/* * (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 */ /* H I G H L E V E L S Y M B O L E N T R Y */ /* $Header$ */ #include "debug.h" #include #include #include #include #include #include "idf.h" #include "LLlex.h" #include "def.h" #include "type.h" #include "scope.h" #include "node.h" #include "main.h" #include "misc.h" #include "f_info.h" t_def * Enter(name, kind, type, pnam) char *name; t_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. */ register t_def *df; df = define(str2idf(name, 0), CurrentScope, kind); df->df_type = type; if (pnam) df->df_value.df_stdname = pnam; return df; } EnterType(name, type) char *name; t_type *type; { /* Enter a type definition for "name" and type "type" in the Current Scope. */ if (! Enter(name, D_TYPE, type, 0)) { assert(0); } } EnterEnumList(Idlist, type) t_node *Idlist; register t_type *type; { /* Put a list of enumeration literals in the symbol table. They all have type "type". Also assign numbers to them, and link them together. We must link them together because an enumeration type may be exported, in which case its literals must also be exported. Thus, we need an easy way to get to them. */ register t_def *df; register t_node *idlist = Idlist; type->enm_ncst = 0; for (; idlist; idlist = idlist->nd_left) { df = define(idlist->nd_IDF, CurrentScope, D_ENUM); df->df_type = type; df->enm_val = (type->enm_ncst)++; df->enm_next = type->enm_enums; type->enm_enums = df; } FreeNode(Idlist); } EnterFieldList(Idlist, type, scope, addr) t_node *Idlist; register t_type *type; t_scope *scope; arith *addr; { /* Put a list of fields in the symbol table. They all have type "type", and are put in scope "scope". Mark them as QUALIFIED EXPORT, because that's exactly what fields are, you can get to them by qualifying them. */ register t_def *df; register t_node *idlist = Idlist; for (; idlist; idlist = idlist->nd_left) { df = define(idlist->nd_IDF, scope, D_FIELD); df->df_type = type; df->df_flags |= D_QEXPORTED; df->fld_off = align(*addr, type->tp_align); *addr = df->fld_off + type->tp_size; } FreeNode(Idlist); } EnterVarList(Idlist, type, local) t_node *Idlist; t_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 t_def *df; register t_node *idlist = Idlist; register t_scopelist *sc = CurrVis; char buf[256]; extern char *sprint(); if (local) { /* Find the closest enclosing open scope. This is the procedure that we are dealing with */ while (sc->sc_scope->sc_scopeclosed) sc = enclosing(sc); } for (; idlist; idlist = idlist->nd_right) { df = define(idlist->nd_IDF, CurrentScope, D_VARIABLE); df->df_type = type; if (idlist->nd_left) { /* An address was supplied */ register t_type *tp = idlist->nd_left->nd_type; df->df_flags |= D_ADDRGIVEN | D_NOREG; if (tp != error_type && !(tp->tp_fund & T_CARDINAL)){ node_error(idlist->nd_left, "illegal type for address"); } df->var_off = idlist->nd_left->nd_INT; } else if (local) { /* subtract aligned size of variable to the offset, as the variable list exists only local to a procedure */ sc->sc_scope->sc_off = -WA(align(type->tp_size - sc->sc_scope->sc_off, type->tp_align)); df->var_off = sc->sc_scope->sc_off; } else { /* Global name, possibly external */ if (sc->sc_scope->sc_definedby->df_flags & D_FOREIGN) { df->var_name = df->df_idf->id_text; } else { sprint(buf,"%s_%s", sc->sc_scope->sc_name, df->df_idf->id_text); df->var_name = Salloc(buf, (unsigned)(strlen(buf)+1)); } df->df_flags |= D_NOREG; if (DefinitionModule) { df->df_flags |= D_USED | D_DEFINED; if (sc == Defined->mod_vis) { C_exa_dnam(df->var_name); } } else { C_ina_dnam(df->var_name); } } } FreeNode(Idlist); } EnterParamList(ppr, Idlist, type, VARp, off) t_param **ppr; t_node *Idlist; t_type *type; int VARp; arith *off; { /* Create (part of) a parameterlist of a procedure. "ids" indicates the list of identifiers, "tp" their type, and "VARp" indicates D_VARPAR or D_VALPAR. */ register t_param *pr; register t_def *df; register t_node *idlist = Idlist; t_node *dummy = 0; static t_param *last; if (! idlist) { /* Can only happen when a procedure type is defined */ dummy = Idlist = idlist = dot2leaf(Name); } for ( ; idlist; idlist = idlist->nd_left) { pr = new_paramlist(); pr->par_next = 0; if (!*ppr) *ppr = pr; else last->par_next = pr; last = pr; if (!DefinitionModule && idlist != dummy) { df = define(idlist->nd_IDF, CurrentScope, D_VARIABLE); df->var_off = *off; } else df = new_def(); pr->par_def = df; df->df_type = type; df->df_flags |= VARp; if (IsConformantArray(type)) { /* we need room for the base address and a descriptor */ *off += pointer_size + word_size + dword_size; } else if (VARp == D_VARPAR || IsBigParamTp(type)) { *off += pointer_size; } else { *off += WA(type->tp_size); } } FreeNode(Idlist); } STATIC t_def *DoImport(); ImportEffects(idef, scope, flag) register t_def *idef; t_scope *scope; { /* Handle side effects of an import: - a module could have unqualified exports ??? - importing an enumeration type also imports literals */ register t_def *df = idef; register t_type *tp; while (df->df_kind & D_IMPORTED) { df = df->imp_def; } tp = BaseType(df->df_type); if (df->df_kind == D_TYPE && tp->tp_fund == T_ENUMERATION) { /* Also import all enumeration literals */ for (df = tp->enm_enums; df; df = df->enm_next) { /* But be careful; we could have a situation where f.i. different subrange types of the enumeration type are imported. If the literal is already imported in some way, don't do it again; we don't want a multiple defined error message here. */ t_def *df1; df->df_flags |= D_QEXPORTED; if ((!(df1 = lookup(df->df_idf, scope, D_IMPORT, 0)) || df1 != df) && ! DoImport(df, scope, flag|D_USED)) assert(0); /* don't complain when not used ... */ } idef->df_flags |= D_USED; /* don't complain ... */ } else if (df->df_kind == D_MODULE) { if (df->mod_vis == CurrVis) { error("cannot import current module \"%s\"", df->df_idf->id_text); return; } if (df->df_scope == GlobalScope) return; /* Also import all definitions that are exported from this module */ for (df = df->mod_vis->sc_scope->sc_def; df; df = df->df_nextinscope) { if (df->df_flags & D_EXPORTED) { if (!DoImport(df, scope, D_IMP_BY_EXP|D_USED)){ assert(0); } /* don't complain when these are not used */ } } idef->df_flags |= D_USED; /* don't complain ... */ } } STATIC t_def * DoImport(df, scope, flag) register t_def *df; t_scope *scope; { /* Definition "df" is imported to scope "scope". */ register t_def *idef = define(df->df_idf, scope, D_IMPORT); idef->imp_def = df; idef->df_flags |= flag; ImportEffects(idef, scope, flag); return idef; } STATIC ForwModule(df, nd) register t_def *df; t_node *nd; { /* An import is done from a not yet defined module "df". We could also end up here for not found DEFINITION MODULES. Create a declaration and a scope for this module. */ register t_scopelist *vis; if (df->df_scope != GlobalScope) { df->df_scope = enclosing(CurrVis)->sc_scope; df->df_kind = D_FORWMODULE; } open_scope(CLOSEDSCOPE); vis = CurrVis; /* The new scope, but watch out, it's "sc_encl" field is not set right. It must indicate the enclosing scope, but this must be done AFTER closing this one */ close_scope(0); vis->sc_encl = enclosing(CurrVis); /* Here ! */ df->for_vis = vis; df->for_node = nd; } STATIC t_def * ForwDef(ids, scope) register t_node *ids; t_scope *scope; { /* Enter a forward definition of "ids" in scope "scope", if it is not already defined. */ register t_def *df; if (!(df = lookup(ids->nd_IDF, scope, 0, 0))) { df = define(ids->nd_IDF, scope, D_FORWARD); df->for_node = MkLeaf(Name, &(ids->nd_token)); } return df; } EnterExportList(Idlist, qualified) t_node *Idlist; { /* From the current scope, the list of identifiers "ids" is exported. Note this fact. If the export is not qualified, make all the "ids" visible in the enclosing scope by defining them in this scope as "imported". */ register t_node *idlist = Idlist; register t_def *df, *df1; for (;idlist; idlist = idlist->nd_left) { df = lookup(idlist->nd_IDF, CurrentScope, 0, 0); if (!df) { /* undefined item in export list */ node_error(idlist, "identifier \"%s\" not defined", idlist->nd_IDF->id_text); continue; } if (df->df_flags & (D_EXPORTED|D_QEXPORTED)) { node_error(idlist, "multiple occurrences of \"%s\" in export list", idlist->nd_IDF->id_text); continue; } df->df_flags |= qualified; if (qualified == D_EXPORTED) { /* Export, but not qualified. Find all imports of the module in which this export occurs, and export the current definition to it */ df1 = CurrentScope->sc_definedby->df_idf->id_def; while (df1) { if ((df1->df_kind & D_IMPORTED) && df1->imp_def == CurrentScope->sc_definedby) { if (! DoImport(df, df1->df_scope, D_IMP_BY_EXP)) assert(0); } df1 = df1->df_next; } /* Also handle the definition as if the enclosing scope imports it. */ df1 = lookup(idlist->nd_IDF, enclosing(CurrVis)->sc_scope, D_IMPORTED, 0); if (df1) { /* It was already defined in the enclosing scope. There are two legal possibilities, which are examined below. */ t_def *df2 = df; while (df2->df_kind & D_IMPORTED) { df2 = df2->imp_def; } if (df1->df_kind == D_PROCHEAD && df2->df_kind == D_PROCEDURE) { df1->df_kind = D_IMPORT; df1->df_flags |= D_IMP_BY_EXP; df1->imp_def = df; continue; } if (df1->df_kind == D_HIDDEN && df2->df_kind == D_TYPE) { DeclareType(idlist, df1, df2->df_type); df1->df_kind = D_TYPE; continue; } } if (! DoImport(df,enclosing(CurrVis)->sc_scope,D_IMP_BY_EXP)) assert(0); } } FreeNode(Idlist); } CheckForImports(df) t_def *df; { /* We have a definition for "df"; check all imports of it for side-effects */ register t_def *df1 = df->df_idf->id_def; while (df1) { if (df1->df_kind & D_IMPORTED) { register t_def *df2 = df1->imp_def; while (df2->df_kind & D_IMPORTED) df2 = df2->imp_def; if (df2 == df) { ImportEffects(df1, df1->df_scope, 0); } } df1 = df1->df_next; } } EnterFromImportList(idlist, FromDef, FromId) register t_node *idlist; register t_def *FromDef; t_node *FromId; { /* Import the list Idlist from the module indicated by Fromdef. */ t_scope *sc; register t_def *df; char *module_name = FromDef->df_idf->id_text; switch(FromDef->df_kind) { case D_ERROR: case D_FORWARD: /* The module from which the import was done is not yet declared. I'm not sure if I must accept this, but for the time being I will. We also end up here if some definition module could not be found. ??? */ ForwModule(FromDef, FromId); /* Fall through */ case D_FORWMODULE: EnterImportList(idlist, 1, FromDef->for_vis->sc_scope); return; case D_MODULE: sc = FromDef->mod_vis->sc_scope; if (sc == CurrentScope) { node_error(FromId, "cannot import from current module \"%s\"", module_name); return; } break; default: node_error(FromId,"identifier \"%s\" does not represent a module",module_name); return; } for (; idlist; idlist = idlist->nd_left) { if (! (df = lookup(idlist->nd_IDF, sc, 0, 0))) { if (! is_anon_idf(idlist->nd_IDF)) { node_error(idlist, "identifier \"%s\" not declared in module \"%s\"", idlist->nd_IDF->id_text, module_name); } df = define(idlist->nd_IDF,sc,D_ERROR); } else if (! (df->df_flags & (D_EXPORTED|D_QEXPORTED))) { node_error(idlist, "identifier \"%s\" not exported from module \"%s\"", idlist->nd_IDF->id_text, module_name); df->df_flags |= D_QEXPORTED; } if (! DoImport(df, CurrentScope, 0)) assert(0); } FreeNode(FromId); } EnterImportList(idlist, local, sc) register t_node *idlist; t_scope *sc; { /* Import "idlist" from scope "sc". If the import is not local, definition modules must be read for "idlist". */ extern t_def *GetDefinitionModule(); struct f_info f; f = file_info; for (; idlist; idlist = idlist->nd_left) { if (! DoImport(local ? ForwDef(idlist, sc) : GetDefinitionModule(idlist->nd_IDF, 1), CurrentScope, 0)) assert(0); file_info = f; } }