1 /* -----------------------------------------------------------------------------
2 * $Id: Ticky.c,v 1.8 1999/06/24 13:10:32 simonmar Exp $
4 * (c) The AQUA project, Glasgow University, 1992-1997
5 * (c) The GHC Team, 1998-1999
7 * Ticky-ticky profiling
8 *-------------------------------------------------------------------------- */
10 #if defined(TICKY_TICKY)
12 #define TICKY_C /* define those variables */
17 /* -----------------------------------------------------------------------------
18 Print out all the counters
19 -------------------------------------------------------------------------- */
21 static void printRegisteredCounterInfo (FILE *); /* fwd decl */
23 #define INTAVG(a,b) ((b == 0) ? 0.0 : ((double) (a) / (double) (b)))
24 #define PC(a) (100.0 * a)
27 StgDouble avg##thing = INTAVG(tot##thing,ctr##thing)
33 unsigned long tot_allocs = /* total number of things allocated */
34 ALLOC_FUN_ctr + ALLOC_SE_THK_ctr + ALLOC_UP_THK_ctr + ALLOC_CON_ctr + ALLOC_TUP_ctr +
37 ALLOC_FMBQ_ctr + ALLOC_FME_ctr + ALLOC_BF_ctr +
39 ALLOC_BH_ctr + ALLOC_UPD_PAP_ctr + ALLOC_PRIM_ctr;
41 unsigned long tot_adm_wds = /* total number of admin words allocated */
42 ALLOC_FUN_adm + ALLOC_THK_adm + ALLOC_CON_adm + ALLOC_TUP_adm +
45 ALLOC_FMBQ_adm + ALLOC_FME_adm + ALLOC_BF_adm +
47 ALLOC_BH_adm + ALLOC_UPD_PAP_adm + ALLOC_PRIM_adm;
49 unsigned long tot_gds_wds = /* total number of words of ``good stuff'' allocated */
50 ALLOC_FUN_gds + ALLOC_THK_gds + ALLOC_CON_gds + ALLOC_TUP_gds +
53 ALLOC_FMBQ_gds + ALLOC_FME_gds + ALLOC_BF_gds +
56 ALLOC_BH_gds + ALLOC_UPD_PAP_gds + ALLOC_PRIM_gds;
58 unsigned long tot_slp_wds = /* total number of ``slop'' words allocated */
59 ALLOC_FUN_slp + ALLOC_THK_slp + ALLOC_CON_slp + ALLOC_TUP_slp +
62 ALLOC_FMBQ_slp + ALLOC_FME_slp + ALLOC_BF_slp +
64 ALLOC_BH_slp + ALLOC_UPD_PAP_slp + ALLOC_PRIM_slp;
66 unsigned long tot_wds = /* total words */
67 tot_adm_wds + tot_gds_wds + tot_slp_wds;
69 unsigned long tot_enters =
70 ENT_CON_ctr + ENT_FUN_DIRECT_ctr +
71 ENT_IND_ctr + ENT_PERM_IND_ctr + ENT_PAP_ctr + ENT_THK_ctr;
72 unsigned long jump_direct_enters =
73 tot_enters - ENT_VIA_NODE_ctr;
74 unsigned long bypass_enters =
76 (ENT_FUN_STD_ctr - UPD_PAP_IN_NEW_ctr);
78 unsigned long tot_returns =
79 RET_NEW_ctr + RET_OLD_ctr + RET_UNBOXED_TUP_ctr +
80 RET_SEMI_IN_HEAP_ctr + RET_SEMI_BY_DEFAULT_ctr/*?*/;
82 unsigned long tot_returns_of_new = RET_NEW_ctr;
84 unsigned long pap_updates = UPD_PAP_IN_NEW_ctr + UPD_PAP_IN_PLACE_ctr;
86 unsigned long tot_updates = UPD_EXISTING_ctr + UPD_SQUEEZED_ctr + pap_updates;
88 unsigned long tot_new_updates = UPD_NEW_IND_ctr + UPD_NEW_PERM_IND_ctr;
89 unsigned long tot_old_updates = UPD_OLD_IND_ctr + UPD_OLD_PERM_IND_ctr;
90 unsigned long tot_gengc_updates = tot_new_updates + tot_old_updates;
92 FILE *tf = RtsFlags.TickyFlags.tickyFile;
94 fprintf(tf,"\n\nALLOCATIONS: %ld (%ld words total: %ld admin, %ld goods, %ld slop)\n",
95 tot_allocs, tot_wds, tot_adm_wds, tot_gds_wds, tot_slp_wds);
96 fprintf(tf,"\t\t\t\ttotal words:\t 2 3 4 5 6+\n");
98 #define ALLOC_HISTO_MAGIC(categ) \
99 (PC(INTAVG(ALLOC_##categ##_hst[0], ALLOC_##categ##_ctr))), \
100 (PC(INTAVG(ALLOC_##categ##_hst[1], ALLOC_##categ##_ctr))), \
101 (PC(INTAVG(ALLOC_##categ##_hst[2], ALLOC_##categ##_ctr))), \
102 (PC(INTAVG(ALLOC_##categ##_hst[3], ALLOC_##categ##_ctr))), \
103 (PC(INTAVG(ALLOC_##categ##_hst[4], ALLOC_##categ##_ctr)))
105 fprintf(tf,"%7ld (%5.1f%%) function values",
107 PC(INTAVG(ALLOC_FUN_ctr, tot_allocs)));
108 if (ALLOC_FUN_ctr != 0)
109 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(FUN));
111 fprintf(tf,"\n%7ld (%5.1f%%) thunks",
112 ALLOC_SE_THK_ctr + ALLOC_UP_THK_ctr,
113 PC(INTAVG(ALLOC_SE_THK_ctr + ALLOC_UP_THK_ctr, tot_allocs)));
115 #define ALLOC_THK_ctr (ALLOC_UP_THK_ctr + ALLOC_SE_THK_ctr)
116 /* hack to make ALLOC_HISTO_MAGIC still work for THK */
117 if ((ALLOC_SE_THK_ctr + ALLOC_UP_THK_ctr) != 0)
118 fprintf(tf,"\t\t\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(THK));
121 fprintf(tf,"\n%7ld (%5.1f%%) data values",
123 PC(INTAVG(ALLOC_CON_ctr, tot_allocs)));
124 if (ALLOC_CON_ctr != 0)
125 fprintf(tf,"\t\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(CON));
127 fprintf(tf,"\n%7ld (%5.1f%%) big tuples",
129 PC(INTAVG(ALLOC_TUP_ctr, tot_allocs)));
130 if (ALLOC_TUP_ctr != 0)
131 fprintf(tf,"\t\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(TUP));
133 fprintf(tf,"\n%7ld (%5.1f%%) black holes",
135 PC(INTAVG(ALLOC_BH_ctr, tot_allocs)));
136 if (ALLOC_BH_ctr != 0)
137 fprintf(tf,"\t\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(BH));
139 fprintf(tf,"\n%7ld (%5.1f%%) prim things",
141 PC(INTAVG(ALLOC_PRIM_ctr, tot_allocs)));
142 if (ALLOC_PRIM_ctr != 0)
143 fprintf(tf,"\t\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(PRIM));
145 fprintf(tf,"\n%7ld (%5.1f%%) partial applications",
147 PC(INTAVG(ALLOC_UPD_PAP_ctr, tot_allocs)));
148 if (ALLOC_UPD_PAP_ctr != 0)
149 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(UPD_PAP));
151 fprintf(tf,"\n%7ld (%5.1f%%) thread state objects",
153 PC(INTAVG(ALLOC_TSO_ctr, tot_allocs)));
154 if (ALLOC_TSO_ctr != 0)
155 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(TSO));
157 fprintf(tf,"\n%7ld (%5.1f%%) thread state objects",
159 PC(INTAVG(ALLOC_FMBQ_ctr, tot_allocs)));
160 if (ALLOC_FMBQ_ctr != 0)
161 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(FMBQ));
162 fprintf(tf,"\n%7ld (%5.1f%%) thread state objects",
164 PC(INTAVG(ALLOC_FME_ctr, tot_allocs)));
165 if (ALLOC_FME_ctr != 0)
166 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(FME));
167 fprintf(tf,"\n%7ld (%5.1f%%) thread state objects",
169 PC(INTAVG(ALLOC_BF_ctr, tot_allocs)));
170 if (ALLOC_BF_ctr != 0)
171 fprintf(tf,"\t\t%5.1f %5.1f %5.1f %5.1f %5.1f", ALLOC_HISTO_MAGIC(BF));
175 fprintf(tf,"\nTotal storage-manager allocations: %ld (%ld words)\n\t[%ld words lost to speculative heap-checks]\n", ALLOC_HEAP_ctr, ALLOC_HEAP_tot, ALLOC_HEAP_tot - tot_wds);
177 fprintf(tf,"\nSTACK USAGE:\n"); /* NB: some bits are direction sensitive */
179 fprintf(tf,"\nENTERS: %ld of which %ld (%.1f%%) direct to the entry code\n\t\t [the rest indirected via Node's info ptr]\n",
182 PC(INTAVG(jump_direct_enters,tot_enters)));
183 fprintf(tf,"%7ld (%5.1f%%) thunks\n",
185 PC(INTAVG(ENT_THK_ctr,tot_enters)));
186 fprintf(tf,"%7ld (%5.1f%%) data values\n",
188 PC(INTAVG(ENT_CON_ctr,tot_enters)));
189 fprintf(tf,"%7ld (%5.1f%%) function values\n\t\t [of which %ld (%.1f%%) bypassed arg-satisfaction chk]\n",
191 PC(INTAVG(ENT_FUN_DIRECT_ctr,tot_enters)),
193 PC(INTAVG(bypass_enters,ENT_FUN_DIRECT_ctr)));
194 fprintf(tf,"%7ld (%5.1f%%) partial applications\n",
196 PC(INTAVG(ENT_PAP_ctr,tot_enters)));
197 fprintf(tf,"%7ld (%5.1f%%) normal indirections\n",
199 PC(INTAVG(ENT_IND_ctr,tot_enters)));
200 fprintf(tf,"%7ld (%5.1f%%) permanent indirections\n",
202 PC(INTAVG(ENT_PERM_IND_ctr,tot_enters)));
204 fprintf(tf,"\nRETURNS: %ld\n", tot_returns);
205 fprintf(tf,"%7ld (%5.1f%%) from entering a new constructor\n\t\t [the rest from entering an existing constructor]\n",
207 PC(INTAVG(tot_returns_of_new,tot_returns)));
208 fprintf(tf,"%7ld (%5.1f%%) vectored [the rest unvectored]\n",
210 PC(INTAVG(VEC_RETURN_ctr,tot_returns)));
212 fprintf(tf, "\nRET_NEW: %7ld: ", RET_NEW_ctr);
213 for (i = 0; i < 9; i++) { fprintf(tf, "%5.1f%%",
214 PC(INTAVG(RET_NEW_hst[i],RET_NEW_ctr))); }
216 fprintf(tf, "RET_OLD: %7ld: ", RET_OLD_ctr);
217 for (i = 0; i < 9; i++) { fprintf(tf, "%5.1f%%",
218 PC(INTAVG(RET_OLD_hst[i],RET_OLD_ctr))); }
220 fprintf(tf, "RET_UNBOXED_TUP: %7ld: ", RET_UNBOXED_TUP_ctr);
221 for (i = 0; i < 9; i++) { fprintf(tf, "%5.1f%%",
222 PC(INTAVG(RET_UNBOXED_TUP_hst[i],
223 RET_UNBOXED_TUP_ctr))); }
225 fprintf(tf, "\nRET_VEC_RETURN : %7ld: ", VEC_RETURN_ctr);
226 for (i = 0; i < 9; i++) { fprintf(tf, "%5.1f%%",
227 PC(INTAVG(RET_VEC_RETURN_hst[i],VEC_RETURN_ctr))); }
230 fprintf(tf,"\nUPDATE FRAMES: %ld (%ld omitted from thunks)",
234 fprintf(tf,"\nSEQ FRAMES: %ld", SEQF_PUSHED_ctr);
236 fprintf(tf,"\nCATCH FRAMES: %ld", CATCHF_PUSHED_ctr);
238 if (UPDF_RCC_PUSHED_ctr != 0)
239 fprintf(tf,"%7ld restore cost centre frames (%ld omitted)\n",
241 UPDF_RCC_OMITTED_ctr);
243 fprintf(tf,"\nUPDATES: %ld\n", tot_updates);
244 fprintf(tf,"%7ld (%5.1f%%) data values\n",
246 PC(INTAVG(UPD_CON_IN_NEW_ctr,tot_updates)));
247 fprintf(tf,"%7ld (%5.1f%%) partial applications\n\t\t [%ld in place, %ld allocated new space]\n",
249 PC(INTAVG(pap_updates,tot_updates)),
250 UPD_PAP_IN_PLACE_ctr, UPD_PAP_IN_NEW_ctr);
251 fprintf(tf,"%7ld (%5.1f%%) updates to existing heap objects (%ld by squeezing)\n",
252 UPD_EXISTING_ctr + UPD_SQUEEZED_ctr,
253 PC(INTAVG(UPD_EXISTING_ctr + UPD_SQUEEZED_ctr, tot_updates)),
256 fprintf(tf, "UPD_CON_IN_NEW: %7ld: ", UPD_CON_IN_NEW_ctr);
257 for (i = 0; i < 9; i++) { fprintf(tf, "%7ld", UPD_CON_IN_NEW_hst[i]); }
259 fprintf(tf, "UPD_PAP_IN_NEW: %7ld: ", UPD_PAP_IN_NEW_ctr);
260 for (i = 0; i < 9; i++) { fprintf(tf, "%7ld", UPD_PAP_IN_NEW_hst[i]); }
263 if (tot_gengc_updates != 0) {
264 fprintf(tf,"\nNEW GEN UPDATES: %ld (%5.1f%%)\n",
266 PC(INTAVG(tot_new_updates,tot_gengc_updates)));
267 fprintf(tf,"\nOLD GEN UPDATES: %ld (%5.1f%%)\n",
269 PC(INTAVG(tot_old_updates,tot_gengc_updates)));
272 fprintf(tf,"\nTotal bytes copied during GC: %ld\n",
273 GC_WORDS_COPIED_ctr * sizeof(W_));
275 printRegisteredCounterInfo(tf);
277 fprintf(tf,"\n**************************************************\n");
279 /* here, we print out all the raw numbers; these are really
280 more useful when we want to snag them for subsequent
281 rdb-etc processing. WDP 95/11
284 #define PR_CTR(ctr) \
285 do { fprintf(tf,"%7ld " #ctr "\n", ctr); } while(0)
286 /* COND_PR_CTR takes a boolean; if false then msg is the printname rather than ctr */
287 #define COND_PR_CTR(ctr,b,msg) \
288 if (b) { fprintf(tf,"%7ld " #ctr "\n", ctr); } else { fprintf(tf,"%7ld " msg "\n", ctr); }
289 #define PR_HST(hst,i) \
290 do { fprintf(tf,"%7ld " #hst "_" #i "\n", hst[i]); } while(0)
292 PR_CTR(ALLOC_HEAP_ctr);
293 PR_CTR(ALLOC_HEAP_tot);
295 PR_CTR(ALLOC_FUN_ctr);
296 PR_CTR(ALLOC_FUN_adm);
297 PR_CTR(ALLOC_FUN_gds);
298 PR_CTR(ALLOC_FUN_slp);
299 PR_HST(ALLOC_FUN_hst,0);
300 PR_HST(ALLOC_FUN_hst,1);
301 PR_HST(ALLOC_FUN_hst,2);
302 PR_HST(ALLOC_FUN_hst,3);
303 PR_HST(ALLOC_FUN_hst,4);
304 PR_CTR(ALLOC_UP_THK_ctr);
305 PR_CTR(ALLOC_SE_THK_ctr);
306 PR_CTR(ALLOC_THK_adm);
307 PR_CTR(ALLOC_THK_gds);
308 PR_CTR(ALLOC_THK_slp);
309 PR_HST(ALLOC_THK_hst,0);
310 PR_HST(ALLOC_THK_hst,1);
311 PR_HST(ALLOC_THK_hst,2);
312 PR_HST(ALLOC_THK_hst,3);
313 PR_HST(ALLOC_THK_hst,4);
314 PR_CTR(ALLOC_CON_ctr);
315 PR_CTR(ALLOC_CON_adm);
316 PR_CTR(ALLOC_CON_gds);
317 PR_CTR(ALLOC_CON_slp);
318 PR_HST(ALLOC_CON_hst,0);
319 PR_HST(ALLOC_CON_hst,1);
320 PR_HST(ALLOC_CON_hst,2);
321 PR_HST(ALLOC_CON_hst,3);
322 PR_HST(ALLOC_CON_hst,4);
323 PR_CTR(ALLOC_TUP_ctr);
324 PR_CTR(ALLOC_TUP_adm);
325 PR_CTR(ALLOC_TUP_gds);
326 PR_CTR(ALLOC_TUP_slp);
327 PR_HST(ALLOC_TUP_hst,0);
328 PR_HST(ALLOC_TUP_hst,1);
329 PR_HST(ALLOC_TUP_hst,2);
330 PR_HST(ALLOC_TUP_hst,3);
331 PR_HST(ALLOC_TUP_hst,4);
332 PR_CTR(ALLOC_BH_ctr);
333 PR_CTR(ALLOC_BH_adm);
334 PR_CTR(ALLOC_BH_gds);
335 PR_CTR(ALLOC_BH_slp);
336 PR_HST(ALLOC_BH_hst,0);
337 PR_HST(ALLOC_BH_hst,1);
338 PR_HST(ALLOC_BH_hst,2);
339 PR_HST(ALLOC_BH_hst,3);
340 PR_HST(ALLOC_BH_hst,4);
341 PR_CTR(ALLOC_PRIM_ctr);
342 PR_CTR(ALLOC_PRIM_adm);
343 PR_CTR(ALLOC_PRIM_gds);
344 PR_CTR(ALLOC_PRIM_slp);
345 PR_HST(ALLOC_PRIM_hst,0);
346 PR_HST(ALLOC_PRIM_hst,1);
347 PR_HST(ALLOC_PRIM_hst,2);
348 PR_HST(ALLOC_PRIM_hst,3);
349 PR_HST(ALLOC_PRIM_hst,4);
350 PR_CTR(ALLOC_UPD_PAP_ctr);
351 PR_CTR(ALLOC_UPD_PAP_adm);
352 PR_CTR(ALLOC_UPD_PAP_gds);
353 PR_CTR(ALLOC_UPD_PAP_slp);
354 PR_HST(ALLOC_UPD_PAP_hst,0);
355 PR_HST(ALLOC_UPD_PAP_hst,1);
356 PR_HST(ALLOC_UPD_PAP_hst,2);
357 PR_HST(ALLOC_UPD_PAP_hst,3);
358 PR_HST(ALLOC_UPD_PAP_hst,4);
360 PR_CTR(ALLOC_TSO_ctr);
361 PR_CTR(ALLOC_TSO_adm);
362 PR_CTR(ALLOC_TSO_gds);
363 PR_CTR(ALLOC_TSO_slp);
364 PR_HST(ALLOC_TSO_hst,0);
365 PR_HST(ALLOC_TSO_hst,1);
366 PR_HST(ALLOC_TSO_hst,2);
367 PR_HST(ALLOC_TSO_hst,3);
368 PR_HST(ALLOC_TSO_hst,4);
371 PR_CTR(ALLOC_FMBQ_ctr);
372 PR_CTR(ALLOC_FMBQ_adm);
373 PR_CTR(ALLOC_FMBQ_gds);
374 PR_CTR(ALLOC_FMBQ_slp);
375 PR_HST(ALLOC_FMBQ_hst,0);
376 PR_HST(ALLOC_FMBQ_hst,1);
377 PR_HST(ALLOC_FMBQ_hst,2);
378 PR_HST(ALLOC_FMBQ_hst,3);
379 PR_HST(ALLOC_FMBQ_hst,4);
380 PR_CTR(ALLOC_FME_ctr);
381 PR_CTR(ALLOC_FME_adm);
382 PR_CTR(ALLOC_FME_gds);
383 PR_CTR(ALLOC_FME_slp);
384 PR_HST(ALLOC_FME_hst,0);
385 PR_HST(ALLOC_FME_hst,1);
386 PR_HST(ALLOC_FME_hst,2);
387 PR_HST(ALLOC_FME_hst,3);
388 PR_HST(ALLOC_FME_hst,4);
389 PR_CTR(ALLOC_BF_ctr);
390 PR_CTR(ALLOC_BF_adm);
391 PR_CTR(ALLOC_BF_gds);
392 PR_CTR(ALLOC_BF_slp);
393 PR_HST(ALLOC_BF_hst,0);
394 PR_HST(ALLOC_BF_hst,1);
395 PR_HST(ALLOC_BF_hst,2);
396 PR_HST(ALLOC_BF_hst,3);
397 PR_HST(ALLOC_BF_hst,4);
400 PR_CTR(ENT_VIA_NODE_ctr);
402 PR_CTR(ENT_FUN_STD_ctr);
403 PR_CTR(ENT_FUN_DIRECT_ctr);
406 /* The counters ENT_PERM_IND and UPD_{NEW,OLD}_PERM_IND are not dumped
407 * at the end of execution unless update squeezing is turned off (+RTS
408 * -Z =RtsFlags.GcFlags.squeezeUpdFrames), as they will be wrong
409 * otherwise. Why? Because for each update frame squeezed out, we
410 * count an UPD_NEW_PERM_IND *at GC time* (i.e., too early). And
411 * further, when we enter the closure that has been updated, we count
412 * the ENT_PERM_IND, but we then enter the PERM_IND that was built for
413 * the next update frame below, and so on down the chain until we
414 * finally reach the value. Thus we count many new ENT_PERM_INDs too
417 * This of course refers to the -ticky version that uses PERM_INDs to
418 * determine the number of closures entered 0/1/>1. KSW 1999-04. */
419 COND_PR_CTR(ENT_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == rtsTrue,"E!NT_PERM_IND_ctr requires +RTS -Z");
422 PR_CTR(ENT_AP_UPD_ctr);
428 PR_CTR(RET_UNBOXED_TUP_ctr);
429 PR_CTR(RET_SEMI_BY_DEFAULT_ctr);
430 PR_CTR(RET_SEMI_IN_HEAP_ctr);
431 PR_CTR(RET_SEMI_FAILED_IND_ctr);
432 PR_CTR(RET_SEMI_FAILED_UNEVAL_ctr);
433 PR_CTR(VEC_RETURN_ctr);
435 PR_HST(RET_NEW_hst,0);
436 PR_HST(RET_NEW_hst,1);
437 PR_HST(RET_NEW_hst,2);
438 PR_HST(RET_NEW_hst,3);
439 PR_HST(RET_NEW_hst,4);
440 PR_HST(RET_NEW_hst,5);
441 PR_HST(RET_NEW_hst,6);
442 PR_HST(RET_NEW_hst,7);
443 PR_HST(RET_NEW_hst,8);
444 PR_HST(RET_OLD_hst,0);
445 PR_HST(RET_OLD_hst,1);
446 PR_HST(RET_OLD_hst,2);
447 PR_HST(RET_OLD_hst,3);
448 PR_HST(RET_OLD_hst,4);
449 PR_HST(RET_OLD_hst,5);
450 PR_HST(RET_OLD_hst,6);
451 PR_HST(RET_OLD_hst,7);
452 PR_HST(RET_OLD_hst,8);
453 PR_HST(RET_UNBOXED_TUP_hst,0);
454 PR_HST(RET_UNBOXED_TUP_hst,1);
455 PR_HST(RET_UNBOXED_TUP_hst,2);
456 PR_HST(RET_UNBOXED_TUP_hst,3);
457 PR_HST(RET_UNBOXED_TUP_hst,4);
458 PR_HST(RET_UNBOXED_TUP_hst,5);
459 PR_HST(RET_UNBOXED_TUP_hst,6);
460 PR_HST(RET_UNBOXED_TUP_hst,7);
461 PR_HST(RET_UNBOXED_TUP_hst,8);
462 PR_HST(RET_SEMI_IN_HEAP_hst,0);
463 PR_HST(RET_SEMI_IN_HEAP_hst,1);
464 PR_HST(RET_SEMI_IN_HEAP_hst,2);
465 PR_HST(RET_SEMI_IN_HEAP_hst,3);
466 PR_HST(RET_SEMI_IN_HEAP_hst,4);
467 PR_HST(RET_SEMI_IN_HEAP_hst,5);
468 PR_HST(RET_SEMI_IN_HEAP_hst,6);
469 PR_HST(RET_SEMI_IN_HEAP_hst,7);
470 PR_HST(RET_SEMI_IN_HEAP_hst,8);
471 PR_HST(RET_VEC_RETURN_hst,0);
472 PR_HST(RET_VEC_RETURN_hst,1);
473 PR_HST(RET_VEC_RETURN_hst,2);
474 PR_HST(RET_VEC_RETURN_hst,3);
475 PR_HST(RET_VEC_RETURN_hst,4);
476 PR_HST(RET_VEC_RETURN_hst,5);
477 PR_HST(RET_VEC_RETURN_hst,6);
478 PR_HST(RET_VEC_RETURN_hst,7);
479 PR_HST(RET_VEC_RETURN_hst,8);
481 PR_CTR(RET_SEMI_loads_avoided);
483 PR_CTR(UPDF_OMITTED_ctr);
484 PR_CTR(UPDF_PUSHED_ctr);
485 PR_CTR(SEQF_PUSHED_ctr);
486 PR_CTR(CATCHF_PUSHED_ctr);
488 PR_CTR(UPDF_RCC_PUSHED_ctr);
489 PR_CTR(UPDF_RCC_OMITTED_ctr);
491 PR_CTR(UPD_EXISTING_ctr);
492 PR_CTR(UPD_SQUEEZED_ctr);
493 PR_CTR(UPD_CON_IN_NEW_ctr);
494 PR_CTR(UPD_PAP_IN_NEW_ctr);
495 PR_CTR(UPD_PAP_IN_PLACE_ctr);
497 PR_CTR(UPD_BH_UPDATABLE_ctr);
498 PR_CTR(UPD_BH_SINGLE_ENTRY_ctr);
499 PR_CTR(UPD_CAF_BH_UPDATABLE_ctr);
500 PR_CTR(UPD_CAF_BH_SINGLE_ENTRY_ctr);
502 PR_HST(UPD_CON_IN_NEW_hst,0);
503 PR_HST(UPD_CON_IN_NEW_hst,1);
504 PR_HST(UPD_CON_IN_NEW_hst,2);
505 PR_HST(UPD_CON_IN_NEW_hst,3);
506 PR_HST(UPD_CON_IN_NEW_hst,4);
507 PR_HST(UPD_CON_IN_NEW_hst,5);
508 PR_HST(UPD_CON_IN_NEW_hst,6);
509 PR_HST(UPD_CON_IN_NEW_hst,7);
510 PR_HST(UPD_CON_IN_NEW_hst,8);
511 PR_HST(UPD_PAP_IN_NEW_hst,0);
512 PR_HST(UPD_PAP_IN_NEW_hst,1);
513 PR_HST(UPD_PAP_IN_NEW_hst,2);
514 PR_HST(UPD_PAP_IN_NEW_hst,3);
515 PR_HST(UPD_PAP_IN_NEW_hst,4);
516 PR_HST(UPD_PAP_IN_NEW_hst,5);
517 PR_HST(UPD_PAP_IN_NEW_hst,6);
518 PR_HST(UPD_PAP_IN_NEW_hst,7);
519 PR_HST(UPD_PAP_IN_NEW_hst,8);
521 PR_CTR(UPD_NEW_IND_ctr);
522 /* see comment on ENT_PERM_IND_ctr */
523 COND_PR_CTR(UPD_NEW_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == rtsTrue,"U!PD_NEW_PERM_IND_ctr requires +RTS -Z");
524 PR_CTR(UPD_OLD_IND_ctr);
525 /* see comment on ENT_PERM_IND_ctr */
526 COND_PR_CTR(UPD_OLD_PERM_IND_ctr,RtsFlags.GcFlags.squeezeUpdFrames == rtsTrue,"U!PD_OLD_PERM_IND_ctr requires +RTS -Z");
528 PR_CTR(GC_SEL_ABANDONED_ctr);
529 PR_CTR(GC_SEL_MINOR_ctr);
530 PR_CTR(GC_SEL_MAJOR_ctr);
531 PR_CTR(GC_FAILED_PROMOTION_ctr);
532 PR_CTR(GC_WORDS_COPIED_ctr);
535 /* Data structure used in ``registering'' one of these counters. */
537 struct ent_counter *ticky_entry_ctrs = NULL; /* root of list of them */
539 /* To print out all the registered-counter info: */
542 printRegisteredCounterInfo (FILE *tf)
544 struct ent_counter *p;
546 if ( ticky_entry_ctrs != NULL ) {
547 fprintf(tf,"\n**************************************************\n");
550 for (p = ticky_entry_ctrs; p != NULL; p = p->link) {
551 fprintf(tf, "%-40s%u\t%u\t%-16s%ld",
563 #endif /* TICKY_TICKY */