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I want to write regular expression for constants in C language. So I tried this:

Let

  • digit -> 0-9,
  • digit_oct -> 0-7,
  • digit_hex -> 0-9 | a-f | A-F

Then:

  • RE = digit+ U 0digit_oct+ U 0xdigit_hex+

I want to know whether I have written correct R.E. Is there any other way of writing this?

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3  
Do you only want to match integer constants? –  James McNellis Aug 31 '10 at 13:42
4  
Don't forget that 098 is not a valid integer constant. –  Philip Potter Aug 31 '10 at 13:51
1  
while 0xab is.. –  ring0 Aug 31 '10 at 14:01
1  
and 0b101 (on some compilers) –  Nick T Aug 31 '10 at 14:43
2  
@Dummy00001: Actually, no. The + and - signs are actually the unary plus and minus operators and are not part of the integer constant. –  James McNellis Aug 31 '10 at 16:43

4 Answers 4

up vote 7 down vote accepted

There is another type of integer constants, namely integer character constants such as 'a' or '\n'. In C99 these are constants and their type is just int.

The best regular expressions for all these are found in the standard, section 6.4, http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf

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+1 - good call. –  Philip Potter Aug 31 '10 at 14:06

First, C does not support Unicode literals, so you can eliminate the last rule. You also only define integer literals, not floating-point literals and not string or character literals. For the sake of my convenience I assume that that is what you intended.

INT    := OCTINT | DECINT | HEXINT
DECINT := [1-9] [0-9]* [uU]? [lL]? [lL]?
OCTINT := 0 [0-7]* [uU]? [lL]? [lL]?
HEXINT := 0x [0-9a-fA-F]+ [uU]? [lL]? [lL]?

These only describe the form of the literals, not any logic such as maximum values.

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Technically, the + and - are the unary plus and minus operators and are not part of the integer constant itself. I also think that the literal 0 is considered as an octal constant (not that it matters...). –  James McNellis Aug 31 '10 at 13:52
    
@James Ah. Good point. –  wilhelmtell Aug 31 '10 at 13:53
    
don't forget aggregate literals such as { 0 }. –  Philip Potter Aug 31 '10 at 13:54
    
@Philip is this part of the formal definition of integer literals? I'm not sure ... –  wilhelmtell Aug 31 '10 at 13:54
    
@Philip: That wouldn't be an integer constant (or any type of constant, for that matter). –  James McNellis Aug 31 '10 at 13:55

The 'RE' makes sense if we interpret the 'U' as being similar to set union. However, it is more conventional to use a '|' symbol to denote alternatives.

First, you are only dealing with integer constants, not with floating point or character or string constants, let alone more complex constants.

Second, you have omitted '0X' as a valid hex prefix.

Third, you have omitted the various suffixes: U, L, LL, ULL (and their lower-case and mixed case synonyms and permutations).

Also, the C standard (§6.4.4.1) distinguishes between digits and non-zero digits in a decimal constant:

decimal-constant:
    nonzero-digit
    decimal-constant digit

Any integer constant starting with a zero is an octal constant, never a decimal constant. In particular, writing 0 is writing an octal constant.

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From perl point of view I came up with the following regexp, after reading ISO C 2011:

my $I_CONSTANT = qr/^(?:(0[xX][a-fA-F0-9]+(?:[uU](?:ll|LL|[lL])?|(?:ll|LL|[lL])[uU]?)?)             # Hexadecimal
                      |([1-9][0-9]*(?:[uU](?:ll|LL|[lL])?|(?:ll|LL|[lL])[uU]?)?)                    # Decimal
                      |(0[0-7]*(?:[uU](?:ll|LL|[lL])?|(?:ll|LL|[lL])[uU]?)?)                        # Octal
                      |([uUL]?'(?:[^'\\\n]|\\(?:[\'\"\?\\abfnrtv]|[0-7]{1..3}|x[a-fA-F0-9]+))+')    # Character
                    )$/x;
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