/* this version is derived from the flowchart in the preliminary P400 release notes */ inline ea_t ea64v (ea_t earp, unsigned short inst, short x, unsigned short *opcode, unsigned short *bit) { ea_t ea; /* full seg/word va */ unsigned short ea_s; /* eff address segno */ unsigned short ea_r; /* eff address ring */ unsigned short ea_w; /* eff address wordno */ unsigned short br; unsigned short live; /* max live register addr */ unsigned short i; unsigned short y; unsigned short xok; unsigned short a; unsigned short ixy; unsigned short m; unsigned short rph,rpl; *bit = 0; i = inst & 0100000; /* indirect is bit 1 (left/MS bit) */ /* rph/rpl (and earp) are usually = RPH/RPL in the register file, except for the case of an XEC instruction; in that case, these will point to 1 after the instruction being executed */ rph = earp >> 16; rpl = earp & 0xFFFF; //TRACE(T_EAV, " inst=%o, rph=%o, rpl=%o\n", inst, rph, rpl); if (crs[MODALS] & 4) /* segmentation enabled? */ live = 010; /* yes, limit register traps */ else live = 040; ea_s = rph; ea_w = rpl; if (inst & 001000) /* sector bit 7 set? */ if ((inst & 0740) != 0400) { /* PC relative? */ ea_w = rpl + (((short) (inst << 7)) >> 7); /* yes, sign extend D */ TRACE(T_EAV, " PC relative, P=%o, new ea_w=%o\n", rpl, ea_w); } else goto labB; /* special cases */ else if (i) { ea_w = (inst & 0777); /* sector 0 */ TRACE(T_EAV, " Sector 0, new ea_w=%o\n", ea_w); if (ea_w < 0100 && x) { /* preindex by X */ TRACE(T_EAV, " Preindex, ea_w=%o, X='%o/%d\n", ea_w, crs[X], *(short *)(crs+X)); ea_w += crs[X]; TRACE(T_EAV, " Preindex, new ea_w=%o\n", ea_w); x = 0; } } else goto labA; if (i) { if (ea_w < live) { TRACE(T_EAV, " Indirect through live register '%o\n", ea_w); ea_w = get16(0x80000000 | ea_w); } else { TRACE(T_EAV, " Indirect, ea_s=%o, ea_w=%o\n", ea_s, ea_w); ea_w = get16(MAKEVA(ea_s, ea_w)); } TRACE(T_EAV, " After indirect, new ea_w=%o\n", ea_w); } if (x) { TRACE(T_EAV, " Postindex, old ea_w=%o, X='%o/%d\n", ea_w, crs[X], *(short *)(crs+X)); ea_w += crs[X]; TRACE(T_EAV, " Postindex, new ea_w=%o\n", ea_w); } if (ea_w < live) { TRACE(T_EAV, " Live register '%o\n", ea_w); return 0x80000000 | ea_w; } return MAKEVA(ea_s, ea_w); labA: ea_w = (inst & 0777); if (x) { TRACE(T_EAV, " Postindex, old ea_w=%o, X='%o/%d\n", ea_w, crs[X], *(short *)(crs+X)); ea_w += crs[X]; TRACE(T_EAV, " Postindex, new ea_w=%o\n", ea_w); } if ((inst & 0777) >= 0400) { ea_s = crs[LBH] | (ea_s & RINGMASK16); ea_w += crs[LBL]; TRACE(T_EAV, " Short LB relative, LB=%o/%o\n", crs[LBH], crs[LBL]); return MAKEVA(ea_s, ea_w); } if (ea_w < live) { TRACE(T_EAV, " Live register '%o\n", ea_w); return 0x80000000 | ea_w; } ea_s = crs[SBH] | (ea_s & RINGMASK16); ea_w += crs[SBL]; TRACE(T_EAV, " Short SB relative, SB=%o/%o\n", crs[SBH], crs[SBL]); return MAKEVA(ea_s, ea_w); /* here for long, 2-word, V-mode memory reference */ labB: a = iget16(RP); RPL++; TRACE(T_EAV, " 2-word format, a=%o\n", a); y = (inst & 020); ixy = ((i != 0)<<2) | ((x != 0)<<1) | (y != 0); xok = ((*opcode & 01700) != 01500); /* true if indexing is okay */ *opcode = *opcode | ((inst >> 2) & 3); /* opcode extension */ br = (inst & 3); TRACE(T_EAV, " new opcode=%5#0o, y=%d, br=%d, ixy=%d, xok=%d\n", *opcode, (y != 0), br, ixy, xok); ea_s = crs[PBH+br*2] | (ea_s & RINGMASK16); ea_w = crs[PBL+br*2] + a; if (xok) if (ixy == 1 || ixy == 4) ea_w += crs[Y]; else if (ixy == 2 || ixy == 6) ea_w += crs[X]; if (ixy >= 3) { ea = MAKEVA(ea_s, ea_w); TRACE(T_EAV, " Long indirect, ea=%o/%o, ea_s=%o, ea_w=%o\n", ea>>16, ea&0xFFFF, ea_s, ea_w); m = get16(ea); if (m & 0x8000) fault(POINTERFAULT, m, ea); ea_s = m | (ea_s & RINGMASK16); ea_w = get16(INCVA(ea,1)); if (ea_s & EXTMASK16) *bit = get16(INCVA(ea,2)) >> 12; TRACE(T_EAV, " After indirect, ea_s=%o, ea_w=%o, bit=%d\n", ea_s, ea_w, *bit); } if (xok) if (ixy == 5) ea_w += crs[Y]; else if (ixy == 7) ea_w += crs[X]; return MAKEVA(ea_s, ea_w); }