/* S C O P E M E C H A N I S M */ static char *RcsId = "$Header$"; #include #include #include #include #include "LLlex.h" #include "idf.h" #include "scope.h" #include "type.h" #include "def.h" #include "node.h" #include "debug.h" static int maxscope; /* maximum assigned scope number */ struct scope *CurrentScope, *GlobalScope; /* STATICALLOCDEF "scope" */ open_scope(scopetype, scope) { /* Open a scope that is either open (automatic imports) or closed. A closed scope is handled by adding an extra entry to the list with scope number 0. This has two purposes: it makes scope 0 visible, and it marks the end of a visibility list. Scope 0 is the pervasive scope, the one that is always visible. A disadvantage of this method is that we cannot open scope 0 explicitly. */ register struct scope *sc = new_scope(); register struct scope *sc1; sc->sc_scope = scope == 0 ? ++maxscope : scope; sc->sc_forw = 0; sc->sc_def = 0; assert(scopetype == OPENSCOPE || scopetype == CLOSEDSCOPE); DO_DEBUG(1, debug("Opening a %s scope", scopetype == OPENSCOPE ? "open" : "closed")); sc1 = CurrentScope; if (scopetype == CLOSEDSCOPE) { sc1 = new_scope(); sc1->sc_scope = 0; /* Pervasive scope nr */ sc1->sc_forw = 0; sc1->sc_def = 0; sc1->next = CurrentScope; } sc->next = sc1; CurrentScope = sc; } init_scope() { register struct scope *sc = new_scope(); sc->sc_scope = 0; sc->sc_forw = 0; sc->sc_def = 0; CurrentScope = sc; } int uniq_scope() { return ++maxscope; } struct forwards { struct forwards *next; struct node fo_tok; struct type **fo_ptyp; }; /* STATICALLOCDEF "forwards" */ Forward(tk, ptp) struct token *tk; struct type **ptp; { /* Enter a forward reference into a list belonging to the current scope. This is used for POINTER declarations, which may have forward references that must howewer be declared in the same scope. */ register struct forwards *f = new_forwards(); f->fo_tok.nd_token = *tk; f->fo_ptyp = ptp; f->next = CurrentScope->sc_forw; CurrentScope->sc_forw = f; } close_scope(flag) { /* Close a scope. If "flag" is set, check for forward declarations, either POINTER declarations, or EXPORTs, or forward references to MODULES */ register struct scope *sc = CurrentScope; register struct def *df, *dfback = 0; assert(sc != 0); DO_DEBUG(1, debug("Closing a scope")); if (flag) { if (sc->sc_forw) rem_forwards(sc->sc_forw); df = sc->sc_def; while(df) { if (flag & SC_CHKPROC) { if (df->df_kind == D_PROCHEAD) { /* A not defined procedure */ node_error(df->for_node, "procedure \"%s\" not defined", df->df_idf->id_text); FreeNode(df->for_node); } } if ((flag & SC_CHKFORW) && df->df_kind & (D_FORWARD|D_FORWMODULE)) { /* These definitions must be found in the enclosing closed scope, which of course may be the scope that is now closed! */ struct def *df1 = df->df_nextinscope; if (scopeclosed(CurrentScope)) { /* Indeed, the scope was a closed scope, so give error message */ node_error(df->for_node, "identifier \"%s\" not declared", df->df_idf->id_text); FreeNode(df->for_node); dfback = df; } else { /* This scope was an open scope. Maybe the definitions are in the enclosing scope? */ struct scope *sc; sc = enclosing(CurrentScope); df->df_nextinscope = sc->sc_def; sc->sc_def = df; df->df_scope = sc->sc_scope; if (dfback) dfback->df_nextinscope = df1; else sc->sc_def = df1; } df = df1; } else { dfback = df; df = df->df_nextinscope; } } } if (sc->next && (sc->next->sc_scope == 0)) { sc = sc->next; } CurrentScope = sc->next; } static rem_forwards(fo) struct forwards *fo; { /* When closing a scope, all forward references must be resolved */ register struct forwards *f; register struct def *df; struct def *lookfor(); while (f = fo) { df = lookfor(&(f->fo_tok), CurrentScope, 1); if (!(df->df_kind & (D_TYPE|D_HTYPE|D_ERROR))) { node_error(&(f->fo_tok), "identifier \"%s\" not a type", df->df_idf->id_text); } *(f->fo_ptyp) = df->df_type; fo = f->next; free_forwards(f); } }