#include #include "../../../h/em_spec.h" #include "../share/types.h" #include "../share/debug.h" #include "../share/lset.h" #include "cs.h" #include "cs_aux.h" #include "cs_avail.h" #include "cs_entity.h" #ifdef VERBOSE extern char em_mnem[]; /* The mnemonics of the EM instructions. */ STATIC showinstr(lnp) line_p lnp; { /* Makes the instruction in `lnp' human readable. Only lines that * can occur in expressions that are going to be eliminated are * properly handled. */ if (INSTR(lnp) < sp_fmnem && INSTR(lnp) > sp_lmnem) { fprintf(stderr,"*** ?\n"); return; } fprintf(stderr,"%s", &em_mnem[4 * (INSTR(lnp)-sp_fmnem)]); switch (TYPE(lnp)) { case OPNO: break; case OPSHORT: fprintf(stderr," %d", SHORT(lnp)); break; case OPOBJECT: fprintf(stderr," %d", OBJ(lnp)->o_id); break; case OPOFFSET: fprintf(stderr," %D", OFFSET(lnp)); break; default: fprintf(stderr," ?"); break; } fprintf(stderr,"\n"); } SHOWOCCUR(ocp) occur_p ocp; { /* Shows all instructions in an occurrence. */ register line_p lnp, next; if (verbose_flag) { for (lnp = ocp->oc_lfirst; lnp != (line_p) 0; lnp = next) { next = lnp == ocp->oc_llast ? (line_p) 0 : lnp->l_next; showinstr(lnp); } } } #endif #ifdef TRACE SHOWAVAIL(avp) avail_p avp; { /* Shows an available expression. */ showinstr(avp->av_found); fprintf(stderr,"result %d,", avp->av_result); fprintf(stderr,"occurred %d times\n", Lnrelems(avp->av_occurs) + 1); } OUTAVAILS() { register avail_p ravp; fprintf(stderr,"AVAILABLE EXPRESSIONS\n"); for (ravp = avails; ravp != (avail_p) 0; ravp = ravp->av_before) { SHOWAVAIL(ravp); fprintf(stderr,"\n"); } } STATIC char *enkinds[] = { "constant", "local", "external", "indirect", "offsetted", "address of local", "address of external", "address of offsetted", "address of local base", "address of argument base", "procedure", "floating zero", "array element", "local base", "heap pointer", "ignore mask" }; OUTENTITIES() { register Lindex i; fprintf(stderr,"ENTITIES\n"); for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) { register entity_p rep = en_elem(i); fprintf(stderr,"%s,", enkinds[rep->en_kind]); fprintf(stderr,"size %D,", rep->en_size); fprintf(stderr,"valno %d,", rep->en_vn); switch (rep->en_kind) { case ENCONST: fprintf(stderr,"$%D\n", rep->en_val); break; case ENLOCAL: case ENALOCAL: fprintf(stderr,"%D(LB)\n", rep->en_loc); break; case ENINDIR: fprintf(stderr,"*%d\n", rep->en_ind); break; case ENOFFSETTED: case ENAOFFSETTED: fprintf(stderr,"%D(%d)\n", rep->en_off, rep->en_base); break; case ENALOCBASE: case ENAARGBASE: fprintf(stderr,"%D levels\n", rep->en_levels); break; case ENARRELEM: fprintf(stderr,"%d[%d], ",rep->en_arbase,rep->en_index); fprintf(stderr,"rom at %d\n", rep->en_adesc); break; } fprintf(stderr,"\n"); } } /* XXX */ OUTTRACE(s, n) char *s; { fprintf(stderr,"trace: "); fprintf(stderr,s, n); fprintf(stderr,"\n"); } #endif TRACE