/* * (c) copyright 1983 by the Vrije Universiteit, Amsterdam, The Netherlands. * * This product is part of the Amsterdam Compiler Kit. * * Permission to use, sell, duplicate or disclose this software must be * obtained in writing. Requests for such permissions may be sent to * * Dr. Andrew S. Tanenbaum * Wiskundig Seminarium * Vrije Universiteit * Postbox 7161 * 1007 MC Amsterdam * The Netherlands * */ #include "ass00.h" #include "assex.h" #include "ip_spec.h" #ifndef NORCSID static char rcs_id[] = "$Header$" ; #endif #ifdef DUMP static char *typestr[] = {"missing","const","procname","glosym","locsym","glosym+off","pseudo"}; static char *labstr[] = {"EMPTY","no","yes","seen","notpresent"}; static char formstr[] = { 'm','s','-','1','2','4','8' }; static char *r_data[] = { "null","glob","head","loc","adr" }; cons_t nicepr(typ,ap) addr_u *ap; char typ; { register proc_t *pl; switch (typ) { case CONST: return(ap->ad_i); case LOCSYM: return(int_cast ap->ad_lp); case GLOOFF: return(ap->ad_df.df_gp - mglobs); case GLOSYM: return(ap->ad_gp - mglobs); case PROCNAME: pl = ap->ad_pp;; if (pl->p_status&EXT) return((pl-xprocs)+1000); else return(pl-mprocs); default: if ( typ>=VALLOW && typ<=VALHIGH ) return VAL1(typ) ; break ; } return(0); } char *pflags(flg) int flg ; { static char res[9] ; register char *cp ; cp=res ; if ( flg&OPESC ) *cp++ = 'e' ; switch ( flg&OPRANGE ) { case OP_NEG : *cp++ = 'N' ; break ; case OP_POS : *cp++ = 'P' ; break ; } if ( flg&OPWORD ) *cp++ = 'w' ; if ( flg&OPNZ ) *cp++ = 'o' ; *cp++ = formstr[flg&OPTYPE] ; *cp++ = 0 ; return res ; } dump(n) { register glob_t *gb; register line_t *ln; register locl_t *lbp; register locl_t *lbhead; proc_t *pl; int i; int insno; extern char em_mnem[][4] ; if (d_flag==0) return; if ( (n==0 && d_flag) || (n==4 && d_flag>=2) || (n<100 && d_flag>=3) ) { printf("\nEM1-assembler ***** pass %1d complete:\n",n); printf("current size %ld\n",prog_size) ; printf(" %9.9s%9.9s%14.14s%8.8s%8.8s\n", "instr_nr", "type1","addr1","length","format"); for (ln = pstate.s_fline ; ln ; ln = ln->l_next, n>=3 || n==0 ? i++ : i-- ) { insno = ctrunc(ln->instr_num) ; if ( insno==sp_fpseu ) { i= ln->ad.ad_ln.ln_first ; continue ; } printf("%4d ",i) ; switch(insno) { default: printf( " %3.3s",em_mnem[insno]) ; break ; case sp_ilb1: printf("l "); break; case sp_fpseu: printf("p "); break; } printf(" %9.9s%14ld", typestr[ln->type1type1 : CONST], nicepr(ln->type1,&ln->ad)) ; if ( ln->opoff != NO_OFF ) printf("%5d %.6s", oplength(*(ln->opoff)),pflags(*(ln->opoff))); printf("\n"); } printf("\n %8s%8s%8s%8s%8s\n","labnum","labid","minval","maxval", "defined"); for ( i = 0, lbhead= *pstate.s_locl ; il_defined!=EMPTY ) printf("%4d\n",i); for (lbp= lbhead; lbp != lbp_cast 0; lbp= lbp->l_chain) { if (lbp->l_defined!=EMPTY) printf(" %8d%8d%8d%8d %-s\n", lbp->l_hinum*LOCLABSIZE + i, int_cast lbp,lbp->l_min, lbp->l_max, labstr[lbp->l_defined]); } } } if ( ( (n==0 || n>=100) && d_flag) || (n<=1 && d_flag>=2) ) { if ( n==0 || n==100 ) { printf("File %s",curfile) ; if ( archmode ) printf("(%.14s)",archhdr.ar_name); printf(" :\n\n") ; } printf("Local data labels:\n"); printf( "\n\t%8.8s %8.8s %8.8s\n","g_name","g_status","g_addr"); for (gb = mglobs,i = 0;gb < &mglobs[oursize->n_mlab]; gb++, i++) if (gb->g_name[0] != 0) { printf("%5d\t%8.6s",i,gb->g_name); printf(" %8o %8ld\n",gb->g_status,gb->g_val.g_addr); } printf("\n\nGlobal data labels\n"); printf("\n\t%8.8s %8.8s %8.8s\n", "g_name","g_status","g_addr"); for (gb = xglobs,i = 0;gb < &xglobs[oursize->n_glab]; gb++, i++) if (gb->g_name[0] != 0) { printf("%5d\t%8.6s",i,gb->g_name); printf(" %8o %8ld\n",gb->g_status,gb->g_val.g_addr); } printf("\n\nLocal procedures\n"); printf("\n\t%8.8s%8s%8s\t%8s%8s\n", "name","status","num","off","locals"); for (pl=mprocs;pl< &mprocs[oursize->n_mproc]; pl++) if (pl->p_name[0]) { printf("%4d\t%-8s%8o%8d", pl-mprocs,pl->p_name,pl->p_status,pl->p_num); if (pl->p_status&DEF) printf("\t%8ld%8ld",proctab[pl->p_num].pr_off, proctab[pl->p_num].pr_loc); printf("\n"); } printf("\nGlobal procedures\n"); printf("\n\t%8s%8s%8s\t%8s%8s\n", "name","status","num","off","locals"); for (pl=xprocs;pl< &xprocs[oursize->n_xproc]; pl++) if (pl->p_name[0]) { printf("%4d\t%-8s%8o%8d", pl-xprocs,pl->p_name,pl->p_status,pl->p_num); if (pl->p_status&DEF) printf("\t%8ld%8ld",proctab[pl->p_num].pr_off, proctab[pl->p_num].pr_loc); printf("\n"); } if ( r_flag ) { register relc_t *rl ; printf("\nData relocation\n") ; printf("\n\t%10s %10s %10s\n","offset","type","value"); for ( rl=f_data ; rl ; rl= rl->r_next ) { printf("\t%10ld %10s ",rl->r_off,r_data[rl->r_typ]); switch(rl->r_typ) { case RELADR: case RELHEAD: printf("%10ld\n",rl->r_val.rel_i) ; break ; case RELGLO: printf("%8.8s\n",rl->r_val.rel_gp->g_name) ; break ; case RELLOC: printf("%10d\n",rl->r_val.rel_lp) ; break ; case RELNULL: printf("\n"); break ; } } printf("\n\nText relocation\n") ; printf("\n\t%10s %10s %10s\n","offset","flags","value"); for ( rl=f_text; rl ; rl= rl->r_next ) { printf("\t%10ld %10s ", rl->r_off,pflags(opchoice[rl->r_typ&~RELMNS])) ; if ( rl->r_typ&RELMNS ) printf("%10ld\n",rl->r_val.rel_i) ; else printf("\n") ; } } } } #endif