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Consider the following lines:

int i;

Will the lexical analyzer go into the string to parse % and d as separate tokens, or will it parse "%d" as one token?

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lexical analyzer will identify "%d" as compete string. It is next phases of compiler "syntax" and "semantic" those identify missing argument and type check. If you compile code (without i in printf) you will get warning "format ‘%d’ expects a matching ‘int’ argument" due to "syntax" and "semantic" checks. –  Grijesh Chauhan Aug 30 '14 at 12:59
how can a syntax analysis find an error if the string is not seperately parsed as token? –  Yogesh Mittal Aug 30 '14 at 12:59
"syntax analysis" is next phase after "lexical". Compiler fist generates stream of tokens (as given in sepp2k's answer) then stream of tokes are further parsed (using grammar) and semantically checked in next phase. –  Grijesh Chauhan Aug 30 '14 at 13:01
Try this code on your PC. You will get warning for second line print but not for str = "%d" that means compiler only parse "%d" when it is in printf - that indicates work is done after lexical phase –  Grijesh Chauhan Aug 30 '14 at 13:06
try this trick –  Grijesh Chauhan Aug 30 '14 at 13:14

3 Answers 3

up vote 25 down vote accepted

There are two parsers at work here: first, the C compiler, that will parse the C file and basically ignore the content of the string (though modern C compilers will parse the string as well to help catch bad format strings — mismatches between the % conversion specifier and the corresponding argument passed to printf() to be converted).

The next parser is the string format parser built into the C runtime library. This will be called at runtime to parse the format string when you call printf. This parser is of course very simple in comparison.

I have not checked, but I would guess that the C compilers that help checking for bad format strings will implement a printf-like parser as a post-processing step (i.e. using its own lexer).

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A string literal is a single token. The above code will be tokenized like this:

int     keyword "int"
i       identifier
;       semicolon
printf  identifier
(       open paren
"%d"    string literal
,       comma
i       identifier
)       closing paren
;       semicolon
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I think the OP wanted to know more along the lines of will "%d" generate a char array with a length of 1, or 2 (i.e. "\n" would generate a char array with a length of 1) -- I think the answer he's looking for is that it would be a string literal with two distinct characters in it (that is then further parsed at run-time by the *printf method). –  BrainSlugs83 Aug 31 '14 at 9:54

"%d" is a string literal and it will be seen as one token by both the C preprocessor and also by the compiler, we can see this by going to draft C99 standard section 6.4 Lexical elements which defines the following tokens:


and the following proprocessing tokens:

  each non-white-space character that cannot be one of the above

and says:

A token is the minimal lexical element of the language in translation phases 7 and 8. The categories of tokens are: keywords, identifiers, constants, string literals, and punctuators. A preprocessing token is the minimal lexical element of the language in translation phases 3 through 6. The categories of preprocessing tokens are: header names, identifiers, preprocessing numbers, character constants, string literals, punctuators, and single non-white-space characters that do not lexically match the other preprocessing token categories.58) [...]

The different phases of translation are covered in section Translation phases and I will highlight some of the relevant ones here:


3 The source file is decomposed into preprocessing tokens 6) and sequences of white-space characters (including comments).


6 Adjacent string literal tokens are concatenated.

7 White-space characters separating tokens are no longer significant. Each preprocessing token is converted into a token. The resulting tokens are syntactically and semantically analyzed and translated as a translation unit.


The distinction between pre-processor tokens and tokens may seem irrelevant but we can see that in at least one case such as in adjacent string literals for example "%d" "\n" you would have two pre-processor tokens while after phase 6 there would be only one token.

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