yosys/passes/hierarchy/hierarchy.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.com>
* Copyright (C) 2018 Ruben Undheim <ruben.undheim@gmail.com>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
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#include "kernel/yosys.h"
#include "frontends/verific/verific.h"
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#include <stdlib.h>
#include <stdio.h>
#include <set>
#ifndef _WIN32
# include <unistd.h>
#endif
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
struct generate_port_decl_t {
bool input, output;
string portname;
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int index;
};
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void generate(RTLIL::Design *design, const std::vector<std::string> &celltypes, const std::vector<generate_port_decl_t> &portdecls)
{
std::set<RTLIL::IdString> found_celltypes;
for (auto mod : design->modules())
for (auto cell : mod->cells())
{
if (design->module(cell->type) != nullptr)
continue;
if (cell->type.begins_with("$") && !cell->type.begins_with("$__"))
continue;
for (auto &pattern : celltypes)
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if (patmatch(pattern.c_str(), RTLIL::unescape_id(cell->type).c_str()))
found_celltypes.insert(cell->type);
}
for (auto &celltype : found_celltypes)
{
std::set<RTLIL::IdString> portnames;
std::set<RTLIL::IdString> parameters;
std::map<RTLIL::IdString, int> portwidths;
log("Generate module for cell type %s:\n", celltype.c_str());
for (auto mod : design->modules())
for (auto cell : mod->cells())
if (cell->type == celltype) {
for (auto &conn : cell->connections()) {
if (conn.first[0] != '$')
portnames.insert(conn.first);
portwidths[conn.first] = max(portwidths[conn.first], conn.second.size());
}
for (auto &para : cell->parameters)
parameters.insert(para.first);
}
for (auto &decl : portdecls)
if (decl.index > 0)
portnames.insert(decl.portname);
std::set<int> indices;
for (int i = 0; i < int(portnames.size()); i++)
indices.insert(i+1);
std::vector<generate_port_decl_t> ports(portnames.size());
for (auto &decl : portdecls)
if (decl.index > 0) {
portwidths[decl.portname] = max(portwidths[decl.portname], 1);
portwidths[decl.portname] = max(portwidths[decl.portname], portwidths[stringf("$%d", decl.index)]);
log(" port %d: %s [%d:0] %s\n", decl.index, decl.input ? decl.output ? "inout" : "input" : "output", portwidths[decl.portname]-1, RTLIL::id2cstr(decl.portname));
if (indices.count(decl.index) > ports.size())
log_error("Port index (%d) exceeds number of found ports (%d).\n", decl.index, int(ports.size()));
if (indices.count(decl.index) == 0)
log_error("Conflict on port index %d.\n", decl.index);
indices.erase(decl.index);
portnames.erase(decl.portname);
ports[decl.index-1] = decl;
}
while (portnames.size() > 0) {
RTLIL::IdString portname = *portnames.begin();
for (auto &decl : portdecls)
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if (decl.index == 0 && patmatch(decl.portname.c_str(), RTLIL::unescape_id(portname).c_str())) {
generate_port_decl_t d = decl;
d.portname = portname.str();
d.index = *indices.begin();
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log_assert(!indices.empty());
indices.erase(d.index);
ports[d.index-1] = d;
portwidths[d.portname] = max(portwidths[d.portname], 1);
log(" port %d: %s [%d:0] %s\n", d.index, d.input ? d.output ? "inout" : "input" : "output", portwidths[d.portname]-1, RTLIL::id2cstr(d.portname));
goto found_matching_decl;
}
log_error("Can't match port %s.\n", RTLIL::id2cstr(portname));
found_matching_decl:;
portnames.erase(portname);
}
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log_assert(indices.empty());
RTLIL::Module *mod = new RTLIL::Module;
mod->name = celltype;
mod->attributes[ID::blackbox] = RTLIL::Const(1);
design->add(mod);
for (auto &decl : ports) {
RTLIL::Wire *wire = mod->addWire(decl.portname, portwidths.at(decl.portname));
wire->port_id = decl.index;
wire->port_input = decl.input;
wire->port_output = decl.output;
}
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mod->fixup_ports();
for (auto &para : parameters)
log(" ignoring parameter %s.\n", RTLIL::id2cstr(para));
log(" module %s created.\n", RTLIL::id2cstr(mod->name));
}
}
// Return the "basic" type for an array item.
std::string basic_cell_type(const std::string celltype, int pos[3] = nullptr) {
std::string basicType = celltype;
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if (celltype.compare(0, strlen("$array:"), "$array:") == 0) {
int pos_idx = celltype.find_first_of(':');
int pos_num = celltype.find_first_of(':', pos_idx + 1);
int pos_type = celltype.find_first_of(':', pos_num + 1);
basicType = celltype.substr(pos_type + 1);
if (pos != nullptr) {
pos[0] = pos_idx;
pos[1] = pos_num;
pos[2] = pos_type;
}
}
return basicType;
}
// A helper struct for expanding a module's interface connections in expand_module
struct IFExpander
{
IFExpander (RTLIL::Design &design, RTLIL::Module &m)
: module(m), has_interfaces_not_found(false)
{
// Keep track of all derived interfaces available in the current
// module in 'interfaces_in_module':
for (auto cell : module.cells()) {
if(!cell->get_bool_attribute(ID::is_interface))
continue;
interfaces_in_module[cell->name] = design.module(cell->type);
}
}
RTLIL::Module &module;
dict<RTLIL::IdString, RTLIL::Module*> interfaces_in_module;
bool has_interfaces_not_found;
std::vector<RTLIL::IdString> connections_to_remove;
std::vector<RTLIL::IdString> connections_to_add_name;
std::vector<RTLIL::SigSpec> connections_to_add_signal;
dict<RTLIL::IdString, RTLIL::Module*> interfaces_to_add_to_submodule;
dict<RTLIL::IdString, RTLIL::IdString> modports_used_in_submodule;
// Reset the per-cell state
void start_cell()
{
has_interfaces_not_found = false;
connections_to_remove.clear();
connections_to_add_name.clear();
connections_to_add_signal.clear();
interfaces_to_add_to_submodule.clear();
modports_used_in_submodule.clear();
}
// Set has_interfaces_not_found if there are pending interfaces that
// haven't been found yet (and might be found in the future). Print a
// warning if we've already gone over all the cells in the module.
void on_missing_interface(RTLIL::IdString interface_name)
{
// If there are cells that haven't yet been processed, maybe
// we'll find this interface in the future.
if (module.get_bool_attribute(ID::cells_not_processed)) {
has_interfaces_not_found = true;
return;
}
// Otherwise, we have already gone over all cells in this
// module and the interface has still not been found. Warn
// about it and don't set has_interfaces_not_found (to avoid a
// loop).
log_warning("Could not find interface instance for `%s' in `%s'\n",
log_id(interface_name), log_id(&module));
}
// Handle an interface connection from the module
void on_interface(RTLIL::Module &submodule,
RTLIL::IdString conn_name,
const RTLIL::SigSpec &conn_signals)
{
// Check if the connected wire is a potential interface in the parent module
std::string interface_name_str = conn_signals[0].wire->name.str();
// Strip the prefix '$dummywireforinterface' from the dummy wire to get the name
interface_name_str.replace(0,23,"");
interface_name_str = "\\" + interface_name_str;
RTLIL::IdString interface_name = interface_name_str;
// If 'interfaces' in the cell have not be been handled yet, we aren't
// ready to derive the sub-module either
if (!module.get_bool_attribute(ID::interfaces_replaced_in_module)) {
on_missing_interface(interface_name);
return;
}
// Check if the interface instance is present in module. Interface
// instances may either have the plain name or the name appended with
// '_inst_from_top_dummy'. Check for both of them here
int nexactmatch = interfaces_in_module.count(interface_name) > 0;
std::string interface_name_str2 = interface_name_str + "_inst_from_top_dummy";
RTLIL::IdString interface_name2 = interface_name_str2;
int nmatch2 = interfaces_in_module.count(interface_name2) > 0;
// If we can't find either name, this is a missing interface.
if (! (nexactmatch || nmatch2)) {
on_missing_interface(interface_name);
return;
}
if (nexactmatch != 0) // Choose the one with the plain name if it exists
interface_name2 = interface_name;
RTLIL::Module *mod_replace_ports = interfaces_in_module.at(interface_name2);
// Go over all wires in interface, and add replacements to lists.
for (auto mod_wire : mod_replace_ports->wires()) {
std::string signal_name1 = conn_name.str() + "." + log_id(mod_wire->name);
std::string signal_name2 = interface_name.str() + "." + log_id(mod_wire);
connections_to_add_name.push_back(RTLIL::IdString(signal_name1));
if(module.wire(signal_name2) == nullptr) {
log_error("Could not find signal '%s' in '%s'\n",
signal_name2.c_str(), log_id(module.name));
}
else {
RTLIL::Wire *wire_in_parent = module.wire(signal_name2);
connections_to_add_signal.push_back(wire_in_parent);
}
}
connections_to_remove.push_back(conn_name);
interfaces_to_add_to_submodule[conn_name] = interfaces_in_module.at(interface_name2);
// Find if the sub-module has set a modport for the current interface
// connection. Add any modports to a dict which will be passed to
// AstModule::derive
string modport_name = submodule.wire(conn_name)->get_string_attribute(ID::interface_modport);
if (!modport_name.empty()) {
modports_used_in_submodule[conn_name] = "\\" + modport_name;
}
}
// Handle a single connection from the module, making a note to expand
// it if it's an interface connection.
void on_connection(RTLIL::Module &submodule,
RTLIL::IdString conn_name,
const RTLIL::SigSpec &conn_signals)
{
// Check if the connection is present as an interface in the sub-module's port list
const RTLIL::Wire *wire = submodule.wire(conn_name);
if (!wire || !wire->get_bool_attribute(ID::is_interface))
return;
// If the connection looks like an interface, handle it.
const auto &bits = conn_signals;
if (bits.size() == 1 && bits[0].wire->get_bool_attribute(ID::is_interface))
on_interface(submodule, conn_name, conn_signals);
}
// Iterate over the connections in a cell, tracking any interface
// connections
void visit_connections(const RTLIL::Cell &cell,
RTLIL::Module &submodule)
{
for (const auto &conn : cell.connections()) {
on_connection(submodule, conn.first, conn.second);
}
}
// Add/remove connections to the cell as necessary, replacing any SV
// interface port connection with the individual signal connections.
void rewrite_interface_connections(RTLIL::Cell &cell) const
{
for(unsigned int i=0;i<connections_to_add_name.size();i++) {
cell.connections_[connections_to_add_name[i]] = connections_to_add_signal[i];
}
// Remove the connection for the interface itself:
for(unsigned int i=0;i<connections_to_remove.size();i++) {
cell.connections_.erase(connections_to_remove[i]);
}
}
};
// Get a module needed by a cell, either by deriving an abstract module or by
// loading one from a directory in libdirs.
//
// If the module can't be found and check is true then exit with an error
// message. Otherwise, return a pointer to the module if we derived or loaded
// something. or null otherwise (the module should be blackbox or we couldn't
// find it and check is not set).
RTLIL::Module *get_module(RTLIL::Design &design,
RTLIL::Cell &cell,
RTLIL::Module &parent,
bool check,
const std::vector<std::string> &libdirs)
{
std::string cell_type = cell.type.str();
RTLIL::Module *abs_mod = design.module("$abstract" + cell_type);
if (abs_mod) {
cell.type = abs_mod->derive(&design, cell.parameters);
cell.parameters.clear();
RTLIL::Module *mod = design.module(cell.type);
log_assert(mod);
return mod;
}
// If the cell type starts with '$' and isn't '$abstract', we should
// treat it as a black box and skip.
if (cell_type[0] == '$')
return nullptr;
for (auto &dir : libdirs) {
static const vector<pair<string, string>> extensions_list =
{
{".v", "verilog"},
{".sv", "verilog -sv"},
{".il", "rtlil"}
};
for (auto &ext : extensions_list) {
std::string filename = dir + "/" + RTLIL::unescape_id(cell.type) + ext.first;
if (!check_file_exists(filename))
continue;
Frontend::frontend_call(&design, NULL, filename, ext.second);
RTLIL::Module *mod = design.module(cell.type);
if (!mod)
log_error("File `%s' from libdir does not declare module `%s'.\n",
filename.c_str(), cell_type.c_str());
return mod;
}
}
// We couldn't find the module anywhere. Complain if check is set.
if (check)
log_error("Module `%s' referenced in module `%s' in cell `%s' is not part of the design.\n",
cell_type.c_str(), parent.name.c_str(), cell.name.c_str());
return nullptr;
}
// Try to read an IdString as a numbered connection name ("$123" or similar),
// writing the result to dst. If the string isn't of the right format, ignore
// dst and return false.
bool read_id_num(RTLIL::IdString str, int *dst)
{
log_assert(dst);
const char *c_str = str.c_str();
if (c_str[0] != '$' || !('0' <= c_str[1] && c_str[1] <= '9'))
return false;
*dst = atoi(c_str + 1);
return true;
}
// Check that the connections on the cell match those that are defined
// on the type: each named connection should match the name of a port
// and each positional connection should have an index smaller than
// the number of ports.
//
// Also do the same checks on the specified parameters.
void check_cell_connections(const RTLIL::Module &module, RTLIL::Cell &cell, RTLIL::Module &mod)
{
int id;
for (auto &conn : cell.connections()) {
if (read_id_num(conn.first, &id)) {
if (id <= 0 || id > GetSize(mod.ports))
log_error("Module `%s' referenced in module `%s' in cell `%s' "
"has only %d ports, requested port %d.\n",
log_id(cell.type), log_id(&module), log_id(&cell),
GetSize(mod.ports), id);
continue;
}
const RTLIL::Wire* wire = mod.wire(conn.first);
if (!wire || wire->port_id == 0) {
log_error("Module `%s' referenced in module `%s' in cell `%s' "
"does not have a port named '%s'.\n",
log_id(cell.type), log_id(&module), log_id(&cell),
log_id(conn.first));
}
}
for (auto &param : cell.parameters) {
if (read_id_num(param.first, &id)) {
if (id <= 0 || id > GetSize(mod.avail_parameters))
log_error("Module `%s' referenced in module `%s' in cell `%s' "
"has only %d parameters, requested parameter %d.\n",
log_id(cell.type), log_id(&module), log_id(&cell),
GetSize(mod.avail_parameters), id);
continue;
}
if (mod.avail_parameters.count(param.first) == 0 &&
param.first[0] != '$' &&
strchr(param.first.c_str(), '.') == NULL) {
log_error("Module `%s' referenced in module `%s' in cell `%s' "
"does not have a parameter named '%s'.\n",
log_id(cell.type), log_id(&module), log_id(&cell),
log_id(param.first));
}
}
}
bool expand_module(RTLIL::Design *design, RTLIL::Module *module, bool flag_check, bool flag_simcheck, bool flag_smtcheck,
std::vector<std::string> &libdirs)
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{
bool did_something = false;
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std::map<RTLIL::Cell*, std::pair<int, int>> array_cells;
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std::string filename;
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bool has_interface_ports = false;
// If any of the ports are actually interface ports, we will always need to
// reprocess the module:
if(!module->get_bool_attribute(ID::interfaces_replaced_in_module)) {
for (auto wire : module->wires()) {
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if ((wire->port_input || wire->port_output) && wire->get_bool_attribute(ID::is_interface))
has_interface_ports = true;
}
}
IFExpander if_expander(*design, *module);
for (auto cell : module->cells())
{
if_expander.start_cell();
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if (cell->type.begins_with("$array:")) {
int pos[3];
basic_cell_type(cell->type.str(), pos);
int pos_idx = pos[0];
int pos_num = pos[1];
int pos_type = pos[2];
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int idx = atoi(cell->type.substr(pos_idx + 1, pos_num).c_str());
int num = atoi(cell->type.substr(pos_num + 1, pos_type).c_str());
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array_cells[cell] = std::pair<int, int>(idx, num);
cell->type = cell->type.substr(pos_type + 1);
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}
RTLIL::Module *mod = design->module(cell->type);
if (!mod)
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{
mod = get_module(*design, *cell, *module, flag_check || flag_simcheck || flag_smtcheck, libdirs);
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// If we still don't have a module, treat the cell as a black box and skip
// it. Otherwise, we either loaded or derived something so should set the
// did_something flag before returning (to ensure we come back and expand
// the thing we just loaded).
if (mod)
did_something = true;
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continue;
}
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log_assert(mod);
// Go over all connections and check if any of them are SV
// interfaces.
if_expander.visit_connections(*cell, *mod);
if (flag_check || flag_simcheck || flag_smtcheck)
check_cell_connections(*module, *cell, *mod);
if (mod->get_blackbox_attribute()) {
if (flag_simcheck || (flag_smtcheck && !mod->get_bool_attribute(ID::smtlib2_module)))
log_error("Module `%s' referenced in module `%s' in cell `%s' is a blackbox/whitebox module.\n",
cell->type.c_str(), module->name.c_str(), cell->name.c_str());
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continue;
}
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// If interface instances not yet found, skip cell for now, and say we did something, so that we will return back here:
if(if_expander.has_interfaces_not_found) {
did_something = true; // waiting for interfaces to be handled
continue;
}
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if_expander.rewrite_interface_connections(*cell);
// If there are no overridden parameters AND not interfaces, then we can use the existing module instance as the type
// for the cell:
if (cell->parameters.size() == 0 &&
(if_expander.interfaces_to_add_to_submodule.size() == 0 ||
!(cell->get_bool_attribute(ID::module_not_derived)))) {
// If the cell being processed is an the interface instance itself, go down to "handle_interface_instance:",
// so that the signals of the interface are added to the parent module.
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if (mod->get_bool_attribute(ID::is_interface)) {
goto handle_interface_instance;
}
continue;
}
cell->type = mod->derive(design,
cell->parameters,
if_expander.interfaces_to_add_to_submodule,
if_expander.modports_used_in_submodule);
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cell->parameters.clear();
did_something = true;
handle_interface_instance:
// We add all the signals of the interface explicitly to the parent module. This is always needed when we encounter
// an interface instance:
if (mod->get_bool_attribute(ID::is_interface) && cell->get_bool_attribute(ID::module_not_derived)) {
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cell->set_bool_attribute(ID::is_interface);
RTLIL::Module *derived_module = design->module(cell->type);
if_expander.interfaces_in_module[cell->name] = derived_module;
did_something = true;
}
// We clear 'module_not_derived' such that we will not rederive the cell again (needed when there are interfaces connected to the cell)
cell->attributes.erase(ID::module_not_derived);
}
// Clear the attribute 'cells_not_processed' such that it can be known that we
// have been through all cells at least once, and that we can know whether
// to flag an error because of interface instances not found:
module->attributes.erase(ID::cells_not_processed);
// If any interface instances or interface ports were found in the module, we need to rederive it completely:
if ((if_expander.interfaces_in_module.size() > 0 || has_interface_ports) && !module->get_bool_attribute(ID::interfaces_replaced_in_module)) {
module->expand_interfaces(design, if_expander.interfaces_in_module);
return did_something;
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}
// Now that modules have been derived, we may want to reprocess this
// module given the additional available context.
if (module->reprocess_if_necessary(design))
return true;
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for (auto &it : array_cells)
{
RTLIL::Cell *cell = it.first;
int idx = it.second.first, num = it.second.second;
if (design->module(cell->type) == nullptr)
log_error("Array cell `%s.%s' of unknown type `%s'.\n", RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
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RTLIL::Module *mod = design->module(cell->type);
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for (auto &conn : cell->connections_) {
int conn_size = conn.second.size();
RTLIL::IdString portname = conn.first;
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if (portname.begins_with("$")) {
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int port_id = atoi(portname.substr(1).c_str());
for (auto wire : mod->wires())
if (wire->port_id == port_id) {
portname = wire->name;
break;
}
}
if (mod->wire(portname) == nullptr)
log_error("Array cell `%s.%s' connects to unknown port `%s'.\n", RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(conn.first));
int port_size = mod->wire(portname)->width;
if (conn_size == port_size || conn_size == 0)
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continue;
if (conn_size != port_size*num)
log_error("Array cell `%s.%s' has invalid port vs. signal size for port `%s'.\n", RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(conn.first));
conn.second = conn.second.extract(port_size*idx, port_size);
}
}
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return did_something;
}
void hierarchy_worker(RTLIL::Design *design, std::set<RTLIL::Module*, IdString::compare_ptr_by_name<Module>> &used, RTLIL::Module *mod, int indent)
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{
if (used.count(mod) > 0)
return;
if (indent == 0)
log("Top module: %s\n", mod->name.c_str());
else if (!mod->get_blackbox_attribute())
log("Used module: %*s%s\n", indent, "", mod->name.c_str());
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used.insert(mod);
for (auto cell : mod->cells()) {
std::string celltype = cell->type.str();
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if (celltype.compare(0, strlen("$array:"), "$array:") == 0)
celltype = basic_cell_type(celltype);
if (design->module(celltype))
hierarchy_worker(design, used, design->module(celltype), indent+4);
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}
}
void hierarchy_clean(RTLIL::Design *design, RTLIL::Module *top, bool purge_lib)
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{
std::set<RTLIL::Module*, IdString::compare_ptr_by_name<Module>> used;
hierarchy_worker(design, used, top, 0);
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std::vector<RTLIL::Module*> del_modules;
for (auto mod : design->modules())
if (used.count(mod) == 0)
del_modules.push_back(mod);
else {
// Now all interface ports must have been exploded, and it is hence
// safe to delete all of the remaining dummy interface ports:
pool<RTLIL::Wire*> del_wires;
for(auto wire : mod->wires()) {
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if ((wire->port_input || wire->port_output) && wire->get_bool_attribute(ID::is_interface)) {
del_wires.insert(wire);
}
}
if (del_wires.size() > 0) {
mod->remove(del_wires);
mod->fixup_ports();
}
}
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int del_counter = 0;
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for (auto mod : del_modules) {
if (!purge_lib && mod->get_blackbox_attribute())
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continue;
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log("Removing unused module `%s'.\n", mod->name.c_str());
design->remove(mod);
del_counter++;
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}
log("Removed %d unused modules.\n", del_counter);
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}
bool set_keep_print(std::map<RTLIL::Module*, bool> &cache, RTLIL::Module *mod)
{
if (cache.count(mod) == 0)
for (auto c : mod->cells()) {
RTLIL::Module *m = mod->design->module(c->type);
if ((m != nullptr && set_keep_print(cache, m)) || c->type == ID($print))
return cache[mod] = true;
}
return cache[mod];
}
bool set_keep_assert(std::map<RTLIL::Module*, bool> &cache, RTLIL::Module *mod)
{
if (cache.count(mod) == 0)
for (auto c : mod->cells()) {
RTLIL::Module *m = mod->design->module(c->type);
if ((m != nullptr && set_keep_assert(cache, m)) || c->type.in(ID($check), ID($assert), ID($assume), ID($live), ID($fair), ID($cover)))
return cache[mod] = true;
}
return cache[mod];
}
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int find_top_mod_score(Design *design, Module *module, dict<Module*, int> &db)
{
if (db.count(module) == 0) {
int score = 0;
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db[module] = 0;
for (auto cell : module->cells()) {
std::string celltype = cell->type.str();
// Is this an array instance
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if (celltype.compare(0, strlen("$array:"), "$array:") == 0)
celltype = basic_cell_type(celltype);
// Is this cell a module instance?
auto instModule = design->module(celltype);
// If there is no instance for this, issue a warning.
if (instModule != nullptr) {
score = max(score, find_top_mod_score(design, instModule, db) + 1);
}
}
db[module] = score;
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}
return db.at(module);
}
RTLIL::Module *check_if_top_has_changed(Design *design, Module *top_mod)
{
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if(top_mod != NULL && top_mod->get_bool_attribute(ID::initial_top))
return top_mod;
else {
for (auto mod : design->modules()) {
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if (mod->get_bool_attribute(ID::top)) {
return mod;
}
}
}
return NULL;
}
// Find a matching wire for an implicit port connection; traversing generate block scope
RTLIL::Wire *find_implicit_port_wire(Module *module, Cell *cell, const std::string& port)
{
const std::string &cellname = cell->name.str();
size_t idx = cellname.size();
while ((idx = cellname.find_last_of('.', idx-1)) != std::string::npos) {
Wire *found = module->wire(cellname.substr(0, idx+1) + port.substr(1));
if (found != nullptr)
return found;
}
return module->wire(port);
}
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struct HierarchyPass : public Pass {
HierarchyPass() : Pass("hierarchy", "check, expand and clean up design hierarchy") { }
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void help() override
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" hierarchy [-check] [-top <module>]\n");
log(" hierarchy -generate <cell-types> <port-decls>\n");
log("\n");
log("In parametric designs, a module might exists in several variations with\n");
log("different parameter values. This pass looks at all modules in the current\n");
log("design and re-runs the language frontends for the parametric modules as\n");
log("needed. It also resolves assignments to wired logic data types (wand/wor),\n");
log("resolves positional module parameters, unrolls array instances, and more.\n");
log("\n");
log(" -check\n");
log(" also check the design hierarchy. this generates an error when\n");
log(" an unknown module is used as cell type.\n");
log("\n");
log(" -simcheck\n");
log(" like -check, but also throw an error if blackbox modules are\n");
log(" instantiated, and throw an error if the design has no top module.\n");
log("\n");
log(" -smtcheck\n");
log(" like -simcheck, but allow smtlib2_module modules.\n");
log("\n");
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log(" -purge_lib\n");
log(" by default the hierarchy command will not remove library (blackbox)\n");
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log(" modules. use this option to also remove unused blackbox modules.\n");
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log("\n");
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log(" -libdir <directory>\n");
log(" search for files named <module_name>.v in the specified directory\n");
log(" for unknown modules and automatically run read_verilog for each\n");
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log(" unknown module.\n");
log("\n");
log(" -keep_positionals\n");
log(" per default this pass also converts positional arguments in cells\n");
log(" to arguments using port names. This option disables this behavior.\n");
log("\n");
log(" -keep_portwidths\n");
log(" per default this pass adjusts the port width on cells that are\n");
log(" module instances when the width does not match the module port. This\n");
log(" option disables this behavior.\n");
log("\n");
log(" -nodefaults\n");
log(" do not resolve input port default values\n");
log("\n");
log(" -nokeep_prints\n");
log(" per default this pass sets the \"keep\" attribute on all modules\n");
log(" that directly or indirectly display text on the terminal.\n");
log(" This option disables this behavior.\n");
log("\n");
log(" -nokeep_asserts\n");
log(" per default this pass sets the \"keep\" attribute on all modules\n");
log(" that directly or indirectly contain one or more formal properties.\n");
log(" This option disables this behavior.\n");
log("\n");
log(" -top <module>\n");
log(" use the specified top module to build the design hierarchy. Modules\n");
log(" outside this tree (unused modules) are removed.\n");
log("\n");
log(" when the -top option is used, the 'top' attribute will be set on the\n");
log(" specified top module. otherwise a module with the 'top' attribute set\n");
log(" will implicitly be used as top module, if such a module exists.\n");
log("\n");
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log(" -auto-top\n");
log(" automatically determine the top of the design hierarchy and mark it.\n");
log("\n");
log(" -chparam name value \n");
log(" elaborate the top module using this parameter value. Modules on which\n");
log(" this parameter does not exist may cause a warning message to be output.\n");
log(" This option can be specified multiple times to override multiple\n");
log(" parameters. String values must be passed in double quotes (\").\n");
log("\n");
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log("In -generate mode this pass generates blackbox modules for the given cell\n");
log("types (wildcards supported). For this the design is searched for cells that\n");
log("match the given types and then the given port declarations are used to\n");
log("determine the direction of the ports. The syntax for a port declaration is:\n");
log("\n");
log(" {i|o|io}[@<num>]:<portname>\n");
log("\n");
log("Input ports are specified with the 'i' prefix, output ports with the 'o'\n");
log("prefix and inout ports with the 'io' prefix. The optional <num> specifies\n");
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log("the position of the port in the parameter list (needed when instantiated\n");
log("using positional arguments). When <num> is not specified, the <portname> can\n");
log("also contain wildcard characters.\n");
log("\n");
log("This pass ignores the current selection and always operates on all modules\n");
log("in the current design.\n");
log("\n");
}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
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{
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log_header(design, "Executing HIERARCHY pass (managing design hierarchy).\n");
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bool flag_check = false;
bool flag_simcheck = false;
bool flag_smtcheck = false;
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bool purge_lib = false;
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RTLIL::Module *top_mod = NULL;
std::string load_top_mod;
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std::vector<std::string> libdirs;
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bool auto_top_mode = false;
bool generate_mode = false;
bool keep_positionals = false;
bool keep_portwidths = false;
bool nodefaults = false;
bool nokeep_prints = false;
bool nokeep_asserts = false;
std::vector<std::string> generate_cells;
std::vector<generate_port_decl_t> generate_ports;
std::map<std::string, std::string> parameters;
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size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++)
{
if (args[argidx] == "-generate" && !flag_check && !flag_simcheck && !flag_smtcheck && !top_mod) {
generate_mode = true;
log("Entering generate mode.\n");
while (++argidx < args.size()) {
const char *p = args[argidx].c_str();
generate_port_decl_t decl;
if (p[0] == 'i' && p[1] == 'o')
decl.input = true, decl.output = true, p += 2;
else if (*p == 'i')
decl.input = true, decl.output = false, p++;
else if (*p == 'o')
decl.input = false, decl.output = true, p++;
else
goto is_celltype;
if (*p == '@') {
char *endptr;
decl.index = strtol(++p, &endptr, 10);
if (decl.index < 1)
goto is_celltype;
p = endptr;
} else
decl.index = 0;
if (*(p++) != ':')
goto is_celltype;
if (*p == 0)
goto is_celltype;
decl.portname = p;
log("Port declaration: %s", decl.input ? decl.output ? "inout" : "input" : "output");
if (decl.index >= 1)
log(" [at position %d]", decl.index);
log(" %s\n", decl.portname.c_str());
generate_ports.push_back(decl);
continue;
is_celltype:
log("Celltype: %s\n", args[argidx].c_str());
generate_cells.push_back(RTLIL::unescape_id(args[argidx]));
}
continue;
}
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if (args[argidx] == "-check") {
flag_check = true;
continue;
}
if (args[argidx] == "-simcheck") {
flag_simcheck = true;
continue;
}
if (args[argidx] == "-smtcheck") {
flag_smtcheck = true;
continue;
}
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if (args[argidx] == "-purge_lib") {
purge_lib = true;
continue;
}
if (args[argidx] == "-keep_positionals") {
keep_positionals = true;
continue;
}
if (args[argidx] == "-keep_portwidths") {
keep_portwidths = true;
continue;
}
if (args[argidx] == "-nodefaults") {
nodefaults = true;
continue;
}
if (args[argidx] == "-nokeep_prints") {
nokeep_prints = true;
continue;
}
if (args[argidx] == "-nokeep_asserts") {
nokeep_asserts = true;
continue;
}
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if (args[argidx] == "-libdir" && argidx+1 < args.size()) {
libdirs.push_back(args[++argidx]);
continue;
}
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if (args[argidx] == "-top") {
if (++argidx >= args.size())
log_cmd_error("Option -top requires an additional argument!\n");
load_top_mod = args[argidx];
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continue;
}
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if (args[argidx] == "-auto-top") {
auto_top_mode = true;
continue;
}
if (args[argidx] == "-chparam" && argidx+2 < args.size()) {
const std::string &key = args[++argidx];
const std::string &value = args[++argidx];
auto r = parameters.emplace(key, value);
if (!r.second) {
log_warning("-chparam %s already specified: overwriting.\n", key.c_str());
r.first->second = value;
}
continue;
}
break;
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}
extra_args(args, argidx, design, false);
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if (!load_top_mod.empty())
{
IdString top_name = RTLIL::escape_id(load_top_mod);
IdString abstract_id = "$abstract" + RTLIL::escape_id(load_top_mod);
top_mod = design->module(top_name);
dict<RTLIL::IdString, RTLIL::Const> top_parameters;
if ((top_mod == nullptr && design->module(abstract_id)) || top_mod != nullptr) {
for (auto &para : parameters) {
SigSpec sig_value;
if (!RTLIL::SigSpec::parse(sig_value, NULL, para.second))
log_cmd_error("Can't decode value '%s'!\n", para.second.c_str());
top_parameters[RTLIL::escape_id(para.first)] = sig_value.as_const();
}
}
if (top_mod == nullptr && design->module(abstract_id))
top_mod = design->module(design->module(abstract_id)->derive(design, top_parameters));
else if (top_mod != nullptr && !top_parameters.empty())
top_mod = design->module(top_mod->derive(design, top_parameters));
if (top_mod != nullptr && top_mod->name != top_name) {
Module *m = top_mod->clone();
m->name = top_name;
Module *old_mod = design->module(top_name);
if (old_mod)
design->remove(old_mod);
design->add(m);
top_mod = m;
}
}
if (top_mod == nullptr && !load_top_mod.empty()) {
#ifdef YOSYS_ENABLE_VERIFIC
if (verific_import_pending) {
load_top_mod = verific_import(design, parameters, load_top_mod);
top_mod = design->module(RTLIL::escape_id(load_top_mod));
}
#endif
if (top_mod == NULL)
log_cmd_error("Module `%s' not found!\n", load_top_mod.c_str());
} else {
#ifdef YOSYS_ENABLE_VERIFIC
if (verific_import_pending)
verific_import(design, parameters);
#endif
}
if (generate_mode) {
generate(design, generate_cells, generate_ports);
return;
}
log_push();
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if (top_mod == nullptr)
for (auto mod : design->modules())
if (mod->get_bool_attribute(ID::top)) {
log("Attribute `top' found on module `%s'. Setting top module to %s.\n", log_id(mod), log_id(mod));
top_mod = mod;
}
if (top_mod == nullptr)
{
std::vector<IdString> abstract_ids;
for (auto module : design->modules())
if (module->name.begins_with("$abstract"))
abstract_ids.push_back(module->name);
for (auto abstract_id : abstract_ids)
design->module(abstract_id)->derive(design, {});
for (auto abstract_id : abstract_ids)
design->remove(design->module(abstract_id));
}
if (top_mod == nullptr && auto_top_mode) {
log_header(design, "Finding top of design hierarchy..\n");
dict<Module*, int> db;
for (Module *mod : design->selected_modules()) {
int score = find_top_mod_score(design, mod, db);
log("root of %3d design levels: %-20s\n", score, log_id(mod));
if (!top_mod || score > db[top_mod])
top_mod = mod;
}
if (top_mod != nullptr)
log("Automatically selected %s as design top module.\n", log_id(top_mod));
}
2019-09-03 14:18:50 -05:00
if (top_mod != nullptr && top_mod->name.begins_with("$abstract")) {
IdString top_name = top_mod->name.substr(strlen("$abstract"));
dict<RTLIL::IdString, RTLIL::Const> top_parameters;
for (auto &para : parameters) {
SigSpec sig_value;
if (!RTLIL::SigSpec::parse(sig_value, NULL, para.second))
log_cmd_error("Can't decode value '%s'!\n", para.second.c_str());
top_parameters[RTLIL::escape_id(para.first)] = sig_value.as_const();
}
2019-09-03 14:18:50 -05:00
top_mod = design->module(top_mod->derive(design, top_parameters));
if (top_mod != nullptr && top_mod->name != top_name) {
Module *m = top_mod->clone();
m->name = top_name;
Module *old_mod = design->module(top_name);
if (old_mod)
design->remove(old_mod);
design->add(m);
top_mod = m;
}
}
if ((flag_simcheck || flag_smtcheck) && top_mod == nullptr)
log_error("Design has no top module.\n");
if (top_mod != NULL) {
for (auto mod : design->modules())
if (mod == top_mod)
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mod->attributes[ID::initial_top] = RTLIL::Const(1);
else
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mod->attributes.erase(ID::initial_top);
}
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bool did_something = true;
while (did_something)
{
2013-01-05 04:13:26 -06:00
did_something = false;
std::set<RTLIL::Module*, IdString::compare_ptr_by_name<Module>> used_modules;
if (top_mod != NULL) {
2016-04-21 16:28:37 -05:00
log_header(design, "Analyzing design hierarchy..\n");
hierarchy_worker(design, used_modules, top_mod, 0);
} else {
for (auto mod : design->modules())
used_modules.insert(mod);
}
for (auto module : used_modules) {
if (expand_module(design, module, flag_check, flag_simcheck, flag_smtcheck, libdirs))
2013-01-05 04:13:26 -06:00
did_something = true;
}
// The top module might have changed if interface instances have been detected in it:
RTLIL::Module *tmp_top_mod = check_if_top_has_changed(design, top_mod);
if (tmp_top_mod != NULL) {
if (tmp_top_mod != top_mod){
top_mod = tmp_top_mod;
top_mod->attributes[ID::initial_top] = RTLIL::Const(1);
did_something = true;
}
}
// Delete modules marked as 'to_delete':
std::vector<RTLIL::Module *> modules_to_delete;
for(auto mod : design->modules()) {
if (mod->get_bool_attribute(ID::to_delete)) {
modules_to_delete.push_back(mod);
}
}
for(size_t i=0; i<modules_to_delete.size(); i++) {
design->remove(modules_to_delete[i]);
}
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}
if (top_mod != NULL) {
2016-04-21 16:28:37 -05:00
log_header(design, "Analyzing design hierarchy..\n");
hierarchy_clean(design, top_mod, purge_lib);
}
if (top_mod != NULL) {
for (auto mod : design->modules()) {
if (mod == top_mod)
2020-03-12 14:57:01 -05:00
mod->attributes[ID::top] = RTLIL::Const(1);
else
2020-03-12 14:57:01 -05:00
mod->attributes.erase(ID::top);
mod->attributes.erase(ID::initial_top);
}
}
if (!nokeep_prints) {
std::map<RTLIL::Module*, bool> cache;
for (auto mod : design->modules())
if (set_keep_print(cache, mod)) {
log("Module %s directly or indirectly displays text -> setting \"keep\" attribute.\n", log_id(mod));
mod->set_bool_attribute(ID::keep);
}
}
if (!nokeep_asserts) {
std::map<RTLIL::Module*, bool> cache;
for (auto mod : design->modules())
if (set_keep_assert(cache, mod)) {
log("Module %s directly or indirectly contains formal properties -> setting \"keep\" attribute.\n", log_id(mod));
mod->set_bool_attribute(ID::keep);
}
}
if (!keep_positionals)
{
std::set<RTLIL::Module*> pos_mods;
std::map<std::pair<RTLIL::Module*,int>, RTLIL::IdString> pos_map;
std::vector<std::pair<RTLIL::Module*,RTLIL::Cell*>> pos_work;
for (auto mod : design->modules())
for (auto cell : mod->cells()) {
RTLIL::Module *cell_mod = design->module(cell->type);
if (cell_mod == nullptr)
continue;
for (auto &conn : cell->connections())
if (conn.first[0] == '$' && '0' <= conn.first[1] && conn.first[1] <= '9') {
pos_mods.insert(design->module(cell->type));
pos_work.push_back(std::pair<RTLIL::Module*,RTLIL::Cell*>(mod, cell));
break;
}
pool<std::pair<IdString, IdString>> params_rename;
for (const auto &p : cell->parameters) {
int id;
if (read_id_num(p.first, &id)) {
if (id <= 0 || id > GetSize(cell_mod->avail_parameters)) {
log(" Failed to map positional parameter %d of cell %s.%s (%s).\n",
id, RTLIL::id2cstr(mod->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
} else {
params_rename.insert(std::make_pair(p.first, cell_mod->avail_parameters[id - 1]));
}
}
}
for (const auto &p : params_rename) {
cell->setParam(p.second, cell->getParam(p.first));
cell->unsetParam(p.first);
}
}
for (auto module : pos_mods)
for (auto wire : module->wires()) {
if (wire->port_id > 0)
pos_map[std::pair<RTLIL::Module*,int>(module, wire->port_id)] = wire->name;
}
for (auto &work : pos_work) {
RTLIL::Module *module = work.first;
RTLIL::Cell *cell = work.second;
log("Mapping positional arguments of cell %s.%s (%s).\n",
RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
dict<RTLIL::IdString, RTLIL::SigSpec> new_connections;
for (auto &conn : cell->connections()) {
int id;
if (read_id_num(conn.first, &id)) {
std::pair<RTLIL::Module*,int> key(design->module(cell->type), id);
if (pos_map.count(key) == 0) {
log(" Failed to map positional argument %d of cell %s.%s (%s).\n",
id, RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
new_connections[conn.first] = conn.second;
} else
new_connections[pos_map.at(key)] = conn.second;
} else
new_connections[conn.first] = conn.second;
}
cell->connections_ = new_connections;
}
}
// Determine default values
dict<IdString, dict<IdString, Const>> defaults_db;
if (!nodefaults)
{
for (auto module : design->modules())
for (auto wire : module->wires())
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if (wire->port_input && wire->attributes.count(ID::defaultvalue))
defaults_db[module->name][wire->name] = wire->attributes.at(ID::defaultvalue);
}
// Process SV implicit wildcard port connections
std::set<Module*> blackbox_derivatives;
std::vector<Module*> design_modules = design->modules();
for (auto module : design_modules)
{
for (auto cell : module->cells())
{
if (!cell->get_bool_attribute(ID::wildcard_port_conns))
continue;
Module *m = design->module(cell->type);
if (m == nullptr)
log_error("Cell %s.%s (%s) has implicit port connections but the module it instantiates is unknown.\n",
RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
// Need accurate port widths for error checking; so must derive blackboxes with dynamic port widths
if (m->get_blackbox_attribute() && !cell->parameters.empty() && m->get_bool_attribute(ID::dynports)) {
IdString new_m_name = m->derive(design, cell->parameters, true);
if (new_m_name.empty())
continue;
if (new_m_name != m->name) {
m = design->module(new_m_name);
blackbox_derivatives.insert(m);
}
}
auto old_connections = cell->connections();
for (auto wire : m->wires()) {
// Find ports of the module that aren't explicitly connected
if (!wire->port_input && !wire->port_output)
continue;
if (old_connections.count(wire->name))
continue;
// Make sure a wire of correct name exists in the parent
Wire* parent_wire = find_implicit_port_wire(module, cell, wire->name.str());
// Missing wires are OK when a default value is set
if (!nodefaults && parent_wire == nullptr && defaults_db.count(cell->type) && defaults_db.at(cell->type).count(wire->name))
continue;
if (parent_wire == nullptr)
log_error("No matching wire for implicit port connection `%s' of cell %s.%s (%s).\n",
RTLIL::id2cstr(wire->name), RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
if (parent_wire->width != wire->width)
log_error("Width mismatch between wire (%d bits) and port (%d bits) for implicit port connection `%s' of cell %s.%s (%s).\n",
parent_wire->width, wire->width,
RTLIL::id2cstr(wire->name), RTLIL::id2cstr(module->name), RTLIL::id2cstr(cell->name), RTLIL::id2cstr(cell->type));
cell->setPort(wire->name, parent_wire);
}
cell->attributes.erase(ID::wildcard_port_conns);
}
}
if (!nodefaults)
{
for (auto module : design->modules())
for (auto cell : module->cells())
{
if (defaults_db.count(cell->type) == 0)
continue;
if (keep_positionals) {
bool found_positionals = false;
for (auto &conn : cell->connections())
if (conn.first[0] == '$' && '0' <= conn.first[1] && conn.first[1] <= '9')
found_positionals = true;
if (found_positionals)
continue;
}
for (auto &it : defaults_db.at(cell->type))
if (!cell->hasPort(it.first))
cell->setPort(it.first, it.second);
}
}
for (auto module : design_modules)
{
pool<Wire*> wand_wor_index;
dict<Wire*, SigSpec> wand_map, wor_map;
vector<SigSig> new_connections;
for (auto wire : module->wires())
{
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if (wire->get_bool_attribute(ID::wand)) {
wand_map[wire] = SigSpec();
wand_wor_index.insert(wire);
}
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if (wire->get_bool_attribute(ID::wor)) {
wor_map[wire] = SigSpec();
wand_wor_index.insert(wire);
}
}
for (auto &conn : module->connections())
{
SigSig new_conn;
int cursor = 0;
for (auto c : conn.first.chunks())
{
Wire *w = c.wire;
SigSpec rhs = conn.second.extract(cursor, GetSize(c));
if (wand_wor_index.count(w) == 0) {
new_conn.first.append(c);
new_conn.second.append(rhs);
} else {
if (wand_map.count(w)) {
SigSpec sig = SigSpec(State::S1, GetSize(w));
sig.replace(c.offset, rhs);
wand_map.at(w).append(sig);
} else {
SigSpec sig = SigSpec(State::S0, GetSize(w));
sig.replace(c.offset, rhs);
wor_map.at(w).append(sig);
}
}
cursor += GetSize(c);
}
new_connections.push_back(new_conn);
}
module->new_connections(new_connections);
for (auto cell : module->cells())
{
if (!cell->known())
continue;
for (auto &conn : cell->connections())
{
if (!cell->output(conn.first))
continue;
SigSpec new_sig;
bool update_port = false;
for (auto c : conn.second.chunks())
{
Wire *w = c.wire;
if (wand_wor_index.count(w) == 0) {
new_sig.append(c);
continue;
}
Wire *t = module->addWire(NEW_ID, GetSize(c));
new_sig.append(t);
update_port = true;
if (wand_map.count(w)) {
SigSpec sig = SigSpec(State::S1, GetSize(w));
sig.replace(c.offset, t);
wand_map.at(w).append(sig);
} else {
SigSpec sig = SigSpec(State::S0, GetSize(w));
sig.replace(c.offset, t);
wor_map.at(w).append(sig);
}
}
if (update_port)
cell->setPort(conn.first, new_sig);
}
}
for (auto w : wand_wor_index)
{
bool wand = wand_map.count(w);
SigSpec sigs = wand ? wand_map.at(w) : wor_map.at(w);
if (GetSize(sigs) == 0)
continue;
if (GetSize(w) == 1) {
if (wand)
module->addReduceAnd(NEW_ID, sigs, w);
else
module->addReduceOr(NEW_ID, sigs, w);
continue;
}
SigSpec s = sigs.extract(0, GetSize(w));
for (int i = GetSize(w); i < GetSize(sigs); i += GetSize(w)) {
if (wand)
s = module->And(NEW_ID, s, sigs.extract(i, GetSize(w)));
else
s = module->Or(NEW_ID, s, sigs.extract(i, GetSize(w)));
}
module->connect(w, s);
}
for (auto cell : module->cells())
{
Module *m = design->module(cell->type);
if (m == nullptr)
continue;
if (m->get_blackbox_attribute() && !cell->parameters.empty() && m->get_bool_attribute(ID::dynports)) {
IdString new_m_name = m->derive(design, cell->parameters, true);
if (new_m_name.empty())
continue;
if (new_m_name != m->name) {
m = design->module(new_m_name);
blackbox_derivatives.insert(m);
}
}
for (auto &conn : cell->connections())
{
Wire *w = m->wire(conn.first);
if (w == nullptr || w->port_id == 0)
continue;
if (GetSize(conn.second) == 0)
continue;
SigSpec sig = conn.second;
if (!keep_portwidths && GetSize(w) != GetSize(conn.second))
{
if (GetSize(w) < GetSize(conn.second))
{
int n = GetSize(conn.second) - GetSize(w);
if (!w->port_input && w->port_output)
{
RTLIL::SigSpec out = sig.extract(0, GetSize(w));
out.extend_u0(GetSize(sig), w->is_signed);
module->connect(sig.extract(GetSize(w), n), out.extract(GetSize(w), n));
}
sig.remove(GetSize(w), n);
}
else
{
int n = GetSize(w) - GetSize(conn.second);
if (w->port_input && !w->port_output)
sig.extend_u0(GetSize(w), sig.is_wire() && sig.as_wire()->is_signed);
else
sig.append(module->addWire(NEW_ID, n));
}
if (!conn.second.is_fully_const() || !w->port_input || w->port_output)
log_warning("Resizing cell port %s.%s.%s from %d bits to %d bits.\n", log_id(module), log_id(cell),
log_id(conn.first), GetSize(conn.second), GetSize(sig));
cell->setPort(conn.first, sig);
}
if (w->port_output && !w->port_input && sig.has_const())
log_error("Output port %s.%s.%s (%s) is connected to constants: %s\n",
log_id(module), log_id(cell), log_id(conn.first), log_id(cell->type), log_signal(sig));
}
}
}
for (auto module : blackbox_derivatives)
design->remove(module);
log_pop();
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}
} HierarchyPass;
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PRIVATE_NAMESPACE_END