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I'm trying to link a glsl program with 2 shaders that have previously compiled succesfully, but the program won't link. According to glRemedy's debugger, the error message is ERROR: Definition for "void main()" not found. After some debugging, i found out that the GPU is receiving NO shaders, again according to glRemedy. My code looks right and performs as expected from client side, i believe.

Vertex shader:

layout(location = 0) in vec3 vertexPosicao;

void main() {
    gl_Position.xyz = vertexPosicao;
    gl_Position.w = 1.0;

Fragment shader:

out vec3 cor;

void main() {
    cor = vec3(1, 0, 0);

Loading code:

bool Shader::fromCode(std::string strCode) {
    GLint result;
    GLchar *code = new GLchar[strCode.size() + 1];
    strcpy(code, strCode.c_str());

    glShaderSource(m_id, 1, const_cast<const GLchar **>(&code), NULL);
    glGetShaderiv(m_id, GL_COMPILE_STATUS, &result);
    return (bool)result;


After using glShaderSource on the shader ID i used, i got the source back. All of it. But it seems it's missing \n's. Would that be a problem?


Infolog says everything's ok. From the C++ code, the Program's Infolog says it's ok too, but from glRemedy, there's that error above. Also, i can't see the source of the shaders from glRemedy and their size is 0kb. And no, the test i have set up shows something's not working.


Merry Christmas! =D

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Missing newlines are not a problem. GLSL treats them as whitespace, which can be reduced very much without hurting the parsing process. –  datenwolf Dec 25 '12 at 2:05
Have you tried reading the shader info log using glGetShaderInfoLog? –  TheAmateurProgrammer Dec 25 '12 at 2:30

1 Answer 1

Why so complicated, that copy to a newly allocated GLchar* I mean (which you forget to delete[] afterwards). I'd rewrite it as

bool Shader::fromCode(std::string strCode) {
    GLint result;
    GLuint source_length = strCode.length();
    GLchar const * strCodePtr = strCode.c_str();

    glShaderSource(m_id, 1, &strCodePtr, &source_length);
    glGetShaderiv(m_id, GL_COMPILE_STATUS, &result);
    return (bool)result;

the additional source_length parameter takes care of any trailing garbage that might be found in the memory afterwards (number 1 reason, most people's shader loaders don't work).

share|improve this answer
I still can't send the shader. –  wingleader Dec 25 '12 at 0:34
@wingleader: I just noticed something? Where do you allocate the shader IDs? glCreateShader must be called somewhere to obtain m_id. If this happens in the constructur (i.e. Shader::Shader) it may happen, that there's no valid OpenGL context when the constructor is called. It makes sense to create the shader ID right before calling glShaderSource to avoid this problem. –  datenwolf Dec 25 '12 at 1:02
glIsShader tells me it's a valid shader ID. –  wingleader Dec 25 '12 at 1:22
@BenVoigt glShaderSource(m_id, 1, const_cast<const GLchar **>(&code), &size); –  wingleader Dec 25 '12 at 2:56
@wingleader: I hate const_cast with a passion. As you gain experience, you will too. Just make code the right type and then you won't need it. And in datenwolf's answer here, strCodePtr needs to be const, because the return from c_str() is. –  Ben Voigt Dec 25 '12 at 2:58

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