fprintf(stderr, " GC ");
+ debugBelch(" GC ");
rub_bell = 1;
} else {
- fprintf(stderr, "\007");
+ debugBelch("\007");
}
}
#if defined(PROFILING) || defined(DEBUG)
- getTimes();
- GC_start_time = CurrentUserTime; /* needed in mut_user_time_during_GC() */
+ getTimes( &user, &elapsed );
+ GC_start_time = user; /* needed in mut_user_time_during_GC() */
#endif
if (RtsFlags.GcFlags.giveStats != NO_GC_STATS) {
#if !defined(PROFILING) && !defined(DEBUG)
- getTimes();
- GC_start_time = CurrentUserTime;
+ getTimes( &user, &elapsed );
+ GC_start_time = user;
#endif
- GCe_start_time = CurrentElapsedTime;
+ GCe_start_time = elapsed;
if (RtsFlags.GcFlags.giveStats) {
GC_start_faults = pageFaults();
}
-------------------------------------------------------------------------- */
void
-stat_endGC(lnat alloc, lnat collect, lnat live, lnat copied, lnat gen)
+stat_endGC(lnat alloc, lnat collect, lnat live, lnat copied, lnat scavd_copied, lnat gen)
{
- FILE *sf = RtsFlags.GcFlags.statsFile;
+ TICK_TYPE user, elapsed;
if (RtsFlags.GcFlags.giveStats != NO_GC_STATS) {
TICK_TYPE time, etime, gc_time, gc_etime;
- getTimes();
- time = CurrentUserTime;
- etime = CurrentElapsedTime;
+ getTimes( &user, &elapsed );
+ time = user;
+ etime = elapsed;
gc_time = time - GC_start_time;
gc_etime = etime - GCe_start_time;
- if (RtsFlags.GcFlags.giveStats == VERBOSE_GC_STATS && sf != NULL) {
+ if (RtsFlags.GcFlags.giveStats == VERBOSE_GC_STATS) {
nat faults = pageFaults();
- fprintf(sf, "%9ld %9ld %9ld",
+ statsPrintf("%9ld %9ld %9ld",
alloc*sizeof(W_), collect*sizeof(W_), live*sizeof(W_));
- fprintf(sf, " %5.2f %5.2f %7.2f %7.2f %4ld %4ld (Gen: %2ld)\n",
+ statsPrintf(" %5.2f %5.2f %7.2f %7.2f %4ld %4ld (Gen: %2ld)\n",
TICK_TO_DBL(gc_time),
TICK_TO_DBL(gc_etime),
TICK_TO_DBL(time),
gen);
GC_end_faults = faults;
- fflush(sf);
+ statsFlush();
}
GC_coll_times[gen] += gc_time;
GC_tot_copied += (ullong) copied;
+ GC_tot_scavd_copied += (ullong) scavd_copied;
GC_tot_alloc += (ullong) alloc;
GC_tot_time += gc_time;
GCe_tot_time += gc_etime;
-#ifdef SMP
+#if defined(RTS_SUPPORTS_THREADS)
{
- nat i;
- pthread_t me = pthread_self();
-
- for (i = 0; i < RtsFlags.ParFlags.nNodes; i++) {
- if (me == task_ids[i].id) {
- task_ids[i].gc_time += gc_time;
- task_ids[i].gc_etime += gc_etime;
- break;
- }
+ TaskInfo *task_info = taskOfId(osThreadId());
+
+ if (task_info != NULL) {
+ task_info->gc_time += gc_time;
+ task_info->gc_etime += gc_etime;
}
}
#endif
}
if (rub_bell) {
- fprintf(stderr, "\b\b\b \b\b\b");
+ debugBelch("\b\b\b \b\b\b");
rub_bell = 0;
}
}
/* -----------------------------------------------------------------------------
+ Called at the beginning of each Retainer Profiliing
+ -------------------------------------------------------------------------- */
+#ifdef PROFILING
+void
+stat_startRP(void)
+{
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+ RP_start_time = user;
+ RPe_start_time = elapsed;
+}
+#endif /* PROFILING */
+
+/* -----------------------------------------------------------------------------
+ Called at the end of each Retainer Profiliing
+ -------------------------------------------------------------------------- */
+
+#ifdef PROFILING
+void
+stat_endRP(
+ nat retainerGeneration,
+#ifdef DEBUG_RETAINER
+ nat maxCStackSize,
+ int maxStackSize,
+#endif
+ double averageNumVisit)
+{
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+ RP_tot_time += user - RP_start_time;
+ RPe_tot_time += elapsed - RPe_start_time;
+
+ fprintf(prof_file, "Retainer Profiling: %d, at %f seconds\n",
+ retainerGeneration, mut_user_time_during_RP());
+#ifdef DEBUG_RETAINER
+ fprintf(prof_file, "\tMax C stack size = %u\n", maxCStackSize);
+ fprintf(prof_file, "\tMax auxiliary stack size = %u\n", maxStackSize);
+#endif
+ fprintf(prof_file, "\tAverage number of visits per object = %f\n", averageNumVisit);
+}
+#endif /* PROFILING */
+
+/* -----------------------------------------------------------------------------
+ Called at the beginning of each heap census
+ -------------------------------------------------------------------------- */
+#ifdef PROFILING
+void
+stat_startHeapCensus(void)
+{
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+ HC_start_time = user;
+ HCe_start_time = elapsed;
+}
+#endif /* PROFILING */
+
+/* -----------------------------------------------------------------------------
+ Called at the end of each heap census
+ -------------------------------------------------------------------------- */
+#ifdef PROFILING
+void
+stat_endHeapCensus(void)
+{
+ TICK_TYPE user, elapsed;
+ getTimes( &user, &elapsed );
+
+ HC_tot_time += user - HC_start_time;
+ HCe_tot_time += elapsed - HCe_start_time;
+}
+#endif /* PROFILING */
+
+/* -----------------------------------------------------------------------------
stat_workerStop
Called under SMP when a worker thread finishes. We drop the timing
- stats for this thread into the task_ids struct for that thread.
+ stats for this thread into the taskTable struct for that thread.
-------------------------------------------------------------------------- */
-#ifdef SMP
void
-stat_workerStop(void)
+stat_getTimes ( long *currentElapsedTime,
+ long *currentUserTime,
+ long *elapsedGCTime )
{
- nat i;
- pthread_t me = pthread_self();
-
- for (i = 0; i < RtsFlags.ParFlags.nNodes; i++) {
- if (task_ids[i].id == me) {
- task_ids[i].mut_time = usertime() - task_ids[i].gc_time;
- task_ids[i].mut_etime = elapsedtime()
- - GCe_tot_time
- - task_ids[i].elapsedtimestart;
- if (task_ids[i].mut_time < 0.0) { task_ids[i].mut_time = 0.0; }
- if (task_ids[i].mut_etime < 0.0) { task_ids[i].mut_etime = 0.0; }
- }
- }
+ getTimes(currentUserTime, currentElapsedTime);
+ *elapsedGCTime = GCe_tot_time;
}
-#endif
/* -----------------------------------------------------------------------------
Called at the end of execution
void
stat_exit(int alloc)
{
- FILE *sf = RtsFlags.GcFlags.statsFile;
-
+ TICK_TYPE user, elapsed;
+
if (RtsFlags.GcFlags.giveStats != NO_GC_STATS) {
char temp[BIG_STRING_LEN];
TICK_TYPE etime;
nat g, total_collections = 0;
- getTimes();
- time = CurrentUserTime;
- etime = CurrentElapsedTime - ElapsedTimeStart;
+ getTimes( &user, &elapsed );
+ etime = elapsed - ElapsedTimeStart;
GC_tot_alloc += alloc;
- /* avoid divide by zero if time is measured as 0.00 seconds -- SDM */
- if (time == 0.0) time = 1;
- if (etime == 0.0) etime = 1;
-
/* Count total garbage collections */
for (g = 0; g < RtsFlags.GcFlags.generations; g++)
total_collections += generations[g].collections;
/* For SMP, we have to get the user time from each thread
* and try to work out the total time.
*/
-#ifdef SMP
- { nat i;
+#if defined(RTS_SUPPORTS_THREADS)
+ {
+ nat i;
MutUserTime = 0.0;
- for (i = 0; i < RtsFlags.ParFlags.nNodes; i++) {
- MutUserTime += task_ids[i].mut_time;
+ for (i = 0; i < taskCount; i++) {
+ MutUserTime += taskTable[i].mut_time;
}
}
time = MutUserTime + GC_tot_time + InitUserTime + ExitUserTime;
if (MutUserTime < 0) { MutUserTime = 0; }
+#else
+ time = user;
#endif
- if (RtsFlags.GcFlags.giveStats >= VERBOSE_GC_STATS && sf != NULL) {
- fprintf(sf, "%9ld %9.9s %9.9s", (lnat)alloc*sizeof(W_), "", "");
- fprintf(sf, " %5.2f %5.2f\n\n", 0.0, 0.0);
+ /* avoid divide by zero if time is measured as 0.00 seconds -- SDM */
+ if (time == 0.0) time = 1;
+ if (etime == 0.0) etime = 1;
+
+ if (RtsFlags.GcFlags.giveStats >= VERBOSE_GC_STATS) {
+ statsPrintf("%9ld %9.9s %9.9s", (lnat)alloc*sizeof(W_), "", "");
+ statsPrintf(" %5.2f %5.2f\n\n", 0.0, 0.0);
}
- if (RtsFlags.GcFlags.giveStats >= SUMMARY_GC_STATS && sf != NULL) {
+ if (RtsFlags.GcFlags.giveStats >= SUMMARY_GC_STATS) {
ullong_format_string(GC_tot_alloc*sizeof(W_),
temp, rtsTrue/*commas*/);
- fprintf(sf, "%11s bytes allocated in the heap\n", temp);
+ statsPrintf("%11s bytes allocated in the heap\n", temp);
ullong_format_string(GC_tot_copied*sizeof(W_),
temp, rtsTrue/*commas*/);
- fprintf(sf, "%11s bytes copied during GC\n", temp);
+ statsPrintf("%11s bytes copied during GC (scavenged)\n", temp);
+ ullong_format_string(GC_tot_scavd_copied*sizeof(W_),
+ temp, rtsTrue/*commas*/);
+ statsPrintf("%11s bytes copied during GC (not scavenged)\n", temp);
+
if ( ResidencySamples > 0 ) {
ullong_format_string(MaxResidency*sizeof(W_),
temp, rtsTrue/*commas*/);
- fprintf(sf, "%11s bytes maximum residency (%ld sample(s))\n",
+ statsPrintf("%11s bytes maximum residency (%ld sample(s))\n",
temp, ResidencySamples);
}
- fprintf(sf,"\n");
+ statsPrintf("\n");
/* Print garbage collections in each gen */
for (g = 0; g < RtsFlags.GcFlags.generations; g++) {
- fprintf(sf, "%11d collections in generation %d (%6.2fs)\n",
+ statsPrintf("%11d collections in generation %d (%6.2fs)\n",
generations[g].collections, g,
TICK_TO_DBL(GC_coll_times[g]));
}
- fprintf(sf,"\n%11ld Mb total memory in use\n\n",
+ statsPrintf("\n%11ld Mb total memory in use\n\n",
mblocks_allocated * MBLOCK_SIZE / (1024 * 1024));
-#ifdef SMP
+#if defined(RTS_SUPPORTS_THREADS)
{
nat i;
- for (i = 0; i < RtsFlags.ParFlags.nNodes; i++) {
- fprintf(sf, " Task %2d: MUT time: %6.2fs (%6.2fs elapsed)\n"
- " GC time: %6.2fs (%6.2fs elapsed)\n\n",
- i,
- TICK_TO_DBL(task_ids[i].mut_time),
- TICK_TO_DBL(task_ids[i].mut_etime),
- TICK_TO_DBL(task_ids[i].gc_time),
- TICK_TO_DBL(task_ids[i].gc_etime));
+ for (i = 0; i < taskCount; i++) {
+ statsPrintf(" Task %2d %-8s : MUT time: %6.2fs (%6.2fs elapsed)\n"
+ " GC time: %6.2fs (%6.2fs elapsed)\n\n",
+ i,
+ taskTable[i].is_worker ? "(worker)" : "(bound)",
+ TICK_TO_DBL(taskTable[i].mut_time),
+ TICK_TO_DBL(taskTable[i].mut_etime),
+ TICK_TO_DBL(taskTable[i].gc_time),
+ TICK_TO_DBL(taskTable[i].gc_etime));
}
}
#endif
- fprintf(sf, " INIT time %6.2fs (%6.2fs elapsed)\n",
+ statsPrintf(" INIT time %6.2fs (%6.2fs elapsed)\n",
TICK_TO_DBL(InitUserTime), TICK_TO_DBL(InitElapsedTime));
- fprintf(sf, " MUT time %6.2fs (%6.2fs elapsed)\n",
+ statsPrintf(" MUT time %6.2fs (%6.2fs elapsed)\n",
TICK_TO_DBL(MutUserTime), TICK_TO_DBL(MutElapsedTime));
- fprintf(sf, " GC time %6.2fs (%6.2fs elapsed)\n",
+ statsPrintf(" GC time %6.2fs (%6.2fs elapsed)\n",
TICK_TO_DBL(GC_tot_time), TICK_TO_DBL(GCe_tot_time));
- fprintf(sf, " EXIT time %6.2fs (%6.2fs elapsed)\n",
+#ifdef PROFILING
+ statsPrintf(" RP time %6.2fs (%6.2fs elapsed)\n",
+ TICK_TO_DBL(RP_tot_time), TICK_TO_DBL(RPe_tot_time));
+ statsPrintf(" PROF time %6.2fs (%6.2fs elapsed)\n",
+ TICK_TO_DBL(HC_tot_time), TICK_TO_DBL(HCe_tot_time));
+#endif
+ statsPrintf(" EXIT time %6.2fs (%6.2fs elapsed)\n",
TICK_TO_DBL(ExitUserTime), TICK_TO_DBL(ExitElapsedTime));
- fprintf(sf, " Total time %6.2fs (%6.2fs elapsed)\n\n",
+ statsPrintf(" Total time %6.2fs (%6.2fs elapsed)\n\n",
TICK_TO_DBL(time), TICK_TO_DBL(etime));
- fprintf(sf, " %%GC time %5.1f%% (%.1f%% elapsed)\n\n",
- TICK_TO_DBL(GC_tot_time)*100/time,
- TICK_TO_DBL(GCe_tot_time)*100/etime);
+ statsPrintf(" %%GC time %5.1f%% (%.1f%% elapsed)\n\n",
+ TICK_TO_DBL(GC_tot_time)*100/TICK_TO_DBL(time),
+ TICK_TO_DBL(GCe_tot_time)*100/TICK_TO_DBL(etime));
- if (time - GC_tot_time == 0)
+ if (time - GC_tot_time - PROF_VAL(RP_tot_time + HC_tot_time) == 0)
ullong_format_string(0, temp, rtsTrue/*commas*/);
else
ullong_format_string(
(ullong)((GC_tot_alloc*sizeof(W_))/
- TICK_TO_DBL(time - GC_tot_time)),
+ TICK_TO_DBL(time - GC_tot_time -
+ PROF_VAL(RP_tot_time + HC_tot_time))),
temp, rtsTrue/*commas*/);
- fprintf(sf, " Alloc rate %s bytes per MUT second\n\n", temp);
+ statsPrintf(" Alloc rate %s bytes per MUT second\n\n", temp);
- fprintf(sf, " Productivity %5.1f%% of total user, %.1f%% of total elapsed\n\n",
- TICK_TO_DBL(time - GC_tot_time - InitUserTime) * 100
+ statsPrintf(" Productivity %5.1f%% of total user, %.1f%% of total elapsed\n\n",
+ TICK_TO_DBL(time - GC_tot_time -
+ PROF_VAL(RP_tot_time + HC_tot_time) - InitUserTime) * 100
/ TICK_TO_DBL(time),
- TICK_TO_DBL(time - GC_tot_time - InitUserTime) * 100
+ TICK_TO_DBL(time - GC_tot_time -
+ PROF_VAL(RP_tot_time + HC_tot_time) - InitUserTime) * 100
/ TICK_TO_DBL(etime));
}
- if (RtsFlags.GcFlags.giveStats == ONELINE_GC_STATS && sf != NULL) {
+ if (RtsFlags.GcFlags.giveStats == ONELINE_GC_STATS) {
/* print the long long separately to avoid bugginess on mingwin (2001-07-02, mingw-0.5) */
- fprintf(sf, "<<ghc: %llu bytes, ", GC_tot_alloc*sizeof(W_));
- fprintf(sf, "%d GCs, %ld/%ld avg/max bytes residency (%ld samples), %luM in use, %.2f INIT (%.2f elapsed), %.2f MUT (%.2f elapsed), %.2f GC (%.2f elapsed) :ghc>>\n",
+ statsPrintf("<<ghc: %llu bytes, ", GC_tot_alloc*(ullong)sizeof(W_));
+ statsPrintf("%d GCs, %ld/%ld avg/max bytes residency (%ld samples), %luM in use, %.2f INIT (%.2f elapsed), %.2f MUT (%.2f elapsed), %.2f GC (%.2f elapsed) :ghc>>\n",
total_collections,
- AvgResidency*sizeof(W_)/ResidencySamples,
+ ResidencySamples == 0 ? 0 :
+ AvgResidency*sizeof(W_)/ResidencySamples,
MaxResidency*sizeof(W_),
ResidencySamples,
(unsigned long)(mblocks_allocated * MBLOCK_SIZE / (1024L * 1024L)),
TICK_TO_DBL(GC_tot_time), TICK_TO_DBL(GCe_tot_time));
}
- fflush(sf);
- fclose(sf);
+ statsFlush();
+ statsClose();
}
}
Produce some detailed info on the state of the generational GC.
-------------------------------------------------------------------------- */
+#ifdef DEBUG
void
statDescribeGens(void)
{
- nat g, s, mut, mut_once, lge, live;
- StgMutClosure *m;
+ nat g, s, mut, lge, live;
bdescr *bd;
step *step;
- fprintf(stderr, " Gen Steps Max Mutable Mut-Once Step Blocks Live Large\n Blocks Closures Closures Objects\n");
+ debugBelch(" Gen Steps Max Mutable Step Blocks Live Large\n Blocks Closures Closures Objects\n");
+ mut = 0;
for (g = 0; g < RtsFlags.GcFlags.generations; g++) {
- for (m = generations[g].mut_list, mut = 0; m != END_MUT_LIST;
- m = m->mut_link)
- mut++;
- for (m = generations[g].mut_once_list, mut_once = 0; m != END_MUT_LIST;
- m = m->mut_link)
- mut_once++;
- fprintf(stderr, "%8d %8d %8d %9d %9d", g, generations[g].n_steps,
- generations[g].max_blocks, mut, mut_once);
+ for (bd = generations[g].mut_list; bd != NULL; bd = bd->link) {
+ mut += bd->free - bd->start;
+ }
+
+ debugBelch("%8d %8d %8d %9d", g, generations[g].n_steps,
+ generations[g].max_blocks, mut);
for (s = 0; s < generations[g].n_steps; s++) {
step = &generations[g].steps[s];
for (bd = step->large_objects, lge = 0; bd; bd = bd->link)
lge++;
live = 0;
- if (RtsFlags.GcFlags.generations == 1) {
- bd = step->to_blocks;
- } else {
- bd = step->blocks;
- }
+ bd = step->blocks;
for (; bd; bd = bd->link) {
live += (bd->free - bd->start) * sizeof(W_);
}
if (s != 0) {
- fprintf(stderr,"%46s","");
+ debugBelch("%46s","");
}
- fprintf(stderr,"%6d %8d %8d %8d\n", s, step->n_blocks,
+ debugBelch("%6d %8d %8d %8d\n", s, step->n_blocks,
live, lge);
}
}
- fprintf(stderr,"\n");
+ debugBelch("\n");
}
+#endif
/* -----------------------------------------------------------------------------
Stats available via a programmatic interface, so eg. GHCi can time
each compilation and expression evaluation.
-------------------------------------------------------------------------- */
-extern HsInt getAllocations( void )
-{ return (HsInt)(total_allocated * sizeof(W_)); }
+extern HsInt64 getAllocations( void )
+{ return (HsInt64)total_allocated * sizeof(W_); }
+
+/* -----------------------------------------------------------------------------
+ Dumping stuff in the stats file, or via the debug message interface
+ -------------------------------------------------------------------------- */
+
+static void
+statsPrintf( char *s, ... )
+{
+ FILE *sf = RtsFlags.GcFlags.statsFile;
+ va_list ap;
+
+ va_start(ap,s);
+ if (sf == NULL) {
+ vdebugBelch(s,ap);
+ } else {
+ vfprintf(sf, s, ap);
+ }
+ va_end(ap);
+}
+
+static void
+statsFlush( void )
+{
+ FILE *sf = RtsFlags.GcFlags.statsFile;
+ if (sf != NULL) {
+ fflush(sf);
+ }
+}
+
+static void
+statsClose( void )
+{
+ FILE *sf = RtsFlags.GcFlags.statsFile;
+ if (sf != NULL) {
+ fclose(sf);
+ }
+}
projects / ghc-hetmet.git / blobdiff