#ifndef lint static char *rcsid = "$Header: vax.c,v 1.6 84/02/29 16:45:23 sklower Exp $"; #endif /* -[Mon Mar 21 19:35:50 1983 by jkf]- * vax.c $Locker: $ * vax specific functions * * (c) copyright 1982, Regents of the University of California */ #include "global.h" #include #include "vaxframe.h" /* exarith(a,b,c,lo,hi) * int a,b,c; * int *lo, *hi; * Exact arithmetic. * a,b and c are 32 bit 2's complement integers * calculates x=a*b+c to twice the precision of an int. * In the vax version, the 30 low bits only are returned * in *lo,and the next 32 bits of precision are returned in * hi. * this works since exarith is used either for calculating the sum of * two 32 bit numbers, (which is at most 33 bits), or * multiplying a 30 bit number by a 32 bit numbers, * which has a maximum precision of 62 bits. * If *phi is 0 or -1 then * x doesn't need any more than 31 bits plus sign to describe, so we * place the sign in the high two bits of *lo and return 0 from this * routine. A non zero return indicates that x requires more than 31 bits * to describe. */ exarith(a,b,c,phi,plo) int *phi, *plo; { asm(" emul 4(ap),8(ap),12(ap),r2 #r2 = a*b + c to 64 bits"); asm(" extzv $0,$30,r2,*20(ap) #get new lo"); asm(" extv $30,$32,r2,r0 #get new carry"); asm(" beql out # hi = 0, no work necessary"); asm(" movl r0,*16(ap) # save hi"); asm(" mcoml r0,r0 # Is hi = -1 (it'll fit in one word)"); asm(" bneq out # it doesn't"); asm(" bisl2 $0xc0000000,*20(ap) # alter low so that it is ok."); asm("out: ret"); } mmuladd (a, b, c, m) int a, b, c, m; { asm ("emul 4(ap),8(ap),12(ap),r0"); asm ("ediv 16(ap),r0,r2,r0"); } Imuldiv() { asm(" emul 4(ap),8(ap),12(ap),r0"); asm(" ediv 16(ap),r0,*20(ap),*24(ap)"); } callg_(funct,arglist) lispval (*funct)(); int *arglist; { asm(" callg *8(ap),*4(ap)"); } #include #define WRITE 4 #define READ 3 #ifdef os_vms #define _read _$real_read #define _write _$real_write #else #define _read(a,b,c) syscall(READ,a,b,c) #define _write(a,b,c) syscall(WRITE,a,b,c) #endif /*C library -- write nwritten = write(file, buffer, count); nwritten == -1 means error */ write(file, buffer, count) char *buffer; { register lispval handy; int retval; if((file != 1) || (Vcntlw->a.clb == nil)) goto top; /* since ^w is non nil, we do not want to print to the terminal, but we must be sure to return a correct value from the write in case there is no write to ptport */ retval = count; goto skipit; top: retval = _write(file,buffer,count); skipit: if(file==1) { handy = Vptport->a.clb; if(handy!=nil && TYPE(handy)==PORT && handy->p->_file!=1) { fflush(handy->p); file = handy->p->_file; goto top; } } return(retval); } /* * *nread = read(file, buffer, count); *nread ==0 means eof; nread == -1 means error * */ read(file,buffer,count) { extern int errno; register int Size; again: Size = _read(file,buffer,count); if ((Size >= 0) || (errno != EINTR)) return(Size); if(sigintcnt > 0) sigcall(SIGINT); goto again; } lispval Lpolyev() { register int count; register double *handy, *base; register struct argent *argp; lispval result; int type; char *alloca(); Keepxs(); count = 2 * (((int) np) - (int) lbot); if(count == 0) return(inewint(0)); if(count == 8) return(lbot->val); base = handy = (double *) alloca(count); for(argp = lbot; argp < np; argp++) { while((type = TYPE(argp->val))!=DOUB && type!=INT) argp->val = (lispval) errorh2(Vermisc,"%%machine-polyev:non-real arg",nil,TRUE,73,lbot,argp->val); if(TYPE(argp->val)==INT) { *handy++ = argp->val->i; } else *handy++ = argp->val->r; } count = count/sizeof(double) - 2; asm("polyd (r9),r11,8(r9)"); asm("movd r0,(r9)"); result = newdoub(); result->r = *base; Freexs(); return(result); } lispval Lrot() { register rot,val; /* these must be the first registers */ register struct argent *mylbot = lbot; chkarg(2,"rot"); if((TYPE(mylbot->val) != INT) || (TYPE(mylbot[1].val) != INT)) errorh2(Vermisc, "Non ints to rot", nil,FALSE,0,mylbot->val,mylbot[1].val); val = mylbot[0].val->i; rot = mylbot[1].val->i; rot = rot % 32 ; /* bring it down below one byte in size */ asm(" rotl r11,r10,r10 "); /* rotate val by rot and put back in val */ return( inewint(val)); } /* new version of showstack, We will set fp to point where the register fp points. Then fp+2 = saved ap fp+4 = saved pc fp+3 = saved fp ap+1 = first arg If we find that the saved pc is somewhere in the routine eval, then we print the first argument to that eval frame. This is done by looking one beyond the saved ap. */ lispval Lshostk() { lispval isho(); return(isho(1)); } static lispval isho(f) int f; { register struct machframe *myfp; register lispval handy; int **fp; /* this must be the first local */ int virgin=1; lispval linterp(); lispval _qfuncl(),tynames(); /* locations in qfuncl */ extern int plevel,plength; if(TYPE(Vprinlevel->a.clb) == INT) { plevel = Vprinlevel->a.clb->i; } else plevel = -1; if(TYPE(Vprinlength->a.clb) == INT) { plength = Vprinlength->a.clb->i; } else plength = -1; if(f==1) printf("Forms in evaluation:\n"); else printf("Backtrace:\n\n"); myfp = (struct machframe *) (&fp +1); /* point to current frame */ while(TRUE) { if( (myfp->pc > eval && /* interpreted code */ myfp->pc < popnames) || (myfp->pc > Lfuncal && /* compiled code */ myfp->pc < linterp) ) { if(((int) myfp->ap[0]) == 1) /* only if arg given */ { handy = (myfp->ap[1]); if(f==1) printr(handy,stdout), putchar('\n'); else { if(virgin) virgin = 0; else printf(" -- "); printr((TYPE(handy)==DTPR)?handy->d.car:handy,stdout); } } } if(myfp > myfp->fp) break; /* end of frames */ else myfp = myfp->fp; } putchar('\n'); return(nil); } /* * * (baktrace) * * baktrace will print the names of all functions being evaluated * from the current one (baktrace) down to the first one. * currently it only prints the function name. Planned is a * list of local variables in all stack frames. * written by jkf. * */ lispval Lbaktrace() { isho(0); } /* * (int:showstack 'stack_pointer) * return * nil if at the end of the stack or illegal * ( expresssion . next_stack_pointer) otherwise * where expression is something passed to eval * very vax specific */ lispval LIshowstack() { int **fp; /* must be the first local variable */ register lispval handy; register struct machframe *myfp; lispval retval, Lfuncal(), Ifuncal(); Savestack(2); chkarg(1,"int:showstack"); if((TYPE(handy=lbot[0].val) != INT) && (handy != nil)) error("int:showstack non fixnum arg", FALSE); if(handy == nil) myfp = (struct machframe *) (&fp +1); else myfp = (struct machframe *) handy->i; if((int ***)myfp <= &fp) error("int:showstack illegal stack value",FALSE); while(myfp > 0) { if( (myfp->pc > eval && /* interpreted code */ myfp->pc < popnames) || (myfp->pc > Ifuncal && /* compiled code */ myfp->pc < Lfuncal) ) { if(((int) myfp->ap[0]) == 1) /* only if arg given */ { handy = (lispval)(myfp->ap[1]); /* arg to eval */ protect(retval=newdot()); retval->d.car = handy; if(myfp > myfp->fp) myfp = 0; /* end of frames */ else myfp = myfp->fp; retval->d.cdr = inewint(myfp); return(retval); } } if(myfp > myfp->fp) myfp = 0; /* end of frames */ else myfp = myfp->fp; } return(nil); } #include "frame.h" /* * this code is very similar to ftolsp. * if it gets revised, so should this. */ lispval dothunk(func,count,arglist) lispval func; long count; register long *arglist; { lispval save; pbuf pb; Savestack(1); if(errp->class==F_TO_FORT) np = errp->svnp; errp = Pushframe(F_TO_LISP,nil,nil); lbot = np; np++->val = func; arglist++; for(; count > 0; count--) np++->val = inewint(*arglist++); save = Lfuncal(); errp = Popframe(); Restorestack(); return(save); } /* _thcpy: movl (sp),r0 pushl ap pushl (r0)+ pushl (r0)+ calls $3,_dothunk ret */ static char fourwords[] = "0123456789012345"; lispval Lmkcth() { register struct argent *mylbot = lbot; register struct thunk { short mask; short jsri; char *thcpy; long count; lispval func; } *th; extern char thcpy[]; chkarg(2,"make-c-thunk"); th = (struct thunk *)pinewstr(fourwords); th->mask = 0; th->jsri = 0x9f16; th->thcpy = thcpy; th->func = mylbot->val; th->count = mylbot[1].val->i; return((lispval)th); }