The Verilog '95 Code Generator (-tvlog95) ========================================= Icarus Verilog contains a code generator to emit 1995 compliant Verilog from the input Verilog netlist. This allows Icarus Verilog to function as a Verilog > 1995 to Verilog 1995 translator. The main goal of the project was to convert @*, ANSI style arguments and other constructs to something allowed in 1995 Verilog. Invocation ---------- To translate a Verilog program to 1995 compliant Verilog, invoke "iverilog" with the -tvlog95 flag:: % iverilog -tvlog95 -o my_design_95.v my_design.v The generated Verilog will be placed in a single file (a.out by default), even if the input Verilog is spread over multiple files. Generator Flags --------------- * -pspacing=N Set the indent spacing (the default is 2). * -pallowsigned=1 Allow emitting the various signed constructs as an extension to 1995 Verilog (off by default). * -pfileline=1 Emit the original file and line information as a comment for each generated line (off by default). Structures that cannot be converted to 1995 compatible Verilog -------------------------------------------------------------- The following Verilog constructs are not translatable to 1995 compatible Verilog: * Automatic tasks or functions. * The power operator (**). Expressions of the form (2**N)** (where N is a constant) can be converter to a shift. * Some System Verilog constructs (e.g. final blocks, ++/-- operators, etc.). 2-state variables are converted to 4-state variables. Icarus extensions that cannot be translated: * Integer constants greater than 32 bits. * Real valued nets. * Real modulus. * Most Verilog-A constructs. Known Issues and Limitations ---------------------------- Some things are just not finished and should generate an appropriate warning. Here is a list of the major things that still need to be looked at. * There are still a few module instantiation port issues (pr1723367 and partselsynth). * inout ports are not converted (tran-VP). * Variable selects of a non-zero based vector in a continuous assignment are not converted. * There is no support for translating a zero repeat in a continuous assignment. It is currently just dropped. * A pull device connected to a signal select is not translated correctly (this may be fixed). * L-value indexed part selects with a constant undefined base in a continuous assignment are not translated. * Logic gates are not arrayed exactly the same as the input and the instance name is not always the same. * The signed support does not generate $signed() or $unsigned() function calls in a continuous assignment expression. * The special power operator cases are not converted in a continuous assignment. * Currently a signed constant that sets the MSB in an unsigned context will be displayed as a negative value (e.g. bit = 1 translates to bit = -1). * Can net arrays, etc. be unrolled? * Can generate blocks be converted?