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I am reading the book Language Implementation Patterns (http://pragprog.com/book/tpdsl/language-implementation-patterns) amongst a few others mixed in to clarify concepts as well as the occasional website. I am trying to make a tool that reads a trivial programming language and performs some basic analysis on it.

I am getting stuck in the design phase of this tool. I have constructed a simple handwritten recursive decent parser that validates a source file just fine. However, to perform source manipulations having a CodeDom tree would be useful.

The questions:

1) Are the logical steps a tool like this takes: Parse and build a textual tree and matching symbol table and then convert this to a CodeDom?

2) When building a textual tree, the most convenient would be a AST, easier to convert to a CodeDom .. but do Refactoring tools maintain a list of all embedded tokens in a statement in order to preserve inline comments and how do they track this in their tree?

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You can build your own parser, your own tree builder, your own tree walker, your own analyzers, your own prettyprinters... but its a lot of work.

You might consider tools that provide all this machinery for you.

One such tool is our DMS Software Reengineering Toolkit.

Given a grammar, DMS will parse and automatically build a tree; yes, it automatically captures "microtokens" such as comments and attaches them to appropriate tree nodes. It can prettyprint the tree back out, before or after transformations. You have to provide support for symbol tables since that's a semantic, not a syntactic construct, but DMS provides generic symbol tables and scope management tools as a library to build upon. DMS also provides complete libraries for control and data flow analysis, which is needed if you want to do serious code transformations or refactorings.

One of DMS's nicest properties is the ability to apply transformations stated using the syntax of your grammar, e.g., "if you see this (in my language) then replace it by that".

You can see an example of defining lexer, parser, prettyprinter and transformation rules that define 9th grade algebra and a bit of calculus. The rewrite rules are used to carry out simplifications and computing symbolic derivatives on algebraic formulas.

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Thank you for taking the effort to answer. I am aware of your product thanks to Google as well as a number of other answers to similar questions here on StackOverflow. But I am not looking for software to do it all for me; I am looking to learn how these tools work and accomplish their things. – Jaapjan Jun 3 '10 at 10:25
@Jaapjan: Then what you need is a compiler book, such as Aho/Ullman Dragon book. This will explain in detail what you need to parse and build syntax trees. What it won't do is explain how to capture comments, how to implement rewrite rules, or how to build a prettyprinter. You can find technical papers on these topics if you search the computer science literature, but it is scattered everywhere. A key place to start is with conferences focused on this task, such as SCAM10, "Source Code Analysis and Manipulation". Its still a lot of work. DMS is over a man-century of PhD level work. – Ira Baxter Jun 3 '10 at 10:36
True. But I can build an AST with a stack and node structure, adding each block and statement as node. But the question is actually if, usually, such an AST is a pure textual affair that captures the syntax structure or if this AST also contains the whitespace, comments and possibly internal references to other AST nodes, like superclass references. Ie: Are these different trees usually or do tools combine them? – Jaapjan Jun 3 '10 at 11:05
AST nodes are typically nodes representing terminals in your grammer (or abstractions). Useful ASTs break down statements into trees including the operators and operands. You can think of the terminals in your grammars as nonterminals, if you consider the lexer to be a sub-parser; so all elements of your grammer have tree nodes, which produces a concrete syntax tree. You'll discover you can leave some out; that gives you an abstract syntax tree. Terminal nodes have values (identifiers, numbers) often contain a representation of the identifier/number. – Ira Baxter Jun 3 '10 at 14:47
"Whitespace" is expensive and confusing to store literally. Nobody in practice stores the blanks that make up whitespace; instead they stamp tree nodes with column information. Comments are harder; they're easy to lex, but it is difficult to decide what to do with them; is this comment related to this token, the previous token, this block, the previous block...? Each system when can store these answers this question differently. DMS provides mechanism for comment capture; the langauge designer provides policy about where to capture them. – Ira Baxter Jun 3 '10 at 14:50

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