// -*- mode: C++; c-file-style: "cc-mode" -*-
//=============================================================================
//
// THIS MODULE IS PUBLICLY LICENSED
//
// Copyright 2001-2020 by Wilson Snyder. This program is free software; you
// can redistribute it and/or modify it under the terms of either the GNU
// Lesser General Public License Version 3 or the Perl Artistic License
// Version 2.0.
// SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0
//
//=============================================================================
///
/// \file
/// \brief C++ Tracing in FST Format
///
//=============================================================================
// SPDIFF_OFF
// clang-format off
#define __STDC_LIMIT_MACROS // UINT64_MAX
#include "verilated.h"
#include "verilated_fst_c.h"
// GTKWave configuration
#ifdef VL_TRACE_FST_WRITER_THREAD
# define HAVE_LIBPTHREAD
# define FST_WRITER_PARALLEL
#endif
// Include the GTKWave implementation directly
#define FST_CONFIG_INCLUDE "fst_config.h"
#include "gtkwave/fastlz.c"
#include "gtkwave/fstapi.c"
#include "gtkwave/lz4.c"
#include <algorithm>
#include <iterator>
#include <sstream>
#if defined(_WIN32) && !defined(__MINGW32__) && !defined(__CYGWIN__)
# include <io.h>
#else
# include <unistd.h>
#endif
// clang-format on
//=============================================================================
// Specialization of the generics for this trace format
#define VL_DERIVED_T VerilatedFst
#include "verilated_trace_imp.cpp"
#undef VL_DERIVED_T
//=============================================================================
// VerilatedFst
VerilatedFst::VerilatedFst(void* fst)
: m_fst{fst} {}
VerilatedFst::~VerilatedFst() {
if (m_fst) fstWriterClose(m_fst);
if (m_symbolp) VL_DO_CLEAR(delete[] m_symbolp, m_symbolp = nullptr);
if (m_strbuf) VL_DO_CLEAR(delete[] m_strbuf, m_strbuf = nullptr);
}
void VerilatedFst::open(const char* filename) VL_MT_UNSAFE {
m_assertOne.check();
m_fst = fstWriterCreate(filename, 1);
fstWriterSetPackType(m_fst, FST_WR_PT_LZ4);
fstWriterSetTimescaleFromString(m_fst, timeResStr().c_str()); // lintok-begin-on-ref
#ifdef VL_TRACE_FST_WRITER_THREAD
fstWriterSetParallelMode(m_fst, 1);
#endif
m_curScope.clear();
VerilatedTrace<VerilatedFst>::traceInit();
// Clear the scope stack
auto it = m_curScope.begin();
while (it != m_curScope.end()) {
fstWriterSetUpscope(m_fst);
it = m_curScope.erase(it);
}
// convert m_code2symbol into an array for fast lookup
if (!m_symbolp) {
m_symbolp = new fstHandle[nextCode()];
for (const auto& i : m_code2symbol) m_symbolp[i.first] = i.second;
}
m_code2symbol.clear();
// Allocate string buffer for arrays
if (!m_strbuf) { m_strbuf = new char[maxBits() + 32]; }
}
void VerilatedFst::close() {
m_assertOne.check();
VerilatedTrace<VerilatedFst>::close();
fstWriterClose(m_fst);
m_fst = nullptr;
}
void VerilatedFst::flush() {
VerilatedTrace<VerilatedFst>::flush();
fstWriterFlushContext(m_fst);
}
void VerilatedFst::emitTimeChange(vluint64_t timeui) { fstWriterEmitTimeChange(m_fst, timeui); }
//=============================================================================
// Decl
void VerilatedFst::declDTypeEnum(int dtypenum, const char* name, vluint32_t elements,
unsigned int minValbits, const char** itemNamesp,
const char** itemValuesp) {
fstEnumHandle enumNum
= fstWriterCreateEnumTable(m_fst, name, elements, minValbits, itemNamesp, itemValuesp);
m_local2fstdtype[dtypenum] = enumNum;
}
void VerilatedFst::declare(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum, int msb, int lsb) {
const int bits = ((msb > lsb) ? (msb - lsb) : (lsb - msb)) + 1;
VerilatedTrace<VerilatedFst>::declCode(code, bits, false);
std::istringstream nameiss(name);
std::istream_iterator<std::string> beg(nameiss);
std::istream_iterator<std::string> end;
std::list<std::string> tokens(beg, end); // Split name
std::string symbol_name(tokens.back());
tokens.pop_back(); // Remove symbol name from hierarchy
tokens.insert(tokens.begin(), moduleName()); // Add current module to the hierarchy
// Find point where current and new scope diverge
auto cur_it = m_curScope.begin();
auto new_it = tokens.begin();
while (cur_it != m_curScope.end() && new_it != tokens.end()) {
if (*cur_it != *new_it) break;
++cur_it;
++new_it;
}
// Go back to the common point
while (cur_it != m_curScope.end()) {
fstWriterSetUpscope(m_fst);
cur_it = m_curScope.erase(cur_it);
}
// Follow the hierarchy of the new variable from the common scope point
while (new_it != tokens.end()) {
fstWriterSetScope(m_fst, FST_ST_VCD_SCOPE, new_it->c_str(), nullptr);
m_curScope.push_back(*new_it);
new_it = tokens.erase(new_it);
}
std::stringstream name_ss;
name_ss << symbol_name;
if (array) name_ss << "(" << arraynum << ")";
std::string name_str = name_ss.str();
if (dtypenum > 0) {
fstEnumHandle enumNum = m_local2fstdtype[dtypenum];
fstWriterEmitEnumTableRef(m_fst, enumNum);
}
const auto it = vlstd::as_const(m_code2symbol).find(code);
if (it == m_code2symbol.end()) { // New
m_code2symbol[code]
= fstWriterCreateVar(m_fst, vartype, vardir, bits, name_str.c_str(), 0);
} else { // Alias
fstWriterCreateVar(m_fst, vartype, vardir, bits, name_str.c_str(), it->second);
}
}
void VerilatedFst::declBit(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum) {
declare(code, name, dtypenum, vardir, vartype, array, arraynum, 0, 0);
}
void VerilatedFst::declBus(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum, int msb, int lsb) {
declare(code, name, dtypenum, vardir, vartype, array, arraynum, msb, lsb);
}
void VerilatedFst::declQuad(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum, int msb, int lsb) {
declare(code, name, dtypenum, vardir, vartype, array, arraynum, msb, lsb);
}
void VerilatedFst::declArray(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum, int msb, int lsb) {
declare(code, name, dtypenum, vardir, vartype, array, arraynum, msb, lsb);
}
void VerilatedFst::declDouble(vluint32_t code, const char* name, int dtypenum, fstVarDir vardir,
fstVarType vartype, bool array, int arraynum) {
declare(code, name, dtypenum, vardir, vartype, array, arraynum, 63, 0);
}
// Note: emit* are only ever called from one place (full* in
// verilated_trace_imp.cpp, which is included in this file at the top),
// so always inline them.
VL_ATTR_ALWINLINE
void VerilatedFst::emitBit(vluint32_t code, CData newval) {
fstWriterEmitValueChange(m_fst, m_symbolp[code], newval ? "1" : "0");
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitCData(vluint32_t code, CData newval, int bits) {
char buf[VL_BYTESIZE];
cvtCDataToStr(buf, newval << (VL_BYTESIZE - bits));
fstWriterEmitValueChange(m_fst, m_symbolp[code], buf);
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitSData(vluint32_t code, SData newval, int bits) {
char buf[VL_SHORTSIZE];
cvtSDataToStr(buf, newval << (VL_SHORTSIZE - bits));
fstWriterEmitValueChange(m_fst, m_symbolp[code], buf);
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitIData(vluint32_t code, IData newval, int bits) {
char buf[VL_IDATASIZE];
cvtIDataToStr(buf, newval << (VL_IDATASIZE - bits));
fstWriterEmitValueChange(m_fst, m_symbolp[code], buf);
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitQData(vluint32_t code, QData newval, int bits) {
char buf[VL_QUADSIZE];
cvtQDataToStr(buf, newval << (VL_QUADSIZE - bits));
fstWriterEmitValueChange(m_fst, m_symbolp[code], buf);
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitWData(vluint32_t code, const WData* newvalp, int bits) {
int words = VL_WORDS_I(bits);
char* wp = m_strbuf;
// Convert the most significant word
const int bitsInMSW = VL_BITBIT_E(bits) ? VL_BITBIT_E(bits) : VL_EDATASIZE;
cvtEDataToStr(wp, newvalp[--words] << (VL_EDATASIZE - bitsInMSW));
wp += bitsInMSW;
// Convert the remaining words
while (words > 0) {
cvtEDataToStr(wp, newvalp[--words]);
wp += VL_EDATASIZE;
}
fstWriterEmitValueChange(m_fst, m_symbolp[code], m_strbuf);
}
VL_ATTR_ALWINLINE
void VerilatedFst::emitDouble(vluint32_t code, double newval) {
fstWriterEmitValueChange(m_fst, m_symbolp[code], &newval);
}