yosys/frontends/verific/verific.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.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.
*
*/
#include "kernel/yosys.h"
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#include "kernel/sigtools.h"
#include "kernel/celltypes.h"
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#include "kernel/log.h"
#include "libs/sha1/sha1.h"
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#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#ifndef _WIN32
# include <unistd.h>
# include <dirent.h>
#endif
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#include "frontends/verific/verific.h"
USING_YOSYS_NAMESPACE
#ifdef YOSYS_ENABLE_VERIFIC
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#ifdef __clang__
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#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Woverloaded-virtual"
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#endif
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#include "Array.h"
#include "RuntimeFlags.h"
#ifdef VERIFIC_HIER_TREE_SUPPORT
#include "hier_tree.h"
#endif
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
#include "veri_file.h"
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#include "VeriModule.h"
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#include "VeriWrite.h"
#include "VeriLibrary.h"
#include "VeriExpression.h"
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#endif
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#ifdef VERIFIC_VHDL_SUPPORT
#include "vhdl_file.h"
#include "VhdlIdDef.h"
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#include "VhdlUnits.h"
#include "NameSpace.h"
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#endif
#ifdef VERIFIC_EDIF_SUPPORT
#include "edif_file.h"
#endif
#ifdef VERIFIC_LIBERTY_SUPPORT
#include "synlib_file.h"
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#include "SynlibGroup.h"
#endif
#include "VerificStream.h"
#include "FileSystem.h"
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#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
#include "VerificExtensions.h"
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#endif
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#ifndef YOSYSHQ_VERIFIC_API_VERSION
#warning "Only YosysHQ flavored Verific is fully supported. Please contact office@yosyshq.com for commercial support for Yosys+Verific."
#else
#if YOSYSHQ_VERIFIC_API_VERSION < 20230901
# error "Please update your version of YosysHQ flavored Verific."
#endif
#endif
#if !defined(VERIFIC_VHDL_SUPPORT) && !defined(VERIFIC_SYSTEMVERILOG_SUPPORT)
#error "At least one of HDL languages must be enabled."
#endif
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#ifdef __clang__
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#pragma clang diagnostic pop
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#endif
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#ifdef VERIFIC_NAMESPACE
using namespace Verific;
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#endif
#endif
#ifdef YOSYS_ENABLE_VERIFIC
YOSYS_NAMESPACE_BEGIN
int verific_verbose;
bool verific_import_pending;
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string verific_error_msg;
int verific_sva_fsm_limit;
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
vector<string> verific_incdirs, verific_libdirs, verific_libexts;
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#endif
void msg_func(msg_type_t msg_type, const char *message_id, linefile_type linefile, const char *msg, va_list args)
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{
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string message_prefix = stringf("VERIFIC-%s [%s] ",
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msg_type == VERIFIC_NONE ? "NONE" :
msg_type == VERIFIC_ERROR ? "ERROR" :
msg_type == VERIFIC_WARNING ? "WARNING" :
msg_type == VERIFIC_IGNORE ? "IGNORE" :
msg_type == VERIFIC_INFO ? "INFO" :
msg_type == VERIFIC_COMMENT ? "COMMENT" :
msg_type == VERIFIC_PROGRAM_ERROR ? "PROGRAM_ERROR" : "UNKNOWN", message_id);
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string message = linefile ? stringf("%s:%d: ", LineFile::GetFileName(linefile), LineFile::GetLineNo(linefile)) : "";
message += vstringf(msg, args);
if (log_verific_callback) {
string full_message = stringf("%s%s\n", message_prefix.c_str(), message.c_str());
#ifdef VERIFIC_LINEFILE_INCLUDES_COLUMNS
log_verific_callback(int(msg_type), message_id, LineFile::GetFileName(linefile),
linefile ? linefile->GetLeftLine() : 0, linefile ? linefile->GetLeftCol() : 0,
linefile ? linefile->GetRightLine() : 0, linefile ? linefile->GetRightCol() : 0, full_message.c_str());
#else
log_verific_callback(int(msg_type), message_id, LineFile::GetFileName(linefile),
linefile ? LineFile::GetLineNo(linefile) : 0, 0,
linefile ? LineFile::GetLineNo(linefile) : 0, 0, full_message.c_str());
#endif
} else {
if (msg_type == VERIFIC_ERROR || msg_type == VERIFIC_WARNING || msg_type == VERIFIC_PROGRAM_ERROR)
log_warning_noprefix("%s%s\n", message_prefix.c_str(), message.c_str());
else
log("%s%s\n", message_prefix.c_str(), message.c_str());
}
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if (verific_error_msg.empty() && (msg_type == VERIFIC_ERROR || msg_type == VERIFIC_PROGRAM_ERROR))
verific_error_msg = message;
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}
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void set_verific_logging(void (*cb)(int msg_type, const char *message_id, const char* file_path, unsigned int left_line, unsigned int left_col, unsigned int right_line, unsigned int right_col, const char *msg))
{
Message::SetConsoleOutput(0);
Message::RegisterCallBackMsg(msg_func);
log_verific_callback = cb;
}
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string get_full_netlist_name(Netlist *nl)
{
if (nl->NumOfRefs() == 1) {
Instance *inst = (Instance*)nl->GetReferences()->GetLast();
return get_full_netlist_name(inst->Owner()) + "." + inst->Name();
}
return nl->CellBaseName();
}
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
class YosysStreamCallBackHandler : public VerificStreamCallBackHandler
{
public:
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YosysStreamCallBackHandler() : VerificStreamCallBackHandler() { }
virtual ~YosysStreamCallBackHandler() { }
virtual verific_stream *GetSysCallStream(const char *file_path)
{
if (!file_path) return nullptr;
linefile_type src_loc = GetFromLocation();
char *this_file_name = nullptr;
if (src_loc && !FileSystem::IsAbsolutePath(file_path)) {
const char *src_file_name = LineFile::GetFileName(src_loc);
char *dir_name = FileSystem::DirectoryPath(src_file_name);
if (dir_name) {
this_file_name = Strings::save(dir_name, "/", file_path);
Strings::free(dir_name);
file_path = this_file_name;
}
}
verific_stream *strm = new verific_ifstream(file_path);
Strings::free(this_file_name);
return strm;
}
};
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YosysStreamCallBackHandler verific_read_cb;
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#endif
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// ==================================================================
VerificImporter::VerificImporter(bool mode_gates, bool mode_keep, bool mode_nosva, bool mode_names, bool mode_verific, bool mode_autocover, bool mode_fullinit) :
mode_gates(mode_gates), mode_keep(mode_keep), mode_nosva(mode_nosva),
mode_names(mode_names), mode_verific(mode_verific), mode_autocover(mode_autocover),
mode_fullinit(mode_fullinit)
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{
}
RTLIL::SigBit VerificImporter::net_map_at(Net *net)
{
if (net->IsExternalTo(netlist))
log_error("Found external reference to '%s.%s' in netlist '%s', please use -flatten or -extnets.\n",
get_full_netlist_name(net->Owner()).c_str(), net->Name(), get_full_netlist_name(netlist).c_str());
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return net_map.at(net);
}
bool is_blackbox(Netlist *nl)
{
if (nl->IsBlackBox() || nl->IsEmptyBox())
return true;
const char *attr = nl->GetAttValue("blackbox");
if (attr != nullptr && strcmp(attr, "0"))
return true;
return false;
}
RTLIL::IdString VerificImporter::new_verific_id(Verific::DesignObj *obj)
{
std::string s = stringf("$verific$%s", obj->Name());
if (obj->Linefile())
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s += stringf("$%s:%d", RTLIL::encode_filename(Verific::LineFile::GetFileName(obj->Linefile())).c_str(), Verific::LineFile::GetLineNo(obj->Linefile()));
s += stringf("$%d", autoidx++);
return s;
}
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static const RTLIL::Const extract_vhdl_boolean(std::string &val)
{
if (val == "false")
return RTLIL::Const::from_string("0");
if (val == "true")
return RTLIL::Const::from_string("1");
log_error("Expecting VHDL boolean value.\n");
}
static const RTLIL::Const extract_vhdl_bit(std::string &val, std::string &typ)
{
if (val.size()==3 && val[0]=='\'' && val.back()=='\'')
return RTLIL::Const::from_string(val.substr(1,val.size()-2));
log_error("Error parsing VHDL %s.\n", typ.c_str());
}
static const RTLIL::Const extract_vhdl_bit_vector(std::string &val, std::string &typ)
{
if (val.size()>1 && val[0]=='\"' && val.back()=='\"') {
RTLIL::Const c = RTLIL::Const::from_string(val.substr(1,val.size()-2));
if (typ == "signed")
c.flags |= RTLIL::CONST_FLAG_SIGNED;
return c;
}
log_error("Error parsing VHDL %s.\n", typ.c_str());
}
static const RTLIL::Const extract_vhdl_integer(std::string &val)
{
char *end;
return RTLIL::Const((int)std::strtol(val.c_str(), &end, 10), 32);
}
static const RTLIL::Const extract_vhdl_char(std::string &val)
{
if (val.size()==3 && val[0]=='\"' && val.back()=='\"')
return RTLIL::Const((int)val[1], 32);
log_error("Error parsing VHDL character.\n");
}
static const RTLIL::Const extract_real_value(std::string &val)
{
RTLIL::Const c(val);
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c.flags |= RTLIL::CONST_FLAG_REAL;
return c;
}
static const RTLIL::Const extract_vhdl_string(std::string &val)
{
if (!(val.size()>1 && val[0]=='\"' && val.back()=='\"'))
log_error("Error parsing VHDL string.\n");
return RTLIL::Const(val.substr(1,val.size()-2));
}
static const RTLIL::Const extract_vhdl_const(const char *value, bool output_signed)
{
RTLIL::Const c;
char *end;
int decimal;
bool is_signed = false;
std::string val = std::string(value);
if (val.size()>1 && val[0]=='\"' && val.back()=='\"') {
std::string data = val.substr(1,val.size()-2);
bool isBinary = std::all_of(data.begin(), data.end(), [](char c) {return c=='1' || c=='0'; });
if (isBinary)
c = RTLIL::Const::from_string(data);
else
c = RTLIL::Const(data);
} else if (val.size()==3 && val[0]=='\'' && val.back()=='\'') {
c = RTLIL::Const::from_string(val.substr(1,val.size()-2));
} else if ((value[0] == '-' || (value[0] >= '0' && value[0] <= '9')) &&
((decimal = std::strtol(value, &end, 10)), !end[0])) {
is_signed = output_signed;
c = RTLIL::Const((int)decimal, 32);
} else if (val == "false") {
c = RTLIL::Const::from_string("0");
} else if (val == "true") {
c = RTLIL::Const::from_string("1");
} else {
c = RTLIL::Const(val);
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log_warning("encoding value '%s' as string.\n", value);
}
if (is_signed)
c.flags |= RTLIL::CONST_FLAG_SIGNED;
return c;
}
static const RTLIL::Const extract_verilog_const(const char *value, bool allow_string, bool output_signed)
{
RTLIL::Const c;
char *end;
int decimal;
bool is_signed = false;
size_t found;
std::string val = std::string(value);
if (allow_string && val.size()>1 && val[0]=='\"' && val.back()=='\"') {
c = RTLIL::Const(val.substr(1,val.size()-2));
} else if ((found = val.find("'sb")) != std::string::npos) {
is_signed = output_signed;
c = RTLIL::Const::from_string(val.substr(found + 3));
} else if ((found = val.find("'b")) != std::string::npos) {
c = RTLIL::Const::from_string(val.substr(found + 2));
} else if ((value[0] == '-' || (value[0] >= '0' && value[0] <= '9')) &&
((decimal = std::strtol(value, &end, 10)), !end[0])) {
is_signed = output_signed;
c = RTLIL::Const((int)decimal, 32);
} else if (allow_string) {
c = RTLIL::Const(val);
} else {
c = RTLIL::Const(val);
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log_warning("encoding value '%s' as string.\n", value);
}
if (is_signed)
c.flags |= RTLIL::CONST_FLAG_SIGNED;
return c;
}
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// When used as attributes or parameter values Verific constants come already processed.
// - Real string values are already under quotes
// - Numeric values with specified width are always converted to binary
// - Rest of user defined values are handled as 32bit integers
// - There could be some internal values that are strings without quotes
// so we check if value is all digits or not
//
// Note: For signed values, verific uses <len>'sb<bits> and decimal values can
// also be negative.
static const RTLIL::Const verific_const(const char* type_name, const char *value, DesignObj *obj, bool allow_string = true, bool output_signed = false)
{
std::string val = std::string(value);
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// VHDL
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if (obj->IsFromVhdl()) {
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if (type_name) {
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std::string typ = std::string(type_name);
transform(typ.begin(), typ.end(), typ.begin(), ::tolower);
if (typ == "integer" || typ == "natural" || typ=="positive") return extract_vhdl_integer(val);
else if (typ =="boolean") return extract_vhdl_boolean(val);
else if (typ == "bit" || typ =="std_logic" || typ == "std_ulogic") return extract_vhdl_bit(val,typ);
else if (typ == "character") return extract_vhdl_char(val);
else if (typ == "bit_vector" || typ == "std_logic_vector" || typ == "std_ulogic_vector" ||
typ == "unsigned" || typ == "signed") return extract_vhdl_bit_vector(val,typ);
else if (typ == "real") return extract_real_value(val);
else if (typ == "string") return extract_vhdl_string(val);
else {
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if (val.size()>1 && val[0]=='\"' && val.back()=='\"')
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return RTLIL::Const(val.substr(1,val.size()-2));
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else if (val.size()==3 && val[0]=='\'' && val.back()=='\'')
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return RTLIL::Const(val.substr(1,val.size()-2));
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else
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return RTLIL::Const(val);
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}
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} else extract_vhdl_const(value, output_signed);
}
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// SystemVerilog
if (type_name && strcmp(type_name, "real")==0) {
return extract_real_value(val);
} else
return extract_verilog_const(value, allow_string, output_signed);
}
#ifdef YOSYSHQ_VERIFIC_API_VERSION
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static const std::string verific_unescape(const char *value)
{
std::string val = std::string(value);
if (val.size()>1 && val[0]=='\"' && val.back()=='\"')
return val.substr(1,val.size()-2);
return value;
}
#endif
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void VerificImporter::import_attributes(dict<RTLIL::IdString, RTLIL::Const> &attributes, DesignObj *obj, Netlist *nl)
{
if (!obj)
return;
MapIter mi;
Att *attr;
#ifdef VERIFIC_LINEFILE_INCLUDES_COLUMNS
if (obj->Linefile())
attributes[ID::src] = stringf("%s:%d.%d-%d.%d", LineFile::GetFileName(obj->Linefile()), obj->Linefile()->GetLeftLine(), obj->Linefile()->GetLeftCol(), obj->Linefile()->GetRightLine(), obj->Linefile()->GetRightCol());
#else
if (obj->Linefile())
attributes[ID::src] = stringf("%s:%d", LineFile::GetFileName(obj->Linefile()), LineFile::GetLineNo(obj->Linefile()));
#endif
FOREACH_ATTRIBUTE(obj, mi, attr) {
if (attr->Key()[0] == ' ' || attr->Value() == nullptr)
continue;
attributes[RTLIL::escape_id(attr->Key())] = verific_const(nullptr, attr->Value(), obj);
}
if (nl) {
auto type_range = nl->GetTypeRange(obj->Name());
if (!type_range)
return;
if (type_range->IsTypeScalar()) {
const long long bottom_bound = type_range->GetScalarRangeLeftBound();
const long long top_bound = type_range->GetScalarRangeRightBound();
const unsigned bit_width = type_range->NumElements();
RTLIL::Const bottom_const(bottom_bound, bit_width);
RTLIL::Const top_const(top_bound, bit_width);
if (bottom_bound < 0 || top_bound < 0) {
bottom_const.flags |= RTLIL::CONST_FLAG_SIGNED;
top_const.flags |= RTLIL::CONST_FLAG_SIGNED;
}
attributes.emplace(ID(bottom_bound), bottom_const);
attributes.emplace(ID(top_bound), top_const);
}
if (!type_range->IsTypeEnum())
return;
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#ifdef VERIFIC_VHDL_SUPPORT
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if (nl->IsFromVhdl() && strcmp(type_range->GetTypeName(), "STD_LOGIC") == 0)
return;
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#endif
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auto type_name = type_range->GetTypeName();
if (!type_name)
return;
attributes.emplace(ID::wiretype, RTLIL::escape_id(type_name));
MapIter mi;
const char *k, *v;
FOREACH_MAP_ITEM(type_range->GetEnumIdMap(), mi, &k, &v) {
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if (nl->IsFromVerilog()) {
auto const value = verific_const(type_name, v, nl, false);
attributes.emplace(stringf("\\enum_value_%s", value.as_string().c_str()), RTLIL::escape_id(k));
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}
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#ifdef VERIFIC_VHDL_SUPPORT
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else if (nl->IsFromVhdl()) {
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// Expect "<binary>" or plain <binary>
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auto p = v;
if (p) {
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if (*p != '"') {
auto l = strlen(p);
auto q = (char*)malloc(l+1);
strncpy(q, p, l);
q[l] = '\0';
for(char *ptr = q; *ptr; ++ptr )*ptr = tolower(*ptr);
attributes.emplace(stringf("\\enum_value_%s", q), RTLIL::escape_id(k));
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} else {
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auto *q = p+1;
for (; *q != '"'; q++)
if (*q != '0' && *q != '1') {
p = nullptr;
break;
}
if (p && *(q+1) != '\0')
p = nullptr;
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if (p != nullptr)
{
auto l = strlen(p);
auto q = (char*)malloc(l+1-2);
strncpy(q, p+1, l-2);
q[l-2] = '\0';
attributes.emplace(stringf("\\enum_value_%s", q), RTLIL::escape_id(k));
free(q);
}
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}
}
if (p == nullptr)
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log_error("Expected TypeRange value '%s' to be of form \"<binary>\" or <binary>.\n", v);
}
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#endif
}
}
}
verific: Fixes incorrect aldff inference in verific importer The following SV module at HEAD imported with verific, ```systemverilog module my_module( input logic [4:0] a, input logic clk, input logic enable, output logic [4:0] z ); reg [4:0] pipeline_register; always @(posedge clk) begin pipeline_register <= enable ? a : pipeline_register; end assign z = pipeline_register; endmodule : my_module ``` results in the following output verilog ```systemverilog /* Generated by 0.36 */ (* top = 1 *) (* hdlname = "my_module" *) (* src = "/tmp/temp_directory_zTwd0l/my_input.v:2.12-2.21" *) module my_module(clk, enable, a, z); wire [4:0] _0_; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:3.25-3.26" *) input [4:0] a; wire [4:0] a; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:4.19-4.22" *) input clk; wire clk; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:5.19-5.25" *) input enable; wire enable; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:6.26-6.27" *) output [4:0] z; wire [4:0] z; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:10.12-12.8" *) \$aldff #( .ALOAD_POLARITY(32'd1), .CLK_POLARITY(32'd1), .WIDTH(32'd5) ) _1_ ( .AD(5'hxx), .ALOAD(1'h0), .CLK(clk), .D(_0_), .Q(z) ); (* src = "/tmp/temp_directory_zTwd0l/my_input.v:11.28-11.58" *) \$mux #( .WIDTH(32'd5) ) _2_ ( .A(z), .B(a), .S(enable), .Y(_0_) ); endmodule ``` Yosys is incorrectly infering aldffs due to an incorrect conversion of logical 1 and 0 SigBits. My PR unifies the conversion of Verific::Net objects into SigBits using Yosys' internal representation of special signals like 0,1,x,z. After my PR these signals are correctly converted into DFFs. Signed-off-by: Ethan Mahintorabi <ethanmoon@google.com>
2024-02-05 01:10:25 -06:00
RTLIL::SigBit VerificImporter::netToSigBit(Verific::Net *net) {
if (net && net->IsGnd())
return RTLIL::State::S0;
else if (net && net->IsPwr())
return RTLIL::State::S1;
else if (net && net->IsX())
return RTLIL::State::Sx;
else if (net)
return net_map_at(net);
verific: Fixes incorrect aldff inference in verific importer The following SV module at HEAD imported with verific, ```systemverilog module my_module( input logic [4:0] a, input logic clk, input logic enable, output logic [4:0] z ); reg [4:0] pipeline_register; always @(posedge clk) begin pipeline_register <= enable ? a : pipeline_register; end assign z = pipeline_register; endmodule : my_module ``` results in the following output verilog ```systemverilog /* Generated by 0.36 */ (* top = 1 *) (* hdlname = "my_module" *) (* src = "/tmp/temp_directory_zTwd0l/my_input.v:2.12-2.21" *) module my_module(clk, enable, a, z); wire [4:0] _0_; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:3.25-3.26" *) input [4:0] a; wire [4:0] a; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:4.19-4.22" *) input clk; wire clk; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:5.19-5.25" *) input enable; wire enable; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:6.26-6.27" *) output [4:0] z; wire [4:0] z; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:10.12-12.8" *) \$aldff #( .ALOAD_POLARITY(32'd1), .CLK_POLARITY(32'd1), .WIDTH(32'd5) ) _1_ ( .AD(5'hxx), .ALOAD(1'h0), .CLK(clk), .D(_0_), .Q(z) ); (* src = "/tmp/temp_directory_zTwd0l/my_input.v:11.28-11.58" *) \$mux #( .WIDTH(32'd5) ) _2_ ( .A(z), .B(a), .S(enable), .Y(_0_) ); endmodule ``` Yosys is incorrectly infering aldffs due to an incorrect conversion of logical 1 and 0 SigBits. My PR unifies the conversion of Verific::Net objects into SigBits using Yosys' internal representation of special signals like 0,1,x,z. After my PR these signals are correctly converted into DFFs. Signed-off-by: Ethan Mahintorabi <ethanmoon@google.com>
2024-02-05 01:10:25 -06:00
else
return RTLIL::State::Sz;
}
RTLIL::SigSpec VerificImporter::operatorInput(Instance *inst)
{
RTLIL::SigSpec sig;
verific: Fixes incorrect aldff inference in verific importer The following SV module at HEAD imported with verific, ```systemverilog module my_module( input logic [4:0] a, input logic clk, input logic enable, output logic [4:0] z ); reg [4:0] pipeline_register; always @(posedge clk) begin pipeline_register <= enable ? a : pipeline_register; end assign z = pipeline_register; endmodule : my_module ``` results in the following output verilog ```systemverilog /* Generated by 0.36 */ (* top = 1 *) (* hdlname = "my_module" *) (* src = "/tmp/temp_directory_zTwd0l/my_input.v:2.12-2.21" *) module my_module(clk, enable, a, z); wire [4:0] _0_; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:3.25-3.26" *) input [4:0] a; wire [4:0] a; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:4.19-4.22" *) input clk; wire clk; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:5.19-5.25" *) input enable; wire enable; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:6.26-6.27" *) output [4:0] z; wire [4:0] z; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:10.12-12.8" *) \$aldff #( .ALOAD_POLARITY(32'd1), .CLK_POLARITY(32'd1), .WIDTH(32'd5) ) _1_ ( .AD(5'hxx), .ALOAD(1'h0), .CLK(clk), .D(_0_), .Q(z) ); (* src = "/tmp/temp_directory_zTwd0l/my_input.v:11.28-11.58" *) \$mux #( .WIDTH(32'd5) ) _2_ ( .A(z), .B(a), .S(enable), .Y(_0_) ); endmodule ``` Yosys is incorrectly infering aldffs due to an incorrect conversion of logical 1 and 0 SigBits. My PR unifies the conversion of Verific::Net objects into SigBits using Yosys' internal representation of special signals like 0,1,x,z. After my PR these signals are correctly converted into DFFs. Signed-off-by: Ethan Mahintorabi <ethanmoon@google.com>
2024-02-05 01:10:25 -06:00
for (int i = int(inst->InputSize())-1; i >= 0; i--) {
Net *net = inst->GetInputBit(i);
sig.append(netToSigBit(net));
}
return sig;
}
RTLIL::SigSpec VerificImporter::operatorInput1(Instance *inst)
{
RTLIL::SigSpec sig;
verific: Fixes incorrect aldff inference in verific importer The following SV module at HEAD imported with verific, ```systemverilog module my_module( input logic [4:0] a, input logic clk, input logic enable, output logic [4:0] z ); reg [4:0] pipeline_register; always @(posedge clk) begin pipeline_register <= enable ? a : pipeline_register; end assign z = pipeline_register; endmodule : my_module ``` results in the following output verilog ```systemverilog /* Generated by 0.36 */ (* top = 1 *) (* hdlname = "my_module" *) (* src = "/tmp/temp_directory_zTwd0l/my_input.v:2.12-2.21" *) module my_module(clk, enable, a, z); wire [4:0] _0_; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:3.25-3.26" *) input [4:0] a; wire [4:0] a; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:4.19-4.22" *) input clk; wire clk; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:5.19-5.25" *) input enable; wire enable; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:6.26-6.27" *) output [4:0] z; wire [4:0] z; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:10.12-12.8" *) \$aldff #( .ALOAD_POLARITY(32'd1), .CLK_POLARITY(32'd1), .WIDTH(32'd5) ) _1_ ( .AD(5'hxx), .ALOAD(1'h0), .CLK(clk), .D(_0_), .Q(z) ); (* src = "/tmp/temp_directory_zTwd0l/my_input.v:11.28-11.58" *) \$mux #( .WIDTH(32'd5) ) _2_ ( .A(z), .B(a), .S(enable), .Y(_0_) ); endmodule ``` Yosys is incorrectly infering aldffs due to an incorrect conversion of logical 1 and 0 SigBits. My PR unifies the conversion of Verific::Net objects into SigBits using Yosys' internal representation of special signals like 0,1,x,z. After my PR these signals are correctly converted into DFFs. Signed-off-by: Ethan Mahintorabi <ethanmoon@google.com>
2024-02-05 01:10:25 -06:00
for (int i = int(inst->Input1Size())-1; i >= 0; i--) {
Net *net = inst->GetInput1Bit(i);
sig.append(netToSigBit(net));
}
return sig;
}
RTLIL::SigSpec VerificImporter::operatorInput2(Instance *inst)
{
RTLIL::SigSpec sig;
verific: Fixes incorrect aldff inference in verific importer The following SV module at HEAD imported with verific, ```systemverilog module my_module( input logic [4:0] a, input logic clk, input logic enable, output logic [4:0] z ); reg [4:0] pipeline_register; always @(posedge clk) begin pipeline_register <= enable ? a : pipeline_register; end assign z = pipeline_register; endmodule : my_module ``` results in the following output verilog ```systemverilog /* Generated by 0.36 */ (* top = 1 *) (* hdlname = "my_module" *) (* src = "/tmp/temp_directory_zTwd0l/my_input.v:2.12-2.21" *) module my_module(clk, enable, a, z); wire [4:0] _0_; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:3.25-3.26" *) input [4:0] a; wire [4:0] a; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:4.19-4.22" *) input clk; wire clk; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:5.19-5.25" *) input enable; wire enable; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:6.26-6.27" *) output [4:0] z; wire [4:0] z; (* src = "/tmp/temp_directory_zTwd0l/my_input.v:10.12-12.8" *) \$aldff #( .ALOAD_POLARITY(32'd1), .CLK_POLARITY(32'd1), .WIDTH(32'd5) ) _1_ ( .AD(5'hxx), .ALOAD(1'h0), .CLK(clk), .D(_0_), .Q(z) ); (* src = "/tmp/temp_directory_zTwd0l/my_input.v:11.28-11.58" *) \$mux #( .WIDTH(32'd5) ) _2_ ( .A(z), .B(a), .S(enable), .Y(_0_) ); endmodule ``` Yosys is incorrectly infering aldffs due to an incorrect conversion of logical 1 and 0 SigBits. My PR unifies the conversion of Verific::Net objects into SigBits using Yosys' internal representation of special signals like 0,1,x,z. After my PR these signals are correctly converted into DFFs. Signed-off-by: Ethan Mahintorabi <ethanmoon@google.com>
2024-02-05 01:10:25 -06:00
for (int i = int(inst->Input2Size())-1; i >= 0; i--) {
Net *net = inst->GetInput2Bit(i);
sig.append(netToSigBit(net));
}
return sig;
}
RTLIL::SigSpec VerificImporter::operatorInport(Instance *inst, const char *portname)
{
PortBus *portbus = inst->View()->GetPortBus(portname);
if (portbus) {
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RTLIL::SigSpec sig;
for (unsigned i = 0; i < portbus->Size(); i++) {
Net *net = inst->GetNet(portbus->ElementAtIndex(i));
if (net) {
if (net->IsConstant()) {
if (net->IsGnd())
sig.append(RTLIL::State::S0);
else if (net->IsPwr())
sig.append(RTLIL::State::S1);
else if (net->IsX())
sig.append(RTLIL::State::Sx);
else
sig.append(RTLIL::State::Sz);
}
else
sig.append(net_map_at(net));
} else
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sig.append(RTLIL::State::Sz);
}
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return sig;
} else {
Port *port = inst->View()->GetPort(portname);
log_assert(port != NULL);
Net *net = inst->GetNet(port);
return net_map_at(net);
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}
}
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RTLIL::SigSpec VerificImporter::operatorInportCase(Instance *inst, const char *portname)
{
PortBus *portbus = inst->View()->GetPortBus(portname);
if (portbus) {
RTLIL::SigSpec sig;
for (unsigned i = 0; i < portbus->Size(); i++) {
Net *net = inst->GetNet(portbus->ElementAtIndex(i));
if (net) {
if (net->IsConstant()) {
if (net->IsGnd())
sig.append(RTLIL::State::S0);
else if (net->IsPwr())
sig.append(RTLIL::State::S1);
else
sig.append(RTLIL::State::Sa);
}
else
sig.append(net_map_at(net));
} else
sig.append(RTLIL::State::Sa);
}
return sig;
} else {
Port *port = inst->View()->GetPort(portname);
log_assert(port != NULL);
Net *net = inst->GetNet(port);
return net_map_at(net);
}
}
RTLIL::SigSpec VerificImporter::operatorOutput(Instance *inst, const pool<Net*, hash_ptr_ops> *any_all_nets)
{
RTLIL::SigSpec sig;
RTLIL::Wire *dummy_wire = NULL;
for (int i = int(inst->OutputSize())-1; i >= 0; i--)
if (inst->GetOutputBit(i) && (!any_all_nets || !any_all_nets->count(inst->GetOutputBit(i)))) {
sig.append(net_map_at(inst->GetOutputBit(i)));
dummy_wire = NULL;
} else {
if (dummy_wire == NULL)
dummy_wire = module->addWire(new_verific_id(inst));
else
dummy_wire->width++;
sig.append(RTLIL::SigSpec(dummy_wire, dummy_wire->width - 1));
}
return sig;
}
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bool VerificImporter::import_netlist_instance_gates(Instance *inst, RTLIL::IdString inst_name)
{
if (inst->Type() == PRIM_AND) {
module->addAndGate(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
return true;
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}
if (inst->Type() == PRIM_NAND) {
RTLIL::SigSpec tmp = module->addWire(new_verific_id(inst));
module->addAndGate(new_verific_id(inst), net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), tmp);
module->addNotGate(inst_name, tmp, net_map_at(inst->GetOutput()));
return true;
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}
if (inst->Type() == PRIM_OR) {
module->addOrGate(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
return true;
}
if (inst->Type() == PRIM_NOR) {
RTLIL::SigSpec tmp = module->addWire(new_verific_id(inst));
module->addOrGate(new_verific_id(inst), net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), tmp);
module->addNotGate(inst_name, tmp, net_map_at(inst->GetOutput()));
return true;
}
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if (inst->Type() == PRIM_XOR) {
module->addXorGate(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
return true;
}
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if (inst->Type() == PRIM_XNOR) {
module->addXnorGate(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
return true;
}
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if (inst->Type() == PRIM_BUF) {
auto outnet = inst->GetOutput();
if (!any_all_nets.count(outnet))
module->addBufGate(inst_name, net_map_at(inst->GetInput()), net_map_at(outnet));
return true;
}
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if (inst->Type() == PRIM_INV) {
module->addNotGate(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
return true;
}
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if (inst->Type() == PRIM_MUX) {
module->addMuxGate(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetControl()), net_map_at(inst->GetOutput()));
return true;
}
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if ((inst->Type() == PRIM_TRI) || (inst->Type() == PRIM_BUFIF1)) {
module->addMuxGate(inst_name, RTLIL::State::Sz, net_map_at(inst->GetInput()), net_map_at(inst->GetControl()), net_map_at(inst->GetOutput()));
return true;
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}
if (inst->Type() == PRIM_FADD)
{
RTLIL::SigSpec a = net_map_at(inst->GetInput1()), b = net_map_at(inst->GetInput2()), c = net_map_at(inst->GetCin());
RTLIL::SigSpec x = inst->GetCout() ? net_map_at(inst->GetCout()) : module->addWire(new_verific_id(inst));
RTLIL::SigSpec y = inst->GetOutput() ? net_map_at(inst->GetOutput()) : module->addWire(new_verific_id(inst));
RTLIL::SigSpec tmp1 = module->addWire(new_verific_id(inst));
RTLIL::SigSpec tmp2 = module->addWire(new_verific_id(inst));
RTLIL::SigSpec tmp3 = module->addWire(new_verific_id(inst));
module->addXorGate(new_verific_id(inst), a, b, tmp1);
module->addXorGate(inst_name, tmp1, c, y);
module->addAndGate(new_verific_id(inst), tmp1, c, tmp2);
module->addAndGate(new_verific_id(inst), a, b, tmp3);
module->addOrGate(new_verific_id(inst), tmp2, tmp3, x);
return true;
}
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if (inst->Type() == PRIM_DFFRS)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
if (inst->GetSet()->IsGnd() && inst->GetReset()->IsGnd())
clocking.addDff(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else if (inst->GetSet()->IsGnd())
clocking.addAdff(inst_name, net_map_at(inst->GetReset()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()), State::S0);
else if (inst->GetReset()->IsGnd())
clocking.addAdff(inst_name, net_map_at(inst->GetSet()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()), State::S1);
else
clocking.addDffsr(inst_name, net_map_at(inst->GetSet()), net_map_at(inst->GetReset()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
return true;
}
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if (inst->Type() == PRIM_DLATCHRS)
{
if (inst->GetSet()->IsGnd() && inst->GetReset()->IsGnd())
module->addDlatch(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else
module->addDlatchsr(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetSet()), net_map_at(inst->GetReset()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
return true;
}
if (inst->Type() == PRIM_DFF)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
if (inst->GetAsyncCond()->IsGnd())
clocking.addDff(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else
clocking.addAldff(inst_name, net_map_at(inst->GetAsyncCond()), net_map_at(inst->GetAsyncVal()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
return true;
}
if (inst->Type() == PRIM_DLATCH)
{
if (inst->GetAsyncCond()->IsGnd()) {
module->addDlatch(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
} else {
RTLIL::SigSpec sig_set = module->And(NEW_ID, net_map_at(inst->GetAsyncCond()), net_map_at(inst->GetAsyncVal()));
RTLIL::SigSpec sig_clr = module->And(NEW_ID, net_map_at(inst->GetAsyncCond()), module->Not(NEW_ID, net_map_at(inst->GetAsyncVal())));
module->addDlatchsr(inst_name, net_map_at(inst->GetControl()), sig_set, sig_clr, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
}
return true;
}
return false;
}
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bool VerificImporter::import_netlist_instance_cells(Instance *inst, RTLIL::IdString inst_name)
{
RTLIL::Cell *cell = nullptr;
if (inst->Type() == PRIM_AND) {
cell = module->addAnd(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_NAND) {
RTLIL::SigSpec tmp = module->addWire(new_verific_id(inst));
cell = module->addAnd(new_verific_id(inst), net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), tmp);
import_attributes(cell->attributes, inst);
cell = module->addNot(inst_name, tmp, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_OR) {
cell = module->addOr(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_NOR) {
RTLIL::SigSpec tmp = module->addWire(new_verific_id(inst));
cell = module->addOr(new_verific_id(inst), net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), tmp);
import_attributes(cell->attributes, inst);
cell = module->addNot(inst_name, tmp, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_XOR) {
cell = module->addXor(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_XNOR) {
cell = module->addXnor(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_INV) {
cell = module->addNot(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_MUX) {
cell = module->addMux(inst_name, net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), net_map_at(inst->GetControl()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if ((inst->Type() == PRIM_TRI) || (inst->Type() == PRIM_BUFIF1)) {
cell = module->addMux(inst_name, RTLIL::State::Sz, net_map_at(inst->GetInput()), net_map_at(inst->GetControl()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_FADD)
{
RTLIL::SigSpec a_plus_b = module->addWire(new_verific_id(inst), 2);
RTLIL::SigSpec y = inst->GetOutput() ? net_map_at(inst->GetOutput()) : module->addWire(new_verific_id(inst));
if (inst->GetCout())
y.append(net_map_at(inst->GetCout()));
cell = module->addAdd(new_verific_id(inst), net_map_at(inst->GetInput1()), net_map_at(inst->GetInput2()), a_plus_b);
import_attributes(cell->attributes, inst);
cell = module->addAdd(inst_name, a_plus_b, net_map_at(inst->GetCin()), y);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == PRIM_DFFRS)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
if (inst->GetSet()->IsGnd() && inst->GetReset()->IsGnd())
cell = clocking.addDff(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else if (inst->GetSet()->IsGnd())
cell = clocking.addAdff(inst_name, net_map_at(inst->GetReset()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()), RTLIL::State::S0);
else if (inst->GetReset()->IsGnd())
cell = clocking.addAdff(inst_name, net_map_at(inst->GetSet()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()), RTLIL::State::S1);
else
cell = clocking.addDffsr(inst_name, net_map_at(inst->GetSet()), net_map_at(inst->GetReset()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == PRIM_DLATCHRS)
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{
if (inst->GetSet()->IsGnd() && inst->GetReset()->IsGnd())
cell = module->addDlatch(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else
cell = module->addDlatchsr(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetSet()), net_map_at(inst->GetReset()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == PRIM_DFF)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
if (inst->GetAsyncCond()->IsGnd())
cell = clocking.addDff(inst_name, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
else
cell = clocking.addAldff(inst_name, net_map_at(inst->GetAsyncCond()), net_map_at(inst->GetAsyncVal()),
net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == PRIM_DLATCH)
{
if (inst->GetAsyncCond()->IsGnd()) {
cell = module->addDlatch(inst_name, net_map_at(inst->GetControl()), net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
} else {
RTLIL::SigSpec sig_set = module->And(NEW_ID, net_map_at(inst->GetAsyncCond()), net_map_at(inst->GetAsyncVal()));
RTLIL::SigSpec sig_clr = module->And(NEW_ID, net_map_at(inst->GetAsyncCond()), module->Not(NEW_ID, net_map_at(inst->GetAsyncVal())));
cell = module->addDlatchsr(inst_name, net_map_at(inst->GetControl()), sig_set, sig_clr, net_map_at(inst->GetInput()), net_map_at(inst->GetOutput()));
}
import_attributes(cell->attributes, inst);
return true;
}
#define IN operatorInput(inst)
#define IN1 operatorInput1(inst)
#define IN2 operatorInput2(inst)
#define OUT operatorOutput(inst)
#define FILTERED_OUT operatorOutput(inst, &any_all_nets)
#define SIGNED inst->View()->IsSigned()
if (inst->Type() == OPER_ADDER) {
RTLIL::SigSpec out = OUT;
if (inst->GetCout() != NULL)
out.append(net_map_at(inst->GetCout()));
if (inst->GetCin()->IsGnd()) {
cell = module->addAdd(inst_name, IN1, IN2, out, SIGNED);
import_attributes(cell->attributes, inst);
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} else {
RTLIL::SigSpec tmp = module->addWire(new_verific_id(inst), GetSize(out));
cell = module->addAdd(new_verific_id(inst), IN1, IN2, tmp, SIGNED);
import_attributes(cell->attributes, inst);
cell = module->addAdd(inst_name, tmp, net_map_at(inst->GetCin()), out, false);
import_attributes(cell->attributes, inst);
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}
return true;
}
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if (inst->Type() == OPER_MULTIPLIER) {
cell = module->addMul(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_DIVIDER) {
cell = module->addDiv(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_MODULO) {
cell = module->addMod(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_REMAINDER) {
cell = module->addMod(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_SHIFT_LEFT) {
cell = module->addShl(inst_name, IN1, IN2, OUT, false);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_ENABLED_DECODER) {
RTLIL::SigSpec vec;
vec.append(net_map_at(inst->GetControl()));
for (unsigned i = 1; i < inst->OutputSize(); i++) {
vec.append(RTLIL::State::S0);
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}
cell = module->addShl(inst_name, vec, IN, OUT, false);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_DECODER) {
RTLIL::SigSpec vec;
vec.append(RTLIL::State::S1);
for (unsigned i = 1; i < inst->OutputSize(); i++) {
vec.append(RTLIL::State::S0);
}
cell = module->addShl(inst_name, vec, IN, OUT, false);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_SHIFT_RIGHT) {
Net *net_cin = inst->GetCin();
Net *net_a_msb = inst->GetInput1Bit(0);
if (net_cin->IsGnd())
cell = module->addShr(inst_name, IN1, IN2, OUT, false);
else if (net_cin == net_a_msb)
cell = module->addSshr(inst_name, IN1, IN2, OUT, true);
else
log_error("Can't import Verific OPER_SHIFT_RIGHT instance %s: carry_in is neither 0 nor msb of left input\n", inst->Name());
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_AND) {
cell = module->addReduceAnd(inst_name, IN, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_NAND) {
Wire *tmp = module->addWire(NEW_ID);
cell = module->addReduceAnd(inst_name, IN, tmp, SIGNED);
module->addNot(NEW_ID, tmp, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_OR) {
cell = module->addReduceOr(inst_name, IN, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_XOR) {
cell = module->addReduceXor(inst_name, IN, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_XNOR) {
cell = module->addReduceXnor(inst_name, IN, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_REDUCE_NOR) {
SigSpec t = module->ReduceOr(new_verific_id(inst), IN, SIGNED);
cell = module->addNot(inst_name, t, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_LESSTHAN) {
Net *net_cin = inst->GetCin();
if (net_cin->IsGnd())
cell = module->addLt(inst_name, IN1, IN2, net_map_at(inst->GetOutput()), SIGNED);
else if (net_cin->IsPwr())
cell = module->addLe(inst_name, IN1, IN2, net_map_at(inst->GetOutput()), SIGNED);
else
log_error("Can't import Verific OPER_LESSTHAN instance %s: carry_in is neither 0 nor 1\n", inst->Name());
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_AND) {
cell = module->addAnd(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_OR) {
cell = module->addOr(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_XOR) {
cell = module->addXor(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_WIDE_XNOR) {
cell = module->addXnor(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_BUF) {
cell = module->addPos(inst_name, IN, FILTERED_OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_WIDE_INV) {
cell = module->addNot(inst_name, IN, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_MINUS) {
cell = module->addSub(inst_name, IN1, IN2, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_UMINUS) {
cell = module->addNeg(inst_name, IN, OUT, SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
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if (inst->Type() == OPER_EQUAL) {
cell = module->addEq(inst_name, IN1, IN2, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_NEQUAL) {
cell = module->addNe(inst_name, IN1, IN2, net_map_at(inst->GetOutput()), SIGNED);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_MUX) {
cell = module->addMux(inst_name, IN1, IN2, net_map_at(inst->GetControl()), OUT);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_NTO1MUX) {
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cell = module->addBmux(inst_name, IN2, IN1, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_NTO1MUX)
{
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cell = module->addBmux(inst_name, IN2, IN1, OUT);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_SELECTOR)
{
cell = module->addPmux(inst_name, State::S0, IN2, IN1, net_map_at(inst->GetOutput()));
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_SELECTOR)
{
SigSpec out = OUT;
cell = module->addPmux(inst_name, SigSpec(State::S0, GetSize(out)), IN2, IN1, out);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_TRI) {
cell = module->addMux(inst_name, RTLIL::SigSpec(RTLIL::State::Sz, inst->OutputSize()), IN, net_map_at(inst->GetControl()), OUT);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_DFFRS)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
RTLIL::SigSpec sig_set = operatorInport(inst, "set");
RTLIL::SigSpec sig_reset = operatorInport(inst, "reset");
if (sig_set.is_fully_const() && !sig_set.as_bool() && sig_reset.is_fully_const() && !sig_reset.as_bool())
cell = clocking.addDff(inst_name, IN, OUT);
else
cell = clocking.addDffsr(inst_name, sig_set, sig_reset, IN, OUT);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_DLATCHRS)
{
RTLIL::SigSpec sig_set = operatorInport(inst, "set");
RTLIL::SigSpec sig_reset = operatorInport(inst, "reset");
if (sig_set.is_fully_const() && !sig_set.as_bool() && sig_reset.is_fully_const() && !sig_reset.as_bool())
cell = module->addDlatch(inst_name, net_map_at(inst->GetControl()), IN, OUT);
else
cell = module->addDlatchsr(inst_name, net_map_at(inst->GetControl()), sig_set, sig_reset, IN, OUT);
import_attributes(cell->attributes, inst);
return true;
}
if (inst->Type() == OPER_WIDE_DFF)
{
VerificClocking clocking(this, inst->GetClock());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
RTLIL::SigSpec sig_d = IN;
RTLIL::SigSpec sig_q = OUT;
RTLIL::SigSpec sig_adata = IN1;
RTLIL::SigSpec sig_acond = IN2;
if (sig_acond.is_fully_const() && !sig_acond.as_bool()) {
cell = clocking.addDff(inst_name, sig_d, sig_q);
import_attributes(cell->attributes, inst);
} else {
int offset = 0, width = 0;
for (offset = 0; offset < GetSize(sig_acond); offset += width) {
for (width = 1; offset+width < GetSize(sig_acond); width++)
if (sig_acond[offset] != sig_acond[offset+width]) break;
cell = clocking.addAldff(module->uniquify(inst_name), sig_acond[offset], sig_adata.extract(offset, width),
sig_d.extract(offset, width), sig_q.extract(offset, width));
import_attributes(cell->attributes, inst);
}
}
return true;
}
if (inst->Type() == OPER_WIDE_DLATCH)
{
RTLIL::SigSpec sig_d = IN;
RTLIL::SigSpec sig_q = OUT;
RTLIL::SigSpec sig_adata = IN1;
RTLIL::SigSpec sig_acond = IN2;
if (sig_acond.is_fully_const() && !sig_acond.as_bool()) {
cell = module->addDlatch(inst_name, net_map_at(inst->GetControl()), sig_d, sig_q);
import_attributes(cell->attributes, inst);
} else {
int offset = 0, width = 0;
for (offset = 0; offset < GetSize(sig_acond); offset += width) {
for (width = 1; offset+width < GetSize(sig_acond); width++)
if (sig_acond[offset] != sig_acond[offset+width]) break;
RTLIL::SigSpec sig_set = module->Mux(NEW_ID, RTLIL::SigSpec(0, width), sig_adata.extract(offset, width), sig_acond[offset]);
RTLIL::SigSpec sig_clr = module->Mux(NEW_ID, RTLIL::SigSpec(0, width), module->Not(NEW_ID, sig_adata.extract(offset, width)), sig_acond[offset]);
cell = module->addDlatchsr(module->uniquify(inst_name), net_map_at(inst->GetControl()), sig_set, sig_clr,
sig_d.extract(offset, width), sig_q.extract(offset, width));
import_attributes(cell->attributes, inst);
}
}
return true;
}
if (inst->Type() == OPER_WIDE_CASE_SELECT_BOX)
{
RTLIL::SigSpec sig_out_val = operatorInport(inst, "out_value");
RTLIL::SigSpec sig_select = operatorInport(inst, "select");
RTLIL::SigSpec sig_select_values = operatorInportCase(inst, "select_values");
RTLIL::SigSpec sig_data_values = operatorInport(inst, "data_values");
RTLIL::SigSpec sig_data_default = operatorInport(inst, "default_value");
RTLIL::Process *proc = module->addProcess(new_verific_id(inst));
import_attributes(proc->attributes, inst);
RTLIL::CaseRule *current_case = &proc->root_case;
current_case = &proc->root_case;
RTLIL::SwitchRule *sw = new RTLIL::SwitchRule;
sw->signal = sig_select;
current_case->switches.push_back(sw);
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unsigned select_width = inst->InputSize();
unsigned data_width = inst->OutputSize();
unsigned offset_data = 0;
unsigned offset_select = 0;
OperWideCaseSelector* selector = (OperWideCaseSelector*) inst->View();
for (unsigned i = 0 ; i < selector->GetNumBranches() ; ++i) {
SigSig action(sig_out_val, sig_data_values.extract(offset_data, data_width));
offset_data += data_width;
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for (unsigned j = 0 ; j < selector->GetNumConditions(i) ; ++j) {
Array left_bound, right_bound ;
selector->GetCondition(i, j, &left_bound, &right_bound);
SigSpec sel_left = sig_select_values.extract(offset_select, select_width);
offset_select += select_width;
if (right_bound.Size()) {
SigSpec sel_right = sig_select_values.extract(offset_select, select_width);
offset_select += select_width;
log_assert(sel_right.is_fully_const() && sel_right.is_fully_def());
log_assert(sel_left.is_fully_const() && sel_right.is_fully_def());
int32_t left = sel_left.as_int();
int32_t right = sel_right.as_int();
int width = sel_left.size();
for (int32_t i = right; i<left; i++) {
RTLIL::CaseRule *cs = new RTLIL::CaseRule;
cs->compare.push_back(RTLIL::Const(i,width));
cs->actions.push_back(action);
sw->cases.push_back(cs);
}
}
RTLIL::CaseRule *cs = new RTLIL::CaseRule;
cs->compare.push_back(sel_left);
cs->actions.push_back(action);
sw->cases.push_back(cs);
}
}
RTLIL::CaseRule *cs_default = new RTLIL::CaseRule;
cs_default->actions.push_back(SigSig(sig_out_val, sig_data_default));
sw->cases.push_back(cs_default);
return true;
}
#ifdef YOSYSHQ_VERIFIC_API_VERSION
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if (inst->Type() == OPER_YOSYSHQ_SET_TAG)
{
RTLIL::SigSpec sig_expr = operatorInport(inst, "expr");
RTLIL::SigSpec sig_set_mask = operatorInport(inst, "set_mask");
RTLIL::SigSpec sig_clr_mask = operatorInport(inst, "clr_mask");
RTLIL::SigSpec sig_o = operatorOutput(inst);
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std::string tag = inst->GetAtt("tag") ? verific_unescape(inst->GetAttValue("tag")) : "";
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module->connect(sig_o, module->SetTag(new_verific_id(inst), tag, sig_expr, sig_set_mask, sig_clr_mask));
return true;
}
if (inst->Type() == OPER_YOSYSHQ_GET_TAG)
{
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std::string tag = inst->GetAtt("tag") ? verific_unescape(inst->GetAttValue("tag")) : "";
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module->connect(operatorOutput(inst),module->GetTag(new_verific_id(inst), tag, operatorInput(inst)));
return true;
}
if (inst->Type() == OPER_YOSYSHQ_OVERWRITE_TAG)
{
RTLIL::SigSpec sig_signal = operatorInport(inst, "signal");
RTLIL::SigSpec sig_set_mask = operatorInport(inst, "set_mask");
RTLIL::SigSpec sig_clr_mask = operatorInport(inst, "clr_mask");
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std::string tag = inst->GetAtt("tag") ? verific_unescape(inst->GetAttValue("tag")) : "";
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module->addOverwriteTag(new_verific_id(inst), tag, sig_signal, sig_set_mask, sig_clr_mask);
return true;
}
if (inst->Type() == OPER_YOSYSHQ_ORIGINAL_TAG)
{
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std::string tag = inst->GetAtt("tag") ? verific_unescape(inst->GetAttValue("tag")) : "";
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module->connect(operatorOutput(inst),module->OriginalTag(new_verific_id(inst), tag, operatorInput(inst)));
return true;
}
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if (inst->Type() == OPER_YOSYSHQ_FUTURE_FF)
{
module->connect(operatorOutput(inst),module->FutureFF(new_verific_id(inst), operatorInput(inst)));
return true;
}
#endif
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#undef IN
#undef IN1
#undef IN2
#undef OUT
#undef SIGNED
return false;
}
void VerificImporter::merge_past_ffs_clock(pool<RTLIL::Cell*> &candidates, SigBit clock, bool clock_pol)
{
bool keep_running = true;
SigMap sigmap;
while (keep_running)
{
keep_running = false;
dict<SigBit, pool<RTLIL::Cell*>> dbits_db;
SigSpec dbits;
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for (auto cell : candidates) {
SigBit bit = sigmap(cell->getPort(ID::D));
dbits_db[bit].insert(cell);
dbits.append(bit);
}
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dbits.sort_and_unify();
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for (auto chunk : dbits.chunks())
{
SigSpec sig_d = chunk;
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if (chunk.wire == nullptr || GetSize(sig_d) == 1)
continue;
SigSpec sig_q = module->addWire(NEW_ID, GetSize(sig_d));
RTLIL::Cell *new_ff = module->addDff(NEW_ID, clock, sig_d, sig_q, clock_pol);
if (verific_verbose)
log(" merging single-bit past_ffs into new %d-bit ff %s.\n", GetSize(sig_d), log_id(new_ff));
for (int i = 0; i < GetSize(sig_d); i++)
for (auto old_ff : dbits_db[sig_d[i]])
{
if (verific_verbose)
log(" replacing old ff %s on bit %d.\n", log_id(old_ff), i);
SigBit old_q = old_ff->getPort(ID::Q);
SigBit new_q = sig_q[i];
sigmap.add(old_q, new_q);
module->connect(old_q, new_q);
candidates.erase(old_ff);
module->remove(old_ff);
keep_running = true;
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}
}
}
}
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void VerificImporter::merge_past_ffs(pool<RTLIL::Cell*> &candidates)
{
dict<pair<SigBit, int>, pool<RTLIL::Cell*>> database;
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for (auto cell : candidates)
{
if (cell->type != ID($dff)) continue;
SigBit clock = cell->getPort(ID::CLK);
bool clock_pol = cell->getParam(ID::CLK_POLARITY).as_bool();
database[make_pair(clock, int(clock_pol))].insert(cell);
}
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for (auto it : database)
merge_past_ffs_clock(it.second, it.first.first, it.first.second);
}
static std::string sha1_if_contain_spaces(std::string str)
{
if(str.find_first_of(' ') != std::string::npos) {
std::size_t open = str.find_first_of('(');
std::size_t closed = str.find_last_of(')');
if (open != std::string::npos && closed != std::string::npos) {
std::string content = str.substr(open + 1, closed - open - 1);
return str.substr(0, open + 1) + sha1(content) + str.substr(closed);
} else {
return sha1(str);
}
}
return str;
}
void VerificImporter::import_netlist(RTLIL::Design *design, Netlist *nl, std::map<std::string,Netlist*> &nl_todo, bool norename)
{
std::string netlist_name = nl->GetAtt(" \\top") || is_blackbox(nl) ? nl->CellBaseName() : nl->Owner()->Name();
std::string module_name = netlist_name;
if (nl->IsOperator() || nl->IsPrimitive()) {
module_name = "$verific$" + module_name;
} else {
if (!norename && *nl->Name() && !is_blackbox(nl)) {
module_name += "(";
module_name += nl->Name();
module_name += ")";
}
module_name = "\\" + sha1_if_contain_spaces(module_name);
}
netlist = nl;
if (design->has(module_name)) {
if (!nl->IsOperator() && !is_blackbox(nl))
log_cmd_error("Re-definition of module `%s'.\n", netlist_name.c_str());
return;
}
module = new RTLIL::Module;
module->name = module_name;
design->add(module);
if (is_blackbox(nl)) {
log("Importing blackbox module %s.\n", RTLIL::id2cstr(module->name));
module->set_bool_attribute(ID::blackbox);
} else {
log("Importing module %s.\n", RTLIL::id2cstr(module->name));
}
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import_attributes(module->attributes, nl, nl);
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module->set_string_attribute(ID::hdlname, nl->CellBaseName());
module->set_string_attribute(ID(library), nl->Owner()->Owner()->Name());
#ifdef VERIFIC_VHDL_SUPPORT
if (nl->IsFromVhdl()) {
NameSpace name_space(0);
char *architecture_name = name_space.ReName(nl->Name()) ;
module->set_string_attribute(ID(architecture), (architecture_name) ? architecture_name : nl->Name());
}
#endif
const char *param_name ;
const char *param_value ;
MapIter mi;
FOREACH_PARAMETER_OF_NETLIST(nl, mi, param_name, param_value) {
module->avail_parameters(RTLIL::escape_id(param_name));
const TypeRange *tr = nl->GetTypeRange(param_name) ;
module->parameter_default_values[RTLIL::escape_id(param_name)] = verific_const(tr->GetTypeName(), param_value, nl);
}
SetIter si;
MapIter mi2;
Port *port;
PortBus *portbus;
Net *net;
NetBus *netbus;
Instance *inst;
PortRef *pr;
Att *attr;
FOREACH_ATTRIBUTE(nl, mi, attr) {
if (!strcmp(attr->Key(), "noblackbox"))
module->set_bool_attribute(ID::blackbox, false);
}
FOREACH_PORT_OF_NETLIST(nl, mi, port)
{
if (port->Bus())
continue;
if (verific_verbose)
log(" importing port %s.\n", port->Name());
RTLIL::Wire *wire = module->addWire(RTLIL::escape_id(port->Name()));
import_attributes(wire->attributes, port, nl);
wire->port_id = nl->IndexOf(port) + 1;
if (port->GetDir() == DIR_INOUT || port->GetDir() == DIR_IN)
wire->port_input = true;
if (port->GetDir() == DIR_INOUT || port->GetDir() == DIR_OUT)
wire->port_output = true;
if (port->GetNet()) {
net = port->GetNet();
if (net_map.count(net) == 0)
net_map[net] = wire;
else if (wire->port_input)
module->connect(net_map_at(net), wire);
else
module->connect(wire, net_map_at(net));
}
}
FOREACH_PORTBUS_OF_NETLIST(nl, mi, portbus)
{
if (verific_verbose)
log(" importing portbus %s.\n", portbus->Name());
RTLIL::Wire *wire = module->addWire(RTLIL::escape_id(portbus->Name()), portbus->Size());
wire->start_offset = min(portbus->LeftIndex(), portbus->RightIndex());
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wire->upto = portbus->IsUp();
import_attributes(wire->attributes, portbus, nl);
SetIter si ;
Port *port ;
FOREACH_PORT_OF_PORTBUS(portbus, si, port) {
import_attributes(wire->attributes, port->GetNet(), nl);
break;
}
bool portbus_input = portbus->GetDir() == DIR_INOUT || portbus->GetDir() == DIR_IN;
if (portbus_input)
wire->port_input = true;
if (portbus->GetDir() == DIR_INOUT || portbus->GetDir() == DIR_OUT)
wire->port_output = true;
for (int i = portbus->LeftIndex();; i += portbus->IsUp() ? +1 : -1) {
if (portbus->ElementAtIndex(i) && portbus->ElementAtIndex(i)->GetNet()) {
bool bit_input = portbus_input;
if (portbus->GetDir() == DIR_NONE) {
Port *p = portbus->ElementAtIndex(i);
bit_input = p->GetDir() == DIR_INOUT || p->GetDir() == DIR_IN;
if (bit_input)
wire->port_input = true;
if (p->GetDir() == DIR_INOUT || p->GetDir() == DIR_OUT)
wire->port_output = true;
}
net = portbus->ElementAtIndex(i)->GetNet();
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int bitidx = wire->upto ? (wire->width - 1 - (i - wire->start_offset)) : (i - wire->start_offset);
RTLIL::SigBit bit(wire, bitidx);
if (net_map.count(net) == 0)
net_map[net] = bit;
else if (bit_input)
module->connect(net_map_at(net), bit);
else
module->connect(bit, net_map_at(net));
}
if (i == portbus->RightIndex())
break;
}
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}
module->fixup_ports();
dict<Net*, char, hash_ptr_ops> init_nets;
pool<Net*, hash_ptr_ops> anyconst_nets, anyseq_nets;
pool<Net*, hash_ptr_ops> allconst_nets, allseq_nets;
any_all_nets.clear();
FOREACH_NET_OF_NETLIST(nl, mi, net)
{
if (net->IsRamNet())
{
RTLIL::Memory *memory = new RTLIL::Memory;
memory->name = RTLIL::escape_id(net->Name());
log_assert(module->count_id(memory->name) == 0);
module->memories[memory->name] = memory;
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import_attributes(memory->attributes, net, nl);
int number_of_bits = net->Size();
int bits_in_word = number_of_bits;
FOREACH_PORTREF_OF_NET(net, si, pr) {
if (pr->GetInst()->Type() == OPER_READ_PORT) {
bits_in_word = min<int>(bits_in_word, pr->GetInst()->OutputSize());
continue;
}
if (pr->GetInst()->Type() == OPER_WRITE_PORT || pr->GetInst()->Type() == OPER_CLOCKED_WRITE_PORT) {
bits_in_word = min<int>(bits_in_word, pr->GetInst()->Input2Size());
continue;
}
log_error("Verific RamNet %s is connected to unsupported instance type %s (%s).\n",
net->Name(), pr->GetInst()->View()->Owner()->Name(), pr->GetInst()->Name());
}
memory->width = bits_in_word;
memory->size = number_of_bits / bits_in_word;
const char *ascii_initdata = net->GetWideInitialValue();
if (ascii_initdata) {
while (*ascii_initdata != 0 && *ascii_initdata != '\'')
ascii_initdata++;
if (*ascii_initdata == '\'')
ascii_initdata++;
if (*ascii_initdata != 0) {
log_assert(*ascii_initdata == 'b');
ascii_initdata++;
}
for (int word_idx = 0; word_idx < memory->size; word_idx++) {
Const initval = Const(State::Sx, memory->width);
bool initval_valid = false;
for (int bit_idx = memory->width-1; bit_idx >= 0; bit_idx--) {
if (*ascii_initdata == 0)
break;
if (*ascii_initdata == '0' || *ascii_initdata == '1') {
initval.bits()[bit_idx] = (*ascii_initdata == '0') ? State::S0 : State::S1;
initval_valid = true;
}
ascii_initdata++;
}
if (initval_valid) {
RTLIL::Cell *cell = module->addCell(new_verific_id(net), ID($meminit));
cell->parameters[ID::WORDS] = 1;
if (net->GetOrigTypeRange()->LeftRangeBound() < net->GetOrigTypeRange()->RightRangeBound())
cell->setPort(ID::ADDR, word_idx);
else
cell->setPort(ID::ADDR, memory->size - word_idx - 1);
cell->setPort(ID::DATA, initval);
cell->parameters[ID::MEMID] = RTLIL::Const(memory->name.str());
cell->parameters[ID::ABITS] = 32;
cell->parameters[ID::WIDTH] = memory->width;
cell->parameters[ID::PRIORITY] = RTLIL::Const(autoidx-1);
}
}
}
continue;
}
if (net->GetInitialValue())
init_nets[net] = net->GetInitialValue();
const char *rand_const_attr = net->GetAttValue(" rand_const");
const char *rand_attr = net->GetAttValue(" rand");
const char *anyconst_attr = net->GetAttValue("anyconst");
const char *anyseq_attr = net->GetAttValue("anyseq");
const char *allconst_attr = net->GetAttValue("allconst");
const char *allseq_attr = net->GetAttValue("allseq");
if (rand_const_attr != nullptr && (!strcmp(rand_const_attr, "1") || !strcmp(rand_const_attr, "'1'"))) {
anyconst_nets.insert(net);
any_all_nets.insert(net);
}
else if (rand_attr != nullptr && (!strcmp(rand_attr, "1") || !strcmp(rand_attr, "'1'"))) {
anyseq_nets.insert(net);
any_all_nets.insert(net);
}
else if (anyconst_attr != nullptr && (!strcmp(anyconst_attr, "1") || !strcmp(anyconst_attr, "'1'"))) {
anyconst_nets.insert(net);
any_all_nets.insert(net);
}
else if (anyseq_attr != nullptr && (!strcmp(anyseq_attr, "1") || !strcmp(anyseq_attr, "'1'"))) {
anyseq_nets.insert(net);
any_all_nets.insert(net);
}
else if (allconst_attr != nullptr && (!strcmp(allconst_attr, "1") || !strcmp(allconst_attr, "'1'"))) {
allconst_nets.insert(net);
any_all_nets.insert(net);
}
else if (allseq_attr != nullptr && (!strcmp(allseq_attr, "1") || !strcmp(allseq_attr, "'1'"))) {
allseq_nets.insert(net);
any_all_nets.insert(net);
}
if (net_map.count(net)) {
if (verific_verbose)
log(" skipping net %s.\n", net->Name());
continue;
}
if (net->Bus())
continue;
RTLIL::IdString wire_name = module->uniquify(mode_names || net->IsUserDeclared() ? RTLIL::escape_id(net->Name()) : new_verific_id(net));
if (verific_verbose)
log(" importing net %s as %s.\n", net->Name(), log_id(wire_name));
RTLIL::Wire *wire = module->addWire(wire_name);
import_attributes(wire->attributes, net, nl);
net_map[net] = wire;
}
FOREACH_NETBUS_OF_NETLIST(nl, mi, netbus)
{
bool found_new_net = false;
for (int i = netbus->LeftIndex();; i += netbus->IsUp() ? +1 : -1) {
net = netbus->ElementAtIndex(i);
if (net_map.count(net) == 0)
found_new_net = true;
if (i == netbus->RightIndex())
break;
}
if (found_new_net)
{
RTLIL::IdString wire_name = module->uniquify(mode_names || netbus->IsUserDeclared() ? RTLIL::escape_id(netbus->Name()) : new_verific_id(netbus));
if (verific_verbose)
log(" importing netbus %s as %s.\n", netbus->Name(), log_id(wire_name));
RTLIL::Wire *wire = module->addWire(wire_name, netbus->Size());
wire->start_offset = min(netbus->LeftIndex(), netbus->RightIndex());
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wire->upto = netbus->IsUp();
MapIter mibus;
FOREACH_NET_OF_NETBUS(netbus, mibus, net) {
2020-06-26 13:11:01 -05:00
if (net)
import_attributes(wire->attributes, net, nl);
break;
}
import_attributes(wire->attributes, netbus, nl);
RTLIL::Const initval = Const(State::Sx, GetSize(wire));
bool initval_valid = false;
for (int i = netbus->LeftIndex();; i += netbus->IsUp() ? +1 : -1)
{
if (netbus->ElementAtIndex(i))
{
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int bitidx = wire->upto ? (wire->width - 1 - (i - wire->start_offset)) : (i - wire->start_offset);
net = netbus->ElementAtIndex(i);
RTLIL::SigBit bit(wire, bitidx);
if (init_nets.count(net)) {
if (init_nets.at(net) == '0')
initval.bits().at(bitidx) = State::S0;
if (init_nets.at(net) == '1')
initval.bits().at(bitidx) = State::S1;
initval_valid = true;
init_nets.erase(net);
}
if (net_map.count(net) == 0)
net_map[net] = bit;
else
module->connect(bit, net_map_at(net));
}
if (i == netbus->RightIndex())
break;
}
if (initval_valid)
wire->attributes[ID::init] = initval;
}
else
{
if (verific_verbose)
log(" skipping netbus %s.\n", netbus->Name());
}
SigSpec anyconst_sig;
SigSpec anyseq_sig;
SigSpec allconst_sig;
SigSpec allseq_sig;
for (int i = netbus->RightIndex();; i += netbus->IsUp() ? -1 : +1) {
net = netbus->ElementAtIndex(i);
if (net != nullptr && anyconst_nets.count(net)) {
anyconst_sig.append(net_map_at(net));
anyconst_nets.erase(net);
}
if (net != nullptr && anyseq_nets.count(net)) {
anyseq_sig.append(net_map_at(net));
anyseq_nets.erase(net);
}
if (net != nullptr && allconst_nets.count(net)) {
allconst_sig.append(net_map_at(net));
allconst_nets.erase(net);
}
if (net != nullptr && allseq_nets.count(net)) {
allseq_sig.append(net_map_at(net));
allseq_nets.erase(net);
}
if (i == netbus->LeftIndex())
break;
}
if (GetSize(anyconst_sig))
module->connect(anyconst_sig, module->Anyconst(new_verific_id(netbus), GetSize(anyconst_sig)));
if (GetSize(anyseq_sig))
module->connect(anyseq_sig, module->Anyseq(new_verific_id(netbus), GetSize(anyseq_sig)));
if (GetSize(allconst_sig))
module->connect(allconst_sig, module->Allconst(new_verific_id(netbus), GetSize(allconst_sig)));
if (GetSize(allseq_sig))
module->connect(allseq_sig, module->Allseq(new_verific_id(netbus), GetSize(allseq_sig)));
}
for (auto it : init_nets)
{
Const initval;
SigBit bit = net_map_at(it.first);
log_assert(bit.wire);
if (bit.wire->attributes.count(ID::init))
initval = bit.wire->attributes.at(ID::init);
while (GetSize(initval) < GetSize(bit.wire))
initval.bits().push_back(State::Sx);
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if (it.second == '0')
initval.bits().at(bit.offset) = State::S0;
if (it.second == '1')
initval.bits().at(bit.offset) = State::S1;
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bit.wire->attributes[ID::init] = initval;
}
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for (auto net : anyconst_nets)
module->connect(net_map_at(net), module->Anyconst(new_verific_id(net)));
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for (auto net : anyseq_nets)
module->connect(net_map_at(net), module->Anyseq(new_verific_id(net)));
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2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
pool<Instance*, hash_ptr_ops> sva_asserts;
pool<Instance*, hash_ptr_ops> sva_assumes;
pool<Instance*, hash_ptr_ops> sva_covers;
pool<Instance*, hash_ptr_ops> sva_triggers;
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#endif
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pool<RTLIL::Cell*> past_ffs;
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FOREACH_INSTANCE_OF_NETLIST(nl, mi, inst)
{
RTLIL::IdString inst_name = module->uniquify(mode_names || inst->IsUserDeclared() ? RTLIL::escape_id(inst->Name()) : new_verific_id(inst));
if (verific_verbose)
log(" importing cell %s (%s) as %s.\n", inst->Name(), inst->View()->Owner()->Name(), log_id(inst_name));
if (mode_verific)
goto import_verific_cells;
if (inst->Type() == PRIM_PWR) {
module->connect(net_map_at(inst->GetOutput()), RTLIL::State::S1);
continue;
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}
if (inst->Type() == PRIM_GND) {
module->connect(net_map_at(inst->GetOutput()), RTLIL::State::S0);
continue;
}
if (inst->Type() == PRIM_BUF) {
auto outnet = inst->GetOutput();
if (!any_all_nets.count(outnet))
module->addBufGate(inst_name, net_map_at(inst->GetInput()), net_map_at(outnet));
continue;
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}
if (inst->Type() == PRIM_X) {
module->connect(net_map_at(inst->GetOutput()), RTLIL::State::Sx);
continue;
}
if (inst->Type() == PRIM_Z) {
module->connect(net_map_at(inst->GetOutput()), RTLIL::State::Sz);
continue;
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}
if (inst->Type() == OPER_READ_PORT)
{
RTLIL::Memory *memory = module->memories.at(RTLIL::escape_id(inst->GetInput()->Name()), nullptr);
if (!memory)
log_error("Memory net '%s' missing, possibly no driver, use verific -flatten.\n", inst->GetInput()->Name());
int numchunks = int(inst->OutputSize()) / memory->width;
int chunksbits = ceil_log2(numchunks);
for (int i = 0; i < numchunks; i++)
{
RTLIL::SigSpec addr = {operatorInput1(inst), RTLIL::Const(i, chunksbits)};
RTLIL::SigSpec data = operatorOutput(inst).extract(i * memory->width, memory->width);
RTLIL::Cell *cell = module->addCell(numchunks == 1 ? inst_name :
RTLIL::IdString(stringf("%s_%d", inst_name.c_str(), i)), ID($memrd));
cell->parameters[ID::MEMID] = memory->name.str();
cell->parameters[ID::CLK_ENABLE] = false;
cell->parameters[ID::CLK_POLARITY] = true;
cell->parameters[ID::TRANSPARENT] = false;
cell->parameters[ID::ABITS] = GetSize(addr);
cell->parameters[ID::WIDTH] = GetSize(data);
import_attributes(cell->attributes, inst);
cell->setPort(ID::CLK, RTLIL::State::Sx);
cell->setPort(ID::EN, RTLIL::State::Sx);
cell->setPort(ID::ADDR, addr);
cell->setPort(ID::DATA, data);
}
continue;
}
if (inst->Type() == OPER_WRITE_PORT || inst->Type() == OPER_CLOCKED_WRITE_PORT)
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{
RTLIL::Memory *memory = module->memories.at(RTLIL::escape_id(inst->GetOutput()->Name()), nullptr);
if (!memory)
log_error("Memory net '%s' missing, possibly no driver, use verific -flatten.\n", inst->GetInput()->Name());
int numchunks = int(inst->Input2Size()) / memory->width;
int chunksbits = ceil_log2(numchunks);
for (int i = 0; i < numchunks; i++)
{
RTLIL::SigSpec addr = {operatorInput1(inst), RTLIL::Const(i, chunksbits)};
RTLIL::SigSpec data = operatorInput2(inst).extract(i * memory->width, memory->width);
RTLIL::Cell *cell = module->addCell(numchunks == 1 ? inst_name :
RTLIL::IdString(stringf("%s_%d", inst_name.c_str(), i)), ID($memwr));
cell->parameters[ID::MEMID] = memory->name.str();
cell->parameters[ID::CLK_ENABLE] = false;
cell->parameters[ID::CLK_POLARITY] = true;
cell->parameters[ID::PRIORITY] = 0;
cell->parameters[ID::ABITS] = GetSize(addr);
cell->parameters[ID::WIDTH] = GetSize(data);
import_attributes(cell->attributes, inst);
cell->setPort(ID::EN, RTLIL::SigSpec(net_map_at(inst->GetControl())).repeat(GetSize(data)));
cell->setPort(ID::CLK, RTLIL::State::S0);
cell->setPort(ID::ADDR, addr);
cell->setPort(ID::DATA, data);
if (inst->Type() == OPER_CLOCKED_WRITE_PORT) {
cell->parameters[ID::CLK_ENABLE] = true;
cell->setPort(ID::CLK, net_map_at(inst->GetClock()));
}
}
continue;
}
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if (!mode_gates) {
if (import_netlist_instance_cells(inst, inst_name))
continue;
if (inst->IsOperator() && !verific_sva_prims.count(inst->Type()))
log_warning("Unsupported Verific operator: %s (fallback to gate level implementation provided by verific)\n", inst->View()->Owner()->Name());
} else {
if (import_netlist_instance_gates(inst, inst_name))
continue;
}
2017-07-27 07:05:09 -05:00
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (inst->Type() == PRIM_SVA_ASSERT || inst->Type() == PRIM_SVA_IMMEDIATE_ASSERT)
sva_asserts.insert(inst);
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if (inst->Type() == PRIM_SVA_ASSUME || inst->Type() == PRIM_SVA_IMMEDIATE_ASSUME || inst->Type() == PRIM_SVA_RESTRICT)
sva_assumes.insert(inst);
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if (inst->Type() == PRIM_SVA_COVER || inst->Type() == PRIM_SVA_IMMEDIATE_COVER)
sva_covers.insert(inst);
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if (inst->Type() == PRIM_SVA_TRIGGERED)
sva_triggers.insert(inst);
if (inst->Type() == OPER_SVA_STABLE)
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{
VerificClocking clocking(this, inst->GetInput2Bit(0));
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
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log_assert(inst->Input1Size() == inst->OutputSize());
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unsigned width = inst->Input1Size();
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SigSpec sig_d, sig_dx, sig_qx, sig_o, sig_ox;
sig_dx = module->addWire(new_verific_id(inst), width * 2);
sig_qx = module->addWire(new_verific_id(inst), width * 2);
sig_ox = module->addWire(new_verific_id(inst), width * 2);
for (int i = int(width)-1; i >= 0; i--){
sig_d.append(net_map_at(inst->GetInput1Bit(i)));
sig_o.append(net_map_at(inst->GetOutputBit(i)));
2017-07-27 07:05:09 -05:00
}
if (verific_verbose) {
for (unsigned i = 0; i < width; i++) {
log(" NEX with A=%s, B=0, Y=%s.\n",
log_signal(sig_d[i]), log_signal(sig_dx[i]));
log(" EQX with A=%s, B=1, Y=%s.\n",
log_signal(sig_d[i]), log_signal(sig_dx[i + width]));
}
log(" %sedge FF with D=%s, Q=%s, C=%s.\n", clocking.posedge ? "pos" : "neg",
log_signal(sig_dx), log_signal(sig_qx), log_signal(clocking.clock_sig));
log(" XNOR with A=%s, B=%s, Y=%s.\n",
log_signal(sig_dx), log_signal(sig_qx), log_signal(sig_ox));
log(" AND with A=%s, B=%s, Y=%s.\n",
log_signal(sig_ox.extract(0, width)), log_signal(sig_ox.extract(width, width)), log_signal(sig_o));
}
for (unsigned i = 0; i < width; i++) {
module->addNex(new_verific_id(inst), sig_d[i], State::S0, sig_dx[i]);
module->addEqx(new_verific_id(inst), sig_d[i], State::S1, sig_dx[i + width]);
}
Const qx_init = Const(State::S1, width);
qx_init.bits().resize(2 * width, State::S0);
clocking.addDff(new_verific_id(inst), sig_dx, sig_qx, qx_init);
module->addXnor(new_verific_id(inst), sig_dx, sig_qx, sig_ox);
module->addAnd(new_verific_id(inst), sig_ox.extract(0, width), sig_ox.extract(width, width), sig_o);
if (!mode_keep)
continue;
}
if (inst->Type() == PRIM_SVA_STABLE)
{
VerificClocking clocking(this, inst->GetInput2());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
SigSpec sig_d = net_map_at(inst->GetInput1());
SigSpec sig_o = net_map_at(inst->GetOutput());
SigSpec sig_dx = module->addWire(new_verific_id(inst), 2);
SigSpec sig_qx = module->addWire(new_verific_id(inst), 2);
if (verific_verbose) {
log(" NEX with A=%s, B=0, Y=%s.\n",
log_signal(sig_d), log_signal(sig_dx[0]));
log(" EQX with A=%s, B=1, Y=%s.\n",
log_signal(sig_d), log_signal(sig_dx[1]));
log(" %sedge FF with D=%s, Q=%s, C=%s.\n", clocking.posedge ? "pos" : "neg",
log_signal(sig_dx), log_signal(sig_qx), log_signal(clocking.clock_sig));
log(" EQ with A=%s, B=%s, Y=%s.\n",
log_signal(sig_dx), log_signal(sig_qx), log_signal(sig_o));
}
module->addNex(new_verific_id(inst), sig_d, State::S0, sig_dx[0]);
module->addEqx(new_verific_id(inst), sig_d, State::S1, sig_dx[1]);
clocking.addDff(new_verific_id(inst), sig_dx, sig_qx, Const(1, 2));
module->addEq(new_verific_id(inst), sig_dx, sig_qx, sig_o);
if (!mode_keep)
continue;
}
if (inst->Type() == PRIM_SVA_PAST)
{
VerificClocking clocking(this, inst->GetInput2());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
SigBit sig_d = net_map_at(inst->GetInput1());
SigBit sig_q = net_map_at(inst->GetOutput());
if (verific_verbose)
log(" %sedge FF with D=%s, Q=%s, C=%s.\n", clocking.posedge ? "pos" : "neg",
log_signal(sig_d), log_signal(sig_q), log_signal(clocking.clock_sig));
past_ffs.insert(clocking.addDff(new_verific_id(inst), sig_d, sig_q));
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if (!mode_keep)
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continue;
}
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if ((inst->Type() == PRIM_SVA_ROSE || inst->Type() == PRIM_SVA_FELL))
{
VerificClocking clocking(this, inst->GetInput2());
log_assert(clocking.disable_sig == State::S0);
log_assert(clocking.body_net == nullptr);
SigBit sig_d = net_map_at(inst->GetInput1());
SigBit sig_o = net_map_at(inst->GetOutput());
SigBit sig_q = module->addWire(new_verific_id(inst));
SigBit sig_d_no_x = module->addWire(new_verific_id(inst));
if (verific_verbose) {
log(" EQX with A=%s, B=%d, Y=%s.\n",
log_signal(sig_d), inst->Type() == PRIM_SVA_ROSE, log_signal(sig_d_no_x));
log(" %sedge FF with D=%s, Q=%s, C=%s.\n", clocking.posedge ? "pos" : "neg",
log_signal(sig_d_no_x), log_signal(sig_q), log_signal(clocking.clock_sig));
log(" EQ with A={%s, %s}, B={0, 1}, Y=%s.\n",
log_signal(sig_q), log_signal(sig_d_no_x), log_signal(sig_o));
}
module->addEqx(new_verific_id(inst), sig_d, inst->Type() == PRIM_SVA_ROSE ? State::S1 : State::S0, sig_d_no_x);
clocking.addDff(new_verific_id(inst), sig_d_no_x, sig_q, State::S0);
module->addEq(new_verific_id(inst), {sig_q, sig_d_no_x}, Const(1, 2), sig_o);
if (!mode_keep)
continue;
}
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#endif
#ifdef YOSYSHQ_VERIFIC_API_VERSION
if (inst->Type() == PRIM_YOSYSHQ_INITSTATE)
{
if (verific_verbose)
log(" adding YosysHQ init state\n");
SigBit initstate = module->Initstate(new_verific_id(inst));
SigBit sig_o = net_map_at(inst->GetOutput());
module->connect(sig_o, initstate);
if (!mode_keep)
continue;
}
#endif
if (!mode_keep && verific_sva_prims.count(inst->Type())) {
if (verific_verbose)
log(" skipping SVA cell in non k-mode\n");
continue;
}
if (inst->Type() == PRIM_HDL_ASSERTION)
{
SigBit cond = net_map_at(inst->GetInput());
if (verific_verbose)
log(" assert condition %s.\n", log_signal(cond));
Cell *cell = module->addAssert(new_verific_id(inst), cond, State::S1);
import_attributes(cell->attributes, inst);
continue;
}
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if (inst->IsPrimitive())
{
if (!mode_keep)
log_error("Unsupported Verific primitive %s of type %s\n", inst->Name(), inst->View()->Owner()->Name());
if (!verific_sva_prims.count(inst->Type()))
log_warning("Unsupported Verific primitive %s of type %s\n", inst->Name(), inst->View()->Owner()->Name());
}
import_verific_cells:
std::string inst_type = is_blackbox(inst->View()) ? inst->View()->CellBaseName() : inst->View()->Owner()->Name();
nl_todo[inst_type] = inst->View();
if (inst->View()->IsOperator() || inst->View()->IsPrimitive()) {
inst_type = "$verific$" + inst_type;
} else {
if (*inst->View()->Name() && !is_blackbox(inst->View())) {
inst_type += "(";
inst_type += inst->View()->Name();
inst_type += ")";
}
inst_type = "\\" + sha1_if_contain_spaces(inst_type);
}
RTLIL::Cell *cell = module->addCell(inst_name, inst_type);
import_attributes(cell->attributes, inst);
if (inst->IsPrimitive() && mode_keep)
cell->attributes[ID::keep] = 1;
dict<IdString, vector<SigBit>> cell_port_conns;
if (verific_verbose)
log(" ports in verific db:\n");
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const char *param_name ;
const char *param_value ;
if (is_blackbox(inst->View())) {
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FOREACH_PARAMETER_OF_INST(inst, mi2, param_name, param_value) {
const TypeRange *tr = inst->View()->GetTypeRange(param_name) ;
cell->setParam(RTLIL::escape_id(param_name), verific_const(tr->GetTypeName(), param_value, inst->View()));
}
}
FOREACH_PORTREF_OF_INST(inst, mi2, pr) {
if (verific_verbose)
log(" .%s(%s)\n", pr->GetPort()->Name(), pr->GetNet()->Name());
const char *port_name = pr->GetPort()->Name();
int port_offset = 0;
if (pr->GetPort()->Bus()) {
port_name = pr->GetPort()->Bus()->Name();
int msb_index = pr->GetPort()->Bus()->LeftIndex();
int lsb_index = pr->GetPort()->Bus()->RightIndex();
int index_of_port = pr->GetPort()->Bus()->IndexOf(pr->GetPort());
port_offset = index_of_port - min(msb_index, lsb_index);
// In cases where the msb order is flipped we need to make sure
// that the indicies match LSB = 0 order to match the std::vector
// to SigSpec LSB = 0 precondition.
if (lsb_index > msb_index) {
port_offset = abs(port_offset - (lsb_index - min(msb_index, lsb_index)));
}
}
IdString port_name_id = RTLIL::escape_id(port_name);
auto &sigvec = cell_port_conns[port_name_id];
if (GetSize(sigvec) <= port_offset) {
SigSpec zwires = module->addWire(new_verific_id(inst), port_offset+1-GetSize(sigvec));
for (auto bit : zwires)
sigvec.push_back(bit);
}
sigvec[port_offset] = net_map_at(pr->GetNet());
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}
if (verific_verbose)
log(" ports in yosys db:\n");
for (auto &it : cell_port_conns) {
if (verific_verbose)
log(" .%s(%s)\n", log_id(it.first), log_signal(it.second));
cell->setPort(it.first, it.second);
}
}
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (!mode_nosva)
{
for (auto inst : sva_asserts) {
if (mode_autocover)
verific_import_sva_cover(this, inst);
verific_import_sva_assert(this, inst);
}
for (auto inst : sva_assumes)
verific_import_sva_assume(this, inst);
for (auto inst : sva_covers)
verific_import_sva_cover(this, inst);
for (auto inst : sva_triggers)
verific_import_sva_trigger(this, inst);
merge_past_ffs(past_ffs);
}
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#endif
if (!mode_fullinit)
{
pool<SigBit> non_ff_bits;
CellTypes ff_types;
ff_types.setup_internals_ff();
ff_types.setup_stdcells_mem();
for (auto cell : module->cells())
{
if (ff_types.cell_known(cell->type))
continue;
for (auto conn : cell->connections())
{
if (!cell->output(conn.first))
continue;
for (auto bit : conn.second)
if (bit.wire != nullptr)
non_ff_bits.insert(bit);
}
}
for (auto wire : module->wires())
{
if (!wire->attributes.count(ID::init))
continue;
Const &initval = wire->attributes.at(ID::init);
for (int i = 0; i < GetSize(initval); i++)
{
if (initval[i] != State::S0 && initval[i] != State::S1)
continue;
if (non_ff_bits.count(SigBit(wire, i)))
initval.bits()[i] = State::Sx;
}
if (wire->port_input) {
wire->attributes[ID::defaultvalue] = Const(initval);
wire->attributes.erase(ID::init);
} else if (initval.is_fully_undef())
wire->attributes.erase(ID::init);
}
}
}
// ==================================================================
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VerificClocking::VerificClocking(VerificImporter *importer, Net *net, bool sva_at_only YS_MAYBE_UNUSED)
{
module = importer->module;
log_assert(importer != nullptr);
log_assert(net != nullptr);
Instance *inst = net->Driver();
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
// Detect condition expression in sva_at_only mode
if (sva_at_only)
do {
Instance *inst_mux = net->Driver();
if (inst_mux == nullptr || inst_mux->Type() != PRIM_MUX)
break;
bool pwr1 = inst_mux->GetInput1()->IsPwr();
bool pwr2 = inst_mux->GetInput2()->IsPwr();
if (!pwr1 && !pwr2)
break;
Net *sva_net = pwr1 ? inst_mux->GetInput2() : inst_mux->GetInput1();
if (!verific_is_sva_net(importer, sva_net))
break;
inst = sva_net->Driver();
cond_net = inst_mux->GetControl();
cond_pol = pwr1;
} while (0);
if (inst != nullptr && inst->Type() == PRIM_SVA_AT)
{
net = inst->GetInput1();
body_net = inst->GetInput2();
inst = net->Driver();
Instance *body_inst = body_net->Driver();
if (body_inst != nullptr && body_inst->Type() == PRIM_SVA_DISABLE_IFF) {
disable_net = body_inst->GetInput1();
disable_sig = importer->net_map_at(disable_net);
body_net = body_inst->GetInput2();
}
}
else
{
if (sva_at_only)
return;
}
// Use while() instead of if() to work around VIPER #13453
while (inst != nullptr && inst->Type() == PRIM_SVA_POSEDGE)
{
net = inst->GetInput();
inst = net->Driver();;
}
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#endif
if (inst != nullptr && inst->Type() == PRIM_INV)
{
net = inst->GetInput();
inst = net->Driver();;
posedge = false;
}
// Detect clock-enable circuit
do {
if (inst == nullptr || inst->Type() != PRIM_AND)
break;
Net *net_dlatch = inst->GetInput1();
Instance *inst_dlatch = net_dlatch->Driver();
if (inst_dlatch == nullptr || inst_dlatch->Type() != PRIM_DLATCHRS)
break;
if (!inst_dlatch->GetSet()->IsGnd() || !inst_dlatch->GetReset()->IsGnd())
break;
Net *net_enable = inst_dlatch->GetInput();
Net *net_not_clock = inst_dlatch->GetControl();
if (net_enable == nullptr || net_not_clock == nullptr)
break;
Instance *inst_not_clock = net_not_clock->Driver();
if (inst_not_clock == nullptr || inst_not_clock->Type() != PRIM_INV)
break;
Net *net_clock1 = inst_not_clock->GetInput();
Net *net_clock2 = inst->GetInput2();
if (net_clock1 == nullptr || net_clock1 != net_clock2)
break;
enable_net = net_enable;
enable_sig = importer->net_map_at(enable_net);
net = net_clock1;
inst = net->Driver();;
} while (0);
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
// Detect condition expression
do {
if (body_net == nullptr)
break;
Instance *inst_mux = body_net->Driver();
if (inst_mux == nullptr || inst_mux->Type() != PRIM_MUX)
break;
bool pwr1 = inst_mux->GetInput1()->IsPwr();
bool pwr2 = inst_mux->GetInput2()->IsPwr();
if (!pwr1 && !pwr2)
break;
Net *sva_net = pwr1 ? inst_mux->GetInput2() : inst_mux->GetInput1();
if (!verific_is_sva_net(importer, sva_net))
break;
body_net = sva_net;
cond_net = inst_mux->GetControl();
cond_pol = pwr1;
} while (0);
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#endif
clock_net = net;
clock_sig = importer->net_map_at(clock_net);
const char *gclk_attr = clock_net->GetAttValue("gclk");
if (gclk_attr != nullptr && (!strcmp(gclk_attr, "1") || !strcmp(gclk_attr, "'1'")))
gclk = true;
}
Cell *VerificClocking::addDff(IdString name, SigSpec sig_d, SigSpec sig_q, Const init_value)
{
log_assert(GetSize(sig_d) == GetSize(sig_q));
auto set_init_attribute = [&](SigSpec &s) {
if (GetSize(init_value) == 0)
return;
log_assert(GetSize(s) == GetSize(init_value));
if (s.is_wire()) {
s.as_wire()->attributes[ID::init] = init_value;
} else {
Wire *w = module->addWire(NEW_ID, GetSize(s));
w->attributes[ID::init] = init_value;
module->connect(s, w);
s = w;
}
};
if (enable_sig != State::S1)
sig_d = module->Mux(NEW_ID, sig_q, sig_d, enable_sig);
if (disable_sig != State::S0) {
log_assert(GetSize(sig_q) == GetSize(init_value));
if (gclk) {
Wire *pre_d = module->addWire(NEW_ID, GetSize(sig_d));
Wire *post_q_w = module->addWire(NEW_ID, GetSize(sig_q));
Const initval(State::Sx, GetSize(sig_q));
int offset = 0;
for (auto c : sig_q.chunks()) {
if (c.wire && c.wire->attributes.count(ID::init)) {
Const val = c.wire->attributes.at(ID::init);
for (int i = 0; i < GetSize(c); i++)
initval.bits()[offset+i] = val[c.offset+i];
}
offset += GetSize(c);
}
if (!initval.is_fully_undef())
post_q_w->attributes[ID::init] = initval;
module->addMux(NEW_ID, sig_d, init_value, disable_sig, pre_d);
module->addMux(NEW_ID, post_q_w, init_value, disable_sig, sig_q);
SigSpec post_q(post_q_w);
set_init_attribute(post_q);
return module->addFf(name, pre_d, post_q);
}
set_init_attribute(sig_q);
return module->addAdff(name, clock_sig, disable_sig, sig_d, sig_q, init_value, posedge);
}
if (gclk) {
set_init_attribute(sig_q);
return module->addFf(name, sig_d, sig_q);
}
set_init_attribute(sig_q);
return module->addDff(name, clock_sig, sig_d, sig_q, posedge);
}
Cell *VerificClocking::addAdff(IdString name, RTLIL::SigSpec sig_arst, SigSpec sig_d, SigSpec sig_q, Const arst_value)
{
log_assert(gclk == false);
log_assert(disable_sig == State::S0);
// FIXME: Adffe
if (enable_sig != State::S1)
sig_d = module->Mux(NEW_ID, sig_q, sig_d, enable_sig);
return module->addAdff(name, clock_sig, sig_arst, sig_d, sig_q, arst_value, posedge);
}
Cell *VerificClocking::addDffsr(IdString name, RTLIL::SigSpec sig_set, RTLIL::SigSpec sig_clr, SigSpec sig_d, SigSpec sig_q)
{
log_assert(gclk == false);
log_assert(disable_sig == State::S0);
// FIXME: Dffsre
if (enable_sig != State::S1)
sig_d = module->Mux(NEW_ID, sig_q, sig_d, enable_sig);
return module->addDffsr(name, clock_sig, sig_set, sig_clr, sig_d, sig_q, posedge);
}
Cell *VerificClocking::addAldff(IdString name, RTLIL::SigSpec sig_aload, RTLIL::SigSpec sig_adata, SigSpec sig_d, SigSpec sig_q)
{
log_assert(disable_sig == State::S0);
// FIXME: Aldffe
if (enable_sig != State::S1)
sig_d = module->Mux(NEW_ID, sig_q, sig_d, enable_sig);
if (gclk) {
Wire *pre_d = module->addWire(NEW_ID, GetSize(sig_d));
Wire *post_q = module->addWire(NEW_ID, GetSize(sig_q));
Const initval(State::Sx, GetSize(sig_q));
int offset = 0;
for (auto c : sig_q.chunks()) {
if (c.wire && c.wire->attributes.count(ID::init)) {
Const val = c.wire->attributes.at(ID::init);
for (int i = 0; i < GetSize(c); i++)
initval.bits()[offset+i] = val[c.offset+i];
}
offset += GetSize(c);
}
if (!initval.is_fully_undef())
post_q->attributes[ID::init] = initval;
module->addMux(NEW_ID, sig_d, sig_adata, sig_aload, pre_d);
module->addMux(NEW_ID, post_q, sig_adata, sig_aload, sig_q);
return module->addFf(name, pre_d, post_q);
}
return module->addAldff(name, clock_sig, sig_aload, sig_d, sig_q, sig_adata, posedge);
}
// ==================================================================
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struct VerificExtNets
{
int portname_cnt = 0;
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// a map from Net to the same Net one level up in the design hierarchy
std::map<Net*, Net*> net_level_up_drive_up;
std::map<Net*, Net*> net_level_up_drive_down;
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Net *route_up(Net *net, bool drive_up, Net *final_net = nullptr)
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{
auto &net_level_up = drive_up ? net_level_up_drive_up : net_level_up_drive_down;
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if (net_level_up.count(net) == 0)
{
Netlist *nl = net->Owner();
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// Simply return if Netlist is not unique
log_assert(nl->NumOfRefs() == 1);
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Instance *up_inst = (Instance*)nl->GetReferences()->GetLast();
Netlist *up_nl = up_inst->Owner();
// create new Port
string name = stringf("___extnets_%d", portname_cnt++);
Port *new_port = new Port(name.c_str(), drive_up ? DIR_OUT : DIR_IN);
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nl->Add(new_port);
nl->Buf(net)->Connect(new_port);
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// create new Net in up Netlist
Net *new_net = final_net;
if (new_net == nullptr || new_net->Owner() != up_nl) {
new_net = new Net(name.c_str());
up_nl->Add(new_net);
}
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up_inst->Connect(new_port, new_net);
net_level_up[net] = new_net;
}
return net_level_up.at(net);
}
Net *route_up(Net *net, bool drive_up, Netlist *dest, Net *final_net = nullptr)
{
while (net->Owner() != dest)
net = route_up(net, drive_up, final_net);
if (final_net != nullptr)
log_assert(net == final_net);
return net;
}
Netlist *find_common_ancestor(Netlist *A, Netlist *B)
{
std::set<Netlist*> ancestors_of_A;
Netlist *cursor = A;
while (1) {
ancestors_of_A.insert(cursor);
if (cursor->NumOfRefs() != 1)
break;
cursor = ((Instance*)cursor->GetReferences()->GetLast())->Owner();
}
cursor = B;
while (1) {
if (ancestors_of_A.count(cursor))
return cursor;
if (cursor->NumOfRefs() != 1)
break;
cursor = ((Instance*)cursor->GetReferences()->GetLast())->Owner();
}
log_error("No common ancestor found between %s and %s.\n", get_full_netlist_name(A).c_str(), get_full_netlist_name(B).c_str());
}
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void run(Netlist *nl)
{
MapIter mi, mi2;
Instance *inst;
PortRef *pr;
vector<tuple<Instance*, Port*, Net*>> todo_connect;
FOREACH_INSTANCE_OF_NETLIST(nl, mi, inst)
run(inst->View());
FOREACH_INSTANCE_OF_NETLIST(nl, mi, inst)
FOREACH_PORTREF_OF_INST(inst, mi2, pr)
{
Port *port = pr->GetPort();
Net *net = pr->GetNet();
if (!net->IsExternalTo(nl))
continue;
if (verific_verbose)
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log("Fixing external net reference on port %s.%s.%s:\n", get_full_netlist_name(nl).c_str(), inst->Name(), port->Name());
Netlist *ext_nl = net->Owner();
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if (verific_verbose)
log(" external net owner: %s\n", get_full_netlist_name(ext_nl).c_str());
Netlist *ca_nl = find_common_ancestor(nl, ext_nl);
if (verific_verbose)
log(" common ancestor: %s\n", get_full_netlist_name(ca_nl).c_str());
Net *ca_net = route_up(net, !port->IsOutput(), ca_nl);
Net *new_net = ca_net;
if (ca_nl != nl)
{
if (verific_verbose)
log(" net in common ancestor: %s\n", ca_net->Name());
string name = stringf("___extnets_%d", portname_cnt++);
new_net = new Net(name.c_str());
nl->Add(new_net);
Net *n = route_up(new_net, port->IsOutput(), ca_nl, ca_net);
log_assert(n == ca_net);
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}
if (verific_verbose)
log(" new local net: %s\n", new_net->Name());
log_assert(!new_net->IsExternalTo(nl));
todo_connect.push_back(tuple<Instance*, Port*, Net*>(inst, port, new_net));
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}
for (auto it : todo_connect) {
get<0>(it)->Disconnect(get<1>(it));
get<0>(it)->Connect(get<1>(it), get<2>(it));
}
}
};
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void import_all(const char* work, std::map<std::string,Netlist*> *nl_todo, Map *parameters, bool show_message, std::string ppfile YS_MAYBE_UNUSED)
{
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#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
VerificExtensions::ElaborateAndRewrite(work, parameters);
verific_error_msg.clear();
#endif
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (!ppfile.empty())
veri_file::PrettyPrint(ppfile.c_str(), nullptr, work);
#endif
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Array vhdl_libs;
#ifdef VERIFIC_VHDL_SUPPORT
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VhdlLibrary *vhdl_lib = vhdl_file::GetLibrary(work, 1);
if (vhdl_lib) vhdl_libs.InsertLast(vhdl_lib);
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#endif
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Array veri_libs;
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
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VeriLibrary *veri_lib = veri_file::GetLibrary(work, 1);
if (veri_lib) veri_libs.InsertLast(veri_lib);
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#endif
#ifdef VERIFIC_HIER_TREE_SUPPORT
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if (show_message)
log("Running hier_tree::ElaborateAll().\n");
Array *netlists = hier_tree::ElaborateAll(&veri_libs, &vhdl_libs, parameters);
Netlist *nl;
int i;
FOREACH_ARRAY_ITEM(netlists, i, nl)
nl_todo->emplace(nl->CellBaseName(), nl);
delete netlists;
#else
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if (parameters->Size())
log_warning("Please note that parameters are not propagated during import.\n");
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
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if (show_message)
log("Running veri_file::ElaborateAll().\n");
veri_file::ElaborateAll(work);
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#endif
#ifdef VERIFIC_VHDL_SUPPORT
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if (show_message)
log("Running vhdl_file::ElaborateAll().\n");
vhdl_file::ElaborateAll(work);
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#endif
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MapIter mi ;
Verific::Cell *c ;
MapIter it ;
Library *l ;
FOREACH_LIBRARY_OF_LIBSET(Libset::Global(),it,l) {
if (l == Library::Primitives() || l == Library::Operators()) continue;
FOREACH_CELL_OF_LIBRARY(l,mi,c) {
MapIter ni ;
Netlist *nl;
FOREACH_NETLIST_OF_CELL(c, ni, nl) {
if (nl)
nl_todo->emplace(nl->CellBaseName(), nl);
}
}
}
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#endif
}
std::set<std::string> import_tops(const char* work, std::map<std::string,Netlist*> *nl_todo, Map *parameters, bool show_message, std::string ppfile YS_MAYBE_UNUSED, std::vector<std::string> &tops, std::string *top = nullptr)
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{
std::set<std::string> top_mod_names;
Array *netlists = nullptr;
#ifdef VERIFIC_VHDL_SUPPORT
VhdlLibrary *vhdl_lib = vhdl_file::GetLibrary(work, 1);
#endif
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
VeriLibrary* veri_lib = veri_file::GetLibrary(work, 1);
#endif
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
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for (int static_elaborate = 1; static_elaborate >= 0; static_elaborate--)
#endif
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{
Array vhdl_units;
Array veri_modules;
for (std::string n : tops)
{
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const char *name = n.c_str();
top_mod_names.insert(name);
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
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VeriModule *veri_module = veri_lib ? veri_lib->GetModule(name, 1) : nullptr;
if (veri_module) {
if (veri_module->IsConfiguration()) {
if (show_message)
log("Adding Verilog configuration '%s' to elaboration queue.\n", name);
veri_modules.InsertLast(veri_module);
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top_mod_names.erase(name);
VeriConfiguration *cfg = (VeriConfiguration*)veri_module;
VeriName *module_name;
int i;
FOREACH_ARRAY_ITEM(cfg->GetTopModuleNames(), i, module_name) {
VeriLibrary *lib = veri_module->GetLibrary() ;
if (module_name && module_name->IsHierName()) {
VeriName *prefix = module_name->GetPrefix() ;
const char *lib_name = (prefix) ? prefix->GetName() : 0 ;
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if (work != lib_name) lib = veri_file::GetLibrary(lib_name, 1) ;
}
if (lib && module_name)
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top_mod_names.insert(lib->GetModule(module_name->GetName(), 1)->GetName());
}
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} else {
if (show_message)
log("Adding Verilog module '%s' to elaboration queue.\n", name);
veri_modules.InsertLast(veri_module);
}
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continue;
}
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#endif
#ifdef VERIFIC_VHDL_SUPPORT
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VhdlDesignUnit *vhdl_unit = vhdl_lib ? vhdl_lib->GetPrimUnit(name) : nullptr;
if (vhdl_unit) {
if (show_message)
log("Adding VHDL unit '%s' to elaboration queue.\n", name);
vhdl_units.InsertLast(vhdl_unit);
if (strcmp(name, vhdl_unit->Id()->OrigName()) != 0) {
top_mod_names.erase(name);
top_mod_names.insert(vhdl_unit->Id()->OrigName());
if (top && *top == name)
*top = vhdl_unit->Id()->OrigName();
}
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continue;
}
#endif
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log_error("Can't find module/unit '%s'.\n", name);
}
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
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if (static_elaborate) {
VerificExtensions::ElaborateAndRewrite(work, &veri_modules, &vhdl_units, parameters);
verific_error_msg.clear();
#endif
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (!ppfile.empty())
veri_file::PrettyPrint(ppfile.c_str(), nullptr, work);
#endif
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
continue;
}
#endif
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
const char *lib_name = nullptr;
SetIter si;
FOREACH_SET_ITEM(veri_file::GetAllLOptions(), si, &lib_name) {
VeriLibrary* veri_lib = veri_file::GetLibrary(lib_name, 0);
if (veri_lib) {
// Also elaborate all root modules since they may contain bind statements
MapIter mi;
VeriModule *veri_module;
FOREACH_VERILOG_MODULE_IN_LIBRARY(veri_lib, mi, veri_module) {
if (!veri_module->IsRootModule()) continue;
veri_modules.InsertLast(veri_module);
}
}
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}
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#endif
#ifdef VERIFIC_HIER_TREE_SUPPORT
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if (show_message)
log("Running hier_tree::Elaborate().\n");
netlists = hier_tree::Elaborate(&veri_modules, &vhdl_units, parameters);
#else
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#if defined(VERIFIC_SYSTEMVERILOG_SUPPORT) && !defined(VERIFIC_VHDL_SUPPORT)
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if (show_message)
log("Running veri_file::ElaborateMultipleTop().\n");
// SystemVerilog support only
netlists = veri_file::ElaborateMultipleTop(&veri_modules, parameters);
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#elif defined(VERIFIC_VHDL_SUPPORT) && !defined(VERIFIC_SYSTEMVERILOG_SUPPORT)
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if (show_message)
log("Running vhdl_file::Elaborate().\n");
// VHDL support only
netlists = new Array(top_mod_names.size());
for (auto &name : top_mod_names) {
vhdl_file::Elaborate(name.c_str(), work, 0, parameters);
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netlists->InsertLast(Netlist::PresentDesign());
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}
#elif defined(VERIFIC_SYSTEMVERILOG_SUPPORT) && defined(VERIFIC_VHDL_SUPPORT)
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// Both SystemVerilog and VHDL support
if (veri_modules.Size()>0) {
if (show_message)
log("Running veri_file::ElaborateMultipleTop().\n");
netlists = veri_file::ElaborateMultipleTop(&veri_modules, parameters);
} else
netlists = new Array(1);
if (vhdl_units.Size()>0) {
if (show_message)
log("Running vhdl_file::Elaborate().\n");
for (auto &name : top_mod_names) {
vhdl_file::Elaborate(name.c_str(), work, 0, parameters);
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netlists->InsertLast(Netlist::PresentDesign());
}
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}
#else
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#endif
#endif
}
Netlist *nl;
int i;
FOREACH_ARRAY_ITEM(netlists, i, nl) {
if (!nl) continue;
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if (!top_mod_names.count(nl->CellBaseName()))
continue;
nl->AddAtt(new Att(" \\top", NULL));
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nl_todo->emplace(nl->CellBaseName(), nl);
}
delete netlists;
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return top_mod_names;
}
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void verific_cleanup()
{
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
VerificExtensions::Reset();
#endif
#ifdef VERIFIC_HIER_TREE_SUPPORT
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hier_tree::DeleteHierarchicalTree();
#endif
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
veri_file::Reset();
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#endif
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#ifdef VERIFIC_VHDL_SUPPORT
vhdl_file::Reset();
#endif
#ifdef VERIFIC_EDIF_SUPPORT
edif_file::Reset();
#endif
#ifdef VERIFIC_LIBERTY_SUPPORT
synlib_file::Reset();
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#endif
Libset::Reset();
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Message::Reset();
RuntimeFlags::DeleteAllFlags();
LineFile::DeleteAllLineFiles();
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
verific_incdirs.clear();
verific_libdirs.clear();
verific_libexts.clear();
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#endif
verific_import_pending = false;
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}
std::string verific_import(Design *design, const std::map<std::string,std::string> &parameters, std::string top)
{
verific_sva_fsm_limit = 16;
std::map<std::string,Netlist*> nl_todo, nl_done;
Map verific_params(STRING_HASH);
for (const auto &i : parameters)
verific_params.Insert(i.first.c_str(), i.second.c_str());
std::set<std::string> top_mod_names;
if (top.empty()) {
import_all("work", &nl_todo, &verific_params, false, "");
} else {
std::vector<std::string> tops;
tops.push_back(top);
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
veri_file::RemoveAllLOptions();
veri_file::AddLOption("work");
#endif
top_mod_names = import_tops("work", &nl_todo, &verific_params, false, "", tops, &top) ;
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}
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if (!verific_error_msg.empty())
log_error("%s\n", verific_error_msg.c_str());
for (auto nl : nl_todo)
nl.second->ChangePortBusStructures(1 /* hierarchical */);
VerificExtNets worker;
for (auto nl : nl_todo)
worker.run(nl.second);
while (!nl_todo.empty()) {
auto it = nl_todo.begin();
Netlist *nl = it->second;
if (nl_done.count(it->first) == 0) {
VerificImporter importer(false, false, false, false, false, false, false);
nl_done[it->first] = it->second;
importer.import_netlist(design, nl, nl_todo, top_mod_names.count(nl->CellBaseName()));
}
nl_todo.erase(it);
}
verific_cleanup();
if (!verific_error_msg.empty())
log_error("%s\n", verific_error_msg.c_str());
return top;
}
YOSYS_NAMESPACE_END
#endif /* YOSYS_ENABLE_VERIFIC */
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PRIVATE_NAMESPACE_BEGIN
#ifdef YOSYS_ENABLE_VERIFIC
bool check_noverific_env()
{
const char *e = getenv("YOSYS_NOVERIFIC");
if (e == nullptr)
return false;
if (atoi(e) == 0)
return false;
return true;
}
#endif
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struct VerificPass : public Pass {
VerificPass() : Pass("verific", "load Verilog and VHDL designs using Verific") { }
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
void on_register() override { VerificExtensions::Reset(); }
#endif
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void help() override
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{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
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log(" verific {-vlog95|-vlog2k|-sv2005|-sv2009|-sv2012|-sv} <verilog-file>..\n");
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log("\n");
log("Load the specified Verilog/SystemVerilog files into Verific.\n");
log("\n");
log("All files specified in one call to this command are one compilation unit.\n");
log("Files passed to different calls to this command are treated as belonging to\n");
log("different compilation units.\n");
log("\n");
log("Additional -D<macro>[=<value>] options may be added after the option indicating\n");
log("the language version (and before file names) to set additional verilog defines.\n");
log("The macros YOSYS, SYNTHESIS, and VERIFIC are defined implicitly.\n");
log("\n");
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log("\n");
log(" verific -formal <verilog-file>..\n");
log("\n");
log("Like -sv, but define FORMAL instead of SYNTHESIS.\n");
log("\n");
log("\n");
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#endif
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#ifdef VERIFIC_VHDL_SUPPORT
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log(" verific {-vhdl87|-vhdl93|-vhdl2k|-vhdl2008|-vhdl2019|-vhdl} <vhdl-file>..\n");
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log("\n");
log("Load the specified VHDL files into Verific.\n");
log("\n");
log("\n");
#endif
#ifdef VERIFIC_EDIF_SUPPORT
log(" verific {-edif} <edif-file>..\n");
log("\n");
log("Load the specified EDIF files into Verific.\n");
log("\n");
log("\n");
#endif
#ifdef VERIFIC_LIBERTY_SUPPORT
log(" verific {-liberty} <liberty-file>..\n");
log("\n");
log("Load the specified Liberty files into Verific.\n");
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log("Default library when -work is not present is one specified in liberty file.\n");
log("To use from SystemVerilog or VHDL use -L to specify liberty library.");
log("\n");
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log(" -lib\n");
log(" only create empty blackbox modules\n");
log("\n");
log("\n");
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#endif
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
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log(" verific {-f|-F} [-vlog95|-vlog2k|-sv2005|-sv2009|\n");
log(" -sv2012|-sv|-formal] <command-file>\n");
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log("\n");
log("Load and execute the specified command file.\n");
log("Override verilog parsing mode can be set.\n");
log("The macros YOSYS, SYNTHESIS/FORMAL, and VERIFIC are defined implicitly.\n");
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log("\n");
log("Command file parser supports following commands in file:\n");
log(" +define+<MACRO>=<VALUE> - defines macro\n");
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log(" -u - upper case all identifier (makes Verilog parser\n");
log(" case insensitive)\n");
log(" -v <filepath> - register library name (file)\n");
log(" -y <filepath> - register library name (directory)\n");
log(" +incdir+<filepath> - specify include dir\n");
log(" +libext+<filepath> - specify library extension\n");
log(" +liborder+<id> - add library in ordered list\n");
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log(" +librescan - unresolved modules will be always searched\n");
log(" starting with the first library specified\n");
log(" by -y/-v options.\n");
log(" -f/-file <filepath> - nested -f option\n");
log(" -F <filepath> - nested -F option (relative path)\n");
log(" parse files:\n");
log(" <filepath>\n");
log(" +systemverilogext+<filepath>\n");
log(" +verilog1995ext+<filepath>\n");
log(" +verilog2001ext+<filepath>\n");
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log("\n");
log(" analysis mode:\n");
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log(" -ams\n");
log(" +v2k\n");
log(" -sverilog\n");
log("\n");
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log("\n");
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#endif
log(" verific [-work <libname>] {-sv|-vhdl|...} <hdl-file>\n");
log("\n");
log("Load the specified Verilog/SystemVerilog/VHDL file into the specified library.\n");
log("(default library when -work is not present: \"work\")\n");
log("\n");
log("\n");
log(" verific [-L <libname>] {-sv|-vhdl|...} <hdl-file>\n");
log("\n");
log("Look up external definitions in the specified library.\n");
log("(-L may be used more than once)\n");
log("\n");
log("\n");
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
log(" verific -vlog-incdir <directory>..\n");
log("\n");
log("Add Verilog include directories.\n");
log("\n");
log("\n");
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log(" verific -vlog-libdir <directory>..\n");
log("\n");
log("Add Verilog library directories. Verific will search in this directories to\n");
log("find undefined modules.\n");
log("\n");
log("\n");
log(" verific -vlog-libext <extension>..\n");
log("\n");
log("Add Verilog library extensions, used when searching in library directories.\n");
log("\n");
log("\n");
log(" verific -vlog-define <macro>[=<value>]..\n");
log("\n");
log("Add Verilog defines.\n");
log("\n");
log("\n");
log(" verific -vlog-undef <macro>..\n");
log("\n");
log("Remove Verilog defines previously set with -vlog-define.\n");
log("\n");
log("\n");
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#endif
log(" verific -set-error <msg_id>..\n");
log(" verific -set-warning <msg_id>..\n");
log(" verific -set-info <msg_id>..\n");
log(" verific -set-ignore <msg_id>..\n");
log("\n");
log("Set message severity. <msg_id> is the string in square brackets when a message\n");
log("is printed, such as VERI-1209.\n");
log("Also errors, warnings, infos and comments could be used to set new severity for\n");
log("all messages of certain type.\n");
log("\n");
log("\n");
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log(" verific -import [options] <top>..\n");
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log("\n");
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log("Elaborate the design for the specified top modules or configurations, import to\n");
log("Yosys and reset the internal state of Verific.\n");
log("\n");
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log("Import options:\n");
log("\n");
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log(" -all\n");
log(" Elaborate all modules, not just the hierarchy below the given top\n");
log(" modules. With this option the list of modules to import is optional.\n");
log("\n");
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log(" -gates\n");
log(" Create a gate-level netlist.\n");
log("\n");
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log(" -flatten\n");
log(" Flatten the design in Verific before importing.\n");
log("\n");
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log(" -extnets\n");
log(" Resolve references to external nets by adding module ports as needed.\n");
log("\n");
log(" -no-split-complex-ports\n");
log(" Complex ports (structs or arrays) are not split and remain packed as a single port.\n");
log("\n");
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
log(" -autocover\n");
log(" Generate automatic cover statements for all asserts\n");
log("\n");
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#endif
log(" -fullinit\n");
log(" Keep all register initializations, even those for non-FF registers.\n");
log("\n");
log(" -cells\n");
log(" Import all cell definitions from Verific loaded libraries even if they are\n");
log(" unused in design. Useful with \"-edif\" and \"-liberty\" option.\n");
log("\n");
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log(" -chparam name value \n");
log(" Elaborate the specified top modules (all modules when -all given) using\n");
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log(" this parameter value. Modules on which this parameter does not exist will\n");
log(" cause Verific to produce a VERI-1928 or VHDL-1676 message. This option\n");
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log(" can be specified multiple times to override multiple parameters.\n");
log(" String values must be passed in double quotes (\").\n");
log("\n");
log(" -v, -vv\n");
log(" Verbose log messages. (-vv is even more verbose than -v.)\n");
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log("\n");
log(" -pp <filename>\n");
log(" Pretty print design after elaboration to specified file.\n");
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log("\n");
log("The following additional import options are useful for debugging the Verific\n");
log("bindings (for Yosys and/or Verific developers):\n");
log("\n");
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log(" -k\n");
log(" Keep going after an unsupported verific primitive is found. The\n");
log(" unsupported primitive is added as blockbox module to the design.\n");
log(" This will also add all SVA related cells to the design parallel to\n");
log(" the checker logic inferred by it.\n");
log("\n");
log(" -V\n");
log(" Import Verific netlist as-is without translating to Yosys cell types. \n");
log("\n");
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
log(" -nosva\n");
log(" Ignore SVA properties, do not infer checker logic.\n");
log("\n");
log(" -L <int>\n");
log(" Maximum number of ctrl bits for SVA checker FSMs (default=16).\n");
log("\n");
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#endif
log(" -n\n");
log(" Keep all Verific names on instances and nets. By default only\n");
log(" user-declared names are preserved.\n");
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log("\n");
log(" -d <dump_file>\n");
log(" Dump the Verific netlist as a verilog file.\n");
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log("\n");
log("\n");
log(" verific [-work <libname>] -pp [options] <filename> [<module>]..\n");
log("\n");
log("Pretty print design (or just module) to the specified file from the\n");
log("specified library. (default library when -work is not present: \"work\")\n");
log("\n");
log("Pretty print options:\n");
log("\n");
log(" -verilog\n");
log(" Save output for Verilog/SystemVerilog design modules (default).\n");
log("\n");
log(" -vhdl\n");
log(" Save output for VHDL design units.\n");
log("\n");
log("\n");
log(" verific -cfg [<name> [<value>]]\n");
log("\n");
log("Get/set Verific runtime flags.\n");
log("\n");
log("\n");
#if defined(YOSYS_ENABLE_VERIFIC) and defined(YOSYSHQ_VERIFIC_EXTENSIONS)
VerificExtensions::Help();
#endif
log("Use YosysHQ Tabby CAD Suite if you need Yosys+Verific.\n");
log("https://www.yosyshq.com/\n");
log("\n");
log("Contact office@yosyshq.com for free evaluation\n");
log("binaries of YosysHQ Tabby CAD Suite.\n");
2014-03-09 14:40:04 -05:00
log("\n");
}
#ifdef YOSYS_ENABLE_VERIFIC
std::string frontent_rewrite(std::vector<std::string> &args, int &argidx, std::vector<std::string> &tmp_files)
{
std::string filename = args[argidx++];
//Accommodate heredocs with EOT marker spaced out from "<<", e.g. "<< EOT" vs. "<<EOT"
if (filename == "<<" && (argidx < GetSize(args))) {
filename += args[argidx++];
}
if (filename.compare(0, 2, "<<") == 0) {
if (filename.size() <= 2)
log_error("Missing EOT marker in here document!\n");
std::string eot_marker = filename.substr(2);
if (Frontend::current_script_file == nullptr)
filename = "<stdin>";
std::string last_here_document;
while (1) {
std::string buffer;
char block[4096];
while (1) {
if (fgets(block, 4096, Frontend::current_script_file == nullptr? stdin : Frontend::current_script_file) == nullptr)
log_error("Unexpected end of file in here document '%s'!\n", filename.c_str());
buffer += block;
if (buffer.size() > 0 && (buffer[buffer.size() - 1] == '\n' || buffer[buffer.size() - 1] == '\r'))
break;
}
size_t indent = buffer.find_first_not_of(" \t\r\n");
if (indent != std::string::npos && buffer.compare(indent, eot_marker.size(), eot_marker) == 0)
break;
last_here_document += buffer;
}
filename = make_temp_file();
tmp_files.push_back(filename);
std::ofstream file(filename);
file << last_here_document;
} else {
rewrite_filename(filename);
}
return filename;
}
#ifdef VERIFIC_VHDL_SUPPORT
msg_type_t prev_1240 ;
msg_type_t prev_1241 ;
void add_units_to_map(Map &map, std::string work, bool flag_lib)
{
MapIter mi ;
VhdlPrimaryUnit *unit ;
if (!flag_lib) return;
VhdlLibrary *vhdl_lib = vhdl_file::GetLibrary(work.c_str(), 1);
if (vhdl_lib) {
FOREACH_VHDL_PRIMARY_UNIT(vhdl_lib, mi, unit) {
if (!unit) continue;
map.Insert(unit,unit);
}
}
prev_1240 = Message::GetMessageType("VHDL-1240") ;
prev_1241 = Message::GetMessageType("VHDL-1241") ;
Message::SetMessageType("VHDL-1240", VERIFIC_INFO);
Message::SetMessageType("VHDL-1241", VERIFIC_INFO);
}
void set_units_to_blackbox(Map &map, std::string work, bool flag_lib)
{
MapIter mi ;
VhdlPrimaryUnit *unit ;
if (!flag_lib) return;
VhdlLibrary *vhdl_lib = vhdl_file::GetLibrary(work.c_str(), 1);
FOREACH_VHDL_PRIMARY_UNIT(vhdl_lib, mi, unit) {
if (!unit) continue;
if (!map.GetValue(unit)) {
unit->SetCompileAsBlackbox();
}
}
Message::ClearMessageType("VHDL-1240") ;
Message::ClearMessageType("VHDL-1241") ;
if (Message::GetMessageType("VHDL-1240")!=prev_1240)
Message::SetMessageType("VHDL-1240", prev_1240);
if (Message::GetMessageType("VHDL-1241")!=prev_1241)
Message::SetMessageType("VHDL-1241", prev_1241);
}
#endif
msg_type_t prev_1063;
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
void add_modules_to_map(Map &map, std::string work, bool flag_lib)
{
MapIter mi ;
VeriModule *veri_module ;
if (!flag_lib) return;
VeriLibrary *veri_lib = veri_file::GetLibrary(work.c_str(), 1);
if (veri_lib) {
FOREACH_VERILOG_MODULE_IN_LIBRARY(veri_lib, mi, veri_module) {
if (!veri_module) continue;
map.Insert(veri_module,veri_module);
}
}
prev_1063 = Message::GetMessageType("VERI-1063") ;
Message::SetMessageType("VERI-1063", VERIFIC_INFO);
}
void set_modules_to_blackbox(Map &map, std::string work, bool flag_lib)
{
MapIter mi ;
VeriModule *veri_module ;
if (!flag_lib) return;
VeriLibrary *veri_lib = veri_file::GetLibrary(work.c_str(), 1);
FOREACH_VERILOG_MODULE_IN_LIBRARY(veri_lib, mi, veri_module) {
if (!veri_module) continue;
if (!map.GetValue(veri_module)) {
veri_module->SetCompileAsBlackbox();
}
}
Message::ClearMessageType("VERI-1063") ;
if (Message::GetMessageType("VERI-1063")!=prev_1063)
Message::SetMessageType("VERI-1063", prev_1063);
}
2024-06-07 07:58:33 -05:00
#endif
2020-06-18 18:34:52 -05:00
void execute(std::vector<std::string> args, RTLIL::Design *design) override
2014-03-09 14:40:04 -05:00
{
static bool set_verific_global_flags = true;
if (check_noverific_env())
log_cmd_error("This version of Yosys is built without Verific support.\n"
"\n"
"Use YosysHQ Tabby CAD Suite if you need Yosys+Verific.\n"
"https://www.yosyshq.com/\n"
"\n"
"Contact office@yosyshq.com for free evaluation\n"
"binaries of YosysHQ Tabby CAD Suite.\n");
log_header(design, "Executing VERIFIC (loading SystemVerilog and VHDL designs using Verific).\n");
2014-03-09 14:40:04 -05:00
if (set_verific_global_flags)
{
Message::SetConsoleOutput(0);
Message::RegisterCallBackMsg(msg_func);
RuntimeFlags::SetVar("db_preserve_user_instances", 1);
RuntimeFlags::SetVar("db_preserve_user_nets", 1);
RuntimeFlags::SetVar("db_preserve_x", 1);
RuntimeFlags::SetVar("db_allow_external_nets", 1);
RuntimeFlags::SetVar("db_infer_wide_operators", 1);
RuntimeFlags::SetVar("db_infer_set_reset_registers", 0);
// Properly respect order of read and write for rams
RuntimeFlags::SetVar("db_change_inplace_ram_blocking_write_before_read", 1);
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
RuntimeFlags::SetVar("veri_extract_dualport_rams", 0);
RuntimeFlags::SetVar("veri_extract_multiport_rams", 1);
RuntimeFlags::SetVar("veri_allow_any_ram_in_loop", 1);
2024-06-07 07:58:33 -05:00
#endif
#ifdef VERIFIC_VHDL_SUPPORT
RuntimeFlags::SetVar("vhdl_extract_dualport_rams", 0);
RuntimeFlags::SetVar("vhdl_extract_multiport_rams", 1);
RuntimeFlags::SetVar("vhdl_allow_any_ram_in_loop", 1);
RuntimeFlags::SetVar("vhdl_support_variable_slice", 1);
RuntimeFlags::SetVar("vhdl_ignore_assertion_statements", 0);
RuntimeFlags::SetVar("vhdl_preserve_assignments", 1);
//RuntimeFlags::SetVar("vhdl_preserve_comments", 1);
RuntimeFlags::SetVar("vhdl_preserve_drivers", 1);
#endif
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
RuntimeFlags::SetVar("veri_preserve_assignments", 1);
RuntimeFlags::SetVar("veri_preserve_comments", 1);
RuntimeFlags::SetVar("veri_preserve_drivers", 1);
RuntimeFlags::SetVar("veri_create_empty_box", 1);
// Workaround for VIPER #13851
RuntimeFlags::SetVar("veri_create_name_for_unnamed_gen_block", 1);
// WARNING: instantiating unknown module 'XYZ' (VERI-1063)
Message::SetMessageType("VERI-1063", VERIFIC_ERROR);
// https://github.com/YosysHQ/yosys/issues/1055
RuntimeFlags::SetVar("veri_elaborate_top_level_modules_having_interface_ports", 1) ;
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#endif
RuntimeFlags::SetVar("verific_produce_verbose_syntax_error_message", 1);
#ifndef DB_PRESERVE_INITIAL_VALUE
# warning Verific was built without DB_PRESERVE_INITIAL_VALUE.
#endif
set_verific_global_flags = false;
}
verific_verbose = 0;
verific_sva_fsm_limit = 16;
2017-07-04 13:01:30 -05:00
const char *release_str = Message::ReleaseString();
time_t release_time = Message::ReleaseDate();
char *release_tmstr = ctime(&release_time);
std::vector<std::string> tmp_files;
2017-07-04 13:01:30 -05:00
if (release_str == nullptr)
release_str = "(no release string)";
for (char *p = release_tmstr; *p; p++)
if (*p == '\n') *p = 0;
log("Built with Verific %s, released at %s.\n", release_str, release_tmstr);
2017-07-22 09:16:44 -05:00
int argidx = 1;
std::string work = "work";
bool is_work_set = false;
(void)is_work_set;
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
2022-09-07 02:48:19 -05:00
veri_file::RegisterCallBackVerificStream(&verific_read_cb);
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#endif
if (GetSize(args) > argidx && (args[argidx] == "-set-error" || args[argidx] == "-set-warning" ||
args[argidx] == "-set-info" || args[argidx] == "-set-ignore"))
{
msg_type_t new_type;
if (args[argidx] == "-set-error")
new_type = VERIFIC_ERROR;
else if (args[argidx] == "-set-warning")
new_type = VERIFIC_WARNING;
else if (args[argidx] == "-set-info")
new_type = VERIFIC_INFO;
else if (args[argidx] == "-set-ignore")
new_type = VERIFIC_IGNORE;
else
log_abort();
for (argidx++; argidx < GetSize(args); argidx++) {
2022-12-02 10:11:17 -06:00
if (Strings::compare(args[argidx].c_str(), "errors")) {
Message::SetMessageType("VERI-1063", new_type);
Message::SetAllMessageType(VERIFIC_ERROR, new_type);
2022-12-02 10:11:17 -06:00
} else if (Strings::compare(args[argidx].c_str(), "warnings")) {
Message::SetAllMessageType(VERIFIC_WARNING, new_type);
2022-12-02 10:11:17 -06:00
} else if (Strings::compare(args[argidx].c_str(), "infos")) {
Message::SetAllMessageType(VERIFIC_INFO, new_type);
2022-12-02 10:11:17 -06:00
} else if (Strings::compare(args[argidx].c_str(), "comments")) {
Message::SetAllMessageType(VERIFIC_COMMENT, new_type);
2022-12-02 10:11:17 -06:00
} else {
Message::SetMessageType(args[argidx].c_str(), new_type);
2022-12-02 10:11:17 -06:00
}
}
goto check_error;
}
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#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (GetSize(args) > argidx && args[argidx] == "-vlog-incdir") {
for (argidx++; argidx < GetSize(args); argidx++)
verific_incdirs.push_back(args[argidx]);
goto check_error;
}
2017-10-13 13:23:19 -05:00
if (GetSize(args) > argidx && args[argidx] == "-vlog-libdir") {
for (argidx++; argidx < GetSize(args); argidx++)
verific_libdirs.push_back(args[argidx]);
2017-10-13 13:23:19 -05:00
goto check_error;
}
if (GetSize(args) > argidx && args[argidx] == "-vlog-libext") {
for (argidx++; argidx < GetSize(args); argidx++)
verific_libexts.push_back(args[argidx]);
goto check_error;
}
if (GetSize(args) > argidx && args[argidx] == "-vlog-define") {
for (argidx++; argidx < GetSize(args); argidx++) {
string name = args[argidx];
size_t equal = name.find('=');
if (equal != std::string::npos) {
string value = name.substr(equal+1);
name = name.substr(0, equal);
veri_file::DefineCmdLineMacro(name.c_str(), value.c_str());
} else {
veri_file::DefineCmdLineMacro(name.c_str());
}
}
goto check_error;
}
if (GetSize(args) > argidx && args[argidx] == "-vlog-undef") {
for (argidx++; argidx < GetSize(args); argidx++) {
string name = args[argidx];
veri_file::UndefineMacro(name.c_str());
}
goto check_error;
}
veri_file::RemoveAllLOptions();
#endif
for (int i = argidx; i < GetSize(args); i++)
{
if (args[i] == "-work" && i+1 < GetSize(args)) {
work = args[++i];
is_work_set = true;
continue;
}
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (args[i] == "-L" && i+1 < GetSize(args)) {
++i;
continue;
}
#endif
break;
}
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
veri_file::AddLOption(work.c_str());
#endif
for (int i = argidx; i < GetSize(args); i++)
{
if (args[i] == "-work" && i+1 < GetSize(args)) {
++i;
continue;
}
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (args[i] == "-L" && i+1 < GetSize(args)) {
if (args[++i] == work)
veri_file::RemoveAllLOptions();
continue;
}
#endif
break;
}
for (; argidx < GetSize(args); argidx++)
{
if (args[argidx] == "-work" && argidx+1 < GetSize(args)) {
work = args[++argidx];
is_work_set = true;
continue;
}
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (args[argidx] == "-L" && argidx+1 < GetSize(args)) {
veri_file::AddLOption(args[++argidx].c_str());
continue;
}
#endif
break;
}
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
2021-06-16 04:21:44 -05:00
if (GetSize(args) > argidx && (args[argidx] == "-f" || args[argidx] == "-F"))
{
2022-05-23 12:13:45 -05:00
unsigned verilog_mode = veri_file::UNDEFINED;
bool is_formal = false;
const char* filename = nullptr;
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Verific::veri_file::f_file_flags flags = (args[argidx] == "-f") ? veri_file::F_FILE_NONE : veri_file::F_FILE_CAPITAL;
for (argidx++; argidx < GetSize(args); argidx++) {
if (args[argidx] == "-vlog95") {
verilog_mode = veri_file::VERILOG_95;
continue;
} else if (args[argidx] == "-vlog2k") {
verilog_mode = veri_file::VERILOG_2K;
continue;
} else if (args[argidx] == "-sv2005") {
verilog_mode = veri_file::SYSTEM_VERILOG_2005;
continue;
} else if (args[argidx] == "-sv2009") {
verilog_mode = veri_file::SYSTEM_VERILOG_2009;
continue;
} else if (args[argidx] == "-sv2012" || args[argidx] == "-sv" || args[argidx] == "-formal") {
verilog_mode = veri_file::SYSTEM_VERILOG;
if (args[argidx] == "-formal") is_formal = true;
continue;
} else if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
if (!filename) {
filename = args[argidx].c_str();
continue;
} else {
log_cmd_error("Only one filename can be specified.\n");
}
}
if (!filename)
log_cmd_error("Filname must be specified.\n");
unsigned analysis_mode = verilog_mode; // keep default as provided by user if not defined in file
Array *file_names = veri_file::ProcessFFile(filename, flags, analysis_mode);
if (analysis_mode != verilog_mode)
log_warning("Provided verilog mode differs from one specified in file.\n");
veri_file::DefineMacro("YOSYS");
2021-06-16 04:21:44 -05:00
veri_file::DefineMacro("VERIFIC");
veri_file::DefineMacro(is_formal ? "FORMAL" : "SYNTHESIS");
2021-06-16 04:21:44 -05:00
2022-05-23 12:13:45 -05:00
if (!veri_file::AnalyzeMultipleFiles(file_names, analysis_mode, work.c_str(), veri_file::MFCU)) {
2021-06-16 04:21:44 -05:00
verific_error_msg.clear();
log_cmd_error("Reading Verilog/SystemVerilog sources failed.\n");
}
delete file_names;
verific_import_pending = true;
goto check_error;
}
if (GetSize(args) > argidx && (args[argidx] == "-vlog95" || args[argidx] == "-vlog2k" || args[argidx] == "-sv2005" ||
args[argidx] == "-sv2009" || args[argidx] == "-sv2012" || args[argidx] == "-sv" || args[argidx] == "-formal"))
{
Array file_names;
unsigned verilog_mode;
if (args[argidx] == "-vlog95")
verilog_mode = veri_file::VERILOG_95;
else if (args[argidx] == "-vlog2k")
verilog_mode = veri_file::VERILOG_2K;
else if (args[argidx] == "-sv2005")
verilog_mode = veri_file::SYSTEM_VERILOG_2005;
else if (args[argidx] == "-sv2009")
verilog_mode = veri_file::SYSTEM_VERILOG_2009;
else if (args[argidx] == "-sv2012" || args[argidx] == "-sv" || args[argidx] == "-formal")
verilog_mode = veri_file::SYSTEM_VERILOG;
else
log_abort();
2014-03-09 14:40:04 -05:00
veri_file::DefineMacro("YOSYS");
veri_file::DefineMacro("VERIFIC");
veri_file::DefineMacro(args[argidx] == "-formal" ? "FORMAL" : "SYNTHESIS");
2019-08-07 14:20:08 -05:00
for (argidx++; argidx < GetSize(args) && GetSize(args[argidx]) >= 2 && args[argidx].compare(0, 2, "-D") == 0; argidx++) {
std::string name = args[argidx].substr(2);
if (args[argidx] == "-D") {
if (++argidx >= GetSize(args))
break;
name = args[argidx];
}
size_t equal = name.find('=');
if (equal != std::string::npos) {
string value = name.substr(equal+1);
name = name.substr(0, equal);
veri_file::DefineMacro(name.c_str(), value.c_str());
} else {
veri_file::DefineMacro(name.c_str());
}
}
for (auto &dir : verific_incdirs)
veri_file::AddIncludeDir(dir.c_str());
for (auto &dir : verific_libdirs)
veri_file::AddYDir(dir.c_str());
for (auto &ext : verific_libexts)
veri_file::AddLibExt(ext.c_str());
bool flag_lib = false;
while (argidx < GetSize(args)) {
if (args[argidx] == "-lib") {
flag_lib = true;
argidx++;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
std::string filename = frontent_rewrite(args, argidx, tmp_files);
file_names.Insert(strdup(filename.c_str()));
}
Map map(POINTER_HASH);
add_modules_to_map(map, work, flag_lib);
2020-07-29 08:28:33 -05:00
if (!veri_file::AnalyzeMultipleFiles(&file_names, verilog_mode, work.c_str(), veri_file::MFCU)) {
verific_error_msg.clear();
log_cmd_error("Reading Verilog/SystemVerilog sources failed.\n");
2020-07-29 08:28:33 -05:00
}
char* fn;
int i = 0;
FOREACH_ARRAY_ITEM(&file_names, i, fn) {
free(fn);
}
set_modules_to_blackbox(map, work, flag_lib);
verific_import_pending = true;
goto check_error;
2014-03-09 14:40:04 -05:00
}
2024-06-07 07:58:33 -05:00
#endif
2014-03-09 14:40:04 -05:00
2021-10-20 03:02:58 -05:00
#ifdef VERIFIC_VHDL_SUPPORT
2017-07-22 09:16:44 -05:00
if (GetSize(args) > argidx && args[argidx] == "-vhdl87") {
2015-11-12 12:28:14 -06:00
vhdl_file::SetDefaultLibraryPath((proc_share_dirname() + "verific/vhdl_vdbs_1987").c_str());
bool flag_lib = false;
2024-06-07 07:58:33 -05:00
argidx++;
while (argidx < GetSize(args)) {
if (args[argidx] == "-lib") {
flag_lib = true;
2024-06-07 07:58:33 -05:00
argidx++;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
Map map(POINTER_HASH);
add_units_to_map(map, work, flag_lib);
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!vhdl_file::Analyze(filename.c_str(), work.c_str(), vhdl_file::VHDL_87))
log_cmd_error("Reading `%s' in VHDL_87 mode failed.\n", filename.c_str());
set_units_to_blackbox(map, work, flag_lib);
}
verific_import_pending = true;
goto check_error;
2014-03-09 14:40:04 -05:00
}
2017-07-22 09:16:44 -05:00
if (GetSize(args) > argidx && args[argidx] == "-vhdl93") {
vhdl_file::SetDefaultLibraryPath((proc_share_dirname() + "verific/vhdl_vdbs_1993").c_str());
bool flag_lib = false;
2024-06-07 07:58:33 -05:00
argidx++;
while (argidx < GetSize(args)) {
if (args[argidx] == "-lib") {
flag_lib = true;
2024-06-07 07:58:33 -05:00
argidx++;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
Map map(POINTER_HASH);
add_units_to_map(map, work, flag_lib);
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!vhdl_file::Analyze(filename.c_str(), work.c_str(), vhdl_file::VHDL_93))
log_cmd_error("Reading `%s' in VHDL_93 mode failed.\n", filename.c_str());
set_units_to_blackbox(map, work, flag_lib);
}
verific_import_pending = true;
goto check_error;
2014-03-09 14:40:04 -05:00
}
2017-07-22 09:16:44 -05:00
if (GetSize(args) > argidx && args[argidx] == "-vhdl2k") {
vhdl_file::SetDefaultLibraryPath((proc_share_dirname() + "verific/vhdl_vdbs_1993").c_str());
bool flag_lib = false;
2024-06-07 07:58:33 -05:00
argidx++;
while (argidx < GetSize(args)) {
if (args[argidx] == "-lib") {
flag_lib = true;
2024-06-07 07:58:33 -05:00
argidx++;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
Map map(POINTER_HASH);
add_units_to_map(map, work, flag_lib);
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!vhdl_file::Analyze(filename.c_str(), work.c_str(), vhdl_file::VHDL_2K))
log_cmd_error("Reading `%s' in VHDL_2K mode failed.\n", filename.c_str());
set_units_to_blackbox(map, work, flag_lib);
}
verific_import_pending = true;
goto check_error;
2014-03-09 14:40:04 -05:00
}
2024-03-28 07:21:55 -05:00
if (GetSize(args) > argidx && (args[argidx] == "-vhdl2019")) {
vhdl_file::SetDefaultLibraryPath((proc_share_dirname() + "verific/vhdl_vdbs_2019").c_str());
bool flag_lib = false;
2024-06-07 07:58:33 -05:00
argidx++;
while (argidx < GetSize(args)) {
2024-03-28 07:21:55 -05:00
if (args[argidx] == "-lib") {
flag_lib = true;
2024-06-07 07:58:33 -05:00
argidx++;
2024-03-28 07:21:55 -05:00
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
Map map(POINTER_HASH);
add_units_to_map(map, work, flag_lib);
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!vhdl_file::Analyze(filename.c_str(), work.c_str(), vhdl_file::VHDL_2019))
log_cmd_error("Reading `%s' in VHDL_2019 mode failed.\n", filename.c_str());
set_units_to_blackbox(map, work, flag_lib);
}
verific_import_pending = true;
goto check_error;
}
2017-07-28 08:32:54 -05:00
if (GetSize(args) > argidx && (args[argidx] == "-vhdl2008" || args[argidx] == "-vhdl")) {
vhdl_file::SetDefaultLibraryPath((proc_share_dirname() + "verific/vhdl_vdbs_2008").c_str());
bool flag_lib = false;
2024-06-07 07:58:33 -05:00
argidx++;
while (argidx < GetSize(args)) {
if (args[argidx] == "-lib") {
flag_lib = true;
2024-06-07 07:58:33 -05:00
argidx++;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
Map map(POINTER_HASH);
add_units_to_map(map, work, flag_lib);
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!vhdl_file::Analyze(filename.c_str(), work.c_str(), vhdl_file::VHDL_2008))
log_cmd_error("Reading `%s' in VHDL_2008 mode failed.\n", filename.c_str());
set_units_to_blackbox(map, work, flag_lib);
}
verific_import_pending = true;
goto check_error;
2014-03-09 14:40:04 -05:00
}
2021-10-20 03:02:58 -05:00
#endif
#ifdef VERIFIC_EDIF_SUPPORT
if (GetSize(args) > argidx && args[argidx] == "-edif") {
edif_file edif;
argidx++;
while (argidx < GetSize(args)) {
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!edif.Read(filename.c_str()))
log_cmd_error("Reading `%s' in EDIF mode failed.\n", filename.c_str());
}
goto check_error;
}
#endif
#ifdef VERIFIC_LIBERTY_SUPPORT
if (GetSize(args) > argidx && args[argidx] == "-liberty") {
2022-10-31 04:51:28 -05:00
bool flag_lib = false;
for (argidx++; argidx < GetSize(args); argidx++) {
if (args[argidx] == "-lib") {
flag_lib = true;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
break;
}
while (argidx < GetSize(args)) {
std::string filename = frontent_rewrite(args, argidx, tmp_files);
if (!synlib_file::Read(filename.c_str(), is_work_set ? work.c_str() : nullptr))
log_cmd_error("Reading `%s' in LIBERTY mode failed.\n", filename.c_str());
2022-10-31 04:51:28 -05:00
SynlibLibrary *lib = synlib_file::GetLastLibraryAnalyzed();
if (lib && flag_lib) {
MapIter mi ;
Verific::Cell *c ;
FOREACH_CELL_OF_LIBRARY(lib->GetLibrary(),mi,c) {
MapIter ni ;
Netlist *nl;
FOREACH_NETLIST_OF_CELL(c, ni, nl) {
if (nl)
nl->MakeBlackBox();
}
}
}
}
goto check_error;
}
#endif
2020-08-31 05:22:26 -05:00
if (argidx < GetSize(args) && args[argidx] == "-pp")
{
const char* filename = nullptr;
const char* module = nullptr;
bool mode_vhdl = false;
for (argidx++; argidx < GetSize(args); argidx++) {
2021-10-20 03:02:58 -05:00
#ifdef VERIFIC_VHDL_SUPPORT
if (args[argidx] == "-vhdl") {
mode_vhdl = true;
continue;
}
2021-10-20 03:02:58 -05:00
#endif
if (args[argidx] == "-verilog") {
mode_vhdl = false;
continue;
}
if (args[argidx].compare(0, 1, "-") == 0) {
cmd_error(args, argidx, "unknown option");
goto check_error;
}
if (!filename) {
filename = args[argidx].c_str();
continue;
}
if (module)
log_cmd_error("Only one module can be specified.\n");
module = args[argidx].c_str();
}
if (argidx < GetSize(args))
cmd_error(args, argidx, "unknown option/parameter");
if (!filename)
log_cmd_error("Filname must be specified.\n");
if (mode_vhdl)
2021-10-20 03:02:58 -05:00
#ifdef VERIFIC_VHDL_SUPPORT
vhdl_file::PrettyPrint(filename, module, work.c_str());
2021-10-20 03:02:58 -05:00
#else
goto check_error;
#endif
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
else
veri_file::PrettyPrint(filename, module, work.c_str());
2024-06-07 07:58:33 -05:00
#endif
goto check_error;
}
2017-07-22 09:16:44 -05:00
if (GetSize(args) > argidx && args[argidx] == "-import")
2014-03-09 14:40:04 -05:00
{
std::map<std::string,Netlist*> nl_todo, nl_done;
2017-07-22 09:16:44 -05:00
bool mode_all = false, mode_gates = false, mode_keep = false;
bool mode_nosva = false, mode_names = false, mode_verific = false;
bool mode_autocover = false, mode_fullinit = false;
bool flatten = false, extnets = false, mode_cells = false;
bool split_complex_ports = true;
2017-07-24 06:57:16 -05:00
string dumpfile;
string ppfile;
2019-03-08 19:54:01 -06:00
Map parameters(STRING_HASH);
2014-03-09 14:40:04 -05:00
2017-07-22 09:16:44 -05:00
for (argidx++; argidx < GetSize(args); argidx++) {
2014-03-14 05:46:13 -05:00
if (args[argidx] == "-all") {
mode_all = true;
continue;
}
if (args[argidx] == "-gates") {
mode_gates = true;
continue;
}
if (args[argidx] == "-flatten") {
flatten = true;
continue;
}
if (args[argidx] == "-no-split-complex-ports") {
split_complex_ports = false;
continue;
}
2017-07-25 07:53:11 -05:00
if (args[argidx] == "-extnets") {
extnets = true;
continue;
}
2017-07-22 09:16:44 -05:00
if (args[argidx] == "-k") {
mode_keep = true;
continue;
}
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
if (args[argidx] == "-nosva") {
mode_nosva = true;
continue;
}
if (args[argidx] == "-L" && argidx+1 < GetSize(args)) {
verific_sva_fsm_limit = atoi(args[++argidx].c_str());
continue;
}
if (args[argidx] == "-autocover") {
mode_autocover = true;
continue;
}
2024-06-07 07:58:33 -05:00
#endif
2024-06-10 03:12:33 -05:00
if (args[argidx] == "-n") {
mode_names = true;
continue;
}
if (args[argidx] == "-fullinit") {
mode_fullinit = true;
continue;
}
if (args[argidx] == "-cells") {
mode_cells = true;
continue;
}
2019-03-08 19:54:01 -06:00
if (args[argidx] == "-chparam" && argidx+2 < GetSize(args)) {
const std::string &key = args[++argidx];
const std::string &value = args[++argidx];
2019-03-08 19:54:01 -06:00
unsigned new_insertion = parameters.Insert(key.c_str(), value.c_str(),
2023-07-24 09:18:21 -05:00
1 /* force_overwrite */);
2019-03-08 19:54:01 -06:00
if (!new_insertion)
log_warning_noprefix("-chparam %s already specified: overwriting.\n", key.c_str());
continue;
}
if (args[argidx] == "-V") {
mode_verific = true;
continue;
}
if (args[argidx] == "-v") {
verific_verbose = 1;
continue;
}
if (args[argidx] == "-vv") {
verific_verbose = 2;
continue;
}
2017-07-24 06:57:16 -05:00
if (args[argidx] == "-d" && argidx+1 < GetSize(args)) {
dumpfile = args[++argidx];
continue;
}
if (args[argidx] == "-pp" && argidx+1 < GetSize(args)) {
ppfile = args[++argidx];
continue;
}
2014-03-14 05:46:13 -05:00
break;
}
2019-08-07 14:20:08 -05:00
if (argidx > GetSize(args) && args[argidx].compare(0, 1, "-") == 0)
cmd_error(args, argidx, "unknown option");
2014-03-14 05:46:13 -05:00
std::set<std::string> top_mod_names;
if (mode_all)
{
2024-06-17 07:49:58 -05:00
import_all(work.c_str(), &nl_todo, &parameters, true, ppfile);
2014-03-14 05:46:13 -05:00
}
else
2017-07-25 06:33:25 -05:00
{
2017-07-22 09:16:44 -05:00
if (argidx == GetSize(args))
2019-11-19 15:25:38 -06:00
cmd_error(args, argidx, "No top module specified.\n");
2014-03-09 14:40:04 -05:00
2024-06-17 07:49:58 -05:00
std::vector<std::string> tops;
for (int i = argidx; i < GetSize(args); i++)
tops.push_back(args[i].c_str());
top_mod_names = import_tops(work.c_str(), &nl_todo, &parameters, true, ppfile, tops) ;
2014-03-09 14:40:04 -05:00
}
if (mode_cells) {
log("Importing all cells.\n");
Libset *gls = Libset::Global() ;
MapIter it ;
Library *l ;
FOREACH_LIBRARY_OF_LIBSET(gls,it,l) {
MapIter mi ;
Verific::Cell *c ;
FOREACH_CELL_OF_LIBRARY(l,mi,c) {
if (!mode_verific && (l == Library::Primitives() || l == Library::Operators())) continue;
MapIter ni ;
if (c->NumOfNetlists() == 1) {
c->GetFirstNetlist()->SetName("");
}
Netlist *nl;
FOREACH_NETLIST_OF_CELL(c, ni, nl) {
if (nl)
nl_todo.emplace(nl->CellBaseName(), nl);
}
}
}
}
2014-03-09 14:40:04 -05:00
if (!verific_error_msg.empty())
goto check_error;
if (flatten) {
for (auto nl : nl_todo)
nl.second->Flatten();
}
2017-07-25 07:53:11 -05:00
if (extnets) {
VerificExtNets worker;
for (auto nl : nl_todo)
worker.run(nl.second);
2017-07-25 07:53:11 -05:00
}
2017-07-24 06:57:16 -05:00
if (split_complex_ports) {
for (auto nl : nl_todo)
nl.second->ChangePortBusStructures(1 /* hierarchical */);
}
2020-01-24 12:12:52 -06:00
2024-06-07 07:58:33 -05:00
#ifdef VERIFIC_SYSTEMVERILOG_SUPPORT
2017-07-25 07:53:11 -05:00
if (!dumpfile.empty()) {
2017-07-24 06:57:16 -05:00
VeriWrite veri_writer;
2017-07-25 07:53:11 -05:00
veri_writer.WriteFile(dumpfile.c_str(), Netlist::PresentDesign());
2017-07-24 06:57:16 -05:00
}
2024-06-07 07:58:33 -05:00
#endif
2014-03-09 14:40:04 -05:00
while (!nl_todo.empty()) {
auto it = nl_todo.begin();
Netlist *nl = it->second;
if (nl_done.count(it->first) == 0) {
VerificImporter importer(mode_gates, mode_keep, mode_nosva,
mode_names, mode_verific, mode_autocover, mode_fullinit);
2022-03-26 03:43:51 -05:00
nl_done[it->first] = it->second;
importer.import_netlist(design, nl, nl_todo, top_mod_names.count(nl->CellBaseName()));
}
nl_todo.erase(it);
2014-03-09 14:40:04 -05:00
}
2024-06-17 07:49:58 -05:00
verific_cleanup();
goto check_error;
2014-03-09 14:40:04 -05:00
}
if (argidx < GetSize(args) && args[argidx] == "-cfg")
{
if (argidx+1 == GetSize(args)) {
MapIter mi;
const char *k, *s;
unsigned long v;
pool<std::string> lines;
FOREACH_MAP_ITEM(RuntimeFlags::GetVarMap(), mi, &k, &v) {
lines.insert(stringf("%s %lu", k, v));
}
FOREACH_MAP_ITEM(RuntimeFlags::GetStringVarMap(), mi, &k, &s) {
if (s == nullptr)
lines.insert(stringf("%s NULL", k));
else
lines.insert(stringf("%s \"%s\"", k, s));
}
lines.sort();
for (auto &line : lines)
log("verific -cfg %s\n", line.c_str());
goto check_error;
}
if (argidx+2 == GetSize(args)) {
const char *k = args[argidx+1].c_str();
if (RuntimeFlags::HasUnsignedVar(k)) {
log("verific -cfg %s %lu\n", k, RuntimeFlags::GetVar(k));
goto check_error;
}
if (RuntimeFlags::HasStringVar(k)) {
const char *s = RuntimeFlags::GetStringVar(k);
if (s == nullptr)
log("verific -cfg %s NULL\n", k);
else
log("verific -cfg %s \"%s\"\n", k, s);
goto check_error;
}
log_cmd_error("Can't find Verific Runtime flag '%s'.\n", k);
}
if (argidx+3 == GetSize(args)) {
const auto &k = args[argidx+1], &v = args[argidx+2];
if (v == "NULL") {
RuntimeFlags::SetStringVar(k.c_str(), nullptr);
goto check_error;
}
if (v[0] == '"') {
std::string s = v.substr(1, GetSize(v)-2);
RuntimeFlags::SetStringVar(k.c_str(), s.c_str());
goto check_error;
}
char *endptr;
unsigned long n = strtol(v.c_str(), &endptr, 0);
if (*endptr == 0) {
RuntimeFlags::SetVar(k.c_str(), n);
goto check_error;
}
}
}
#ifdef YOSYSHQ_VERIFIC_EXTENSIONS
if (VerificExtensions::Execute(args, argidx, work,
2023-07-24 09:18:21 -05:00
[this](const std::vector<std::string> &args, size_t argidx, std::string msg)
{ cmd_error(args, argidx, msg); } )) {
goto check_error;
}
#endif
2019-11-19 15:24:48 -06:00
cmd_error(args, argidx, "Missing or unsupported mode parameter.\n");
check_error:
if (tmp_files.size()) {
log("Removing temp files.\n");
for(auto &fn : tmp_files) {
remove(fn.c_str());
}
}
2017-10-05 07:38:32 -05:00
if (!verific_error_msg.empty())
log_error("%s\n", verific_error_msg.c_str());
2014-03-09 14:40:04 -05:00
}
#else /* YOSYS_ENABLE_VERIFIC */
2020-06-18 18:34:52 -05:00
void execute(std::vector<std::string>, RTLIL::Design *) override {
log_cmd_error("This version of Yosys is built without Verific support.\n"
"\n"
"Use YosysHQ Tabby CAD Suite if you need Yosys+Verific.\n"
"https://www.yosyshq.com/\n"
"\n"
"Contact office@yosyshq.com for free evaluation\n"
"binaries of YosysHQ Tabby CAD Suite.\n");
2014-03-09 14:40:04 -05:00
}
#endif
} VerificPass;
2015-07-02 04:14:30 -05:00
struct ReadPass : public Pass {
ReadPass() : Pass("read", "load HDL designs") { }
2020-06-18 18:34:52 -05:00
void help() override
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" read {-vlog95|-vlog2k|-sv2005|-sv2009|-sv2012|-sv|-formal} <verilog-file>..\n");
log("\n");
log("Load the specified Verilog/SystemVerilog files. (Full SystemVerilog support\n");
log("is only available via Verific.)\n");
log("\n");
log("Additional -D<macro>[=<value>] options may be added after the option indicating\n");
log("the language version (and before file names) to set additional verilog defines.\n");
log("\n");
log("\n");
2021-10-20 03:02:58 -05:00
#ifdef VERIFIC_VHDL_SUPPORT
2024-03-28 07:21:55 -05:00
log(" read {-vhdl87|-vhdl93|-vhdl2k|-vhdl2008|-vhdl2019|-vhdl} <vhdl-file>..\n");
log("\n");
log("Load the specified VHDL files. (Requires Verific.)\n");
log("\n");
log("\n");
#endif
#ifdef VERIFIC_EDIF_SUPPORT
log(" read {-edif} <edif-file>..\n");
log("\n");
log("Load the specified EDIF files. (Requires Verific.)\n");
log("\n");
log("\n");
2021-10-20 03:02:58 -05:00
#endif
log(" read {-liberty} <liberty-file>..\n");
log("\n");
log("Load the specified Liberty files.\n");
log("\n");
2022-10-31 04:51:28 -05:00
log(" -lib\n");
log(" only create empty blackbox modules\n");
log("\n");
log("\n");
2021-06-16 04:21:44 -05:00
log(" read {-f|-F} <command-file>\n");
log("\n");
log("Load and execute the specified command file. (Requires Verific.)\n");
2021-07-05 02:16:54 -05:00
log("Check verific command for more information about supported commands in file.\n");
2021-06-16 04:21:44 -05:00
log("\n");
log("\n");
log(" read -define <macro>[=<value>]..\n");
log("\n");
log("Set global Verilog/SystemVerilog defines.\n");
log("\n");
log("\n");
log(" read -undef <macro>..\n");
log("\n");
log("Unset global Verilog/SystemVerilog defines.\n");
log("\n");
log("\n");
log(" read -incdir <directory>\n");
log("\n");
log("Add directory to global Verilog/SystemVerilog include directories.\n");
log("\n");
log("\n");
log(" read -verific\n");
log(" read -noverific\n");
log("\n");
log("Subsequent calls to 'read' will either use or not use Verific. Calling 'read'\n");
log("with -verific will result in an error on Yosys binaries that are built without\n");
log("Verific support. The default is to use Verific if it is available.\n");
log("\n");
}
2020-06-18 18:34:52 -05:00
void execute(std::vector<std::string> args, RTLIL::Design *design) override
{
#ifdef YOSYS_ENABLE_VERIFIC
static bool verific_available = !check_noverific_env();
#else
static bool verific_available = false;
#endif
static bool use_verific = verific_available;
if (args.size() < 2 || args[1][0] != '-')
2019-11-19 15:24:48 -06:00
cmd_error(args, 1, "Missing mode parameter.\n");
if (args[1] == "-verific" || args[1] == "-noverific") {
if (args.size() != 2)
2019-11-19 15:24:48 -06:00
cmd_error(args, 1, "Additional arguments to -verific/-noverific.\n");
if (args[1] == "-verific") {
if (!verific_available)
2019-11-19 15:24:48 -06:00
cmd_error(args, 1, "This version of Yosys is built without Verific support.\n");
use_verific = true;
} else {
use_verific = false;
}
return;
}
if (args.size() < 3)
2019-11-19 15:24:48 -06:00
cmd_error(args, 3, "Missing file name parameter.\n");
if (args[1] == "-vlog95" || args[1] == "-vlog2k") {
if (use_verific) {
args[0] = "verific";
} else {
args[0] = "read_verilog";
args[1] = "-defer";
}
Pass::call(design, args);
return;
}
if (args[1] == "-sv2005" || args[1] == "-sv2009" || args[1] == "-sv2012" || args[1] == "-sv" || args[1] == "-formal") {
if (use_verific) {
args[0] = "verific";
} else {
args[0] = "read_verilog";
if (args[1] == "-formal")
args.insert(args.begin()+1, std::string());
args[1] = "-sv";
args.insert(args.begin()+1, "-defer");
}
Pass::call(design, args);
return;
}
2021-10-20 03:02:58 -05:00
#ifdef VERIFIC_VHDL_SUPPORT
2024-03-28 07:21:55 -05:00
if (args[1] == "-vhdl87" || args[1] == "-vhdl93" || args[1] == "-vhdl2k" || args[1] == "-vhdl2008" || args[1] == "-vhdl2019" || args[1] == "-vhdl") {
if (use_verific) {
args[0] = "verific";
Pass::call(design, args);
} else {
2019-11-19 15:24:48 -06:00
cmd_error(args, 1, "This version of Yosys is built without Verific support.\n");
}
return;
}
#endif
#ifdef VERIFIC_EDIF_SUPPORT
if (args[1] == "-edif") {
if (use_verific) {
args[0] = "verific";
Pass::call(design, args);
} else {
cmd_error(args, 1, "This version of Yosys is built without Verific support.\n");
}
return;
}
2021-10-20 03:02:58 -05:00
#endif
if (args[1] == "-liberty") {
if (use_verific) {
args[0] = "verific";
} else {
args[0] = "read_liberty";
}
Pass::call(design, args);
return;
}
2021-06-16 04:21:44 -05:00
if (args[1] == "-f" || args[1] == "-F") {
if (use_verific) {
args[0] = "verific";
Pass::call(design, args);
} else {
cmd_error(args, 1, "This version of Yosys is built without Verific support.\n");
}
return;
}
if (args[1] == "-define") {
if (use_verific) {
args[0] = "verific";
args[1] = "-vlog-define";
Pass::call(design, args);
}
args[0] = "verilog_defines";
args.erase(args.begin()+1, args.begin()+2);
for (int i = 1; i < GetSize(args); i++)
args[i] = "-D" + args[i];
Pass::call(design, args);
return;
}
if (args[1] == "-undef") {
if (use_verific) {
args[0] = "verific";
args[1] = "-vlog-undef";
Pass::call(design, args);
}
args[0] = "verilog_defines";
args.erase(args.begin()+1, args.begin()+2);
for (int i = 1; i < GetSize(args); i++)
args[i] = "-U" + args[i];
Pass::call(design, args);
return;
}
if (args[1] == "-incdir") {
if (use_verific) {
args[0] = "verific";
args[1] = "-vlog-incdir";
Pass::call(design, args);
}
args[0] = "verilog_defaults";
args[1] = "-add";
for (int i = 2; i < GetSize(args); i++)
args[i] = "-I" + args[i];
Pass::call(design, args);
return;
}
2019-11-19 15:24:48 -06:00
cmd_error(args, 1, "Missing or unsupported mode parameter.\n");
}
} ReadPass;
PRIVATE_NAMESPACE_END