/* $Id: hppa.h,v 1.5 1994/12/12 17:10:39 anton Exp $ Copyright 1992 by the ANSI figForth Development Group This is the machine-specific part for a HPPA running HP-UX */ #ifndef INDIRECT_THREADED #ifndef DIRECT_THREADED #define DIRECT_THREADED #endif #endif /* cache flush stuff */ #ifdef DIRECT_THREADED extern void * cacheflush(void *, int, int); #ifdef DEBUG # define CACHE_FLUSH(addr,size) \ ({ fprintf(stderr,"Flushing Cache at %08x:%08x\n",(int) addr, size); \ fflush(stderr); \ fprintf(stderr,"Cache flushed, final address: %08x\n", \ (int)cacheflush((void *)(addr), (int)(size), 32)); }) #else # define CACHE_FLUSH(addr,size) \ ({ (void)cacheflush((void *)(addr), (int)(size), 32); }) # endif #endif #include "32bit.h" #ifdef DIRECT_THREADED /* 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) /* HPPA uses register 2 for branch and link */ /* CODE_ADDRESS is the address of the code jumped to through the code field */ /* MAKE_CF creates an appropriate code field at the cfa; ca is the code address */ /* we use ble and a register, since 'bl' only has 21 bits displacement */ #endif #ifdef DIRECT_THREADED # ifdef DEBUG # define DOUT(a,b,c,d) fprintf(stderr,a,b,c,d) # else # define DOUT(a,b,c,d) # endif # define ASS17(n)(((((n) >> 13) & 0x1F) << 16)| /* first 5 bits */ \ ((((n) >> 2) & 0x3FF) << 3)| /* second 11 bits */ \ ((((n) >> 12) & 0x1) << 2) | /* lo sign (arg!) */ \ (((n) < 0) << 0)) /* sign bit */ # define DIS17(n)(((((n) >> 16) & 0x1F) << 13)| /* first 5 bits */ \ ((((n) >> 3) & 0x3FF) << 2)| /* second 11 bits */ \ ((((n) >> 2) & 0x1) << 12) | /* lo sign (arg!) */ \ (-((n) & 1) << 18)) /* sign bit */ # define CODE_ADDRESS(cfa) ((Label)({ \ unsigned int *_cfa=(unsigned int *)(cfa); unsigned _ca; \ if((_cfa[0] & 0xFFE0E002) == 0xE8000000) /* relative branch */ \ { \ _ca = _cfa[0]; \ _ca = DIS17(_ca); \ _ca += (int) (_cfa + 2); \ } \ else if((_cfa[0] & 0xFFE0E002) == 0xE0000000) /* absolute branch */ \ { \ _ca = _cfa[0]; \ _ca = DIS17(_ca); \ } \ else \ { \ _ca = _cfa[0]; \ _ca = (_ca<<31) | \ ((_ca>>1 ) & 0x00001800) | \ ((_ca>>3 ) & 0x0003E000) | \ ((_ca<<4 ) & 0x000C0000) | \ ((_ca<<19) & 0x7FF00000) | \ ((_cfa[1]>>1) & 0xFFC); \ } \ /* printf("code-address at %08x: %08x\n",_ca,_cfa); */ \ _ca; \ })) # define MAKE_CF(cfa,ca) \ ({ \ long *_cfa = (long *)(cfa); \ int _ca = (int)(ca)+4; \ int _dp = _ca-(int)(_cfa+2); \ \ if(_ca < 0x40000) /* Branch absolute */ \ { \ _cfa[0] =((0x38 << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 0 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_ca); \ _cfa[1] = ((long *)(_ca))[-1]; /* or %r0,%r0,%r0 */; \ } \ else if(_dp < 0x40000 || _dp >= -0x40000) \ { \ _cfa[0] =((0x3A << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 0 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_dp); \ _cfa[1] = ((long *)(_ca))[-1]; /* 0x08000240 or %r0,%r0,%r0 */; \ } \ else \ { \ _ca -= 4; \ _cfa[0] = (0x08 << 26) | \ ((int)_ca<0) | \ (_ca & 0x00001800)<<1 | \ (_ca & 0x0003E000)<<3 | \ (_ca & 0x000C0000)>>4 | \ (_ca & 0x7FF00000)>>19; \ _ca &= 0x3FF; \ _cfa[1] =((0x38 << 26) | /* major opcode */ \ ( 1 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 1 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_ca); \ } \ DOUT("%08x: %08x,%08x\n",(int)_cfa,_cfa[0],_cfa[1]); \ }) /* HP wins the price for the most obfuscated binary opcode */ /* this is the point where the does code starts if label points to the * jump dodoes */ # define DOES_CODE(cfa) ((Xt *)(((long *)(cfa))[1])) /* this is a special version of DOES_CODE for use in dodoes */ # define DOES_CODE1(cfa) DOES_CODE(cfa) \ /* ({register Xt * _ret asm("%r31"); _ret;}) */ /* HPPA uses register 2 for branch and link */ # define DOES_HANDLER_SIZE 8 # define MAKE_DOES_HANDLER(cfa) ({ *(long *)(cfa)=DODOES; }) #ifdef undefined # define MAKE_DOES_HANDLER(cfa) \ ({ \ long *_cfa = (long *)(cfa); \ int _ca = (int)symbols[DODOES]; \ int _dp = _ca-(int)(_cfa+2); \ \ if(_ca < 0x40000) /* Branch absolute */ \ { \ _cfa[0] =((0x38 << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 0 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_ca); \ _cfa[1] = 0x08000240 /* or %r0,%r0,%r0 */; \ } \ else if(_dp < 0x40000 || _dp >= -0x40000) \ { \ _cfa[0] =((0x3A << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 0 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_dp); \ _cfa[1] = 0x08000240 /* or %r0,%r0,%r0 */; \ } \ else \ { \ fprintf(stderr,"DOESHANDLER assignment failed, use ITC instead of DTC\n"); exit(1); \ _cfa[0] = (0x08 << 26) | \ ((int)_ca<0) | \ (_ca & 0x00001800)<<1 | \ (_ca & 0x0003E000)<<3 | \ (_ca & 0x000C0000)>>4 | \ (_ca & 0x7FF00000)>>19; \ _ca &= 0x3FF; \ _cfa[1] =((0x38 << 26) | /* major opcode */ \ ( 1 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 1 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_ca); \ } \ DOUT("%08x: %08x,%08x\n",(int)_cfa,_cfa[0],_cfa[1]); \ }) #endif # define MAKE_DOES_CF(cfa,ca) \ ({ \ long *_cfa = (long *)(cfa); \ int _ca = (int)symbols[DODOES]; \ int _dp = _ca-(int)(_cfa+2); \ \ if(_ca < 0x40000) /* Branch absolute */ \ { \ _cfa[0] =((0x38 << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 1 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_ca); \ _cfa[1] = (long)(ca); \ } \ else if(_dp < 0x40000 || _dp >= -0x40000) \ { \ _cfa[0] =((0x3A << 26) | /* major opcode */ \ ( 0 << 21) | /* register */ \ ( 0 << 13) | /* space register */ \ ( 1 << 1))| /* if 1, don't execute delay slot */ \ ASS17(_dp); \ _cfa[1] = (long)(ca); \ } \ else \ { \ fprintf(stderr,"DOESCFA assignment failed, use ITC instead of DTC\n"); exit(1); \ } \ DOUT("%08x: %08x,%08x\n",(int)_cfa,_cfa[0],_cfa[1]); \ }) /* this stores a call dodoes at addr */ #endif