--- gforth/Attic/386.h 1994/10/03 18:23:54 1.6 +++ gforth/Attic/386.h 1995/11/07 18:06:29 1.11 @@ -1,35 +1,46 @@ /* - Copyright 1992 by the ANSI figForth Development Group - This is the machine-specific part for Intel 386 compatible processors -*/ + Copyright (C) 1995 Free Software Foundation, Inc. + + This file is part of Gforth. -/* Cell and UCell must be the same size as a pointer */ -typedef long Cell; -typedef unsigned long UCell; - -/* DCell and UDCell must be twice as large as Cell */ -typedef long long DCell; -typedef unsigned long long UDCell; - -/* define this if IEEE singles and doubles are available as C data types */ -#define IEEE_FP - -/* the IEEE types are used only for loading and storing */ -/* the IEEE double precision type */ -typedef double DFloat; -/* the IEEE single precision type */ -typedef float SFloat; + Gforth is free software; you can redistribute it and/or + modify it under the terms of the GNU General Public License + as published by the Free Software Foundation; either version 2 + of the License, or (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. +*/ + +#include "32bit.h" -/* define this if the least-significant byte is at the largets address */ -/* #define BIG_ENDIAN */ +/* indirect threading is faster on the 486, on the 386 direct + threading is probably faster. Therefore we leave defining + DIRECT_THREADED to configure */ /* define this if the processor cannot exploit instruction-level parallelism (no pipelining or too few registers) */ #define CISC_NEXT +/* 386 and below have no cache, 486 has a shared cache, and the + Pentium probably employs hardware cache consistency, so + flush-icache is a noop */ +#define FLUSH_ICACHE(addr,size) + #ifdef DIRECT_THREADED + +#define CALL 0xe8 /* call */ +#define JMP 0xe9 /* jmp */ +#define GETCFA(reg) ({ asm("popl %0" : "=r" (reg)); (int)reg -= 5;}); + /* PFA gives the parameter field address corresponding to a cfa */ #define PFA(cfa) (((Cell *)cfa)+2) /* PFA1 is a special version for use just after a NEXT1 */ @@ -40,7 +51,7 @@ typedef float SFloat; /* MAKE_CF creates an appropriate code field at the cfa; ca is the code address */ #define MAKE_CF(cfa,ca) ({long _cfa = (long)(cfa); \ long _ca = (long)(ca); \ - *(char *)_cfa = 0xe9; /* jmp */ \ + *(char *)_cfa = CALL; \ *(long *)(_cfa+1) = _ca-(_cfa+5);}) /* this is the point where the does code starts if label points to the @@ -52,12 +63,21 @@ typedef float SFloat; #define DOES_CODE1(label) DOES_CODE(label) /* this stores a jump dodoes at addr */ -#define MAKE_DOES_HANDLER(addr) MAKE_CF(addr,symbols[DODOES]) - -#define MAKE_DOES_CF(addr,doesp) MAKE_CF(addr,((int)(doesp)-8)) +#define MAKE_DOES_CF(addr,doesp) ({long _addr = (long)(addr); \ + long _doesp = (long)(doesp)-8; \ + *(char *)_addr = CALL; \ + *(long *)(_addr+1) = _doesp-(_addr+5);}) + +#define MAKE_DOES_HANDLER(addr) ({long _addr = (long)(addr); \ + long _dodo = (long)symbols[DODOES]; \ + *(char *)_addr = JMP; \ + *(long *)(_addr+1) = _dodo-(_addr+5);}) #endif #ifdef FORCE_REG +#if (__GNUC__==2 && defined(__GNUC_MINOR__) && __GNUC_MINOR__==5) +/* i.e. gcc-2.5.x */ +/* this works with 2.5.7; nothing works with 2.5.8 */ #define IPREG asm("%esi") #define SPREG asm("%edi") #ifdef USE_TOS @@ -65,6 +85,13 @@ typedef float SFloat; #else #define CFAREG asm("%edx") #endif +#else /* gcc-version */ +/* this works with 2.6.3 (and quite well, too) */ +/* since this is not very demanding, it's the default for other gcc versions */ +#if defined(USE_TOS) && !defined(CFA_NEXT) +#define IPREG asm("%ebx") +#else +#define SPREG asm("%ebx") +#endif /* USE_TOS && !CFA_NEXT */ +#endif /* gcc-version */ #endif /* FORCE_REG */ - -#define rint(x) floor((x)+0.5)