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I'm sure this applies to other compilers as well, but I've only used GCC. If the compiler optimizes the code by removing everything extraneous that isn't code (comments, whitespace, etc.), how does it correctly show what line an error is on in the original file? Does it only optimize the code after checking for errors? Or does it somehow insert tags so that if an error is found it knows what line it's on?

mycode.cpp: In function ‘foo(int bar)’:
mycode.cpp:59: error: no matching function for call to ‘bla(int bar)’
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This is interesting, and funny that it never occurred to me, always took it for granted. –  Link Oct 9 '13 at 13:16
The preprocessor annotates its output with line numbers. You can see this yourself by running gcc -E. –  Kerrek SB Oct 9 '13 at 13:18
@KerrekSB But the output of gcc -E is artificial, in the sense that it never exists if you don't specify -E. In the early days of C, the preprocessor was a separate process, generating pretty much what you see with -E, but today, practically every compiler does preprocessing on the fly, while reading the input files and building the tree representation of the program. At which point, the position in the input file is well known. –  James Kanze Oct 9 '13 at 13:27
@KerrekSB And of course, even when it existed as a separate process, the preprocessor didn't remove white space, and in some cases, it didn't remove comments either. –  James Kanze Oct 9 '13 at 14:01

2 Answers 2

up vote 3 down vote accepted

The preprocessor (conceptually) adds #line directives, to tell the compiler which source file and line number correspond to each line of preprocessed source. They look like

// set the current line number to 100, in the current source file
#line 100

// set the current line number to 1, in a header file
#line 1 "header.h"

(Of course, a modern preprocessor usually isn't a separate program, and usually doesn't generated an intermediate text representation, so these are actually some kind of metadata passed to the compiler along with the stream of preprocessed tokens; but it may be simpler, and not significantly incorrect, to think in terms of preprocessed source).

You can add these yourself if you want. Possible uses are testing macros that use the __FILE__ and __LINE__ definitions, and laying traps for maintenance programmers.

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In a modern compiler, there is no "preprocessor"; the lexical scanner of the front end handles preprocessing on the fly, and the compiler never sees what it would output with -E. (And of course, __FILE__ and __LINE__ are intended for machine generated code; they're present in the output of lex and yacc, for example.) –  James Kanze Oct 9 '13 at 13:29
@JamesKanze: Hence "conceptually"; I was going to give a tedious explanation of how, in practice, it probably feeds the compiler some kind of internal representation with some kind of metadata equivalent to #line directives, but didn't think that level of detail would be particularly interesting. –  Mike Seymour Oct 9 '13 at 13:32
It's not too clear what the OP was asking about, but since he mentioned removing whitespace, I assumed that he was talking about after tokenization, because white space is significant until then. The text you added in parentheses is far better (the word "metadata" is a particularly good choice---much better than my "annotation"), since #line directives still affect a text representation in which white space is significant, and not individual tokens. –  James Kanze Oct 9 '13 at 14:00
I didn't understand what happened pre and post-tokenization, but Mike cleared it up for me, thanks! –  Nick Sweeting Oct 10 '13 at 18:45

The compiler converts source code to an object format, or more correctly, here, an intermediate format which will later be used to generate object format. I've not looked into the internals of g++, but typically, a compiler will tokenize the input and build a tree structure. When doing so, it will annotate the nodes of the tree with the position in the file where it read the token which the node represents. Many errors are detected during this very parsing, but for those that aren't, the compiler will use the information on the annotated node in the error message.

With regards to "removing everything extraneouss that isn't code", that's true in the sense that the compiler tokenizes the input, and converts it into the tree. But when doing so, it is reading the files; at every point, it is either reading the file, or accessing a node which was annotated while the file was being read.

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Wait, so comments and things that arent code are kept in that generated tree? Why dosent it discard them to save nodes? –  Nick Sweeting Dec 24 '13 at 18:59
@NickSweeting Comments, not usually, but in most compilers, the nodes will contain information about where the tokens were in the source code, for use in error messages and such (and debugging information). –  James Kanze Dec 27 '13 at 9:32

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