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I have rendered an objectA in a scene as follows. The scene has many other objects too.

void Draw()
{    
    if( glIsList( displayListID ) )
    {
        glPushAttrib( GL_COLOR_BUFFER_BIT|GL_DEPTH_BUFFER_BIT|GL_ENABLE_BIT );

        glEnable( GL_BLEND );
        glEnable( GL_DEPTH_TEST );
        //glDepthMask( GL_FALSE );
        glBlendFunc( GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA );

        glEnable( GL_LINE_SMOOTH );
        glEnable( GL_POINT_SMOOTH );
        glEnable( GL_POLYGON_SMOOTH );

        glMatrixMode( GL_MODELVIEW ); 

        color.setAlpha(alpha); // set alpha transparent of this objectA
        glCallList( displayListID );

        //glDepthMask( GL_TRUE );
        glDisable( GL_BLEND );  

        glPopAttrib();
    }
}

Now here is the problem,

As shown, I comment out two lines //glDepthMask( GL_FALSE ); //glDepthMask( GL_TRUE );

the scene renders the objectA and other objects correctly in depth. However, the modification of the objectA alpha doesn't work anymore (i.e. color.setAlpha(alpha) ).

If I uncomment the above two lines, then alpha modification is back to work. However, the depth rendering is NOT correct. In other words, sometimes, the objectA should be behind other objects but it looks like the objectA is in front of all objects.

How do I fix this problem?

Thank you

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2 Answers

up vote 31 down vote accepted
  1. Turn on the depth mask glDepthMask( GL_TRUE )
  2. Draw all opaque objects, in any order
  3. Turn off the depth mask glDepthMask( GL_FALSE )
  4. Turn on a BLEND_MODE
  5. Draw translucent objects sorted from furthest away to nearest

Why do you do this?

There are 2 buffers you need to worry about: the depth buffer and the color buffer. These buffers are really just big 2d arrays, each the width x height of your screen.

The color buffer naturally is going to hold the final coloration of each pixel. There is one entry in the color buffer per screen pixel. The depth buffer, is like the color buffer in that there is one entry per screen pixel, but it is used for something different. Entries in the depth buffer are a measure of "how close" each colored pixel really is.

If you render 1 triangle, that is far away from the camera, it generates a set of colors and depth values for each pixel it "wants" to cover on the screen. Say you then render another poly that is closer, it also will generate a set of values for the depth and color buffers. Now, there is a sort of "contest" at pixel coloration time where the "further away" fragments (large depth buffer values) are discarded, and only the closest fragments are kept. The closer fragments end up coloring the pixel you had. (When two polygons are nearly overlapping, Z-fighting can occur)

Start by rendering the objects in your scene with the depth mask on. This means every shape you render, when its pixels get colored, the depth buffer gets updated with the "winner" of the contest.

Then, you 3) glDepthMask( GL_FALSE ) turns off the depth buffer for writing, 4) turn on blending, 5) render translucent shapes from furthest to nearest. Seems weird, huh?

When you turn off the depth mask, and render the translucent shapes, OpenGL will still read the depth buffer to determine which fragments to throw away (i.e. if your translucent shape is behind an already rendered solid shape, then you throw that translucent shape's fragments away). But it will not write to the depth buffer, so if a translucent shape is really really close to the eye (say like a translucent windshield), those windshield fragments do not prevent other fragments that are actually further away from being drawn. This is important, because if your windshield is right in front of you and you render it translucent, and you let the windshield fragments update the depth buffer then you will see nothing else in your scene except the windshield, even though there are shapes behind it, because OpenGL will think "Hey, that windshield is the only thing the user should see, due to these depth buffer readings, so I won't bother rendering anything further away than this windshield, then." Turning off the depth mask is a way of "tricking" OpenGL into "not knowing" there are very close, but translucent, fragments.

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+1, well-written and very instructive. –  Greg S Aug 2 '10 at 18:18
    
Hello bobobobo, It takes so much time for you to write such a detail description and it takes many counting for me to figure out how many bo repetition in your login name:) Here is what I want to achieve. In the scene, I have two objects, one (objectA) inside the other (ojectB). ObjectA is enclosed 3D sphere while objectB is a opened half sphere. ObjectA is sit right in the center of the objectB. If you rotate the view, you can see the relative position of objectA and objectB. Now, the user can adjust alpha for objectA and objectB respectively. In other words, they can have different alpha –  q0987 Aug 2 '10 at 20:49
    
Based on your comments, I should always use glDepthMask( GL_FALSE ). But I must sort all triangles on the surf of the objectA and objectB so that the nearest one is rendered last. Thank you –  q0987 Aug 2 '10 at 20:51
1  
Yes, you should sort the polygons in back-to-front order, so you lay down the color for the inner sphere first (without writing the depth buffer), and then you lay down the color of the outer sphere "on top" of it -- kind of like making a layered painting. To sort the polygons from front to back, one algorithm to do it is use a BSP tree. The BSP tree is a bit advanced, so what you can do is just always render the inner sphere first, since it will always be "behind" the outer sphere (unless you are inside the inner sphere..). –  bobobobo Aug 2 '10 at 22:32
    
+1 going through a project and having to implement transparency I found this very well explained. –  Mihai Neacsu Jan 8 '13 at 13:10
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One possible solution: set glDepthMask to GL_TRUE at all times and draw all your non-transparent objects first (in any order, just as you seem to do it now), then draw all your (semi-)transparent objects sorted from back to front.

In some cases, if you don't care about the order in which your (semi-)transparent objects are drawn and you only want the other, opaque objects to "shine through", you can skip sorting your (semi-)transparent objects.

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Basically you should sort your objects this way : - near opaque objects - far opaque objects - far transparent objects - near transparent. Opaque first or your alpha blending won't work. Far transparent before near transparent for the same reason. And near opaque first because they are the most susceptible to fill the screen and spare fill-rate –  Calvin1602 Aug 2 '10 at 14:18
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