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My Application is going to be an OpenGL Game using OpenGL 4.2, GLFW and GLEW. The Problem is about loading GLSL shaders from file. I use a class named ShadersObject for all shader related tasks.

class ShadersObject
{
public:
    // ...
private:
    // ...
    void LoadFile(string Name, string Path);
    string FolderPath;
    Shaders ShaderList;
};

The class uses a map of ShaderObjects to store the shaders.

enum ShaderType{ Vertex = GL_VERTEX_SHADER,
                 Geometry = GL_GEOMETRY_SHADER,
                 Fragment = GL_FRAGMENT_SHADER };

struct ShaderObject
{
    const GLchar* File;
    ShaderType Type;
    GLuint Shader;
    // ...
};

typedef map<string, ShaderObject> Shaders;

The following method I should load the source code of the GLSL shader from a file to the ShaderObject in ShaderList. Therefore it uses the Path to the file and the Name of the shader as the string key in the ShaderList map is named.

void ShadersObject::LoadFile(string Name, string Path)
{
    string FilePath = FolderPath + Path;
    ifstream Stream(FilePath);

    if(Stream.is_open())
    {
        cout << "Loading Shader from " << FilePath << endl;

        string Output;
        Stream.seekg(0, ios::end);   
        Output.reserve(Stream.tellg());
        Stream.seekg(0, ios::beg);
        Output.assign((istreambuf_iterator<char>(Stream)),istreambuf_iterator<char>());

        // this line doesn't compile
        strcpy(ShaderList[Name].File, Output.c_str());
    }
    else cout << "Can not load Shader from " << FilePath << endl;
}

I another method I want to use the value from ShaderList[Name].File to load and compile the shaders using glShaderSource and glCompileShader. Where glShaderSource needs a pointer to a const GLchar* holding the source code. In my case this would be &ShaderList[Name].File.

Some time ago I used ShaderList[Name].File = Output.c_str(); instead of the line which doesn't compile now. The result was that only the pointer was saved in the ShaderList and after the method exited the source code was gone. That's why I tried using strcpy but this function doesn't accept const GLchar* as parameter type.

How can I save the read file into my class member?

share|improve this question
1  
Why not store it as a std::string in ShaderObject and use c_str() when necessary? If you want to use strcpy() you need to allocate memory for .File and make it non-const. – hmjd Aug 26 '12 at 12:02
    
Thanks, I can't understand why I havn't tried it before?! Simple solution. – danijar Aug 26 '12 at 12:13
up vote 3 down vote accepted

This is not a complex problem: store the string. Store Output in your ShadersObject class. When you need to call glShaderSource, then convert it into a const GLchar* with string::c_str.

Or better yet; don't store either of them; OpenGL will retain the shader string in the shader object. You can query the shader strings from OpenGL via the API. So there's really no point in your shader object storing what OpenGL already stores.

share|improve this answer
    
Does OpenGL also store the type of the shader so that I can query it? – danijar Aug 26 '12 at 12:08
    
@sharethis: You could check the documentation. – Nicol Bolas Aug 26 '12 at 12:09
    
Thanks, so I only need to store the string name and the OpenGL int name and if the shader is active. Thank you again! Edit: I want to store the source code so that I can toggle shaders on and off. Can you give me an advice if this is clever? – danijar Aug 26 '12 at 12:14
1  
@sharethis: Storing source code won't help with that. Once a program is linked, what you do to the shaders that comprise it is irrelevant unless you re-link the program. And that's expensive. So no. – Nicol Bolas Aug 26 '12 at 12:25
3  
@sharethis. Switching on and of shader programs is done by binding/unbinding them. If you separate shader and program classes you can do, what the OpenGL API allows and link a single shader into multiple programs, where each may consist of a different set of shaders. This is usefull for example for using the same vertex transformations, but different fragment shaders (shadow buffer calculation, vs. final rendering pass, or similar). – datenwolf Aug 26 '12 at 14:47

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