Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

So, I have the following problem that's been following me around for some time.

A Shader draws groups of vertices. Because it is loaded from a text file an into the GPU, OpenGL does not require it to be typed at all.

struct Shader
    // Load that shader from filename
    Shader( string filename ... ) ;
} ;

A group of vertices is typed in my code

VertexArray<VertexPTC> ptcVerts ; // PTC is position, texcoord, color.

An array of ptcVerts should only be drawn by a ptcShader. To try and draw an array of pcVerts with a ptShader is an error (because color values would be interpreted as texcoords).

So I would like the compiler to flag that kind of error. Here's how:

template<typename T> struct Shader

now Shader, although it never uses T at all is typed at compile time. The compiler now enforces the restriction that a VertexArray<VertexPTC> be drawn by a Shader<VertexPTC>.

Is this good or bad? Shader does not need or use T, so I fear my use of templates is somehow a misuse.

share|improve this question
What makes Shader<VertexPTC> a ptcShader? Or am I misunderstanding what's happening here? –  Kyle Strand Apr 24 '13 at 19:06
Just by name convention. a ptcShader was named so that the programmer remembers only to use it on ptcVerts. –  bobobobo Apr 24 '13 at 19:08
Then how does "The compiler now enforces the restriction that a VertexArray<VertexPTC> be drawn by a Shader<VertexPTC>" work? –  Andrei Apr 24 '13 at 19:10
I can't realy point out why it is bad, it just does not feel right for me exectly from the reason you stated. Adding templates everywhere does solve many problems but from my experience it also adds many problems later on the road. What i would do is create a new with getters that will allways give the corresponding array and shader. How it is implemented is your choise, personally i would not go with templates. –  user1708860 Apr 24 '13 at 19:20
You used template as a sort of a sticked-on type tag/label, to tell the compiler to catch some sorts of errors during compilation. Well, sounds perfectly reasonable to me: the type system exists exactly for that purpose. –  Joker_vD Apr 24 '13 at 19:49

3 Answers 3

You're expressing a real-world constraint in code. Your examples here don't actually show that buying you anything here, so going on the evidence I'd wonder whether it's redundant to express it, or irrelevant to any situation that will actually arise. But if you're ever going to have different kinds of shaders for different kinds of vertex datasets, I'd say you've hit on exactly the right way to express this here.

share|improve this answer
It's very easy to try and draw something with the wrong shader! –  bobobobo Apr 24 '13 at 19:09
Yep. Just because the type argument isn’t used doesn’t mean the type parameter serves no purpose. Types introduced by this technique are called phantom types in Haskell. They’re widely used in many languages to avoid common bugs arising from mixing of incompatible units (3.0<m/s> in F#), coordinate spaces (Point<WorldCoords>), and axes (Offset<XAxis>), to name a few examples. –  Jon Purdy Jul 8 '13 at 0:09
up vote 2 down vote accepted

It is a misuse. The use of templates is not free, there are difficulties added when you templatize a class that you are willing to deal with for the advantages of using a template there.

I got into trouble with this much later when I needed a generic way to handle a Shader -- I needed a way to disable the last bound Shader, and it didn't matter what type it was.

I had to either artificially factor in a subclass from which Shader<T> derives, or just delete the template parameter T from the Shader class.

But I actually found an even better way to do it. Simply define your class normally:

struct Shader
  // complete, untemplatized definition.  If it doesn't use T
} ;

But then I define:

template <typename T> struct TShader : public Shader { } ;

SO now, when you want the compiler to enforce type, use the 2nd TShader<T> definition. If you don't need the compiler to enforce type, use the fully functional base class Shader definition.

This gives you the best of both worlds. You can always treat a TShader<T> as its untemplatized base class when needed, without losing functionality or having to write an abstract interface when one is not needed.

share|improve this answer

If you want the compiler to prevent you from doing the wrong thing, one way is to do this:

class ShaderPTC
   ShaderPTC( string filename, <other params> );
   void Draw( VertexArray<VertexPTC>& Vertices );
   Shader m_shader;


class ShaderPC
   ShaderPC( string filename, <other params> );
   void Draw( VertexArray<VertexPC>& Vertices );
   Shader m_shader;

You make sure the constructors create the appropriate shader internally and pass objects of this class by pointer/references so that you don't have to take care about copying the wrapped shader (you might want to make the copy constructors/assignment private as well).

Since the Draw function only accepts the correct type of vertex array and the inner shader is not exposed you can't pass the wrong parameters.

If the code you have to write in the constructors and the Draw functions is generic you can make this a template class. Otherwise you would have to specialize the template anyway giving the template approach no real benefit.

While correctly naming your variables might prevent such problems, correctly typing the variables will be much harder to break.

share|improve this answer
And notice how this solution is actually doing template instantiation by hands. Why not ask the compiler to write this boilerplate code? –  Joker_vD Apr 24 '13 at 19:32
@Joker_vD because writing the "boilerplate" might actually require less typing. It also doesn't have the "mental cost" templates might have on less experienced programmers. –  Andrei Apr 24 '13 at 19:36
this is pretty much what i meant in my comment, just note that the compiler should not be the one responsible of the shader creation, pass it as a pareter... –  user1708860 Apr 24 '13 at 19:36
@user1708860 if the class doesn't handle creating the shader you might instantiate ShaderPC with a ptcShader and then you are back to relying on programmers passing the correct parameter. If the constructor does it you only have to verify that it does what you expect. Otherwise you have to verify that all code that instantiates a shader wrapper does it with the correct shader... –  Andrei Apr 24 '13 at 19:40
Use a factory then, it's not the constructor's job. –  user1708860 Apr 24 '13 at 19:43

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.