34

I like to be more standard as possible, so why should I "constrain" my classes defining it's members as OpenGL types when I can use primitive types? Is there any advantage?

53

The type "unsigned int" has a different size depending on the platform you're building on. I expect this to normally be 32 bits, however it could be 16 or 64 (or something else -- depending on the platform).

Library-specific types are often created to be typedef'd according to platform-specific rules. This allows a generic application to use the right type without having to be aware of the platform it will be built for. Instead, the platform-specific knowledge is constrained to a single common header file.

3

i don't think it matters in this case because the spec says they are minimum sizes, not strict sizes. have a look at gl.h ~line 149 they're just typedefs of basic C types. they are just a convenience - for example there is a boolean type, so if you're using C89 and don't use any booleans then there's one set up for you to use with GL. GLuint is just a shorter way of typing unsigned int:

typedef unsigned int  GLenum;
typedef unsigned char GLboolean;
typedef unsigned int  GLbitfield;
typedef void    GLvoid;
typedef signed char GLbyte;   /* 1-byte signed */
typedef short   GLshort;  /* 2-byte signed */
typedef int   GLint;    /* 4-byte signed */
typedef unsigned char GLubyte;  /* 1-byte unsigned */
typedef unsigned short  GLushort; /* 2-byte unsigned */
typedef unsigned int  GLuint;   /* 4-byte unsigned */
typedef int   GLsizei;  /* 4-byte signed */
typedef float   GLfloat;  /* single precision float */
typedef float   GLclampf; /* single precision float in [0,1] */
typedef double    GLdouble; /* double precision float */
typedef double    GLclampd; /* double precision float in [0,1] */
9
  • 1
    That might be true on your particular OpenGL implementation, but once you switch to a platform where unsigned int is not 4 bytes your code might stop working. Nov 11 '13 at 11:08
  • um...i don't see any size preservation there at all.
    – user2978842
    Nov 11 '13 at 12:27
  • 3
    Check the spec (PDF) (Table 2.2): A GLuint for example is required to be at least 32 bits in size, while a C++ unsigned int only needs at least 16 bits according to the ISO C++ standard. The spec points this out specifically: GL types are not C types. Thus, for example, GL type int is referred to as GLint outside this document, and is not necessarily equivalent to the C type int. Nov 11 '13 at 12:56
  • 1
    that's interesting, but there is no protection provided by the typedef at all - it just means that it might not work properly if you use a very very very old computer. you missed the part right below your quote where it says "Correct interpretation of integer values outside the minimum range is not required, however"
    – user2978842
    Nov 11 '13 at 13:51
  • 1
    No, the typedef is something that is provided by your platform. On a different platform, you would use a different gl.h with a typedef that meets the requirements. OpenGL implementations are not portable between platforms. For example, you cannot use the gl.h from the Windows SDK to compile on Linux. Nov 11 '13 at 14:03
1

Better cross-platform compatibility.

-3

The advantages has already been mentioned here. However, there is a disadvantage clear from the following examples:

class FileIn
    {
    public:
        //Public interface like read
    private:
        void* handle;
    };

The above code fits very well in a platform independent header but writing

#define WIN32_LEAN_AND_MEAN
#include <windows.h>

class FileIn
    {
    public:
        //Public interface like read
    private:
        HANDLE handle;
    };

does not.

Though the former will require ugly typecasts like

int fd=(int)( (size_t)handle );
close(fd);

i do not know any system which have sizeof(void*) < sizeof(int). Yes it will fail if open returns a negative number for a valid file handle.

What to learn about this? Avoid using typedefs in library include files. Instead use struct declarations even though C programmers need to write struct a dozen times. Here, some C standard library implementations do it all wrong.

Right

In stdio.h:

struct FILE;

And in the application:

struct FILE* the_file=fopen("filename.txt","rb");
/*...*/

Wrong

In stdio.h:

typedef struct SOMENAMETHATNOONESHOULDUSE
    {
    /* Internal data members */
    } FILE;

In application

FILE* the_file=fopen("filename.txt","rb");

When writing a C++ wrapper, this forces either #include <cstdio> or simply declare the handle as above.

6
  • 4
    What has this got to do with GLuint, OpenGL types, or anything asking in the question? If your intention was to respond to another answer, it should be done as a comment, not as an answer.
    – mah
    Mar 20 '15 at 14:10
  • @mah This is about typedefs in general. So it applies to GLuint, which cannot be predeclared.
    – user877329
    Mar 20 '15 at 16:58
  • that's my point -- it's not addressing the question thus posting an "answer" is not valid.
    – mah
    Mar 20 '15 at 17:01
  • 3
    This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. Mar 20 '15 at 18:09
  • 4
    @user877329 This seems more like a rant to the OpenGL authors about their use of typedef instead addressing the question. Mar 20 '15 at 19:35

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