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I have some scientific image data that's coming out of a detector device in a 16 bit range which then gets rendered in an image. In order to display this data, I'm using OpenGL, because it should support ushorts as part of the library. I've managed to get this data into textures rendering on an OpenGL 1.4 platform, a limitation that is a requirement of this project.

Unfortunately, the resulting textures look like they're being reduced to 8 bits, rather than 16 bits. I test this by generating a gradient image and displaying it; while the image itself has each pixel different from its neighbors, the displayed texture is showing stripe patterns where all pixels next to one another are showing up as equal values.

I've tried doing this with GlDrawPixels, and the resulting image actually looks like it's really rendering all 16 bits.

How can I force these textures to display properly?

To give more background, the LUT (LookUp Table) is being determined by the following code:

        String str = "!!ARBfp1.0\n" +
            "ATTRIB tex = fragment.texcoord[0];\n" +
            "PARAM cbias = program.local[0];\n" +
            "PARAM cscale = program.local[1];\n" +
            "OUTPUT cout = result.color;\n" +

            "TEMP tmp;\n" +
            "TXP tmp, tex, texture[0], 2D;\n" +
            "SUB tmp, tmp, cbias;\n" +
            "MUL cout, tmp, cscale;\n" +

        Gl.glGenProgramsARB(1, out mFragProg);
        Gl.glBindProgramARB(Gl.GL_FRAGMENT_PROGRAM_ARB, mFragProg);

        System.Text.Encoding ascii = System.Text.Encoding.ASCII;
        Byte[] encodedBytes = ascii.GetBytes(str);
            count, encodedBytes);


Where cbias and cScale are between 0 and 1.


EDIT: To answer some of the other questions, the line with glTexImage:

        Gl.glBindTexture(Gl.GL_TEXTURE_2D, inTexData.TexName);

        Gl.glTexImage2D(Gl.GL_TEXTURE_2D, 0, Gl.GL_LUMINANCE, inTexData.TexWidth, inTexData.TexHeight,
            0, Gl.GL_LUMINANCE, Gl.GL_UNSIGNED_SHORT, theTexBuffer);

        Gl.glTexParameteri(Gl.GL_TEXTURE_2D, Gl.GL_TEXTURE_MIN_FILTER, Gl.GL_LINEAR);   // Linear Filtering
        Gl.glTexParameteri(Gl.GL_TEXTURE_2D, Gl.GL_TEXTURE_MAG_FILTER, Gl.GL_LINEAR);   // Linear Filtering

        theTexBuffer = null;

The pixel format is set when the context is initialized:

        Gdi.PIXELFORMATDESCRIPTOR pfd = new Gdi.PIXELFORMATDESCRIPTOR();// The pixel format descriptor
        pfd.nSize = (short)Marshal.SizeOf(pfd);                        // Size of the pixel format descriptor
        pfd.nVersion = 1;                                               // Version number (always 1)
        pfd.dwFlags = Gdi.PFD_DRAW_TO_WINDOW |                          // Format must support windowed mode
                    Gdi.PFD_SUPPORT_OPENGL |                            // Format must support OpenGL
                    Gdi.PFD_DOUBLEBUFFER;                               // Must support double buffering
        pfd.iPixelType = (byte)Gdi.PFD_TYPE_RGBA;                      // Request an RGBA format
        pfd.cColorBits = (byte)colorBits;                              // Select our color depth
        pfd.cRedBits = 0;                                               // Individual color bits ignored
        pfd.cRedShift = 0;
        pfd.cGreenBits = 0;
        pfd.cGreenShift = 0;
        pfd.cBlueBits = 0;
        pfd.cBlueShift = 0;
        pfd.cAlphaBits = 0;                                             // No alpha buffer
        pfd.cAlphaShift = 0;                                            // Alpha shift bit ignored
        pfd.cAccumBits = 0;                                     // Accumulation buffer
        pfd.cAccumRedBits = 0;                                          // Individual accumulation bits ignored
        pfd.cAccumGreenBits = 0;
        pfd.cAccumBlueBits = 0;
        pfd.cAccumAlphaBits = 0;
        pfd.cDepthBits = 16;                                     // Z-buffer (depth buffer)
        pfd.cStencilBits = 0;                                 // No stencil buffer
        pfd.cAuxBuffers = 0;                                            // No auxiliary buffer
        pfd.iLayerType = (byte)Gdi.PFD_MAIN_PLANE;                     // Main drawing layer
        pfd.bReserved = 0;                                              // Reserved
        pfd.dwLayerMask = 0;                                            // Layer masks ignored
        pfd.dwVisibleMask = 0;
        pfd.dwDamageMask = 0;

        pixelFormat = Gdi.ChoosePixelFormat(mDC, ref pfd);    // Attempt to find an appropriate pixel format

        if (!Gdi.SetPixelFormat(mDC, pixelFormat, ref pfd))
        {  // Are we not able to set the pixel format?
            BigMessageBox.ShowMessage("Can not set the chosen PixelFormat.  Chosen PixelFormat was " + pixelFormat + ".");
share|improve this question
maybe not...that's a tricky one. Have you tried this in another language, like C/C++ ? I'm not familiar with C# so I'm not sure if the C# opengl library would be an issue or not. – cbrulak Feb 3 '09 at 21:48
How do you load the texture? (the line with glTexImage would be helpfull) – Maurice Gilden Feb 3 '09 at 22:18
Yes, also where you set the pixel format (if this matters - I havent worked with 16bit in OpenGL before). – geofftnz Feb 3 '09 at 22:19
up vote 1 down vote accepted

If you create a texture the 'type' parameter of glTexImage is only the data type your texture data is in before it is converted by OpenGL into its own format. To create a texture with 16 bit per channel you need something like GL_LUMINANCE16 as format (internal format remains GL_LUMINANCE). If there's no GL_LUMINANCE16 for OpenGL 1.4 check if GL_EXT_texture is available and try it with GL_LUMINANCE16_EXT.

One of these should work. However if it doesn't you can encode your 16 bit values as two 8 bit pairs with GL_LUMINANCE_ALPHA and decode it again inside a shader.

share|improve this answer
I'm not sure any 1.4 hardware supports shaders, even ASM ones – Branan Feb 3 '09 at 23:05
Look at the question again, there's a I assume it does. – Maurice Gilden Feb 3 '09 at 23:12
it does indeed support shaders, and this was the right call. It also supports GL_LUMINANCE16 without the extension. Thanks much! – mmr Feb 3 '09 at 23:26

I've never worked in depths higher (deeper) than 8bit per channel, but here's what I'd try first:

Turn off filtering on the texture and see how it affects the output.

Set texturing glHints to best quality.

share|improve this answer

You could consider using a single channel floating point texture through one of the GL_ARB_texture_float, GL_ATI_texture_float or GL_NV_float_buffer extensions if the hardware supports it, I can't recall if GL 1.4 has floating point textures or not though.

share|improve this answer

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