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/*
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* upb - a minimalist implementation of protocol buffers.
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*
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* Copyright (c) 2008-2012 Google Inc. See LICENSE for details.
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* Author: Josh Haberman <jhaberman@gmail.com>
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*/
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#include "upb/symtab.h"
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#include <stdlib.h>
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#include <string.h>
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bool upb_symtab_isfrozen(const upb_symtab *s) {
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return upb_refcounted_isfrozen(upb_upcast(s));
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}
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void upb_symtab_ref(const upb_symtab *s, const void *owner) {
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upb_refcounted_ref(upb_upcast(s), owner);
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}
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void upb_symtab_unref(const upb_symtab *s, const void *owner) {
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upb_refcounted_unref(upb_upcast(s), owner);
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}
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void upb_symtab_donateref(
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const upb_symtab *s, const void *from, const void *to) {
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upb_refcounted_donateref(upb_upcast(s), from, to);
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}
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void upb_symtab_checkref(const upb_symtab *s, const void *owner) {
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upb_refcounted_checkref(upb_upcast(s), owner);
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}
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static void upb_symtab_free(upb_refcounted *r) {
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upb_symtab *s = (upb_symtab*)r;
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upb_strtable_iter i;
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upb_strtable_begin(&i, &s->symtab);
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for (; !upb_strtable_done(&i); upb_strtable_next(&i)) {
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const upb_def *def = upb_value_getptr(upb_strtable_iter_value(&i));
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upb_def_unref(def, s);
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}
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upb_strtable_uninit(&s->symtab);
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free(s);
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}
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static const struct upb_refcounted_vtbl vtbl = {NULL, &upb_symtab_free};
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upb_symtab *upb_symtab_new(const void *owner) {
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upb_symtab *s = malloc(sizeof(*s));
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upb_refcounted_init(upb_upcast(s), &vtbl, owner);
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upb_strtable_init(&s->symtab, UPB_CTYPE_PTR);
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return s;
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}
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const upb_def **upb_symtab_getdefs(const upb_symtab *s, upb_deftype_t type,
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const void *owner, int *n) {
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int total = upb_strtable_count(&s->symtab);
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// We may only use part of this, depending on how many symbols are of the
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// correct type.
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const upb_def **defs = malloc(sizeof(*defs) * total);
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upb_strtable_iter iter;
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upb_strtable_begin(&iter, &s->symtab);
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int i = 0;
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for(; !upb_strtable_done(&iter); upb_strtable_next(&iter)) {
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upb_def *def = upb_value_getptr(upb_strtable_iter_value(&iter));
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assert(def);
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if(type == UPB_DEF_ANY || def->type == type)
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defs[i++] = def;
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}
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*n = i;
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if (owner)
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for(i = 0; i < *n; i++) upb_def_ref(defs[i], owner);
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return defs;
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}
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const upb_def *upb_symtab_lookup(const upb_symtab *s, const char *sym,
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const void *owner) {
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upb_value v;
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upb_def *ret = upb_strtable_lookup(&s->symtab, sym, &v) ?
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upb_value_getptr(v) : NULL;
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if (ret) upb_def_ref(ret, owner);
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return ret;
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}
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const upb_msgdef *upb_symtab_lookupmsg(const upb_symtab *s, const char *sym,
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const void *owner) {
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upb_value v;
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upb_def *def = upb_strtable_lookup(&s->symtab, sym, &v) ?
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upb_value_getptr(v) : NULL;
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upb_msgdef *ret = NULL;
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if(def && def->type == UPB_DEF_MSG) {
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ret = upb_downcast_msgdef_mutable(def);
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upb_def_ref(def, owner);
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}
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return ret;
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}
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// Given a symbol and the base symbol inside which it is defined, find the
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// symbol's definition in t.
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static upb_def *upb_resolvename(const upb_strtable *t,
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const char *base, const char *sym) {
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if(strlen(sym) == 0) return NULL;
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if(sym[0] == UPB_SYMBOL_SEPARATOR) {
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// Symbols starting with '.' are absolute, so we do a single lookup.
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// Slice to omit the leading '.'
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upb_value v;
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return upb_strtable_lookup(t, sym + 1, &v) ? upb_value_getptr(v) : NULL;
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} else {
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// Remove components from base until we find an entry or run out.
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// TODO: This branch is totally broken, but currently not used.
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(void)base;
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assert(false);
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return NULL;
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}
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}
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const upb_def *upb_symtab_resolve(const upb_symtab *s, const char *base,
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const char *sym, const void *owner) {
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upb_def *ret = upb_resolvename(&s->symtab, base, sym);
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if (ret) upb_def_ref(ret, owner);
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return ret;
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}
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// Searches def and its children to find defs that have the same name as any
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// def in "addtab." Returns true if any where found, and as a side-effect adds
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// duplicates of these defs into addtab.
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//
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// We use a modified depth-first traversal that traverses each SCC (which we
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// already computed) as if it were a single node. This allows us to traverse
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// the possibly-cyclic graph as if it were a DAG and to dup the correct set of
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// nodes with O(n) time.
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static bool upb_resolve_dfs(const upb_def *def, upb_strtable *addtab,
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const void *new_owner, upb_inttable *seen,
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upb_status *s) {
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// Memoize results of this function for efficiency (since we're traversing a
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// DAG this is not needed to limit the depth of the search).
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upb_value v;
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if (upb_inttable_lookup(seen, (uintptr_t)def, &v))
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return upb_value_getbool(v);
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// Visit submessages for all messages in the SCC.
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bool need_dup = false;
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const upb_def *base = def;
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do {
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assert(upb_def_isfrozen(def));
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if (def->type == UPB_DEF_FIELD) continue;
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upb_value v;
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if (upb_strtable_lookup(addtab, upb_def_fullname(def), &v)) {
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// Because we memoize we should not visit a node after we have dup'd it.
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assert(((upb_def*)upb_value_getptr(v))->came_from_user);
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need_dup = true;
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}
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const upb_msgdef *m = upb_dyncast_msgdef(def);
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if (m) {
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upb_msg_iter i;
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for(upb_msg_begin(&i, m); !upb_msg_done(&i); upb_msg_next(&i)) {
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upb_fielddef *f = upb_msg_iter_field(&i);
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if (!upb_fielddef_hassubdef(f)) continue;
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// |= to avoid short-circuit; we need its side-effects.
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need_dup |= upb_resolve_dfs(
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upb_fielddef_subdef(f), addtab, new_owner, seen, s);
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if (!upb_ok(s)) return false;
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}
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}
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} while ((def = (upb_def*)def->base.next) != base);
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if (need_dup) {
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// Dup any defs that don't already have entries in addtab.
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def = base;
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do {
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if (def->type == UPB_DEF_FIELD) continue;
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const char *name = upb_def_fullname(def);
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if (!upb_strtable_lookup(addtab, name, NULL)) {
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upb_def *newdef = upb_def_dup(def, new_owner);
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if (!newdef) goto oom;
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newdef->came_from_user = false;
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if (!upb_strtable_insert(addtab, name, upb_value_ptr(newdef)))
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goto oom;
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}
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} while ((def = (upb_def*)def->base.next) != base);
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}
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upb_inttable_insert(seen, (uintptr_t)def, upb_value_bool(need_dup));
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return need_dup;
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oom:
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upb_status_seterrliteral(s, "out of memory");
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return false;
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}
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bool upb_symtab_add(upb_symtab *s, upb_def *const*defs, int n, void *ref_donor,
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upb_status *status) {
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upb_def **add_defs = NULL;
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upb_strtable addtab;
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if (!upb_strtable_init(&addtab, UPB_CTYPE_PTR)) {
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upb_status_seterrliteral(status, "out of memory");
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return false;
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}
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// Add new defs to table.
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for (int i = 0; i < n; i++) {
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upb_def *def = defs[i];
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if (upb_def_isfrozen(def)) {
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upb_status_seterrliteral(status, "added defs must be mutable");
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goto err;
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}
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assert(!upb_def_isfrozen(def));
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const char *fullname = upb_def_fullname(def);
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if (!fullname) {
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upb_status_seterrliteral(
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status, "Anonymous defs cannot be added to a symtab");
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goto err;
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}
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if (upb_strtable_lookup(&addtab, fullname, NULL)) {
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upb_status_seterrf(status, "Conflicting defs named '%s'", fullname);
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goto err;
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}
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// We need this to back out properly, because if there is a failure we need
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// to donate the ref back to the caller.
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def->came_from_user = true;
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upb_def_donateref(def, ref_donor, s);
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if (!upb_strtable_insert(&addtab, fullname, upb_value_ptr(def)))
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goto oom_err;
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}
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// Add dups of any existing def that can reach a def with the same name as
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// one of "defs."
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upb_inttable seen;
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if (!upb_inttable_init(&seen, UPB_CTYPE_BOOL)) goto oom_err;
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upb_strtable_iter i;
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upb_strtable_begin(&i, &s->symtab);
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for (; !upb_strtable_done(&i); upb_strtable_next(&i)) {
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upb_def *def = upb_value_getptr(upb_strtable_iter_value(&i));
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upb_resolve_dfs(def, &addtab, s, &seen, status);
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if (!upb_ok(status)) goto err;
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}
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upb_inttable_uninit(&seen);
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// Now using the table, resolve symbolic references.
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upb_strtable_begin(&i, &addtab);
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for (; !upb_strtable_done(&i); upb_strtable_next(&i)) {
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upb_def *def = upb_value_getptr(upb_strtable_iter_value(&i));
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upb_msgdef *m = upb_dyncast_msgdef_mutable(def);
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if (!m) continue;
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// Type names are resolved relative to the message in which they appear.
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const char *base = upb_def_fullname(upb_upcast(m));
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upb_msg_iter j;
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for(upb_msg_begin(&j, m); !upb_msg_done(&j); upb_msg_next(&j)) {
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upb_fielddef *f = upb_msg_iter_field(&j);
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const char *name = upb_fielddef_subdefname(f);
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if (name) {
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upb_def *subdef = upb_resolvename(&addtab, base, name);
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if (subdef == NULL) {
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upb_status_seterrf(
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status, "couldn't resolve name '%s' in message '%s'", name, base);
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goto err;
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} else if (!upb_fielddef_setsubdef(f, subdef, status)) {
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goto err;
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}
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}
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if (!upb_fielddef_resolveenumdefault(f, status)) {
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goto err;
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}
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}
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}
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// We need an array of the defs in addtab, for passing to upb_def_freeze.
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add_defs = malloc(sizeof(void*) * upb_strtable_count(&addtab));
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if (add_defs == NULL) goto oom_err;
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upb_strtable_begin(&i, &addtab);
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for (n = 0; !upb_strtable_done(&i); upb_strtable_next(&i)) {
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add_defs[n++] = upb_value_getptr(upb_strtable_iter_value(&i));
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}
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if (!upb_def_freeze(add_defs, n, status)) goto err;
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// This must be delayed until all errors have been detected, since error
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// recovery code uses this table to cleanup defs.
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upb_strtable_uninit(&addtab);
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// TODO(haberman) we don't properly handle errors after this point (like
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// OOM in upb_strtable_insert() below).
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for (int i = 0; i < n; i++) {
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upb_def *def = add_defs[i];
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const char *name = upb_def_fullname(def);
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upb_value v;
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if (upb_strtable_remove(&s->symtab, name, &v)) {
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const upb_def *def = upb_value_getptr(v);
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upb_def_unref(def, s);
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}
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bool success = upb_strtable_insert(&s->symtab, name, upb_value_ptr(def));
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UPB_ASSERT_VAR(success, success == true);
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}
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free(add_defs);
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return true;
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oom_err:
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upb_status_seterrliteral(status, "out of memory");
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err: {
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// For defs the user passed in, we need to donate the refs back. For defs
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// we dup'd, we need to just unref them.
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upb_strtable_iter i;
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upb_strtable_begin(&i, &addtab);
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for (; !upb_strtable_done(&i); upb_strtable_next(&i)) {
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upb_def *def = upb_value_getptr(upb_strtable_iter_value(&i));
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if (def->came_from_user) {
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upb_def_donateref(def, s, ref_donor);
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} else {
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upb_def_unref(def, s);
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}
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def->came_from_user = false;
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}
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}
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upb_strtable_uninit(&addtab);
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free(add_defs);
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assert(!upb_ok(status));
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return false;
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}
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