/* D E F I N I T I O N M E C H A N I S M */ #include "debug.h" #include #include #include #include #include "main.h" #include "def.h" #include "type.h" #include "idf.h" #include "scope.h" #include "LLlex.h" #include "node.h" #include "Lpars.h" extern int (*c_inp)(); STATIC DefInFront(df) register struct def *df; { /* Put definition "df" in front of the list of definitions in its scope. This is neccessary because in some cases the order in this list is important. */ register struct def *df1 = df->df_scope->sc_def; if (df1 != df) { /* Definition "df" is not in front of the list */ while (df1) { /* Find definition "df" */ if (df1->df_nextinscope == df) { /* It already was in the list. Remove it */ df1->df_nextinscope = df->df_nextinscope; break; } df1 = df1->df_nextinscope; } /* Now put it in front */ df->df_nextinscope = df->df_scope->sc_def; df->df_scope->sc_def = df; } } struct def * MkDef(id, scope, kind) register struct idf *id; register struct scope *scope; { /* Create a new definition structure in scope "scope", with id "id" and kind "kind". */ register struct def *df; df = new_def(); df->df_idf = id; df->df_scope = scope; df->df_kind = kind; df->next = id->id_def; id->id_def = df; /* enter the definition in the list of definitions in this scope */ df->df_nextinscope = scope->sc_def; scope->sc_def = df; return df; } struct def * define(id, scope, kind) register struct idf *id; register struct scope *scope; int kind; { /* Declare an identifier in a scope, but first check if it already has been defined. If so, then check for the cases in which this is legal, and otherwise give an error message. */ register struct def *df; df = lookup(id, scope, 1); if ( /* Already in this scope */ df || /* A closed scope, and id defined in the pervasive scope */ ( scopeclosed(scope) && (df = lookup(id, PervasiveScope, 1))) ) { switch(df->df_kind) { case D_HIDDEN: /* An opaque type. We may now have found the definition of this type. */ if (kind == D_TYPE && !DefinitionModule) { df->df_kind = D_TYPE; return df; } break; case D_FORWMODULE: /* A forward reference to a module. We may have found another one, or we may have found the definition for this module. */ if (kind == D_FORWMODULE) { return df; } if (kind == D_MODULE) { FreeNode(df->for_node); df->mod_vis = df->for_vis; df->df_kind = kind; DefInFront(df); return df; } break; case D_TYPE: if (kind == D_FORWTYPE) return df; break; case D_FORWTYPE: if (kind == D_FORWTYPE) return df; if (kind == D_TYPE) { df->df_kind = D_FTYPE; FreeNode(df->df_forw_node); } else { error("identifier \"%s\" must be a type", id->id_text); } return df; case D_FORWARD: /* A forward reference, for which we may now have found a definition. */ if (kind != D_FORWARD) { FreeNode(df->for_node); } /* Fall through */ case D_ERROR: /* A definition generated by the compiler, because it found an error. Maybe, the user gives a definition after all. */ df->df_kind = kind; return df; } if (kind != D_ERROR) { /* Avoid spurious error messages */ error("identifier \"%s\" already declared", id->id_text); } return df; } return MkDef(id, scope, kind); } RemoveImports(pdf) register struct def **pdf; { /* Remove all imports from a definition module. This is neccesary because the implementation module might import them again. */ register struct def *df = *pdf; while (df) { if (df->df_kind == D_IMPORT) { RemoveFromIdList(df); *pdf = df->df_nextinscope; free_def(df); } else { pdf = &(df->df_nextinscope); } df = *pdf; } } RemoveFromIdList(df) register struct def *df; { /* Remove definition "df" from the definition list */ register struct idf *id = df->df_idf; register struct def *df1; if ((df1 = id->id_def) == df) id->id_def = df->next; else { while (df1->next != df) { assert(df1->next != 0); df1 = df1->next; } df1->next = df->next; } } struct def * DeclProc(type, id) register struct idf *id; { /* A procedure is declared, either in a definition or a program module. Create a def structure for it (if neccessary). Also create a name for it. */ register struct def *df; register struct scope *scope; extern char *sprint(); static int nmcount; char buf[256]; assert(type & (D_PROCEDURE | D_PROCHEAD)); if (type == D_PROCHEAD) { /* In a definition module */ df = define(id, CurrentScope, type); df->for_node = MkLeaf(Name, &dot); sprint(buf,"%s_%s",CurrentScope->sc_name,id->id_text); df->for_name = Salloc(buf, (unsigned) (strlen(buf)+1)); if (CurrVis == Defined->mod_vis) { /* The current module will define this routine. make sure the name is exported. */ C_exp(df->for_name); } } else { char *name; df = lookup(id, CurrentScope, 1); if (df && df->df_kind == D_PROCHEAD) { /* C_exp already generated when we saw the definition in the definition module */ df->df_kind = D_PROCEDURE; name = df->for_name; DefInFront(df); } else { df = define(id, CurrentScope, type); sprint(buf,"_%d_%s",++nmcount,id->id_text); name = Salloc(buf, (unsigned)(strlen(buf)+1)); (*c_inp)(buf); } open_scope(OPENSCOPE); scope = CurrentScope; scope->sc_name = name; scope->sc_definedby = df; df->prc_vis = CurrVis; } return df; } EndProc(df, id) register struct def *df; struct idf *id; { /* The end of a procedure declaration. Check that the closing identifier matches the name of the procedure, close the scope, and check that a function procedure has at least one RETURN statement. */ extern int return_occurred; match_id(id, df->df_idf); close_scope(SC_CHKFORW|SC_REVERSE); if (! return_occurred && ResultType(df->df_type)) { error("function procedure %s does not return a value", df->df_idf->id_text); } } struct def * DefineLocalModule(id) struct idf *id; { /* Create a definition for a local module. Also give it a name to be used for code generation. */ register struct def *df = define(id, CurrentScope, D_MODULE); register struct scope *sc; static int modulecount = 0; char buf[256]; extern char *sprint(); extern int proclevel; sprint(buf, "_%d%s", ++modulecount, id->id_text); if (!df->mod_vis) { /* We never saw the name of this module before. Create a scope for it. */ open_scope(CLOSEDSCOPE); df->mod_vis = CurrVis; } CurrVis = df->mod_vis; sc = CurrentScope; sc->sc_level = proclevel; sc->sc_definedby = df; sc->sc_name = Salloc(buf, (unsigned) (strlen(buf) + 1)); /* Create a type for it */ df->df_type = standard_type(T_RECORD, 1, (arith) 0); df->df_type->rec_scope = sc; /* Generate code that indicates that the initialization procedure for this module is local. */ (*c_inp)(buf); return df; } CheckWithDef(df, tp) register struct def *df; struct type *tp; { /* Check the header of a procedure declaration against a possible earlier definition in the definition module. */ if (df->df_type) { /* We already saw a definition of this type in the definition module. */ if (!TstProcEquiv(tp, df->df_type)) { error("inconsistent procedure declaration for \"%s\"", df->df_idf->id_text); } FreeType(df->df_type); } df->df_type = tp; } #ifdef DEBUG PrDef(df) register struct def *df; { print("n: %s, k: %d\n", df->df_idf->id_text, df->df_kind); } #endif DEBUG