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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) 2011 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 <stdlib.h>
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#include "upb/handlers.h"
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/* upb_mhandlers **************************************************************/
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static upb_mhandlers *upb_mhandlers_new(void) {
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upb_mhandlers *m = malloc(sizeof(*m));
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upb_inttable_init(&m->fieldtab);
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m->startmsg = NULL;
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m->endmsg = NULL;
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m->is_group = false;
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#ifdef UPB_USE_JIT_X64
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m->tablearray = NULL;
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#endif
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return m;
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}
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static upb_fhandlers *_upb_mhandlers_newfhandlers(upb_mhandlers *m, uint32_t n,
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upb_fieldtype_t type,
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bool repeated) {
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const upb_value *v = upb_inttable_lookup(&m->fieldtab, n);
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// TODO: design/refine the API for changing the set of fields or modifying
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// existing handlers.
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if (v) return NULL;
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upb_fhandlers new_f = {type, repeated, 0,
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n, -1, m, NULL, UPB_NO_VALUE, NULL, NULL, NULL, NULL, NULL,
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#ifdef UPB_USE_JIT_X64
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0, 0, 0,
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#endif
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};
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upb_fhandlers *ptr = malloc(sizeof(*ptr));
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memcpy(ptr, &new_f, sizeof(upb_fhandlers));
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upb_inttable_insert(&m->fieldtab, n, upb_value_ptr(ptr));
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return ptr;
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}
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upb_fhandlers *upb_mhandlers_newfhandlers(upb_mhandlers *m, uint32_t n,
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upb_fieldtype_t type, bool repeated) {
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assert(type != UPB_TYPE(MESSAGE));
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assert(type != UPB_TYPE(GROUP));
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return _upb_mhandlers_newfhandlers(m, n, type, repeated);
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}
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upb_fhandlers *upb_mhandlers_newfhandlers_subm(upb_mhandlers *m, uint32_t n,
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upb_fieldtype_t type,
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bool repeated,
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upb_mhandlers *subm) {
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assert(type == UPB_TYPE(MESSAGE) || type == UPB_TYPE(GROUP));
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assert(subm);
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upb_fhandlers *f = _upb_mhandlers_newfhandlers(m, n, type, repeated);
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if (!f) return NULL;
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f->submsg = subm;
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if (type == UPB_TYPE(GROUP))
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_upb_mhandlers_newfhandlers(subm, n, UPB_TYPE_ENDGROUP, false);
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return f;
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}
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upb_fhandlers *upb_mhandlers_lookup(const upb_mhandlers *m, uint32_t n) {
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const upb_value *v = upb_inttable_lookup(&m->fieldtab, n);
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return v ? upb_value_getptr(*v) : NULL;
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}
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/* upb_handlers ***************************************************************/
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upb_handlers *upb_handlers_new() {
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upb_handlers *h = malloc(sizeof(*h));
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h->refcount = 1;
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h->msgs_len = 0;
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h->msgs_size = 4;
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h->msgs = malloc(h->msgs_size * sizeof(*h->msgs));
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h->should_jit = true;
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return h;
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}
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void upb_handlers_ref(upb_handlers *h) { h->refcount++; }
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void upb_handlers_unref(upb_handlers *h) {
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if (--h->refcount == 0) {
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for (int i = 0; i < h->msgs_len; i++) {
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upb_mhandlers *mh = h->msgs[i];
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upb_inttable_iter j;
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upb_inttable_begin(&j, &mh->fieldtab);
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for(; !upb_inttable_done(&j); upb_inttable_next(&j)) {
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free(upb_value_getptr(upb_inttable_iter_value(&j)));
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}
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upb_inttable_uninit(&mh->fieldtab);
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#ifdef UPB_USE_JIT_X64
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free(mh->tablearray);
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#endif
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free(mh);
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}
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free(h->msgs);
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free(h);
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}
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}
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upb_mhandlers *upb_handlers_newmhandlers(upb_handlers *h) {
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if (h->msgs_len == h->msgs_size) {
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h->msgs_size *= 2;
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h->msgs = realloc(h->msgs, h->msgs_size * sizeof(*h->msgs));
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}
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upb_mhandlers *mh = upb_mhandlers_new();
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h->msgs[h->msgs_len++] = mh;
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return mh;
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}
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static upb_mhandlers *upb_regmsg_dfs(upb_handlers *h, const upb_msgdef *m,
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upb_onmsgreg *msgreg_cb,
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upb_onfieldreg *fieldreg_cb,
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void *closure, upb_strtable *mtab) {
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upb_mhandlers *mh = upb_handlers_newmhandlers(h);
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upb_strtable_insert(mtab, upb_def_fullname(UPB_UPCAST(m)), upb_value_ptr(mh));
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if (msgreg_cb) msgreg_cb(closure, mh, 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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upb_fhandlers *fh;
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if (upb_issubmsg(f)) {
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upb_mhandlers *sub_mh;
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const upb_value *subm_ent;
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// The table lookup is necessary to break the DFS for type cycles.
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const char *subname = upb_def_fullname(upb_fielddef_subdef(f));
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if ((subm_ent = upb_strtable_lookup(mtab, subname)) != NULL) {
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sub_mh = upb_value_getptr(*subm_ent);
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} else {
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sub_mh = upb_regmsg_dfs(
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h, upb_downcast_msgdef_const(upb_fielddef_subdef(f)),
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msgreg_cb, fieldreg_cb, closure, mtab);
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}
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fh = upb_mhandlers_newfhandlers_subm(
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mh, f->number, f->type, upb_isseq(f), sub_mh);
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} else {
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fh = upb_mhandlers_newfhandlers(mh, f->number, f->type, upb_isseq(f));
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}
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if (fieldreg_cb) fieldreg_cb(closure, fh, f);
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}
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return mh;
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}
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upb_mhandlers *upb_handlers_regmsgdef(upb_handlers *h, const upb_msgdef *m,
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upb_onmsgreg *msgreg_cb,
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upb_onfieldreg *fieldreg_cb,
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void *closure) {
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upb_strtable mtab;
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upb_strtable_init(&mtab);
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upb_mhandlers *ret =
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upb_regmsg_dfs(h, m, msgreg_cb, fieldreg_cb, closure, &mtab);
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upb_strtable_uninit(&mtab);
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return ret;
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}
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/* upb_dispatcher *************************************************************/
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void upb_dispatcher_init(upb_dispatcher *d, upb_status *status,
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upb_exit_handler UPB_NORETURN *exit,
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void *srcclosure) {
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d->stack[0].f = NULL; // Should never be read.
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d->limit = &d->stack[UPB_MAX_NESTING];
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d->exitjmp = exit;
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d->srcclosure = srcclosure;
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d->top_is_implicit = false;
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d->msgent = NULL;
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d->top = NULL;
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d->toplevel_msgent = NULL;
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d->status = status;
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}
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upb_dispatcher_frame *upb_dispatcher_reset(upb_dispatcher *d, void *closure,
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upb_mhandlers *top) {
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d->msgent = top;
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d->toplevel_msgent = top;
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d->top = d->stack;
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d->top->closure = closure;
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d->top->is_sequence = false;
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d->top->is_packed = false;
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return d->top;
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}
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void upb_dispatcher_uninit(upb_dispatcher *d) {
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(void)d;
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}
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void upb_dispatch_startmsg(upb_dispatcher *d) {
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upb_flow_t flow = UPB_CONTINUE;
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if (d->msgent->startmsg) d->msgent->startmsg(d->top->closure);
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if (flow != UPB_CONTINUE) _upb_dispatcher_abortjmp(d);
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}
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void upb_dispatch_endmsg(upb_dispatcher *d, upb_status *status) {
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assert(d->top == d->stack);
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if (d->msgent->endmsg) d->msgent->endmsg(d->top->closure, d->status);
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// TODO: should we avoid this copy by passing client's status obj to cbs?
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upb_status_copy(status, d->status);
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}
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upb_dispatcher_frame *upb_dispatch_startseq(upb_dispatcher *d,
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upb_fhandlers *f) {
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if (d->top + 1 >= d->limit) {
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upb_status_seterrliteral(d->status, "Nesting too deep.");
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_upb_dispatcher_abortjmp(d);
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}
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upb_sflow_t sflow = UPB_CONTINUE_WITH(d->top->closure);
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if (f->startseq) sflow = f->startseq(d->top->closure, f->fval);
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_upb_dispatcher_sethas(d->top->closure, f->hasbit);
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if (sflow.flow != UPB_CONTINUE) {
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_upb_dispatcher_abortjmp(d);
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}
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++d->top;
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d->top->f = f;
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d->top->is_sequence = true;
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d->top->is_packed = false;
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d->top->closure = sflow.closure;
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return d->top;
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}
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upb_dispatcher_frame *upb_dispatch_endseq(upb_dispatcher *d) {
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assert(d->top > d->stack);
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assert(d->top->is_sequence);
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upb_fhandlers *f = d->top->f;
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--d->top;
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upb_flow_t flow = UPB_CONTINUE;
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if (f->endseq) flow = f->endseq(d->top->closure, f->fval);
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if (flow != UPB_CONTINUE) {
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_upb_dispatcher_abortjmp(d);
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}
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d->msgent = d->top->f ? d->top->f->submsg : d->toplevel_msgent;
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return d->top;
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}
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upb_dispatcher_frame *upb_dispatch_startsubmsg(upb_dispatcher *d,
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upb_fhandlers *f) {
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if (d->top + 1 >= d->limit) {
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upb_status_seterrliteral(d->status, "Nesting too deep.");
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_upb_dispatcher_abortjmp(d);
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}
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upb_sflow_t sflow = UPB_CONTINUE_WITH(d->top->closure);
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if (f->startsubmsg) sflow = f->startsubmsg(d->top->closure, f->fval);
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_upb_dispatcher_sethas(d->top->closure, f->hasbit);
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if (sflow.flow != UPB_CONTINUE) {
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_upb_dispatcher_abortjmp(d);
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}
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++d->top;
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d->top->f = f;
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d->top->is_sequence = false;
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d->top->is_packed = false;
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d->top->closure = sflow.closure;
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d->msgent = f->submsg;
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upb_dispatch_startmsg(d);
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return d->top;
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}
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upb_dispatcher_frame *upb_dispatch_endsubmsg(upb_dispatcher *d) {
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assert(d->top > d->stack);
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assert(!d->top->is_sequence);
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upb_fhandlers *f = d->top->f;
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if (d->msgent->endmsg) d->msgent->endmsg(d->top->closure, d->status);
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d->msgent = d->top->f->msg;
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--d->top;
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upb_flow_t flow = UPB_CONTINUE;
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if (f->endsubmsg) f->endsubmsg(d->top->closure, f->fval);
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if (flow != UPB_CONTINUE) _upb_dispatcher_abortjmp(d);
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return d->top;
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}
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bool upb_dispatcher_stackempty(upb_dispatcher *d) {
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return d->top == d->stack;
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}
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bool upb_dispatcher_islegalend(upb_dispatcher *d) {
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if (d->top == d->stack) return true;
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if (d->top - 1 == d->stack &&
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d->top->is_sequence && !d->top->is_packed) return true;
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return false;
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}
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void _upb_dispatcher_abortjmp(upb_dispatcher *d) {
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d->exitjmp(d->srcclosure);
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assert(false); // Never returns.
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}
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