#ifndef NORCSID static char rcsid2[] = "$Id$"; #endif #include #include "assert.h" #include #include #include #include #include #include "mach.h" #include "param.h" #include "tables.h" #include "types.h" #include #include "data.h" #include "result.h" #ifdef REGVARS #include "regvar.h" #include #endif #include "extern.h" /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * * Author: Hans van Staveren */ #ifndef newplb /* retrofit for older mach.h */ #define newplb newilb #endif #ifdef fmt_id #ifdef id_first It is an error to define both fmt_id and id_first. Read the documentation. #endif #endif #ifdef fmt_ilb #ifdef ilb_fmt It is an error to define both fmt_ilb and ilb_fmt. Read the documentation. #endif #endif /* segment types for switchseg() */ #define SEGTXT 0 #define SEGCON 1 #define SEGROM 2 #define SEGBSS 3 long con(); #define get8() getc(emfile) #define MAXSTR 256 FILE *emfile; extern FILE *codefile; extern FILE *freopen(); int nextispseu,savetab1; int opcode; int offtyp; long argval; int dlbval; char str[MAXSTR],argstr[128],labstr[128]; int strsiz; int holno=0; int procno=0; int curseg= -1; int part_size=0; word part_word=0; int endofprog=0; #ifdef REGVARS int regallowed=0; #endif extern char em_flag[]; extern short em_ptyp[]; extern double atof(); /* Own version of atol that continues computing on overflow. We don't know that about the ANSI C one. */ long atol(s) register char *s; { register long total = 0; register unsigned digit; int minus = 0; while (*s == ' ' || *s == '\t') s++; if (*s == '+') s++; else if (*s == '-') { s++; minus = 1; } while ((digit = *s++ - '0') < 10) { total *= 10; total += digit; } return(minus ? -total : total); } #define sp_cstx sp_cst2 string tostring(); string holstr(); string strarg(); string mystrcpy(); long get32(); in_init(filename) char *filename; { if ((emfile=freopen(filename,"r",stdin))==NULL) error("Can't open %s",filename); if (get16()!=sp_magic) error("Bad format %s",filename); } in_start() { #ifdef modhead fprintf(codefile,"%s",modhead) ; #endif } in_finish() { } fillemlines() { int t,i; register struct emline *lp; while ((emlines+nemlines)-empem_instr = 0; return; case EOF: nextispseu=1; savetab1=t; endofprog=1; nemlines--; lp->em_instr = 0; return; case sp_fmnem: lp->em_instr = opcode; break; } i=em_flag[lp->em_instr-sp_fmnem] & EM_PAR; if ( i == PAR_NO ) { lp->em_optyp = OPNO; lp->em_soper = 0; continue; } t= em_ptyp[i]; t= getarg(t); switch(i) { case PAR_L: assert(t == sp_cstx); if (argval >= 0) argval += TEM_BSIZE; lp->em_optyp = OPINT; lp->em_u.em_ioper = argval; lp->em_soper = tostring((word) argval); continue; case PAR_G: if (t != sp_cstx) break; lp->em_optyp = OPSYMBOL; lp->em_soper = holstr((word) argval); continue; case PAR_B: t = sp_ilb2; break; case PAR_D: assert(t == sp_cstx); lp->em_optyp = OPSYMBOL; lp->em_soper = strarg(t); lp->em_u.em_loper = argval; continue; } lp->em_soper = strarg(t); if (t==sp_cend) lp->em_optyp = OPNO; else if (t==sp_cstx) { lp->em_optyp = OPINT; lp->em_u.em_ioper = argval; } else lp->em_optyp = OPSYMBOL; } } dopseudo() { register b,t; register full n; register long save; word romcont[MAXROM+1]; int nromwords; int rombit,rommask; unsigned dummy,stackupto(); if (nextispseu==0 || nemlines>0) error("No table entry for %d",emlines[0].em_instr); nextispseu=0; switch(savetab1) { case sp_ilb1: case sp_ilb2: swtxt(); dummy = stackupto(&fakestack[stackheight-1],maxply,TRUE); cleanregs(); strarg(savetab1); newilb(argstr); return; case sp_dlb1: case sp_dlb2: case sp_dnam: strarg(savetab1); savelab(); return; case sp_fpseu: break; case EOF: swtxt(); popstr(0); tstoutput(); exit(0); default: error("Unknown opcode %d",savetab1); } switch (opcode) { case ps_hol: sprintf(labstr,hol_fmt,++holno); case ps_bss: getarg(cst_ptyp); n = (full) argval; t = getarg(val_ptyp); save = argval; getarg(cst_ptyp); b = (int) argval; argval = save; bss(n,t,b); break; case ps_con: switchseg(SEGCON); dumplab(); con(getarg(val_ptyp)); while ((t = getarg(any_ptyp)) != sp_cend) con(t); break; case ps_rom: switchseg(SEGROM); xdumplab(); nromwords=0; rommask=0; rombit=1; for (;;) { t=getarg(val_ptyp); while (t!=sp_cend) { if (t==sp_cstx && nromwords= 0) r_off += TEM_BSIZE; getarg(ptyp(sp_cst2)); r_size = argval; getarg(ptyp(sp_cst2)); r_type = argval; if (r_typereg_float) fatal("Bad type in register message"); if(getarg(ptyp(sp_cst2)|ptyp(sp_cend)) == sp_cend) r_score = 0; else { r_score = argval; if ( getarg(any_ptyp)!=sp_cend ) fatal("too many parameters"); } tryreg(linkreg(r_off,r_size,r_type,r_score),r_type); } #endif } else mes((word)argval); break; case ps_exa: strarg(getarg(sym_ptyp)); ex_ap(argstr); break; case ps_ina: strarg(getarg(sym_ptyp)); in_ap(argstr); break; case ps_exp: strarg(getarg(ptyp(sp_pnam))); ex_ap(argstr); break; case ps_inp: strarg(getarg(ptyp(sp_pnam))); in_ap(argstr); break; case ps_pro: switchseg(SEGTXT); procno++; strarg(getarg(ptyp(sp_pnam))); newplb(argstr); getarg(cst_ptyp); prolog((full)argval); #ifdef REGVARS regallowed++; #endif break; case ps_end: getarg(cst_ptyp | ptyp(sp_cend)); cleanregs(); #ifdef REGVARS unlinkregs(); #endif tstoutput(); break; default: error("No table entry for %d",savetab1); } } /* ----- input ----- */ int getarg(typset) { register t,argtyp; argtyp = t = table2(); if (t == EOF) fatal("unexpected EOF"); t -= sp_fspec; t = 1 << t; if ((typset & t) == 0) error("bad argument type %d",argtyp); return(argtyp); } int table1() { register i; i = get8(); if (i < sp_fmnem+sp_nmnem && i >= sp_fmnem) { opcode = i; return(sp_fmnem); } if (i < sp_fpseu+sp_npseu && i >= sp_fpseu) { opcode = i; return(sp_fpseu); } if (i < sp_filb0+sp_nilb0 && i >= sp_filb0) { argval = i - sp_filb0; return(sp_ilb2); } return(table3(i)); } int table2() { register i; i = get8(); if (i < sp_fcst0+sp_ncst0 && i >= sp_fcst0) { argval = i - sp_zcst0; return(sp_cstx); } return(table3(i)); } int table3(i) { word consiz; switch(i) { case sp_ilb1: argval = get8(); break; case sp_dlb1: dlbval = get8(); break; case sp_dlb2: dlbval = get16(); break; case sp_cst2: i = sp_cstx; case sp_ilb2: argval = get16(); break; case sp_cst4: i = sp_cstx; argval = get32(); break; case sp_dnam: case sp_pnam: case sp_scon: getstring(); break; case sp_doff: offtyp = getarg(sym_ptyp); getarg(cst_ptyp); break; case sp_icon: case sp_ucon: case sp_fcon: getarg(cst_ptyp); consiz = (word) argval; getstring(); argval = consiz; break; } return(i); } int get16() { register int l_byte, h_byte; l_byte = get8(); h_byte = get8(); if ( h_byte>=128 ) h_byte -= 256 ; return l_byte | (h_byte*256) ; } long get32() { register long l; register int h_byte; l = get8(); l |= ((unsigned) get8())*256 ; l |= get8()*256L*256L ; h_byte = get8() ; if ( h_byte>=128 ) h_byte -= 256 ; return l | (h_byte*256L*256*256L) ; } getstring() { register char *p; register n; getarg(cst_ptyp); if (argval < 0 || argval > MAXSTR-1) fatal("string/identifier too long"); strsiz = n = (int) argval; p = str; while (--n >= 0) *p++ = get8(); *p++ = '\0'; } char *strarg(t) { register char *p; switch (t) { case sp_ilb1: case sp_ilb2: #ifdef fmt_ilb fmt_ilb(procno,((int) argval),argstr); #else sprintf(argstr,ilb_fmt,procno,(int)argval); #endif break; case sp_dlb1: case sp_dlb2: sprintf(argstr,dlb_fmt,dlbval); break; case sp_cstx: sprintf(argstr,cst_fmt,(full)argval); break; case sp_dnam: case sp_pnam: #ifdef fmt_id fmt_id(str,argstr); #else p = argstr; if (strsiz < 8 || str[0] == id_first) *p++ = id_first; sprintf(p,"%.*s",strsiz,str); #endif break; case sp_doff: strarg(offtyp); for (p = argstr; *p; p++) ; if ((full) argval >= 0) *p++ = '+'; else { *p++ = '-'; argval = - (full) argval; } sprintf(p,off_fmt,(full)argval); break; case sp_cend: return(""); } return(mystrcpy(argstr)); } bss(n,t,b) full n; { register long s; if (n % TEM_WSIZE) fatal("bad BSS size"); if (b==0 #ifdef BSS_INIT || (t==sp_cstx && argval==BSS_INIT) #endif /* BSS_INIT */ ) { switchseg(SEGBSS); newlbss(labstr,n); labstr[0]=0; return; } switchseg(SEGCON); dumplab(); while (n > 0) n -= (s = con(t)); if (s % TEM_WSIZE) fatal("bad BSS initializer"); } long con(t) { register i; strarg(t); switch (t) { case sp_ilb1: case sp_ilb2: case sp_pnam: part_flush(); con_ilb(argstr); return((long)TEM_PSIZE); case sp_dlb1: case sp_dlb2: case sp_dnam: case sp_doff: part_flush(); con_dlb(argstr); return((long)TEM_PSIZE); case sp_cstx: con_part(TEM_WSIZE,(word)argval); return((long)TEM_WSIZE); case sp_scon: for (i = 0; i < strsiz; i++) con_part(1,(word) str[i]); return((long)strsiz); case sp_icon: case sp_ucon: if (argval > TEM_WSIZE) { part_flush(); con_mult((word)argval); } else { con_part((int)argval,(word)atol(str)); } return(argval); case sp_fcon: part_flush(); con_float(); return(argval); } assert(FALSE); /* NOTREACHED */ } extern char *segname[]; swtxt() { switchseg(SEGTXT); } switchseg(s) { if (s == curseg) return; part_flush(); if ((curseg = s) >= 0) fprintf(codefile,"%s\n",segname[s]); } savelab() { register char *p,*q; part_flush(); if (labstr[0]) { dlbdlb(argstr,labstr); return; } p = argstr; q = labstr; while (*q++ = *p++) ; } dumplab() { if (labstr[0] == 0) return; assert(part_size == 0); newdlb(labstr); labstr[0] = 0; } xdumplab() { if (labstr[0] == 0) return; assert(part_size == 0); newdlb(labstr); } part_flush() { /* * Each new data fragment and each data label starts at * a new target machine word */ if (part_size == 0) return; con_cst(part_word); part_size = 0; part_word = 0; } string holstr(n) word n; { sprintf(str,hol_off,n,holno); return(mystrcpy(str)); } /* ----- machine dependent routines ----- */ #include "mach.c"