/* -----------------------------------------------------------------------------
- * $Id: ProfHeap.c,v 1.40 2002/12/11 15:36:47 simonmar Exp $
+ * $Id: ProfHeap.c,v 1.50 2003/11/12 17:49:08 sof Exp $
*
- * (c) The GHC Team, 1998-2000
+ * (c) The GHC Team, 1998-2003
*
* Support for heap profiling
*
struct _counter *next;
} counter;
-static inline void
+STATIC_INLINE void
initLDVCtr( counter *ctr )
{
ctr->c.ldv.prim = 0;
* the band to which this closure's heap space is attributed in the
* heap profile.
* ------------------------------------------------------------------------- */
-static inline void *
+STATIC_INLINE void *
closureIdentity( StgClosure *p )
{
switch (RtsFlags.ProfFlags.doHeapProfile) {
* Profiling type predicates
* ----------------------------------------------------------------------- */
#ifdef PROFILING
-static inline rtsBool
+STATIC_INLINE rtsBool
doingLDVProfiling( void )
{
return (RtsFlags.ProfFlags.doHeapProfile == HEAP_BY_LDV
|| RtsFlags.ProfFlags.bioSelector != NULL);
}
-static inline rtsBool
+STATIC_INLINE rtsBool
doingRetainerProfiling( void )
{
return (RtsFlags.ProfFlags.doHeapProfile == HEAP_BY_RETAINER
/* --------------------------------------------------------------------------
* Initialize censuses[era];
* ----------------------------------------------------------------------- */
-static inline void
+STATIC_INLINE void
initEra(Census *census)
{
census->hash = allocHashTable();
#ifdef DEBUG_HEAP_PROF
FILE *hp_file;
+static char *hp_filename;
void initProfiling1( void )
{
void initProfiling2( void )
{
+ if (RtsFlags.ProfFlags.doHeapProfile) {
+ /* Initialise the log file name */
+ hp_filename = stgMallocBytes(strlen(prog_name) + 6, "hpFileName");
+ sprintf(hp_filename, "%s.hp", prog_name);
+
+ /* open the log file */
+ if ((hp_file = fopen(hp_filename, "w")) == NULL) {
+ fprintf(stderr, "Can't open profiling report file %s\n",
+ hp_filename);
+ RtsFlags.ProfFlags.doHeapProfile = 0;
+ return;
+ }
+ }
+
initHeapProfiling();
}
initEra( &censuses[era] );
- fprintf(hp_file, "JOB \"%s", prog_argv[0]);
+ /* initProfilingLogFile(); */
+ fprintf(hp_file, "JOB \"%s", prog_name);
#ifdef PROFILING
{
fprintf(hp_file, "END_SAMPLE 0.00\n");
#ifdef DEBUG_HEAP_PROF
- DEBUG_LoadSymbols(prog_argv[0]);
+ DEBUG_LoadSymbols(prog_name);
#endif
#ifdef PROFILING
#ifdef PROFILING
+static size_t
+buf_append(char *p, const char *q, char *end)
+{
+ int m;
+
+ for (m = 0; p < end; p++, q++, m++) {
+ *p = *q;
+ if (*q == '\0') { break; }
+ }
+ return m;
+}
+
static void
fprint_ccs(FILE *fp, CostCentreStack *ccs, nat max_length)
{
- char buf[max_length+1];
+ char buf[max_length+1], *p, *buf_end;
nat next_offset = 0;
nat written;
- char *template;
// MAIN on its own gets printed as "MAIN", otherwise we ignore MAIN.
if (ccs == CCS_MAIN) {
fprintf(fp, "(%d)", ccs->ccsID);
+ p = buf;
+ buf_end = buf + max_length + 1;
+
// keep printing components of the stack until we run out of space
// in the buffer. If we run out of space, end with "...".
for (; ccs != NULL && ccs != CCS_MAIN; ccs = ccs->prevStack) {
// CAF cost centres print as M.CAF, but we leave the module
// name out of all the others to save space.
if (!strcmp(ccs->cc->label,"CAF")) {
-#ifdef HAVE_SNPRINTF
- written = snprintf(buf+next_offset,
- (int)max_length-3-(int)next_offset,
- "%s.CAF", ccs->cc->module);
-#else
- written = sprintf(buf+next_offset,
- "%s.CAF", ccs->cc->module);
-#endif
+ p += buf_append(p, ccs->cc->module, buf_end);
+ p += buf_append(p, ".CAF", buf_end);
} else {
if (ccs->prevStack != NULL && ccs->prevStack != CCS_MAIN) {
- template = "%s/";
- } else {
- template = "%s";
+ p += buf_append(p, "/", buf_end);
}
-#ifdef HAVE_SNPRINTF
- written = snprintf(buf+next_offset,
- (int)max_length-3-(int)next_offset,
- template, ccs->cc->label);
-#else
- written = sprintf(buf+next_offset,
- template, ccs->cc->label);
-#endif
+ p += buf_append(p, ccs->cc->label, buf_end);
}
-
- if (next_offset+written >= max_length-4) {
+
+ if (p >= buf_end) {
sprintf(buf+max_length-4, "...");
break;
} else {
if (RtsFlags.ProfFlags.retainerSelector) {
RetainerSet *rs;
nat i;
- rs = retainerSetOf((StgClosure *)p);
- if (rs != NULL) {
- for (i = 0; i < rs->num; i++) {
- b = strMatchesSelector( rs->element[i]->cc->label,
- RtsFlags.ProfFlags.retainerSelector );
- if (b) return rtsTrue;
+ // We must check that the retainer set is valid here. One
+ // reason it might not be valid is if this closure is a
+ // a newly deceased weak pointer (i.e. a DEAD_WEAK), since
+ // these aren't reached by the retainer profiler's traversal.
+ if (isRetainerSetFieldValid((StgClosure *)p)) {
+ rs = retainerSetOf((StgClosure *)p);
+ if (rs != NULL) {
+ for (i = 0; i < rs->num; i++) {
+ b = strMatchesSelector( rs->element[i]->cc->label,
+ RtsFlags.ProfFlags.retainerSelector );
+ if (b) return rtsTrue;
+ }
}
}
return rtsFalse;
rtsBool prim;
for (; bd != NULL; bd = bd->link) {
+
+ // HACK: ignore pinned blocks, because they contain gaps.
+ // It's not clear exactly what we'd like to do here, since we
+ // can't tell which objects in the block are actually alive.
+ // Perhaps the whole block should be counted as SYSTEM memory.
+ if (bd->flags & BF_PINNED) {
+ continue;
+ }
+
p = bd->start;
while (p < bd->free) {
info = get_itbl((StgClosure *)p);
case FUN:
case THUNK:
case IND_PERM:
+ case IND_OLDGEN:
case IND_OLDGEN_PERM:
case CAF_BLACKHOLE:
case SE_CAF_BLACKHOLE:
break;
case BCO:
+ prim = rtsTrue;
+ size = bco_sizeW((StgBCO *)p);
+ break;
+
case MVAR:
case WEAK:
case FOREIGN:
case TSO:
prim = rtsTrue;
+#ifdef DEBUG_HEAP_PROF
size = tso_sizeW((StgTSO *)p);
break;
-
+#else
+ if (RtsFlags.ProfFlags.includeTSOs) {
+ size = tso_sizeW((StgTSO *)p);
+ break;
+ } else {
+ // Skip this TSO and move on to the next object
+ p += tso_sizeW((StgTSO *)p);
+ continue;
+ }
+#endif
+
default:
barf("heapCensus");
}
heapCensusChain( census, generations[g].steps[s].blocks );
// Are we interested in large objects? might be
// confusing to include the stack in a heap profile.
- // heapCensusChain( census, generations[g].steps[s].large_objects );
+ heapCensusChain( census, generations[g].steps[s].large_objects );
}
}
}