/* H I G H L E V E L S Y M B O L E N T R Y A N D L O O K U P */ static char *RcsId = "$Header$"; #include #include #include #include #include "idf.h" #include "def.h" #include "type.h" #include "scope.h" #include "LLlex.h" #include "node.h" #include "main.h" struct def * Enter(name, kind, type, pnam) char *name; struct type *type; { /* Enter a definition for "name" with kind "kind" and type "type" in the Current Scope. If it is a standard name, also put its number in the definition structure. */ struct idf *id; struct def *df; id = str2idf(name, 0); if (!id) fatal("Out of core"); df = define(id, CurrentScope, kind); df->df_type = type; if (type = std_type) { df->df_value.df_stdname = pnam; } return df; } EnterIdList(idlist, kind, flags, type, scope, addr) register struct node *idlist; struct type *type; struct scope *scope; arith *addr; { /* Put a list of identifiers in the symbol table. They all have kind "kind", and type "type", and are put in scope "scope". "flags" initializes the "df_flags" field of the definition structure. Also assign numbers to enumeration literals, and link them together. */ register struct def *df; struct def *first = 0, *last = 0; int assval = 0; arith off; while (idlist) { df = define(idlist->nd_IDF, scope, kind); df->df_type = type; df->df_flags |= flags; if (addr) { if (*addr >= 0) { off = align(*addr, type->tp_align); *addr = off + type->tp_size; } else { off = -align(-*addr, type->tp_align); *addr = off - type->tp_size; } if (kind == D_VARIABLE) { df->var_off = off; } else { assert(kind == D_FIELD); df->fld_off = off; } } if (kind == D_ENUM) { if (!first) first = df; df->enm_val = assval++; if (last) last->enm_next = df; last = df; } idlist = idlist->next; } if (last) { /* Also meaning : kind == D_ENUM */ assert(kind == D_ENUM); last->enm_next = 0; type->enm_enums = first; type->enm_ncst = assval; } } EnterVarList(IdList, type, local) register struct node *IdList; struct type *type; { /* Enter a list of identifiers representing variables into the name list. "type" represents the type of the variables. "local" is set if the variables are declared local to a procedure */ register struct def *df; register struct scope *scope; char buf[256]; extern char *sprint(), *Malloc(), *strcpy(); scope = CurrentScope; if (local) { /* Find the closest enclosing open scope. This is the procedure that we are dealing with */ while (scope->sc_scopeclosed) scope = scope->next; } while (IdList) { df = define(IdList->nd_IDF, CurrentScope, D_VARIABLE); df->df_type = type; if (IdList->nd_left) { /* An address was supplied */ df->var_addrgiven = 1; if (IdList->nd_left->nd_type != card_type) { node_error(IdList->nd_left,"Illegal type for address"); } df->var_off = IdList->nd_left->nd_INT; } else if (local) { arith off; /* add aligned size of variable to the offset */ off = scope->sc_off - type->tp_size; off = -align(-off, type->tp_align); df->var_off = off; scope->sc_off = off; } else if (!DefinitionModule && CurrentScope != Defined->mod_scope) { scope->sc_off = align(scope->sc_off, type->tp_align); df->var_off = scope->sc_off; scope->sc_off += type->tp_size; } else { sprint(buf,"%s_%s", df->df_scope->sc_name, df->df_idf->id_text); df->var_name = Malloc((unsigned)(strlen(buf)+1)); strcpy(df->var_name, buf); if (DefinitionModule) { C_exa_dnam(df->var_name); } else { C_ina_dnam(df->var_name); } } IdList = IdList->nd_right; } } struct def * lookfor(id, scope, give_error) struct node *id; struct scope *scope; { /* Look for an identifier in the visibility range started by "scope". If it is not defined, maybe give an error message, and create a dummy definition. */ struct def *df; register struct scope *sc = scope; struct def *MkDef(); while (sc) { df = lookup(id->nd_IDF, sc); if (df) return df; sc = nextvisible(sc); } if (give_error) id_not_declared(id); return MkDef(id->nd_IDF, scope, D_ERROR); }