I am rendering an obj file in OpenGL ES 2.0 on Android with Back-Culling enabled. Only some part (the necklace around the neck) of the texture image actually has alpha.
When rendering only the mesh, it looks fine :
However, on enabling the texture, I am able to see through the mesh onto the other side. You can see below that the right hand which is behind the body also becomes visible. Any ideas what might be going wrong ?
Edit:
I have tried the following :
Enabling/Disabling back face culling
Checking the ordering of vertices
Checking if normals are inside at some points
But nothing seem to work. Any other direction would be appreciated.
Edit 2 :
I opened up the texture image and filled all the transparent area with black color by saving it as no alpha layer in a image editing program. And this is how it looks now :
Transparency issue is gone, but then I won't be able to see the necklace properly.
Edit 3 : Can Alpha-blending and the Z-buffer be an issue as described in the link ? It claims 'The Z buffer doesn't work for transparent polygons.'
There are quite a few solutions for the conflict of the depth buffer and alpha blending.
In your case it might be best to simply disable the blending and discard the pixels in the fragment shader.
You probably just have some semitransparent pixels on the borders of the accessory the rest is either 1.0 or 0.0. So maybe a pass such as if alpha < 0.5 discard else set alpha to 1.0.
Another way would simply make sure that those blended objects are drawn last. If you have only one of such objects on the scene it should work. But if you have multiple one behind the other you may again encounter issues.
Related
I am developing an augmented reality app, that should render a 3D model. So far so good. I am using Vuforia for AR, libgdx for graphics, everything is on Android, works like charm...
Problem is, that I need to create a "window - like" effect. I literally need to make the model look like a window you can look through and see behind it. That means I have some kind of wall-object, which has a hole in it(a window). Through this hole, you can see another 3D model behind the wall.
Problem is, I need to also render the video background. And this background is also behind the wall. I can't just turn of blending when rendering the wall, because that would corrupt the video image.
So I need to make the wall and everything directly behind it transparent, but not the video background.
Is such marvel even possible using only OpenGL?
I have been thinking about some combination of front-to-end and back-to-front rendering: render background first, then render the wall, but blend it only into the alpha channel (making video visible only on pixels that are not covered by wall), then render the actual content, but blend it only into the visible pixels (that are not behind the wall) and then "render" the wall once more, but this time make everything behind it visible. Would such thing work?
I can't just turn of blending when rendering the wall
What makes you think that? OpenGL is not a scene graph. It's a drawing API and everything happens in the order and as you call it.
So order of operations would be
Draw video background with blending turned off.
The the objects between video and the wall (turn blending on or off as needed)
Draw the wall, with blending or alpha test enabled, so that you can create the window.
Is such marvel even possible using only OpenGL?
The key in understanding OpenGL is, that you don't think of using it to setup a 3D world scene, but instead use it to draw a 2D picture of a 3D world (because that's what OpenGL actually does). In the end OpenGL is just a bit smarter brush to draw onto a flat canvas. Think about how you'd paint a picture on paper, how you'd mask different parts. And then you do that with OpenGL.
Update
Ohkay, now I see what you want to achieve. The wall is not really visible, but a depth dependent mask. Easy enough to achieve: Use alpha testing instead of blending to produce the window in the depth buffer. Or, instead of alpha testing you could just draw 4 quads, which form a window between them.
The trick is, that you draw it into just the depth buffer, but not into the color buffer.
glDepthMask(1);
glColorMask(0,0,0,0);
draw_wall();
Blending will not work in this case, since even fully transparent fragments will end up in the depth buffer. Hence alpha test. In fixed function OpenGL glEnable(GL_ALPHA_TEST) and glAlphaFunc(…). However on OpenGL-ES2 you've to implement it through a shader.
Say you've got a single channel texture, in the fragment shader do
float opacity = texture(sampler, uv).r;
if( opacity < threshold ) discard;
So I've been playing around with OpenGL ES 2.0 on Android but now got to a problem I haven't been able to solve. Apologies in advance, it appears that I'm not allowed to post more that two links (yet), so I put my three images in a Photobucket album here.
I'm trying to create a 3D environment that is enclosed by transparent areas ("colored glass"). To see if it works I also put a opaque cube within. I enabled the following capabilities:
GLES20.glEnable(GLES20.GL_CULL_FACE);
GLES20.glEnable(GLES20.GL_DEPTH_TEST);
GLES20.glEnable(GLES20.GL_BLEND);
GLES20.glBlendFunc(GLES20.GL_SRC_ALPHA, GLES20.GL_ONE_MINUS_SRC_ALPHA);
Now the picture looks like this (screenshot 1). Not bad, but not exactly how I wanted it: A (lower) wall at the back as well as the wall on the right should be visible because the wall I'm looking through is transparent.
Then I found that and tried using GLES20.glDepthMask(true); before drawing the opaque and GLES20.glDepthMask(false); before drawing the transparent objects, as well as disabling blending while drawing the opaque objects.
The result (screenshot 2) looks quite messed up. But then I had another idea, not to turn off writing to the depth buffer but to turn off GLES20.DEPTH_TEST altogether, while drawing the transparent objects.
That (screenshot 3) got me closest tho the picture I'm looking for. You can finally see the backwall as well as the right sidewall but, because the depth testing is disabled when drawing the opaques, the cube is partially covered by the backwall, which it shouldn't be.
Does anyone know how to get the effect I'm looking for?
I think that I solved it. By that I mean that it works in my case but I can't tell if that is just by coincidence...
I am enabling depth testing and blending as usual. Then, when drawing, I draw the opaque shapes first and the transparent shapes second, like before. But, while drawing the transparent shapes, I turn GLES20.glDepthMask(..) off to not write to the depth buffer and thus draw all transparent shapes that are not covered by opaque shapes. I did that previously (picture 2) and it completely messed up but I now I do it in reverse - disabling the depth mask for transparent shapes, not opaque ones.
I can't seem to get my blending properly working in OpenGL ES 2 on Android. What I have are textures with alpha channels that I want to appear with the corresponding alpha. The blending appears as additive even when the top drawn object has alpha of 1.0. In my fragment shader I hard-coded a value of 1.0 for the alpha, and realized it seems to be using color, not alpha values.
For example, it looks like this :
Instead of this :
I am drawing in the correct order, in this example the blue should be fully opaque over top of the gray square. I have tried multiple blending modes (one,one), (alpha,alpha), etc., multiple draw orders, and using and not using depth test. I have tried random blend modes that yield incorrect results, so the blending is changing when I set it.
I believe the problem is that opengl is blending additive color. (Alpha, Alpha) makes sense to me, and when I explicitly set alpha to 1.0 in the shader, I would think I would get a square (the actual shape the texture is projected on) that has a blue circle on it. This not happening puzzles me, I guess I don't understand the sfactor and dfactor blending function enough.
Are you using the Android Bitmap class to load your textures?
Using GLUtils.texImage2D() to load alpha textures from a Bitmap on Android is broken. This is a problem that Google really should document better. The problem is that the Bitmap class converts all images into pre-multiplied format, but that does not work with OpenGL ES unless the image is completely opaque.
This article gives more detail on this click here.
I'm trying to get my point sprites to display with the correct opacity.
Originally, I was getting my sprite texture on a black square.
So, I added the following to my fragment shader:
"if(color.a < 0.5) "+
"discard;"+
Now, this does seem to work, in that my sprite displays without the black background, however, my texture itself is 'partially transparent' - and it isn't showing this partial transparency, it is appearing solid. It's a bit difficult to explain, but I hope you understand what I mean. If I draw the same texture using canvas/surfaceview, it displays correctly.
Basically I'm trying to get my textures to display in their original format (ie as they do in the software in which they were created - ie, the Gimp / photoshop etc).
Would appreciate any help - thanks
First make sure your textures are loaded from transparent pngs through a Bitmap with either RGBA_8888 or RGBA_4444 configuration, so you don't lose the alpha channel.
Second you need to enable GL_BLEND with the glEnable() command. On Android you will write it like this: GLES20.glEnable(GLES20.GL_BLEND);. This allows you to blend the already drawn color with the new color, achieving a transparent look.
The blending function should be set to GL_ONE, GL_ONE_MINUS_ALPHA for regular transparency: glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
GL_SRC_ALPHA, GL_ONE_MINUS_ALPHA for regular transparency: glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
Finally, you do not need to use discard, just set the gl_FragColor to a 4-component vector with the alpha in the fourth channel (which is what you get when reading a texture from a sampler), e.g. you could just do gl_FragColor = texture2D(sampler, texCoord); if you wanted to.
You will most likely have to turn off depth-testing with glDisable(GL_DEPTH_TEST) to avoid problems with unsorted triangles.
You can read a little bit more about transparency here.
I am working on an Android app, based on the LibGDX framework (Though I don't think that should affect this problem too much), and I am having trouble finding a way to get the results I want when drawing using transparent sprites. The problem is that the sprites visibly layer on top of each other where they overlap, similar to what is displayed in this image :
This is pretty unsightly for some of what I want to do, and even completely breaks other parts. What I would like them to do is merge together seamlessly, like so:
The only success I have had thus far is to draw the entire sequence of sprites on a separate texture at full opacity, and then draw that texture back with the desired opacity. I had this working moderately well, and I could likely make it work for most of what I need it to, but the large problem right now is that these things are dynamically drawn onto the screen, and the process of modifying a fairly large texture and sending it back are pretty taxing on mobile devices, and causes an unacceptable level of performance.
I've spent a good chunk of time looking for more ideal solutions, including experimenting with blend modes and coming up with quirky formulas that balanced out alpha and color values in ways to even things out, but nothing was particularly successful. My guess is that the only viable route for this is the previously mentioned way of creating a texture and applying the alpha difference to that, but I am unsure of the best way to make that work with lower powered mobile devices.
There might be a few other ways to do this: The most straight forward would be to attach a stencil buffer and draw circles to stencil first and then draw a full screen rect with desired color+alpha with the stencil, this should be much faster then some FBO with a separate texture.
Another thing might work is drawing those circles first with disabled blend and then your whole scene over it with inverted "blendFunc" but do note it might be impossible if other elements also need blending.
3rd instead of using stencil you could just use the alpha channel of your render buffer. Just use a color mask to draw only to alpha and draw the circles, then reenable RGB on color mask and draw the fullscreen rect using appropriate "blendFunc" also note here that if previous shapes have used blend you will need to clear the alpha to 1.0 before doing this (color mask to alpha only, disabled blend, draw full screen rect with color that has alpha set to 1.0)