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Does anyone know how the isgraph() function works in C? I understand its use and results, but the code behind it is what I'm interested in.

For example, does it look at only the char value of it and compare it to the ASCII table? Or does it actually check to see if it can be displayed? If so, how?

4 Answers 4

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The code behind the isgraph() function varies by platform (or, more precisely, by implementation). One common technique is to use an initialized array of bit-fields, one per character in the (single-byte) codeset plus EOF (which has to be accepted by the functions), and then selecting the relevant bit. This allows for a simple implementation as a macro which is safe (only evaluates its argument once) and as a simple (possibly inline) function.

#define isgraph(x) (__charmap[(x)+1]&__PRINT)

where __charmap and __PRINT are names reserved for the implementation. The +1 part deals with the common situation where EOF is -1.


According to the C standard (ISO/IEC 9899:1999):

§7.4.1.6 The isgraph function

Synopsis

#include <ctype.h>
int isgraph(int c);

Description

The isgraph function tests for any printing character except space (' ').

And:

§7.4 Character handling <ctype.h>

¶1 The header declares several functions useful for classifying and mapping characters.166) In all cases the argument is an int, the value of which shall be representable as an unsigned char or shall equal the value of the macro EOF. If the argument has any other value, the behavior is undefined.

¶2 The behavior of these functions is affected by the current locale. Those functions that have locale-specific aspects only when not in the "C" locale are noted below.

¶3 The term printing character refers to a member of a locale-specific set of characters, each of which occupies one printing position on a display device; the term control character refers to a member of a locale-specific set of characters that are not printing characters.167) All letters and digits are printing characters.

166) See ‘‘future library directions’’ (7.26.2).

167) In an implementation that uses the seven-bit US ASCII character set, the printing characters are those whose values lie from 0x20 (space) through 0x7E (tilde); the control characters are those whose values lie from 0 (NUL) through 0x1F (US), and the character 0x7F (DEL).

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It's called isgraph, not isGraph (and char, not Char), and the POSIX Programmer's Manual says

The isgraph() function shall test whether c is a character of class graph in the program's current locale; see the Base Definitions volume of IEEE Std 1003.1-2001, Chapter 7, Locale.

So yes, it looks it up in a table (or equivalent code). It can't check whether it can actually be displayed, since that would vary depending upon the output device, many of which can display chars in addition to those for which isgraph returns true.

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  • isgraph is part of the ISO standard, there's little need to refer to POSIX.
    – paxdiablo
    Commented Mar 1, 2011 at 6:49
  • @The ISO standard provides minimal requirements on an implementation. POSIX is often more useful for actual implementations.
    – Jim Balter
    Commented Mar 1, 2011 at 7:21
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isgraph checks for "printable" characters, but the definition of "printable" can vary depending on your locale. Your locale may use characters that aren't in the ASCII table. Internally, it's most likely either a table lookup, a range-based test ((x >= 'a') && (x <= 'z'), etc), or a combination of both. Different implementations may do it slightly differently.

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The isgraph() macro only looks at the ASCII table, or your location/country/providence/planet/galaxy's version of the ASCII table.

Here's a test code Counting Words, which found you can increase performance by writing your own version, which initializes a bool array[256] using isgraph(). There are benchmark results with the code.

Since bool variables/arrays are actually BYTEs, not bits, you can do even better, in terms of memory efficiency, if you use a bit array, and test that. It happily takes up only 32 bytes. That's almost certainly going to get cashed on any general-purpose modern processor.

Importantly, if you want a slightly different test than the standard ones provided here (see graphic depiction of character tests), you are free to change the initialization provided by the standard test to include your own exceptions.

Truth table for various character test macros

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  • It only looks at the ASCII table on ASCII-based systems. There are still systems that use EBCDIC, for example. Commented Sep 18, 2013 at 18:52
  • @KeithThompson, that seems reasonable Keith. Would you happen to have a graph of the various char tests like the one I just implanted above? It might prove helpful, and my COBOL days are behind me, so I don't have that graphic available to me. TVMIA if so! :) Commented Sep 18, 2013 at 21:11
  • It looks like EBCDIC is a bloody mess, and no simple BYTE integer range checks are going to do. If there's an equivalent of the above isxxxxxxx macros in those environments, my guess is they're highly valued. On the other hand, what masochistic sod would endure such an environment? :-O en.wikipedia.org/wiki/EBCDIC Commented Sep 20, 2013 at 19:54
  • I don't see the problem. Typical <ctype.h> implementations for ASCII use a lookup table, one byte per entry, with each bit representing one of the attributes. There's no reason the same approach wouldn't work just as well for EBCDIC. Commented Sep 20, 2013 at 20:26
  • @KeithThompson, I agree, it will work just as well in EBCDIC. My point was, whereas I can perform an isprint() as a two-sided test as (c < 32 || c > 126), no such niceties will be available in EBCDIC, so macros such as isprint() will be more valuable. If you study the ASCII table above, it's striking how well ordered it is. Commented Sep 20, 2013 at 22:24

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