424 lines
11 KiB
C
424 lines
11 KiB
C
/* H I G H L E V E L S Y M B O L E N T R Y */
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#ifndef NORCSID
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static char *RcsId = "$Header$";
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#endif
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#include "debug.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 <assert.h>
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#include "idf.h"
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#include "def.h"
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#include "type.h"
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#include "scope.h"
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#include "LLlex.h"
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#include "node.h"
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#include "main.h"
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struct def *
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Enter(name, kind, type, pnam)
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char *name;
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struct type *type;
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{
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/* Enter a definition for "name" with kind "kind" and type
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"type" in the Current Scope. If it is a standard name, also
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put its number in the definition structure.
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*/
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register struct def *df;
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df = define(str2idf(name, 0), CurrentScope, kind);
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df->df_type = type;
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if (pnam) df->df_value.df_stdname = pnam;
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return df;
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}
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EnterEnumList(Idlist, type)
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struct node *Idlist;
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register struct type *type;
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{
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/* Put a list of enumeration literals in the symbol table.
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They all have type "type".
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Also assign numbers to them, and link them together.
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We must link them together because an enumeration type may
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be exported, in which case its literals must also be exported.
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Thus, we need an easy way to get to them.
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*/
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register struct def *df;
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register struct node *idlist = Idlist;
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type->enm_ncst = 0;
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for (; idlist; idlist = idlist->next) {
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df = define(idlist->nd_IDF, CurrentScope, D_ENUM);
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df->df_type = type;
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df->enm_val = (type->enm_ncst)++;
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df->enm_next = type->enm_enums;
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type->enm_enums = df;
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}
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FreeNode(Idlist);
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}
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EnterFieldList(Idlist, type, scope, addr)
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struct node *Idlist;
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register struct type *type;
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struct scope *scope;
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arith *addr;
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{
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/* Put a list of fields in the symbol table.
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They all have type "type", and are put in scope "scope".
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Mark them as QUALIFIED EXPORT, because that's exactly what
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fields are, you can get to them by qualifying them.
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*/
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register struct def *df;
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register struct node *idlist = Idlist;
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for (; idlist; idlist = idlist->next) {
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df = define(idlist->nd_IDF, scope, D_FIELD);
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df->df_type = type;
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df->df_flags |= D_QEXPORTED;
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df->fld_off = align(*addr, type->tp_align);
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*addr = df->fld_off + type->tp_size;
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}
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FreeNode(Idlist);
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}
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EnterVarList(Idlist, type, local)
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struct node *Idlist;
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struct type *type;
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{
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/* Enter a list of identifiers representing variables into the
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name list. "type" represents the type of the variables.
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"local" is set if the variables are declared local to a
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procedure.
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*/
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register struct def *df;
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register struct node *idlist = Idlist;
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register struct scopelist *sc;
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char buf[256];
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extern char *sprint();
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sc = CurrVis;
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if (local) {
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/* Find the closest enclosing open scope. This
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is the procedure that we are dealing with
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*/
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while (sc->sc_scope->sc_scopeclosed) sc = enclosing(sc);
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}
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for (; idlist; idlist = idlist->nd_right) {
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df = define(idlist->nd_IDF, CurrentScope, D_VARIABLE);
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df->df_type = type;
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if (idlist->nd_left) {
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/* An address was supplied
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*/
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df->var_addrgiven = 1;
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if (idlist->nd_left->nd_type != card_type) {
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node_error(idlist->nd_left,"Illegal type for address");
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}
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df->var_off = idlist->nd_left->nd_INT;
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}
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else if (local) {
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/* subtract aligned size of variable to the offset,
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as the variable list exists only local to a
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procedure
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*/
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sc->sc_scope->sc_off =
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-WA(align(type->tp_size - sc->sc_scope->sc_off,
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type->tp_align));
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df->var_off = sc->sc_scope->sc_off;
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}
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else {
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/* Global name, possibly external
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*/
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sprint(buf,"%s_%s", sc->sc_scope->sc_name,
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df->df_idf->id_text);
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df->var_name = Salloc(buf, (unsigned)(strlen(buf)+1));
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if (DefinitionModule) {
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C_exa_dnam(df->var_name);
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}
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else {
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C_ina_dnam(df->var_name);
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}
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}
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}
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FreeNode(Idlist);
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}
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EnterParamList(ppr, Idlist, type, VARp, off)
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struct node *Idlist;
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struct paramlist **ppr;
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struct type *type;
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int VARp;
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arith *off;
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{
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/* Create (part of) a parameterlist of a procedure.
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"ids" indicates the list of identifiers, "tp" their type, and
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"VARp" indicates D_VARPAR or D_VALPAR.
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*/
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register struct paramlist *pr;
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register struct def *df;
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register struct node *idlist = Idlist;
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for ( ; idlist; idlist = idlist->next) {
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pr = new_paramlist();
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pr->next = *ppr;
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*ppr = pr;
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df = define(idlist->nd_IDF, CurrentScope, D_VARIABLE);
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pr->par_def = df;
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df->df_type = type;
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df->var_off = *off;
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df->df_flags = VARp;
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if (IsConformantArray(type)) {
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/* we need room for the base address and a descriptor
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*/
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*off += pointer_size + 3 * word_size;
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}
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else if (VARp == D_VARPAR) {
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*off += pointer_size;
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}
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else {
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*off += WA(type->tp_size);
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}
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}
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FreeNode(Idlist);
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}
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static
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DoImport(df, scope)
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register struct def *df;
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struct scope *scope;
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{
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/* Definition "df" is imported to scope "scope".
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Handle the case that it is an enumeration type or a module.
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*/
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define(df->df_idf, scope, D_IMPORT)->imp_def = df;
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if (df->df_kind == D_TYPE && df->df_type->tp_fund == T_ENUMERATION) {
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/* Also import all enumeration literals
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*/
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df = df->df_type->enm_enums;
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while (df) {
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define(df->df_idf, scope, D_IMPORT)->imp_def = df;
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df = df->enm_next;
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}
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}
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else if (df->df_kind == D_MODULE) {
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/* Also import all definitions that are exported from this
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module
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*/
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df = df->mod_vis->sc_scope->sc_def;
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while (df) {
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if (df->df_flags & D_EXPORTED) {
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define(df->df_idf,scope,D_IMPORT)->imp_def = df;
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}
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df = df->df_nextinscope;
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}
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}
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}
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static struct scopelist *
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ForwModule(df, idn)
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register struct def *df;
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struct node *idn;
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{
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/* An import is done from a not yet defined module "idn".
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Create a declaration and a scope for this module.
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*/
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struct scopelist *vis;
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df->df_scope = enclosing(CurrVis)->sc_scope;
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df->df_kind = D_FORWMODULE;
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open_scope(CLOSEDSCOPE);
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vis = CurrVis; /* The new scope, but watch out, it's "sc_encl"
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field is not set right. It must indicate the
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enclosing scope, but this must be done AFTER
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closing this one
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*/
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df->for_vis = vis;
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df->for_node = MkLeaf(Name, &(idn->nd_token));
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close_scope(0);
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vis->sc_encl = enclosing(CurrVis);
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/* Here ! */
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return vis;
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}
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static struct def *
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ForwDef(ids, scope)
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register struct node *ids;
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struct scope *scope;
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{
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/* Enter a forward definition of "ids" in scope "scope",
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if it is not already defined.
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*/
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register struct def *df;
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if (!(df = lookup(ids->nd_IDF, scope))) {
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df = define(ids->nd_IDF, scope, D_FORWARD);
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df->for_node = MkLeaf(Name, &(ids->nd_token));
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}
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return df;
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}
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EnterExportList(Idlist, qualified)
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struct node *Idlist;
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{
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/* From the current scope, the list of identifiers "ids" is
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exported. Note this fact. If the export is not qualified, make
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all the "ids" visible in the enclosing scope by defining them
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in this scope as "imported".
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*/
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register struct node *idlist = Idlist;
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register struct def *df, *df1;
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register struct def *impmod;
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for (;idlist; idlist = idlist->next) {
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df = lookup(idlist->nd_IDF, CurrentScope);
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if (!df) {
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/* undefined item in export list
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*/
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node_error(idlist, "identifier \"%s\" not defined", idlist->nd_IDF->id_text);
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continue;
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}
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if (df->df_flags & (D_EXPORTED|D_QEXPORTED)) {
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node_error(idlist, "identifier \"%s\" occurs more than once in export list",
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idlist->nd_IDF->id_text);
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}
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df->df_flags |= qualified;
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if (qualified == D_EXPORTED) {
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/* Export, but not qualified.
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Find all imports of the module in which this export
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occurs, and export the current definition to it
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*/
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impmod = CurrentScope->sc_definedby->df_idf->id_def;
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while (impmod) {
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if (impmod->df_kind == D_IMPORT &&
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impmod->imp_def == CurrentScope->sc_definedby) {
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DoImport(df, impmod->df_scope);
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}
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impmod = impmod->next;
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}
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/* Also handle the definition as if the enclosing
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scope imports it.
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*/
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df1 = lookup(idlist->nd_IDF,
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enclosing(CurrVis)->sc_scope);
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if (df1) {
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/* It was already defined in the enclosing
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scope. There are two legal possibilities,
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which are examined below.
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*/
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if ((df1->df_kind == D_PROCHEAD &&
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df->df_kind == D_PROCEDURE) ||
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(df1->df_kind == D_HIDDEN &&
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df->df_kind == D_TYPE)) {
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if (df->df_kind == D_TYPE &&
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df->df_type->tp_fund != T_POINTER) {
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node_error(idlist, "opaque type \"%s\" is not a pointer type", df->df_idf->id_text);
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}
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df1->df_kind = D_IMPORT;
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df1->imp_def = df;
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continue;
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}
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}
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DoImport(df, enclosing(CurrVis)->sc_scope);
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}
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}
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FreeNode(Idlist);
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}
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EnterFromImportList(Idlist, Fromid, local)
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struct node *Idlist;
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register struct node *Fromid;
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{
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/* Import the list Idlist from the module indicated by Fromid.
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An exception must be made for imports of the Compilation Unit,
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because in this case the definition module for Fromid must
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be read.
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This case is indicated by the value 0 of the flag "local".
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*/
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register struct node *idlist = Idlist;
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register struct def *df;
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struct scopelist *vis = enclosing(CurrVis);
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int forwflag = 0;
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extern struct def *lookfor(), *GetDefinitionModule();
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if (local) {
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df = lookfor(Fromid, vis, 0);
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switch(df->df_kind) {
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case D_ERROR:
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/* The module from which the import was done
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is not yet declared. I'm not sure if I must
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accept this, but for the time being I will.
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???
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*/
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vis = ForwModule(df, Fromid);
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forwflag = 1;
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break;
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case D_FORWMODULE:
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vis = df->for_vis;
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break;
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case D_MODULE:
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vis = df->mod_vis;
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break;
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default:
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node_error(Fromid, "identifier \"%s\" does not represent a module",
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Fromid->nd_IDF->id_text);
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break;
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}
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}
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else vis = GetDefinitionModule(Fromid->nd_IDF)->mod_vis;
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FreeNode(Fromid);
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for (; idlist; idlist = idlist->next) {
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if (forwflag) {
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df = ForwDef(idlist, vis->sc_scope);
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}
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else if (!(df = lookup(idlist->nd_IDF, vis->sc_scope))) {
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node_error(idlist, "identifier \"%s\" not declared in qualifying module",
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idlist->nd_IDF->id_text);
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df = define(idlist->nd_IDF,vis->sc_scope,D_ERROR);
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}
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else if (!(df->df_flags&(D_EXPORTED|D_QEXPORTED))) {
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node_error(idlist,"identifier \"%s\" not exported from qualifying module",
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idlist->nd_IDF->id_text);
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df->df_flags |= D_QEXPORTED;
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}
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DoImport(df, CurrentScope);
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}
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FreeNode(Idlist);
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}
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EnterImportList(Idlist, local)
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struct node *Idlist;
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{
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/* Import "Idlist" from the enclosing scope.
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An exception must be made for imports of the compilation unit.
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In this case, definition modules must be read for "Idlist".
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This case is indicated by the value 0 of the "local" flag.
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*/
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register struct node *idlist = Idlist;
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register struct def *df;
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struct scopelist *vis = enclosing(CurrVis);
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extern struct def *lookfor(), *GetDefinitionModule();
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for (; idlist; idlist = idlist->next) {
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if (local) df = ForwDef(idlist, vis->sc_scope);
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else df = GetDefinitionModule(idlist->nd_IDF);
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DoImport(df, CurrentScope);
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}
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FreeNode(Idlist);
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}
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