ack/lang/occam/comp/symtab.c
1987-02-25 16:56:31 +00:00

203 lines
4.4 KiB
C

#include "symtab.h"
#include "expr.h"
#include "sizes.h"
int curr_level=0; /* Current local level */
int curr_offset=0; /* Current offset within this level */
int min_offset=0; /* Minimum of all offsets within current level */
static struct symtab *sym_table=nil;
char *malloc();
static struct symbol **search_sym(tree, name)
struct symbol **tree;
char *name;
/* Returns a hook in the tree to the where the given name is or should be. */
{
register struct symbol **aps=tree, *ps;
register cmp;
while ((ps= *aps)!=nil && (cmp=strcmp(name, ps->name))!=0)
aps= cmp<0 ? &ps->left : &ps->right;
return aps;
}
struct symbol *insert(name, type, arr_siz, info)
char *name;
int type, arr_siz;
union type_info *info;
/* Inserts an object with given name and other info into the current symbol
* tree. A pointer is returned to the inserted symbol so that more info may
* or changed. Nil is returned on redeclaration.
*/
{
register struct symbol **aps, *ps;
extern included;
if (*(aps=search_sym(&sym_table->local, name))!=nil) {
report("%s redeclared", name);
return nil;
}
ps= (struct symbol *) malloc(sizeof *ps);
ps->name=name;
if (included && curr_level==0) /* Top_level symbol in include file */
type|=T_USED; /* are always used */
ps->type=type;
ps->arr_siz=arr_siz;
ps->info= *info;
ps->left=ps->right=nil;
*aps=ps;
return ps;
}
struct symbol *searchall(name) char *name;
/* Searches for name in all symbol trees from the inner to the outermost.
* If it can't be found then it is inserted as undefined.
*/
{
register struct symtab *tab=sym_table;
register struct symbol *ps;
while (tab!=nil) {
if ((ps= *search_sym(&tab->local, name))!=nil) return ps;
tab=tab->global;
}
report("%s not declared", name);
return insert(name, T_NOTDECL, 0, &none);
}
void check_recursion(proc)
register struct expr *proc;
{
if (proc->kind==E_VAR && proc->u.var->type&T_RECURS)
warning("recursion not allowed");
}
void sym_down()
{
register struct symtab *ps;
ps= (struct symtab *) malloc(sizeof *ps);
ps->local=nil;
ps->global=sym_table;
ps->old_offset=curr_offset;
sym_table=ps;
}
static void sym_destroy(ps) register struct symbol *ps;
{
if (ps!=nil) {
sym_destroy(ps->left);
sym_destroy(ps->right);
if ( !(ps->type&T_NOTDECL) ) {
if ( !(ps->type&T_USED) )
warning("%s: never used", ps->name);
else
if ( !(ps->type&T_ASSIGNED) && (ps->type&T_TYPE)==T_VAR)
warning("%s: never assigned", ps->name);
}
if ((ps->type&T_TYPE)==T_PROC) {
register struct par_list *par, *junk;
par=ps->info.proc.pars;
while (par!=nil) {
junk=par;
par=par->next;
free(junk);
}
} else
if ((ps->type&T_TYPE)==T_CONST)
destroy(ps->info.const);
free(ps->name);
free(ps);
}
}
void sym_up()
{
register struct symtab *ps;
ps=sym_table->global;
curr_offset=sym_table->old_offset;
sym_destroy(sym_table->local);
free(sym_table);
sym_table=ps;
}
void var_memory(info, type, n) register union type_info *info; int type, n;
/* Reserves local memory for an object, and stores it in its info field. */
{
info->vc.st.level=curr_level;
curr_offset-= (type&T_BYTE) ? (n+wz-1) & (~(wz-1)) : n*vz;
info->vc.offset=curr_offset;
if (curr_offset<min_offset) min_offset=curr_offset;
}
void chan_memory(info, n) register union type_info *info; int n;
{
info->vc.st.level=curr_level;
info->vc.offset= curr_offset-=n*(vz+wz);
if (curr_offset<min_offset) min_offset=curr_offset;
}
int memory(z) int z;
/* Reserves z memory bytes */
{
curr_offset-=z;
if (curr_offset<min_offset) min_offset=curr_offset;
return curr_offset;
}
void pars_add(aapars, type, var)
register struct par_list ***aapars;
int type;
struct symbol *var;
/* Add a formal variable to a parameter list using a hook to a hook. */
{
register struct par_list *pl;
pl= (struct par_list *) malloc(sizeof *pl);
pl->type=type;
pl->var=var;
pl->next= **aapars;
**aapars=pl;
*aapars= &pl->next;
}
int form_offsets(pars) register struct par_list *pars;
/* Recursively assign offsets to formal variables. */
{
register struct symbol *var;
if (pars==nil) return pz;
if ((var=pars->var)!=nil) {
register offset=form_offsets(pars->next);
switch (var->type&T_TYPE) {
case T_VAR:
case T_CHAN:
var->info.vc.st.level=curr_level;
var->info.vc.offset=offset;
return offset+pz;
case T_VALUE:
var->info.vc.st.level=curr_level;
var->info.vc.offset=offset;
return offset+ ((var->type&T_ARR) ? pz : vz);
}
}
}