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I am looking for a clear definition of what a "tokenizer", "parser" and "lexer" are and how they are related to each other (e.g., does a parser use a tokenizer or vice versa)? I need to create a program will go through c/h source files to extract data declaration and definitions.

I have been looking for examples and can find some info, but I really struggling to grasp the underlying concepts like grammar rules, parse trees and abstract syntax tree and how they interrelate to each other. Eventually these concepts need to be stored in an actual program, but 1) what do they look like, 2) are there common implementations.

I have been looking at Wikipedia on these topics and programs like Lex and Yacc, but having never gone through a compiler class (EE major) I am finding it difficult to fully understand what is going on.

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4 Answers 4

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A tokenizer breaks a stream of text into tokens, usually by looking for whitespace (tabs, spaces, new lines).

A lexer is basically a tokenizer, but it usually attaches extra context to the tokens -- this token is a number, that token is a string literal, this other token is an equality operator.

A parser takes the stream of tokens from the lexer and turns it into an abstract syntax tree representing the (usually) program represented by the original text.

Last I checked, the best book on the subject was "Compilers: Principles, Techniques, and Tools" usually just known as "The Dragon Book".

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    No doubt "The Dragon Book" is a good book, but it does require the reader to have a good grounding in CS. Some book with more practical appeal would be "Writing Compilers and Interpreters" by Ronald Mak, "Modern Compiler Implementation", Andrew Appel; "Compiler Construction", Niklaus Wirth; "Compiling with C# and Java" and "Compilers and Compiler Generators: an Introduction with C++" by Pat Terry; and, of course, "The Definitive ANTLR Reference" by Terrence Parr. Commented Jun 8, 2010 at 6:35
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    Just to be sure, I am not knocking your recommendation. "The Dragon Book" was my first book on compiler tech, but it was hard going compared to, say, Wirth's book, which is a book you can grok in a few hours. Back then I had few options as it was the only book I could get my hands on (it being 1991, before Amazon and the WWW). I had that and a collection of text files produced by Jack W. Crenshaw called "LET'S BUILD A COMPILER" (thanks Jack!). This is still the book to get for a more complete understanding of the principles, but most programmers just need a pragmatic introduction. Commented Jun 8, 2010 at 17:54
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    I wouldn't agree that a parser /by definition/ produces an abstract syntax tree. Parsers can produce all sorts of different outputs. For example, it is common that a parser produces a sequence of calls to some builder interface -- see the Builder Pattern in the Gang of Four patterns book. The key point is that the parser analyses a sequence of tokens to determine whether or not the sequence conforms to some (usually context free) grammar and may produce some output based on the sequence's grammatical structure. Commented Feb 22, 2013 at 22:02
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    "Let's Build a Compiler" is here: compilers.iecc.com/crenshaw. I found the link from here: prog21.dadgum.com/30.html Commented Jun 30, 2014 at 14:08
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    @Pithkos: if those are the only constraints, all you've said is the function takes an input in one unnamed (mathematical) domain and produces and output in another unamed domain, e.g., F(X) -> Y Pretty much this means you can only call this a "function". If you insist that the domain of X is <StreamOfCharacter,Grammar> and the domain of Y is Tree with the property that it reflects the shape of the grammar, then F(X,G) -> T would be something I would call a parser. Often we curry F with respect to G because G doesn't change often, so F[G](X)->T is what you commonly see as a parser.
    – Ira Baxter
    Commented Oct 22, 2016 at 13:53
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Example:

int x = 1;

A lexer or tokeniser will split that up into tokens 'int', 'x', '=', '1', ';'.

A parser will take those tokens and use them to understand in some way:

  • we have a statement
  • it's a definition of an integer
  • the integer is called 'x'
  • 'x' should be initialised with the value 1
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    A lexer will note that "int", "=", and ";" are tokens without further meaning, that "x" is a identifier name or something, value "x", and "1" is an integer or number, value "1". A tokenizer won't necessarily do that. Commented Mar 26, 2009 at 17:54
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I would say that a lexer and a tokenizer are basically the same thing, and that they smash the text up into its component parts (the 'tokens'). The parser then interprets the tokens using a grammar.

I wouldn't get too hung up on precise terminological usage though - people often use 'parsing' to describe any action of interpreting a lump of text.

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    With PEG parsers the distinction between tokenizer and parser is even less clear. Commented Jun 8, 2010 at 6:38
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(adding to the given answers)

  • Tokenizer will also remove any comments, and only return tokens to the Lexer.
  • Lexer will also define scopes for those tokens (variables/functions)
  • Parser then will build the code/program structure
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    Hello @downvoter, can you elaborate on why you actually did downvote? Commented Apr 28, 2018 at 14:46
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    I'm not the downvoter, but I think the downvote may have been because your answer does not seem correct. A tokenizer may remove noise (typically whitespace but maybe also comments), but it often does not feed the lexer. A DFA-based lexer will tokenize and identify what tokens are (e.g. a number, a string, an identifier, but also a whitespace or a comment), but it cannot scope these since this would require the the syntax tree which is later built by the parser.
    – Lucero
    Commented Aug 7, 2018 at 17:39
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    1) I don't understand your apparant distinction between "lexer" and "tokenizer". I've built parsers for 50+ languages and I have never had two seperate mechanisms that break the source text into atoms, so for me these are just synonyms. 2) If you are compiling, removing comments and whitespace makes sense in the lexer. If you are building source-to-source transformation tools, you cannot lose comments because they must reappear in the transformed text. So ALWAYS removing comments is wrong; we can argue about how one manages to preserve whitespace. ...
    – Ira Baxter
    Commented Jan 15, 2019 at 16:34
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    ... [The tools I build (see my bio) capture both with adequate fidelity to reproduce them in the transformed code; we go further, and capture the format of the atoms, including weird things like the quotes used on character strings and the radix/leading zero count on numbers, all in service of avoiding the user rejecting the transformated result. So what you missed is not only do lexers not necessarily strip information, but in fact they may need to capture information above and beyond the raw token]. ....
    – Ira Baxter
    Commented Jan 15, 2019 at 16:37
  • ... 3) Lexers only define "scopes" in hopelessly awkward parsers which have a hard time handling syntactic ambiguities. C and C++ parsers are the canonical example; see my discussion at stackoverflow.com/a/1004737/120163). One doesn't have to do it that (ugly) way. So I find your answer simply misguided.
    – Ira Baxter
    Commented Jan 15, 2019 at 16:40

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