OpenFPGA/vpr7_x2p/vpr/SRC/fpga_x2p/base/module_manager.cpp

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/******************************************************************************
* Memember functions for data structure ModuleManager
******************************************************************************/
#include <string>
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#include <numeric>
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#include <algorithm>
#include "vtr_assert.h"
#include "circuit_library.h"
#include "module_manager.h"
/******************************************************************************
* Public Constructors
******************************************************************************/
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/**************************************************
* Public Accessors : Aggregates
*************************************************/
/* Find all the modules */
ModuleManager::module_range ModuleManager::modules() const {
return vtr::make_range(ids_.begin(), ids_.end());
}
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/* Find all the ports belonging to a module */
ModuleManager::module_port_range ModuleManager::module_ports(const ModuleId& module) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module));
return vtr::make_range(port_ids_[module].begin(), port_ids_[module].end());
}
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/* Find all the nets belonging to a module */
ModuleManager::module_net_range ModuleManager::module_nets(const ModuleId& module) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module));
return vtr::make_range(net_ids_[module].begin(), net_ids_[module].end());
}
/* Find all the child modules under a parent module */
std::vector<ModuleId> ModuleManager::child_modules(const ModuleId& parent_module) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(parent_module));
return children_[parent_module];
}
/* Find all the instances under a parent module */
std::vector<size_t> ModuleManager::child_module_instances(const ModuleId& parent_module, const ModuleId& child_module) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(parent_module));
/* Ensure that the child module is in the child list of parent module */
size_t child_index = children_[parent_module].size();
for (size_t i = 0; i < children_[parent_module].size(); ++i) {
if (child_module == children_[parent_module][i]) {
child_index = i;
break;
}
}
VTR_ASSERT(child_index != children_[parent_module].size());
/* Create a vector, with sequentially increasing numbers */
std::vector<size_t> instance_range(num_child_instances_[parent_module][child_index], 0);
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std::iota(instance_range.begin(), instance_range.end(), 0);
return instance_range;
}
/* Find the source ids of modules */
ModuleManager::module_net_src_range ModuleManager::module_net_sources(const ModuleId& module, const ModuleNetId& net) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_net_id(module, net));
return vtr::make_range(net_src_ids_[module][net].begin(), net_src_ids_[module][net].end());
}
/* Find the sink ids of modules */
ModuleManager::module_net_sink_range ModuleManager::module_net_sinks(const ModuleId& module, const ModuleNetId& net) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_net_id(module, net));
return vtr::make_range(net_sink_ids_[module][net].begin(), net_sink_ids_[module][net].end());
}
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/******************************************************************************
* Public Accessors
******************************************************************************/
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/* Return number of modules */
size_t ModuleManager::num_modules() const {
return ids_.size();
}
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/* Return number of net of a module */
size_t ModuleManager::num_nets(const ModuleId& module) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module));
return net_ids_[module].size();
}
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/* Find the name of a module */
std::string ModuleManager::module_name(const ModuleId& module_id) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module_id));
return names_[module_id];
}
/* Get the string of a module port type */
std::string ModuleManager::module_port_type_str(const enum e_module_port_type& port_type) const {
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std::array<const char*, NUM_MODULE_PORT_TYPES> MODULE_PORT_TYPE_STRING = {{"GLOBAL PORTS", "GPIO PORTS", "INOUT PORTS", "INPUT PORTS", "OUTPUT PORTS", "CLOCK PORTS"}};
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return MODULE_PORT_TYPE_STRING[port_type];
}
/* Find a list of ports of a module by a given types */
std::vector<BasicPort> ModuleManager::module_ports_by_type(const ModuleId& module_id, const enum e_module_port_type& port_type) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module_id));
std::vector<BasicPort> ports;
for (const auto& port : port_ids_[module_id]) {
/* Skip unmatched ports */
if (port_type != port_types_[module_id][port]) {
continue;
}
ports.push_back(ports_[module_id][port]);
}
return ports;
}
/* Find a list of port ids of a module by a given types */
std::vector<ModulePortId> ModuleManager::module_port_ids_by_type(const ModuleId& module_id, const enum e_module_port_type& port_type) const {
/* Validate the module_id */
VTR_ASSERT(valid_module_id(module_id));
std::vector<ModulePortId> port_ids;
for (const auto& port : port_ids_[module_id]) {
/* Skip unmatched ports */
if (port_type != port_types_[module_id][port]) {
continue;
}
port_ids.push_back(port_ids_[module_id][port]);
}
return port_ids;
}
/* Find a port of a module by a given name */
ModulePortId ModuleManager::find_module_port(const ModuleId& module_id, const std::string& port_name) const {
/* Validate the module id */
VTR_ASSERT(valid_module_id(module_id));
/* Iterate over the ports of the module */
for (const auto& port : port_ids_[module_id]) {
if (0 == port_name.compare(ports_[module_id][port].get_name())) {
/* Find it, return the id */
return port;
}
}
/* Not found, return an invalid id */
return ModulePortId::INVALID();
}
/* Find the Port information with a given port id */
BasicPort ModuleManager::module_port(const ModuleId& module_id, const ModulePortId& port_id) const {
/* Validate the module and port id */
VTR_ASSERT(valid_module_port_id(module_id, port_id));
return ports_[module_id][port_id];
}
/* Find the module id by a given name, return invalid if not found */
ModuleId ModuleManager::find_module(const std::string& name) const {
if (name_id_map_.find(name) != name_id_map_.end()) {
/* Find it, return the id */
return name_id_map_.at(name);
}
/* Not found, return an invalid id */
return ModuleId::INVALID();
}
/* Find the number of instances of a child module in the parent module */
size_t ModuleManager::num_instance(const ModuleId& parent_module, const ModuleId& child_module) const {
/* validate both module ids */
VTR_ASSERT(valid_module_id(parent_module));
VTR_ASSERT(valid_module_id(child_module));
/* Try to find the child_module in the children list of parent_module*/
for (size_t i = 0; i < children_[parent_module].size(); ++i) {
if (child_module == children_[parent_module][i]) {
/* Found, return the number of instances */
return num_child_instances_[parent_module][i];
}
}
/* Not found, return a zero */
return 0;
}
/* Find if a port is a wire connection */
bool ModuleManager::port_is_wire(const ModuleId& module, const ModulePortId& port) const {
/* validate both module id and port id*/
VTR_ASSERT(valid_module_port_id(module, port));
return port_is_wire_[module][port];
}
/* Find if a port is register */
bool ModuleManager::port_is_register(const ModuleId& module, const ModulePortId& port) const {
/* validate both module id and port id*/
VTR_ASSERT(valid_module_port_id(module, port));
return port_is_register_[module][port];
}
/* Return the pre-processing flag of a port */
std::string ModuleManager::port_preproc_flag(const ModuleId& module, const ModulePortId& port) const {
/* validate both module id and port id*/
VTR_ASSERT(valid_module_port_id(module, port));
return port_preproc_flags_[module][port];
}
/* Find a net from an instance of a module */
ModuleNetId ModuleManager::module_instance_port_net(const ModuleId& parent_module,
const ModuleId& child_module, const size_t& child_instance,
const ModulePortId& child_port, const size_t& child_pin) const {
/* Validate parent_module */
VTR_ASSERT(valid_module_id(parent_module));
/* Validate child_module */
VTR_ASSERT(valid_module_id(child_module));
/* Validate instance id */
if (child_module == parent_module) {
/* Assume a default instance id as zero */
VTR_ASSERT(0 == child_instance);
} else {
VTR_ASSERT(child_instance < num_instance(parent_module, child_module));
}
/* Validate child_port */
VTR_ASSERT(valid_module_port_id(child_module, child_port));
/* Validate child_pin */
VTR_ASSERT(child_pin < module_port(child_module, child_port).get_width());
return net_lookup_[parent_module][child_module][child_instance][child_port][child_pin];
}
/* Find the name of net */
std::string ModuleManager::net_name(const ModuleId& module, const ModuleNetId& net) const {
/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_names_[module][net];
}
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/* Find the source modules of a net */
vtr::vector<ModuleNetSrcId, ModuleId> ModuleManager::net_source_modules(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_src_module_ids_[module][net];
}
/* Find the ids of source instances of a net */
vtr::vector<ModuleNetSrcId, size_t> ModuleManager::net_source_instances(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_src_instance_ids_[module][net];
}
/* Find the source ports of a net */
vtr::vector<ModuleNetSrcId, ModulePortId> ModuleManager::net_source_ports(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_src_port_ids_[module][net];
}
/* Find the source pin indices of a net */
vtr::vector<ModuleNetSrcId, size_t> ModuleManager::net_source_pins(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_src_pin_ids_[module][net];
}
/* Find the sink modules of a net */
vtr::vector<ModuleNetSinkId, ModuleId> ModuleManager::net_sink_modules(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_sink_module_ids_[module][net];
}
/* Find the ids of sink instances of a net */
vtr::vector<ModuleNetSinkId, size_t> ModuleManager::net_sink_instances(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_sink_instance_ids_[module][net];
}
/* Find the sink ports of a net */
vtr::vector<ModuleNetSinkId, ModulePortId> ModuleManager::net_sink_ports(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_sink_port_ids_[module][net];
}
/* Find the sink pin indices of a net */
vtr::vector<ModuleNetSinkId, size_t> ModuleManager::net_sink_pins(const ModuleId& module, const ModuleNetId& net) const {
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/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
return net_sink_pin_ids_[module][net];
}
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/******************************************************************************
* Public Mutators
******************************************************************************/
/* Add a module */
ModuleId ModuleManager::add_module(const std::string& name) {
/* Find if the name has been used. If used, return an invalid Id and report error! */
std::map<std::string, ModuleId>::iterator it = name_id_map_.find(name);
if (it != name_id_map_.end()) {
return ModuleId::INVALID();
}
/* Create an new id */
ModuleId module = ModuleId(ids_.size());
ids_.push_back(module);
/* Allocate other attributes */
names_.push_back(name);
parents_.emplace_back();
children_.emplace_back();
num_child_instances_.emplace_back();
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port_ids_.emplace_back();
ports_.emplace_back();
port_types_.emplace_back();
port_is_wire_.emplace_back();
port_is_register_.emplace_back();
port_preproc_flags_.emplace_back();
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net_ids_.emplace_back();
net_names_.emplace_back();
net_src_ids_.emplace_back();
net_src_module_ids_.emplace_back();
net_src_instance_ids_.emplace_back();
net_src_port_ids_.emplace_back();
net_src_pin_ids_.emplace_back();
net_sink_ids_.emplace_back();
net_sink_module_ids_.emplace_back();
net_sink_instance_ids_.emplace_back();
net_sink_port_ids_.emplace_back();
net_sink_pin_ids_.emplace_back();
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/* Register in the name-to-id map */
name_id_map_[name] = module;
/* Build port lookup */
port_lookup_.emplace_back();
port_lookup_[module].resize(NUM_MODULE_PORT_TYPES);
/* Build fast look-up for nets */
net_lookup_.emplace_back();
/* Reserve the instance 0 for the module */
net_lookup_[module][module].emplace_back();
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/* Return the new id */
return module;
}
/* Add a port to a module */
ModulePortId ModuleManager::add_port(const ModuleId& module,
const BasicPort& port_info, const enum e_module_port_type& port_type) {
/* Validate the id of module */
VTR_ASSERT( valid_module_id(module) );
/* Add port and fill port attributes */
ModulePortId port = ModulePortId(port_ids_[module].size());
port_ids_[module].push_back(port);
ports_[module].push_back(port_info);
port_types_[module].push_back(port_type);
port_is_wire_[module].push_back(false);
port_is_register_[module].push_back(false);
port_preproc_flags_[module].emplace_back(); /* Create an empty string for the pre-processing flags */
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/* Update fast look-up for port */
port_lookup_[module][port_type].push_back(port);
/* Update fast look-up for nets */
VTR_ASSERT_SAFE(1 == net_lookup_[module][module].size());
net_lookup_[module][module][0][port].resize(port_info.get_width(), ModuleNetId::INVALID());
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return port;
}
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/* Set a name for a module */
void ModuleManager::set_module_name(const ModuleId& module, const std::string& name) {
/* Validate the id of module */
VTR_ASSERT( valid_module_id(module) );
names_[module] = name;
}
/* Set a port to be a wire */
void ModuleManager::set_port_is_wire(const ModuleId& module, const std::string& port_name, const bool& is_wire) {
/* Find the port */
ModulePortId port = find_module_port(module, port_name);
/* Must find something, otherwise drop an error */
VTR_ASSERT(ModulePortId::INVALID() != port);
port_is_wire_[module][port] = is_wire;
}
/* Set a port to be a register */
void ModuleManager::set_port_is_register(const ModuleId& module, const std::string& port_name, const bool& is_register) {
/* Find the port */
ModulePortId port = find_module_port(module, port_name);
/* Must find something, otherwise drop an error */
VTR_ASSERT(ModulePortId::INVALID() != port);
port_is_register_[module][port] = is_register;
}
/* Set the preprocessing flag for a port */
void ModuleManager::set_port_preproc_flag(const ModuleId& module, const ModulePortId& port, const std::string& preproc_flag) {
/* Must find something, otherwise drop an error */
VTR_ASSERT(valid_module_port_id(module, port));
port_preproc_flags_[module][port] = preproc_flag;
}
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/* Add a child module to a parent module */
void ModuleManager::add_child_module(const ModuleId& parent_module, const ModuleId& child_module) {
/* Validate the id of both parent and child modules */
VTR_ASSERT ( valid_module_id(parent_module) );
VTR_ASSERT ( valid_module_id(child_module) );
/* Try to find if the parent module is already in the list */
std::vector<ModuleId>::iterator parent_it = std::find(parents_[child_module].begin(), parents_[child_module].end(), parent_module);
if (parent_it == parents_[child_module].end()) {
/* Update the parent module of child module */
parents_[child_module].push_back(parent_module);
}
std::vector<ModuleId>::iterator child_it = std::find(children_[parent_module].begin(), children_[parent_module].end(), child_module);
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if (child_it == children_[parent_module].end()) {
/* Update the child module of parent module */
children_[parent_module].push_back(child_module);
num_child_instances_[parent_module].push_back(1); /* By default give one */
} else {
/* Increase the counter of instances */
num_child_instances_[parent_module][child_it - children_[parent_module].begin()]++;
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}
/* Update fast look-up for nets */
size_t instance_id = net_lookup_[parent_module][child_module].size();
net_lookup_[parent_module][child_module].emplace_back();
/* Find the ports for the child module and update the fast look-up */
for (ModulePortId child_port : port_ids_[child_module]) {
net_lookup_[parent_module][child_module][instance_id][child_port].resize(ports_[child_module][child_port].get_width(), ModuleNetId::INVALID());
}
}
/* Add a net to the connection graph of the module */
ModuleNetId ModuleManager::create_module_net(const ModuleId& module) {
/* Validate the module id */
VTR_ASSERT ( valid_module_id(module) );
/* Create an new id */
ModuleNetId net = ModuleNetId(net_ids_[module].size());
net_ids_[module].push_back(net);
/* Allocate net-related data structures */
net_names_[module].emplace_back();
net_src_ids_[module].emplace_back();
net_src_module_ids_[module].emplace_back();
net_src_instance_ids_[module].emplace_back();
net_src_port_ids_[module].emplace_back();
net_src_pin_ids_[module].emplace_back();
net_sink_ids_[module].emplace_back();
net_sink_module_ids_[module].emplace_back();
net_sink_instance_ids_[module].emplace_back();
net_sink_port_ids_[module].emplace_back();
net_sink_pin_ids_[module].emplace_back();
return net;
}
/* Set the name of net */
void ModuleManager::set_net_name(const ModuleId& module, const ModuleNetId& net,
const std::string& name) {
/* Validate module net */
VTR_ASSERT(valid_module_net_id(module, net));
net_names_[module][net] = name;
}
/* Add a source to a net in the connection graph */
ModuleNetSrcId ModuleManager::add_module_net_source(const ModuleId& module, const ModuleNetId& net,
const ModuleId& src_module, const size_t& instance_id,
const ModulePortId& src_port, const size_t& src_pin) {
/* Validate the module and net id */
VTR_ASSERT(valid_module_net_id(module, net));
/* Create a new id for src node */
ModuleNetSrcId net_src = ModuleNetSrcId(net_src_ids_[module][net].size());
net_src_ids_[module][net].push_back(net_src);
/* Validate the source module */
VTR_ASSERT(valid_module_id(src_module));
net_src_module_ids_[module][net].push_back(src_module);
/* if it has the same id as module, our instance id will be by default 0 */
size_t src_instance_id = instance_id;
if (src_module == module) {
src_instance_id = 0;
net_src_instance_ids_[module][net].push_back(src_instance_id);
} else {
/* Check the instance id of the src module */
VTR_ASSERT (src_instance_id < num_instance(module, src_module));
net_src_instance_ids_[module][net].push_back(src_instance_id);
}
/* Validate the port exists in the src module */
VTR_ASSERT(valid_module_port_id(src_module, src_port));
net_src_port_ids_[module][net].push_back(src_port);
/* Validate the pin id is in the range of the port width */
VTR_ASSERT(src_pin < module_port(src_module, src_port).get_width());
net_src_pin_ids_[module][net].push_back(src_pin);
/* Update fast look-up for nets */
net_lookup_[module][src_module][src_instance_id][src_port][src_pin] = net;
return net_src;
}
/* Add a sink to a net in the connection graph */
ModuleNetSinkId ModuleManager::add_module_net_sink(const ModuleId& module, const ModuleNetId& net,
const ModuleId& sink_module, const size_t& instance_id,
const ModulePortId& sink_port, const size_t& sink_pin) {
/* Validate the module and net id */
VTR_ASSERT(valid_module_net_id(module, net));
/* Create a new id for sink node */
ModuleNetSinkId net_sink = ModuleNetSinkId(net_sink_ids_[module][net].size());
net_sink_ids_[module][net].push_back(net_sink);
/* Validate the source module */
VTR_ASSERT(valid_module_id(sink_module));
net_sink_module_ids_[module][net].push_back(sink_module);
/* if it has the same id as module, our instance id will be by default 0 */
size_t sink_instance_id = instance_id;
if (sink_module == module) {
sink_instance_id = 0;
net_sink_instance_ids_[module][net].push_back(sink_instance_id);
} else {
/* Check the instance id of the src module */
VTR_ASSERT (sink_instance_id < num_instance(module, sink_module));
net_sink_instance_ids_[module][net].push_back(sink_instance_id);
}
/* Validate the port exists in the sink module */
VTR_ASSERT(valid_module_port_id(sink_module, sink_port));
net_sink_port_ids_[module][net].push_back(sink_port);
/* Validate the pin id is in the range of the port width */
VTR_ASSERT(sink_pin < module_port(sink_module, sink_port).get_width());
net_sink_pin_ids_[module][net].push_back(sink_pin);
/* Update fast look-up for nets */
net_lookup_[module][sink_module][sink_instance_id][sink_port][sink_pin] = net;
return net_sink;
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}
/******************************************************************************
* Private validators/invalidators
******************************************************************************/
bool ModuleManager::valid_module_id(const ModuleId& module) const {
return ( size_t(module) < ids_.size() ) && ( module == ids_[module] );
}
bool ModuleManager::valid_module_port_id(const ModuleId& module, const ModulePortId& port) const {
if (false == valid_module_id(module)) {
return false;
}
return ( size_t(port) < port_ids_[module].size() ) && ( port == port_ids_[module][port] );
}
bool ModuleManager::valid_module_net_id(const ModuleId& module, const ModuleNetId& net) const {
if (false == valid_module_id(module)) {
return false;
}
return ( size_t(net) < net_ids_[module].size() ) && ( net == net_ids_[module][net] );
}
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void ModuleManager::invalidate_name2id_map() {
name_id_map_.clear();
}
void ModuleManager::invalidate_port_lookup() {
port_lookup_.clear();
}
void ModuleManager::invalidate_net_lookup() {
net_lookup_.clear();
}