/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * * Author: Ceriel J.H. Jacobs */ /* O V E R A L L S T R U C T U R E */ /* $Id$ */ { #include #include #include "parameters.h" #include "debug.h" #include #include #include #include #include #include "main.h" #include "idf.h" #include "LLlex.h" #include "scope.h" #include "def.h" #include "type.h" #include "node.h" #include "f_info.h" #include "warning.h" #include "misc.h" extern t_def *GetDefinitionModule(); } /* The grammar as given by Wirth is already almost LL(1); the main problem is that the full form of a qualified designator may be: [ module_ident '.' ]* IDENT [ '.' field_ident ]* which is quite confusing to an LL(1) parser. Rather than resorting to context-sensitive techniques, I have decided to render this as: IDENT [ '.' IDENT ]* on the grounds that it is quite natural to consider the first IDENT to be the name of the object and regard the others as field identifiers. */ %lexical LLlex; %start CompUnit, CompilationUnit; %start DefModule, DefinitionModule; ModuleDeclaration { register t_def *df; t_node *exportlist; int qualified; } : MODULE IDENT { df = DefineLocalModule(dot.TOK_IDF); } priority(&(df->mod_priority)) ';' import(1)* export(&qualified, &exportlist) block(&(df->mod_body)) IDENT { EnterExportList(exportlist, qualified); close_scope(SC_CHKFORW|SC_CHKPROC|SC_REVERSE); match_id(df->df_idf, dot.TOK_IDF); } ; priority(register t_node **prio;): [ '[' ConstExpression(prio) ']' { if (! ((*prio)->nd_type->tp_fund & T_CARDINAL)) { node_error(*prio, "illegal priority"); } } | ] ; export(int *QUALflag; t_node **ExportList;): { *ExportList = 0; *QUALflag = D_EXPORTED; } [ EXPORT [ QUALIFIED { *QUALflag = D_QEXPORTED; } | ] IdentList(ExportList) ';' | ] ; import(int local;) { t_node *ImportList; register t_node *FromId = 0; register t_def *df; } : /* When parsing a global module, this is the place where we must read already compiled definition modules. If the FROM clause is present, the identifier in it is a module name, otherwise the names in the import list are module names. */ [ FROM IDENT %substart DefinitionModule; { FromId = dot2leaf(Name); if (local) { df = lookfor(FromId,enclosing(CurrVis),0,D_USED); } else df = GetDefinitionModule(dot.TOK_IDF, 1); } ]? IMPORT IdentList(&ImportList) ';' %substart DefinitionModule; { if (FromId) { EnterFromImportList(ImportList, df, FromId); } else { EnterImportList(ImportList, local, enclosing(CurrVis)->sc_scope); } FreeNode(ImportList); } ; DefinitionModule { register t_def *df; t_node *exportlist; int dummy; extern t_idf *DefId; extern int ForeignFlag; extern char *sprint(); register t_scope *currscope = CurrentScope; char buf[512]; } : DEFINITION MODULE IDENT { df = define(dot.TOK_IDF, GlobalScope, D_MODULE); df->df_flags |= D_BUSY | ForeignFlag; currscope->sc_definedby = df; if (DefId && df->df_idf != DefId && !is_anon_idf(df->df_idf)) { error("DEFINITION MODULE name is \"%s\", not \"%s\"", df->df_idf->id_text, DefId->id_text); } sprint(buf, "_%s_", df->df_idf->id_text); currscope->sc_name = Salloc(buf, (unsigned) strlen(buf) + 1); df->mod_vis = CurrVis; df->df_type = standard_type(T_RECORD, 1, (arith) 1); df->df_type->rec_scope = currscope; DefinitionModule++; if (!Defined) { Defined = df; } } ';' import(0)* export(&dummy, &exportlist) /* New Modula-2 does not have export lists in definition modules. Issue a warning. */ { if (exportlist) { #ifndef STRICT_3RD_ED if (! options['3']) node_warning(exportlist, W_OLDFASHIONED, "export list in definition module ignored"); else #endif error("export list not allowed in definition module"); FreeNode(exportlist); } } definition* END IDENT { end_definition_list(&(currscope->sc_def)); DefinitionModule--; match_id(dot.TOK_IDF, df->df_idf); df->df_flags &= ~D_BUSY; } '.' ; definition { register t_def *df; t_def *dummy; } : CONST [ %persistent ConstantDeclaration ';' ]* | TYPE [ %persistent IDENT { df = define(dot.TOK_IDF, CurrentScope, D_TYPE); } [ '=' type(&(df->df_type)) { SolveForwardTypeRefs(df); } | /* empty */ /* Here, the exported type has a hidden implementation. The export is said to be opaque. It is restricted to pointer types. */ { df->df_kind = D_HIDDEN; df->df_type = construct_type(T_HIDDEN, NULLTYPE); } ] { #ifdef DBSYMTAB if (options['g']) stb_string(df, D_TYPE); #endif } ';' ]* | VAR [ %persistent VariableDeclaration ';' ]* | ProcedureHeading(&dummy, D_PROCHEAD) ';' ; ProgramModule { register t_def *df; } : MODULE IDENT %substart DefinitionModule; { if (state == IMPLEMENTATION) { int len = strlen(dot.TOK_IDF->id_text); char* leafname = strrchr(FileName, '/'); if (leafname) leafname++; else leafname = FileName; if (len > 10) len = 10; if (strncmp(leafname, dot.TOK_IDF->id_text, len)) { warning(W_ORDINARY, "modulename %s does not match filename %s", dot.TOK_IDF->id_text, leafname); } df = GetDefinitionModule(dot.TOK_IDF, 0); CurrVis = df->mod_vis; } else { Defined = df = define(dot.TOK_IDF, GlobalScope, D_MODULE); open_scope(CLOSEDSCOPE); df->mod_vis = CurrVis; CurrentScope->sc_name = "__M2M_"; CurrentScope->sc_definedby = df; } } priority(&(df->mod_priority)) ';' import(0)* block(&(df->mod_body)) IDENT { close_scope(SC_CHKFORW|SC_CHKPROC|SC_REVERSE); match_id(df->df_idf, dot.TOK_IDF); } '.' ; CompilationUnit: { error("Compiling a definition module"); open_scope(CLOSEDSCOPE); state = DEFINITION; } DefinitionModule { close_scope(SC_CHKFORW); } | %default [ IMPLEMENTATION { state = IMPLEMENTATION; } | /* empty */ { state = PROGRAM; } ] ProgramModule ;