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while and killing centaurs with the flechette. - Fixed: Moving to an old level in a hub caused the old player's inventory to spawn owned by the current player (but still hanging off the old player), so the game would hang when trying to delete it. - Modified re2c so that it doesn't add a date to the file it generates. Thus, if it regenerates a file during a full rebuild, SVN won't see it as a change. Also updated it to 0.10.5. - Fixed: SC_GetString() did not properly terminate sc_String when the last token in the file had no white space after it. Since I could not actually find the problem (it works fine in debug mode and I saw no logic errors), I decided to take this opportunity to reimplement it using an re2c-generated scanner. Now it's 1.6x faster than before and correctness is easier to verify. - Fixed: FMODSoundRenderer::Shutdown() also needs to reset NumChannels. - Added back the Manifest to zdoom.rc for non-VC8 Windows compilers. - Fixed MinGW compilation again. Now it uses the same method as Makefile.linux to find all the source files so that it doesn't need to be manually updated each time source files are added or removed. - Added the SVN revision number to the version string. A new tool is used to obtain this information from the svnversion command and write it into a header file. If you don't have the svn command line tools installed or didn't check it out from the repository, you can still build. I added some rules for this to Makefile.linux, and I assume they work because they do for Makefile.mingw. - Fixed: MIDISong2 did not delete MusHeader in its destructor. SVN r200 (trunk) |
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zdoom.txt |
README: glDOOM I never got around to do anything with respect to a Linux glDOOM port except for assembling a Linux3Dfx HOWTO (which, at that time, was a prerequisite to get permission to publicly distribute the already finished LinuxGlide port by Daryll Strauss). Linux q2test (and soon LinuxQuake2) demonstrate that Mesa with the MesaVoodoo driver is quite up to the requirements for a glDOOM port. If anybody wants to get into Linux glDOOM, please drop me a line. There is a Win32 GLDOOM port in the works, by Jim Dose. Quoting a recent posting by him: "I haven't had as much time lately to really work on the conversion. I currently have the renderer drawing the walls and floors as texture spans as the are in the software renderer. There's lighting on the walls, but not the floors, and sprites are being drawn, but not with the right texture. I figure that this is one nights work to get the game looking "normal". I haven't tested the game on less than a p200, so I'm not sure how it will perform under the average machine, but I don't expect it to be blindingly fast because of the number of spans that have to be drawn each frame. Rendering as polys is definitely the way to go. The reason I chose to do spans first was because it left the base renderer intact and I could concentrate on ironing out any Windows compatibility problems. Actually, the first version I had running was simply a blit of the 320x200 game screen through Open GL. Surprisingly, this actually was very playable, but certainly wasn't taking any advantage of 3D acceleration. Once the game was running, I started converting all the span routines over." Comment: for merging Linuxdoom with Win32, this is probably the best source for getting the Win32 environment done - before more significant changes occur. "One problem with drawing spans is that the engine doesn't calculate the texture coordinates with fractional accuracy, so the bilinear filtering works vertically, but not horizontally on the walls. I may try to fix this, but since I plan to use polys for the final version, it's not really high priority. Also, spans don't really allow for looking up and down." Comment: true looking up/down vs. Heretic-style y-shearing seems to require either a strange kind of transofrmation matrix (he probably does not use the OpenGL transformation at all), or rendering all the spans as textured rectangular slices instead of using glDrawBitmap. No, polys are the way to go. "When I tackle the conversion to polys, one big problem I'll encounter is drawing floors. Since the world is stored in a 2D bsp tree, there is no information on the shape of the floors. In fact the floors can be concave and may include holes (typically, most renderers break concave polys down into a collection of convex polys or triangles). In software, the floors are actually drawn using an algorithm that's similar to a flood fill (except that a list of open spans is kept instead of a buffer of pixels). This makes drawing the floors as polys fairly difficult." A polygon based approach will require significant changes to the data structures used in the refresh module. I recommend either separating a libref_soft.so first (a Quake2 like approach), and creating libref_gl afterwards, or abandoning the software rendering entirely. John Carmack wrote once upon a time: "... the U64 DOOM engine is much more what I would consider The Right Thing now -- it turns the subsector boundaries into polygons for the floors and ceilings ahead of time, then for rendering it walks the BSP front to back, doing visibility determination of subsectors by the one dimensional occlusion buffer and clipping sprites into subsectors, then it goes backwards through the visible subsectors, drawing floors, ceilings, walls, then sorted internal sprite fragments. It's a ton simpler and a ton faster, although it does suffer some overdraw when a high subsector overlooks a low one (but that is more than made up for by the simplicity of everything else)." Well, IMO compiling a separate list of floor/ceiling polygons after having read the WAD file, and thus introducing this as a completely separate data structure to the current code base might be the easiest thing to do. Jim Dose writes: "One method I may use to draw the floors as polys was suggested by Billy Zelsnack of Rebel Boat Rocker when we were working at 3D Realms together a few years ago. Basically, Billy was designing an engine that dealt with the world in a 2D portal format similar to the one that Build used, except that it had true looking up and down (no shearing). Since floors were basically implicit and could be concave, Billy drew them as if the walls extended downwards to infinity, but fixed the texture coordinates to appear that they were on the plane of the floor. The effect was that you could look up and down and there were no gaps or overdraw. It's a fairly clever method and allows you to store the world in a simpler data format. Had perspective texture mapping been fast enough back then, both Build and Doom could have done this in software." Perhaps the above is sufficient to get you started. Other Issues: 1. Occlusion DOOM uses a per-column lookup (top/bottom index) to do HLHSR. This works fine with span based rendering (well, getting horizontal spans of floors/ceilings into the picture is a separate story). It isn't really mindboggling with polygon based rendering. GLDOOM should abandon that. 2. Precalculated Visibility DOOM has the data used by Quake's PVS - in REJECT. During Quake development, lots of replacements for the occlusion buffer were tried, and PVS turned out to be best. I suggest usind the REJECT as PVS. There have been special effects using a utility named RMB. REJECT is a lump meant for enemy AI LoS calculation - a nonstandard REJECT will not work as a PVS, and introduce rendering errors. I suggest looking for a PVS lump in the WAD, and using REJECT if none is found. That way, it might be feasible to eat the cake and keep it. 3. Mipmaps DOOM does not have mipmapping. As we have 8bit palettized textures, OpenGL mipmapping might not give the desired results. Plus, composing textures from patches at runtime would require runtime mipmapping. Precalculated mipmaps in the WAD? 4. Sprites Partly transparent textures and sprites impose another problem related to mipmapping. Without alpha channel, this could give strange results. Precalculated, valid sprite mipmaps (w/o alpha)?