NAME Verilog-Perl - Overview of Verilog language packages for Perl DESCRIPTION The Verilog-Perl distribution provides Perl parsing and utilities for the Verilog Language. This file provides an overview of the distribution. Verilog-Perl is currently a mature tool. Bugs are fixed and IEEE language capabilities updated as needed, but the basic features and API are not expected to change. For general information see . For specific details on each component, see that component's manpage. You may also want to try the AUTO features present in Verilog-Mode. SCRIPTS The following scripts are installed by Verilog-Perl: vhier Vhier reads the Verilog files passed on the command line and outputs a tree of all of the filenames, modules, and cells referenced by that file. vpassert Vpassert will read the specified Verilog files and preprocess special PLI assertions. vppreproc Vppreproc (Verilog-Perl Pre Processor) reads the Verilog files passed on the command line and outputs preprocessed output. vrename Vrename will allow a signal to be changed across all levels of the design hierarchy, or to create a cross reference of signal names. PACKAGES Verilog::Getopt Verilog::Getopt provides standardized handling of options similar to Verilog/VCS and cc/GCC. Verilog::Language Verilog::Language provides general utilities for using the Verilog Language, such as parsing numbers or determining what keywords exist. Verilog::Netlist Verilog::Netlist reads and holds interconnect information about a whole design database. Verilog::Netlist::Cell A Verilog::Netlist::Cell object is created by Verilog::Netlist for every instantiation in the current module. Verilog::Netlist::ContAssign A Verilog::Netlist::ContAssign object is created by Verilog::Netlist for every continuous assignment in the current module. Verilog::Netlist::File Verilog::Netlist::File allows Verilog::Netlist objects to be read and written in Verilog format. Verilog::Netlist::Module A Verilog::Netlist::Module object is created by Verilog::Netlist for every module in the design. Verilog::Netlist::Net A Verilog::Netlist::Net object is created by Verilog::Netlist::Module for every signal and input/output declaration in the current module. Verilog::Netlist::Pin A Verilog::Netlist::Pin object is created by Verilog::Netlist::Cell for for each pin connection on a cell. Verilog::Netlist::Port A Verilog::Netlist::Port object is created by Verilog::Netlist::Module for every port connection in the module. Verilog::Netlist::Subclass The Verilog::Netlist::Subclass is used as a base class for all Verilog::Netlist::* structures. Verilog::Parser Verilog::Parser will tokenize a Verilog file and invoke various callback methods. Verilog::Preproc Verilog::Preproc reads Verilog files, and preprocesses them according to the Verilog specification. Programs can be easily converted from reading a IO::File into reading preprocessed output from Verilog::Preproc. Verilog::SigParse Verilog::SigParser builds upon the Verilog::Parser package to provide callbacks for when a signal is declared, a module instantiated, or a module defined. WHICH PARSER PACKAGE? If you are starting a new application which needs to parse the Verilog language you have several tools available to you. Which you pick depends on how low level and complete the information you need is. VParseBison.y The low level VParse* source files may be of use when you need a starting point for your own a full C++ SystemVerilog grammar parser, using Bison and Flex. It understands most of the SystemVerilog 2017 grammar (1800-2017 Appendix A). Verilog::Preproc Verilog::Preproc is useful when you need only post-preprocessed text output, or a list of defines, includes, etc. It can preprocess a file, or be used to provide the Verilog macro language on top of synthesis scripts. It understands and implements all preprocessor features of SystemVerilog 2017. Verilog::Parser Verilog::Parser is useful when you need to tokenize or write source filters (where you need everything including whitespace). It can take raw files, or preprocessed input, and generates callbacks. It understands all SystemVerilog 2017 keywords. Abstract Syntax Tree Verilog::Parser knows enough to make a complete Abstract Syntax Tree (AST) of Verilog syntax. This represents all major constructs such as a "module" as a data structure, but does not interconnect the AST nodes as would be needed to follow signals. Not all keywords have been implemented; many are parsed but otherwise ignored. A complete Ast tree would allow any arbitrary transformation of Verilog syntax (everything is known excluding whitespace). For these applications consider Verilator's XML output (below). Verilog::SigParser Verilog::SigParser is useful when you need a list of modules, signals, ports, functions, etc. It requires a preprocessed file (from Verilog::Preproc), and can parse all SystemVerilog 2017 files, but only provides callbacks on certain interesting things. The SigParser operates only on a file at a time; it does not interconnect signals nor perform any elaboration (resolution of parameters). Verilog::Netlist Verilog::Netlist is useful for when you need the hierarchy, and a list of signals per module, pins per cell, etc. It builds upon the output of Verilog::SigParser, so requires preprocessed files (from Verilog::Preproc). It parses all SystemVerilog 2017 files, but not all SystemVerilog constructs are loaded into objects. Verilog::Netlist interconnects modules with instantiations but does not perform any elaboration (resolution of parameters). VPI Using the VPI is the best way to access the behavior of the design. It is not part of this package as it requires a compliant simulator and C++ code to call the VPI, and understands as much of the language as the simulator supports. This allows writing lint checks and full knowledge of all parts of the code. The VPI can operate ONLY on an elaborated design (where all parameters are resolved). Walking a VPI tree general requires a good deal of work compared to simple scripting (though little work compared to writing a parser from scratch). Verilator The Verilator program also contains a very similar front end as Verilog-Perl and can create XML output showing the abstract syntax tree. Verilator also understands how to elaborate and connect complex pins and types, but supports mostly only the synthesis subset of SystemVerilog. If you're looking to parse only synthesizable code this is the recommended route. Verilog-Mode for Emacs Although not a parser, a common requested use of Verilog-Perl is to automatically make shell modules and interconnect modules. Verilog-Mode is a better solution to this problem, as it results in completely portable code; the program (Verilog-Mode) isn't needed for others to update the design. It's also in very common usage, including by many IP providers. INSTALLATION Skip this section if Verilog-Perl has already been installed. Verilog-Perl should run on any system with Perl, G++, Flex, and Bison. It is known to work on most Linux distributions, plus Cygwin. You may install using either CPAN, or the sources. If you plan to do any development on Verilog-Perl, use the sources. CPAN Installation Option 1: Easiest installation is using the "CPAN" command line that comes with Perl. After configuring CPAN the first time, simply cpan install Verilog-Perl # And see the documentation man Verilog-Perl # Or, sometimes the capitalization is changed man verilog-perl Read the rest of this file for details on the programs provided. Manual Installation from Repository Option 2: Build any version using the source development repository with: git clone http://git.veripool.org/git/Verilog-Perl # Only first time cd Verilog-Perl git pull # Make sure we're up-to-date git tag # See what versions exist (recent GITs only) #git checkout master # Use development branch (e.g. recent bug fix) #git checkout stable # Use most recent release #git checkout v{version} # Switch to specified release version perl Makefile.PL # Ignore warning about README, this file will be generated make make test make install Read the rest of this file for details on the programs provided. FAQ Why do I get "unexpected `do'" or "unexpected `bit'" errors? Do, bit, ref, return, and other words are now SystemVerilog keywords. You should change your code to not use them to insure it works with newer tools. Alternatively, surround them by the Verilog 2005/SystemVerilog begin_keywords pragma to indicate Verilog 2001 code. `begin_keywords "1364-2001" integer bit; initial bit = 1; `end_keywords Alternatively use the --language (for vhier) or Verilog::Language::language_standard call to specify "1364-2001", or for really old code, "1364-1995". But, again, you really should fix the Verilog code. With Verilog::Netlist how do I resolve signal widths that include parameters down to constants? Unfortunately parameter resolution is part of elaboration. Verilog-Perl doesn't do elaboration as it requires a good fraction of a complete simulator implementation. Many applications can work around this limitation, if yours still requires elaboration you're stuck with using Verilator or the VPI, see the sections above. DISTRIBUTION Verilog-Perl is part of the free Verilog EDA software tool suite. The latest version is available from CPAN and from . Copyright 2000-2021 by Wilson Snyder. This package 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. This code is provided with no warranty of any kind, and is used entirely at your own risk. AUTHORS Wilson Snyder SEE ALSO vhier, vpassert, vppreproc, vrename Verilog::EditFiles, Verilog::Getopt, Verilog::Language Verilog::Netlist, Verilog::Parser, Verilog::Preproc, Verilog::SigParser Verilog::Netlist::Cell, Verilog::Netlist::ContAssign, Verilog::Netlist::File, Verilog::Netlist::Interface, Verilog::Netlist::ModPort, Verilog::Netlist::Module, Verilog::Netlist::Net, Verilog::Netlist::Pin, Verilog::Netlist::Port, Verilog::Netlist::Subclass, And the Verilog-Mode package for Emacs.