228 lines
5.2 KiB
C
228 lines
5.2 KiB
C
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/* H I G H L E V E L S Y M B O L E N T R Y */
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#include <alloc.h>
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#include <assert.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 "def.h"
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#include "idf.h"
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#include "main.h"
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#include "node.h"
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#include "scope.h"
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#include "type.h"
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extern int proclevel;
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extern int parlevel;
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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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register 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_reqname = pnam;
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return df;
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}
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EnterProgList(Idlist)
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register struct node *Idlist;
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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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for( ; idlist; idlist = idlist->nd_next )
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if ( !strcmp(input, idlist->nd_IDF->id_text)
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!strcmp(output, idlist->nd_IDF->id_text)
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) {
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/* the occurence of input or output as program-
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* parameter is their declartion as a GLOBAL variable
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* of type text
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*/
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if( df = define(idlist->nd_IDF, CurrentScope,
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D_VARIABLE) ) {
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df->df_type = text_type;
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df->df_flags |= (D_PROGPAR | D_NOREG);
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if( !strcmp(input, idlist->nd_IDF->id_text) ) {
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df->var_name = input;
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set_inp(); /* %%% */
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}
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else {
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df->var_name = output;
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set_outp(); /* %%% */
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}
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}
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}
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else {
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if( df = define(idlist->nd_IDF, CurrentScope,
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D_PARAMETER) ) {
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df->df_type = error_type;
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set_prog(df); /* %%% */
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}
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}
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FreeNode(Idlist);
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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". Also assign numbers 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->nd_next )
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if( 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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}
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FreeNode(Idlist);
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}
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EnterFieldList(Idlist, type, scope, addr, packed)
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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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unsigned short packed;
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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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*/
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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->nd_next )
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if( df = define(idlist->nd_IDF, scope, D_FIELD) ) {
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df->df_type = type;
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if( packed ) {
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df->fld_flags |= F_PACKED;
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df->fld_off = align(*addr, type->tp_palign);
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*addr = df->fld_off + type->tp_psize;
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}
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else {
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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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}
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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 = CurrVis;
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for( ; idlist; idlist = idlist->nd_next ) {
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if( !(df = define(idlist->nd_IDF, CurrentScope, D_VARIABLE)) )
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continue; /* skip this identifier */
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df->df_type = type;
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if( local ) {
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/* subtract size, which is already aligned, of
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* variable to the offset, as the variable list
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* exists only local to a procedure
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*/
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sc->sc_scope->sc_off -= type->tp_size;
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df->var_off = sc->sc_scope->sc_off;
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}
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else { /* Global name */
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df->var_name = df->df_idf->id_text;
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df->df_flags |= D_NOREG;
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}
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}
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FreeNode(Idlist);
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}
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arith
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EnterParamList(fpl, parlist)
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register struct node *fpl;
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struct paramlist **parlist;
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{
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register arith nb_pars = (proclevel > 1) ? pointer_size : 0;
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register struct node *id;
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struct type *tp;
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struct def *df;
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for( ; fpl; fpl = fpl->nd_right ) {
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assert(fpl->nd_class == Link);
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tp = fpl->nd_type;
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for( id = fpl->nd_left; id; id = id->nd_next )
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if( df = define(id->nd_IDF, CurrentScope, D_VARIABLE) ) {
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df->var_off = nb_pars;
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if( fpl->nd_INT == D_VARPAR || IsConformantArray(tp) )
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nb_pars += pointer_size;
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else
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nb_pars += tp->tp_size;
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LinkParam(parlist, df);
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df->df_type = tp;
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df->df_flags |= fpl->nd_INT;
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}
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while( IsConformantArray(tp) ) {
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/* we need room for the descriptors */
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tp->arr_sclevel = CurrentScope->sc_level;
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tp->arr_cfdescr = nb_pars;
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nb_pars += 3 * word_size;
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tp = tp->arr_elem;
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}
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}
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return nb_pars;
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}
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EnterParTypes(fpl, parlist)
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register struct node *fpl;
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struct paramlist **parlist;
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{
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/* Parameters in heading of procedural and functional
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parameters (only types are important, not the names).
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*/
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register struct node *id;
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struct def *df;
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for( ; fpl; fpl = fpl->nd_right )
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for( id = fpl->nd_left; id; id = id->nd_next )
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if( df = new_def() ) {
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LinkParam(parlist, df);
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df->df_type = fpl->nd_type;
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df->df_flags |= fpl->nd_INT;
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}
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}
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LinkParam(parlist, df)
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struct paramlist **parlist;
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struct def *df;
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{
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static struct paramlist *pr;
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if( !*parlist )
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*parlist = pr = new_paramlist();
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else {
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pr->next = new_paramlist();
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pr = pr->next;
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}
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pr->par_def = df;
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}
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