ref: ff88594df5c5df6fb8f227ab8e5df3529ba6e72f
dir: /parse/stab.c/
#include <stdlib.h>
#include <stdio.h>
#include <inttypes.h>
#include <stdarg.h>
#include <ctype.h>
#include <string.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include "util.h"
#include "parse.h"
/* Allows us to look up types/traits by name nodes */
typedef struct Tydefn Tydefn;
typedef struct Traitdefn Traitdefn;
struct Tydefn {
Srcloc loc;
Node *name;
Type *type;
};
struct Traitdefn {
Srcloc loc;
Node *name;
Trait *trait;
};
#define Maxstabdepth 128
static Stab *stabstk[Maxstabdepth];
static size_t stabstkoff;
static Tyenv *envstk[Maxstabdepth];
static size_t envstkoff;
/* name hashing: we want namespaced lookups to find the
* name even if we haven't set the namespace up, since
* we can update it after the fact. */
ulong
nsnamehash(void *n)
{
return strhash(namestr(n));
}
int
nsnameeq(void *a, void *b)
{
return a == b || !strcmp(namestr(a), namestr(b));
}
static ulong
implhash(void *p)
{
Node *n;
ulong h;
n = p;
h = nsnamehash(n->impl.traitname);
h *= tyhash(n->impl.type);
return h;
}
static int
impleq(void *pa, void *pb)
{
Node *a, *b;
a = pa;
b = pb;
if (nsnameeq(a->impl.traitname, b->impl.traitname))
return tyeq(a->impl.type, b->impl.type);
return 0;
}
Stab *
mkstab(int isfunc)
{
Stab *st;
st = zalloc(sizeof(Stab));
st->dcl = mkht(nsnamehash, nsnameeq);
st->ty = mkht(nsnamehash, nsnameeq);
st->tr = mkht(nsnamehash, nsnameeq);
st->uc = mkht(nsnamehash, nsnameeq);
if (isfunc) {
st->env = mkht(nsnamehash, nsnameeq);
st->lbl = mkht(strhash, streq);
}
st->impl = mkht(implhash, impleq);
st->isfunc = isfunc;
return st;
}
Stab *
curstab()
{
assert(stabstkoff > 0);
return stabstk[stabstkoff - 1];
}
void
pushstab(Stab *st)
{
assert(stabstkoff < Maxstabdepth);
stabstk[stabstkoff++] = st;
}
void
popstab()
{
assert(stabstkoff > 0);
stabstkoff--;
}
ulong
paramhash(void *p)
{
return strhash(((Type*)p)->pname);
}
int
parameq(void *a, void *b)
{
return streq(((Type*)a)->pname, ((Type*)b)->pname);
}
Tyenv*
mkenv()
{
Tyenv *e;
e = malloc(sizeof(Tyenv));
e->super = NULL;
e->tab = mkht(paramhash, parameq);
return e;
}
Tyenv*
curenv()
{
if (!envstkoff)
return NULL;
else
return envstk[envstkoff - 1];
}
void
pushenv(Tyenv *env)
{
if (!env)
return;
assert(envstkoff < Maxstabdepth);
envstk[envstkoff++] = env;
}
void
popenv(Tyenv *env)
{
if (!env)
return;
assert(envstkoff > 0);
envstkoff--;
}
Stab *
findstab(Stab *st, Node *n)
{
Stab *ns;
if (n->name.ns) {
ns = getns(n->name.ns);
if (!ns) {
ns = mkstab(0);
updatens(ns, n->name.ns);
}
st = ns;
}
return st;
}
Node *
getclosed(Stab *st, Node *n)
{
while (st && !st->env)
st = st->super;
if (st)
return htget(st->env, n);
return NULL;
}
Node **
getclosure(Stab *st, size_t *n)
{
size_t nkeys, i;
void **keys;
Node **vals;
while (st && !st->env)
st = st->super;
if (!st) {
*n = 0;
return NULL;
}
vals = NULL;
*n = 0;
keys = htkeys(st->env, &nkeys);
for (i = 0; i < nkeys; i++)
lappend(&vals, n, htget(st->env, keys[i]));
free(keys);
return vals;
}
static void
envclose(Stab *start, Stab *found, Stab *fn, Node *s)
{
Stab *st;
for (st = start; st != found; st = st->super)
if (st->env && !s->decl.isglobl && !s->decl.isgeneric)
htput(st->env, s->decl.name, s);
}
/*
* Searches for declarations from current
* scope, and all enclosing scopes. Doe
* not resolve namespaces -- that is the job
* of the caller of this function.
*
* If a resoved name is not global, and is
* not in the current scope, it is recorded
* in the scope's closure.
*/
Node *
getdcl(Stab *start, Node *n)
{
Stab *st, *fn;
Node *s;
fn = NULL;
st = start;
do {
s = htget(st->dcl, n);
if (s) {
envclose(start, st, fn, s);
return s;
}
if (!fn && st->env)
fn = st;
st = st->super;
} while (st);
return NULL;
}
void
putlbl(Stab *st, char *name, Node *lbl)
{
assert(st && st->isfunc);
if (hthas(st->lbl, name))
fatal(lbl, "duplicate label %s, first defined on line %d\n", name, lbl->loc.line);
htput(st->lbl, name, lbl);
}
Node *
getlbl(Stab *st, Srcloc loc, char *name)
{
while (st && !st->isfunc)
st = st->super;
if (!st || !hthas(st->lbl, name))
return NULL;
return htget(st->lbl, name);
}
Type *
gettype_l(Stab *st, Node *n)
{
Tydefn *t;
if ((t = htget(st->ty, n)))
return t->type;
return NULL;
}
Type *
gettype(Stab *st, Node *n)
{
Tydefn *t;
do {
if ((t = htget(st->ty, n)))
return t->type;
st = st->super;
} while (st);
return NULL;
}
int
hastype(Stab *st, Node *n)
{
do {
if (hthas(st->ty, n))
return 1;
st = st->super;
} while (st);
return 0;
}
Ucon *
getucon(Stab *st, Node *n)
{
Ucon *uc;
do {
if ((uc = htget(st->uc, n)))
return uc;
st = st->super;
} while (st);
return NULL;
}
Trait *
gettrait(Stab *st, Node *n)
{
Traitdefn *c;
if (n->name.ns)
st = getns(n->name.ns);
do {
if ((c = htget(st->tr, n)))
return c->trait;
st = st->super;
} while (st);
return NULL;
}
Stab *
getns(char *name) {
return htget(file.ns, name);
}
static int
mergedecl(Node *old, Node *new)
{
Node *e, *g;
if (old->decl.isimport && new->decl.isimport) {
old->decl.ishidden = old->decl.ishidden && new->decl.ishidden;
return 1;
}
if (old->decl.isextern || new->decl.isextern) {
old->decl.isextern = old->decl.isextern && new->decl.isextern;
return 1;
}
if (old->decl.vis == Visexport && new->decl.vis != Visexport) {
e = old;
g = new;
} else if (new->decl.vis == Visexport && old->decl.vis != Visexport) {
e = new;
g = old;
} else {
return 0;
}
old->decl.vis = Visexport;
if (e->decl.init && g->decl.init)
fatal(e, "export %s double initialized on %s:%d", declname(e), fname(g->loc),
lnum(g->loc));
if (e->decl.isgeneric != g->decl.isgeneric)
fatal(e, "export %s declared with different genericness on %s:%d", declname(e),
fname(g->loc), lnum(g->loc));
if (e->decl.isconst != g->decl.isconst)
fatal(e, "export %s declared with different constness on %s:%d", declname(e),
fname(g->loc), lnum(g->loc));
if (e->decl.isextern != g->decl.isextern)
fatal(e, "export %s declared with different externness on %s:%d", declname(e),
fname(g->loc), lnum(g->loc));
setns(old->decl.name, new->decl.name->name.ns);
if (e->decl.type->type == Tyvar)
e->decl.type = g->decl.type;
else if (g->decl.type->type == Tyvar)
g->decl.type = e->decl.type;
else
fatal(e, "FIXME: types on both prototype and decl not yet allowed\n");
if (!e->decl.init)
e->decl.init = g->decl.init;
else if (!g->decl.init)
g->decl.init = e->decl.init;
if (old->decl.env || e->decl.env) {
if (!old->decl.env)
old->decl.env = e->decl.env;
if (!e->decl.env)
e->decl.env = old->decl.env;
bindtype(e->decl.env, old->decl.type);
bindtype(old->decl.env, e->decl.type);
}
/* FIXME: check compatible typing */
old->decl.ishidden = e->decl.ishidden || g->decl.ishidden;
old->decl.isimport = e->decl.isimport || g->decl.isimport;
old->decl.isnoret = e->decl.isnoret || g->decl.isnoret;
old->decl.isexportval = e->decl.isexportval || g->decl.isexportval;
old->decl.isglobl = e->decl.isglobl || g->decl.isglobl;
old->decl.ispkglocal = e->decl.ispkglocal || g->decl.ispkglocal;
old->decl.isextern = e->decl.isextern || g->decl.isextern;
return 1;
}
void
forcedcl(Stab *st, Node *s)
{
setns(s->decl.name, st->name);
htput(st->dcl, s->decl.name, s);
assert(htget(st->dcl, s->decl.name) != NULL);
}
void
putdcl(Stab *st, Node *s)
{
Node *old;
st = findstab(st, s->decl.name);
old = htget(st->dcl, s->decl.name);
if (!old)
forcedcl(st, s);
else if (!mergedecl(old, s))
fatal(old, "%s already declared on %s:%d", namestr(s->decl.name), fname(s->loc),
lnum(s->loc));
}
void
updatetype(Stab *st, Node *n, Type *t)
{
Tydefn *td;
td = htget(st->ty, n);
if (!td)
die("no type %s to update", namestr(n));
td->type = t;
}
int
mergetype(Type *old, Type *new)
{
if (!new) {
lfatal(old->loc, "double prototyping of %s", tystr(old));
} else if (old->vis == Visexport && new->vis != Visexport) {
if (!old->sub && new->sub) {
old->sub = new->sub;
old->nsub = new->nsub;
return 1;
}
} else if (new->vis == Visexport && old->vis != Visexport) {
if (!new->sub && old->sub) {
new->sub = old->sub;
new->nsub = old->nsub;
return 1;
}
}
return 0;
}
void
puttype(Stab *st, Node *n, Type *t)
{
Tydefn *td;
Type *ty;
st = findstab(st, n);
setns(n, st->name);
if (st->name && t && t->name)
setns(t->name, st->name);
ty = gettype(st, n);
if (!ty) {
if (t && hastype(st, n)) {
t->vis = Visexport;
updatetype(st, n, t);
} else {
td = xalloc(sizeof(Tydefn));
td->loc = n->loc;
td->name = n;
td->type = t;
htput(st->ty, td->name, td);
}
} else if (!mergetype(ty, t)) {
fatal(n, "type %s already declared on %s:%d", tystr(ty), fname(ty->loc),
lnum(ty->loc));
}
}
void
putucon(Stab *st, Ucon *uc)
{
Ucon *old;
old = getucon(st, uc->name);
if (old)
lfatal(old->loc, "`%s already defined on %s:%d",
namestr(uc->name), fname(uc->loc), lnum(uc->loc));
setns(uc->name, st->name);
htput(st->uc, uc->name, uc);
}
static int
mergetrait(Trait *old, Trait *new)
{
int hidden;
hidden = old->ishidden && new->ishidden;
if (old->isproto && !new->isproto)
*old = *new;
else if (new->isproto && !old->isproto)
*new = *old;
else if (!new->isimport && !old->isimport)
if (new->vis == Vishidden || old->vis == Vishidden)
return 0;
new->ishidden = hidden;
old->ishidden = hidden;
return 1;
}
void
puttrait(Stab *st, Node *n, Trait *c)
{
Traitdefn *td;
Trait *t;
Type *ty;
st = findstab(st, n);
t = gettrait(st, n);
if (t) {
if (mergetrait(t, c))
return;
fatal(n, "trait %s already defined on %s:%d",
namestr(n), fname(t->loc), lnum(t->loc));
}
ty = gettype(st, n);
if (ty)
fatal(n, "trait %s defined as a type on %s:%d",
namestr(n), fname(ty->loc), lnum(ty->loc));
td = xalloc(sizeof(Traitdefn));
td->loc = n->loc;
td->name = n;
td->trait = c;
setns(td->name, st->name);
htput(st->tr, td->name, td);
}
static int
mergeimpl(Node *old, Node *new)
{
Vis vis;
/* extern traits should be deduped in use.c. */
if (old->impl.isextern && new->impl.isextern)
return 1;
if (old->impl.vis > new->impl.vis)
vis = old->impl.vis;
else
vis = new->impl.vis;
old->impl.vis = vis;
new->impl.vis = vis;
if (old->impl.isproto && !new->impl.isproto)
*old = *new;
else if (new->impl.isproto && !old->impl.isproto)
*new = *old;
else
return 0;
return 1;
}
void
putimpl(Stab *st, Node *n)
{
Node *impl;
st = findstab(st, n->impl.traitname);
impl = getimpl(st, n);
if (impl && !mergeimpl(impl, n))
fatal(n, "trait %s already implemented over %s at %s:%d",
namestr(n->impl.traitname), tystr(n->impl.type),
fname(n->loc), lnum(n->loc));
/* if this is not a duplicate, record it for later export */
if (!impl)
lappend(&file.impl, &file.nimpl, n);
/*
The impl is not defined in this file, so setting the
trait name would be a bug here.
*/
setns(n->impl.traitname, st->name);
htput(st->impl, n, n);
}
Node *
getimpl(Stab *st, Node *n)
{
Node *imp;
do {
if ((imp = htget(st->impl, n)))
return imp;
st = st->super;
} while (st);
return NULL;
}
void
putns(Stab *scope)
{
Stab *s;
s = getns(scope->name);
if (s)
lfatal(Zloc, "Namespace %s already defined", scope->name);
htput(file.ns, scope->name, scope);
}
/*
* Sets the namespace of a symbol table, and
* changes the namespace of all contained symbol
* to match it.
*/
void
updatens(Stab *st, char *name)
{
void **k;
size_t i, nk;
Traitdefn *tr;
Tydefn *td;
if (st->name)
die("stab %s already has namespace; Can't set to %s", st->name, name);
st->name = strdup(name);
htput(file.ns, st->name, st);
k = htkeys(st->dcl, &nk);
for (i = 0; i < nk; i++)
setns(k[i], name);
free(k);
k = htkeys(st->ty, &nk);
for (i = 0; i < nk; i++)
setns(k[i], name);
for (i = 0; i < nk; i++) {
td = htget(st->ty, k[i]);
if (td->type && (td->type->type == Tyname || td->type->type == Tygeneric))
setns(td->type->name, name);
}
free(k);
k = htkeys(st->tr, &nk);
for (i = 0; i < nk; i++) {
tr = htget(st->tr, k[i]);
setns(tr->name, name);
}
free(k);
k = htkeys(st->uc, &nk);
for (i = 0; i < nk; i++)
setns(k[i], name);
free(k);
}
static void
bindtype_rec(Tyenv *e, Type *t, Bitset *visited)
{
size_t i;
Type *tt;
t = tysearch(t);
if (bshas(visited, t->tid))
return;
bsput(visited, t->tid);
switch (t->type) {
case Typaram:
tt = htget(e->tab, t);
if (tt && tt != t) {
tytab[t->tid] = tt;
for (i = 0; i < t->nspec; i++)
lappend(&tt->spec, &tt->nspec, t->spec[i]);
} else if (!boundtype(t)) {
htput(e->tab, t, t);
}
for (i = 0; i < t->nspec; i++) {
if (t->spec[i]->aux)
bindtype_rec(e, t->spec[i]->aux, visited);
}
break;
case Tygeneric:
for (i = 0; i < t->ngparam; i++)
bindtype_rec(e, t->gparam[i], visited);
break;
case Tyname:
for (i = 0; i < t->narg; i++)
bindtype_rec(e, t->arg[i], visited);
break;
case Tyunres:
for (i = 0; i < t->narg; i++)
bindtype_rec(e, t->arg[i], visited);
break;
case Tystruct:
for (i = 0; i < t->nmemb; i++)
bindtype_rec(e, t->sdecls[i]->decl.type, visited);
break;
case Tyunion:
for (i = 0; i < t->nmemb; i++)
if (t->udecls[i]->etype)
bindtype_rec(e, t->udecls[i]->etype, visited);
break;
default:
for (i = 0; i < t->nsub; i++)
bindtype_rec(e, t->sub[i], visited);
break;
}
}
/* Binds the type parameters present in the
* current type into the type environment */
void
bindtype(Tyenv *env, Type *t)
{
Bitset *visited;
if (!t || !env)
return;
visited = mkbs();
bindtype_rec(env, t, visited);
bsfree(visited);
}
/* If the current environment binds a type,
* we return true */
Type*
boundtype(Type *t)
{
Tyenv *e;
Type *r;
if (t->type != Typaram)
return NULL;
for (e = curenv(); e; e = e->super) {
r = htget(e->tab, t);
if (r)
return r;
}
return NULL;
}