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I need to create OpenMP-like (#pragma statements) extension to C language by translating a C with pragmas code to a C code with calls of a dynamic library. It's not simply expanding of pragmas, also it's needed to do arrays linearization, new variables declarations, etc. So I am searching a source-to-source tool. I've found some clues: TXL, JetBrains MPS, The Meta-Environment, Stratego/XT, Rose, DMS. Could anybody explain what are differences between them, their advantages and disadvantages, please? I will be greatful for any advices.

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up vote 2 down vote accepted

I'm the guy behind DMS. You may find my answer biased.

All of these tools share the basics of source-to-source transformation. They parse some source language (which you can define to the tool via a grammar in various forms), build trees, allow you to write code to navigate/inspect/modify the trees, and then prettyprint the tree out to a text string which is intended to be some kind of compilable code.

  • JetBrains MPS: I have very little knowledge of this. I think you have to write procedural code to climb over the trees. This is the classic compiler technique for handling trees. I don't believe it can parse C out of the box, let alone OpenMP primitives, and you will find that quite a lot of work to get right.

  • The MetaEnvironment: I know nothing about this tool. High probability bet: doesn't parse C.

  • TXL: This has a pattern matching and code instantiation language, implemented using functions over trees. The functions can pattern match to pick up and recurse into subtrees, and assemble tree results from called functions into larger trees, ultimately producing a final tree. The patterns are written using source-syntax patterns, which makes them fairly easy to write. What TXL does not do in an obvious way is carry out analyses of the code, for later code generation actions to use. There is a way to do it: you build auxiliary trees containing the analysis in one functional pass, and follow it by another functional pass producing results; this is apparantly a common TXL technique. TXL probably has an available C parser, but it likely only works on preprocessed C code; you can likely bend this to handle OpenMP syntax without a huge amount of trouble. What it won't have is a convenient symbol table enabling you to look up the meaning of identifiers, which you will need if you want to transform C in any interesting way.

  • Stratego/XT: This tool works by combining source to source rewrites, with "strategies", that is, sequencing operations that allow the tool to walk up and down the tree as the rewrites apply successfully or fail. This strategy scheme allow information collected at one point in the tree, to be carried to other points far away. Like TXL, I'm pretty sure you can find a parser for preprocessed C code. Like TXL, I don't think you get a symbol table or any other deep analyses of the code.

  • Rose: This tool uses EDG's front end to preprocess/parse C and C++ code and build an AST; I think the EDG front end builds symbol tables, too. You seem to want to make a custom version of the parser to add your "OpenMP-like" primitives; I don't think you can do that with Rose as I don't believe the EDG front end is available in source form for you to hack. The undercarriage is in C++; you can write procedural visitors to climb over the code and build new tree nodes. It has an arcane but workable scheme for handling source patterns: it converts them into valid, tiny "main" C++ programs, passes them to the C++ parser, and gives back the resulting tree after stripping away the main program shell. Rose is used by LLNL to work on scientific codes, and might come close to what you need; I'd be surprised if its parser did NOT handle OpenMP since that's a key technology of interest in that community. Rose also provides some control and data flow analysis but I don't know how sophisticated they are; it does make Rose stand out from the rest of the pack.

  • DMS: This tool is designed to manipulate arbitrary programming langauges. It provides parsing, prettyprinting, symbol table construction, control flow and data flow analysis, as well as points-to analysis both local and global. DMS has full C front end and C++ front end complete with preprocessor, parsing and symbol table construction. The C front end has complete flow analysis implemented (all of the above); the C++ front end isn't there yet with flow analysis but we're working on it. All DMS Front Ends are available in source form so that they can be customized, e.g., to add your custom OpenMP extensions. DMS has been used to for global analysis of C systems with 19,000 compilation units, as well as code generation and extraction of C APIs from systems that big. It has been used to rearchitect huge C++ source code bases. It is an industrial strength tool. Rose might be somewhat better for C++ transformations at this point; DMS is far better than Rose IMHO for the breadth of languages, scope of supporting mechanisms for analysis and transformation, and variety of tasks to which it has been applied.

You can see a more detailed comparison of a variety of parsing/transformation tools, including most of the above.

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