/*
Copyright 1992 by the ANSI figForth Development Group
This is the machine-specific part for MIPS R[2346810]000 processors
*/
#if !defined(USE_TOS) && !defined(USE_NO_TOS)
/* on the mips this is a mixed blessing, since defining this spills
the rp with some gcc versions. This machine has 31 regs, yet that's
not enough for gcc-2.4.5 :-( */
#define USE_TOS
#endif
/* cache flush stuff */
#ifndef INDIRECT_THREADED
#ifndef DIRECT_THREADED
#define DIRECT_THREADED
/* direct threading saves 2 cycles per primitive on an R3000, 4 on an R4000 */
#endif
#endif
#ifdef DIRECT_THREADED
/* this works on Ultrix. Let's hope it works on others, too */
#include <mips/cachectl.h>
#define CACHE_FLUSH(addr,size) \
cacheflush((char *)(addr), (int)(size), BCACHE)
#endif
#include "32bit.h"
#ifdef DIRECT_THREADED
/* some definitions for composing opcodes */
#define JUMP_MASK 0x03ffffff
#define J_PATTERN 0x08000000
#define JAL_PATTERN 0x0c000000
/* this provides the first 4 bits of a jump address, i.e. it must be <16 */
#define SEGMENT_NUM 1
/* 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 */
# define PFA1(cfa) PFA(cfa)
/* CODE_ADDRESS is the address of the code jumped to through the code field */
# define CODE_ADDRESS(cfa) ((Label)(((*(unsigned *)(cfa))^J_PATTERN^(SEGMENT_NUM<<26))<<2))
/* MAKE_CF creates an appropriate code field at the cfa; ca is the code address */
# define MAKE_CF(cfa,ca) ({long * _cfa = (long *)(cfa); \
_cfa[0] = J_PATTERN|((((long)(ca))&JUMP_MASK)>>2); /* J ca */ \
_cfa[1] = 0; /* nop */})
# ifdef undefined
/* the following version uses JAL to make PFA1 faster */
# define PFA1(label) ({register Cell *pfa asm("$31"); \
pfa; })
/* CODE_ADDRESS is the address of the code jumped to through the code field */
# define CODE_ADDRESS(cfa) ((Label)(((*(unsigned *)(cfa))^JAL_PATTERN^(SEGMENT_NUM<<26))<<2))
# define MAKE_CF(cfa,ca) ({long *_cfa = (long *)(cfa); \
long _ca = (long)(ca); \
_cfa[0] = JAL_PATTERN|(((((long)_ca)>>2))&JUMP_MASK); /* JAL ca+4 */ \
_cfa[1] = 0; /* *(long *)_ca; delay slot */})
# endif /* undefined */
/* this is the point where the does code starts if label points to the
* jump dodoes */
# define DOES_CODE(cfa) ((Xt *)(((char *)CODE_ADDRESS(cfa))+8))
/* this is a special version of DOES_CODE for use in dodoes */
# define DOES_CODE1(cfa) DOES_CODE(cfa)
# define DOES_HANDLER_SIZE 8
# define MAKE_DOES_CF(cfa,does_code) \
({long does_handlerp=((long)(does_code))-DOES_HANDLER_SIZE; \
long *_cfa = (long*)(cfa); \
_cfa[0] = J_PATTERN|((does_handlerp&JUMP_MASK)>>2); /* J ca */ \
_cfa[1] = 0; /* nop */})
/*
# define MAKE_DOES_CF(cfa, does_code) ({char *does_handlerp=((char *)does_code)-DOES_HANDLER_SIZE; \
MAKE_CF(cfa,does_handlerp); \
MAKE_DOES_HANDLER(does_handlerp) ;})
*/
/* this stores a jump dodoes at addr */
# define MAKE_DOES_HANDLER(addr) MAKE_CF(addr,symbols[DODOES])
#endif
#ifdef undefined
/* and here are some more efficient versions that can be tried later */
/* the first version saves one cycle by doing something useful in the
delay slot. !! check that the instruction in the delay slot is legal
*/
#define MAKE_DOESJUMP(addr) ({long * _addr = (long *)addr; \
_addr[0] = J_PATTERN|(((((long)symbols[DODOES])>>2)+4)&JUMP_MASK), /* J dodoes+4 */ \
_addr[1] = *(long *)symbols[DODOES]; /* delay */})
/* the following version uses JAL to make DOES_CODE1 faster */
/* !! does the declaration clear the register ? */
/* it's ok to use the same reg as in PFA1:
dodoes is the only potential problem and I have taken care of it */
#define DOES_CODE1(cfa) ({register Code *_does_code asm("$31"); \
_does_code; })
#define MAKE_DOESJUMP(addr) ({long * _addr = (long *)addr; \
_addr[0] = JAL_PATTERN|(((((long)symbols[DODOES])>>2)+4)&JUMP_MASK), /* JAL dodoes+4 */ \
_addr[1] = *(long *)symbols[DODOES]; /* delay */})
#endif
#ifdef FORCE_REG
#define IPREG asm("$16")
#define SPREG asm("$17")
#define RPREG asm("$18")
#define LPREG asm("$19")
#define CFAREG asm("$20")
#define TOSREG asm("$21")
#endif /* FORCE_REG */
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