mirror of
https://github.com/verilator/verilator.git
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664 lines
24 KiB
C++
664 lines
24 KiB
C++
// -*- mode: C++; c-file-style: "cc-mode" -*-
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//=============================================================================
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//
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// Code available from: https://verilator.org
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//
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// Copyright 2001-2024 by Wilson Snyder. This program is free software; you
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// can redistribute it and/or modify it under the terms of either the GNU
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// Lesser General Public License Version 3 or the Perl Artistic License
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// Version 2.0.
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// SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0
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//
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//=============================================================================
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///
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/// \file
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/// \brief Verilated C++ tracing in VCD format implementation code
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///
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/// This file must be compiled and linked against all Verilated objects
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/// that use --trace.
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///
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/// Use "verilator --trace" to add this to the Makefile for the linker.
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///
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//=============================================================================
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// clang-format off
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#include "verilatedos.h"
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#include "verilated.h"
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#include "verilated_vcd_c.h"
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#include <algorithm>
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#include <cerrno>
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#include <fcntl.h>
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#if defined(_WIN32) && !defined(__MINGW32__) && !defined(__CYGWIN__)
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# include <io.h>
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#else
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# include <unistd.h>
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#endif
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#ifndef O_LARGEFILE // WIN32 headers omit this
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# define O_LARGEFILE 0
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#endif
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#ifndef O_NONBLOCK // WIN32 headers omit this
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# define O_NONBLOCK 0
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#endif
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#ifndef O_CLOEXEC // WIN32 headers omit this
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# define O_CLOEXEC 0
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#endif
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// clang-format on
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// This size comes form VCD allowing use of printable ASCII characters between
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// '!' and '~' inclusive, which are a total of 94 different values. Encoding a
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// 32 bit code hence needs a maximum of std::ceil(log94(2**32-1)) == 5 bytes.
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constexpr unsigned VL_TRACE_MAX_VCD_CODE_SIZE = 5; // Maximum length of a VCD string code
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// We use 8 bytes per code in a suffix buffer array.
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// 1 byte optional separator + VL_TRACE_MAX_VCD_CODE_SIZE bytes for code
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// + 1 byte '\n' + 1 byte suffix size. This luckily comes out to a power of 2,
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// meaning the array can be aligned such that entries never straddle multiple
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// cache-lines.
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constexpr unsigned VL_TRACE_SUFFIX_ENTRY_SIZE = 8; // Size of a suffix entry
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//=============================================================================
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// Specialization of the generics for this trace format
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#define VL_SUB_T VerilatedVcd
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#define VL_BUF_T VerilatedVcdBuffer
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#include "verilated_trace_imp.h"
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#undef VL_SUB_T
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#undef VL_BUF_T
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//=============================================================================
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//=============================================================================
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//=============================================================================
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// VerilatedVcdFile
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bool VerilatedVcdFile::open(const std::string& name) VL_MT_UNSAFE {
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m_fd = ::open(name.c_str(),
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O_CREAT | O_WRONLY | O_TRUNC | O_LARGEFILE | O_NONBLOCK | O_CLOEXEC, 0666);
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return m_fd >= 0;
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}
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void VerilatedVcdFile::close() VL_MT_UNSAFE { ::close(m_fd); }
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ssize_t VerilatedVcdFile::write(const char* bufp, ssize_t len) VL_MT_UNSAFE {
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return ::write(m_fd, bufp, len);
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}
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//=============================================================================
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//=============================================================================
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//=============================================================================
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// Opening/Closing
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VerilatedVcd::VerilatedVcd(VerilatedVcdFile* filep) {
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// Not in header to avoid link issue if header is included without this .cpp file
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m_fileNewed = (filep == nullptr);
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m_filep = m_fileNewed ? new VerilatedVcdFile : filep;
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m_wrChunkSize = 8 * 1024;
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m_wrBufp = new char[m_wrChunkSize * 8];
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m_wrFlushp = m_wrBufp + m_wrChunkSize * 6;
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m_writep = m_wrBufp;
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}
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void VerilatedVcd::open(const char* filename) VL_MT_SAFE_EXCLUDES(m_mutex) {
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const VerilatedLockGuard lock{m_mutex};
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if (isOpen()) return;
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// Set member variables
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m_filename = filename; // "" is ok, as someone may overload open
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openNextImp(m_rolloverSize != 0);
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if (!isOpen()) return;
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printStr("$version Generated by VerilatedVcd $end\n");
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printStr("$timescale ");
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printStr(timeResStr().c_str()); // lintok-begin-on-ref
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printStr(" $end\n");
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// Scope and signal definitions
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assert(m_indent >= 0);
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++m_indent;
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Super::traceInit();
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--m_indent;
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assert(m_indent >= 0);
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printStr("$enddefinitions $end\n\n\n");
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// When using rollover, the first chunk contains the header only.
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if (m_rolloverSize) openNextImp(true);
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}
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void VerilatedVcd::openNext(bool incFilename) VL_MT_SAFE_EXCLUDES(m_mutex) {
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// Open next filename in concat sequence, mangle filename if
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// incFilename is true.
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const VerilatedLockGuard lock{m_mutex};
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openNextImp(incFilename);
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}
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void VerilatedVcd::openNextImp(bool incFilename) {
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closePrev(); // Close existing
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if (incFilename) {
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// Find _0000.{ext} in filename
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std::string name = m_filename;
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const size_t pos = name.rfind('.');
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if (pos > 8 && 0 == std::strncmp("_cat", name.c_str() + pos - 8, 4)
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&& std::isdigit(name.c_str()[pos - 4]) && std::isdigit(name.c_str()[pos - 3])
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&& std::isdigit(name.c_str()[pos - 2]) && std::isdigit(name.c_str()[pos - 1])) {
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// Increment code.
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if ((++(name[pos - 1])) > '9') {
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name[pos - 1] = '0';
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if ((++(name[pos - 2])) > '9') {
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name[pos - 2] = '0';
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if ((++(name[pos - 3])) > '9') {
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name[pos - 3] = '0';
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if ((++(name[pos - 4])) > '9') { //
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name[pos - 4] = '0';
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}
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}
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}
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}
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} else {
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// Append _cat0000
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name.insert(pos, "_cat0000");
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}
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m_filename = name;
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}
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if (VL_UNCOVERABLE(m_filename[0] == '|')) {
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assert(0); // LCOV_EXCL_LINE // Not supported yet.
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} else {
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// cppcheck-suppress duplicateExpression
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if (!m_filep->open(m_filename)) {
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// User code can check isOpen()
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m_isOpen = false;
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return;
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}
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}
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m_isOpen = true;
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constDump(true); // First dump must containt the const signals
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fullDump(true); // First dump must be full
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m_wroteBytes = 0;
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}
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bool VerilatedVcd::preChangeDump() {
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if (VL_UNLIKELY(m_rolloverSize && m_wroteBytes > m_rolloverSize)) openNextImp(true);
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return isOpen();
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}
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void VerilatedVcd::emitTimeChange(uint64_t timeui) {
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printStr("#");
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const std::string str = std::to_string(timeui);
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printStr(str.c_str());
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printStr("\n");
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}
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VerilatedVcd::~VerilatedVcd() {
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close();
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if (m_wrBufp) VL_DO_CLEAR(delete[] m_wrBufp, m_wrBufp = nullptr);
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if (m_filep && m_fileNewed) VL_DO_CLEAR(delete m_filep, m_filep = nullptr);
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if (parallel()) {
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assert(m_numBuffers == m_freeBuffers.size());
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for (auto& pair : m_freeBuffers) VL_DO_CLEAR(delete[] pair.first, pair.first = nullptr);
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}
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}
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void VerilatedVcd::closePrev() {
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// This function is on the flush() call path
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if (!isOpen()) return;
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Super::flushBase();
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bufferFlush();
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m_isOpen = false;
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m_filep->close();
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}
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void VerilatedVcd::closeErr() {
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// This function is on the flush() call path
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// Close due to an error. We might abort before even getting here,
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// depending on the definition of vl_fatal.
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if (!isOpen()) return;
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// No buffer flush, just fclose
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m_isOpen = false;
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m_filep->close(); // May get error, just ignore it
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}
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void VerilatedVcd::close() VL_MT_SAFE_EXCLUDES(m_mutex) {
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// This function is on the flush() call path
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const VerilatedLockGuard lock{m_mutex};
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if (!isOpen()) return;
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closePrev();
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// closePrev() called Super::flush(), so we just
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// need to shut down the tracing thread here.
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Super::closeBase();
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}
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void VerilatedVcd::flush() VL_MT_SAFE_EXCLUDES(m_mutex) {
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const VerilatedLockGuard lock{m_mutex};
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Super::flushBase();
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bufferFlush();
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}
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void VerilatedVcd::printStr(const char* str) {
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// Not fast...
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while (*str) {
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*m_writep++ = *str++;
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bufferCheck();
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}
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}
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void VerilatedVcd::bufferResize(size_t minsize) {
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// minsize is size of largest write. We buffer at least 8 times as much data,
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// writing when we are 3/4 full (with thus 2*minsize remaining free)
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if (VL_UNLIKELY(minsize > m_wrChunkSize)) {
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const char* oldbufp = m_wrBufp;
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m_wrChunkSize = roundUpToMultipleOf<1024>(minsize * 2);
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m_wrBufp = new char[m_wrChunkSize * 8];
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std::memcpy(m_wrBufp, oldbufp, m_writep - oldbufp);
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m_writep = m_wrBufp + (m_writep - oldbufp);
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m_wrFlushp = m_wrBufp + m_wrChunkSize * 6;
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VL_DO_CLEAR(delete[] oldbufp, oldbufp = nullptr);
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}
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}
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void VerilatedVcd::bufferFlush() VL_MT_UNSAFE_ONE {
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// This function can be called from the trace offload thread
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// This function is on the flush() call path
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// We add output data to m_writep.
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// When it gets nearly full we dump it using this routine which calls write()
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// This is much faster than using buffered I/O
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if (VL_UNLIKELY(!m_isOpen)) return;
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const char* wp = m_wrBufp;
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while (true) {
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const ssize_t remaining = (m_writep - wp);
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if (remaining == 0) break;
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errno = 0;
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const ssize_t got = m_filep->write(wp, remaining);
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if (got > 0) {
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wp += got;
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m_wroteBytes += got;
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} else if (VL_UNCOVERABLE(got < 0)) {
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if (VL_UNCOVERABLE(errno != EAGAIN && errno != EINTR)) {
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// LCOV_EXCL_START
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// write failed, presume error (perhaps out of disk space)
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const std::string msg = "VerilatedVcd::bufferFlush: "s + std::strerror(errno);
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VL_FATAL_MT("", 0, "", msg.c_str());
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closeErr();
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break;
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// LCOV_EXCL_STOP
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}
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}
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}
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// Reset buffer
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m_writep = m_wrBufp;
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}
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//=============================================================================
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// Definitions
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void VerilatedVcd::printIndent(int level_change) {
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if (level_change < 0) m_indent += level_change;
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for (int i = 0; i < m_indent; ++i) printStr(" ");
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if (level_change > 0) m_indent += level_change;
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}
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void VerilatedVcd::pushPrefix(const std::string& name, VerilatedTracePrefixType type) {
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assert(!m_prefixStack.empty()); // Constructor makes an empty entry
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std::string pname = name;
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// An empty name means this is the root of a model created with name()=="". The
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// tools get upset if we try to pass this as empty, so we put the signals under a
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// new scope, but the signals further down will be peers, not children (as usual
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// for name()!="")
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// Terminate earlier $root?
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if (m_prefixStack.back().second == VerilatedTracePrefixType::ROOTIO_MODULE) popPrefix();
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if (pname.empty()) { // Start new temporary root
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pname = "$rootio"; // VCD names are not backslash escaped
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m_prefixStack.emplace_back("", VerilatedTracePrefixType::ROOTIO_WRAPPER);
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type = VerilatedTracePrefixType::ROOTIO_MODULE;
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}
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std::string newPrefix = m_prefixStack.back().first + pname;
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switch (type) {
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case VerilatedTracePrefixType::ROOTIO_MODULE:
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case VerilatedTracePrefixType::SCOPE_MODULE:
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case VerilatedTracePrefixType::SCOPE_INTERFACE:
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case VerilatedTracePrefixType::STRUCT_PACKED:
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case VerilatedTracePrefixType::STRUCT_UNPACKED:
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case VerilatedTracePrefixType::UNION_PACKED: {
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printIndent(1);
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printStr("$scope module ");
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const std::string n = lastWord(newPrefix);
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printStr(n.c_str());
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printStr(" $end\n");
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newPrefix += ' ';
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break;
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}
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default: break;
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}
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m_prefixStack.emplace_back(newPrefix, type);
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}
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void VerilatedVcd::popPrefix() {
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assert(!m_prefixStack.empty());
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switch (m_prefixStack.back().second) {
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case VerilatedTracePrefixType::ROOTIO_MODULE:
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case VerilatedTracePrefixType::SCOPE_MODULE:
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case VerilatedTracePrefixType::SCOPE_INTERFACE:
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case VerilatedTracePrefixType::STRUCT_PACKED:
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case VerilatedTracePrefixType::STRUCT_UNPACKED:
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case VerilatedTracePrefixType::UNION_PACKED:
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printIndent(-1);
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printStr("$upscope $end\n");
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break;
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default: break;
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}
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m_prefixStack.pop_back();
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assert(!m_prefixStack.empty()); // Always one left, the constructor's initial one
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}
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void VerilatedVcd::declare(uint32_t code, const char* name, const char* wirep, bool array,
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int arraynum, bool bussed, int msb, int lsb) {
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const int bits = ((msb > lsb) ? (msb - lsb) : (lsb - msb)) + 1;
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const std::string hierarchicalName = m_prefixStack.back().first + name;
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const bool enabled = Super::declCode(code, hierarchicalName, bits);
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if (m_suffixes.size() <= nextCode() * VL_TRACE_SUFFIX_ENTRY_SIZE) {
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m_suffixes.resize(nextCode() * VL_TRACE_SUFFIX_ENTRY_SIZE * 2, 0);
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}
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// Keep upper bound on bytes a single signal can emit into the buffer
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m_maxSignalBytes = std::max<size_t>(m_maxSignalBytes, bits + 32);
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// Make sure write buffer is large enough, plus header
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bufferResize(m_maxSignalBytes + 1024);
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if (!enabled) return;
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// Create the VCD code and build the suffix array entry
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char vcdCode[VL_TRACE_SUFFIX_ENTRY_SIZE];
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{
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// Render the VCD code
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char* vcdCodeWritep = vcdCode;
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uint32_t codeEnc = code;
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do {
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*vcdCodeWritep++ = static_cast<char>('!' + codeEnc % 94);
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codeEnc /= 94;
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} while (codeEnc--);
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*vcdCodeWritep = '\0';
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const size_t vcdCodeLength = vcdCodeWritep - vcdCode;
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assert(vcdCodeLength <= VL_TRACE_MAX_VCD_CODE_SIZE);
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// Build suffix array entry
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char* const entryBeginp = &m_suffixes[code * VL_TRACE_SUFFIX_ENTRY_SIZE];
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entryBeginp[0] = ' '; // Separator
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// 1 bit values don't have a ' ' separator between value and string code
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char* entryWritep = bits == 1 ? entryBeginp : entryBeginp + 1;
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// Use memcpy as we know the size, and strcpy is flagged unsafe
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std::memcpy(entryWritep, vcdCode, vcdCodeLength);
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entryWritep += vcdCodeLength;
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// Line terminator
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*entryWritep++ = '\n';
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// Set length of suffix (used to increment write pointer)
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assert(entryWritep <= entryBeginp + VL_TRACE_SUFFIX_ENTRY_SIZE - 1);
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entryBeginp[VL_TRACE_SUFFIX_ENTRY_SIZE - 1] = static_cast<char>(entryWritep - entryBeginp);
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}
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// Assemble the declaration
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std::string decl = "$var ";
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decl += wirep;
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decl += ' ';
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decl += std::to_string(bits);
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decl += ' ';
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decl += vcdCode;
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decl += ' ';
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decl += lastWord(hierarchicalName);
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if (array) {
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decl += '[';
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decl += std::to_string(arraynum);
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decl += ']';
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}
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if (bussed) {
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decl += " [";
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decl += std::to_string(msb);
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decl += ':';
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decl += std::to_string(lsb);
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decl += ']';
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}
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decl += " $end\n";
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printIndent(0);
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printStr(decl.c_str());
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}
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void VerilatedVcd::declEvent(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum) {
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declare(code, name, "event", array, arraynum, false, 0, 0);
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}
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void VerilatedVcd::declBit(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum) {
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declare(code, name, "wire", array, arraynum, false, 0, 0);
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}
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void VerilatedVcd::declBus(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum, int msb, int lsb) {
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declare(code, name, "wire", array, arraynum, true, msb, lsb);
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}
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void VerilatedVcd::declQuad(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum, int msb, int lsb) {
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declare(code, name, "wire", array, arraynum, true, msb, lsb);
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}
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void VerilatedVcd::declArray(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum, int msb, int lsb) {
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declare(code, name, "wire", array, arraynum, true, msb, lsb);
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}
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void VerilatedVcd::declDouble(uint32_t code, uint32_t fidx, const char* name, int dtypenum,
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VerilatedTraceSigDirection, VerilatedTraceSigKind,
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VerilatedTraceSigType, bool array, int arraynum) {
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declare(code, name, "real", array, arraynum, false, 63, 0);
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|
}
|
|
|
|
//=============================================================================
|
|
// Get/commit trace buffer
|
|
|
|
VerilatedVcd::Buffer* VerilatedVcd::getTraceBuffer(uint32_t fidx) {
|
|
VerilatedVcd::Buffer* const bufp = new Buffer{*this};
|
|
if (parallel()) {
|
|
// Note: This is called from VerilatedVcd::dump, which already holds the lock
|
|
// If no buffer available, allocate a new one
|
|
if (m_freeBuffers.empty()) {
|
|
constexpr size_t pageSize = 4096;
|
|
// 4 * m_maxSignalBytes, so we can reserve 2 * m_maxSignalBytes at the end for safety
|
|
size_t startingSize = roundUpToMultipleOf<pageSize>(4 * m_maxSignalBytes);
|
|
m_freeBuffers.emplace_back(new char[startingSize], startingSize);
|
|
++m_numBuffers;
|
|
}
|
|
// Grab a buffer
|
|
const auto pair = m_freeBuffers.back();
|
|
m_freeBuffers.pop_back();
|
|
// Initialize
|
|
bufp->m_writep = bufp->m_bufp = pair.first;
|
|
bufp->m_size = pair.second;
|
|
bufp->adjustGrowp();
|
|
}
|
|
// Return the buffer
|
|
return bufp;
|
|
}
|
|
|
|
void VerilatedVcd::commitTraceBuffer(VerilatedVcd::Buffer* bufp) {
|
|
if (parallel()) {
|
|
// Note: This is called from VerilatedVcd::dump, which already holds the lock
|
|
// Resize output buffer. Note, we use the full size of the trace buffer, as
|
|
// this is a lot more stable than the actual occupancy of the trace buffer.
|
|
// This helps us to avoid re-allocations due to small size changes.
|
|
bufferResize(bufp->m_size);
|
|
// Compute occupancy of buffer
|
|
const size_t usedSize = bufp->m_writep - bufp->m_bufp;
|
|
// Copy to output buffer
|
|
std::memcpy(m_writep, bufp->m_bufp, usedSize);
|
|
// Adjust write pointer
|
|
m_writep += usedSize;
|
|
// Flush if necessary
|
|
bufferCheck();
|
|
// Put buffer back on free list
|
|
m_freeBuffers.emplace_back(bufp->m_bufp, bufp->m_size);
|
|
} else {
|
|
// Needs adjusting for emitTimeChange
|
|
m_writep = bufp->m_writep;
|
|
}
|
|
delete bufp;
|
|
}
|
|
|
|
//=============================================================================
|
|
// VerilatedVcdBuffer implementation
|
|
|
|
//=============================================================================
|
|
// Trace rendering primitives
|
|
|
|
static void VerilatedVcdCCopyAndAppendNewLine(char* writep,
|
|
const char* suffixp) VL_ATTR_NO_SANITIZE_ALIGN;
|
|
|
|
static void VerilatedVcdCCopyAndAppendNewLine(char* writep, const char* suffixp) {
|
|
// Copy the whole suffix (this avoid having hard to predict branches which
|
|
// helps a lot). Note: The maximum length of the suffix is
|
|
// VL_TRACE_MAX_VCD_CODE_SIZE + 2 == 7, but we unroll this here for speed.
|
|
#ifdef VL_X86_64
|
|
// Copy the whole 8 bytes in one go, this works on little-endian machines
|
|
// supporting unaligned stores.
|
|
*reinterpret_cast<uint64_t*>(writep) = *reinterpret_cast<const uint64_t*>(suffixp);
|
|
#else
|
|
// Portable variant
|
|
writep[0] = suffixp[0];
|
|
writep[1] = suffixp[1];
|
|
writep[2] = suffixp[2];
|
|
writep[3] = suffixp[3];
|
|
writep[4] = suffixp[4];
|
|
writep[5] = suffixp[5];
|
|
writep[6] = '\n'; // The 6th index is always '\n' if it's relevant, no need to fetch it.
|
|
#endif
|
|
}
|
|
|
|
void VerilatedVcdBuffer::finishLine(uint32_t code, char* writep) {
|
|
const char* const suffixp = m_suffixes + code * VL_TRACE_SUFFIX_ENTRY_SIZE;
|
|
VL_DEBUG_IFDEF(assert(suffixp[0]););
|
|
VerilatedVcdCCopyAndAppendNewLine(writep, suffixp);
|
|
|
|
// Now write back the write pointer incremented by the actual size of the
|
|
// suffix, which was stored in the last byte of the suffix buffer entry.
|
|
m_writep = writep + suffixp[VL_TRACE_SUFFIX_ENTRY_SIZE - 1];
|
|
|
|
if (m_owner.parallel()) {
|
|
// Double the size of the buffer if necessary
|
|
if (VL_UNLIKELY(m_writep >= m_growp)) {
|
|
// Compute occupied size of current buffer
|
|
const size_t usedSize = m_writep - m_bufp;
|
|
// We are always doubling the size
|
|
m_size *= 2;
|
|
// Allocate the new buffer
|
|
char* const newBufp = new char[m_size];
|
|
// Copy from current buffer to new buffer
|
|
std::memcpy(newBufp, m_bufp, usedSize);
|
|
// Delete current buffer
|
|
delete[] m_bufp;
|
|
// Make new buffer the current buffer
|
|
m_bufp = newBufp;
|
|
// Adjust write pointer
|
|
m_writep = m_bufp + usedSize;
|
|
// Adjust resize limit
|
|
adjustGrowp();
|
|
}
|
|
} else {
|
|
// Flush the write buffer if there's not enough space left for new information
|
|
// We only call this once per vector, so we need enough slop for a very wide "b###" line
|
|
if (VL_UNLIKELY(m_writep > m_wrFlushp)) {
|
|
m_owner.m_writep = m_writep;
|
|
m_owner.bufferFlush();
|
|
m_writep = m_owner.m_writep;
|
|
}
|
|
}
|
|
}
|
|
|
|
//=============================================================================
|
|
// emit* trace routines
|
|
|
|
// Note: emit* are only ever called from one place (full* in
|
|
// verilated_trace_imp.h, which is included in this file at the top),
|
|
// so always inline them.
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitEvent(uint32_t code) {
|
|
// Don't prefetch suffix as it's a bit too late;
|
|
char* wp = m_writep;
|
|
*wp++ = '1';
|
|
finishLine(code, wp);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitBit(uint32_t code, CData newval) {
|
|
// Don't prefetch suffix as it's a bit too late;
|
|
char* wp = m_writep;
|
|
*wp++ = '0' | static_cast<char>(newval);
|
|
finishLine(code, wp);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitCData(uint32_t code, CData newval, int bits) {
|
|
char* wp = m_writep;
|
|
*wp++ = 'b';
|
|
cvtCDataToStr(wp, newval << (VL_BYTESIZE - bits));
|
|
finishLine(code, wp + bits);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitSData(uint32_t code, SData newval, int bits) {
|
|
char* wp = m_writep;
|
|
*wp++ = 'b';
|
|
cvtSDataToStr(wp, newval << (VL_SHORTSIZE - bits));
|
|
finishLine(code, wp + bits);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitIData(uint32_t code, IData newval, int bits) {
|
|
char* wp = m_writep;
|
|
*wp++ = 'b';
|
|
cvtIDataToStr(wp, newval << (VL_IDATASIZE - bits));
|
|
finishLine(code, wp + bits);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitQData(uint32_t code, QData newval, int bits) {
|
|
char* wp = m_writep;
|
|
*wp++ = 'b';
|
|
cvtQDataToStr(wp, newval << (VL_QUADSIZE - bits));
|
|
finishLine(code, wp + bits);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitWData(uint32_t code, const WData* newvalp, int bits) {
|
|
int words = VL_WORDS_I(bits);
|
|
char* wp = m_writep;
|
|
*wp++ = 'b';
|
|
// Handle 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;
|
|
// Handle the remaining words
|
|
while (words > 0) {
|
|
cvtEDataToStr(wp, newvalp[--words]);
|
|
wp += VL_EDATASIZE;
|
|
}
|
|
finishLine(code, wp);
|
|
}
|
|
|
|
VL_ATTR_ALWINLINE
|
|
void VerilatedVcdBuffer::emitDouble(uint32_t code, double newval) {
|
|
char* wp = m_writep;
|
|
// Buffer can't overflow before VL_SNPRINTF; we sized during declaration
|
|
VL_SNPRINTF(wp, m_maxSignalBytes, "r%.16g", newval);
|
|
wp += std::strlen(wp);
|
|
finishLine(code, wp);
|
|
}
|