continue;
log("Working on cell %s...\n", cell->name.c_str());
+
+ // Go all the way to the sink
+ Cell* head_cell = cell;
+ Cell* x = cell;
+ while (true)
+ {
+ if (!((x->type == "$_AND_" && gt == GateType::And) ||
+ (x->type == "$_OR_" && gt == GateType::Or) ||
+ (x->type == "$_XOR_" && gt == GateType::Xor)))
+ break;
+
+ head_cell = x;
+
+ auto y = sigmap(x->getPort("\\Y"));
+ log_assert(y.size() == 1);
+
+ // Should only continue if there is one fanout back into a cell (not to a port)
+ if (sig_to_sink[y[0]].size() != 1)
+ break;
+
+ x = *sig_to_sink[y[0]].begin();
+ }
+
+ log(" Head cell is %s\n", head_cell->name.c_str());
+
+ pool<Cell*> cur_supercell;
+ std::deque<Cell*> bfs_queue = {head_cell};
+ while (bfs_queue.size())
+ {
+ Cell* x = bfs_queue.front();
+ bfs_queue.pop_front();
+
+ cur_supercell.insert(x);
+
+ auto a = sigmap(x->getPort("\\A"));
+ log_assert(a.size() == 1);
+ // Must have only one sink
+ // XXX: Check that it is indeed this node?
+ if (sig_to_sink[a[0]].size() + port_sigs.count(a[0]) == 1)
+ {
+ Cell* cell_a = sig_to_driver[a[0]];
+ if (((cell_a->type == "$_AND_" && gt == GateType::And) ||
+ (cell_a->type == "$_OR_" && gt == GateType::Or) ||
+ (cell_a->type == "$_XOR_" && gt == GateType::Xor)))
+ {
+ // The cell here is the correct type, and it's definitely driving only
+ // this current cell.
+ bfs_queue.push_back(cell_a);
+ }
+ }
+
+ auto b = sigmap(x->getPort("\\B"));
+ log_assert(b.size() == 1);
+ // Must have only one sink
+ // XXX: Check that it is indeed this node?
+ if (sig_to_sink[b[0]].size() + port_sigs.count(b[0]) == 1)
+ {
+ Cell* cell_b = sig_to_driver[b[0]];
+ if (((cell_b->type == "$_AND_" && gt == GateType::And) ||
+ (cell_b->type == "$_OR_" && gt == GateType::Or) ||
+ (cell_b->type == "$_XOR_" && gt == GateType::Xor)))
+ {
+ // The cell here is the correct type, and it's definitely driving only
+ // this current cell.
+ bfs_queue.push_back(cell_b);
+ }
+ }
+ }
+
+ log(" Cells:\n");
+ for (auto x : cur_supercell)
+ log(" %s\n", x->name.c_str());
+
+ if (cur_supercell.size() > 1)
+ {
+ // Worth it to create reduce cell
+ log(" Creating $reduce_* cell!\n");
+
+ pool<SigBit> input_pool;
+ pool<SigBit> input_pool_intermed;
+ for (auto x : cur_supercell)
+ {
+ input_pool.insert(sigmap(x->getPort("\\A"))[0]);
+ input_pool.insert(sigmap(x->getPort("\\B"))[0]);
+ input_pool_intermed.insert(sigmap(x->getPort("\\Y"))[0]);
+ }
+ SigSpec input;
+ for (auto b : input_pool)
+ if (input_pool_intermed.count(b) == 0)
+ input.append_bit(b);
+
+ SigBit output = sigmap(head_cell->getPort("\\Y")[0]);
+
+ auto new_reduce_cell = module->addCell(NEW_ID,
+ gt == GateType::And ? "$reduce_and" :
+ gt == GateType::Or ? "$reduce_or" :
+ gt == GateType::Xor ? "$reduce_xor" : "");
+ new_reduce_cell->setParam("\\A_SIGNED", 0);
+ new_reduce_cell->setParam("\\A_WIDTH", input.size());
+ new_reduce_cell->setParam("\\Y_WIDTH", 1);
+ new_reduce_cell->setPort("\\A", input);
+ new_reduce_cell->setPort("\\Y", output);
+
+ for (auto x : cur_supercell)
+ consumed_cells.insert(x);
+ }
}
+
+ // Remove every cell that we've used up
+ for (auto cell : consumed_cells)
+ module->remove(cell);
}
}
} RecoverReduceCorePass;