/* $Header$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* S T R E N G T H R E D U C T I O N * * S R _ C A N D . C */ #include "../share/types.h" #include "../../../h/em_mnem.h" #include "../../../h/em_pseu.h" #include "../share/lset.h" #include "../share/cset.h" #include "../share/debug.h" #include "../share/global.h" #include "../share/map.h" #include "../share/aux.h" #include "sr.h" #include "sr_aux.h" #include "sr_cand.h" /* A candidate induction variable of a loop (hereafter called candidate) is a * local variable (of the current procedure) that is assigned a value * precisely once within the loop. Furthermore, this assignment must * take place in a firm block of the loop. * We determine those locals that are assigned precisely once, within * a firm block; * * We represent a local variable via an instruction that references it, * e.g. LOL -6 represents the local variable at offset -6 with size=wordsize. * We keep track of two sets: * cand - the set of all candidate variables * dismiss - a set of variables that may not be made a candidate * (because they are assigned more than once, or because * they are assigned outside a firm block). * Only local variables for which a register message is given are considered. */ STATIC lset cand, /* set of candidates */ dism; /* set of dismissed variables */ #define ALL_LINES(lnp,list) lnp = list; lnp != (line_p) 0; lnp = lnp->l_next STATIC un_cand(lnp) line_p lnp; { /* remove the variable stored into by lnp from the list of * candidates (if it was there anyway). */ Lindex i, next; for (i = Lfirst(cand); i != (Lindex) 0; i = next) { next = Lnext(i,cand); if (same_local(lnp,Lelem(i))) { OUTTRACE("remove candidate",0); Lremove(Lelem(i), &cand); } } } STATIC bool is_cand(lnp) line_p lnp; { /* see if the variable stored into by lnp is a candate */ Lindex i; for (i = Lfirst(cand); i != (Lindex) 0; i = Lnext(i,cand)) { if (same_local(lnp,Lelem(i))) { return TRUE; } } return FALSE; } STATIC make_cand(lnp) line_p lnp; { /* make the variable stored into by lnp a candidate */ OUTTRACE("add a new candidate",0); Ladd(lnp,&cand); } STATIC do_dismiss(lnp) line_p lnp; { Ladd(lnp,&dism); } STATIC dismiss(lnp) line_p lnp; { /* The variable referenced by lnp is turned definitely into * a non-candidate. */ un_cand(lnp); /* remove it from the candidate set, * if it was there in the first place. */ do_dismiss(lnp); /* add it to the set of dismissed variables */ } STATIC bool not_dismissed(lnp) line_p lnp; { Lindex i; for (i = Lfirst(dism); i != (Lindex) 0; i = Lnext(i,dism)) { if (same_local(Lelem(i),lnp)) { return FALSE; /* variable was dismissed */ } } return TRUE; } STATIC try_cand(lnp,b) line_p lnp; bblock_p b; { /* If the variable stored into by lnp was not already a candidate * and was not dismissed, then it is made a candidate * (unless the assignment takes places in a block that is not firm). */ if (!is_regvar(off_set(lnp))) return; if (is_cand(lnp) || !IS_FIRM(b)) { dismiss(lnp); } else { if (not_dismissed(lnp)) { make_cand(lnp); } } } candidates(lp,cand_out,vars_out) loop_p lp; lset *cand_out, *vars_out; { /* Find the candidate induction variables. */ bblock_p b; line_p lnp; Lindex i; OUTTRACE("find candidates of loop %d",lp->lp_id); cand = Lempty_set(); dism = Lempty_set(); for (i = Lfirst(lp->LP_BLOCKS); i != (Lindex) 0; i = Lnext(i,lp->LP_BLOCKS)) { b = (bblock_p) Lelem(i); for ( ALL_LINES(lnp, b->b_start)) { OUTTRACE("inspect instruction %d",INSTR(lnp)); switch(INSTR(lnp)) { case op_stl: case op_inl: case op_del: OUTTRACE("it's a store local",0); try_cand(lnp,b); break; case op_zrl: OUTTRACE("it's a destroy local",0); if (is_regvar(off_set(lnp))) { dismiss(lnp); } break; } } } *cand_out = cand; *vars_out = dism; }