Difference between revisions of "Transparency"
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− | + | = Additive Transparency = | |
− | + | The flames on this burning bed are using additive [[Transparency_map|transparency]] to keep the colors "hot." | |
− | + | <gallery mode="traditional"> | |
− | + | Image:Transparency.gif|in-engine | |
− | + | Image:flames.gif|map | |
− | + | </gallery> | |
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− | The flames on this burning bed are using additive transparency to keep the colors "hot." | + | |
See [[additive color model]]. | See [[additive color model]]. | ||
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− | + | = Alpha Transparency = | |
− | | | + | <gallery mode="traditional"> |
− | | | + | Image:crowd.gif|A texture using alpha [[Transparency_map|transparency]] in RT3D. |
+ | Image:crowd_rgb.gif|The RGB part of the texture file. | ||
+ | alpha.gif|The alpha channel of the texture file, in 8bit (256 colors). | ||
+ | </gallery> | ||
− | + | = Alpha Bit Depths = | |
− | | | + | <gallery mode="traditional"> |
− | | | + | alpha_8bit.gif|A closeup of the 8bit (256 colors) alpha channel. This is the highest bit depth used for alpha channels, because you can get a full range of grays with 256 colors. If we had a higher bit depth like 16bit (65535 colors), you would see the alpha looking a little bit smoother, but because texture filtering is so common now, it ends up softening your 8bit alpha anyway, and it looks fine. |
+ | alpha_4bit.gif|A closeup of a 4bit (16 colors) version of the alpha channel. Still a lot of detail, but starting to break up some around the edges. This is a much smaller file than the 8bit alpha, which is good because it takes up much less memory. A good trade off. | ||
+ | alpha_1bit.gif|A closeup of a 1bit (2 colors) version of the alpha channel. 1bit means only black and white, so there's no anti-aliasing. This is a very small file-- the visual quality suffers, but it saves a lot of memory. Not worth the degradation unless you really need the memory. | ||
+ | </gallery> | ||
− | + | = Subtractive Transparency = | |
− | + | <gallery mode="traditional"> | |
+ | subtractiveT.gif|In Engine | ||
+ | xray_hand.gif|Map | ||
+ | </gallery> | ||
− | The x-rays on this light-table use subtractive transparency to make things under them darker, the way real x-rays do. The subtractive method isn't used all that often, so if you need it you should ask your programmer(s) if they can add it as a specific feature of the engine. | + | The x-rays on this light-table use subtractive [[Transparency_map|transparency]] to make things under them darker, the way real x-rays do. The subtractive method isn't used all that often, so if you need it you should ask your programmer(s) if they can add it as a specific feature of the engine. |
− | See [[ | + | See [[Subtractive Color Model]]. |
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[[Category:Glossary]] | [[Category:Glossary]] |
Latest revision as of 21:42, 11 December 2014
Additive Transparency
The flames on this burning bed are using additive transparency to keep the colors "hot."
See additive color model.
Alpha Transparency
A texture using alpha transparency in RT3D.
Alpha Bit Depths
A closeup of the 8bit (256 colors) alpha channel. This is the highest bit depth used for alpha channels, because you can get a full range of grays with 256 colors. If we had a higher bit depth like 16bit (65535 colors), you would see the alpha looking a little bit smoother, but because texture filtering is so common now, it ends up softening your 8bit alpha anyway, and it looks fine.
Subtractive Transparency
The x-rays on this light-table use subtractive transparency to make things under them darker, the way real x-rays do. The subtractive method isn't used all that often, so if you need it you should ask your programmer(s) if they can add it as a specific feature of the engine.