# Why are constants in C-header files of libraries always defined as hexadecimal?

No matter which C-compatible library I use, when I look at the header defined constants, they are always defined as hexadecimal values. Here, for instance, in GL/gl.h:

``````#define GL_POINTS                               0x0000
#define GL_LINES                                0x0001
#define GL_LINE_LOOP                            0x0002
#define GL_LINE_STRIP                           0x0003
#define GL_TRIANGLES                            0x0004
#define GL_TRIANGLE_STRIP                       0x0005
#define GL_TRIANGLE_FAN                         0x0006
#define GL_POLYGON                              0x0009
``````

Is there any particular reason for this convention, why not simply use decimal values instead?

-

There are a number of possible reasons:

1) Bit flags are much easier to express as hex, since each hex digit represents exactly 4 bits.

2) Even for values which aren't explicitly bit flags, there are often intentional bit patterns that are more evident when written as hex.

For instance, all the AlphaFunctions start with 0x02 and differ in only a single byte:

``````#define GL_NEVER                          0x0200
#define GL_LESS                           0x0201
#define GL_EQUAL                          0x0202
#define GL_LEQUAL                         0x0203
#define GL_GREATER                        0x0204
#define GL_NOTEQUAL                       0x0205
#define GL_GEQUAL                         0x0206
#define GL_ALWAYS                         0x0207
``````

3) Hex values are allowed to have leading zeroes, so it is easier to line up the values. This can make reading (and proof-reading) easier. You might be surprised that leading zeroes are allowed in hex and octal literals but not decimal, but the C++ spec says quite explicitly

A decimal integer literal (base ten) begins with a digit other than 0 and consists of a sequence of decimal digits.

-

It is shorter, but more importantly, if they are bit flags, it is easier to combine them and make masks.

-

If the constant values refer to bit flags, and are intended to be combined, then Hex notation is a convenient way of displaying which bits are represented.

For example, from a Boost header:

``````// Type encoding:
//
// bit 0: callable builtin
// bit 1: non member
// bit 2: naked function
// bit 3: pointer
// bit 4: reference
// bit 5: member pointer
// bit 6: member function pointer
// bit 7: member object pointer

#define BOOST_FT_type_mask                            0x000000ff // 1111 1111
#define BOOST_FT_callable_builtin                     0x00000001 // 0000 0001
#define BOOST_FT_non_member                           0x00000002 // 0000 0010
#define BOOST_FT_function                             0x00000007 // 0000 0111
#define BOOST_FT_pointer                              0x0000000b // 0000 1011
#define BOOST_FT_reference                            0x00000013 // 0001 0011
#define BOOST_FT_non_member_callable_builtin          0x00000003 // 0000 0011
#define BOOST_FT_member_pointer                       0x00000020 // 0010 0000
#define BOOST_FT_member_function_pointer              0x00000061 // 0110 0001
#define BOOST_FT_member_object_pointer                0x000000a3 // 1010 0001
``````
-
But this not not apply to the GL constants in the OP, does it? –  cyberpunk_ Jul 13 '12 at 22:40
No, it doesn't. But the style is the same. I suspect the bit-wise utility came first, and this drove the convention. The convention continues, whether the bit-wise operations are relevant or not. –  jwismar Jul 13 '12 at 22:48