File:  [gforth] / gforth / Attic / alpha.h
Revision 1.5: download - view: text, annotated - select for diffs
Fri Dec 15 01:54:08 1995 UTC (23 years, 11 months ago) by anton
Branches: MAIN
CVS tags: gforth-0_1beta, HEAD
fixed many small things in Makefile.in and configure.in.
Direct threading is now the default on Alphas.

/* preliminary machine file for DEC Alpha

  Copyright (C) 1995 Free Software Foundation, Inc.

  This file is part of Gforth.

  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.
*/

/* Be careful: long long on Alpha are 64 bit :-(( */
#define LONG_LATENCY

#if !defined(USE_TOS) && !defined(USE_NO_TOS)
#define USE_TOS
#endif

#ifndef INDIRECT_THREADED
#ifndef DIRECT_THREADED
#define DIRECT_THREADED
#endif
#endif

#define FLUSH_ICACHE(addr,size)		asm("call_pal 0x86") /* imb (instruction-memory barrier) */

#include "32bit.h"

#ifdef DIRECT_THREADED
#ifdef WORDS_BIGENDIAN
#error Direct threading only supported for little-endian Alphas.
/* big-endian Alphas still store instructions in little-endian format,
   so you would have to reverse the instruction accesses in the following
*/
#endif
#if SIZEOF_CHAR_P != 8
#error Direct threading only supported for Alphas with 64-bit Cells.
/* some of the stuff below assumes that the first cell in a code field
   can contain 2 instructions

   A simple way around this problem would be to have _alpha_docol
   contain &&dodoes. This would slow down colon defs, however.

   Another way is to use a special DOES_HANDLER, like most other CPUs */
#endif

#warning Direct threading for Alpha may not work with all gcc versions
#warning CODE does not (yet) work on the Alpha with direct threading
/* Currently CODE tries to put a jump to the PFA into the code field.
   Since the PFA is far away from docol, the present code generated
   for the jump does not work. The solution would be, of course, to do
   away with this foolish jump.  ";CODE" is harder to get right,
   however.
*/

typedef int Int32;
typedef short Int16;

/* 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 */
/* the improvement here is that we may destroy cfa before using PFA1 */
#define PFA1(cfa)       PFA(cfa)

/*
   On the Alpha, code (in the text segment) typically cannot be
   reached from the dictionary (in the data segment) with a normal
   branch. It also usually takes too long (and too much space on
   32-bit systems) to load the address as literal and jump indirectly.
   
   So, what we do is this: a pointer into our code (at docol, to be
   exact) is kept in a register: _alpha_docol. When the innner
   interpreter jumps to the word address of a variable etc., the
   destination address is computed from that with a lda instruction
   and stored in another register: _alpha_ca. Then an indirect jump
   through _alpha_ca is performed. For docol, we need not compute
   _alpha_ca first.

   How do we tell gcc all this? We declare the registers as variables:
   _alpha_docol as explicit variable, to avoid spilling; _alpha_ca is
   so short-lived, so it hopefully won't be spilled. A
   pseudo-primitive cpu_dep is created with code that lets gcc's data
   flow analysis know that _alpha_docol is used and that _alpha_ca may
   be defined and used after any NEXT and before any primitive.  We
   let gcc choose the register for _alpha_ca and simply change the
   code gcc produces for the cpu_dep routine.
*/

#define CPU_DEP2	register Label _alpha_docol asm("$9")=&&docol; \
			register Label _alpha_ca;

#define CPU_DEP3	cpu_dep: asm("lda %0, 500(%1)":"=r"(_alpha_ca):"r"(_alpha_docol)); goto *_alpha_ca;

#define CPU_DEP1	(&&cpu_dep)


/* CODE_ADDRESS is the address of the code jumped to through the code field */
#define CODE_ADDRESS(wa)	({Int32 *_wa=(Int32 *)(wa); \
				    (_wa[0]&0xfc000000)==0x68000000 ? /*JMP?*/\
				    &&docol : \
				    &&docol+((Int16 *)_wa)[0]; })

#define _CPU_DEP_LABEL	(symbols[DOESJUMP])
#define _DOCOL_LABEL	(symbols[DOCOL])

/* MAKE_CF creates an appropriate code field at the wa; ca is the
   code address. For the Alpha, this is a lda followed by a jmp.
   We patch the jmp with a good hint (on the 21064a this save 5 cycles!) */
/* !!do special case for docol */
#define MAKE_CF(wa,ca)	({ \
			     Int32 *_wa=(Int32 *)(wa); \
			     Int32 *_ca=(Int32 *)(ca); \
			     _wa[0]=((((Int32 *)_CPU_DEP_LABEL)[0] & 0xffff0000)| \
				      ((((Cell)_ca)-((Cell)_DOCOL_LABEL)) & 0xffff)); \
			     _wa[1]=((((Int32 *)_CPU_DEP_LABEL)[1] & 0xffffc000)| \
				      (((((Cell)_ca)-((Cell)_wa)-8) & 0xffff)>>2)); \
			 })

/* this is the point where the does code for the word with the xt cfa
   starts. Because the jump to the code field takes only one cell on
   64-bit systems we can use the second cell of the cfa for storing
   the does address */
#define DOES_CODE(cfa)	((Xt *)(((Cell *)(cfa))[1]))
/* this is a special version of DOES_CODE for use in dodoes */
#define DOES_CODE1(label)	DOES_CODE(label)

/* the does handler resides between DOES> and the following Forth
   code. Since the code-field jumps directly to dodoes, the
   does-handler is not needed for the Alpha architecture */
#define DOES_HANDLER_SIZE       (2*sizeof(Cell))
#define MAKE_DOES_HANDLER(addr)   0

/* This makes a code field for a does-defined word. doesp is the
   address of the does-code. On the Alpha, the code field consists of
   a jump to dodoes and the address of the does code */
#define MAKE_DOES_CF(cfa,doesp) ({Xt *_cfa = (Xt *)(cfa); \
				    MAKE_CF(_cfa, symbols[DODOES]); \
				    _cfa[1] = (doesp); })
#endif


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