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I am trying to use OpenGL's cube mapping, but for some reason the y images are inverted and are screwing up the result, and the reflection, and refraction that am performing is not working properly.

Here's my code.

void initCubeMap()
{
    GLbyte *pBytes;
    GLint eFormat, iComponents;
    GLint width, height;

    // Cull backs of polygons
    glCullFace(GL_BACK);
    glFrontFace(GL_CCW);
    glEnable(GL_CULL_FACE);

    glActiveTexture(GL_TEXTURE0);
    glBindTexture(GL_TEXTURE_CUBE_MAP, 0);

    // Set up texture maps        
    glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_S, GL_REPEAT);
    glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_T, GL_REPEAT);
    glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_WRAP_R, GL_REPEAT);

    glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
    glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_TEXTURE_MIN_FILTER, GL_LINEAR);

    glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_NICEST); 

    glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_DECAL);

    // Load Cube Map images
    for(int i=0; i<6; i++)
    {        
        // Load this texture map
        glTexParameteri(GL_TEXTURE_CUBE_MAP, GL_GENERATE_MIPMAP, GL_TRUE);
        pBytes = utilities.loadTGA(cubeFaces[i], &width, &height, &iComponents, &eFormat);
        glTexImage2D(cube[i], 0, GL_RGB8, width, height, 0, GL_BGR, GL_UNSIGNED_BYTE, pBytes);
        free(pBytes);
    }

    glTexGeni(GL_S, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);
    glTexGeni(GL_T, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);
    glTexGeni(GL_R, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);

    // Enable cube mapping, and set texture environment to decal
    glEnable(GL_TEXTURE_CUBE_MAP);
    glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_DECAL);
}

void renderScene()
{
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

    glPushMatrix();
        camera.RenderCam();
        camera.MoveCamMouse();

        // Sky Box is manually textured
        glDisable(GL_TEXTURE_GEN_S);
        glDisable(GL_TEXTURE_GEN_T);
        glDisable(GL_TEXTURE_GEN_R); 

        drawSkyBox();

        // Use texgen to apply cube map
        glEnable(GL_TEXTURE_GEN_S);
        glEnable(GL_TEXTURE_GEN_T);
        glEnable(GL_TEXTURE_GEN_R);

        glPushMatrix();
            glMatrixMode(GL_TEXTURE);
            glPushMatrix();
                GLfloat m[16];
                glGetFloatv(GL_MODELVIEW_MATRIX, m);
                camera.getCameraInverse(m);
                glMultMatrixf(m);
                glUseProgram(glassProgram);
                utilities.setUniform("Cubemap", 0);
                glutSolidSphere(5.0, 100, 100);
                glUseProgram(0);
            glPopMatrix();
            glMatrixMode(GL_MODELVIEW);
        glPopMatrix();
    glPopMatrix();

    // FPS
    frame++;

    time = glutGet(GLUT_ELAPSED_TIME);
    if (time - timebase > 1000) 
    {
        sprintf(s,"Template | FPS: %4.2f",frame*1000.0/(time-timebase));
        timebase = time;
        frame = 0;
    }

    glutSetWindowTitle((const char*)&s);

    // Swap double buffer for flicker-free animation
    glutSwapBuffers();
}

void Camera::getCameraInverse(GLfloat *result)
{
    GLfloat resultTemp[16];
    float tmp[12];                                              //temporary pair storage
    float det;                                                  //determinant

    //calculate pairs for first 8 elements (cofactors)
    tmp[0] = result[10] * result[15];
    tmp[1] = result[11] * result[14];
    tmp[2] = result[9] * result[15];
    tmp[3] = result[11] * result[13];
    tmp[4] = result[9] * result[14];
    tmp[5] = result[10] * result[13];
    tmp[6] = result[8] * result[15];
    tmp[7] = result[11] * result[12];
    tmp[8] = result[8] * result[14];
    tmp[9] = result[10] * result[12];
    tmp[10] = result[8] * result[13];
    tmp[11] = result[9] * result[12];

    //calculate first 8 elements (cofactors)
    resultTemp[0] = tmp[0]*result[5] + tmp[3]*result[6] + tmp[4]*result[7] -    tmp[1]*result[5] - tmp[2]*result[6] - tmp[5]*result[7];

    resultTemp[1] = tmp[1]*result[4] + tmp[6]*result[6] + tmp[9]*result[7] -    tmp[0]*result[4] - tmp[7]*result[6] - tmp[8]*result[7];

    resultTemp[2] = tmp[2]*result[4] + tmp[7]*result[5] + tmp[10]*result[7] - tmp[3]*result[4] - tmp[6]*result[5] - tmp[11]*result[7];

    resultTemp[3] = tmp[5]*result[4] + tmp[8]*result[5] + tmp[11]*result[6] - tmp[4]*result[4] - tmp[9]*result[5] - tmp[10]*result[6];

    resultTemp[4] = tmp[1]*result[1] + tmp[2]*result[2] + tmp[5]*result[3] -    tmp[0]*result[1] - tmp[3]*result[2] - tmp[4]*result[3];

    resultTemp[5] = tmp[0]*result[0] + tmp[7]*result[2] + tmp[8]*result[3] -    tmp[1]*result[0] - tmp[6]*result[2] - tmp[9]*result[3];

    resultTemp[6] = tmp[3]*result[0] + tmp[6]*result[1] + tmp[11]*result[3] - tmp[2]*result[0] - tmp[7]*result[1] - tmp[10]*result[3];

    resultTemp[7] = tmp[4]*result[0] + tmp[9]*result[1] + tmp[10]*result[2] - tmp[5]*result[0] - tmp[8]*result[1] - tmp[11]*result[2];

    //calculate pairs for second 8 elements (cofactors)
    tmp[0] = result[2]*result[7];
    tmp[1] = result[3]*result[6];
    tmp[2] = result[1]*result[7];
    tmp[3] = result[3]*result[5];
    tmp[4] = result[1]*result[6];
    tmp[5] = result[2]*result[5];
    tmp[6] = result[0]*result[7];
    tmp[7] = result[3]*result[4];
    tmp[8] = result[0]*result[6];
    tmp[9] = result[2]*result[4];
    tmp[10] = result[0]*result[5];
    tmp[11] = result[1]*result[4];

    //calculate second 8 elements (cofactors)
    resultTemp[8] = tmp[0]*result[13] + tmp[3]*result[14] + tmp[4]*result[15] - tmp[1]*result[13] - tmp[2]*result[14] - tmp[5]*result[15];

    resultTemp[9] = tmp[1]*result[12] + tmp[6]*result[14] + tmp[9]*result[15] - tmp[0]*result[12] - tmp[7]*result[14] - tmp[8]*result[15];

    resultTemp[10] = tmp[2]*result[12] + tmp[7]*result[13] + tmp[10]*result[15] - tmp[3]*result[12] - tmp[6]*result[13] - tmp[11]*result[15];

    resultTemp[11] = tmp[5]*result[12] + tmp[8]*result[13] + tmp[11]*result[14] - tmp[4]*result[12] - tmp[9]*result[13] - tmp[10]*result[14];

    resultTemp[12] = tmp[2]*result[10] + tmp[5]*result[11] + tmp[1]*result[9] - tmp[4]*result[11] - tmp[0]*result[9] - tmp[3]*result[10];

    resultTemp[13] = tmp[8]*result[11] + tmp[0]*result[8] + tmp[7]*result[10] - tmp[6]*result[10] - tmp[9]*result[11] - tmp[1]*result[8];

    resultTemp[14] = tmp[6]*result[9] + tmp[11]*result[11] + tmp[3]*result[8] - tmp[10]*result[11] - tmp[2]*result[8] - tmp[7]*result[9];

    resultTemp[15] = tmp[10]*result[10] + tmp[4]*result[8] + tmp[9]*result[9] - tmp[8]*result[9] - tmp[11]*result[10] - tmp[5]*result[8];

    // calculate determinant
    det = result[0]*resultTemp[0] + result[1]*resultTemp[1] + result[2]*resultTemp[2] + result[3]*resultTemp[3];

    resultTemp[0] = resultTemp[0]/det;
    resultTemp[1] = resultTemp[1]/det;
    resultTemp[2] = resultTemp[2]/det;
    resultTemp[3] = resultTemp[3]/det;
    resultTemp[4] = resultTemp[4]/det;
    resultTemp[5] = resultTemp[5]/det;
    resultTemp[6] = resultTemp[6]/det;
    resultTemp[7] = resultTemp[7]/det;
    resultTemp[8] = resultTemp[8]/det;
    resultTemp[9] = resultTemp[9]/det;
    resultTemp[10] = resultTemp[10]/det;
    resultTemp[11] = resultTemp[11]/det;
    resultTemp[12] = resultTemp[12]/det;
    resultTemp[13] = resultTemp[13]/det;
    resultTemp[14] = resultTemp[14]/det;
    resultTemp[15] = resultTemp[15]/det;

    if(det==0.0f)
    {
        result[0] = 1.0;
        result[1] = 0.0;
        result[2] = 0.0;
        result[3] = 0.0;
        result[4] = 0.0;
        result[5] = 1.0;
        result[6] = 0.0;
        result[7] = 0.0;
        result[8] = 0.0;
        result[9] = 0.0;
        result[10] = 1.0;
        result[11] = 0.0;
        result[12] = 0.0;
        result[13] = 0.0;
        result[14] = 0.0;
        result[15] = 1.0;
    }

    result[0] = resultTemp[0];
    result[1] = resultTemp[4];
    result[2] = resultTemp[8];
    result[3] = resultTemp[12];
    result[4] = resultTemp[1];
    result[5] = resultTemp[5];
    result[6] = resultTemp[9];
    result[7] = resultTemp[13];
    result[8] = resultTemp[2];
    result[9] = resultTemp[6];
    result[10] = resultTemp[10];
    result[11] = resultTemp[14];
    result[12] = resultTemp[3];
    result[13] = resultTemp[7];
    result[14] = resultTemp[11];
    result[15] = resultTemp[15];
}

This is my OpenGL display function now. It still isn't working properly.

void renderScene()
{
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

    glPushMatrix();

        camera.RenderCam();
        camera.MoveCamMouse();

        // Sky Box is manually textured
        glDisable(GL_TEXTURE_GEN_S);
        glDisable(GL_TEXTURE_GEN_T);
        glDisable(GL_TEXTURE_GEN_R); 

        drawSkyBox();

        // Use texgen to apply cube map
        glEnable(GL_TEXTURE_GEN_S);
        glEnable(GL_TEXTURE_GEN_T);
        glEnable(GL_TEXTURE_GEN_R);

        glUseProgram(glassProgram);
        utilities.setUniform("Cubemap", 0);
        glPushMatrix();
            glMatrixMode(GL_TEXTURE);
            glLoadIdentity();
            glScalef(-1, -1, -1);
            glPushMatrix();
                GLfloat m[16];
                glGetFloatv(GL_MODELVIEW_MATRIX, m);
                camera.getCameraInverse(m);
                glMultMatrixf(m);
                glutSolidSphere(5.0, 100, 100);
            glPopMatrix();
            glMatrixMode(GL_TEXTURE);
            glLoadIdentity();
            glMatrixMode(GL_MODELVIEW);
        glPopMatrix();
        glUseProgram(0);

    glPopMatrix();
    // FPS
    frame++;

    time = glutGet(GLUT_ELAPSED_TIME);
    if (time - timebase > 1000) 
    {
        sprintf(s,"Texture Mapping | FPS: %4.2f",frame*1000.0/(time-timebase));
        timebase = time;
        frame = 0;
    }

    glutSetWindowTitle((const char*)&s);

    // Swap double buffer for flicker-free animation
    glutSwapBuffers();
}

Here is my GLSL code to perform the reflection and refraction. Am not sure if there is something wrong here

// Vertex Shader

const float EtaR = 0.65;
const float EtaG = 0.67;         // Ratio of indices of refraction
const float EtaB = 0.69;
const float FresnelPower = 1.0;

const float F  = ((1.0-EtaG) * (1.0-EtaG)) / ((1.0+EtaG) * (1.0+EtaG));

varying vec3  Reflect;
varying vec3  RefractR;
varying vec3  RefractG;
varying vec3  RefractB;
varying float Ratio;

void main()
{
    vec4 ecPosition  = gl_ModelViewMatrix * gl_Vertex;
    vec3 ecPosition3 = ecPosition.xyz / ecPosition.w;

    vec3 i = normalize(ecPosition3);
    vec3 n = normalize(gl_NormalMatrix * gl_Normal);

    Ratio   = F + (1.0 - F) * pow((1.0 - dot(-i, n)), FresnelPower);

    RefractR = refract(i, n, EtaR);
    RefractR = vec3(gl_TextureMatrix[0] * vec4(RefractR, 1.0));
    RefractG = refract(i, n, EtaG);
    RefractG = vec3(gl_TextureMatrix[0] * vec4(RefractG, 1.0));

    RefractB = refract(i, n, EtaB);
    RefractB = vec3(gl_TextureMatrix[0] * vec4(RefractB, 1.0));

    Reflect  = reflect(i, n);
    Reflect  = vec3(gl_TextureMatrix[0] * vec4(Reflect, 1.0));

    gl_Position = ftransform();
}

// Fragment Shader

varying vec3  Reflect;
varying vec3  RefractR;
varying vec3  RefractG;
varying vec3  RefractB;
varying float Ratio;

uniform samplerCube Cubemap;

void main()
{
    vec3 refractColor, reflectColor;

    refractColor.r = vec3(textureCube(Cubemap, RefractR)).r;
    refractColor.g = vec3(textureCube(Cubemap, RefractG)).g;
    refractColor.b = vec3(textureCube(Cubemap, RefractB)).b;

    reflectColor   = vec3(textureCube(Cubemap, Reflect));

    vec3 color     = mix(refractColor, reflectColor, Ratio);

    gl_FragColor   = vec4(color, 1.0);
}
share|improve this question

closed as too localized by Nicol Bolas, Tim, Ashish Gupta, ЯegDwight, bensiu Oct 12 '12 at 0:14

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1 Answer 1

but for some reason the y images are inverted and are screwing up the result

Yes, this is a rather common problem a lot of people experience. The reason for this is, that OpenGL cube maps follow the RenderMan specification, in which the scanline ordering is opposite to regular textures. This inconsistency is, well, inconsistent. When loading images from a file it's best addressed by inverting scanline ordering when loading the image. When doing a render to cube map texture one should flip the projection in the Y axis.

In your case an easy fix is to scale the texture matrix by -1 in the y, i.e.

glMatrixMode(GL_TEXTURE);
glLoadIdentity();
glScale(1, -1, 1);

and by swapping GL_TEXTURE_CUBE_MAP_POSITIVE_Y and GL_TEXTURE_CUBE_MAP_NEGATIVE_Y images.

share|improve this answer
    
There is still something wrong with it. By doing what you said, the images were in the right place, but they were getting mapped on to the model in reverse and the images are also not in the right orientation. –  Andre Oct 10 '12 at 18:25
    
@Andre: Do you have a screenshot? –  datenwolf Oct 10 '12 at 18:30
    
    
@Andre: Please try out if you do not swap POSITIVE_Y with NEGATIVE_Y – honestly it's been quite some time I did code this from scratch and I might have got this one wrong. As for the model, please apply a glScale(-1, -1, -1); to the texture matrix when you apply it to the model as reflection. Oh, and just as general advice: For cube maps you should use GL_CLAMP_TO_EDGE texture wrap mode. –  datenwolf Oct 10 '12 at 19:01
    
That worked, but now the y images are in the right place, but they look like they have been rotated by 180 degrees, I don't know how. I haven't done anything to make that so. And can you tell me the reasoning behind using glScalef(-1.0, -1.0, -1.0) to solve the problem. –  Andre Oct 10 '12 at 23:35

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