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/* -----------------------------------------------------------------------------
*
* (c) The AQUA project, Glasgow University, 1992-1997
* (c) The GHC Team, 1998-1999
*
* Ticky-ticky profiling
*-------------------------------------------------------------------------- */
#define TICKY_C /* define those variables */
#include "PosixSource.h"
#include "Rts.h"
#include "eventlog/EventLog.h"
/* Catch-all top-level counter struct. Allocations from CAFs will go
* here.
*/
StgEntCounter top_ct
= { 0, 0, 0,
"TOP", "",
0, 0, NULL };
/* Data structure used in ``registering'' one of these counters. */
StgEntCounter *ticky_entry_ctrs = NULL; /* root of list of them */
/* We want Haskell code compiled with -ticky to be linkable with any
* version of the RTS, so we have to make sure all the symbols that
* ticky-compiled code may refer to are defined by every RTS. (#3439)
* Hence the #if defined(is) here, rather than up above.
*/
#if defined(TICKY_TICKY)
#include "Ticky.h"
/* -----------------------------------------------------------------------------
Print out all the counters
-------------------------------------------------------------------------- */
static void printRegisteredCounterInfo (FILE *); /* fwd decl */
#define INTAVG(a,b) ((b == 0) ? 0.0 : ((double) (a) / (double) (b)))
#define PC(a) (100.0 * a)
#define AVG(thing) \
StgDouble avg##thing = INTAVG(tot##thing,ctr##thing)
void
PrintTickyInfo(void)
{
if (RtsFlags.TraceFlags.ticky) {
barf("Ticky eventlog output can't be used with +RTS -r<file>");
}
unsigned long i;
unsigned long tot_thk_enters = ENT_STATIC_THK_MANY_ctr + ENT_DYN_THK_MANY_ctr
+ ENT_STATIC_THK_SINGLE_ctr + ENT_DYN_THK_SINGLE_ctr;
unsigned long tot_con_enters = ENT_STATIC_CON_ctr + ENT_DYN_CON_ctr;
unsigned long tot_fun_direct_enters = ENT_STATIC_FUN_DIRECT_ctr + ENT_DYN_FUN_DIRECT_ctr;
unsigned long tot_ind_enters = ENT_STATIC_IND_ctr + ENT_DYN_IND_ctr;
unsigned long tot_known_calls =
KNOWN_CALL_ctr + KNOWN_CALL_TOO_FEW_ARGS_ctr +
+ KNOWN_CALL_EXTRA_ARGS_ctr;
unsigned long tot_tail_calls =
UNKNOWN_CALL_ctr + tot_known_calls;
unsigned long tot_enters =
tot_con_enters + tot_fun_direct_enters +
tot_ind_enters + ENT_PERM_IND_ctr + ENT_PAP_ctr + tot_thk_enters;
unsigned long jump_direct_enters =
tot_enters - ENT_VIA_NODE_ctr;
unsigned long tot_returns =
RET_NEW_ctr + RET_OLD_ctr + RET_UNBOXED_TUP_ctr;
unsigned long tot_returns_of_new = RET_NEW_ctr;
unsigned long con_updates = UPD_CON_IN_NEW_ctr + UPD_CON_IN_PLACE_ctr;
unsigned long pap_updates = UPD_PAP_IN_NEW_ctr + UPD_PAP_IN_PLACE_ctr;
unsigned long tot_updates = UPD_SQUEEZED_ctr + pap_updates + con_updates;
unsigned long tot_new_updates = UPD_NEW_IND_ctr + UPD_NEW_PERM_IND_ctr;
unsigned long tot_old_updates = UPD_OLD_IND_ctr + UPD_OLD_PERM_IND_ctr;
unsigned long tot_gengc_updates = tot_new_updates + tot_old_updates;
FILE *tf = RtsFlags.TickyFlags.tickyFile;
/* If tf = NULL, that means the user passed in stderr for the ticky stats
file. According to a comment in RtsFlags.c, this means to use
debugBelch to print out messages. But this function prints out a lot
of stuff so in order to avoid changing a lot of code, we just dump
the same output to stderr (for now). */
if( tf == NULL )
tf = stderr;
fprintf(tf,"\nSTACK USAGE:\n"); /* NB: some bits are direction sensitive */
fprintf(tf,"\nENTERS: %lu of which %lu (%.1f%%) direct to the entry code\n\t\t [the rest indirected via Node's info ptr]\n",
tot_enters,
jump_direct_enters,
PC(INTAVG(jump_direct_enters,tot_enters)));
fprintf(tf,"%11lu (%5.1f%%) thunks\n",
tot_thk_enters,
PC(INTAVG(tot_thk_enters,tot_enters)));
fprintf(tf, "%11lu (%5.1f%%) data values\n",
tot_con_enters,
PC(INTAVG(tot_con_enters,tot_enters)));
fprintf(tf, "%11lu (%5.1f%%) normal indirections\n",
tot_ind_enters,
PC(INTAVG(tot_ind_enters,tot_enters)));
fprintf(tf,"%11" FMT_Int " (%5.1f%%) permanent indirections\n",
ENT_PERM_IND_ctr,
PC(INTAVG(ENT_PERM_IND_ctr,tot_enters)));
fprintf(tf, "\nFUNCTION ENTRIES: %lu\n", tot_fun_direct_enters);
fprintf(tf, "\nTAIL CALLS: %lu, of which %lu (%.lf%%) were to known functions\n",
tot_tail_calls, tot_known_calls,
PC(INTAVG(tot_known_calls,tot_tail_calls)));
fprintf(tf, "\nSLOW APPLICATIONS: %" FMT_Int " evaluated, %" FMT_Int " unevaluated\n",
SLOW_CALL_ctr, SLOW_CALL_UNEVALD_ctr);
fprintf(tf, "\n");
fprintf(tf, " Too few args Correct args Too many args\n");
fprintf(tf, " FUN %8" FMT_Int " %8" FMT_Int " %8" FMT_Int "\n",
SLOW_CALL_FUN_TOO_FEW_ctr, SLOW_CALL_FUN_CORRECT_ctr, SLOW_CALL_FUN_TOO_MANY_ctr);
fprintf(tf, " PAP %8" FMT_Int " %8" FMT_Int " %8" FMT_Int "\n",
SLOW_CALL_PAP_TOO_FEW_ctr, SLOW_CALL_PAP_CORRECT_ctr, SLOW_CALL_PAP_TOO_MANY_ctr);
fprintf(tf, "\n");
fprintf(tf, "\nRETURNS: %lu\n", tot_returns);
fprintf(tf, "%11lu (%5.1f%%) from entering a new constructor\n\t\t [the rest from entering an existing constructor]\n",
tot_returns_of_new,
PC(INTAVG(tot_returns_of_new,tot_returns)));
fprintf(tf, "\nRET_NEW: %11" FMT_Int ": ", RET_NEW_ctr);
for (i = 0; i < TICKY_BIN_COUNT; i++) {
fprintf(tf, "%5.1f%%", PC(INTAVG(RET_NEW_hst[i], RET_NEW_ctr)));
}
fprintf(tf, "\n");
fprintf(tf, "RET_OLD: %11" FMT_Int ": ", RET_OLD_ctr);
for (i = 0; i < TICKY_BIN_COUNT; i++) {
fprintf(tf, "%5.1f%%", PC(INTAVG(RET_OLD_hst[i], RET_OLD_ctr)));
}
fprintf(tf, "\n");
fprintf(tf, "RET_UNBOXED_TUP: %11" FMT_Int ": ", RET_UNBOXED_TUP_ctr);
for (i = 0; i < TICKY_BIN_COUNT; i++) {
fprintf(tf, "%5.1f%%", PC(INTAVG(RET_UNBOXED_TUP_hst[i],
RET_UNBOXED_TUP_ctr)));
}
fprintf(tf, "\n");
fprintf(tf,"\nUPDATE FRAMES: %" FMT_Int " (%" FMT_Int " omitted from thunks)",
UPDF_PUSHED_ctr,
UPDF_OMITTED_ctr);
fprintf(tf,"\nCATCH FRAMES: %" FMT_Int "", CATCHF_PUSHED_ctr);
if (UPDF_RCC_PUSHED_ctr != 0) {
fprintf(tf,"%11" FMT_Int " restore cost centre frames (%" FMT_Int " omitted)\n",
UPDF_RCC_PUSHED_ctr,
UPDF_RCC_OMITTED_ctr);
}
fprintf(tf,"\nUPDATES: %ld\n", tot_updates);
fprintf(tf, "%11lu (%5.1f%%) data values\n\t\t [%" FMT_Int " in place, %" FMT_Int " allocated new space]\n",
con_updates,
PC(INTAVG(con_updates,tot_updates)),
UPD_CON_IN_PLACE_ctr, UPD_CON_IN_NEW_ctr);
fprintf(tf, "%11lu (%5.1f%%) partial applications\n\t\t [%" FMT_Int " in place, %" FMT_Int " allocated new space]\n",
pap_updates,
PC(INTAVG(pap_updates,tot_updates)),
UPD_PAP_IN_PLACE_ctr, UPD_PAP_IN_NEW_ctr);
fprintf(tf,"%11" FMT_Int " (%5.1f%%) updates by squeezing\n",
UPD_SQUEEZED_ctr,
PC(INTAVG(UPD_SQUEEZED_ctr, tot_updates)));
if (tot_gengc_updates != 0) {
fprintf(tf, "\nNEW GEN UPDATES: %9lu (%5.1f%%)\n",
tot_new_updates,
PC(INTAVG(tot_new_updates,tot_gengc_updates)));
fprintf(tf, "OLD GEN UPDATES: %9lu (%5.1f%%)\n",
tot_old_updates,
PC(INTAVG(tot_old_updates,tot_gengc_updates)));
}
printRegisteredCounterInfo(tf);
fprintf(tf,"\n**************************************************\n");
/* here, we print out all the raw numbers; these are really
more useful when we want to snag them for subsequent
rdb-etc processing. WDP 95/11
*/
#define PR_CTR(ctr) \
do { fprintf(tf,"%11" FMT_Int " " #ctr "\n", ctr); } while(0)
/* COND_PR_CTR takes a boolean; if false then msg is the printname rather than ctr */
#define COND_PR_CTR(ctr,b,msg) \
if (b) { fprintf(tf,"%11" FMT_Int " " #ctr "\n", ctr); } else { fprintf(tf,"%11" FMT_Int " " msg "\n", ctr); }
#define PR_HST(hst,i) \
do { fprintf(tf,"%11" FMT_Int " " #hst "_" #i "\n", hst[i]); } while(0)
ALLOC_HEAP_ctr = (StgInt)ALLOC_HEAP_ctr + (StgInt)ALLOC_RTS_ctr;
ALLOC_HEAP_tot = (StgInt)ALLOC_HEAP_tot + (StgInt)ALLOC_RTS_tot;
PR_CTR(ALLOC_HEAP_ctr);
PR_CTR(ALLOC_HEAP_tot);
PR_CTR(HEAP_CHK_ctr);
PR_CTR(STK_CHK_ctr);
PR_CTR(ALLOC_RTS_ctr);
PR_CTR(ALLOC_RTS_tot);
PR_CTR(ALLOC_FUN_ctr);
PR_CTR(ALLOC_FUN_gds);
PR_CTR(ALLOC_PAP_ctr);
PR_CTR(ALLOC_PAP_adm);
PR_CTR(ALLOC_PAP_gds);
PR_CTR(ALLOC_UP_THK_ctr);
PR_CTR(ALLOC_SE_THK_ctr);
PR_CTR(ALLOC_THK_gds);
PR_CTR(ALLOC_CON_ctr);
PR_CTR(ALLOC_CON_gds);
PR_CTR(ALLOC_PRIM_ctr);
PR_CTR(ALLOC_PRIM_gds);
PR_CTR(ALLOC_PRIM_slp);
PR_CTR(ENT_VIA_NODE_ctr);
PR_CTR(ENT_STATIC_CON_ctr);
PR_CTR(ENT_DYN_CON_ctr);
PR_CTR(ENT_STATIC_FUN_DIRECT_ctr);
PR_CTR(ENT_DYN_FUN_DIRECT_ctr);
PR_CTR(ENT_LNE_ctr);
PR_CTR(ENT_STATIC_IND_ctr);
PR_CTR(ENT_DYN_IND_ctr);
/* The counters ENT_PERM_IND and UPD_{NEW,OLD}_PERM_IND are not dumped
* at the end of execution unless update squeezing is turned off (+RTS
* -Z =RtsFlags.GcFlags.squeezeUpdFrames), as they will be wrong
* otherwise. Why? Because for each update frame squeezed out, we
* count an UPD_NEW_PERM_IND *at GC time* (i.e., too early). And
* further, when we enter the closure that has been updated, we count
* the ENT_PERM_IND, but we then enter the PERM_IND that was built for
* the next update frame below, and so on down the chain until we
* finally reach the value. Thus we count many new ENT_PERM_INDs too
* early.
*
* This of course refers to the -ticky version that uses PERM_INDs to
* determine the number of closures entered 0/1/>1. KSW 1999-04. */
COND_PR_CTR(ENT_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == false,"ENT_PERM_IND_ctr requires +RTS -Z");
PR_CTR(ENT_AP_ctr);
PR_CTR(ENT_PAP_ctr);
PR_CTR(ENT_AP_STACK_ctr);
PR_CTR(ENT_BH_ctr);
PR_CTR(ENT_STATIC_THK_SINGLE_ctr);
PR_CTR(ENT_STATIC_THK_MANY_ctr);
PR_CTR(ENT_DYN_THK_SINGLE_ctr);
PR_CTR(ENT_DYN_THK_MANY_ctr);
PR_CTR(UPD_CAF_BH_UPDATABLE_ctr);
PR_CTR(UPD_CAF_BH_SINGLE_ENTRY_ctr);
PR_CTR(SLOW_CALL_fast_v16_ctr);
PR_CTR(SLOW_CALL_fast_v_ctr);
PR_CTR(SLOW_CALL_fast_f_ctr);
PR_CTR(SLOW_CALL_fast_d_ctr);
PR_CTR(SLOW_CALL_fast_l_ctr);
PR_CTR(SLOW_CALL_fast_n_ctr);
PR_CTR(SLOW_CALL_fast_p_ctr);
PR_CTR(SLOW_CALL_fast_pv_ctr);
PR_CTR(SLOW_CALL_fast_pp_ctr);
PR_CTR(SLOW_CALL_fast_ppv_ctr);
PR_CTR(SLOW_CALL_fast_ppp_ctr);
PR_CTR(SLOW_CALL_fast_pppv_ctr);
PR_CTR(SLOW_CALL_fast_pppp_ctr);
PR_CTR(SLOW_CALL_fast_ppppp_ctr);
PR_CTR(SLOW_CALL_fast_pppppp_ctr);
PR_CTR(VERY_SLOW_CALL_ctr);
PR_CTR(UNKNOWN_CALL_ctr);
PR_CTR(KNOWN_CALL_ctr);
PR_CTR(KNOWN_CALL_TOO_FEW_ARGS_ctr);
PR_CTR(KNOWN_CALL_EXTRA_ARGS_ctr);
PR_CTR(MULTI_CHUNK_SLOW_CALL_ctr);
PR_CTR(MULTI_CHUNK_SLOW_CALL_CHUNKS_ctr);
PR_CTR(SLOW_CALL_ctr);
PR_CTR(SLOW_CALL_FUN_TOO_FEW_ctr);
PR_CTR(SLOW_CALL_FUN_CORRECT_ctr);
PR_CTR(SLOW_CALL_FUN_TOO_MANY_ctr);
PR_CTR(SLOW_CALL_PAP_TOO_FEW_ctr);
PR_CTR(SLOW_CALL_PAP_CORRECT_ctr);
PR_CTR(SLOW_CALL_PAP_TOO_MANY_ctr);
PR_CTR(SLOW_CALL_UNEVALD_ctr);
PR_CTR(RET_NEW_ctr);
PR_CTR(RET_OLD_ctr);
PR_CTR(RET_UNBOXED_TUP_ctr);
#define PR_HST_BINS(hst) for (i = 0; i < TICKY_BIN_COUNT; i++) \
{ fprintf(tf,"%11" FMT_Int " " #hst "_%lu\n", hst[i], i); }
PR_HST_BINS(RET_NEW_hst);
PR_HST_BINS(RET_OLD_hst);
PR_HST_BINS(RET_UNBOXED_TUP_hst);
#undef PR_HST_BINS
PR_CTR(UPDF_OMITTED_ctr);
PR_CTR(UPDF_PUSHED_ctr);
PR_CTR(CATCHF_PUSHED_ctr);
PR_CTR(UPDF_RCC_PUSHED_ctr);
PR_CTR(UPDF_RCC_OMITTED_ctr);
PR_CTR(UPD_SQUEEZED_ctr);
PR_CTR(UPD_CON_IN_NEW_ctr);
PR_CTR(UPD_CON_IN_PLACE_ctr);
PR_CTR(UPD_PAP_IN_NEW_ctr);
PR_CTR(UPD_PAP_IN_PLACE_ctr);
PR_CTR(UPD_NEW_IND_ctr);
/* see comment on ENT_PERM_IND_ctr */
COND_PR_CTR(UPD_NEW_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == false,"UPD_NEW_PERM_IND_ctr requires +RTS -Z");
PR_CTR(UPD_OLD_IND_ctr);
/* see comment on ENT_PERM_IND_ctr */
COND_PR_CTR(UPD_OLD_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == false,"UPD_OLD_PERM_IND_ctr requires +RTS -Z");
PR_CTR(GC_SEL_ABANDONED_ctr);
PR_CTR(GC_SEL_MINOR_ctr);
PR_CTR(GC_SEL_MAJOR_ctr);
PR_CTR(GC_FAILED_PROMOTION_ctr);
}
/* To print out all the registered-counter info: */
static void
printRegisteredCounterInfo (FILE *tf)
{
StgEntCounter *p;
if ( ticky_entry_ctrs != NULL ) {
fprintf(tf,"\nThe following table is explained by https://gitlab.haskell.org/ghc/ghc/wikis/debugging/ticky-ticky\nAll allocation numbers are in bytes.\n");
fprintf(tf,"\n**************************************************\n\n");
}
fprintf(tf, "%11s%11s%11s %-23s %s\n",
"Entries", "Alloc", "Alloc'd", "Non-void Arguments", "STG Name");
fprintf(tf, "--------------------------------------------------------------------------------\n");
/* Function name at the end so it doesn't mess up the tabulation */
for (p = ticky_entry_ctrs; p != NULL; p = p->link) {
fprintf(tf, "%11" FMT_Int "%11" FMT_Int "%11" FMT_Int " %3lu %-20.20s %s",
p->entry_count,
p->allocs,
p->allocd,
(unsigned long)p->arity,
p->arg_kinds,
p->str);
fprintf(tf, "\n");
}
}
void emitTickyCounterDefs()
{
#if defined(TRACING)
postTickyCounterDefs(ticky_entry_ctrs);
#endif
}
void emitTickyCounterSamples()
{
#if defined(TRACING)
postTickyCounterSamples(ticky_entry_ctrs);
#endif
}
#endif /* TICKY_TICKY */
|