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149 lines
6.3 KiB
Text
149 lines
6.3 KiB
Text
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README: glDOOM
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I never got around to do anything with respect to
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a Linux glDOOM port except for assembling a Linux3Dfx
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HOWTO (which, at that time, was a prerequisite
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to get permission to publicly distribute the
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already finished LinuxGlide port by Daryll Strauss).
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Linux q2test (and soon LinuxQuake2) demonstrate that
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Mesa with the MesaVoodoo driver is quite up to the
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requirements for a glDOOM port. If anybody wants to
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get into Linux glDOOM, please drop me a line.
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There is a Win32 GLDOOM port in the works, by Jim Dose.
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Quoting a recent posting by him:
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"I haven't had as much time lately to really work on
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the conversion. I currently have the renderer drawing
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the walls and floors as texture spans as the are in
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the software renderer. There's lighting on the walls,
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but not the floors, and sprites are being drawn, but
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not with the right texture. I figure that this is one
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nights work to get the game looking "normal". I haven't
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tested the game on less than a p200, so I'm not sure
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how it will perform under the average machine, but I
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don't expect it to be blindingly fast because of the
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number of spans that have to be drawn each frame.
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Rendering as polys is definitely the way to go.
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The reason I chose to do spans first was because it
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left the base renderer intact and I could concentrate
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on ironing out any Windows compatibility problems.
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Actually, the first version I had running was simply
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a blit of the 320x200 game screen through Open GL.
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Surprisingly, this actually was very playable, but
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certainly wasn't taking any advantage of 3D acceleration.
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Once the game was running, I started converting all
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the span routines over."
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Comment: for merging Linuxdoom with Win32, this is
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probably the best source for getting the Win32
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environment done - before more significant changes
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occur.
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"One problem with drawing spans is that the engine
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doesn't calculate the texture coordinates with
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fractional accuracy, so the bilinear filtering works
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vertically, but not horizontally on the walls. I may
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try to fix this, but since I plan to use polys for
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the final version, it's not really high priority.
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Also, spans don't really allow for looking up and
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down."
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Comment: true looking up/down vs. Heretic-style
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y-shearing seems to require either a strange kind
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of transofrmation matrix (he probably does not use
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the OpenGL transformation at all), or rendering
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all the spans as textured rectangular slices
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instead of using glDrawBitmap. No, polys are the
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way to go.
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"When I tackle the conversion to polys, one big problem
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I'll encounter is drawing floors. Since the world is
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stored in a 2D bsp tree, there is no information on
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the shape of the floors. In fact the floors can be
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concave and may include holes (typically, most renderers
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break concave polys down into a collection of convex
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polys or triangles). In software, the floors are actually
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drawn using an algorithm that's similar to a flood fill
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(except that a list of open spans is kept instead of a
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buffer of pixels). This makes drawing the floors as
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polys fairly difficult."
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A polygon based approach will require significant changes
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to the data structures used in the refresh module. I
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recommend either separating a libref_soft.so first (a
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Quake2 like approach), and creating libref_gl afterwards,
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or abandoning the software rendering entirely.
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John Carmack wrote once upon a time:
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"... the U64 DOOM engine is much more what I would consider
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The Right Thing now -- it turns the subsector boundaries
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into polygons for the floors and ceilings ahead of time,
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then for rendering it walks the BSP front to back, doing
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visibility determination of subsectors by the one dimensional
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occlusion buffer and clipping sprites into subsectors, then
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it goes backwards through the visible subsectors, drawing
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floors, ceilings, walls, then sorted internal sprite fragments.
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It's a ton simpler and a ton faster, although it does suffer
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some overdraw when a high subsector overlooks a low one (but
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that is more than made up for by the simplicity of everything
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else)."
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Well, IMO compiling a separate list of floor/ceiling polygons
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after having read the WAD file, and thus introducing this as
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a completely separate data structure to the current code base
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might be the easiest thing to do. Jim Dose writes:
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"One method I may use to draw the floors as polys was suggested
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by Billy Zelsnack of Rebel Boat Rocker when we were working
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at 3D Realms together a few years ago. Basically, Billy was
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designing an engine that dealt with the world in a 2D portal
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format similar to the one that Build used, except that it had
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true looking up and down (no shearing). Since floors were
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basically implicit and could be concave, Billy drew them as
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if the walls extended downwards to infinity, but fixed the
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texture coordinates to appear that they were on the plane of
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the floor. The effect was that you could look up and down and
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there were no gaps or overdraw. It's a fairly clever method
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and allows you to store the world in a simpler data format.
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Had perspective texture mapping been fast enough back then,
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both Build and Doom could have done this in software."
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Perhaps the above is sufficient to get you started.
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Other Issues:
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1. Occlusion
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DOOM uses a per-column lookup (top/bottom index) to do HLHSR.
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This works fine with span based rendering (well, getting
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horizontal spans of floors/ceilings into the picture is a
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separate story). It isn't really mindboggling with polygon
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based rendering. GLDOOM should abandon that.
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2. Precalculated Visibility
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DOOM has the data used by Quake's PVS - in REJECT.
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During Quake development, lots of replacements for the
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occlusion buffer were tried, and PVS turned out to be best.
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I suggest usind the REJECT as PVS.
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There have been special effects using a utility named RMB.
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REJECT is a lump meant for enemy AI LoS calculation - a
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nonstandard REJECT will not work as a PVS, and introduce
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rendering errors. I suggest looking for a PVS lump in the
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WAD, and using REJECT if none is found. That way, it might
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be feasible to eat the cake and keep it.
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3. Mipmaps
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DOOM does not have mipmapping. As we have 8bit palettized
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textures, OpenGL mipmapping might not give the desired
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results. Plus, composing textures from patches at runtime
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would require runtime mipmapping. Precalculated mipmaps
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in the WAD?
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4. Sprites
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Partly transparent textures and sprites impose another
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problem related to mipmapping. Without alpha channel,
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this could give strange results. Precalculated, valid
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sprite mipmaps (w/o alpha)?
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