yosys/passes/cmds/select.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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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"
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#include "kernel/celltypes.h"
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#include "kernel/sigtools.h"
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#include <string.h>
#include <errno.h>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
using RTLIL::id2cstr;
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static std::vector<RTLIL::Selection> work_stack;
static bool match_ids(RTLIL::IdString id, const std::string &pattern)
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{
if (id == pattern)
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return true;
const char *id_c = id.c_str();
const char *pat_c = pattern.c_str();
size_t id_size = strlen(id_c);
size_t pat_size = pattern.size();
if (*id_c == '\\' && id_size == 1 + pat_size && memcmp(id_c + 1, pat_c, pat_size) == 0)
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return true;
if (patmatch(pat_c, id_c))
return true;
if (*id_c == '\\' && patmatch(pat_c, id_c + 1))
return true;
if (*id_c == '$' && *pat_c == '$') {
const char *q = strrchr(id_c, '$');
if (pattern == q)
return true;
}
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return false;
}
static bool match_attr_val(const RTLIL::Const &value, const std::string &pattern, char match_op)
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{
if (match_op == 0)
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return true;
if ((value.flags & RTLIL::CONST_FLAG_STRING) == 0)
{
RTLIL::SigSpec sig_value;
if (!RTLIL::SigSpec::parse(sig_value, nullptr, pattern))
return false;
RTLIL::Const pattern_value = sig_value.as_const();
if (match_op == '=')
return value == pattern_value;
if (match_op == '!')
return value != pattern_value;
if (match_op == '<')
return value.as_int() < pattern_value.as_int();
if (match_op == '>')
return value.as_int() > pattern_value.as_int();
if (match_op == '[')
return value.as_int() <= pattern_value.as_int();
if (match_op == ']')
return value.as_int() >= pattern_value.as_int();
}
else
{
std::string value_str = value.decode_string();
if (match_op == '=')
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if (patmatch(pattern.c_str(), value.decode_string().c_str()))
return true;
if (match_op == '=')
return value_str == pattern;
if (match_op == '!')
return value_str != pattern;
if (match_op == '<')
return value_str < pattern;
if (match_op == '>')
return value_str > pattern;
if (match_op == '[')
return value_str <= pattern;
if (match_op == ']')
return value_str >= pattern;
}
log_abort();
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}
static bool match_attr(const dict<RTLIL::IdString, RTLIL::Const> &attributes, const std::string &name_pat, const std::string &value_pat, char match_op)
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{
if (name_pat.find('*') != std::string::npos || name_pat.find('?') != std::string::npos || name_pat.find('[') != std::string::npos) {
for (auto &it : attributes) {
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if (patmatch(name_pat.c_str(), it.first.c_str()) && match_attr_val(it.second, value_pat, match_op))
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return true;
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if (it.first.size() > 0 && it.first[0] == '\\' && patmatch(name_pat.c_str(), it.first.substr(1).c_str()) && match_attr_val(it.second, value_pat, match_op))
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return true;
}
} else {
if (name_pat.size() > 0 && (name_pat[0] == '\\' || name_pat[0] == '$') && attributes.count(name_pat) && match_attr_val(attributes.at(name_pat), value_pat, match_op))
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return true;
if (attributes.count("\\" + name_pat) && match_attr_val(attributes.at("\\" + name_pat), value_pat, match_op))
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return true;
}
return false;
}
static bool match_attr(const dict<RTLIL::IdString, RTLIL::Const> &attributes, const std::string &match_expr)
{
size_t pos = match_expr.find_first_of("<!=>");
if (pos != std::string::npos) {
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if (match_expr.compare(pos, 2, "!=") == 0)
return match_attr(attributes, match_expr.substr(0, pos), match_expr.substr(pos+2), '!');
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if (match_expr.compare(pos, 2, "<=") == 0)
return match_attr(attributes, match_expr.substr(0, pos), match_expr.substr(pos+2), '[');
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if (match_expr.compare(pos, 2, ">=") == 0)
return match_attr(attributes, match_expr.substr(0, pos), match_expr.substr(pos+2), ']');
return match_attr(attributes, match_expr.substr(0, pos), match_expr.substr(pos+1), match_expr[pos]);
}
return match_attr(attributes, match_expr, std::string(), 0);
}
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static void select_op_neg(RTLIL::Design *design, RTLIL::Selection &lhs)
{
if (lhs.full_selection) {
lhs.full_selection = false;
lhs.selected_modules.clear();
lhs.selected_members.clear();
return;
}
if (lhs.selected_modules.size() == 0 && lhs.selected_members.size() == 0) {
lhs.full_selection = true;
return;
}
RTLIL::Selection new_sel(false);
for (auto mod : design->modules())
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{
if (lhs.selected_whole_module(mod->name))
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continue;
if (!lhs.selected_module(mod->name)) {
new_sel.selected_modules.insert(mod->name);
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continue;
}
for (auto wire : mod->wires())
if (!lhs.selected_member(mod->name, wire->name))
new_sel.selected_members[mod->name].insert(wire->name);
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for (auto &it : mod->memories)
if (!lhs.selected_member(mod->name, it.first))
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new_sel.selected_members[mod->name].insert(it.first);
for (auto cell : mod->cells())
if (!lhs.selected_member(mod->name, cell->name))
new_sel.selected_members[mod->name].insert(cell->name);
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for (auto &it : mod->processes)
if (!lhs.selected_member(mod->name, it.first))
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new_sel.selected_members[mod->name].insert(it.first);
}
lhs.selected_modules.swap(new_sel.selected_modules);
lhs.selected_members.swap(new_sel.selected_members);
}
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static int my_xorshift32_rng() {
static uint32_t x32 = 314159265;
x32 ^= x32 << 13;
x32 ^= x32 >> 17;
x32 ^= x32 << 5;
return x32 & 0x0fffffff;
}
static void select_op_random(RTLIL::Design *design, RTLIL::Selection &lhs, int count)
{
vector<pair<IdString, IdString>> objects;
for (auto mod : design->modules())
{
if (!lhs.selected_module(mod->name))
continue;
for (auto cell : mod->cells()) {
if (lhs.selected_member(mod->name, cell->name))
objects.push_back(make_pair(mod->name, cell->name));
}
for (auto wire : mod->wires()) {
if (lhs.selected_member(mod->name, wire->name))
objects.push_back(make_pair(mod->name, wire->name));
}
}
lhs = RTLIL::Selection(false);
while (!objects.empty() && count-- > 0)
{
int idx = my_xorshift32_rng() % GetSize(objects);
lhs.selected_members[objects[idx].first].insert(objects[idx].second);
objects[idx] = objects.back();
objects.pop_back();
}
lhs.optimize(design);
}
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static void select_op_submod(RTLIL::Design *design, RTLIL::Selection &lhs)
{
for (auto mod : design->modules())
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{
if (lhs.selected_whole_module(mod->name))
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{
for (auto cell : mod->cells())
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{
if (design->module(cell->type) == nullptr)
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continue;
lhs.selected_modules.insert(cell->type);
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}
}
}
}
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static void select_op_cells_to_modules(RTLIL::Design *design, RTLIL::Selection &lhs)
{
RTLIL::Selection new_sel(false);
for (auto mod : design->modules())
if (lhs.selected_module(mod->name))
for (auto cell : mod->cells())
if (lhs.selected_member(mod->name, cell->name) && (design->module(cell->type) != nullptr))
new_sel.selected_modules.insert(cell->type);
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lhs = new_sel;
}
static void select_op_module_to_cells(RTLIL::Design *design, RTLIL::Selection &lhs)
{
RTLIL::Selection new_sel(false);
for (auto mod : design->modules())
for (auto cell : mod->cells())
if ((design->module(cell->type) != nullptr) && lhs.selected_whole_module(cell->type))
new_sel.selected_members[mod->name].insert(cell->name);
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lhs = new_sel;
}
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static void select_op_fullmod(RTLIL::Design *design, RTLIL::Selection &lhs)
{
lhs.optimize(design);
for (auto &it : lhs.selected_members)
lhs.selected_modules.insert(it.first);
lhs.selected_members.clear();
}
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static void select_op_alias(RTLIL::Design *design, RTLIL::Selection &lhs)
{
for (auto mod : design->modules())
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{
if (lhs.selected_whole_module(mod->name))
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continue;
if (!lhs.selected_module(mod->name))
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continue;
SigMap sigmap(mod);
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SigPool selected_bits;
for (auto wire : mod->wires())
if (lhs.selected_member(mod->name, wire->name))
selected_bits.add(sigmap(wire));
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for (auto wire : mod->wires())
if (!lhs.selected_member(mod->name, wire->name) && selected_bits.check_any(sigmap(wire)))
lhs.selected_members[mod->name].insert(wire->name);
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}
}
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static void select_op_union(RTLIL::Design*, RTLIL::Selection &lhs, const RTLIL::Selection &rhs)
{
if (rhs.full_selection) {
lhs.full_selection = true;
lhs.selected_modules.clear();
lhs.selected_members.clear();
return;
}
if (lhs.full_selection)
return;
for (auto &it : rhs.selected_members)
for (auto &it2 : it.second)
lhs.selected_members[it.first].insert(it2);
for (auto &it : rhs.selected_modules) {
lhs.selected_modules.insert(it);
lhs.selected_members.erase(it);
}
}
static void select_op_diff(RTLIL::Design *design, RTLIL::Selection &lhs, const RTLIL::Selection &rhs)
{
if (rhs.full_selection) {
lhs.full_selection = false;
lhs.selected_modules.clear();
lhs.selected_members.clear();
return;
}
if (lhs.full_selection) {
if (!rhs.full_selection && rhs.selected_modules.size() == 0 && rhs.selected_members.size() == 0)
return;
lhs.full_selection = false;
for (auto mod : design->modules())
lhs.selected_modules.insert(mod->name);
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}
for (auto &it : rhs.selected_modules) {
lhs.selected_modules.erase(it);
lhs.selected_members.erase(it);
}
for (auto &it : rhs.selected_members)
{
if (design->module(it.first) == nullptr)
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continue;
RTLIL::Module *mod = design->module(it.first);
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if (lhs.selected_modules.count(mod->name) > 0)
{
for (auto wire : mod->wires())
lhs.selected_members[mod->name].insert(wire->name);
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for (auto &it : mod->memories)
lhs.selected_members[mod->name].insert(it.first);
for (auto cell : mod->cells())
lhs.selected_members[mod->name].insert(cell->name);
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for (auto &it : mod->processes)
lhs.selected_members[mod->name].insert(it.first);
lhs.selected_modules.erase(mod->name);
}
if (lhs.selected_members.count(mod->name) == 0)
continue;
for (auto &it2 : it.second)
lhs.selected_members[mod->name].erase(it2);
}
}
static void select_op_intersect(RTLIL::Design *design, RTLIL::Selection &lhs, const RTLIL::Selection &rhs)
{
if (rhs.full_selection)
return;
if (lhs.full_selection) {
lhs.full_selection = false;
for (auto mod : design->modules())
lhs.selected_modules.insert(mod->name);
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}
std::vector<RTLIL::IdString> del_list;
for (auto &it : lhs.selected_modules)
if (rhs.selected_modules.count(it) == 0) {
if (rhs.selected_members.count(it) > 0)
for (auto &it2 : rhs.selected_members.at(it))
lhs.selected_members[it].insert(it2);
del_list.push_back(it);
}
for (auto &it : del_list)
lhs.selected_modules.erase(it);
del_list.clear();
for (auto &it : lhs.selected_members) {
if (rhs.selected_modules.count(it.first) > 0)
continue;
if (rhs.selected_members.count(it.first) == 0) {
del_list.push_back(it.first);
continue;
}
std::vector<RTLIL::IdString> del_list2;
for (auto &it2 : it.second)
if (rhs.selected_members.at(it.first).count(it2) == 0)
del_list2.push_back(it2);
for (auto &it2 : del_list2)
it.second.erase(it2);
if (it.second.size() == 0)
del_list.push_back(it.first);
}
for (auto &it : del_list)
lhs.selected_members.erase(it);
}
namespace {
struct expand_rule_t {
char mode;
std::set<RTLIL::IdString> cell_types, port_names;
};
}
static int parse_comma_list(std::set<RTLIL::IdString> &tokens, const std::string &str, size_t pos, std::string stopchar)
{
stopchar += ',';
while (1) {
size_t endpos = str.find_first_of(stopchar, pos);
if (endpos == std::string::npos)
endpos = str.size();
if (endpos != pos)
tokens.insert(RTLIL::escape_id(str.substr(pos, endpos-pos)));
pos = endpos;
if (pos == str.size() || str[pos] != ',')
return pos;
pos++;
}
}
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static int select_op_expand(RTLIL::Design *design, RTLIL::Selection &lhs, std::vector<expand_rule_t> &rules, std::set<RTLIL::IdString> &limits, int max_objects, char mode, CellTypes &ct, bool eval_only)
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{
int sel_objects = 0;
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bool is_input, is_output;
for (auto mod : design->modules())
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{
if (lhs.selected_whole_module(mod->name) || !lhs.selected_module(mod->name))
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continue;
std::set<RTLIL::Wire*> selected_wires;
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auto selected_members = lhs.selected_members[mod->name];
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for (auto wire : mod->wires())
if (lhs.selected_member(mod->name, wire->name) && limits.count(wire->name) == 0)
selected_wires.insert(wire);
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for (auto &conn : mod->connections())
{
std::vector<RTLIL::SigBit> conn_lhs = conn.first.to_sigbit_vector();
std::vector<RTLIL::SigBit> conn_rhs = conn.second.to_sigbit_vector();
for (size_t i = 0; i < conn_lhs.size(); i++) {
if (conn_lhs[i].wire == nullptr || conn_rhs[i].wire == nullptr)
continue;
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if (mode != 'i' && selected_wires.count(conn_rhs[i].wire) && selected_members.count(conn_lhs[i].wire->name) == 0)
lhs.selected_members[mod->name].insert(conn_lhs[i].wire->name), sel_objects++, max_objects--;
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if (mode != 'o' && selected_wires.count(conn_lhs[i].wire) && selected_members.count(conn_rhs[i].wire->name) == 0)
lhs.selected_members[mod->name].insert(conn_rhs[i].wire->name), sel_objects++, max_objects--;
}
}
for (auto cell : mod->cells())
for (auto &conn : cell->connections())
{
char last_mode = '-';
if (eval_only && !yosys_celltypes.cell_evaluable(cell->type))
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goto exclude_match;
for (auto &rule : rules) {
last_mode = rule.mode;
if (rule.cell_types.size() > 0 && rule.cell_types.count(cell->type) == 0)
continue;
if (rule.port_names.size() > 0 && rule.port_names.count(conn.first) == 0)
continue;
if (rule.mode == '+')
goto include_match;
else
goto exclude_match;
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}
if (last_mode == '+')
goto exclude_match;
include_match:
is_input = mode == 'x' || ct.cell_input(cell->type, conn.first);
is_output = mode == 'x' || ct.cell_output(cell->type, conn.first);
for (auto &chunk : conn.second.chunks())
if (chunk.wire != nullptr) {
if (max_objects != 0 && selected_wires.count(chunk.wire) > 0 && selected_members.count(cell->name) == 0)
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if (mode == 'x' || (mode == 'i' && is_output) || (mode == 'o' && is_input))
lhs.selected_members[mod->name].insert(cell->name), sel_objects++, max_objects--;
if (max_objects != 0 && selected_members.count(cell->name) > 0 && limits.count(cell->name) == 0 && selected_members.count(chunk.wire->name) == 0)
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if (mode == 'x' || (mode == 'i' && is_input) || (mode == 'o' && is_output))
lhs.selected_members[mod->name].insert(chunk.wire->name), sel_objects++, max_objects--;
}
exclude_match:;
}
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}
return sel_objects;
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}
static void select_op_expand(RTLIL::Design *design, const std::string &arg, char mode, bool eval_only)
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{
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int pos = (mode == 'x' ? 2 : 3) + (eval_only ? 1 : 0);
int levels = 1, rem_objects = -1;
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std::vector<expand_rule_t> rules;
std::set<RTLIL::IdString> limits;
CellTypes ct;
if (mode != 'x')
ct.setup(design);
if (pos < int(arg.size()) && arg[pos] == '*') {
levels = 1000000;
pos++;
} else
if (pos < int(arg.size()) && '0' <= arg[pos] && arg[pos] <= '9') {
size_t endpos = arg.find_first_not_of("0123456789", pos);
if (endpos == std::string::npos)
endpos = arg.size();
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levels = atoi(arg.substr(pos, endpos-pos).c_str());
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pos = endpos;
}
if (pos < int(arg.size()) && arg[pos] == '.') {
size_t endpos = arg.find_first_not_of("0123456789", ++pos);
if (endpos == std::string::npos)
endpos = arg.size();
if (int(endpos) > pos)
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rem_objects = atoi(arg.substr(pos, endpos-pos).c_str());
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pos = endpos;
}
while (pos < int(arg.size())) {
if (arg[pos] != ':' || pos+1 == int(arg.size()))
log_cmd_error("Syntax error in expand operator '%s'.\n", arg.c_str());
pos++;
if (arg[pos] == '+' || arg[pos] == '-') {
expand_rule_t rule;
rule.mode = arg[pos++];
pos = parse_comma_list(rule.cell_types, arg, pos, "[:");
if (pos < int(arg.size()) && arg[pos] == '[') {
pos = parse_comma_list(rule.port_names, arg, pos+1, "]:");
if (pos < int(arg.size()) && arg[pos] == ']')
pos++;
}
rules.push_back(rule);
} else {
size_t endpos = arg.find(':', pos);
if (endpos == std::string::npos)
endpos = arg.size();
if (int(endpos) > pos) {
std::string str = arg.substr(pos, endpos-pos);
if (str[0] == '@') {
str = RTLIL::escape_id(str.substr(1));
if (design->selection_vars.count(str) > 0) {
for (auto i1 : design->selection_vars.at(str).selected_members)
for (auto i2 : i1.second)
limits.insert(i2);
} else
log_cmd_error("Selection %s is not defined!\n", RTLIL::unescape_id(str).c_str());
} else
limits.insert(RTLIL::escape_id(str));
}
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pos = endpos;
}
}
#if 0
log("expand by %d levels (max. %d objects):\n", levels, rem_objects);
for (auto &rule : rules) {
log(" rule (%c):\n", rule.mode);
if (rule.cell_types.size() > 0) {
log(" cell types:");
for (auto &it : rule.cell_types)
log(" %s", it.c_str());
log("\n");
}
if (rule.port_names.size() > 0) {
log(" port names:");
for (auto &it : rule.port_names)
log(" %s", it.c_str());
log("\n");
}
}
if (limits.size() > 0) {
log(" limits:");
for (auto &it : limits)
log(" %s", it.c_str());
log("\n");
}
#endif
while (levels-- > 0 && rem_objects != 0) {
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int num_objects = select_op_expand(design, work_stack.back(), rules, limits, rem_objects, mode, ct, eval_only);
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if (num_objects == 0)
break;
rem_objects -= num_objects;
}
if (rem_objects == 0)
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log_warning("reached configured limit at `%s'.\n", arg.c_str());
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}
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static void select_filter_active_mod(RTLIL::Design *design, RTLIL::Selection &sel)
{
if (design->selected_active_module.empty())
return;
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if (sel.full_selection) {
sel.full_selection = false;
sel.selected_modules.clear();
sel.selected_members.clear();
sel.selected_modules.insert(design->selected_active_module);
return;
}
std::vector<RTLIL::IdString> del_list;
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for (auto mod_name : sel.selected_modules)
if (mod_name != design->selected_active_module)
del_list.push_back(mod_name);
for (auto &it : sel.selected_members)
if (it.first != design->selected_active_module)
del_list.push_back(it.first);
for (auto mod_name : del_list) {
sel.selected_modules.erase(mod_name);
sel.selected_members.erase(mod_name);
}
}
static void select_stmt(RTLIL::Design *design, std::string arg, bool disable_empty_warning = false)
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{
std::string arg_mod, arg_memb;
std::unordered_map<std::string, bool> arg_mod_found;
std::unordered_map<std::string, bool> arg_memb_found;
auto isprefixed = [](const string &s) {
return GetSize(s) >= 2 && ((s[0] >= 'a' && s[0] <= 'z') || (s[0] >= 'A' && s[0] <= 'Z')) && s[1] == ':';
};
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if (arg.size() == 0)
return;
if (arg[0] == '%') {
if (arg == "%") {
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if (design->selection_stack.size() > 0)
work_stack.push_back(design->selection_stack.back());
} else
if (arg == "%%") {
while (work_stack.size() > 1) {
select_op_union(design, work_stack.front(), work_stack.back());
work_stack.pop_back();
}
} else
if (arg == "%n") {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%n.\n");
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select_op_neg(design, work_stack[work_stack.size()-1]);
} else
if (arg == "%u") {
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if (work_stack.size() < 2)
log_cmd_error("Must have at least two elements on the stack for operator %%u.\n");
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select_op_union(design, work_stack[work_stack.size()-2], work_stack[work_stack.size()-1]);
work_stack.pop_back();
} else
if (arg == "%d") {
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if (work_stack.size() < 2)
log_cmd_error("Must have at least two elements on the stack for operator %%d.\n");
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select_op_diff(design, work_stack[work_stack.size()-2], work_stack[work_stack.size()-1]);
work_stack.pop_back();
} else
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if (arg == "%D") {
if (work_stack.size() < 2)
log_cmd_error("Must have at least two elements on the stack for operator %%D.\n");
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select_op_diff(design, work_stack[work_stack.size()-1], work_stack[work_stack.size()-2]);
work_stack[work_stack.size()-2] = work_stack[work_stack.size()-1];
work_stack.pop_back();
} else
if (arg == "%i") {
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if (work_stack.size() < 2)
log_cmd_error("Must have at least two elements on the stack for operator %%i.\n");
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select_op_intersect(design, work_stack[work_stack.size()-2], work_stack[work_stack.size()-1]);
work_stack.pop_back();
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} else
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if (arg.size() >= 2 && arg[0] == '%' && arg[1] == 'R') {
if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%R.\n");
int count = arg.size() > 2 ? atoi(arg.c_str() + 2) : 1;
select_op_random(design, work_stack[work_stack.size()-1], count);
} else
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if (arg == "%s") {
if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%s.\n");
select_op_submod(design, work_stack[work_stack.size()-1]);
} else
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if (arg == "%M") {
if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%M.\n");
select_op_cells_to_modules(design, work_stack[work_stack.size()-1]);
} else
if (arg == "%C") {
if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%C.\n");
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select_op_module_to_cells(design, work_stack[work_stack.size()-1]);
} else
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if (arg == "%c") {
if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%c.\n");
work_stack.push_back(work_stack.back());
} else
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if (arg == "%m") {
if (work_stack.size() < 1)
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log_cmd_error("Must have at least one element on the stack for operator %%m.\n");
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select_op_fullmod(design, work_stack[work_stack.size()-1]);
} else
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if (arg == "%a") {
if (work_stack.size() < 1)
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log_cmd_error("Must have at least one element on the stack for operator %%a.\n");
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select_op_alias(design, work_stack[work_stack.size()-1]);
} else
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if (arg == "%x" || (arg.size() > 2 && arg.compare(0, 2, "%x") == 0 && (arg[2] == ':' || arg[2] == '*' || arg[2] == '.' || ('0' <= arg[2] && arg[2] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%x.\n");
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select_op_expand(design, arg, 'x', false);
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} else
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if (arg == "%ci" || (arg.size() > 3 && arg.compare(0, 3, "%ci") == 0 && (arg[3] == ':' || arg[3] == '*' || arg[3] == '.' || ('0' <= arg[3] && arg[3] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%ci.\n");
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select_op_expand(design, arg, 'i', false);
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} else
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if (arg == "%co" || (arg.size() > 3 && arg.compare(0, 3, "%co") == 0 && (arg[3] == ':' || arg[3] == '*' || arg[3] == '.' || ('0' <= arg[3] && arg[3] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%co.\n");
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select_op_expand(design, arg, 'o', false);
} else
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if (arg == "%xe" || (arg.size() > 3 && arg.compare(0, 3, "%xe") == 0 && (arg[3] == ':' || arg[3] == '*' || arg[3] == '.' || ('0' <= arg[3] && arg[3] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%xe.\n");
select_op_expand(design, arg, 'x', true);
} else
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if (arg == "%cie" || (arg.size() > 4 && arg.compare(0, 4, "%cie") == 0 && (arg[4] == ':' || arg[4] == '*' || arg[4] == '.' || ('0' <= arg[4] && arg[4] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%cie.\n");
select_op_expand(design, arg, 'i', true);
} else
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if (arg == "%coe" || (arg.size() > 4 && arg.compare(0, 4, "%coe") == 0 && (arg[4] == ':' || arg[4] == '*' || arg[4] == '.' || ('0' <= arg[4] && arg[4] <= '9')))) {
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if (work_stack.size() < 1)
log_cmd_error("Must have at least one element on the stack for operator %%coe.\n");
select_op_expand(design, arg, 'o', true);
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} else
log_cmd_error("Unknown selection operator '%s'.\n", arg.c_str());
if (work_stack.size() >= 1)
select_filter_active_mod(design, work_stack.back());
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return;
}
if (arg[0] == '@') {
std::string set_name = RTLIL::escape_id(arg.substr(1));
if (design->selection_vars.count(set_name) > 0)
work_stack.push_back(design->selection_vars[set_name]);
else
log_cmd_error("Selection @%s is not defined!\n", RTLIL::unescape_id(set_name).c_str());
select_filter_active_mod(design, work_stack.back());
return;
}
bool select_blackboxes = false;
if (arg.substr(0, 1) == "=") {
arg = arg.substr(1);
select_blackboxes = true;
}
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if (!design->selected_active_module.empty()) {
arg_mod = design->selected_active_module;
arg_memb = arg;
if (!isprefixed(arg_memb))
arg_memb_found[arg_memb] = false;
} else
if (isprefixed(arg) && arg[0] >= 'a' && arg[0] <= 'z') {
arg_mod = "*", arg_memb = arg;
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} else {
size_t pos = arg.find('/');
if (pos == std::string::npos) {
arg_mod = arg;
if (!isprefixed(arg_mod))
arg_mod_found[arg_mod] = false;
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} else {
arg_mod = arg.substr(0, pos);
if (!isprefixed(arg_mod))
arg_mod_found[arg_mod] = false;
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arg_memb = arg.substr(pos+1);
if (!isprefixed(arg_memb))
arg_memb_found[arg_memb] = false;
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}
}
work_stack.push_back(RTLIL::Selection());
RTLIL::Selection &sel = work_stack.back();
if (arg == "*" && arg_mod == "*" && select_blackboxes) {
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select_filter_active_mod(design, work_stack.back());
return;
}
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sel.full_selection = false;
for (auto mod : design->modules())
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{
if (!select_blackboxes && mod->get_blackbox_attribute())
continue;
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if (arg_mod.compare(0, 2, "A:") == 0) {
if (!match_attr(mod->attributes, arg_mod.substr(2)))
continue;
} else
if (arg_mod.compare(0, 2, "N:") == 0) {
if (!match_ids(mod->name, arg_mod.substr(2)))
continue;
} else
if (!match_ids(mod->name, arg_mod))
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continue;
else
arg_mod_found[arg_mod] = true;
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if (arg_memb == "") {
sel.selected_modules.insert(mod->name);
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continue;
}
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if (arg_memb.compare(0, 2, "w:") == 0) {
for (auto wire : mod->wires())
if (match_ids(wire->name, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(wire->name);
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} else
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if (arg_memb.compare(0, 2, "i:") == 0) {
for (auto wire : mod->wires())
if (wire->port_input && match_ids(wire->name, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(wire->name);
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} else
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if (arg_memb.compare(0, 2, "o:") == 0) {
for (auto wire : mod->wires())
if (wire->port_output && match_ids(wire->name, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(wire->name);
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} else
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if (arg_memb.compare(0, 2, "x:") == 0) {
for (auto wire : mod->wires())
if ((wire->port_input || wire->port_output) && match_ids(wire->name, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(wire->name);
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} else
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if (arg_memb.compare(0, 2, "s:") == 0) {
size_t delim = arg_memb.substr(2).find(':');
if (delim == std::string::npos) {
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int width = atoi(arg_memb.substr(2).c_str());
for (auto wire : mod->wires())
if (wire->width == width)
sel.selected_members[mod->name].insert(wire->name);
} else {
std::string min_str = arg_memb.substr(2, delim);
std::string max_str = arg_memb.substr(2+delim+1);
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int min_width = min_str.empty() ? 0 : atoi(min_str.c_str());
int max_width = max_str.empty() ? -1 : atoi(max_str.c_str());
for (auto wire : mod->wires())
if (min_width <= wire->width && (wire->width <= max_width || max_width == -1))
sel.selected_members[mod->name].insert(wire->name);
}
} else
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if (arg_memb.compare(0, 2, "m:") == 0) {
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for (auto &it : mod->memories)
if (match_ids(it.first, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(it.first);
} else
if (arg_memb.compare(0, 2, "c:") == 0) {
for (auto cell : mod->cells())
if (match_ids(cell->name, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(cell->name);
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} else
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if (arg_memb.compare(0, 2, "t:") == 0) {
for (auto cell : mod->cells())
if (match_ids(cell->type, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(cell->name);
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} else
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if (arg_memb.compare(0, 2, "p:") == 0) {
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for (auto &it : mod->processes)
if (match_ids(it.first, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(it.first);
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} else
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if (arg_memb.compare(0, 2, "a:") == 0) {
for (auto wire : mod->wires())
if (match_attr(wire->attributes, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(wire->name);
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for (auto &it : mod->memories)
if (match_attr(it.second->attributes, arg_memb.substr(2)))
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sel.selected_members[mod->name].insert(it.first);
for (auto cell : mod->cells())
if (match_attr(cell->attributes, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(cell->name);
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for (auto &it : mod->processes)
if (match_attr(it.second->attributes, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(it.first);
} else
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if (arg_memb.compare(0, 2, "r:") == 0) {
for (auto cell : mod->cells())
if (match_attr(cell->parameters, arg_memb.substr(2)))
sel.selected_members[mod->name].insert(cell->name);
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} else {
std::string orig_arg_memb = arg_memb;
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if (arg_memb.compare(0, 2, "n:") == 0)
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arg_memb = arg_memb.substr(2);
for (auto wire : mod->wires())
if (match_ids(wire->name, arg_memb)) {
sel.selected_members[mod->name].insert(wire->name);
arg_memb_found[orig_arg_memb] = true;
}
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for (auto &it : mod->memories)
if (match_ids(it.first, arg_memb)) {
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sel.selected_members[mod->name].insert(it.first);
arg_memb_found[orig_arg_memb] = true;
}
for (auto cell : mod->cells())
if (match_ids(cell->name, arg_memb)) {
sel.selected_members[mod->name].insert(cell->name);
arg_memb_found[orig_arg_memb] = true;
}
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for (auto &it : mod->processes)
if (match_ids(it.first, arg_memb)) {
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sel.selected_members[mod->name].insert(it.first);
arg_memb_found[orig_arg_memb] = true;
}
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}
}
select_filter_active_mod(design, work_stack.back());
for (auto &it : arg_mod_found) {
if (it.second == false && !disable_empty_warning) {
log_warning("Selection \"%s\" did not match any module.\n", it.first.c_str());
}
}
for (auto &it : arg_memb_found) {
if (it.second == false && !disable_empty_warning) {
log_warning("Selection \"%s\" did not match any object.\n", it.first.c_str());
}
}
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}
static std::string describe_selection_for_assert(RTLIL::Design *design, RTLIL::Selection *sel)
{
std::string desc = "Selection contains:\n";
for (auto mod : design->modules())
{
if (sel->selected_module(mod->name)) {
for (auto wire : mod->wires())
if (sel->selected_member(mod->name, wire->name))
desc += stringf("%s/%s\n", id2cstr(mod->name), id2cstr(wire->name));
for (auto &it : mod->memories)
if (sel->selected_member(mod->name, it.first))
desc += stringf("%s/%s\n", id2cstr(mod->name), id2cstr(it.first));
for (auto cell : mod->cells())
if (sel->selected_member(mod->name, cell->name))
desc += stringf("%s/%s\n", id2cstr(mod->name), id2cstr(cell->name));
for (auto &it : mod->processes)
if (sel->selected_member(mod->name, it.first))
desc += stringf("%s/%s\n", id2cstr(mod->name), id2cstr(it.first));
}
}
return desc;
}
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PRIVATE_NAMESPACE_END
YOSYS_NAMESPACE_BEGIN
// used in kernel/register.cc and maybe other locations, extern decl. in register.h
void handle_extra_select_args(Pass *pass, const vector<string> &args, size_t argidx, size_t args_size, RTLIL::Design *design)
{
work_stack.clear();
for (; argidx < args_size; argidx++) {
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if (args[argidx].compare(0, 1, "-") == 0) {
if (pass != nullptr)
pass->cmd_error(args, argidx, "Unexpected option in selection arguments.");
else
log_cmd_error("Unexpected option in selection arguments.");
}
select_stmt(design, args[argidx]);
}
while (work_stack.size() > 1) {
select_op_union(design, work_stack.front(), work_stack.back());
work_stack.pop_back();
}
if (work_stack.empty())
design->selection_stack.push_back(RTLIL::Selection(false));
else
design->selection_stack.push_back(work_stack.back());
}
// extern decl. in register.h
RTLIL::Selection eval_select_args(const vector<string> &args, RTLIL::Design *design)
{
work_stack.clear();
for (auto &arg : args)
select_stmt(design, arg);
while (work_stack.size() > 1) {
select_op_union(design, work_stack.front(), work_stack.back());
work_stack.pop_back();
}
if (work_stack.empty())
return RTLIL::Selection(false);
return work_stack.back();
}
// extern decl. in register.h
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void eval_select_op(vector<RTLIL::Selection> &work, const string &op, RTLIL::Design *design)
{
work_stack.swap(work);
select_stmt(design, op);
work_stack.swap(work);
}
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YOSYS_NAMESPACE_END
PRIVATE_NAMESPACE_BEGIN
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struct SelectPass : public Pass {
SelectPass() : Pass("select", "modify and view the list of selected objects") { }
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void help() override
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
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log(" select [ -add | -del | -set <name> ] {-read <filename> | <selection>}\n");
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log(" select [ -unset <name> ]\n");
log(" select [ <assert_option> ] {-read <filename> | <selection>}\n");
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log(" select [ -list | -write <filename> | -count | -clear ]\n");
log(" select -module <modname>\n");
log("\n");
log("Most commands use the list of currently selected objects to determine which part\n");
log("of the design to operate on. This command can be used to modify and view this\n");
log("list of selected objects.\n");
log("\n");
log("Note that many commands support an optional [selection] argument that can be\n");
log("used to override the global selection for the command. The syntax of this\n");
log("optional argument is identical to the syntax of the <selection> argument\n");
log("described here.\n");
log("\n");
log(" -add, -del\n");
log(" add or remove the given objects to the current selection.\n");
log(" without this options the current selection is replaced.\n");
log("\n");
log(" -set <name>\n");
log(" do not modify the current selection. instead save the new selection\n");
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log(" under the given name (see @<name> below). to save the current selection,\n");
log(" use \"select -set <name> %%\"\n");
log("\n");
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log(" -unset <name>\n");
log(" do not modify the current selection. instead remove a previously saved\n");
log(" selection under the given name (see @<name> below).");
log("\n");
log(" -assert-none\n");
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log(" do not modify the current selection. instead assert that the given\n");
log(" selection is empty. i.e. produce an error if any object matching the\n");
log(" selection is found.\n");
log("\n");
log(" -assert-any\n");
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log(" do not modify the current selection. instead assert that the given\n");
log(" selection is non-empty. i.e. produce an error if no object matching\n");
log(" the selection is found.\n");
log("\n");
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log(" -assert-count N\n");
log(" do not modify the current selection. instead assert that the given\n");
log(" selection contains exactly N objects.\n");
log("\n");
log(" -assert-max N\n");
log(" do not modify the current selection. instead assert that the given\n");
log(" selection contains less than or exactly N objects.\n");
log("\n");
log(" -assert-min N\n");
log(" do not modify the current selection. instead assert that the given\n");
log(" selection contains at least N objects.\n");
log("\n");
log(" -list\n");
log(" list all objects in the current selection\n");
log("\n");
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log(" -write <filename>\n");
log(" like -list but write the output to the specified file\n");
log("\n");
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log(" -read <filename>\n");
log(" read the specified file (written by -write)\n");
log("\n");
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log(" -count\n");
log(" count all objects in the current selection\n");
log("\n");
log(" -clear\n");
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log(" clear the current selection. this effectively selects the whole\n");
log(" design. it also resets the selected module (see -module). use the\n");
log(" command 'select *' to select everything but stay in the current module.\n");
log("\n");
log(" -none\n");
log(" create an empty selection. the current module is unchanged.\n");
log("\n");
log(" -module <modname>\n");
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log(" limit the current scope to the specified module.\n");
log(" the difference between this and simply selecting the module\n");
log(" is that all object names are interpreted relative to this\n");
log(" module after this command until the selection is cleared again.\n");
log("\n");
log("When this command is called without an argument, the current selection\n");
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log("is displayed in a compact form (i.e. only the module name when a whole module\n");
log("is selected).\n");
log("\n");
log("The <selection> argument itself is a series of commands for a simple stack\n");
log("machine. Each element on the stack represents a set of selected objects.\n");
log("After this commands have been executed, the union of all remaining sets\n");
log("on the stack is computed and used as selection for the command.\n");
log("\n");
log("Pushing (selecting) object when not in -module mode:\n");
log("\n");
log(" <mod_pattern>\n");
log(" select the specified module(s)\n");
log("\n");
log(" <mod_pattern>/<obj_pattern>\n");
log(" select the specified object(s) from the module(s)\n");
log("\n");
log("Pushing (selecting) object when in -module mode:\n");
log("\n");
log(" <obj_pattern>\n");
log(" select the specified object(s) from the current module\n");
log("\n");
log("By default, patterns will not match black/white-box modules or their");
log("contents. To include such objects, prefix the pattern with '='.\n");
log("\n");
log("A <mod_pattern> can be a module name, wildcard expression (*, ?, [..])\n");
log("matching module names, or one of the following:\n");
log("\n");
log(" A:<pattern>, A:<pattern>=<pattern>\n");
log(" all modules with an attribute matching the given pattern\n");
log(" in addition to = also <, <=, >=, and > are supported\n");
log("\n");
log(" N:<pattern>\n");
log(" all modules with a name matching the given pattern\n");
log(" (i.e. 'N:' is optional as it is the default matching rule)\n");
log("\n");
log("An <obj_pattern> can be an object name, wildcard expression, or one of\n");
log("the following:\n");
log("\n");
log(" w:<pattern>\n");
log(" all wires with a name matching the given wildcard pattern\n");
log("\n");
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log(" i:<pattern>, o:<pattern>, x:<pattern>\n");
log(" all inputs (i:), outputs (o:) or any ports (x:) with matching names\n");
log("\n");
log(" s:<size>, s:<min>:<max>\n");
log(" all wires with a matching width\n");
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log("\n");
log(" m:<pattern>\n");
log(" all memories with a name matching the given pattern\n");
log("\n");
log(" c:<pattern>\n");
log(" all cells with a name matching the given pattern\n");
log("\n");
log(" t:<pattern>\n");
log(" all cells with a type matching the given pattern\n");
log("\n");
log(" p:<pattern>\n");
log(" all processes with a name matching the given pattern\n");
log("\n");
log(" a:<pattern>\n");
log(" all objects with an attribute name matching the given pattern\n");
log("\n");
log(" a:<pattern>=<pattern>\n");
log(" all objects with a matching attribute name-value-pair.\n");
log(" in addition to = also <, <=, >=, and > are supported\n");
log("\n");
log(" r:<pattern>, r:<pattern>=<pattern>\n");
log(" cells with matching parameters. also with <, <=, >= and >.\n");
log("\n");
log(" n:<pattern>\n");
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log(" all objects with a name matching the given pattern\n");
log(" (i.e. 'n:' is optional as it is the default matching rule)\n");
log("\n");
log(" @<name>\n");
log(" push the selection saved prior with 'select -set <name> ...'\n");
log("\n");
log("The following actions can be performed on the top sets on the stack:\n");
log("\n");
log(" %%\n");
log(" push a copy of the current selection to the stack\n");
log("\n");
log(" %%%%\n");
log(" replace the stack with a union of all elements on it\n");
log("\n");
log(" %%n\n");
log(" replace top set with its invert\n");
log("\n");
log(" %%u\n");
log(" replace the two top sets on the stack with their union\n");
log("\n");
log(" %%i\n");
log(" replace the two top sets on the stack with their intersection\n");
log("\n");
log(" %%d\n");
log(" pop the top set from the stack and subtract it from the new top\n");
log("\n");
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log(" %%D\n");
log(" like %%d but swap the roles of two top sets on the stack\n");
log("\n");
log(" %%c\n");
log(" create a copy of the top set from the stack and push it\n");
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log("\n");
log(" %%x[<num1>|*][.<num2>][:<rule>[:<rule>..]]\n");
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log(" expand top set <num1> num times according to the specified rules.\n");
log(" (i.e. select all cells connected to selected wires and select all\n");
log(" wires connected to selected cells) The rules specify which cell\n");
log(" ports to use for this. the syntax for a rule is a '-' for exclusion\n");
log(" and a '+' for inclusion, followed by an optional comma separated\n");
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log(" list of cell types followed by an optional comma separated list of\n");
log(" cell ports in square brackets. a rule can also be just a cell or wire\n");
log(" name that limits the expansion (is included but does not go beyond).\n");
log(" select at most <num2> objects. a warning message is printed when this\n");
log(" limit is reached. When '*' is used instead of <num1> then the process\n");
log(" is repeated until no further object are selected.\n");
log("\n");
log(" %%ci[<num1>|*][.<num2>][:<rule>[:<rule>..]]\n");
log(" %%co[<num1>|*][.<num2>][:<rule>[:<rule>..]]\n");
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log(" similar to %%x, but only select input (%%ci) or output cones (%%co)\n");
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log("\n");
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log(" %%xe[...] %%cie[...] %%coe\n");
log(" like %%x, %%ci, and %%co but only consider combinatorial cells\n");
log("\n");
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log(" %%a\n");
log(" expand top set by selecting all wires that are (at least in part)\n");
log(" aliases for selected wires.\n");
log("\n");
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log(" %%s\n");
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log(" expand top set by adding all modules that implement cells in selected\n");
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log(" modules\n");
log("\n");
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log(" %%m\n");
log(" expand top set by selecting all modules that contain selected objects\n");
log("\n");
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log(" %%M\n");
log(" select modules that implement selected cells\n");
log("\n");
log(" %%C\n");
log(" select cells that implement selected modules\n");
log("\n");
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log(" %%R[<num>]\n");
log(" select <num> random objects from top selection (default 1)\n");
log("\n");
log("Example: the following command selects all wires that are connected to a\n");
log("'GATE' input of a 'SWITCH' cell:\n");
log("\n");
log(" select */t:SWITCH %%x:+[GATE] */t:SWITCH %%d\n");
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log("\n");
}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
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{
bool add_mode = false;
bool del_mode = false;
bool clear_mode = false;
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bool none_mode = false;
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bool list_mode = false;
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bool count_mode = false;
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bool got_module = false;
bool assert_none = false;
bool assert_any = false;
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int assert_count = -1;
int assert_max = -1;
int assert_min = -1;
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std::string write_file, read_file;
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std::string set_name, unset_name, sel_str;
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work_stack.clear();
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++)
{
std::string arg = args[argidx];
if (arg == "-add") {
add_mode = true;
continue;
}
if (arg == "-del") {
del_mode = true;
continue;
}
if (arg == "-assert-none") {
assert_none = true;
continue;
}
if (arg == "-assert-any") {
assert_any = true;
continue;
}
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if (arg == "-assert-count" && argidx+1 < args.size()) {
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assert_count = atoi(args[++argidx].c_str());
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continue;
}
if (arg == "-assert-max" && argidx+1 < args.size()) {
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assert_max = atoi(args[++argidx].c_str());
continue;
}
if (arg == "-assert-min" && argidx+1 < args.size()) {
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assert_min = atoi(args[++argidx].c_str());
continue;
}
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if (arg == "-clear") {
clear_mode = true;
continue;
}
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if (arg == "-none") {
none_mode = true;
continue;
}
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if (arg == "-list") {
list_mode = true;
continue;
}
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if (arg == "-write" && argidx+1 < args.size()) {
write_file = args[++argidx];
continue;
}
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if (arg == "-read" && argidx+1 < args.size()) {
read_file = args[++argidx];
continue;
}
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if (arg == "-count") {
count_mode = true;
continue;
}
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if (arg == "-module" && argidx+1 < args.size()) {
RTLIL::IdString mod_name = RTLIL::escape_id(args[++argidx]);
if (design->module(mod_name) == nullptr)
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log_cmd_error("No such module: %s\n", id2cstr(mod_name));
design->selected_active_module = mod_name.str();
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got_module = true;
continue;
}
if (arg == "-set" && argidx+1 < args.size()) {
set_name = RTLIL::escape_id(args[++argidx]);
continue;
}
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if (arg == "-unset" && argidx+1 < args.size()) {
unset_name = RTLIL::escape_id(args[++argidx]);
continue;
}
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if (arg.size() > 0 && arg[0] == '-')
log_cmd_error("Unknown option %s.\n", arg.c_str());
bool disable_empty_warning = count_mode || assert_none || assert_any || (assert_count != -1) || (assert_max != -1) || (assert_min != -1);
select_stmt(design, arg, disable_empty_warning);
sel_str += " " + arg;
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}
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if (!read_file.empty())
{
if (!sel_str.empty())
log_cmd_error("Option -read can not be combined with a selection expression.\n");
std::ifstream f(read_file);
yosys_input_files.insert(read_file);
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if (f.fail())
log_error("Can't open '%s' for reading: %s\n", read_file.c_str(), strerror(errno));
RTLIL::Selection sel(false);
string line;
while (std::getline(f, line)) {
size_t slash_pos = line.find('/');
if (slash_pos == string::npos) {
log_warning("Ignoring line without slash in 'select -read': %s\n", line.c_str());
continue;
}
IdString mod_name = RTLIL::escape_id(line.substr(0, slash_pos));
IdString obj_name = RTLIL::escape_id(line.substr(slash_pos+1));
sel.selected_members[mod_name].insert(obj_name);
}
select_filter_active_mod(design, sel);
sel.optimize(design);
work_stack.push_back(sel);
}
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if (clear_mode && args.size() != 2)
log_cmd_error("Option -clear can not be combined with any other options.\n");
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if (none_mode && args.size() != 2)
log_cmd_error("Option -none can not be combined with any other options.\n");
if (add_mode + del_mode + assert_none + assert_any + (assert_count >= 0) + (assert_max >= 0) + (assert_min >= 0) > 1)
log_cmd_error("Options -add, -del, -assert-none, -assert-any, assert-count, -assert-max or -assert-min can not be combined.\n");
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if ((list_mode || !write_file.empty() || count_mode) && (add_mode || del_mode || assert_none || assert_any || assert_count >= 0 || assert_max >= 0 || assert_min >= 0))
log_cmd_error("Options -list, -write and -count can not be combined with -add, -del, -assert-none, -assert-any, assert-count, -assert-max, or -assert-min.\n");
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if (!set_name.empty() && (list_mode || !write_file.empty() || count_mode || add_mode || !unset_name.empty() || del_mode || assert_none || assert_any || assert_count >= 0 || assert_max >= 0 || assert_min >= 0))
log_cmd_error("Option -set can not be combined with -list, -write, -count, -add, -del, -unset, -assert-none, -assert-any, -assert-count, -assert-max, or -assert-min.\n");
if (!unset_name.empty() && (list_mode || !write_file.empty() || count_mode || add_mode || !set_name.empty() || del_mode || assert_none || assert_any || assert_count >= 0 || assert_max >= 0 || assert_min >= 0))
log_cmd_error("Option -unset can not be combined with -list, -write, -count, -add, -del, -set, -assert-none, -assert-any, -assert-count, -assert-max, or -assert-min.\n");
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if (work_stack.size() == 0 && got_module) {
RTLIL::Selection sel;
select_filter_active_mod(design, sel);
work_stack.push_back(sel);
}
while (work_stack.size() > 1) {
select_op_union(design, work_stack.front(), work_stack.back());
work_stack.pop_back();
}
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log_assert(design->selection_stack.size() > 0);
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if (clear_mode) {
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design->selection_stack.back() = RTLIL::Selection(true);
design->selected_active_module = std::string();
return;
}
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if (none_mode) {
design->selection_stack.back() = RTLIL::Selection(false);
return;
}
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if (list_mode || count_mode || !write_file.empty())
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{
#define LOG_OBJECT(...) { if (list_mode) log(__VA_ARGS__); if (f != nullptr) fprintf(f, __VA_ARGS__); total_count++; }
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int total_count = 0;
FILE *f = nullptr;
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if (!write_file.empty()) {
f = fopen(write_file.c_str(), "w");
yosys_output_files.insert(write_file);
if (f == nullptr)
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log_error("Can't open '%s' for writing: %s\n", write_file.c_str(), strerror(errno));
}
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RTLIL::Selection *sel = &design->selection_stack.back();
if (work_stack.size() > 0)
sel = &work_stack.back();
sel->optimize(design);
for (auto mod : design->modules())
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{
if (sel->selected_whole_module(mod->name) && list_mode)
log("%s\n", id2cstr(mod->name));
if (sel->selected_module(mod->name)) {
for (auto wire : mod->wires())
if (sel->selected_member(mod->name, wire->name))
LOG_OBJECT("%s/%s\n", id2cstr(mod->name), id2cstr(wire->name))
for (auto &it : mod->memories)
if (sel->selected_member(mod->name, it.first))
LOG_OBJECT("%s/%s\n", id2cstr(mod->name), id2cstr(it.first))
for (auto cell : mod->cells())
if (sel->selected_member(mod->name, cell->name))
LOG_OBJECT("%s/%s\n", id2cstr(mod->name), id2cstr(cell->name))
for (auto &it : mod->processes)
if (sel->selected_member(mod->name, it.first))
LOG_OBJECT("%s/%s\n", id2cstr(mod->name), id2cstr(it.first))
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}
}
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if (count_mode)
log("%d objects.\n", total_count);
if (f != nullptr)
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fclose(f);
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#undef LOG_OBJECT
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return;
}
if (add_mode)
{
if (work_stack.size() == 0)
log_cmd_error("Nothing to add to selection.\n");
select_op_union(design, design->selection_stack.back(), work_stack.back());
design->selection_stack.back().optimize(design);
return;
}
if (del_mode)
{
if (work_stack.size() == 0)
log_cmd_error("Nothing to delete from selection.\n");
select_op_diff(design, design->selection_stack.back(), work_stack.back());
design->selection_stack.back().optimize(design);
return;
}
if (assert_none)
{
if (work_stack.size() == 0)
log_cmd_error("No selection to check.\n");
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work_stack.back().optimize(design);
if (!work_stack.back().empty())
{
RTLIL::Selection *sel = &work_stack.back();
sel->optimize(design);
std::string desc = describe_selection_for_assert(design, sel);
log_error("Assertion failed: selection is not empty:%s\n%s", sel_str.c_str(), desc.c_str());
}
return;
}
if (assert_any)
{
if (work_stack.size() == 0)
log_cmd_error("No selection to check.\n");
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work_stack.back().optimize(design);
if (work_stack.back().empty())
{
RTLIL::Selection *sel = &work_stack.back();
sel->optimize(design);
std::string desc = describe_selection_for_assert(design, sel);
log_error("Assertion failed: selection is empty:%s\n%s", sel_str.c_str(), desc.c_str());
}
return;
}
if (assert_count >= 0 || assert_max >= 0 || assert_min >= 0)
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{
int total_count = 0;
if (work_stack.size() == 0)
log_cmd_error("No selection to check.\n");
RTLIL::Selection *sel = &work_stack.back();
sel->optimize(design);
for (auto mod : design->modules())
if (sel->selected_module(mod->name)) {
for (auto wire : mod->wires())
if (sel->selected_member(mod->name, wire->name))
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total_count++;
for (auto &it : mod->memories)
if (sel->selected_member(mod->name, it.first))
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total_count++;
for (auto cell : mod->cells())
if (sel->selected_member(mod->name, cell->name))
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total_count++;
for (auto &it : mod->processes)
if (sel->selected_member(mod->name, it.first))
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total_count++;
}
if (assert_count >= 0 && assert_count != total_count)
{
std::string desc = describe_selection_for_assert(design, sel);
log_error("Assertion failed: selection contains %d elements instead of the asserted %d:%s\n%s",
total_count, assert_count, sel_str.c_str(), desc.c_str());
}
if (assert_max >= 0 && assert_max < total_count)
{
std::string desc = describe_selection_for_assert(design, sel);
log_error("Assertion failed: selection contains %d elements, more than the maximum number %d:%s\n%s",
total_count, assert_max, sel_str.c_str(), desc.c_str());
}
if (assert_min >= 0 && assert_min > total_count)
{
std::string desc = describe_selection_for_assert(design, sel);
log_error("Assertion failed: selection contains %d elements, less than the minimum number %d:%s\n%s",
total_count, assert_min, sel_str.c_str(), desc.c_str());
}
return;
}
if (!set_name.empty())
{
if (work_stack.size() == 0)
design->selection_vars[set_name] = RTLIL::Selection(false);
else
design->selection_vars[set_name] = work_stack.back();
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return;
}
if (!unset_name.empty())
{
if (!design->selection_vars.erase(unset_name))
log_error("Selection '%s' does not exist!\n", unset_name.c_str());
return;
}
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if (work_stack.size() == 0) {
RTLIL::Selection &sel = design->selection_stack.back();
if (sel.full_selection)
log("*\n");
for (auto &it : sel.selected_modules)
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log("%s\n", id2cstr(it));
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for (auto &it : sel.selected_members)
for (auto &it2 : it.second)
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log("%s/%s\n", id2cstr(it.first), id2cstr(it2));
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return;
}
design->selection_stack.back() = work_stack.back();
design->selection_stack.back().optimize(design);
}
} SelectPass;
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struct CdPass : public Pass {
CdPass() : Pass("cd", "a shortcut for 'select -module <name>'") { }
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void help() override
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" cd <modname>\n");
log("\n");
log("This is just a shortcut for 'select -module <modname>'.\n");
log("\n");
log("\n");
log(" cd <cellname>\n");
log("\n");
log("When no module with the specified name is found, but there is a cell\n");
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log("with the specified name in the current module, then this is equivalent\n");
log("to 'cd <celltype>'.\n");
log("\n");
log(" cd ..\n");
log("\n");
log("Remove trailing substrings that start with '.' in current module name until\n");
log("the name of a module in the current design is generated, then switch to that\n");
log("module. Otherwise clear the current selection.\n");
log("\n");
log(" cd\n");
log("\n");
log("This is just a shortcut for 'select -clear'.\n");
log("\n");
}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
{
if (args.size() != 1 && args.size() != 2)
log_cmd_error("Invalid number of arguments.\n");
if (args.size() == 1 || args[1] == "/") {
design->selection_stack.back() = RTLIL::Selection(true);
design->selected_active_module = std::string();
return;
}
if (args[1] == "..")
{
string modname = design->selected_active_module;
design->selection_stack.back() = RTLIL::Selection(true);
design->selected_active_module = std::string();
while (1)
{
size_t pos = modname.rfind('.');
if (pos == string::npos)
break;
modname = modname.substr(0, pos);
Module *mod = design->module(modname);
if (mod == nullptr)
continue;
design->selected_active_module = modname;
design->selection_stack.back() = RTLIL::Selection();
select_filter_active_mod(design, design->selection_stack.back());
design->selection_stack.back().optimize(design);
return;
}
return;
}
std::string modname = RTLIL::escape_id(args[1]);
if (design->module(modname) == nullptr && !design->selected_active_module.empty()) {
RTLIL::Module *module = design->module(design->selected_active_module);
if (module != nullptr && module->cell(modname) != nullptr)
modname = module->cell(modname)->type.str();
}
if (design->module(modname) != nullptr) {
design->selected_active_module = modname;
design->selection_stack.back() = RTLIL::Selection();
select_filter_active_mod(design, design->selection_stack.back());
design->selection_stack.back().optimize(design);
return;
}
log_cmd_error("No such module `%s' found!\n", RTLIL::unescape_id(modname).c_str());
}
} CdPass;
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template<typename T>
static void log_matches(const char *title, Module *module, const T &list)
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{
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std::vector<IdString> matches;
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for (auto &it : list)
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if (module->selected(it.second))
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matches.push_back(it.first);
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if (!matches.empty()) {
log("\n%d %s:\n", int(matches.size()), title);
std::sort(matches.begin(), matches.end(), RTLIL::sort_by_id_str());
for (auto id : matches)
log(" %s\n", RTLIL::id2cstr(id));
}
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}
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struct LsPass : public Pass {
LsPass() : Pass("ls", "list modules or objects in modules") { }
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void help() override
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
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log(" ls [selection]\n");
log("\n");
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log("When no active module is selected, this prints a list of modules.\n");
log("\n");
log("When an active module is selected, this prints a list of objects in the module.\n");
log("\n");
}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
{
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size_t argidx = 1;
extra_args(args, argidx, design);
if (design->selected_active_module.empty())
{
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std::vector<IdString> matches;
for (auto mod : design->selected_modules())
matches.push_back(mod->name);
if (!matches.empty()) {
log("\n%d %s:\n", int(matches.size()), "modules");
std::sort(matches.begin(), matches.end(), RTLIL::sort_by_id_str());
for (auto id : matches)
log(" %s%s\n", log_id(id), design->selected_whole_module(design->module(id)) ? "" : "*");
}
}
else
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if (design->module(design->selected_active_module) != nullptr)
{
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RTLIL::Module *module = design->module(design->selected_active_module);
log_matches("wires", module, module->wires_);
log_matches("memories", module, module->memories);
log_matches("cells", module, module->cells_);
log_matches("processes", module, module->processes);
}
}
} LsPass;
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PRIVATE_NAMESPACE_END