#include "../../../h/em_mnem.h" #include "../share/types.h" #include "../share/aux.h" #include "../share/debug.h" #include "../share/global.h" #include "cs.h" #include "cs_aux.h" #include "cs_entity.h" #include "cs_stack.h" #define WS1 0 #define WS2 1 #define PS 2 #define ARGW 3 #define ARDESC3 4 STATIC struct inf_entity { byte inf_instr; /* Key. */ byte inf_used; /* Kind of entity used by key. */ byte inf_size; /* Indication of the size. */ } inf_table[] = { op_adp, ENAOFFSETTED, PS, op_dee, ENEXTERNAL, WS1, op_del, ENLOCAL, WS1, op_ine, ENEXTERNAL, WS1, op_inl, ENLOCAL, WS1, op_lae, ENAEXTERNAL, PS, op_lal, ENALOCAL, PS, op_lar, ENARRELEM, ARDESC3, op_ldc, ENCONST, WS2, op_lde, ENEXTERNAL, WS2, op_ldf, ENOFFSETTED, WS2, op_ldl, ENLOCAL, WS2, op_lil, ENINDIR, WS1, op_lim, ENIGNMASK, WS1, op_loc, ENCONST, WS1, op_loe, ENEXTERNAL, WS1, op_lof, ENOFFSETTED, WS1, op_loi, ENINDIR, ARGW, op_lol, ENLOCAL, WS1, op_lpi, ENPROC, PS, op_lxa, ENAARGBASE, PS, op_lxl, ENALOCBASE, PS, op_sar, ENARRELEM, ARDESC3, op_sde, ENEXTERNAL, WS2, op_sdf, ENOFFSETTED, WS2, op_sdl, ENLOCAL, WS2, op_sil, ENINDIR, WS1, op_ste, ENEXTERNAL, WS1, op_stf, ENOFFSETTED, WS1, op_sti, ENINDIR, ARGW, op_stl, ENLOCAL, WS1, op_zer, ENCONST, ARGW, op_zre, ENEXTERNAL, WS1, op_zrf, ENFZER, ARGW, op_zrl, ENLOCAL, WS1, op_nop /* Delimitor. */ }; #define INFKEY(ip) (ip->inf_instr & BMASK) #define ENKIND(ip) ip->inf_used #define SIZEINF(ip) ip->inf_size STATIC struct inf_entity *getinf(n) int n; { struct inf_entity *ip; for (ip = &inf_table[0]; INFKEY(ip) != op_nop; ip++) { if (INFKEY(ip) == n) return ip; } return (struct inf_entity *) 0; } entity_p getentity(lnp, l_out) line_p lnp, *l_out; { /* Build the entities where lnp refers to, and enter them. * If a token needs to be popped, the first line that pushed * it is stored in *l_out. * The main entity lnp refers to, is returned. */ struct entity en; struct token tk; struct inf_entity *ip; valnum vn; offset indexsize; struct token adesc, index, arbase; *l_out = lnp; /* Lor is a special case. */ if (INSTR(lnp) == op_lor) { en.en_static = FALSE; en.en_size = ps; switch (off_set(lnp)) { default: assert(FALSE); break; case 0: en.en_kind = ENLOCBASE; break; case 1: return (entity_p) 0; case 2: en.en_kind = ENHEAPPTR; break; } return en_enter(&en); } if ( (ip = getinf(INSTR(lnp))) == (struct inf_entity *) 0) return (entity_p) 0; /* It does not refer to any entity. */ /* Lil and sil refer to two entities. */ if (INSTR(lnp) == op_lil || INSTR(lnp) == op_sil) { en.en_static = FALSE; en.en_kind = ENLOCAL; en.en_size = ps; /* Local must be a pointer. */ en.en_loc = off_set(lnp); vn = en_enter(&en)->en_vn; } en.en_static = FALSE; en.en_kind = ENKIND(ip); /* Fill in the size of the entity. */ switch (SIZEINF(ip)) { default: assert(FALSE); break; case WS1: en.en_size = ws; break; case WS2: en.en_size = 2*ws; break; case PS: en.en_size = ps; break; case ARGW: if (TYPE(lnp) != OPNO) { en.en_size = off_set(lnp); } else { Pop(&tk, (offset) ws); *l_out = tk.tk_lfirst; en.en_size = UNKNOWN_SIZE; } break; case ARDESC3: assert(en.en_kind == ENARRELEM); if (TYPE(lnp) != OPNO) { indexsize = off_set(lnp); } else { Pop(&tk, (offset) ws); indexsize = UNKNOWN_SIZE; } Pop(&adesc, (offset) ps); en.en_adesc = adesc.tk_vn; Pop(&index, indexsize); en.en_index = index.tk_vn; Pop(&arbase, (offset) ps); en.en_arbase = arbase.tk_vn; *l_out = arbase.tk_lfirst; en.en_size = array_elemsize(adesc.tk_vn); break; } /* Fill in additional information. */ switch (en.en_kind) { case ENFZER: en.en_static = TRUE; break; case ENCONST: en.en_static = TRUE; en.en_val = off_set(lnp); break; case ENALOCAL: en.en_static = TRUE; case ENLOCAL: en.en_loc = off_set(lnp); break; case ENAEXTERNAL: en.en_static = TRUE; case ENEXTERNAL: en.en_ext = OBJ(lnp); break; case ENINDIR: if (INSTR(lnp) == op_loi || INSTR(lnp) == op_sti) { Pop(&tk, (offset) ps); *l_out = tk.tk_lfirst; vn = tk.tk_vn; } en.en_ind = vn; break; case ENAOFFSETTED: en.en_static = TRUE; case ENOFFSETTED: Pop(&tk, (offset) ps); *l_out = tk.tk_lfirst; en.en_base = tk.tk_vn; en.en_off = off_set(lnp); break; case ENALOCBASE: case ENAARGBASE: en.en_static = TRUE; en.en_levels = off_set(lnp); break; case ENPROC: en.en_pro = PROC(lnp); break; case ENARRELEM: /* We gathered the information in the previous switch. */ break; } return en_enter(&en); }