void emit_event(ivl_scope_t scope, ivl_statement_t stmt)
{
unsigned eidx, nevents, first = 1;
nevents = ivl_stmt_nevent(stmt);
for (eidx = 0; eidx < nevents; eidx += 1) {
unsigned idx, count, had_edge = 0;
ivl_event_t event = ivl_stmt_events(stmt, eidx);
/* Check for any edge events. */
count = ivl_event_nany(event);
if (count) had_edge = 1;
for (idx = 0; idx < count; idx += 1) {
if (first) first = 0;
else fprintf(vlog_out, " or ");
emit_nexus_as_ca(scope, ivl_event_any(event, idx), 0);
}
/* Check for positive edge events. */
count = ivl_event_npos(event);
if (count) had_edge = 1;
for (idx = 0; idx < count; idx += 1) {
if (first) first = 0;
else fprintf(vlog_out, " or ");
fprintf(vlog_out, "posedge ");
emit_nexus_as_ca(scope, ivl_event_pos(event, idx), 0);
}
/* Check for negative edge events. */
count = ivl_event_nneg(event);
if (count) had_edge = 1;
for (idx = 0; idx < count; idx += 1) {
if (first) first = 0;
else fprintf(vlog_out, " or ");
fprintf(vlog_out, "negedge ");
emit_nexus_as_ca(scope, ivl_event_neg(event, idx), 0);
}
/* We have a named event if there were no edge events. */
if (!had_edge) {
ivl_scope_t ev_scope = ivl_event_scope(event);
if (first) first = 0;
else fprintf(vlog_out, " or ");
emit_scope_module_path(scope, ev_scope);
emit_id(ivl_event_basename(event));
}
}
}
static void show_event(ivl_event_t net)
{
unsigned idx;
fprintf(out, " event %s (%u pos, %u neg, %u any);\n",
ivl_event_basename(net), ivl_event_npos(net),
ivl_event_nneg(net), ivl_event_nany(net));
for (idx = 0 ; idx < ivl_event_nany(net) ; idx += 1) {
ivl_nexus_t nex = ivl_event_any(net, idx);
fprintf(out, " ANYEDGE: %p\n", nex);
}
for (idx = 0 ; idx < ivl_event_nneg(net) ; idx += 1) {
ivl_nexus_t nex = ivl_event_neg(net, idx);
fprintf(out, " NEGEDGE: %p\n", nex);
}
for (idx = 0 ; idx < ivl_event_npos(net) ; idx += 1) {
ivl_nexus_t nex = ivl_event_pos(net, idx);
fprintf(out, " POSEDGE: %p\n", nex);
}
}
static void draw_event_in_scope(ivl_event_t obj)
{
char tmp[4][32];
const unsigned ntmp = sizeof(tmp) / sizeof(tmp[0]);
unsigned nany = ivl_event_nany(obj);
unsigned nneg = ivl_event_nneg(obj);
unsigned npos = ivl_event_npos(obj);
unsigned cnt = 0;
/* Figure out how many probe functors are needed. */
if (nany > 0)
cnt += (nany+ntmp-1) / ntmp;
if (nneg > 0)
cnt += (nneg+ntmp-1) / ntmp;
if (npos > 0)
cnt += (npos+ntmp-1) / ntmp;
if (cnt == 0) {
/* If none are needed, then this is a named event. The
code needed is easy. */
fprintf(vvp_out, "E_%p .event \"%s\";\n", obj,
vvp_mangle_name(ivl_event_basename(obj)));
} else if (cnt > 1) {
/* There are a bunch of events that need to be event/or
combined. */
unsigned idx;
unsigned ecnt = 0;
for (idx = 0 ; idx < nany ; idx += ntmp, ecnt += 1) {
unsigned sub, top;
top = idx + ntmp;
if (nany < top)
top = nany;
for (sub = idx ; sub < top ; sub += 1) {
ivl_nexus_t nex = ivl_event_any(obj, sub);
strncpy(tmp[sub-idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
fprintf(vvp_out, "E_%p/%u .event edge", obj, ecnt);
for (sub = idx ; sub < top ; sub += 1)
fprintf(vvp_out, ", %s", tmp[sub-idx]);
fprintf(vvp_out, ";\n");
}
for (idx = 0 ; idx < nneg ; idx += ntmp, ecnt += 1) {
unsigned sub, top;
top = idx + ntmp;
if (nneg < top)
top = nneg;
for (sub = idx ; sub < top ; sub += 1) {
ivl_nexus_t nex = ivl_event_neg(obj, sub);
strncpy(tmp[sub-idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
fprintf(vvp_out, "E_%p/%u .event negedge", obj, ecnt);
for (sub = idx ; sub < top ; sub += 1)
fprintf(vvp_out, ", %s", tmp[sub-idx]);
fprintf(vvp_out, ";\n");
}
for (idx = 0 ; idx < npos ; idx += ntmp, ecnt += 1) {
unsigned sub, top;
top = idx + ntmp;
if (npos < top)
top = npos;
for (sub = idx ; sub < top ; sub += 1) {
ivl_nexus_t nex = ivl_event_pos(obj, sub);
strncpy(tmp[sub-idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
fprintf(vvp_out, "E_%p/%u .event posedge", obj, ecnt);
for (sub = idx ; sub < top ; sub += 1)
fprintf(vvp_out, ", %s", tmp[sub-idx]);
fprintf(vvp_out, ";\n");
}
assert(ecnt == cnt);
fprintf(vvp_out, "E_%p .event/or", obj);
fprintf(vvp_out, " E_%p/0", obj);
for (idx = 1 ; idx < cnt ; idx += 1)
fprintf(vvp_out, ", E_%p/%u", obj, idx);
fprintf(vvp_out, ";\n");
} else {
unsigned num_input_strings = nany + nneg + npos;
unsigned idx;
const char*edge = 0;
assert(num_input_strings <= ntmp);
if (nany > 0) {
assert((nneg + npos) == 0);
edge = "edge";
for (idx = 0 ; idx < nany ; idx += 1) {
ivl_nexus_t nex = ivl_event_any(obj, idx);
strncpy(tmp[idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
} else if (nneg > 0) {
assert((nany + npos) == 0);
edge = "negedge";
for (idx = 0 ; idx < nneg ; idx += 1) {
ivl_nexus_t nex = ivl_event_neg(obj, idx);
strncpy(tmp[idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
} else {
assert((nany + nneg) == 0);
edge = "posedge";
for (idx = 0 ; idx < npos ; idx += 1) {
ivl_nexus_t nex = ivl_event_pos(obj, idx);
strncpy(tmp[idx], draw_input_from_net(nex), sizeof(tmp[0]));
}
}
fprintf(vvp_out, "E_%p .event %s", obj, edge);
for (idx = 0 ; idx < num_input_strings ; idx += 1) {
fprintf(vvp_out, ", %s", tmp[idx]);
}
fprintf(vvp_out, ";\n");
}
}
