133 lines
2.8 KiB
C
133 lines
2.8 KiB
C
/* S C O P E M E C H A N I S M */
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static char *RcsId = "$Header$";
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#include <assert.h>
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#include <alloc.h>
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#include <em_arith.h>
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#include <em_label.h>
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#include "LLlex.h"
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#include "idf.h"
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#include "scope.h"
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#include "type.h"
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#include "def.h"
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#include "node.h"
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#include "debug.h"
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static int maxscope; /* maximum assigned scope number */
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struct scope *CurrentScope, *GlobalScope;
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/* STATICALLOCDEF "scope" */
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open_scope(scopetype, scope)
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{
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/* Open a scope that is either open (automatic imports) or closed.
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A closed scope is handled by adding an extra entry to the list
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with scope number 0. This has two purposes: it makes scope 0
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visible, and it marks the end of a visibility list.
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Scope 0 is the pervasive scope, the one that is always visible.
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A disadvantage of this method is that we cannot open scope 0
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explicitly.
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*/
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register struct scope *sc = new_scope();
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register struct scope *sc1;
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sc->sc_scope = scope == 0 ? ++maxscope : scope;
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sc->sc_forw = 0;
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sc->sc_def = 0;
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assert(scopetype == OPENSCOPE || scopetype == CLOSEDSCOPE);
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DO_DEBUG(1, debug("Opening a %s scope",
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scopetype == OPENSCOPE ? "open" : "closed"));
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sc1 = CurrentScope;
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if (scopetype == CLOSEDSCOPE) {
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sc1 = new_scope();
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sc1->sc_scope = 0; /* Pervasive scope nr */
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sc1->sc_forw = 0;
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sc1->sc_def = 0;
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sc1->next = CurrentScope;
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}
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sc->next = sc1;
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CurrentScope = sc;
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}
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init_scope()
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{
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register struct scope *sc = new_scope();
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sc->sc_scope = 0;
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sc->sc_forw = 0;
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sc->sc_def = 0;
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CurrentScope = sc;
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}
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int
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uniq_scope()
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{
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return ++maxscope;
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}
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struct forwards {
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struct forwards *next;
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struct node fo_tok;
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struct type **fo_ptyp;
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};
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/* STATICALLOCDEF "forwards" */
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Forward(tk, ptp)
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struct token *tk;
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struct type **ptp;
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{
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/* Enter a forward reference into a list belonging to the
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current scope. This is used for POINTER declarations, which
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may have forward references that must howewer be declared in the
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same scope.
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*/
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register struct forwards *f = new_forwards();
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f->fo_tok.nd_token = *tk;
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f->fo_ptyp = ptp;
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f->next = CurrentScope->sc_forw;
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CurrentScope->sc_forw = f;
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}
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close_scope()
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{
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register struct scope *sc = CurrentScope;
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assert(sc != 0);
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DO_DEBUG(1, debug("Closing a scope"));
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if (sc->sc_forw) rem_forwards(sc->sc_forw);
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if (sc->next && (sc->next->sc_scope == 0)) {
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struct scope *sc1 = sc;
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sc = sc->next;
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free_scope(sc1);
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}
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CurrentScope = sc->next;
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free_scope(sc);
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}
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static
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rem_forwards(fo)
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struct forwards *fo;
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{
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/* When closing a scope, all forward references must be resolved
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*/
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register struct forwards *f;
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register struct def *df;
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struct def *lookfor();
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while (f = fo) {
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df = lookfor(&(f->fo_tok), CurrentScope, 1);
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if (!(df->df_kind & (D_TYPE | D_HTYPE | D_ERROR))) {
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node_error(&(f->fo_tok), "identifier \"%s\" not a type",
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df->df_idf->id_text);
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}
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*(f->fo_ptyp) = df->df_type;
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fo = f->next;
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free_forwards(f);
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}
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}
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