#ifndef NORCSID static char rcsid[] = "$Header$"; #endif /* * (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 */ /* * machine dependent back end routines for the PDP-11 */ /* #define REGPATCH /* save all registers in markblock */ con_part(sz,w) register sz; word w; { while (part_size % sz) part_size++; if (part_size == TEM_WSIZE) part_flush(); if (sz == 1) { w &= 0xFF; if (part_size) w <<= 8; part_word |= w; } else { assert(sz == 2); part_word = w; } part_size += sz; } con_mult(sz) word sz; { long l, atol(); if (sz != 4) fatal("bad icon/ucon size"); #ifdef ACK_ASS fprintf(codefile,".data4 %s\n",str); #else l = atol(str); fprintf(codefile,"\t%o;%o\n",(int)(l>>16),(int)l); #endif } /* * The next function is difficult to do when not running on a PDP 11 or VAX * The strategy followed is to assume the code generator is running on a PDP 11 * unless the ACK_ASS define is on. */ con_float() { #ifdef ACK_ASS double f; double atof(), frexp(); int i, j; int sign = 0; int fraction ; if (argval != 4 && argval != 8) fatal("bad fcon size"); f = atof(str); if (f == 0) { if (argval == 8) fprintf(codefile, ".data2 0, 0\n"); fprintf(codefile, ".data2 0, 0\n"); return; } f = frexp(f, &i); if (f < 0) { f = -f; sign = 1; } while (f < 0.5) { f += f; i --; } f = 2*f - 1.0; /* hidden bit */ i = (i + 128) & 0377; fraction = (sign << 15) | (i << 7); for (j = 6; j>= 0; j--) { f *= 2; if (f >= 1.0) { fraction |= (1 << j); f -= 1.0; } } fprintf(codefile, ".data2 0%o", fraction); for (i = argval / 2 - 1; i; i--) { fraction = 0; for (j = 15; j>= 0; j--) { f *= 2; if (f >= 1.0) { fraction |= (1 << j); f -= 1.0; } } fprintf(codefile, ", 0%o", fraction); } putc('\n', codefile); #else double f; double atof(); int i; short *p; if (argval != 4 && argval != 8) fatal("bad fcon size"); f = atof(str); p = (short *) &f; i = *p++; if (argval == 8) { fprintf(codefile,"\t%o;%o;",i,*p++); i = *p++; } fprintf(codefile,"\t%o;%o\n",i,*p++); #endif } #ifdef REGVARS char Rstring[10]; full lbytes; struct regadm { char *ra_str; long ra_off; } regadm[2]; int n_regvars; regscore(off,size,typ,score,totyp) long off; { if (size != 2) return(-1); score -= 1; /* allow for save/restore */ if (off>=0) score -= 2; if (typ==reg_pointer) score *= 17; else if (typ==reg_loop) score = 10*score+50; /* Guestimate */ else score *= 10; return(score); /* estimated # of words of profit */ } i_regsave() { Rstring[0] = 0; n_regvars=0; } f_regsave() { register i; if (n_regvars==0 || lbytes==0) { #ifdef REGPATCH fprintf(codefile,"mov r2,-(sp)\nmov r4,-(sp)\n"); #endif fprintf(codefile,"mov r5,-(sp)\nmov sp,r5\n"); if (lbytes == 2) fprintf(codefile,"tst -(sp)\n"); else if (lbytes!=0) fprintf(codefile,"sub $0%o,sp\n",lbytes); for (i=0;i6) { fprintf(codefile,"mov $0%o,r0\n",lbytes); fprintf(codefile,"jsr r5,PR%s\n",Rstring); } else { fprintf(codefile,"jsr r5,PR%d%s\n",lbytes,Rstring); } } for (i=0;i=0) fprintf(codefile,"mov 0%lo(r5),%s\n",regadm[i].ra_off, regadm[i].ra_str); } regsave(regstr,off,size) char *regstr; long off; { fprintf(codefile,"%c Local %ld into %s\n",COMMENTCHAR,off,regstr); /* commented away #ifndef REGPATCH fprintf(codefile,"mov %s,-(sp)\n",regstr); #endif strcat(Rstring,regstr); if (off>=0) fprintf(codefile,"mov 0%lo(r5),%s\n",off,regstr); end of commented away */ strcat(Rstring,regstr); regadm[n_regvars].ra_str = regstr; regadm[n_regvars].ra_off = off; n_regvars++; } regreturn() { #ifdef REGPATCH fprintf(codefile,"jmp eret\n"); #else fprintf(codefile,"jmp RT%s\n",Rstring); #endif } #endif prolog(nlocals) full nlocals; { #ifndef REGVARS #ifdef REGPATCH fprintf(codefile,"mov r2,-(sp)\nmov r4,-(sp)\n"); #endif fprintf(codefile,"mov r5,-(sp)\nmov sp,r5\n"); if (nlocals == 0) return; if (nlocals == 2) fprintf(codefile,"tst -(sp)\n"); else fprintf(codefile,"sub $0%o,sp\n",nlocals); #else lbytes = nlocals; #endif } dlbdlb(as,ls) string as,ls; { if (strlen(as)+strlen(ls)+2