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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?

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up vote 33 down vote accepted

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.

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Better cross-platform compatibility.

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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] */
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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. – ComicSansMS Nov 11 '13 at 11:08
    
um...i don't see any size preservation there at all. – user2978842 Nov 11 '13 at 12:27
2  
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. – ComicSansMS Nov 11 '13 at 12:56
    
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. – ComicSansMS Nov 11 '13 at 14:03

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.

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2  
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
2  
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. – cpburnz Mar 20 '15 at 18:09
2  
@user877329 This seems more like a rant to the OpenGL authors about their use of typedef instead addressing the question. – cpburnz Mar 20 '15 at 19:35

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