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# include "quakedef.h"
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# include "com_bih.h"
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# include "com_mesh.h"
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# ifdef __F16C__
# ifdef _MSC_VER
# include <intrin.h>
# else
# include <x86intrin.h>
# endif
# endif
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//#include <x86intrin.h>
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//small helper to aid compiling.
# if defined(SKELETALMODELS) || defined(MD3MODELS)
# define SKELORTAGS
# endif
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qboolean r_loadbumpmapping ;
extern cvar_t r_noframegrouplerp ;
cvar_t r_lerpmuzzlehack = CVARF ( " r_lerpmuzzlehack " , " 1 " , CVAR_ARCHIVE ) ;
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# ifdef MD1MODELS
cvar_t mod_h2holey_bugged = CVARD ( " mod_h2holey_bugged " , " 0 " , " Hexen2's holey-model flag uses index 0 as transparent (and additionally 255 in gl, due to a bug). GLQuake engines tend to have bugs that use ONLY index 255, resulting in a significant compatibility issue that can be resolved only with this shitty cvar hack. " ) ;
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cvar_t mod_halftexel = CVARD ( " mod_halftexel " , " 1 " , " Offset texture coords by a half-texel, for compatibility with glquake and the majority of engine forks. " ) ;
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cvar_t mod_nomipmap = CVARD ( " mod_nomipmap " , " 0 " , " Disables the use of mipmaps on quake1 mdls, consistent with its original software renderer. " ) ;
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# endif
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# ifdef MODELFMT_OBJ
cvar_t mod_obj_orientation = CVARD ( " mod_obj_orientation " , " 1 " , " Controls how the model's axis are interpreted. \n 0: x=forward, z=up (Quake) \n 1: x=forward, y=up \n 2: z=forward, y=up " ) ;
# endif
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# ifdef MD5MODELS
cvar_t mod_md5_singleanimation = CVARD ( " mod_md5_singleanimation " , " 1 " , " When loading an md5mesh file, also attempt to load an .md5anim file, and unpack it into individual poses. Use 0 for mods that will be precaching their own md5anims for use with skeletal objects. " ) ;
# endif
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
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static void QDECL r_meshpitch_callback ( cvar_t * var , char * oldvalue )
{
if ( ! strcmp ( var - > string , " -1 " ) | | ! strcmp ( var - > string , " 1 " ) )
return ;
if ( var - > value < = 0 )
Cvar_ForceSet ( var , " -1 " ) ;
else
Cvar_ForceSet ( var , " 1 " ) ;
}
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# ifndef HAVE_LEGACY
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
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cvar_t r_meshpitch = CVARCD ( " r_meshpitch " , " 1 " , r_meshpitch_callback , " Specifies the direction of the pitch angle on mesh models formats, also affects gamecode, so do not change from its default. " ) ;
# else
cvar_t r_meshpitch = CVARCD ( " r_meshpitch " , " -1 " , r_meshpitch_callback , " Specifies the direction of the pitch angle on mesh models formats, Quake compatibility requires -1. " ) ;
# endif
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cvar_t r_meshroll = CVARCD ( " r_meshroll " , " 1 " , r_meshpitch_callback , " Specifies the direction of the roll angle on mesh models formats, also affects gamecode, so do not change from its default. " ) ;
Too many changes, sorry.
Change revision displays, use the SVN commit date instead of using __DATE__ (when there's no local changes). This should allow reproducible builds.
Added s_al_disable cvar, to block openal and all the various problems people have had with it, without having to name an explicit fallback (which would vary by system).
Add mastervolume cvar (for ss).
Add r_shadows 2 (aka fake shadows - for ss).
Add scr_loadingscreen_aspect -1 setting, to disable levelshots entirely, also disables the progress bar (for ss).
Better support for some effectinfo hacks (for ss).
Added dpcompat_nocsqcwarnings (because of lazy+buggy mods like ss).
Rework the dpcsqc versions of project+unproject builtins for better compat (for ss).
Added dpcompat_csqcinputeventtypes to block unexpected csqc input events (for ss).
Better compat with DP's loadfont console command (for ss).
Added dpcompat_smallerfonts cvar to replicate a DP bug (for ss).
Detect dp's m_draw extension, to work around it (for ss).
Cvar dpcompat_ignoremodificationtimes added. A value of 0 favour the most recently modified file, 1 will use DP-like alphabetically sorted preferences (for ss).
loadfont builtin can now accept outline=1 in the sizes arg for slightly more readable fonts.
Fix bbox calcs for rotated entities, fix needed for r_ignorenetpvs 0.
Hackily parse emoji.json to provide :poop: etc suggestions.
Skip prediction entirely when there's no local entity info. This fixes stair-smoothing in xonotic.
screenshot_cubemap will now capture half-float images when saving to ktx or dds files.
Fix support for xcf files larger than 4gb, mostly to avoid compiler warnings.
Fixed size of gfx/loading.lmp when replacement textures are used.
Added mipmap support for rg8 and l8a8 textures.
r_hdr_framebuffer cvar updated to support format names instead of random negative numbers. Description updated to name some interesting ones.
Perform autoupdate _checks_ ONLY with explicit user confirmation (actual updating already needed user confirmation, but this extra step should reduce the chances of us getting wrongly accused of exfiltrating user data if we're run in a sandbox - we ONLY ever included the updating engine's version in the checks, though there's nothing we can do to avoid sending the user's router's IP).
Removed the 'summon satan all over your harddrive' quit message, in case paranoid security researchers are idiots and don't bother doing actual research.
Removed the triptohell.info and fte.triptohell.info certificates, they really need to stop being self-signed. The updates domain is still self-signed for autoupdates.
Video drivers are now able to report supported video resolutions, visible to menuqc. Currently only works with SDL2 builds.
Added setmousepos builtin. Should work with glx+win32 build.
VF_SKYROOM_CAMERA can now accept an extra two args, setviewprop(VF_SKYROOM_CAMERA, org, axis, degrees).
Removed v_skyroom_origin+v_skyroom_orientation cvars in favour just v_skyroom, which should make it behave more like the 'fog' command (used when csqc isn't overriding).
Added R_EndPolygonRibbon builtin to make it faster+easier to generate textured ribbon/cable/etc wide lines (for TW).
sdl: Fix up sys_sdl.c's file enumeration to support wildcards in directories.
edit command now displays end1.bin/end2.bin correctly, because we can.
Finally add support for f_modified - though ruleset_allow_larger_models and ruleset_allow_overlong_sounds generally make it redundant.
Fix threading race condition in sha1 lookups.
Updated f_ruleset to include the same extra flags reported by ezquake.
A mod's default.fmf file can now contain an eg 'mainconfig config.cfg' line (to explicitly set the main config saved with cfg_save_auto 1 etc).
fmf: basegame steam:GameName/GameDir can be used to try to load a mod directory from an installed steam game. The resulting gamedir will be read-only.
HOMEDIR CHANGE: use homedirs only if the basedir cannot be written or a homedir already exists, which should further reduce the probability of microsoft randomly uploading our data to their cloud (but mostly because its annoying to never know where your data is written).
Fixed buf_cvarlist, should work in xonotic now, and without segfaults.
Added an extra arg to URI_Get_Callback calls - the response size, also changed the tempstring to contain all bytes of the response, you need to be careful about nulls though.
Try to work around nvidia's forced-panning bug on x11 when changing video modes. This might screw with other programs.
sdl: support custom icons.
sdl: support choosing a specific display.
Added some documentation to menuqc builtins.
menusys: use outlines for slightly more readable fonts.
menusys: switch vid_width and vid_height combos into a single video mode combo to set both according to reported video modes.
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5581 fc73d0e0-1445-4013-8a0c-d673dee63da5
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cvar_t dpcompat_skinfiles = CVARD ( " dpcompat_skinfiles " , " 0 " , " When set, uses a nodraw shader for any unmentioned surfaces. " ) ;
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# ifdef HAVE_CLIENT
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static void Mod_UpdateCRC ( void * ctx , void * data , size_t a , size_t b )
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{
char st [ 40 ] ;
Q_snprintfz ( st , sizeof ( st ) , " %d " , ( int ) a ) ;
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if ( strcmp ( st , InfoBuf_ValueForKey ( & cls . userinfo [ 0 ] , ctx ) ) )
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{
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InfoBuf_SetKey ( & cls . userinfo [ 0 ] , ctx , st ) ;
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if ( cls . state > = ca_connected & & ( cls . protocol = = CP_QUAKEWORLD | | ( cls . fteprotocolextensions2 & PEXT2_PREDINFO ) ) )
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CL_SendClientCommand ( true , " setinfo %s %s " , ( char * ) ctx , st ) ;
}
}
# endif
//Common loader function.
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qboolean Mod_DoCRC ( model_t * mod , char * buffer , int buffersize )
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{
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# ifdef HAVE_CLIENT
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//we've got to have this bit
if ( mod - > engineflags & MDLF_DOCRC )
{
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unsigned int crc = CalcHashInt ( & hash_crc16 , buffer , buffersize ) ;
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if ( ! ( mod - > engineflags & MDLF_PLAYER ) )
{ //eyes
mod - > tainted = ( crc ! = 6967 ) ;
}
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COM_AddWork ( WG_MAIN , Mod_UpdateCRC , ( mod - > engineflags & MDLF_PLAYER ) ? pmodel_name : emodel_name , NULL , crc , 0 ) ;
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}
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return Ruleset_FileLoaded ( mod - > publicname , buffer , buffersize ) ;
# else
return true ;
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# endif
}
extern cvar_t gl_part_flame , r_fullbrightSkins , r_fb_models ;
extern cvar_t r_noaliasshadows ;
extern cvar_t r_skin_overlays ;
extern cvar_t mod_md3flags ;
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# ifdef HAVE_CLIENT
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typedef struct
{
char * name ;
float furthestallowedextremety ; //this field is the combined max-min square, added together
//note that while this allows you to move models about a little, you cannot resize the visible part
} clampedmodel_t ;
//these should be rounded up slightly.
//really this is only to catch spiked models. This doesn't prevent more visible models, just bigger ones.
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static clampedmodel_t clampedmodel [ ] = {
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{ " maps/b_bh100.bsp " , 3440 } ,
{ " progs/player.mdl " , 22497 } ,
{ " progs/eyes.mdl " , 755 } ,
{ " progs/gib1.mdl " , 374 } ,
{ " progs/gib2.mdl " , 1779 } ,
{ " progs/gib3.mdl " , 2066 } ,
{ " progs/bolt2.mdl " , 1160 } ,
{ " progs/end1.mdl " , 764 } ,
{ " progs/end2.mdl " , 981 } ,
{ " progs/end3.mdl " , 851 } ,
{ " progs/end4.mdl " , 903 } ,
{ " progs/g_shot.mdl " , 3444 } ,
{ " progs/g_nail.mdl " , 2234 } ,
{ " progs/g_nail2.mdl " , 3660 } ,
{ " progs/g_rock.mdl " , 3441 } ,
{ " progs/g_rock2.mdl " , 3660 } ,
{ " progs/g_light.mdl " , 2698 } ,
{ " progs/invisibl.mdl " , 196 } ,
{ " progs/quaddama.mdl " , 2353 } ,
{ " progs/invulner.mdl " , 2746 } ,
{ " progs/suit.mdl " , 3057 } ,
{ " progs/missile.mdl " , 416 } ,
{ " progs/grenade.mdl " , 473 } ,
{ " progs/spike.mdl " , 112 } ,
{ " progs/s_spike.mdl " , 112 } ,
{ " progs/backpack.mdl " , 1117 } ,
{ " progs/armor.mdl " , 2919 } ,
{ " progs/s_bubble.spr " , 100 } ,
{ " progs/s_explod.spr " , 1000 } ,
//and now TF models
# ifdef warningmsg
# pragma warningmsg("FIXME: these are placeholders")
# endif
{ " progs/disp.mdl " , 3000 } ,
{ " progs/tf_flag.mdl " , 3000 } ,
{ " progs/tf_stan.mdl " , 3000 } ,
{ " progs/turrbase.mdl " , 3000 } ,
{ " progs/turrgun.mdl " , 3000 }
} ;
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# endif
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void QDECL Mod_AccumulateTextureVectors ( vecV_t * const vc , vec2_t * const tc , vec3_t * nv , vec3_t * sv , vec3_t * tv , const index_t * idx , int numidx , qboolean calcnorms )
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{
int i ;
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const float * v0 , * v1 , * v2 ;
const float * tc0 , * tc1 , * tc2 ;
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vec3_t d1 , d2 ;
float td1 , td2 ;
vec3_t norm , t , s ;
vec3_t temp ;
for ( i = 0 ; i < numidx ; i + = 3 )
{
//this is the stuff we're working from
v0 = vc [ idx [ i + 0 ] ] ;
v1 = vc [ idx [ i + 1 ] ] ;
v2 = vc [ idx [ i + 2 ] ] ;
tc0 = tc [ idx [ i + 0 ] ] ;
tc1 = tc [ idx [ i + 1 ] ] ;
tc2 = tc [ idx [ i + 2 ] ] ;
//calc perpendicular directions
VectorSubtract ( v1 , v0 , d1 ) ;
VectorSubtract ( v2 , v0 , d2 ) ;
//calculate s as the pependicular of the t dir
td1 = tc1 [ 1 ] - tc0 [ 1 ] ;
td2 = tc2 [ 1 ] - tc0 [ 1 ] ;
s [ 0 ] = td1 * d2 [ 0 ] - td2 * d1 [ 0 ] ;
s [ 1 ] = td1 * d2 [ 1 ] - td2 * d1 [ 1 ] ;
s [ 2 ] = td1 * d2 [ 2 ] - td2 * d1 [ 2 ] ;
//calculate t as the pependicular of the s dir
td1 = tc1 [ 0 ] - tc0 [ 0 ] ;
td2 = tc2 [ 0 ] - tc0 [ 0 ] ;
t [ 0 ] = td1 * d2 [ 0 ] - td2 * d1 [ 0 ] ;
t [ 1 ] = td1 * d2 [ 1 ] - td2 * d1 [ 1 ] ;
t [ 2 ] = td1 * d2 [ 2 ] - td2 * d1 [ 2 ] ;
//the surface might be a back face and thus textured backwards
//calc the normal twice and compare.
norm [ 0 ] = d2 [ 1 ] * d1 [ 2 ] - d2 [ 2 ] * d1 [ 1 ] ;
norm [ 1 ] = d2 [ 2 ] * d1 [ 0 ] - d2 [ 0 ] * d1 [ 2 ] ;
norm [ 2 ] = d2 [ 0 ] * d1 [ 1 ] - d2 [ 1 ] * d1 [ 0 ] ;
CrossProduct ( t , s , temp ) ;
if ( DotProduct ( temp , norm ) < 0 )
{
VectorNegate ( s , s ) ;
VectorNegate ( t , t ) ;
}
//and we're done, accumulate the result
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if ( calcnorms )
{
VectorAdd ( nv [ idx [ i + 0 ] ] , norm , nv [ idx [ i + 0 ] ] ) ;
VectorAdd ( nv [ idx [ i + 1 ] ] , norm , nv [ idx [ i + 1 ] ] ) ;
VectorAdd ( nv [ idx [ i + 2 ] ] , norm , nv [ idx [ i + 2 ] ] ) ;
}
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VectorAdd ( sv [ idx [ i + 0 ] ] , s , sv [ idx [ i + 0 ] ] ) ;
VectorAdd ( sv [ idx [ i + 1 ] ] , s , sv [ idx [ i + 1 ] ] ) ;
VectorAdd ( sv [ idx [ i + 2 ] ] , s , sv [ idx [ i + 2 ] ] ) ;
VectorAdd ( tv [ idx [ i + 0 ] ] , t , tv [ idx [ i + 0 ] ] ) ;
VectorAdd ( tv [ idx [ i + 1 ] ] , t , tv [ idx [ i + 1 ] ] ) ;
VectorAdd ( tv [ idx [ i + 2 ] ] , t , tv [ idx [ i + 2 ] ] ) ;
}
}
void Mod_AccumulateMeshTextureVectors ( mesh_t * m )
{
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Mod_AccumulateTextureVectors ( m - > xyz_array , m - > st_array , m - > normals_array , m - > snormals_array , m - > tnormals_array , m - > indexes , m - > numindexes , false ) ;
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}
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void QDECL Mod_NormaliseTextureVectors ( vec3_t * n , vec3_t * s , vec3_t * t , int v , qboolean calcnorms )
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{
int i ;
float f ;
vec3_t tmp ;
for ( i = 0 ; i < v ; i + + )
{
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if ( calcnorms )
VectorNormalize ( n [ i ] ) ;
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//strip away any variance against the normal to keep it perpendicular, then normalize
f = - DotProduct ( s [ i ] , n [ i ] ) ;
VectorMA ( s [ i ] , f , n [ i ] , tmp ) ;
VectorNormalize2 ( tmp , s [ i ] ) ;
f = - DotProduct ( t [ i ] , n [ i ] ) ;
VectorMA ( t [ i ] , f , n [ i ] , tmp ) ;
VectorNormalize2 ( tmp , t [ i ] ) ;
}
}
# ifdef SKELETALMODELS
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/*like GenMatrixPosQuat4Scale, but guess the quat.w*/
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static void GenMatrixPosQuat3Scale ( vec3_t const pos , vec3_t const quat3 , vec3_t const scale , float result [ 12 ] )
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{
vec4_t quat4 ;
float term = 1 - DotProduct ( quat3 , quat3 ) ;
if ( term < 0 )
quat4 [ 3 ] = 0 ;
else
quat4 [ 3 ] = - ( float ) sqrt ( term ) ;
VectorCopy ( quat3 , quat4 ) ;
GenMatrixPosQuat4Scale ( pos , quat4 , scale , result ) ;
}
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# ifdef MD5MODELS
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static void GenMatrix ( float x , float y , float z , float qx , float qy , float qz , float result [ 12 ] )
{
float qw ;
{ //figure out qw
float term = 1 - ( qx * qx ) - ( qy * qy ) - ( qz * qz ) ;
if ( term < 0 )
qw = 0 ;
else
qw = - ( float ) sqrt ( term ) ;
}
{ //generate the matrix
/*
float xx = qx * qx ;
float xy = qx * qy ;
float xz = qx * qz ;
float xw = qx * qw ;
float yy = qy * qy ;
float yz = qy * qz ;
float yw = qy * qw ;
float zz = qz * qz ;
float zw = qz * qw ;
result [ 0 * 4 + 0 ] = 1 - 2 * ( yy + zz ) ;
result [ 0 * 4 + 1 ] = 2 * ( xy - zw ) ;
result [ 0 * 4 + 2 ] = 2 * ( xz + yw ) ;
result [ 0 * 4 + 3 ] = x ;
result [ 1 * 4 + 0 ] = 2 * ( xy + zw ) ;
result [ 1 * 4 + 1 ] = 1 - 2 * ( xx + zz ) ;
result [ 1 * 4 + 2 ] = 2 * ( yz - xw ) ;
result [ 1 * 4 + 3 ] = y ;
result [ 2 * 4 + 0 ] = 2 * ( xz - yw ) ;
result [ 2 * 4 + 1 ] = 2 * ( yz + xw ) ;
result [ 2 * 4 + 2 ] = 1 - 2 * ( xx + yy ) ;
result [ 2 * 4 + 3 ] = z ;
*/
float xx , xy , xz , xw , yy , yz , yw , zz , zw ;
float x2 , y2 , z2 ;
x2 = qx + qx ;
y2 = qy + qy ;
z2 = qz + qz ;
xx = qx * x2 ; xy = qx * y2 ; xz = qx * z2 ;
yy = qy * y2 ; yz = qy * z2 ; zz = qz * z2 ;
xw = qw * x2 ; yw = qw * y2 ; zw = qw * z2 ;
result [ 0 * 4 + 0 ] = 1.0f - ( yy + zz ) ;
result [ 1 * 4 + 0 ] = xy + zw ;
result [ 2 * 4 + 0 ] = xz - yw ;
result [ 0 * 4 + 1 ] = xy - zw ;
result [ 1 * 4 + 1 ] = 1.0f - ( xx + zz ) ;
result [ 2 * 4 + 1 ] = yz + xw ;
result [ 0 * 4 + 2 ] = xz + yw ;
result [ 1 * 4 + 2 ] = yz - xw ;
result [ 2 * 4 + 2 ] = 1.0f - ( xx + yy ) ;
result [ 0 * 4 + 3 ] = x ;
result [ 1 * 4 + 3 ] = y ;
result [ 2 * 4 + 3 ] = z ;
}
}
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# endif
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# ifdef PSKMODELS
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static void PSKGenMatrix ( float x , float y , float z , float qx , float qy , float qz , float qw , float result [ 12 ] )
{
float xx , xy , xz , xw , yy , yz , yw , zz , zw ;
float x2 , y2 , z2 ;
x2 = qx + qx ;
y2 = qy + qy ;
z2 = qz + qz ;
xx = qx * x2 ; xy = qx * y2 ; xz = qx * z2 ;
yy = qy * y2 ; yz = qy * z2 ; zz = qz * z2 ;
xw = qw * x2 ; yw = qw * y2 ; zw = qw * z2 ;
result [ 0 * 4 + 0 ] = 1.0f - ( yy + zz ) ;
result [ 1 * 4 + 0 ] = xy + zw ;
result [ 2 * 4 + 0 ] = xz - yw ;
result [ 0 * 4 + 1 ] = xy - zw ;
result [ 1 * 4 + 1 ] = 1.0f - ( xx + zz ) ;
result [ 2 * 4 + 1 ] = yz + xw ;
result [ 0 * 4 + 2 ] = xz + yw ;
result [ 1 * 4 + 2 ] = yz - xw ;
result [ 2 * 4 + 2 ] = 1.0f - ( xx + yy ) ;
result [ 0 * 4 + 3 ] = x ;
result [ 1 * 4 + 3 ] = y ;
result [ 2 * 4 + 3 ] = z ;
}
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# endif
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/*transforms some skeletal vecV_t values*/
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static void Alias_TransformVerticies_V ( const float * bonepose , int vertcount , boneidx_t * bidx , float * weights , float * xyzin , float * fte_restrict xyzout )
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{
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# if 1
int i , j ;
const float * matrix , * matrix1 ;
float mat [ 12 ] ;
for ( i = 0 ; i < vertcount ; i + + , bidx + = 4 , weights + = 4 )
{
matrix = & bonepose [ 12 * bidx [ 0 ] ] ;
if ( weights [ 1 ] )
{
matrix1 = & bonepose [ 12 * bidx [ 1 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] = ( weights [ 0 ] * matrix [ j ] ) + ( weights [ 1 ] * matrix1 [ j ] ) ;
if ( weights [ 2 ] )
{
matrix = & bonepose [ 12 * bidx [ 2 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 2 ] * matrix [ j ] ;
if ( weights [ 3 ] )
{
matrix = & bonepose [ 12 * bidx [ 3 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 3 ] * matrix [ j ] ;
}
}
matrix = mat ;
}
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//NOTE: else we assume that weights[0] is 1.
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xyzout [ 0 ] = ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] = ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] = ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
xyzout + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
xyzin + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
}
# else
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int i ;
const float * matrix ;
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for ( i = 0 ; i < vertcount ; i + + , bidx + = 4 , weights + = 4 )
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{
matrix = & bonepose [ 12 * bidx [ 0 ] ] ;
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xyzout [ 0 ] = weights [ 0 ] * ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] = weights [ 0 ] * ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] = weights [ 0 ] * ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
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if ( weights [ 1 ] )
{
matrix = & bonepose [ 12 * bidx [ 1 ] ] ;
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xyzout [ 0 ] + = weights [ 1 ] * ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] + = weights [ 1 ] * ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] + = weights [ 1 ] * ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
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if ( weights [ 2 ] )
{
matrix = & bonepose [ 12 * bidx [ 2 ] ] ;
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xyzout [ 0 ] + = weights [ 2 ] * ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] + = weights [ 2 ] * ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] + = weights [ 2 ] * ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
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if ( weights [ 3 ] )
{
matrix = & bonepose [ 12 * bidx [ 3 ] ] ;
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xyzout [ 0 ] + = weights [ 3 ] * ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] + = weights [ 3 ] * ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] + = weights [ 3 ] * ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
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}
}
}
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xyzout + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
xyzin + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
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}
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# endif
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}
/*transforms some skeletal vecV_t values*/
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static void Alias_TransformVerticies_VN ( const float * bonepose , int vertcount , const boneidx_t * bidx , float * weights ,
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const float * xyzin , float * fte_restrict xyzout ,
const float * normin , float * fte_restrict normout )
{
int i , j ;
const float * matrix , * matrix1 ;
float mat [ 12 ] ;
for ( i = 0 ; i < vertcount ; i + + ,
xyzout + = sizeof ( vecV_t ) / sizeof ( vec_t ) , xyzin + = sizeof ( vecV_t ) / sizeof ( vec_t ) ,
normout + = sizeof ( vec3_t ) / sizeof ( vec_t ) , normin + = sizeof ( vec3_t ) / sizeof ( vec_t ) ,
bidx + = 4 , weights + = 4 )
{
matrix = & bonepose [ 12 * bidx [ 0 ] ] ;
if ( weights [ 1 ] )
{
matrix1 = & bonepose [ 12 * bidx [ 1 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] = ( weights [ 0 ] * matrix [ j ] ) + ( weights [ 1 ] * matrix1 [ j ] ) ;
if ( weights [ 2 ] )
{
matrix = & bonepose [ 12 * bidx [ 2 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 2 ] * matrix [ j ] ;
if ( weights [ 3 ] )
{
matrix = & bonepose [ 12 * bidx [ 3 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 3 ] * matrix [ j ] ;
}
}
matrix = mat ;
}
xyzout [ 0 ] = ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] = ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] = ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
normout [ 0 ] = ( normin [ 0 ] * matrix [ 0 ] + normin [ 1 ] * matrix [ 1 ] + normin [ 2 ] * matrix [ 2 ] ) ;
normout [ 1 ] = ( normin [ 0 ] * matrix [ 4 ] + normin [ 1 ] * matrix [ 5 ] + normin [ 2 ] * matrix [ 6 ] ) ;
normout [ 2 ] = ( normin [ 0 ] * matrix [ 8 ] + normin [ 1 ] * matrix [ 9 ] + normin [ 2 ] * matrix [ 10 ] ) ;
}
}
/*transforms some skeletal vecV_t values*/
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static void Alias_TransformVerticies_VNST ( const float * bonepose , int vertcount , const boneidx_t * bidx , const float * weights ,
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const float * xyzin , float * fte_restrict xyzout ,
const float * normin , float * fte_restrict normout ,
const float * sdirin , float * fte_restrict sdirout ,
const float * tdirin , float * fte_restrict tdirout )
{
int i , j ;
const float * matrix , * matrix1 ;
float mat [ 12 ] ;
for ( i = 0 ; i < vertcount ; i + + , bidx + = 4 , weights + = 4 )
{
matrix = & bonepose [ 12 * bidx [ 0 ] ] ;
if ( weights [ 1 ] )
{
matrix1 = & bonepose [ 12 * bidx [ 1 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] = ( weights [ 0 ] * matrix [ j ] ) + ( weights [ 1 ] * matrix1 [ j ] ) ;
if ( weights [ 2 ] )
{
matrix = & bonepose [ 12 * bidx [ 2 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 2 ] * matrix [ j ] ;
if ( weights [ 3 ] )
{
matrix = & bonepose [ 12 * bidx [ 3 ] ] ;
for ( j = 0 ; j < 12 ; j + + )
mat [ j ] + = weights [ 3 ] * matrix [ j ] ;
}
}
matrix = mat ;
}
xyzout [ 0 ] = ( xyzin [ 0 ] * matrix [ 0 ] + xyzin [ 1 ] * matrix [ 1 ] + xyzin [ 2 ] * matrix [ 2 ] + matrix [ 3 ] ) ;
xyzout [ 1 ] = ( xyzin [ 0 ] * matrix [ 4 ] + xyzin [ 1 ] * matrix [ 5 ] + xyzin [ 2 ] * matrix [ 6 ] + matrix [ 7 ] ) ;
xyzout [ 2 ] = ( xyzin [ 0 ] * matrix [ 8 ] + xyzin [ 1 ] * matrix [ 9 ] + xyzin [ 2 ] * matrix [ 10 ] + matrix [ 11 ] ) ;
xyzout + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
xyzin + = sizeof ( vecV_t ) / sizeof ( vec_t ) ;
normout [ 0 ] = ( normin [ 0 ] * matrix [ 0 ] + normin [ 1 ] * matrix [ 1 ] + normin [ 2 ] * matrix [ 2 ] ) ;
normout [ 1 ] = ( normin [ 0 ] * matrix [ 4 ] + normin [ 1 ] * matrix [ 5 ] + normin [ 2 ] * matrix [ 6 ] ) ;
normout [ 2 ] = ( normin [ 0 ] * matrix [ 8 ] + normin [ 1 ] * matrix [ 9 ] + normin [ 2 ] * matrix [ 10 ] ) ;
normout + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
normin + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
sdirout [ 0 ] = ( sdirin [ 0 ] * matrix [ 0 ] + sdirin [ 1 ] * matrix [ 1 ] + sdirin [ 2 ] * matrix [ 2 ] ) ;
sdirout [ 1 ] = ( sdirin [ 0 ] * matrix [ 4 ] + sdirin [ 1 ] * matrix [ 5 ] + sdirin [ 2 ] * matrix [ 6 ] ) ;
sdirout [ 2 ] = ( sdirin [ 0 ] * matrix [ 8 ] + sdirin [ 1 ] * matrix [ 9 ] + sdirin [ 2 ] * matrix [ 10 ] ) ;
sdirout + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
sdirin + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
tdirout [ 0 ] = ( tdirin [ 0 ] * matrix [ 0 ] + tdirin [ 1 ] * matrix [ 1 ] + tdirin [ 2 ] * matrix [ 2 ] ) ;
tdirout [ 1 ] = ( tdirin [ 0 ] * matrix [ 4 ] + tdirin [ 1 ] * matrix [ 5 ] + tdirin [ 2 ] * matrix [ 6 ] ) ;
tdirout [ 2 ] = ( tdirin [ 0 ] * matrix [ 8 ] + tdirin [ 1 ] * matrix [ 9 ] + tdirin [ 2 ] * matrix [ 10 ] ) ;
tdirout + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
tdirin + = sizeof ( vec3_t ) / sizeof ( vec_t ) ;
}
}
//converts one entire frame to another skeleton type
//only writes to destbuffer if absolutely needed
2018-10-11 10:31:23 +00:00
static const float * Alias_ConvertBoneData ( skeltype_t sourcetype , const float * sourcedata , size_t bonecount , galiasbone_t * bones , skeltype_t desttype , float * destbuffer , float * destbufferalt , size_t destbonecount )
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{
int i ;
if ( sourcetype = = desttype )
return sourcedata ;
//everything can be converted up to SKEL_INVERSE_ABSOLUTE and back.
//this means that everything can be converted to everything else, but it might take lots of individual transforms.
//a->ia
//r->a->ia
//a->r
//ia->ir
//ir->ia
//r->a->ia->ir
//a->ia->ir
if ( bonecount > destbonecount | | bonecount > MAX_BONES )
Sys_Error ( " Alias_ConvertBoneData: too many bones % " PRIuSIZE " >% " PRIuSIZE " \n " , bonecount , destbonecount ) ;
//r(->a)->ia(->ir)
if ( desttype = = SKEL_INVERSE_RELATIVE & & sourcetype = = SKEL_RELATIVE )
{
//for this conversion, we need absolute data.
//this is not an efficient operation.
sourcedata = Alias_ConvertBoneData ( sourcetype , sourcedata , bonecount , bones , SKEL_ABSOLUTE , destbuffer , destbufferalt , destbonecount ) ;
sourcetype = SKEL_INVERSE_ABSOLUTE ;
}
//ir->ia(->a->r)
//ir->ia(->a)
//a->ia(->ir)
if ( ( desttype = = SKEL_ABSOLUTE & & sourcetype = = SKEL_INVERSE_RELATIVE ) | |
( desttype = = SKEL_RELATIVE & & sourcetype = = SKEL_INVERSE_RELATIVE ) | |
( desttype = = SKEL_INVERSE_RELATIVE & & sourcetype = = SKEL_ABSOLUTE ) )
{
//for this conversion, we need absolute data.
//this is not an efficient operation.
sourcedata = Alias_ConvertBoneData ( sourcetype , sourcedata , bonecount , bones , SKEL_INVERSE_ABSOLUTE , destbuffer , destbufferalt , destbonecount ) ;
sourcetype = SKEL_INVERSE_ABSOLUTE ;
}
//r->a
//r->a(->ia)
//ir->ia
if ( ( sourcetype = = SKEL_RELATIVE & & ( desttype = = SKEL_ABSOLUTE | | desttype = = SKEL_INVERSE_ABSOLUTE ) ) | |
( sourcetype = = SKEL_INVERSE_RELATIVE & & desttype = = SKEL_INVERSE_ABSOLUTE ) )
{
float * dest = ( sourcedata = = destbuffer ) ? destbufferalt : destbuffer ;
/*needs to be an absolute skeleton*/
for ( i = 0 ; i < bonecount ; i + + )
{
if ( bones [ i ] . parent > = 0 )
2020-01-13 07:03:28 +00:00
R_ConcatTransforms ( ( const void * ) ( dest + bones [ i ] . parent * 12 ) , ( const void * ) ( sourcedata + i * 12 ) , ( void * ) ( dest + i * 12 ) ) ;
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else
{
Vector4Copy ( sourcedata + i * 12 + 0 , dest + i * 12 + 0 ) ;
Vector4Copy ( sourcedata + i * 12 + 4 , dest + i * 12 + 4 ) ;
Vector4Copy ( sourcedata + i * 12 + 8 , dest + i * 12 + 8 ) ;
}
}
sourcedata = dest ;
if ( sourcetype = = SKEL_INVERSE_RELATIVE )
sourcetype = SKEL_INVERSE_ABSOLUTE ;
else
sourcetype = SKEL_ABSOLUTE ;
}
//ia->a(->r)
//ia->a
if ( ( desttype = = SKEL_RELATIVE | | desttype = = SKEL_ABSOLUTE ) & & sourcetype = = SKEL_INVERSE_ABSOLUTE )
{
float iim [ 12 ] ;
float * dest = ( sourcedata = = destbuffer ) ? destbufferalt : destbuffer ;
for ( i = 0 ; i < bonecount ; i + + )
{
Matrix3x4_Invert_Simple ( bones [ i ] . inverse , iim ) ;
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R_ConcatTransforms ( ( const void * ) ( sourcedata + i * 12 ) , ( const void * ) iim , ( void * ) ( dest + i * 12 ) ) ;
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}
sourcedata = dest ;
sourcetype = SKEL_ABSOLUTE ;
}
//ia->ir
//a->r
if ( ( desttype = = SKEL_RELATIVE & & sourcetype = = SKEL_ABSOLUTE ) | |
( desttype = = SKEL_INVERSE_RELATIVE & & sourcetype = = SKEL_INVERSE_ABSOLUTE ) )
{
float ip [ 12 ] ;
float * dest = ( sourcedata = = destbuffer ) ? destbufferalt : destbuffer ;
for ( i = 0 ; i < bonecount ; i + + )
{
if ( bones [ i ] . parent > = 0 )
{
Matrix3x4_Invert_Simple ( sourcedata + bones [ i ] . parent * 12 , ip ) ;
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R_ConcatTransforms ( ( const void * ) ip , ( const void * ) ( sourcedata + i * 12 ) , ( void * ) ( dest + i * 12 ) ) ;
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}
else
{
Vector4Copy ( sourcedata + i * 12 + 0 , dest + i * 12 + 0 ) ;
Vector4Copy ( sourcedata + i * 12 + 4 , dest + i * 12 + 4 ) ;
Vector4Copy ( sourcedata + i * 12 + 8 , dest + i * 12 + 8 ) ;
}
}
sourcedata = dest ;
if ( sourcetype = = SKEL_INVERSE_ABSOLUTE )
sourcetype = SKEL_INVERSE_RELATIVE ;
else
sourcetype = SKEL_RELATIVE ;
}
//a->ia
if ( desttype = = SKEL_INVERSE_ABSOLUTE & & sourcetype = = SKEL_ABSOLUTE )
{
float * dest = ( sourcedata = = destbuffer ) ? destbufferalt : destbuffer ;
for ( i = 0 ; i < bonecount ; i + + )
2020-01-13 07:03:28 +00:00
R_ConcatTransforms ( ( const void * ) ( sourcedata + i * 12 ) , ( const void * ) ( bones [ i ] . inverse ) , ( void * ) ( dest + i * 12 ) ) ;
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sourcedata = dest ;
sourcetype = SKEL_INVERSE_ABSOLUTE ;
}
if ( sourcetype = = SKEL_IDENTITY )
{ //we can 'convert' identity matricies to anything. but we only want to do this when everything else is bad, because there really is no info here
float * dest = ( sourcedata = = destbuffer ) ? destbufferalt : destbuffer ;
memset ( dest , 0 , bonecount * 12 * sizeof ( float ) ) ;
for ( i = 0 ; i < bonecount ; i + + )
{ //is this right? does it matter?
dest [ i * 12 + 0 ] = 1 ;
dest [ i * 12 + 5 ] = 1 ;
dest [ i * 12 + 10 ] = 1 ;
}
sourcedata = dest ;
sourcetype = desttype ; //panic
}
if ( sourcetype ! = desttype )
Sys_Error ( " Alias_ConvertBoneData: %i->%i not supported \n " , ( int ) sourcetype , ( int ) desttype ) ;
return sourcedata ;
}
/*
converts the bone data from source to dest .
uses parent bone info , so don ' t try to offset for a first bone .
ALWAYS writes dest . Don ' t force it if you don ' t want to waste cycles when no conversion is actually needed .
destbonecount is to catch errors , its otherwise ignored for now . no identity padding .
*/
void QDECL Alias_ForceConvertBoneData ( skeltype_t sourcetype , const float * sourcedata , size_t bonecount , galiasbone_t * bones , skeltype_t desttype , float * destbuffer , size_t destbonecount )
{
float altbuffer [ MAX_BONES * 12 ] ;
const float * buf = Alias_ConvertBoneData ( sourcetype , sourcedata , bonecount , bones , desttype , destbuffer , altbuffer , destbonecount ) ;
if ( buf ! = destbuffer )
{
//Alias_ConvertBoneData successfully managed to avoid doing any work. bah.
memcpy ( destbuffer , buf , bonecount * 12 * sizeof ( float ) ) ;
}
}
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# endif
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# if 1
struct
{
int numcoords ;
vecV_t * coords ;
int numnorm ;
vec3_t * norm ;
int bonegroup ;
int vertgroup ;
entity_t * ent ;
# ifdef SKELETALMODELS
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boneidx_t * bonemap ; //force the renderer to forget the current entity when this changes
float gpubones [ MAX_BONES * 12 ] ; //temp storage for multi-surface models with too many bones.
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float boneposebuffer1 [ MAX_BONES * 12 ] ;
float boneposebuffer2 [ MAX_BONES * 12 ] ;
skeltype_t bonecachetype ;
const float * usebonepose ;
int bonecount ;
# endif
qboolean usebones ;
vecV_t * acoords1 ;
vecV_t * acoords2 ;
vec3_t * anorm ;
vec3_t * anorms ;
vec3_t * anormt ;
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float lerp ;
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vbo_t vbo ;
vbo_t * vbop ;
} meshcache ;
//#define SSE_INTRINSICS
# ifdef SSE_INTRINSICS
# include <xmmintrin.h>
# endif
# ifndef SERVERONLY
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# ifdef D3DQUAKE
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void R_LightArraysByte_BGR ( const entity_t * entity , vecV_t * coords , byte_vec4_t * colours , int vertcount , vec3_t * normals , qboolean usecolourmod )
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{
int i ;
int c ;
float l ;
byte_vec4_t ambientlightb ;
byte_vec4_t shadelightb ;
const float * lightdir = entity - > light_dir ;
for ( i = 0 ; i < 3 ; i + + )
{
l = entity - > light_avg [ 2 - i ] * 255 ;
ambientlightb [ i ] = bound ( 0 , l , 255 ) ;
l = entity - > light_range [ 2 - i ] * 255 ;
shadelightb [ i ] = bound ( 0 , l , 255 ) ;
}
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if ( ! normals | | ( ambientlightb [ 0 ] = = shadelightb [ 0 ] & & ambientlightb [ 1 ] = = shadelightb [ 1 ] & & ambientlightb [ 2 ] = = shadelightb [ 2 ] ) )
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{
for ( i = vertcount - 1 ; i > = 0 ; i - - )
{
* ( int * ) colours [ i ] = * ( int * ) ambientlightb ;
// colours[i][0] = ambientlightb[0];
// colours[i][1] = ambientlightb[1];
// colours[i][2] = ambientlightb[2];
}
}
else
{
for ( i = vertcount - 1 ; i > = 0 ; i - - )
{
l = DotProduct ( normals [ i ] , lightdir ) ;
c = l * shadelightb [ 0 ] ;
c + = ambientlightb [ 0 ] ;
colours [ i ] [ 0 ] = bound ( 0 , c , 255 ) ;
c = l * shadelightb [ 1 ] ;
c + = ambientlightb [ 1 ] ;
colours [ i ] [ 1 ] = bound ( 0 , c , 255 ) ;
c = l * shadelightb [ 2 ] ;
c + = ambientlightb [ 2 ] ;
colours [ i ] [ 2 ] = bound ( 0 , c , 255 ) ;
}
}
}
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# endif
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void R_LightArrays ( const entity_t * entity , vecV_t * coords , avec4_t * colours , int vertcount , vec3_t * normals , float scale , qboolean colormod )
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{
extern cvar_t r_vertexdlights ;
int i ;
float l ;
//float *lightdir = currententity->light_dir; //unused variable
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if ( ! normals | | ( ! entity - > light_range [ 0 ] & & ! entity - > light_range [ 1 ] & & ! entity - > light_range [ 2 ] ) )
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{
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vec3_t val ;
VectorCopy ( entity - > light_avg , val ) ;
if ( colormod )
VectorMul ( val , entity - > shaderRGBAf , val ) ;
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for ( i = vertcount - 1 ; i > = 0 ; i - - )
{
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VectorCopy ( val , colours [ i ] ) ;
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}
}
else
{
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avec3_t la , lr ;
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VectorScale ( entity - > light_avg , scale , la ) ;
VectorScale ( entity - > light_range , scale , lr ) ;
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if ( colormod )
{
VectorMul ( la , entity - > shaderRGBAf , la ) ;
VectorMul ( lr , entity - > shaderRGBAf , lr ) ;
}
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# ifdef SSE_INTRINSICS
__m128 va , vs , vl , vr ;
va = _mm_load_ps ( ambientlight ) ;
vs = _mm_load_ps ( shadelight ) ;
va . m128_f32 [ 3 ] = 0 ;
vs . m128_f32 [ 3 ] = 1 ;
# endif
/*dotproduct will return a value between 1 and -1, so increase the ambient to be correct for normals facing away from the light*/
for ( i = vertcount - 1 ; i > = 0 ; i - - )
{
l = DotProduct ( normals [ i ] , entity - > light_dir ) ;
# ifdef SSE_INTRINSICS
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if ( l < 0 )
{
_mm_storeu_ps ( colours [ i ] , va ) ;
//stomp on colour[i][3] (will be set to 1)
}
else
{
vl = _mm_load1_ps ( & l ) ;
vr = _mm_mul_ss ( va , vl ) ;
vr = _mm_add_ss ( vr , vs ) ;
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2018-01-03 04:40:06 +00:00
_mm_storeu_ps ( colours [ i ] , vr ) ;
//stomp on colour[i][3] (will be set to 1)
}
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# else
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if ( l < 0 )
{ //don't over-shade the dark side of the mesh.
colours [ i ] [ 0 ] = la [ 0 ] ;
colours [ i ] [ 1 ] = la [ 1 ] ;
colours [ i ] [ 2 ] = la [ 2 ] ;
}
else
{
colours [ i ] [ 0 ] = l * lr [ 0 ] + la [ 0 ] ;
colours [ i ] [ 1 ] = l * lr [ 1 ] + la [ 1 ] ;
colours [ i ] [ 2 ] = l * lr [ 2 ] + la [ 2 ] ;
}
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# endif
}
}
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if ( r_vertexdlights . ival & & r_dynamic . ival > 0 & & normals )
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{
unsigned int lno , v ;
vec3_t dir , rel ;
float dot , d , a ;
//don't include world lights
for ( lno = rtlights_first ; lno < RTL_FIRST ; lno + + )
{
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if ( cl_dlights [ lno ] . radius & & ( cl_dlights [ lno ] . flags & LFLAG_LIGHTMAP ) )
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{
VectorSubtract ( cl_dlights [ lno ] . origin ,
entity - > origin ,
dir ) ;
if ( Length ( dir ) > cl_dlights [ lno ] . radius + 256 ) //far out man!
continue ;
rel [ 0 ] = - DotProduct ( dir , entity - > axis [ 0 ] ) ;
rel [ 1 ] = - DotProduct ( dir , entity - > axis [ 1 ] ) ;
rel [ 2 ] = - DotProduct ( dir , entity - > axis [ 2 ] ) ;
for ( v = 0 ; v < vertcount ; v + + )
{
VectorSubtract ( coords [ v ] , rel , dir ) ;
dot = DotProduct ( dir , normals [ v ] ) ;
if ( dot > 0 )
{
d = DotProduct ( dir , dir ) ;
a = 1 / d ;
if ( a > 0 )
{
a * = 10000000 * dot / sqrt ( d ) ;
colours [ v ] [ 0 ] + = a * cl_dlights [ lno ] . color [ 0 ] ;
colours [ v ] [ 1 ] + = a * cl_dlights [ lno ] . color [ 1 ] ;
colours [ v ] [ 2 ] + = a * cl_dlights [ lno ] . color [ 2 ] ;
}
}
}
}
}
}
}
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# ifdef NONSKELETALMODELS
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static void R_LerpFrames ( mesh_t * mesh , galiaspose_t * p1 , galiaspose_t * p2 , float lerp , float expand , float lerpcutoff )
{
extern cvar_t r_nolerp ; // r_nolightdir is unused
float blerp = 1 - lerp ;
int i ;
vecV_t * p1v = p1 - > ofsverts , * p2v = p2 - > ofsverts ;
vec3_t * p1n = p1 - > ofsnormals , * p2n = p2 - > ofsnormals ;
vec3_t * p1s = p1 - > ofssvector , * p2s = p2 - > ofssvector ;
vec3_t * p1t = p1 - > ofstvector , * p2t = p2 - > ofstvector ;
mesh - > snormals_array = blerp > 0.5 ? p2s : p1s ; //never lerp
mesh - > tnormals_array = blerp > 0.5 ? p2t : p1t ; //never lerp
mesh - > colors4f_array [ 0 ] = NULL ; //not generated
if ( p1v = = p2v | | r_nolerp . value | | ! blerp )
{
mesh - > normals_array = p1n ;
mesh - > snormals_array = p1s ;
mesh - > tnormals_array = p1t ;
if ( expand )
{
vecV_t * oxyz = mesh - > xyz_array ;
for ( i = 0 ; i < mesh - > numvertexes ; i + + )
{
oxyz [ i ] [ 0 ] = p1v [ i ] [ 0 ] + p1n [ i ] [ 0 ] * expand ;
oxyz [ i ] [ 1 ] = p1v [ i ] [ 1 ] + p1n [ i ] [ 1 ] * expand ;
oxyz [ i ] [ 2 ] = p1v [ i ] [ 2 ] + p1n [ i ] [ 2 ] * expand ;
}
return ;
}
else
mesh - > xyz_array = p1v ;
}
else
{
vecV_t * oxyz = mesh - > xyz_array ;
vec3_t * onorm = mesh - > normals_array ;
if ( lerpcutoff )
{
vec3_t d ;
lerpcutoff * = lerpcutoff ;
for ( i = 0 ; i < mesh - > numvertexes ; i + + )
{
VectorSubtract ( p2v [ i ] , p1v [ i ] , d ) ;
if ( DotProduct ( d , d ) > lerpcutoff )
{
//just use the current frame if we're over the lerp threshold.
//these verts are considered to have teleported.
onorm [ i ] [ 0 ] = p2n [ i ] [ 0 ] ;
onorm [ i ] [ 1 ] = p2n [ i ] [ 1 ] ;
onorm [ i ] [ 2 ] = p2n [ i ] [ 2 ] ;
oxyz [ i ] [ 0 ] = p2v [ i ] [ 0 ] ;
oxyz [ i ] [ 1 ] = p2v [ i ] [ 1 ] ;
oxyz [ i ] [ 2 ] = p2v [ i ] [ 2 ] ;
}
else
{
onorm [ i ] [ 0 ] = p1n [ i ] [ 0 ] * lerp + p2n [ i ] [ 0 ] * blerp ;
onorm [ i ] [ 1 ] = p1n [ i ] [ 1 ] * lerp + p2n [ i ] [ 1 ] * blerp ;
onorm [ i ] [ 2 ] = p1n [ i ] [ 2 ] * lerp + p2n [ i ] [ 2 ] * blerp ;
oxyz [ i ] [ 0 ] = p1v [ i ] [ 0 ] * lerp + p2v [ i ] [ 0 ] * blerp ;
oxyz [ i ] [ 1 ] = p1v [ i ] [ 1 ] * lerp + p2v [ i ] [ 1 ] * blerp ;
oxyz [ i ] [ 2 ] = p1v [ i ] [ 2 ] * lerp + p2v [ i ] [ 2 ] * blerp ;
}
}
}
else
{
for ( i = 0 ; i < mesh - > numvertexes ; i + + )
{
onorm [ i ] [ 0 ] = p1n [ i ] [ 0 ] * lerp + p2n [ i ] [ 0 ] * blerp ;
onorm [ i ] [ 1 ] = p1n [ i ] [ 1 ] * lerp + p2n [ i ] [ 1 ] * blerp ;
onorm [ i ] [ 2 ] = p1n [ i ] [ 2 ] * lerp + p2n [ i ] [ 2 ] * blerp ;
oxyz [ i ] [ 0 ] = p1v [ i ] [ 0 ] * lerp + p2v [ i ] [ 0 ] * blerp ;
oxyz [ i ] [ 1 ] = p1v [ i ] [ 1 ] * lerp + p2v [ i ] [ 1 ] * blerp ;
oxyz [ i ] [ 2 ] = p1v [ i ] [ 2 ] * lerp + p2v [ i ] [ 2 ] * blerp ;
}
}
if ( expand )
{
for ( i = 0 ; i < mesh - > numvertexes ; i + + )
{
oxyz [ i ] [ 0 ] + = onorm [ i ] [ 0 ] * expand ;
oxyz [ i ] [ 1 ] + = onorm [ i ] [ 1 ] * expand ;
oxyz [ i ] [ 2 ] + = onorm [ i ] [ 2 ] * expand ;
}
}
}
}
# endif
# endif
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# endif
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# ifdef SKELETALMODELS
/*
returns the up - to - 8 skeletal bone poses to blend together .
return value is the number of blends that are actually live .
*/
typedef struct
{
skeltype_t skeltype ; //the skeletal type of this bone block. all blocks should have the same result or the whole thing is unusable or whatever.
int firstbone ; //first bone of interest
int endbone ; //the first bone of the next group (ie: if first is 0, this is the count)
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int lerpcount ; //number of pose+frac entries.
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float frac [ FRAME_BLENDS * 2 ] ; //weight of this animation (1 if lerpcount is 1)
float * pose [ FRAME_BLENDS * 2 ] ; //pointer to the raw frame data for bone 0.
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void * needsfree [ FRAME_BLENDS * 2 ] ;
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} skellerps_t ;
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static qboolean Alias_BuildSkelLerps ( skellerps_t * lerps , const struct framestateregion_s * fs , int numbones , const galiasinfo_t * inf )
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{
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int frame1 ; //signed, because frametime might be negative...
int frame2 ;
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float mlerp ; //minor lerp, poses within a group.
int l = 0 ;
galiasanimation_t * g ;
unsigned int b ;
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float totalweight = 0 , dropweight = 0 ;
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# ifndef SERVERONLY
extern cvar_t r_nolerp ;
# endif
lerps - > skeltype = SKEL_IDENTITY ; //sometimes nothing else is valid.
for ( b = 0 ; b < FRAME_BLENDS ; b + + )
{
if ( fs - > lerpweight [ b ] )
{
unsigned int frame = fs - > frame [ b ] ;
float time = fs - > frametime [ b ] ;
if ( frame > = inf - > numanimations )
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{
if ( inf - > numanimations )
frame = 0 ;
else
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{
dropweight + = fs - > lerpweight [ b ] ;
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continue ; //frame = (unsigned)frame%inf->groups;
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}
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}
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g = & inf - > ofsanimations [ frame ] ;
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if ( lerps - > skeltype = = SKEL_IDENTITY )
lerps - > skeltype = g - > skeltype ;
else if ( lerps - > skeltype ! = g - > skeltype )
{
dropweight + = fs - > lerpweight [ b ] ;
continue ; //oops, can't cope with mixed blend types
}
if ( g - > GetRawBones )
{
lerps - > frac [ l ] = fs - > lerpweight [ b ] ;
lerps - > needsfree [ l ] = BZ_Malloc ( sizeof ( float ) * 12 * numbones ) ;
lerps - > pose [ l ] = g - > GetRawBones ( inf , g , time , lerps - > needsfree [ l ] , numbones ) ;
if ( lerps - > pose [ l ] )
l + + ;
else
dropweight + = lerps - > frac [ l ] ;
continue ;
}
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if ( ! g - > numposes )
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{
dropweight + = fs - > lerpweight [ b ] ;
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continue ; //err...
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}
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mlerp = time * g - > rate ;
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frame1 = floor ( mlerp ) ;
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frame2 = frame1 + 1 ;
mlerp - = frame1 ;
if ( g - > loop )
{ //loop normally.
frame1 = frame1 % g - > numposes ;
frame2 = frame2 % g - > numposes ;
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if ( frame1 < 0 )
frame1 + = g - > numposes ;
if ( frame2 < 0 )
frame2 + = g - > numposes ;
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}
else
{
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frame1 = bound ( 0 , frame1 , g - > numposes - 1 ) ;
frame2 = bound ( 0 , frame2 , g - > numposes - 1 ) ;
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}
if ( frame1 = = frame2 )
mlerp = 0 ;
else if ( r_noframegrouplerp . ival )
mlerp = ( mlerp > 0.5 ) ? 1 : 0 ;
lerps - > frac [ l ] = ( 1 - mlerp ) * fs - > lerpweight [ b ] ;
if ( lerps - > frac [ l ] > 0 )
{
totalweight + = lerps - > frac [ l ] ;
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lerps - > needsfree [ l ] = NULL ;
lerps - > pose [ l + + ] = ( float * ) g - > boneofs + numbones * 12 * frame1 ;
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}
lerps - > frac [ l ] = ( mlerp ) * fs - > lerpweight [ b ] ;
if ( lerps - > frac [ l ] > 0 )
{
totalweight + = lerps - > frac [ l ] ;
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lerps - > needsfree [ l ] = NULL ;
lerps - > pose [ l + + ] = ( float * ) g - > boneofs + numbones * 12 * frame2 ;
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}
}
}
# ifndef SERVERONLY
if ( r_nolerp . ival & & l > 1 )
{ //when lerping is completely disabled, find the strongest influence
frame1 = 0 ;
mlerp = lerps - > frac [ 0 ] ;
for ( b = 1 ; b < l ; b + + )
{
if ( lerps - > frac [ b ] > mlerp )
{
frame1 = b ;
mlerp = lerps - > frac [ b ] ;
}
}
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lerps - > frac [ 0 ] = totalweight + dropweight ;
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lerps - > pose [ 0 ] = lerps - > pose [ frame1 ] ;
l = 1 ;
}
else
# endif
2018-03-04 14:41:16 +00:00
if ( l & & totalweight & & dropweight )
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{ //don't rescale if some animation got dropped.
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totalweight = ( totalweight + dropweight ) / totalweight ;
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for ( b = 0 ; b < l ; b + + )
{
lerps - > frac [ b ] * = totalweight ;
}
}
lerps - > lerpcount = l ;
return l > 0 ;
}
/*
finds the various blend info . returns number of bone blocks used .
*/
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static int Alias_FindRawSkelData ( galiasinfo_t * inf , const framestate_t * fstate , skellerps_t * lerps , size_t firstbone , size_t lastbone )
2016-07-12 00:40:13 +00:00
{
int bonegroup ;
int cbone = 0 ;
int endbone ;
int numbonegroups = 0 ;
if ( lastbone > inf - > numbones )
lastbone = inf - > numbones ;
for ( bonegroup = 0 ; bonegroup < FS_COUNT ; bonegroup + + )
{
endbone = fstate - > g [ bonegroup ] . endbone ;
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if ( bonegroup = = FS_COUNT - 1 )
endbone = MAX_BONES ;
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2017-06-21 01:24:25 +00:00
if ( cbone < = firstbone | | endbone > lastbone )
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{
2017-07-02 23:45:04 +00:00
lerps - > firstbone = max ( cbone , firstbone ) ;
lerps - > endbone = max ( lerps - > firstbone , min ( endbone , lastbone ) ) ;
if ( lerps - > firstbone = = lerps - > endbone )
continue ;
2017-06-21 01:24:25 +00:00
if ( ! inf - > numanimations | | ! Alias_BuildSkelLerps ( lerps , & fstate - > g [ bonegroup ] , inf - > numbones , inf ) ) //if there's no animations in this model, use the base pose instead.
{
if ( ! inf - > baseframeofs )
continue ; //nope, not happening.
lerps - > skeltype = SKEL_ABSOLUTE ;
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lerps - > needsfree [ 0 ] = NULL ;
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lerps - > frac [ 0 ] = 1 ;
lerps - > pose [ 0 ] = inf - > baseframeofs ;
lerps - > lerpcount = 1 ;
}
numbonegroups + + ;
lerps + + ;
2016-07-12 00:40:13 +00:00
}
cbone = endbone ;
}
return numbonegroups ;
}
/*
retrieves the raw bone data for a current frame state .
ignores poses that don ' t match the desired skeltype
ignores skeletal objects .
return value is the lastbone argument , or less if the model simply doesn ' t have that many bones .
_always_ writes into result
*/
2018-10-11 10:31:23 +00:00
static int Alias_BlendBoneData ( galiasinfo_t * inf , framestate_t * fstate , float * result , skeltype_t skeltype , int firstbone , int lastbone )
2016-07-12 00:40:13 +00:00
{
skellerps_t lerps [ FS_COUNT ] , * lerp ;
size_t bone , endbone = 0 ;
size_t numgroups = Alias_FindRawSkelData ( inf , fstate , lerps , firstbone , lastbone ) ;
float * pose , * matrix ;
int k , b ;
for ( lerp = lerps ; numgroups - - ; lerp + + )
{
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if ( lerp - > skeltype = = skeltype )
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{
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bone = lerp - > firstbone ;
endbone = lerp - > endbone ;
if ( lerp - > lerpcount = = 1 & & lerp - > frac [ 0 ] = = 1 )
memcpy ( result + bone * 12 , lerp - > pose [ 0 ] + bone * 12 , ( endbone - bone ) * 12 * sizeof ( float ) ) ;
else
2016-07-12 00:40:13 +00:00
{
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//set up the identity matrix
for ( ; bone < endbone ; bone + + )
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{
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pose = result + 12 * bone ;
//set up the per-bone transform matrix
matrix = lerps - > pose [ 0 ] + bone * 12 ;
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for ( k = 0 ; k < 12 ; k + + )
2019-09-04 07:59:40 +00:00
pose [ k ] = matrix [ k ] * lerp - > frac [ 0 ] ;
for ( b = 1 ; b < lerp - > lerpcount ; b + + )
{
matrix = lerps - > pose [ b ] + bone * 12 ;
for ( k = 0 ; k < 12 ; k + + )
pose [ k ] + = matrix [ k ] * lerp - > frac [ b ] ;
}
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}
}
}
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for ( k = 0 ; k < lerp - > lerpcount ; k + + )
BZ_Free ( lerp - > needsfree [ k ] ) ;
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}
return endbone ;
}
/*retrieves the bone data.
only writes targetbuffer if needed . the return value is the only real buffer result .
assumes that all blended types are the same . probably buggy , but meh .
*/
2019-07-02 04:12:20 +00:00
static const float * Alias_GetBoneInformation ( galiasinfo_t * inf , const framestate_t * framestate , skeltype_t targettype , float * targetbuffer , float * targetbufferalt , size_t maxbufferbones )
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{
skellerps_t lerps [ FS_COUNT ] , * lerp ;
size_t numgroups ;
size_t bone , endbone ;
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const float * ret ;
2016-07-12 00:40:13 +00:00
2019-02-16 19:09:07 +00:00
lerps [ 0 ] . skeltype = SKEL_IDENTITY ; //just in case.
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# ifdef SKELETALOBJECTS
if ( framestate - > bonestate & & framestate - > bonecount > = inf - > numbones )
{
lerps [ 0 ] . skeltype = framestate - > skeltype ;
lerps [ 0 ] . firstbone = 0 ;
lerps [ 0 ] . endbone = framestate - > bonecount ;
lerps [ 0 ] . pose [ 0 ] = framestate - > bonestate ;
lerps [ 0 ] . frac [ 0 ] = 1 ;
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lerps [ 0 ] . needsfree [ 0 ] = NULL ;
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lerps [ 0 ] . lerpcount = 1 ;
numgroups = 1 ;
}
else
# endif
{
numgroups = Alias_FindRawSkelData ( inf , framestate , lerps , 0 , inf - > numbones ) ;
}
//try to return data in-place.
if ( numgroups = = 1 & & lerps [ 0 ] . lerpcount = = 1 )
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{
ret = Alias_ConvertBoneData ( lerps [ 0 ] . skeltype , lerps [ 0 ] . pose [ 0 ] , min ( lerps [ 0 ] . endbone , inf - > numbones ) , inf - > ofsbones , targettype , targetbuffer , targetbufferalt , maxbufferbones ) ;
BZ_Free ( lerps [ 0 ] . needsfree [ 0 ] ) ;
return ret ;
}
2016-07-12 00:40:13 +00:00
for ( lerp = lerps ; numgroups - - ; lerp + + )
{
bone = lerp - > firstbone ;
endbone = lerp - > endbone ;
switch ( lerp - > lerpcount )
{
case 2 :
{
int k ;
float * out = targetbuffer + bone * 12 ;
float * pose1 = lerp - > pose [ 0 ] + bone * 12 , * pose2 = lerp - > pose [ 1 ] + bone * 12 ;
float frac1 = lerp - > frac [ 0 ] , frac2 = lerp - > frac [ 1 ] ;
for ( ; bone < endbone ; bone + + , out + = 12 , pose1 + = 12 , pose2 + = 12 )
{
for ( k = 0 ; k < 12 ; k + + ) //please please unroll!
out [ k ] = ( pose1 [ k ] * frac1 ) + ( frac2 * pose2 [ k ] ) ;
}
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BZ_Free ( lerp - > needsfree [ 0 ] ) ;
BZ_Free ( lerp - > needsfree [ 1 ] ) ;
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}
break ;
case 3 :
{
int k ;
float * out = targetbuffer + bone * 12 ;
float * pose1 = lerp - > pose [ 0 ] + bone * 12 , * pose2 = lerp - > pose [ 1 ] + bone * 12 , * pose3 = lerp - > pose [ 2 ] + bone * 12 ;
float frac1 = lerp - > frac [ 0 ] , frac2 = lerp - > frac [ 1 ] , frac3 = lerp - > frac [ 2 ] ;
for ( ; bone < endbone ; bone + + , out + = 12 , pose1 + = 12 , pose2 + = 12 , pose3 + = 12 )
{
for ( k = 0 ; k < 12 ; k + + ) //please please unroll!
out [ k ] = ( pose1 [ k ] * frac1 ) + ( frac2 * pose2 [ k ] ) + ( pose3 [ k ] * frac3 ) ;
}
2019-09-04 07:59:40 +00:00
BZ_Free ( lerp - > needsfree [ 0 ] ) ;
BZ_Free ( lerp - > needsfree [ 1 ] ) ;
BZ_Free ( lerp - > needsfree [ 2 ] ) ;
2016-07-12 00:40:13 +00:00
}
break ;
case 4 :
{
int k ;
float * out = targetbuffer + bone * 12 ;
float * pose1 = lerp - > pose [ 0 ] + bone * 12 , * pose2 = lerp - > pose [ 1 ] + bone * 12 , * pose3 = lerp - > pose [ 2 ] + bone * 12 , * pose4 = lerp - > pose [ 3 ] + bone * 12 ;
float frac1 = lerp - > frac [ 0 ] , frac2 = lerp - > frac [ 1 ] , frac3 = lerp - > frac [ 2 ] , frac4 = lerp - > frac [ 3 ] ;
for ( ; bone < endbone ; bone + + , out + = 12 , pose1 + = 12 , pose2 + = 12 , pose3 + = 12 , pose4 + = 12 )
{
for ( k = 0 ; k < 12 ; k + + ) //please please unroll!
out [ k ] = ( pose1 [ k ] * frac1 ) + ( frac2 * pose2 [ k ] ) + ( pose3 [ k ] * frac3 ) + ( frac4 * pose4 [ k ] ) ;
}
2019-09-04 07:59:40 +00:00
BZ_Free ( lerp - > needsfree [ 0 ] ) ;
BZ_Free ( lerp - > needsfree [ 1 ] ) ;
BZ_Free ( lerp - > needsfree [ 2 ] ) ;
BZ_Free ( lerp - > needsfree [ 3 ] ) ;
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}
break ;
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case 0 :
case 1 : //the weight will usually be 1, which won't take this path.
default :
{ //the generic slow path.
int k , i , b ;
float * out , * pose , frac ;
for ( i = 0 ; i < lerp - > lerpcount ; i + + )
{
out = targetbuffer + bone * 12 ;
pose = lerp - > pose [ i ] + bone * 12 ;
frac = lerp - > frac [ i ] ;
if ( ! i )
{ //first influence shouldn't add, saving us a memcpy.
for ( b = bone ; b < endbone ; b + + , out + = 12 , pose + = 12 )
for ( k = 0 ; k < 12 ; k + + )
out [ k ] = ( pose [ k ] * frac ) ;
}
else
{
for ( b = bone ; b < endbone ; b + + , out + = 12 , pose + = 12 )
for ( k = 0 ; k < 12 ; k + + )
out [ k ] + = ( pose [ k ] * frac ) ;
}
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BZ_Free ( lerp - > needsfree [ i ] ) ;
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}
}
break ;
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}
}
return Alias_ConvertBoneData ( lerps [ 0 ] . skeltype , targetbuffer , inf - > numbones , inf - > ofsbones , targettype , targetbuffer , targetbufferalt , maxbufferbones ) ;
}
static void Alias_BuildSkeletalMesh ( mesh_t * mesh , framestate_t * framestate , galiasinfo_t * inf )
{
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boneidx_t * fte_restrict bidx = inf - > ofs_skel_idx [ 0 ] ;
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float * fte_restrict weight = inf - > ofs_skel_weight [ 0 ] ;
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const float * morphweights ;
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if ( meshcache . bonecachetype ! = SKEL_INVERSE_ABSOLUTE )
meshcache . usebonepose = Alias_GetBoneInformation ( inf , framestate , meshcache . bonecachetype = SKEL_INVERSE_ABSOLUTE , meshcache . boneposebuffer1 , meshcache . boneposebuffer2 , MAX_BONES ) ;
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morphweights = inf - > AnimateMorphs ? inf - > AnimateMorphs ( inf , framestate ) : NULL ;
if ( morphweights )
{
size_t m , v ;
float w ;
vecV_t * xyz = alloca ( sizeof ( * xyz ) * inf - > numverts ) , * inxyz ;
vec3_t * norm = alloca ( sizeof ( * norm ) * inf - > numverts ) , * innorm ;
vec3_t * sdir = alloca ( sizeof ( * sdir ) * inf - > numverts ) , * insdir ;
vec3_t * tdir = alloca ( sizeof ( * tdir ) * inf - > numverts ) , * intdir ;
memcpy ( xyz , inf - > ofs_skel_xyz , sizeof ( * xyz ) * inf - > numverts ) ;
memcpy ( norm , inf - > ofs_skel_norm , sizeof ( * norm ) * inf - > numverts ) ;
memcpy ( sdir , inf - > ofs_skel_svect , sizeof ( * sdir ) * inf - > numverts ) ;
memcpy ( tdir , inf - > ofs_skel_tvect , sizeof ( * tdir ) * inf - > numverts ) ;
for ( m = 0 ; m < inf - > nummorphs ; m + + )
{
if ( morphweights [ m ] < = 0 )
continue ;
inxyz = inf - > ofs_skel_xyz + ( m + 1 ) * inf - > numverts ;
innorm = inf - > ofs_skel_norm + ( m + 1 ) * inf - > numverts ;
insdir = inf - > ofs_skel_svect + ( m + 1 ) * inf - > numverts ;
intdir = inf - > ofs_skel_tvect + ( m + 1 ) * inf - > numverts ;
w = morphweights [ m ] ;
for ( v = 0 ; v < inf - > numverts ; v + + )
{
VectorMA ( xyz [ v ] , w , inxyz [ v ] , xyz [ v ] ) ;
VectorMA ( norm [ v ] , w , innorm [ v ] , norm [ v ] ) ;
VectorMA ( sdir [ v ] , w , insdir [ v ] , sdir [ v ] ) ;
VectorMA ( tdir [ v ] , w , intdir [ v ] , tdir [ v ] ) ;
}
}
//right, now do the bones thing.
Alias_TransformVerticies_VNST ( meshcache . usebonepose , inf - > numverts , bidx , weight ,
xyz [ 0 ] , mesh - > xyz_array [ 0 ] ,
norm [ 0 ] , mesh - > normals_array [ 0 ] ,
sdir [ 0 ] , mesh - > snormals_array [ 0 ] ,
tdir [ 0 ] , mesh - > tnormals_array [ 0 ]
) ;
}
else if ( ( 1 ) )
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Alias_TransformVerticies_VNST ( meshcache . usebonepose , inf - > numverts , bidx , weight ,
inf - > ofs_skel_xyz [ 0 ] , mesh - > xyz_array [ 0 ] ,
inf - > ofs_skel_norm [ 0 ] , mesh - > normals_array [ 0 ] ,
inf - > ofs_skel_svect [ 0 ] , mesh - > snormals_array [ 0 ] ,
inf - > ofs_skel_tvect [ 0 ] , mesh - > tnormals_array [ 0 ]
) ;
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else
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Alias_TransformVerticies_VN ( meshcache . usebonepose , inf - > numverts , bidx , weight ,
inf - > ofs_skel_xyz [ 0 ] , mesh - > xyz_array [ 0 ] ,
inf - > ofs_skel_norm [ 0 ] , mesh - > normals_array [ 0 ]
) ;
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}
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# if defined(MD5MODELS) || defined(ZYMOTICMODELS) || defined(DPMMODELS)
static int QDECL sortweights ( const void * v1 , const void * v2 ) //helper for Alias_BuildGPUWeights
{
const galisskeletaltransforms_t * w1 = v1 , * w2 = v2 ;
if ( w1 - > vertexindex - w2 - > vertexindex )
return w1 - > vertexindex - w2 - > vertexindex ;
if ( w1 - > org [ 3 ] > w2 - > org [ 3 ] )
return - 1 ;
if ( w1 - > org [ 3 ] < w2 - > org [ 3 ] )
return 1 ;
return 0 ;
}
//takes old-style vertex transforms and tries to generate something more friendly for GPUs, limited to only 4 influences per vertex
static void Alias_BuildGPUWeights ( model_t * mod , galiasinfo_t * inf , size_t num_trans , galisskeletaltransforms_t * trans , qboolean calcnorms )
{
size_t i , j , v ;
double strength ;
const float * matrix , * basepose ;
const galisskeletaltransforms_t * t ;
float buffer [ MAX_BONES * 12 ] ;
float bufferalt [ MAX_BONES * 12 ] ;
//first sort the weights by the verticies, then by strength. this is probably already done, but whatever.
qsort ( trans , num_trans , sizeof ( * trans ) , sortweights ) ;
inf - > ofs_skel_xyz = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_xyz ) * inf - > numverts ) ;
inf - > ofs_skel_norm = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_norm ) * inf - > numverts ) ;
inf - > ofs_skel_svect = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_svect ) * inf - > numverts ) ;
inf - > ofs_skel_tvect = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_tvect ) * inf - > numverts ) ;
inf - > ofs_skel_idx = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_idx ) * inf - > numverts ) ;
inf - > ofs_skel_weight = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf - > ofs_skel_weight ) * inf - > numverts ) ;
//make sure we have a base pose for all animations to be relative to. first animation's first pose if there isn't an explicit one
basepose = inf - > baseframeofs ;
if ( ! basepose )
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{
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if ( ! inf - > numanimations | | ! inf - > ofsanimations [ 0 ] . boneofs )
{
Con_DPrintf ( " Alias_BuildGPUWeights: no base pose \n " ) ;
return ; //its fucked jim
}
basepose = Alias_ConvertBoneData ( inf - > ofsanimations [ 0 ] . skeltype , inf - > ofsanimations [ 0 ] . boneofs , inf - > numbones , inf - > ofsbones , SKEL_ABSOLUTE , buffer , bufferalt , MAX_BONES ) ;
}
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//make sure we have bone inversions
for ( i = 0 ; i < inf - > numbones ; i + + )
{
Matrix3x4_Invert_Simple ( basepose + i * 12 , inf - > ofsbones [ i ] . inverse ) ;
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}
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//validate the indicies, because we can.
for ( i = 0 ; i < inf - > numindexes ; i + + )
{
if ( inf - > ofs_indexes [ i ] > = inf - > numverts )
Con_DPrintf ( " Alias_BuildGPUWeights: bad index \n " ) ;
}
//walk the (sorted) transforms and calculate the proper position for each vert, and the strongest influences too.
for ( i = 0 ; i < num_trans ; i + + )
{
t = & trans [ i ] ;
v = t - > vertexindex ;
if ( v > = inf - > numverts | | t - > boneindex > = inf - > numbones )
{
Con_DPrintf ( " Alias_BuildGPUWeights: bad vertex \n " ) ;
continue ;
}
matrix = basepose + t - > boneindex * 12 ;
//calculate the correct position in the base pose
inf - > ofs_skel_xyz [ v ] [ 0 ] + = t - > org [ 0 ] * matrix [ 0 ] + t - > org [ 1 ] * matrix [ 1 ] + t - > org [ 2 ] * matrix [ 2 ] + t - > org [ 3 ] * matrix [ 3 ] ;
inf - > ofs_skel_xyz [ v ] [ 1 ] + = t - > org [ 0 ] * matrix [ 4 ] + t - > org [ 1 ] * matrix [ 5 ] + t - > org [ 2 ] * matrix [ 6 ] + t - > org [ 3 ] * matrix [ 7 ] ;
inf - > ofs_skel_xyz [ v ] [ 2 ] + = t - > org [ 0 ] * matrix [ 8 ] + t - > org [ 1 ] * matrix [ 9 ] + t - > org [ 2 ] * matrix [ 10 ] + t - > org [ 3 ] * matrix [ 11 ] ;
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# ifndef SERVERONLY
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if ( ! calcnorms )
{
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inf - > ofs_skel_norm [ v ] [ 0 ] + = t - > normal [ 0 ] * matrix [ 0 ] + t - > normal [ 1 ] * matrix [ 1 ] + t - > normal [ 2 ] * matrix [ 2 ] ;
inf - > ofs_skel_norm [ v ] [ 1 ] + = t - > normal [ 0 ] * matrix [ 4 ] + t - > normal [ 1 ] * matrix [ 5 ] + t - > normal [ 2 ] * matrix [ 6 ] ;
inf - > ofs_skel_norm [ v ] [ 2 ] + = t - > normal [ 0 ] * matrix [ 8 ] + t - > normal [ 1 ] * matrix [ 9 ] + t - > normal [ 2 ] * matrix [ 10 ] ;
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}
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# endif
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//we sorted them so we're guarenteed to see the highest influences first.
for ( j = 0 ; j < 4 ; j + + )
{
if ( ! inf - > ofs_skel_weight [ v ] [ j ] )
{
inf - > ofs_skel_weight [ v ] [ j ] = t - > org [ 3 ] ;
for ( ; j < 4 ; j + + ) //be nicer on cache, if necessary
inf - > ofs_skel_idx [ v ] [ j ] = t - > boneindex ;
break ;
}
}
}
//weights should add up to 1, but might not if we had too many influences. make sure they don't move, at least in their base pose.
for ( v = 0 ; v < inf - > numverts ; v + + )
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{
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strength = inf - > ofs_skel_weight [ v ] [ 0 ] + inf - > ofs_skel_weight [ v ] [ 1 ] + inf - > ofs_skel_weight [ v ] [ 2 ] + inf - > ofs_skel_weight [ v ] [ 3 ] ;
if ( strength & & strength ! = 1 )
{
strength = 1 / strength ;
Vector4Scale ( inf - > ofs_skel_weight [ v ] , strength , inf - > ofs_skel_weight [ v ] ) ;
}
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}
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# ifndef SERVERONLY
Mod_AccumulateTextureVectors ( inf - > ofs_skel_xyz , inf - > ofs_st_array , inf - > ofs_skel_norm , inf - > ofs_skel_svect , inf - > ofs_skel_tvect , inf - > ofs_indexes , inf - > numindexes , calcnorms ) ;
Mod_NormaliseTextureVectors ( inf - > ofs_skel_norm , inf - > ofs_skel_svect , inf - > ofs_skel_tvect , inf - > numverts , calcnorms ) ;
# endif
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}
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# endif
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# ifndef SERVERONLY
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static void Alias_DrawSkeletalBones ( galiasbone_t * bones , float const * bonepose , int bonecount , int basebone )
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{
scenetris_t * t ;
int flags = BEF_NODLIGHT | BEF_NOSHADOWS | BEF_LINES ;
shader_t * shader ;
int i , p ;
extern entity_t * currententity ;
index_t * indexes ;
vecV_t * verts ;
vec4_t * colours ;
vec2_t * texcoords ;
int numindexes = 0 ;
mesh_t bonemesh , * m ;
batch_t b ;
//this shader lookup might get pricy.
shader = R_RegisterShader ( " shader_draw_line " , SUF_NONE ,
" { \n "
" program defaultfill \n "
" { \n "
" map $whiteimage \n "
" rgbgen exactvertex \n "
" alphagen vertex \n "
" blendfunc blend \n "
" } \n "
" } \n " ) ;
if ( cl_numstris & & cl_stris [ cl_numstris - 1 ] . shader = = shader & & cl_stris [ cl_numstris - 1 ] . flags = = flags )
t = & cl_stris [ cl_numstris - 1 ] ;
else
{
if ( cl_numstris = = cl_maxstris )
{
cl_maxstris + = 8 ;
cl_stris = BZ_Realloc ( cl_stris , sizeof ( * cl_stris ) * cl_maxstris ) ;
}
t = & cl_stris [ cl_numstris + + ] ;
t - > shader = shader ;
t - > numidx = 0 ;
t - > numvert = 0 ;
t - > firstidx = cl_numstrisidx ;
t - > firstvert = cl_numstrisvert ;
t - > flags = flags ;
}
if ( cl_numstrisvert + bonecount * 2 > cl_maxstrisvert )
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cl_stris_ExpandVerts ( cl_numstrisvert + bonecount * 2 ) ;
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if ( cl_maxstrisidx < cl_numstrisidx + bonecount * 2 )
{
cl_maxstrisidx = cl_numstrisidx + bonecount * 2 ;
cl_strisidx = BZ_Realloc ( cl_strisidx , sizeof ( * cl_strisidx ) * cl_maxstrisidx ) ;
}
verts = alloca ( sizeof ( * verts ) * bonecount ) ;
colours = alloca ( sizeof ( * colours ) * bonecount ) ;
texcoords = alloca ( sizeof ( * texcoords ) * bonecount ) ;
indexes = alloca ( sizeof ( * indexes ) * bonecount * 2 ) ;
numindexes = 0 ;
for ( i = 0 ; i < bonecount ; i + + )
{
//fixme: transform by model matrix
verts [ i ] [ 0 ] = bonepose [ i * 12 + 3 ] ;
verts [ i ] [ 1 ] = bonepose [ i * 12 + 7 ] ;
verts [ i ] [ 2 ] = bonepose [ i * 12 + 11 ] ;
texcoords [ i ] [ 0 ] = 0 ;
texcoords [ i ] [ 1 ] = 0 ;
colours [ i ] [ 0 ] = ( i < basebone ) ? 0 : 1 ;
colours [ i ] [ 1 ] = ( i < basebone ) ? 0 : 0 ;
colours [ i ] [ 2 ] = ( i < basebone ) ? 1 : 0 ;
colours [ i ] [ 3 ] = 1 ;
p = bones [ i ] . parent ;
if ( p < 0 )
p = i ;
indexes [ numindexes + + ] = i ;
indexes [ numindexes + + ] = p ;
}
memset ( & bonemesh , 0 , sizeof ( bonemesh ) ) ;
bonemesh . indexes = indexes ;
bonemesh . st_array = texcoords ;
bonemesh . lmst_array [ 0 ] = texcoords ;
bonemesh . xyz_array = verts ;
bonemesh . colors4f_array [ 0 ] = colours ;
bonemesh . numindexes = numindexes ;
bonemesh . numvertexes = bonecount ;
m = & bonemesh ;
//FIXME: We should use the skybox clipping code and split the sphere into 6 sides.
memset ( & b , 0 , sizeof ( b ) ) ;
b . flags = flags ;
b . meshes = 1 ;
b . firstmesh = 0 ;
b . mesh = & m ;
b . ent = currententity ;
b . shader = shader ;
b . skin = NULL ;
b . texture = NULL ;
b . vbo = NULL ;
BE_SubmitBatch ( & b ) ;
}
# endif //!SERVERONLY
# endif //SKELETALMODELS
void Alias_FlushCache ( void )
{
meshcache . ent = NULL ;
}
void Alias_Shutdown ( void )
{
if ( meshcache . norm )
BZ_Free ( meshcache . norm ) ;
meshcache . norm = NULL ;
meshcache . numnorm = 0 ;
if ( meshcache . coords )
BZ_Free ( meshcache . coords ) ;
meshcache . coords = NULL ;
meshcache . numcoords = 0 ;
}
qboolean Alias_GAliasBuildMesh ( mesh_t * mesh , vbo_t * * vbop , galiasinfo_t * inf , int surfnum , entity_t * e , qboolean usebones )
{
# ifndef SERVERONLY
extern cvar_t r_nolerp ;
# endif
# ifdef SKELETALMODELS
qboolean bytecolours = false ;
# endif
if ( ! inf - > numanimations )
{
# ifdef SKELETALMODELS
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if ( inf - > ofs_skel_xyz )
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{ }
else
# endif
{
Con_DPrintf ( " Model with no frames (%s) \n " , e - > model - > name ) ;
return false ;
}
}
if ( meshcache . numnorm < inf - > numverts )
{
if ( meshcache . norm )
BZ_Free ( meshcache . norm ) ;
meshcache . norm = BZ_Malloc ( sizeof ( * meshcache . norm ) * inf - > numverts * 3 ) ;
meshcache . numnorm = inf - > numverts ;
}
if ( meshcache . numcoords < inf - > numverts )
{
if ( meshcache . coords )
BZ_Free ( meshcache . coords ) ;
meshcache . coords = BZ_Malloc ( sizeof ( * meshcache . coords ) * inf - > numverts ) ;
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memset ( meshcache . coords , 0 , sizeof ( * meshcache . coords ) * inf - > numverts ) ; //vecV_t is often uninitialised.
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meshcache . numcoords = inf - > numverts ;
}
mesh - > numvertexes = inf - > numverts ;
mesh - > indexes = inf - > ofs_indexes ;
mesh - > numindexes = inf - > numindexes ;
mesh - > numbones = 0 ;
# ifndef SERVERONLY
mesh - > colors4f_array [ 0 ] = inf - > ofs_rgbaf ;
mesh - > colors4b_array = inf - > ofs_rgbaub ;
# ifdef SKELETALMODELS
bytecolours = ! ! inf - > ofs_rgbaub ;
# endif
mesh - > st_array = inf - > ofs_st_array ;
# endif
mesh - > trneighbors = inf - > ofs_trineighbours ;
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# if defined(SKELETALMODELS) && !defined(SERVERONLY)
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if ( ! inf - > numbones )
usebones = false ;
else if ( inf - > ofs_skel_xyz & & ! inf - > ofs_skel_weight )
usebones = false ;
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else if ( e - > fatness | | ! inf - > ofs_skel_idx | | ( ! inf - > mappedbones & & inf - > numbones > sh_config . max_gpu_bones ) | | inf - > nummorphs )
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# endif
usebones = false ;
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if ( meshcache . ent = = e )
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{
if ( meshcache . vertgroup = = inf - > shares_verts & & meshcache . ent = = e & & usebones = = meshcache . usebones )
{
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mesh - > xyz_blendw [ 0 ] = meshcache . lerp ;
mesh - > xyz_blendw [ 1 ] = 1 - meshcache . lerp ;
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mesh - > xyz_array = meshcache . acoords1 ;
mesh - > xyz2_array = meshcache . acoords2 ;
mesh - > normals_array = meshcache . anorm ;
mesh - > snormals_array = meshcache . anorms ;
mesh - > tnormals_array = meshcache . anormt ;
if ( vbop )
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{
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* vbop = meshcache . vbop ;
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meshcache . vbo . indicies = inf - > vboindicies ;
meshcache . vbo . indexcount = inf - > numindexes ;
}
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# ifndef SKELETALMODELS
return false ;
}
}
# else
if ( usebones )
{
mesh - > bonenums = inf - > ofs_skel_idx ;
mesh - > boneweights = inf - > ofs_skel_weight ;
mesh - > bones = meshcache . usebonepose ;
mesh - > numbones = inf - > numbones ;
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}
# ifndef SERVERONLY
if ( meshcache . bonemap ! = inf - > bonemap )
{
meshcache . bonemap = inf - > bonemap ;
BE_SelectEntity ( e ) ;
}
if ( inf - > mappedbones )
{
int i ;
for ( i = 0 ; i < inf - > mappedbones ; i + + )
memcpy ( meshcache . gpubones + i * 12 , meshcache . usebonepose + inf - > bonemap [ i ] * 12 , sizeof ( float ) * 12 ) ;
meshcache . vbo . numbones = inf - > mappedbones ;
meshcache . vbo . bones = meshcache . gpubones ;
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}
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# endif
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return false ; //don't generate the new vertex positions. We still have them all.
}
if ( meshcache . bonegroup ! = inf - > shares_bones )
{
meshcache . usebonepose = NULL ;
meshcache . bonecachetype = - 1 ;
}
}
else
{
meshcache . usebonepose = NULL ;
meshcache . bonecachetype = - 1 ;
}
meshcache . bonegroup = inf - > shares_bones ;
# endif
meshcache . vertgroup = inf - > shares_verts ;
meshcache . ent = e ;
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# if defined(_DEBUG) && FRAME_BLENDS == 4
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if ( ! e - > framestate . g [ FS_REG ] . lerpweight [ 0 ] & & ! e - > framestate . g [ FS_REG ] . lerpweight [ 1 ] & & ! e - > framestate . g [ FS_REG ] . lerpweight [ 2 ] & & ! e - > framestate . g [ FS_REG ] . lerpweight [ 3 ] )
Con_Printf ( " Entity with no lerp info \n " ) ;
# endif
# ifndef SERVERONLY
mesh - > trneighbors = inf - > ofs_trineighbours ;
mesh - > normals_array = meshcache . norm ;
mesh - > snormals_array = meshcache . norm + meshcache . numnorm ;
mesh - > tnormals_array = meshcache . norm + meshcache . numnorm * 2 ;
# endif
mesh - > xyz_array = meshcache . coords ;
//we don't support meshes with one pose skeletal and annother not.
//we don't support meshes with one group skeletal and annother not.
# ifdef SKELETALMODELS
meshcache . vbop = NULL ;
if ( vbop )
* vbop = NULL ;
if ( inf - > ofs_skel_xyz & & ! inf - > ofs_skel_weight )
{
//if we have skeletal xyz info, but no skeletal weights, then its a partial model that cannot possibly be animated.
meshcache . usebonepose = NULL ;
mesh - > xyz_array = inf - > ofs_skel_xyz ;
mesh - > xyz2_array = NULL ;
mesh - > normals_array = inf - > ofs_skel_norm ;
mesh - > snormals_array = inf - > ofs_skel_svect ;
mesh - > tnormals_array = inf - > ofs_skel_tvect ;
if ( vbop )
{
meshcache . vbo . indicies = inf - > vboindicies ;
meshcache . vbo . indexcount = inf - > numindexes ;
meshcache . vbo . vertcount = inf - > numverts ;
meshcache . vbo . texcoord = inf - > vbotexcoords ;
meshcache . vbo . coord = inf - > vbo_skel_verts ;
memset ( & meshcache . vbo . coord2 , 0 , sizeof ( meshcache . vbo . coord2 ) ) ;
meshcache . vbo . normals = inf - > vbo_skel_normals ;
meshcache . vbo . svector = inf - > vbo_skel_svector ;
meshcache . vbo . tvector = inf - > vbo_skel_tvector ;
meshcache . vbo . colours [ 0 ] = inf - > vborgba ;
meshcache . vbo . colours_bytes = bytecolours ;
memset ( & meshcache . vbo . bonenums , 0 , sizeof ( meshcache . vbo . bonenums ) ) ;
memset ( & meshcache . vbo . boneweights , 0 , sizeof ( meshcache . vbo . boneweights ) ) ;
meshcache . vbo . numbones = 0 ;
meshcache . vbo . bones = NULL ;
if ( meshcache . vbo . indicies . sysptr )
* vbop = meshcache . vbop = & meshcache . vbo ;
}
}
else if ( inf - > numbones )
{
mesh - > xyz2_array = NULL ; //skeltal animations blend bones, not verticies.
if ( ! usebones )
{
if ( inf - > numindexes )
{
//software bone animation
//there are two ways to animate a skeleton
Alias_BuildSkeletalMesh ( mesh , & e - > framestate , inf ) ;
# ifdef PEXT_FATNESS
if ( e - > fatness )
{
int i ;
for ( i = 0 ; i < mesh - > numvertexes ; i + + )
{
VectorMA ( mesh - > xyz_array [ i ] , e - > fatness , mesh - > normals_array [ i ] , meshcache . coords [ i ] ) ;
}
mesh - > xyz_array = meshcache . coords ;
}
# endif
}
else
{
if ( meshcache . bonecachetype ! = SKEL_ABSOLUTE )
meshcache . usebonepose = Alias_GetBoneInformation ( inf , & e - > framestate , meshcache . bonecachetype = SKEL_ABSOLUTE , meshcache . boneposebuffer1 , meshcache . boneposebuffer2 , MAX_BONES ) ;
# ifndef SERVERONLY
if ( inf - > shares_bones ! = surfnum & & qrenderer )
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Alias_DrawSkeletalBones ( inf - > ofsbones , ( const float * ) meshcache . usebonepose , inf - > numbones , e - > framestate . g [ 0 ] . endbone ) ;
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# endif
}
}
else
{
if ( meshcache . bonecachetype ! = SKEL_INVERSE_ABSOLUTE )
meshcache . usebonepose = Alias_GetBoneInformation ( inf , & e - > framestate , meshcache . bonecachetype = SKEL_INVERSE_ABSOLUTE , meshcache . boneposebuffer1 , meshcache . boneposebuffer2 , MAX_BONES ) ;
//hardware bone animation
mesh - > xyz_array = inf - > ofs_skel_xyz ;
mesh - > normals_array = inf - > ofs_skel_norm ;
mesh - > snormals_array = inf - > ofs_skel_svect ;
mesh - > tnormals_array = inf - > ofs_skel_tvect ;
if ( vbop )
{
meshcache . vbo . indicies = inf - > vboindicies ;
meshcache . vbo . indexcount = inf - > numindexes ;
meshcache . vbo . vertcount = inf - > numverts ;
meshcache . vbo . texcoord = inf - > vbotexcoords ;
meshcache . vbo . coord = inf - > vbo_skel_verts ;
memset ( & meshcache . vbo . coord2 , 0 , sizeof ( meshcache . vbo . coord2 ) ) ;
meshcache . vbo . normals = inf - > vbo_skel_normals ;
meshcache . vbo . svector = inf - > vbo_skel_svector ;
meshcache . vbo . tvector = inf - > vbo_skel_tvector ;
meshcache . vbo . colours [ 0 ] = inf - > vborgba ;
meshcache . vbo . colours_bytes = bytecolours ;
meshcache . vbo . bonenums = inf - > vbo_skel_bonenum ;
meshcache . vbo . boneweights = inf - > vbo_skel_bweight ;
meshcache . vbo . numbones = inf - > numbones ;
meshcache . vbo . bones = meshcache . usebonepose ;
if ( meshcache . vbo . indicies . sysptr )
* vbop = meshcache . vbop = & meshcache . vbo ;
}
}
}
else
# endif
{
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# ifndef NONSKELETALMODELS
memset ( mesh , 0 , sizeof ( * mesh ) ) ;
* vbop = NULL ;
return false ;
# else
# ifndef SERVERONLY
float lerpcutoff ;
# endif
galiasanimation_t * g1 , * g2 ;
int frame1 ;
int frame2 ;
float lerp ;
float fg1time ;
//float fg2time;
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static float printtimer ;
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# if defined(_DEBUG) && FRAME_BLENDS != 2
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if ( e - > framestate . g [ FS_REG ] . lerpweight [ 2 ] | | e - > framestate . g [ FS_REG ] . lerpweight [ 3 ] )
Con_ThrottlePrintf ( & printtimer , 1 , " Alias_GAliasBuildMesh(%s): non-skeletal animation only supports two animations \n " , e - > model - > name ) ;
# endif
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//FIXME: replace most of this logic with Alias_BuildSkelLerps
frame1 = e - > framestate . g [ FS_REG ] . frame [ 0 ] ;
frame2 = e - > framestate . g [ FS_REG ] . frame [ 1 ] ;
lerp = e - > framestate . g [ FS_REG ] . lerpweight [ 1 ] ; //FIXME
fg1time = e - > framestate . g [ FS_REG ] . frametime [ 0 ] ;
//fg2time = e->framestate.g[FS_REG].frametime[1];
if ( frame1 < 0 )
{
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Con_ThrottlePrintf ( & printtimer , 1 , " Negative frame (%s) \n " , e - > model - > name ) ;
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frame1 = 0 ;
}
if ( frame2 < 0 )
{
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Con_ThrottlePrintf ( & printtimer , 1 , " Negative frame (%s) \n " , e - > model - > name ) ;
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frame2 = frame1 ;
}
if ( frame1 > = inf - > numanimations )
{
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Con_ThrottlePrintf ( & printtimer , 1 , " Too high frame %i (%s) \n " , frame1 , e - > model - > name ) ;
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frame1 % = inf - > numanimations ;
}
if ( frame2 > = inf - > numanimations )
{
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Con_ThrottlePrintf ( & printtimer , 1 , " Too high frame %i (%s) \n " , frame2 , e - > model - > name ) ;
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frame2 % = inf - > numanimations ;
}
if ( lerp < = 0 )
frame2 = frame1 ;
else if ( lerp > = 1 )
frame1 = frame2 ;
g1 = & inf - > ofsanimations [ frame1 ] ;
g2 = & inf - > ofsanimations [ frame2 ] ;
if ( ! inf - > numanimations | | ! g1 - > numposes | | ! g2 - > numposes )
{
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Con_ThrottlePrintf ( & printtimer , 1 , " Invalid animation data on entity with model %s \n " , e - > model - > name ) ;
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//no animation data. panic!
memset ( mesh , 0 , sizeof ( * mesh ) ) ;
* vbop = NULL ;
return false ;
}
if ( g1 = = g2 ) //lerping within group is only done if not changing group
{
lerp = fg1time * g1 - > rate ;
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frame1 = floor ( lerp ) ;
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frame2 = frame1 + 1 ;
lerp - = frame1 ;
if ( r_noframegrouplerp . ival )
lerp = 0 ;
if ( g1 - > loop )
{
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frame1 = frame1 % g1 - > numposes ; if ( frame1 < 0 ) frame1 + = g1 - > numposes ;
frame2 = frame2 % g1 - > numposes ; if ( frame2 < 0 ) frame2 + = g1 - > numposes ;
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}
else
{
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frame1 = bound ( 0 , frame1 , g1 - > numposes - 1 ) ;
frame2 = bound ( 0 , frame2 , g1 - > numposes - 1 ) ;
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}
}
else //don't bother with a four way lerp. Yeah, this will produce jerkyness with models with just framegroups.
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{ //FIXME: find the two poses with the strongest influence.
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frame1 = 0 ;
frame2 = 0 ;
}
# ifndef SERVERONLY
lerpcutoff = inf - > lerpcutoff * r_lerpmuzzlehack . value ;
if ( Sh_StencilShadowsActive ( ) | | e - > fatness | | lerpcutoff )
{
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memset ( & meshcache . vbo . coord2 , 0 , sizeof ( meshcache . vbo . coord2 ) ) ;
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mesh - > xyz2_array = NULL ;
mesh - > xyz_blendw [ 0 ] = 1 ;
mesh - > xyz_blendw [ 1 ] = 0 ;
R_LerpFrames ( mesh , & g1 - > poseofs [ frame1 ] , & g2 - > poseofs [ frame2 ] , 1 - lerp , e - > fatness , lerpcutoff ) ;
}
else
# endif
{
galiaspose_t * p1 = & g1 - > poseofs [ frame1 ] ;
# ifndef SERVERONLY
galiaspose_t * p2 = & g2 - > poseofs [ frame2 ] ;
# endif
meshcache . vbo . indicies = inf - > vboindicies ;
meshcache . vbo . indexcount = inf - > numindexes ;
meshcache . vbo . vertcount = inf - > numverts ;
meshcache . vbo . texcoord = inf - > vbotexcoords ;
# ifdef SKELETALMODELS
memset ( & meshcache . vbo . bonenums , 0 , sizeof ( meshcache . vbo . bonenums ) ) ;
memset ( & meshcache . vbo . boneweights , 0 , sizeof ( meshcache . vbo . boneweights ) ) ;
meshcache . vbo . numbones = 0 ;
meshcache . vbo . bones = 0 ;
# endif
# ifdef SERVERONLY
mesh - > xyz_array = p1 - > ofsverts ;
mesh - > xyz2_array = NULL ;
# else
mesh - > normals_array = p1 - > ofsnormals ;
mesh - > snormals_array = p1 - > ofssvector ;
mesh - > tnormals_array = p1 - > ofstvector ;
meshcache . vbo . normals = p1 - > vbonormals ;
meshcache . vbo . svector = p1 - > vbosvector ;
meshcache . vbo . tvector = p1 - > vbotvector ;
memset ( & meshcache . vbo . colours [ 0 ] , 0 , sizeof ( meshcache . vbo . colours [ 0 ] ) ) ;
if ( p1 = = p2 | | r_nolerp . ival )
{
meshcache . vbo . coord = p1 - > vboverts ;
memset ( & meshcache . vbo . coord2 , 0 , sizeof ( meshcache . vbo . coord2 ) ) ;
mesh - > xyz_array = p1 - > ofsverts ;
mesh - > xyz2_array = NULL ;
}
else
{
meshcache . vbo . coord = p1 - > vboverts ;
meshcache . vbo . coord2 = p2 - > vboverts ;
mesh - > xyz_blendw [ 0 ] = 1 - lerp ;
mesh - > xyz_blendw [ 1 ] = lerp ;
mesh - > xyz_array = p1 - > ofsverts ;
mesh - > xyz2_array = p2 - > ofsverts ;
}
# endif
if ( vbop & & meshcache . vbo . indicies . sysptr )
* vbop = meshcache . vbop = & meshcache . vbo ;
}
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# endif
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}
meshcache . vbo . vao = 0 ;
meshcache . vbo . vaodynamic = ~ 0 ;
meshcache . vbo . vaoenabled = 0 ;
meshcache . acoords1 = mesh - > xyz_array ;
meshcache . acoords2 = mesh - > xyz2_array ;
meshcache . anorm = mesh - > normals_array ;
meshcache . anorms = mesh - > snormals_array ;
meshcache . anormt = mesh - > tnormals_array ;
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meshcache . lerp = mesh - > xyz_blendw [ 0 ] ;
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if ( vbop )
meshcache . vbop = * vbop ;
# ifdef SKELETALMODELS
meshcache . usebones = usebones ;
if ( usebones )
{
mesh - > bonenums = inf - > ofs_skel_idx ;
mesh - > boneweights = inf - > ofs_skel_weight ;
mesh - > bones = meshcache . usebonepose ;
mesh - > numbones = inf - > numbones ;
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# ifndef SERVERONLY
if ( meshcache . bonemap ! = inf - > bonemap )
{
meshcache . bonemap = inf - > bonemap ;
BE_SelectEntity ( e ) ;
}
if ( inf - > mappedbones )
{
int i ;
for ( i = 0 ; i < inf - > mappedbones ; i + + )
memcpy ( meshcache . gpubones + i * 12 , meshcache . usebonepose + inf - > bonemap [ i ] * 12 , sizeof ( float ) * 12 ) ;
meshcache . vbo . numbones = inf - > mappedbones ;
meshcache . vbo . bones = meshcache . gpubones ;
}
# endif
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}
# endif
return true ; //to allow the mesh to be dlighted.
}
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# ifndef SERVERONLY
//used by the modelviewer.
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//mode 0: wireframe
//mode 1: normal pegs
//mode 2: 2d projection.
void Mod_AddSingleSurface ( entity_t * ent , int surfaceidx , shader_t * shader , int mode )
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{
scenetris_t * t ;
vecV_t * posedata = NULL ;
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vec3_t * normdata = NULL , tmp ;
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int i , j ;
batch_t * batches [ SHADER_SORT_COUNT ] , * b ;
int s ;
mesh_t * m ;
unsigned int meshidx ;
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if ( ! ent - > model | | ent - > model - > loadstate ! = MLS_LOADED )
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return ;
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2020-08-13 08:39:48 +00:00
memset ( batches , 0 , sizeof ( batches ) ) ;
r_refdef . frustum_numplanes = 0 ;
switch ( ent - > model - > type )
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{
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case mod_alias :
R_GAlias_GenerateBatches ( ent , batches ) ;
break ;
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# ifdef HALFLIFEMODELS
case mod_halflife :
R_HalfLife_GenerateBatches ( ent , batches ) ;
break ;
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# endif
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default :
return ;
}
for ( s = 0 ; s < countof ( batches ) ; s + + )
{
if ( ! batches [ s ] )
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continue ;
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for ( b = batches [ s ] ; b ; b = b - > next )
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{
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if ( b - > buildmeshes )
b - > buildmeshes ( b ) ;
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for ( meshidx = b - > firstmesh ; meshidx < b - > meshes ; meshidx + + )
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{
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if ( surfaceidx < 0 )
{ //only draw meshes that have an actual contents value (collision data)
//FIXME: implement.
}
else
{ //only draw the mesh that's actually selected.
if ( b - > user . alias . surfrefs [ meshidx ] ! = surfaceidx )
continue ;
}
2019-02-16 19:09:07 +00:00
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m = b - > mesh [ meshidx ] ;
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if ( mode = = 2 & & m - > st_array )
{ //2d wireframe (using texture coords instead of modelspace)
if ( cl_numstris = = cl_maxstris )
{
cl_maxstris + = 8 ;
cl_stris = BZ_Realloc ( cl_stris , sizeof ( * cl_stris ) * cl_maxstris ) ;
}
t = & cl_stris [ cl_numstris + + ] ;
t - > shader = shader ;
t - > flags = BEF_LINES ;
t - > firstidx = cl_numstrisidx ;
t - > firstvert = cl_numstrisvert ;
if ( t - > flags & BEF_LINES )
t - > numidx = m - > numindexes * 2 ;
else
t - > numidx = m - > numindexes ;
t - > numvert = m - > numvertexes ;
if ( cl_numstrisidx + t - > numidx > cl_maxstrisidx )
{
cl_maxstrisidx = cl_numstrisidx + t - > numidx ;
cl_strisidx = BZ_Realloc ( cl_strisidx , sizeof ( * cl_strisidx ) * cl_maxstrisidx ) ;
}
if ( cl_numstrisvert + m - > numvertexes > cl_maxstrisvert )
cl_stris_ExpandVerts ( cl_numstrisvert + m - > numvertexes ) ;
for ( i = 0 ; i < m - > numvertexes ; i + + )
{
VectorMA ( vec3_origin , m - > st_array [ i ] [ 0 ] , ent - > axis [ 0 ] , tmp ) ;
VectorMA ( tmp , m - > st_array [ i ] [ 1 ] , ent - > axis [ 1 ] , tmp ) ;
VectorMA ( tmp , 0 , ent - > axis [ 2 ] , tmp ) ;
VectorMA ( ent - > origin , ent - > scale , tmp , cl_strisvertv [ t - > firstvert + i ] ) ;
Vector2Set ( cl_strisvertt [ t - > firstvert + i ] , 0.5 , 0.5 ) ;
Vector4Set ( cl_strisvertc [ t - > firstvert + i ] , 1 , 1 , 1 , 0.1 ) ;
}
if ( t - > flags & BEF_LINES )
{
for ( i = 0 ; i < m - > numindexes ; i + = 3 )
{
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 0 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 1 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 1 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 2 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 2 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 0 ] ;
}
}
else
{
for ( i = 0 ; i < m - > numindexes ; i + + )
cl_strisidx [ cl_numstrisidx + i ] = m - > indexes [ i ] ;
cl_numstrisidx + = m - > numindexes ;
}
cl_numstrisvert + = m - > numvertexes ;
continue ;
}
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posedata = m - > xyz_array ;
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normdata = ( mode = = 1 ) ? m - > normals_array : NULL ;
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# ifdef SKELETALMODELS
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if ( m - > numbones )
{ //intended shader might have caused it to use skeletal stuff.
//we're too lame for that though.
posedata = alloca ( m - > numvertexes * sizeof ( vecV_t ) ) ;
if ( normdata )
{
normdata = alloca ( m - > numvertexes * sizeof ( vec3_t ) ) ;
Alias_TransformVerticies_VN ( m - > bones , m - > numvertexes , m - > bonenums [ 0 ] , m - > boneweights [ 0 ] , m - > xyz_array [ 0 ] , posedata [ 0 ] , m - > normals_array [ 0 ] , normdata [ 0 ] ) ;
}
else
Alias_TransformVerticies_V ( m - > bones , m - > numvertexes , m - > bonenums [ 0 ] , m - > boneweights [ 0 ] , m - > xyz_array [ 0 ] , posedata [ 0 ] ) ;
}
else
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# endif
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{
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if ( m - > xyz_blendw [ 1 ] = = 1 & & m - > xyz2_array )
posedata = m - > xyz2_array ;
else if ( m - > xyz_blendw [ 0 ] ! = 1 & & m - > xyz2_array )
{
posedata = alloca ( m - > numvertexes * sizeof ( vecV_t ) ) ;
for ( i = 0 ; i < m - > numvertexes ; i + + )
{
for ( j = 0 ; j < 3 ; j + + )
posedata [ i ] [ j ] = m - > xyz_array [ i ] [ j ] * m - > xyz_blendw [ 0 ] +
m - > xyz2_array [ i ] [ j ] * m - > xyz_blendw [ 1 ] ;
}
}
else
posedata = m - > xyz_array ;
}
if ( normdata )
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{ //show small pegs at each vertex
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if ( cl_numstris = = cl_maxstris )
{
cl_maxstris + = 8 ;
cl_stris = BZ_Realloc ( cl_stris , sizeof ( * cl_stris ) * cl_maxstris ) ;
}
t = & cl_stris [ cl_numstris + + ] ;
t - > shader = shader ;
t - > flags = BEF_LINES ;
t - > firstidx = cl_numstrisidx ;
t - > firstvert = cl_numstrisvert ;
t - > numidx = t - > numvert = m - > numvertexes * 2 ;
if ( cl_numstrisidx + t - > numidx > cl_maxstrisidx )
{
cl_maxstrisidx = cl_numstrisidx + t - > numidx ;
cl_strisidx = BZ_Realloc ( cl_strisidx , sizeof ( * cl_strisidx ) * cl_maxstrisidx ) ;
}
if ( cl_numstrisvert + t - > numvert > cl_maxstrisvert )
cl_stris_ExpandVerts ( cl_numstrisvert + t - > numvert ) ;
for ( i = 0 ; i < m - > numvertexes ; i + + )
{
VectorMA ( vec3_origin , posedata [ i ] [ 0 ] , ent - > axis [ 0 ] , tmp ) ;
VectorMA ( tmp , posedata [ i ] [ 1 ] , ent - > axis [ 1 ] , tmp ) ;
VectorMA ( tmp , posedata [ i ] [ 2 ] , ent - > axis [ 2 ] , tmp ) ;
VectorMA ( ent - > origin , ent - > scale , tmp , cl_strisvertv [ t - > firstvert + i * 2 + 0 ] ) ;
VectorMA ( tmp , normdata [ i ] [ 0 ] , ent - > axis [ 0 ] , tmp ) ;
VectorMA ( tmp , normdata [ i ] [ 1 ] , ent - > axis [ 1 ] , tmp ) ;
VectorMA ( tmp , normdata [ i ] [ 2 ] , ent - > axis [ 2 ] , tmp ) ;
VectorMA ( ent - > origin , ent - > scale , tmp , cl_strisvertv [ t - > firstvert + i * 2 + 1 ] ) ;
Vector2Set ( cl_strisvertt [ t - > firstvert + i * 2 + 0 ] , 0.0 , 0.0 ) ;
Vector2Set ( cl_strisvertt [ t - > firstvert + i * 2 + 1 ] , 1.0 , 1.0 ) ;
Vector4Set ( cl_strisvertc [ t - > firstvert + i * 2 + 0 ] , 0 , 0 , 1 , 1 ) ;
Vector4Set ( cl_strisvertc [ t - > firstvert + i * 2 + 1 ] , 0 , 0 , 1 , 1 ) ;
cl_strisidx [ cl_numstrisidx + i * 2 + 0 ] = i * 2 + 0 ;
cl_strisidx [ cl_numstrisidx + i * 2 + 1 ] = i * 2 + 1 ;
}
cl_numstrisidx + = i * 2 ;
cl_numstrisvert + = i * 2 ;
}
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else if ( mode = = 0 )
{ //regular wireframe
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if ( cl_numstris = = cl_maxstris )
{
cl_maxstris + = 8 ;
cl_stris = BZ_Realloc ( cl_stris , sizeof ( * cl_stris ) * cl_maxstris ) ;
}
t = & cl_stris [ cl_numstris + + ] ;
t - > shader = shader ;
t - > flags = 0 ; //BEF_LINES;
t - > firstidx = cl_numstrisidx ;
t - > firstvert = cl_numstrisvert ;
if ( t - > flags & BEF_LINES )
t - > numidx = m - > numindexes * 2 ;
else
t - > numidx = m - > numindexes ;
t - > numvert = m - > numvertexes ;
if ( cl_numstrisidx + t - > numidx > cl_maxstrisidx )
{
cl_maxstrisidx = cl_numstrisidx + t - > numidx ;
cl_strisidx = BZ_Realloc ( cl_strisidx , sizeof ( * cl_strisidx ) * cl_maxstrisidx ) ;
}
if ( cl_numstrisvert + m - > numvertexes > cl_maxstrisvert )
cl_stris_ExpandVerts ( cl_numstrisvert + m - > numvertexes ) ;
for ( i = 0 ; i < m - > numvertexes ; i + + )
{
VectorMA ( vec3_origin , posedata [ i ] [ 0 ] , ent - > axis [ 0 ] , tmp ) ;
VectorMA ( tmp , posedata [ i ] [ 1 ] , ent - > axis [ 1 ] , tmp ) ;
VectorMA ( tmp , posedata [ i ] [ 2 ] , ent - > axis [ 2 ] , tmp ) ;
VectorMA ( ent - > origin , ent - > scale , tmp , cl_strisvertv [ t - > firstvert + i ] ) ;
Vector2Set ( cl_strisvertt [ t - > firstvert + i ] , 0.5 , 0.5 ) ;
Vector4Set ( cl_strisvertc [ t - > firstvert + i ] , 1 , 1 , 1 , 0.1 ) ;
}
if ( t - > flags & BEF_LINES )
{
for ( i = 0 ; i < m - > numindexes ; i + = 3 )
{
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 0 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 1 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 1 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 2 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 2 ] ;
cl_strisidx [ cl_numstrisidx + + ] = m - > indexes [ i + 0 ] ;
}
}
else
{
for ( i = 0 ; i < m - > numindexes ; i + + )
cl_strisidx [ cl_numstrisidx + i ] = m - > indexes [ i ] ;
cl_numstrisidx + = m - > numindexes ;
}
cl_numstrisvert + = m - > numvertexes ;
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}
}
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}
}
}
# endif
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static float PlaneNearest ( const vec3_t normal , const vec3_t mins , const vec3_t maxs )
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{
float result ;
#if 0
result = fabs ( normal [ 0 ] * maxs [ 0 ] ) ;
result + = fabs ( normal [ 1 ] * maxs [ 1 ] ) ;
result + = fabs ( normal [ 2 ] * maxs [ 2 ] ) ;
# elif 0
result = normal [ 0 ] * ( ( normal [ 0 ] > 0 ) ? - 16 : 16 ) ;
result + = normal [ 1 ] * ( ( normal [ 1 ] > 0 ) ? - 16 : 16 ) ;
result + = normal [ 2 ] * ( ( normal [ 2 ] > 0 ) ? - 24 : 32 ) ;
# else
result = normal [ 0 ] * ( ( normal [ 0 ] > 0 ) ? mins [ 0 ] : maxs [ 0 ] ) ;
result + = normal [ 1 ] * ( ( normal [ 1 ] > 0 ) ? mins [ 1 ] : maxs [ 1 ] ) ;
result + = normal [ 2 ] * ( ( normal [ 2 ] > 0 ) ? mins [ 2 ] : maxs [ 2 ] ) ;
# endif
return result ;
}
void CLQ1_DrawLine ( shader_t * shader , vec3_t v1 , vec3_t v2 , float r , float g , float b , float a ) ;
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static qboolean Mod_Trace_Trisoup ( vecV_t * posedata , index_t * indexes , int numindexes , const vec3_t start , const vec3_t end , const vec3_t mins , const vec3_t maxs , trace_t * fte_restrict trace )
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{
qboolean impacted = false ;
int i , j ;
float * p1 , * p2 , * p3 ;
vec3_t edge1 , edge2 , edge3 ;
vec3_t normal ;
vec3_t edgenormal ;
float planedist ;
float diststart , distend ;
float mn , mx ;
float extend ;
float frac ;
vec3_t impactpoint ;
for ( i = 0 ; i < numindexes ; i + = 3 )
{
p1 = posedata [ indexes [ i + 0 ] ] ;
p2 = posedata [ indexes [ i + 1 ] ] ;
p3 = posedata [ indexes [ i + 2 ] ] ;
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#if 0
{
shader_t * lineshader = R_RegisterShader ( " lineshader " , SUF_NONE ,
" { \n "
" polygonoffset \n "
" { \n "
" map $whiteimage \n "
" blendfunc add \n "
" rgbgen vertex \n "
" alphagen vertex \n "
" } \n "
" } \n " ) ;
VectorAdd ( p1 , r_refdef . pvsorigin , edge1 ) ;
VectorAdd ( p2 , r_refdef . pvsorigin , edge2 ) ;
VectorAdd ( p3 , r_refdef . pvsorigin , edge3 ) ;
CLQ1_DrawLine ( lineshader , edge1 , edge2 , 0 , 1 , 0 , 1 ) ;
CLQ1_DrawLine ( lineshader , edge2 , edge3 , 0 , 1 , 0 , 1 ) ;
CLQ1_DrawLine ( lineshader , edge3 , edge1 , 0 , 1 , 0 , 1 ) ;
}
# endif
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VectorSubtract ( p1 , p2 , edge1 ) ;
VectorSubtract ( p3 , p2 , edge2 ) ;
CrossProduct ( edge1 , edge2 , normal ) ;
VectorNormalize ( normal ) ;
//degenerate triangle
if ( ! normal [ 0 ] & & ! normal [ 1 ] & & ! normal [ 2 ] )
continue ;
//debugging
// if (normal[2] != 1)
// continue;
# define DIST_EPSILON (0.03125)
# define DIST_SOLID (3 / 8.0) //the plane must be at least this thick, or player prediction will try jittering through it to correct the player's origin
extend = PlaneNearest ( normal , mins , maxs ) ;
planedist = DotProduct ( p1 , normal ) - extend ;
diststart = DotProduct ( start , normal ) ;
if ( diststart /*+extend+DIST_SOLID*/ < planedist )
continue ; //start on back side (or slightly inside).
distend = DotProduct ( end , normal ) ;
if ( distend > planedist )
continue ; //end on front side.
//figure out the precise frac
if ( diststart > planedist )
{
//if we're not stuck inside it
if ( distend > = diststart )
continue ; //trace moves away from or along the surface. don't block the trace if we're sliding along the front of it.
}
frac = ( diststart - planedist ) / ( diststart - distend ) ;
if ( frac > = trace - > truefraction ) //already found one closer.
continue ;
//an impact outside of the surface's bounding box (expanded by the trace bbox) is not a valid impact.
//this solves extrusion issues.
for ( j = 0 ; j < 3 ; j + + )
{
impactpoint [ j ] = start [ j ] + frac * ( end [ j ] - start [ j ] ) ;
//make sure the impact point is within the triangle's bbox.
//primarily, this serves to prevent the edge extruding off to infinity or so
mx = mn = p1 [ j ] ;
if ( mn > p2 [ j ] )
mn = p2 [ j ] ;
if ( mx < p2 [ j ] )
mx = p2 [ j ] ;
if ( mn > p3 [ j ] )
mn = p3 [ j ] ;
if ( mx < p3 [ j ] )
mx = p3 [ j ] ;
mx - = mins [ j ] - DIST_EPSILON ;
mn - = maxs [ j ] + DIST_EPSILON ;
if ( impactpoint [ j ] > mx )
break ;
if ( impactpoint [ j ] < mn )
break ;
}
if ( j < 3 )
continue ;
//make sure the impact point is actually within the triangle
CrossProduct ( edge1 , normal , edgenormal ) ;
VectorNormalize ( edgenormal ) ;
if ( DotProduct ( impactpoint , edgenormal ) > DotProduct ( p2 , edgenormal ) - PlaneNearest ( edgenormal , mins , maxs ) + DIST_EPSILON )
continue ;
CrossProduct ( normal , edge2 , edgenormal ) ;
VectorNormalize ( edgenormal ) ;
if ( DotProduct ( impactpoint , edgenormal ) > DotProduct ( p3 , edgenormal ) - PlaneNearest ( edgenormal , mins , maxs ) + DIST_EPSILON )
continue ;
VectorSubtract ( p1 , p3 , edge3 ) ;
CrossProduct ( normal , edge3 , edgenormal ) ;
VectorNormalize ( edgenormal ) ;
if ( DotProduct ( impactpoint , edgenormal ) > DotProduct ( p1 , edgenormal ) - PlaneNearest ( edgenormal , mins , maxs ) + DIST_EPSILON )
continue ;
//okay, its a valid impact
trace - > truefraction = frac ;
//move back from the impact point. this should keep the point slightly outside of the solid triangle.
frac = ( diststart - ( planedist + DIST_EPSILON ) ) / ( diststart - distend ) ;
if ( frac < 0 )
{ //we're inside, apparently
trace - > startsolid = trace - > allsolid = ( diststart < planedist ) ;
trace - > fraction = 0 ;
VectorCopy ( start , trace - > endpos ) ;
}
else
{
//we made progress
trace - > fraction = frac ;
trace - > endpos [ 0 ] = start [ 0 ] + frac * ( end [ 0 ] - start [ 0 ] ) ;
trace - > endpos [ 1 ] = start [ 1 ] + frac * ( end [ 1 ] - start [ 1 ] ) ;
trace - > endpos [ 2 ] = start [ 2 ] + frac * ( end [ 2 ] - start [ 2 ] ) ;
}
VectorCopy ( normal , trace - > plane . normal ) ;
trace - > plane . dist = planedist ;
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trace - > triangle_id = 1 + i / 3 ;
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impacted = true ;
// if (fabs(normal[0]) != 1 && fabs(normal[1]) != 1 && fabs(normal[2]) != 1)
// Con_Printf("Non-axial impact\n");
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#if 0
{
shader_t * lineshader = R_RegisterShader ( " lineshader " , SUF_NONE ,
" { \n "
" polygonoffset \n "
" { \n "
" map $whiteimage \n "
" blendfunc add \n "
" rgbgen vertex \n "
" alphagen vertex \n "
" } \n "
" } \n " ) ;
VectorAdd ( p1 , r_refdef . pvsorigin , edge1 ) ;
VectorAdd ( p2 , r_refdef . pvsorigin , edge2 ) ;
VectorAdd ( p3 , r_refdef . pvsorigin , edge3 ) ;
CLQ1_DrawLine ( lineshader , edge1 , edge2 , 0 , 1 , 0 , 1 ) ;
CLQ1_DrawLine ( lineshader , edge2 , edge3 , 0 , 1 , 0 , 1 ) ;
CLQ1_DrawLine ( lineshader , edge3 , edge1 , 0 , 1 , 0 , 1 ) ;
}
# endif
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}
return impacted ;
}
//The whole reason why model loading is supported in the server.
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static qboolean Mod_Trace ( model_t * model , int forcehullnum , const framestate_t * framestate , const vec3_t axis [ 3 ] , const vec3_t start , const vec3_t end , const vec3_t mins , const vec3_t maxs , qboolean capsule , unsigned int contentsmask , trace_t * trace )
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{
galiasinfo_t * mod = Mod_Extradata ( model ) ;
// float temp;
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vecV_t * posedata = NULL ;
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index_t * indexes ;
int surfnum = 0 ;
# ifdef SKELETALMODELS
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int cursurfnum = - 1 , curbonesurf = - 1 ;
float buffer [ MAX_BONES * 12 ] ;
float bufferalt [ MAX_BONES * 12 ] ;
const float * bonepose = NULL ;
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# endif
vec3_t start_l , end_l ;
if ( axis )
{
start_l [ 0 ] = DotProduct ( start , axis [ 0 ] ) ;
start_l [ 1 ] = DotProduct ( start , axis [ 1 ] ) ;
start_l [ 2 ] = DotProduct ( start , axis [ 2 ] ) ;
end_l [ 0 ] = DotProduct ( end , axis [ 0 ] ) ;
end_l [ 1 ] = DotProduct ( end , axis [ 1 ] ) ;
end_l [ 2 ] = DotProduct ( end , axis [ 2 ] ) ;
}
else
{
VectorCopy ( start , start_l ) ;
VectorCopy ( end , end_l ) ;
}
trace - > fraction = trace - > truefraction = 1 ;
for ( ; mod ; mod = mod - > nextsurf , surfnum + + )
{
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if ( ! ( mod - > contents & contentsmask ) )
continue ; //this mesh isn't solid to the trace
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indexes = mod - > ofs_indexes ;
# ifdef SKELETALMODELS
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if ( mod - > ofs_skel_xyz )
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{
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if ( ! mod - > ofs_skel_idx | | ! framestate | | ! mod - > numbones )
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posedata = mod - > ofs_skel_xyz ; //if there's no weights, don't try animating anything.
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else if ( mod - > shares_verts ! = cursurfnum | | ! posedata )
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{
cursurfnum = mod - > shares_verts ;
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if ( curbonesurf ! = mod - > shares_bones )
{
curbonesurf = mod - > shares_bones ;
bonepose = Alias_GetBoneInformation ( mod , framestate , SKEL_INVERSE_ABSOLUTE , buffer , bufferalt , MAX_BONES ) ;
}
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posedata = alloca ( mod - > numverts * sizeof ( vecV_t ) ) ;
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Alias_TransformVerticies_V ( bonepose , mod - > numverts , mod - > ofs_skel_idx [ 0 ] , mod - > ofs_skel_weight [ 0 ] , mod - > ofs_skel_xyz [ 0 ] , posedata [ 0 ] ) ;
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}
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//else posedata = posedata;
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}
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else
# endif
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# ifndef NONSKELETALMODELS
continue ;
# else
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if ( ! mod - > numanimations )
continue ;
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else
{
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galiaspose_t * pose ;
galiasanimation_t * group = mod - > ofsanimations ;
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if ( framestate )
group + = framestate - > g [ FS_REG ] . frame [ 0 ] % mod - > numanimations ;
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//FIXME: no support for frame blending.
if ( ! group - > numposes )
continue ;
pose = group - > poseofs ;
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if ( ! pose )
continue ; //error...
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if ( framestate )
pose + = ( int ) ( framestate - > g [ FS_REG ] . frametime [ 0 ] * group - > rate ) % group - > numposes ;
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posedata = pose - > ofsverts ;
}
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# endif
2016-07-12 00:40:13 +00:00
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if ( Mod_Trace_Trisoup ( posedata , indexes , mod - > numindexes , start_l , end_l , mins , maxs , trace ) )
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{
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trace - > contents = mod - > contents ;
trace - > surface = & mod - > csurface ;
trace - > surface_id = mod - > surfaceid ;
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trace - > bone_id = 0 ;
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# ifdef SKELETALMODELS
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if ( mod - > ofs_skel_weight )
{ //fixme: would be better to consider the distance to the vertex too. cartesian coord stuff etc.
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unsigned int v , w , i ;
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float bw = 0 ;
for ( i = 0 ; i < 3 ; i + + )
{
for ( v = indexes [ ( trace - > triangle_id - 1 ) * 3 + i ] , w = 0 ; w < 4 ; w + + )
{
if ( bw < mod - > ofs_skel_weight [ v ] [ w ] )
{
bw = mod - > ofs_skel_weight [ v ] [ w ] ;
trace - > bone_id = 1 + mod - > ofs_skel_idx [ v ] [ w ] ;
}
}
}
}
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# endif
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if ( axis )
{
vec3_t iaxis [ 3 ] ;
vec3_t norm ;
2020-01-13 07:03:28 +00:00
Matrix3x3_RM_Invert_Simple ( ( const void * ) axis , iaxis ) ;
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VectorCopy ( trace - > plane . normal , norm ) ;
trace - > plane . normal [ 0 ] = DotProduct ( norm , iaxis [ 0 ] ) ;
trace - > plane . normal [ 1 ] = DotProduct ( norm , iaxis [ 1 ] ) ;
trace - > plane . normal [ 2 ] = DotProduct ( norm , iaxis [ 2 ] ) ;
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// frac = traceinfo.truefraction;
/*
diststart = DotProduct ( traceinfo . start , trace - > plane . normal ) ;
distend = DotProduct ( traceinfo . end , trace - > plane . normal ) ;
if ( diststart = = distend )
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frac = 0 ;
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else
{
frac = ( diststart - trace - > plane . dist ) / ( diststart - distend ) ;
if ( frac < 0 )
frac = 0 ;
else if ( frac > 1 )
frac = 1 ;
} */
/*okay, this is where it hits this plane*/
trace - > endpos [ 0 ] = start [ 0 ] + trace - > fraction * ( end [ 0 ] - start [ 0 ] ) ;
trace - > endpos [ 1 ] = start [ 1 ] + trace - > fraction * ( end [ 1 ] - start [ 1 ] ) ;
trace - > endpos [ 2 ] = start [ 2 ] + trace - > fraction * ( end [ 2 ] - start [ 2 ] ) ;
}
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}
}
trace - > allsolid = false ;
return trace - > fraction ! = 1 ;
}
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static unsigned int Mod_Mesh_PointContents ( struct model_s * model , const vec3_t axis [ 3 ] , const vec3_t p )
{ //trisoup doesn't have any actual volumes, thus we can't report anything...
return 0 ;
}
static int Mod_Mesh_ClusterForPoint ( struct model_s * model , const vec3_t point , int * areaout )
{ //trisoup doesn't have any actual pvs, thus we can't report anything...
if ( areaout )
* areaout = 0 ;
return - 1 ;
}
static qbyte * Mod_Mesh_ClusterPVS ( struct model_s * model , int cluster , pvsbuffer_t * pvsbuffer , pvsmerge_t merge )
{ //trisoup doesn't have any actual pvs, thus we can't report anything...
return NULL ;
}
static unsigned int Mod_Mesh_FatPVS ( struct model_s * model , const vec3_t org , pvsbuffer_t * pvsbuffer , qboolean merge )
{ //trisoup doesn't have any actual pvs, thus we can't report anything...
return 0 ;
}
qboolean Mod_Mesh_EdictInFatPVS ( struct model_s * model , const struct pvscache_s * edict , const qbyte * pvs , const int * areas )
{ //trisoup doesn't have any actual pvs, thus we always report visible
return true ;
}
void Mod_Mesh_FindTouchedLeafs ( struct model_s * model , struct pvscache_s * ent , const vec3_t cullmins , const vec3_t cullmaxs )
{
}
static void Mod_Mesh_LightPointValues ( struct model_s * model , const vec3_t point , vec3_t res_diffuse , vec3_t res_ambient , vec3_t res_dir )
{ //trisoup doesn't have any actual pvs, thus we can't report anything...
VectorSet ( res_diffuse , 255 , 255 , 255 ) ;
VectorSet ( res_ambient , 128 , 128 , 128 ) ;
VectorSet ( res_dir , 0 , 0 , 1 ) ;
}
static void Mod_SetMeshModelFuncs ( model_t * mod , qboolean isstatic )
{
if ( ! isstatic )
{
mod - > funcs . NativeTrace = Mod_Trace ;
return ;
}
// void (*PurgeModel) (struct model_s *mod);
mod - > funcs . PointContents = Mod_Mesh_PointContents ;
// unsigned int (*BoxContents) (struct model_s *model, int hulloverride, const framestate_t *framestate, const vec3_t axis[3], const vec3_t p, const vec3_t mins, const vec3_t maxs);
//deals with whatever is native for the bsp (gamecode is expected to distinguish this).
mod - > funcs . NativeTrace = Mod_Trace ;
// unsigned int (*NativeContents)(struct model_s *model, int hulloverride, const framestate_t *framestate, const vec3_t axis[3], const vec3_t p, const vec3_t mins, const vec3_t maxs);
mod - > funcs . FatPVS = Mod_Mesh_FatPVS ;
mod - > funcs . EdictInFatPVS = Mod_Mesh_EdictInFatPVS ;
mod - > funcs . FindTouchedLeafs = Mod_Mesh_FindTouchedLeafs ;
mod - > funcs . LightPointValues = Mod_Mesh_LightPointValues ;
// void (*StainNode) (struct mnode_s *node, float *parms);
// void (*MarkLights) (struct dlight_s *light, dlightbitmask_t bit, struct mnode_s *node);
mod - > funcs . ClusterForPoint = Mod_Mesh_ClusterForPoint ;
mod - > funcs . ClusterPVS = Mod_Mesh_ClusterPVS ;
// qbyte *(*ClustersInSphere) (struct model_s *model, const vec3_t point, float radius, pvsbuffer_t *pvsbuffer, const qbyte *fte_restrict unionwith);
BIH_BuildAlias ( mod , mod - > meshinfo ) ;
}
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static void Mod_ClampModelSize ( model_t * mod )
{
# ifndef SERVERONLY
int i ;
float rad = 0 , axis ;
axis = ( mod - > maxs [ 0 ] - mod - > mins [ 0 ] ) ;
rad + = axis * axis ;
axis = ( mod - > maxs [ 1 ] - mod - > mins [ 1 ] ) ;
rad + = axis * axis ;
axis = ( mod - > maxs [ 2 ] - mod - > mins [ 2 ] ) ;
rad + = axis * axis ;
mod - > tainted = false ;
if ( mod - > engineflags & MDLF_DOCRC )
{
if ( ! strcmp ( mod - > name , " progs/eyes.mdl " ) )
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{ //this is checked elsewhere to make sure the crc matches (this is to make sure the crc check was actually called)
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if ( mod - > type ! = mod_alias | | mod - > fromgame ! = fg_quake | | mod - > flags )
mod - > tainted = true ;
}
}
mod - > clampscale = 1 ;
for ( i = 0 ; i < sizeof ( clampedmodel ) / sizeof ( clampedmodel [ 0 ] ) ; i + + )
{
if ( ! strcmp ( mod - > name , clampedmodel [ i ] . name ) )
{
if ( rad > clampedmodel [ i ] . furthestallowedextremety )
{
axis = clampedmodel [ i ] . furthestallowedextremety ;
mod - > clampscale = axis / rad ;
Con_DPrintf ( " \" %s \" will be clamped. \n " , mod - > name ) ;
}
return ;
}
}
// Con_DPrintf("Don't know what size to clamp \"%s\" to (size:%f).\n", mod->name, rad);
# endif
}
2018-10-13 06:20:49 +00:00
# ifdef NONSKELETALMODELS
2016-07-12 00:40:13 +00:00
# ifndef SERVERONLY
static int R_FindTriangleWithEdge ( index_t * indexes , int numtris , int start , int end , int ignore )
{
int i ;
int match , count ;
count = 0 ;
match = - 1 ;
for ( i = 0 ; i < numtris ; i + + , indexes + = 3 )
{
if ( ( indexes [ 0 ] = = start & & indexes [ 1 ] = = end )
| | ( indexes [ 1 ] = = start & & indexes [ 2 ] = = end )
| | ( indexes [ 2 ] = = start & & indexes [ 0 ] = = end ) ) {
if ( i ! = ignore )
match = i ;
count + + ;
} else if ( ( indexes [ 1 ] = = start & & indexes [ 0 ] = = end )
| | ( indexes [ 2 ] = = start & & indexes [ 1 ] = = end )
| | ( indexes [ 0 ] = = start & & indexes [ 2 ] = = end ) ) {
count + + ;
}
}
// detect edges shared by three triangles and make them seams
if ( count > 2 )
match = - 1 ;
return match ;
}
# endif
2018-10-11 10:31:23 +00:00
static void Mod_CompileTriangleNeighbours ( model_t * loadmodel , galiasinfo_t * galias )
2016-07-12 00:40:13 +00:00
{
# ifndef SERVERONLY
if ( Sh_StencilShadowsActive ( ) )
{
int i , * n ;
index_t * index ;
index_t * indexes = galias - > ofs_indexes ;
int numtris = galias - > numindexes / 3 ;
int * neighbours ;
neighbours = ZG_Malloc ( & loadmodel - > memgroup , sizeof ( int ) * numtris * 3 ) ;
galias - > ofs_trineighbours = neighbours ;
for ( i = 0 , index = indexes , n = neighbours ; i < numtris ; i + + , index + = 3 , n + = 3 )
{
n [ 0 ] = R_FindTriangleWithEdge ( indexes , numtris , index [ 1 ] , index [ 0 ] , i ) ;
n [ 1 ] = R_FindTriangleWithEdge ( indexes , numtris , index [ 2 ] , index [ 1 ] , i ) ;
n [ 2 ] = R_FindTriangleWithEdge ( indexes , numtris , index [ 0 ] , index [ 2 ] , i ) ;
}
}
# endif
}
2018-10-13 06:20:49 +00:00
# endif
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typedef struct
{
unsigned int firstpose ;
unsigned int posecount ;
float fps ;
qboolean loop ;
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int action ;
int actionweight ;
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char name [ MAX_QPATH ] ;
} frameinfo_t ;
static frameinfo_t * ParseFrameInfo ( char * modelname , int * numgroups )
{
int count = 0 ;
int maxcount = 0 ;
char * line , * eol ;
char * file ;
frameinfo_t * frames = NULL ;
char fname [ MAX_QPATH ] ;
char tok [ 64 ] ;
size_t fsize ;
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com_tokentype_t ttype ;
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Q_snprintfz ( fname , sizeof ( fname ) , " %s.framegroups " , modelname ) ;
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line = file = FS_LoadMallocFile ( fname , & fsize ) ;
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if ( ! file )
return NULL ;
while ( line & & * line )
{
eol = strchr ( line , ' \n ' ) ;
if ( eol )
* eol = 0 ;
if ( count = = maxcount )
{
maxcount + = 32 ;
frames = realloc ( frames , sizeof ( * frames ) * maxcount ) ;
}
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
frames [ count ] . firstpose = atoi ( tok ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
frames [ count ] . posecount = atoi ( tok ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
frames [ count ] . fps = atof ( tok ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
if ( ! strcmp ( tok , " true " ) | | ! strcmp ( tok , " yes " ) | | ! strcmp ( tok , " on " ) )
frames [ count ] . loop = true ;
else
frames [ count ] . loop = ! ! atoi ( tok ) ;
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frames [ count ] . action = - 1 ;
frames [ count ] . actionweight = 0 ;
Q_snprintfz ( frames [ count ] . name , sizeof ( frames [ count ] . name ) , " groupified_%d_anim " , count ) ; //to match DP. frameforname cares.
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line = COM_ParseType ( line , tok , sizeof ( tok ) , & ttype ) ;
if ( ttype ! = TTP_EOF )
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{
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Q_strncpyz ( frames [ count ] . name , tok , sizeof ( frames [ count ] . name ) ) ;
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line = COM_ParseType ( line , tok , sizeof ( tok ) , & ttype ) ;
}
if ( ttype ! = TTP_EOF )
{
frames [ count ] . action = atoi ( tok ) ;
line = COM_ParseType ( line , tok , sizeof ( tok ) , & ttype ) ;
}
if ( ttype ! = TTP_EOF )
frames [ count ] . actionweight = atoi ( tok ) ;
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if ( frames [ count ] . posecount > 0 & & frames [ count ] . fps )
count + + ;
if ( eol )
line = eol + 1 ;
else
break ;
}
BZ_Free ( file ) ;
* numgroups = count ;
return frames ;
}
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//parses a foo.mdl.events file and inserts the events into the relevant animations
static void Mod_InsertEvent ( zonegroup_t * mem , galiasanimation_t * anims , unsigned int numanimations , unsigned int eventanimation , float eventpose , int eventcode , const char * eventdata )
{
galiasevent_t * ev , * * link ;
if ( eventanimation > = numanimations )
{
Con_Printf ( " Mod_InsertEvent: invalid frame index \n " ) ;
return ;
}
ev = ZG_Malloc ( mem , sizeof ( * ev ) + strlen ( eventdata ) + 1 ) ;
ev - > data = ( char * ) ( ev + 1 ) ;
ev - > timestamp = eventpose ;
ev - > timestamp / = anims [ eventanimation ] . rate ;
ev - > code = eventcode ;
strcpy ( ev - > data , eventdata ) ;
link = & anims [ eventanimation ] . events ;
while ( * link & & ( * link ) - > timestamp < = ev - > timestamp )
link = & ( * link ) - > next ;
ev - > next = * link ;
* link = ev ;
}
static qboolean Mod_ParseModelEvents ( model_t * mod , galiasanimation_t * anims , unsigned int numanimations )
{
unsigned int anim ;
float pose ;
int eventcode ;
const char * modelname = mod - > name ;
zonegroup_t * mem = & mod - > memgroup ;
char fname [ MAX_QPATH ] , tok [ 2048 ] ;
size_t fsize ;
char * line , * file , * eol ;
Q_snprintfz ( fname , sizeof ( fname ) , " %s.events " , modelname ) ;
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line = file = FS_LoadMallocFile ( fname , & fsize ) ;
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if ( ! file )
return false ;
while ( line & & * line )
{
eol = strchr ( line , ' \n ' ) ;
if ( eol )
* eol = 0 ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
anim = strtoul ( tok , NULL , 0 ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
pose = strtod ( tok , NULL ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
eventcode = ( long ) strtol ( tok , NULL , 0 ) ;
line = COM_ParseOut ( line , tok , sizeof ( tok ) ) ;
Mod_InsertEvent ( mem , anims , numanimations , anim , pose , eventcode , tok ) ;
if ( eol )
line = eol + 1 ;
else
break ;
}
BZ_Free ( file ) ;
return true ;
}
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static void Mod_DefaultMesh ( galiasinfo_t * galias , const char * name , unsigned int index )
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{
Q_strncpyz ( galias - > surfacename , name , sizeof ( galias - > surfacename ) ) ;
Q_strncpyz ( galias - > csurface . name , COM_SkipPath ( name ) , sizeof ( galias - > csurface . name ) ) ;
galias - > contents = FTECONTENTS_BODY ;
galias - > geomset = ~ 0 ; //invalid set = always visible
galias - > geomid = 0 ;
galias - > mindist = 0 ;
galias - > maxdist = 0 ;
galias - > surfaceid = index + 1 ;
}
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void Mod_DestroyMesh ( galiasinfo_t * galias )
{
# ifndef SERVERONLY
if ( ! qrenderer | | ! BE_VBO_Destroy )
return ;
while ( galias )
{
BE_VBO_Destroy ( & galias - > vbotexcoords , galias - > vbomem ) ;
BE_VBO_Destroy ( & galias - > vboindicies , galias - > ebomem ) ;
galias = galias - > nextsurf ;
}
# endif
}
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# ifndef SERVERONLY
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static void Mod_GenerateMeshVBO ( model_t * mod , galiasinfo_t * galias )
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//vec3_t *vc, vec2_t *tc, vec3_t *nv, vec3_t *sv, vec3_t *tv, index_t *idx, int numidx, int numverts)
{
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# ifdef NONSKELETALMODELS
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int i , p ;
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galiasanimation_t * group = galias - > ofsanimations ;
# endif
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int vbospace = 0 ;
vbobctx_t vboctx ;
//don't fail on dedicated servers
if ( ! BE_VBO_Begin | | ! galias - > numverts )
return ;
//determine the amount of space we need for our vbos.
if ( galias - > ofs_st_array )
vbospace + = sizeof ( * galias - > ofs_st_array ) * galias - > numverts ;
if ( galias - > ofs_rgbaf )
vbospace + = sizeof ( * galias - > ofs_rgbaf ) * galias - > numverts ;
else if ( galias - > ofs_rgbaub )
vbospace + = sizeof ( * galias - > ofs_rgbaub ) * galias - > numverts ;
# ifdef SKELETALMODELS
if ( galias - > ofs_skel_xyz )
vbospace + = sizeof ( * galias - > ofs_skel_xyz ) * galias - > numverts ;
if ( galias - > ofs_skel_norm )
vbospace + = sizeof ( * galias - > ofs_skel_norm ) * galias - > numverts ;
if ( galias - > ofs_skel_svect )
vbospace + = sizeof ( * galias - > ofs_skel_svect ) * galias - > numverts ;
if ( galias - > ofs_skel_tvect )
vbospace + = sizeof ( * galias - > ofs_skel_tvect ) * galias - > numverts ;
if ( galias - > ofs_skel_idx )
vbospace + = sizeof ( * galias - > ofs_skel_idx ) * galias - > numverts ;
if ( galias - > ofs_skel_weight )
vbospace + = sizeof ( * galias - > ofs_skel_weight ) * galias - > numverts ;
# endif
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# ifdef NONSKELETALMODELS
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for ( i = 0 ; i < galias - > numanimations ; i + + )
{
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if ( group [ i ] . poseofs )
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vbospace + = group [ i ] . numposes * galias - > numverts * ( sizeof ( vecV_t ) + sizeof ( vec3_t ) * 3 ) ;
}
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# endif
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BE_VBO_Begin ( & vboctx , vbospace ) ;
if ( galias - > ofs_st_array )
BE_VBO_Data ( & vboctx , galias - > ofs_st_array , sizeof ( * galias - > ofs_st_array ) * galias - > numverts , & galias - > vbotexcoords ) ;
if ( galias - > ofs_rgbaf )
BE_VBO_Data ( & vboctx , galias - > ofs_rgbaf , sizeof ( * galias - > ofs_rgbaf ) * galias - > numverts , & galias - > vborgba ) ;
else if ( galias - > ofs_rgbaub )
BE_VBO_Data ( & vboctx , galias - > ofs_rgbaub , sizeof ( * galias - > ofs_rgbaub ) * galias - > numverts , & galias - > vborgba ) ;
# ifdef SKELETALMODELS
if ( galias - > ofs_skel_xyz )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_xyz , sizeof ( * galias - > ofs_skel_xyz ) * galias - > numverts , & galias - > vbo_skel_verts ) ;
if ( galias - > ofs_skel_norm )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_norm , sizeof ( * galias - > ofs_skel_norm ) * galias - > numverts , & galias - > vbo_skel_normals ) ;
if ( galias - > ofs_skel_svect )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_svect , sizeof ( * galias - > ofs_skel_svect ) * galias - > numverts , & galias - > vbo_skel_svector ) ;
if ( galias - > ofs_skel_tvect )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_tvect , sizeof ( * galias - > ofs_skel_tvect ) * galias - > numverts , & galias - > vbo_skel_tvector ) ;
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if ( ! galias - > mappedbones & & galias - > numbones > sh_config . max_gpu_bones & & galias - > ofs_skel_idx & & sh_config . max_gpu_bones )
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{ //if we're using gpu bones, then its possible that we're trying to load a model with more bones than the gpu supports
//to work around this (and get performance back), each surface has a gpu->cpu table so that bones not used on a mesh don't cause it to need to use a software fallback
qboolean * seen = alloca ( sizeof ( * seen ) * galias - > numbones ) ;
int j , k ;
memset ( seen , 0 , sizeof ( * seen ) * galias - > numbones ) ;
for ( j = 0 ; j < galias - > numverts ; j + + )
for ( k = 0 ; k < 4 ; k + + )
{
if ( galias - > ofs_skel_weight [ j ] [ k ] )
seen [ galias - > ofs_skel_idx [ j ] [ k ] ] = true ;
}
for ( j = 0 , k = 0 ; j < galias - > numbones ; j + + )
{
if ( seen [ j ] )
k + + ;
}
if ( k < sh_config . max_gpu_bones )
{ //okay, we can hardware accelerate that.
galias - > bonemap = ZG_Malloc ( & mod - > memgroup , sizeof ( * galias - > bonemap ) * sh_config . max_gpu_bones ) ;
galias - > mappedbones = 0 ;
for ( j = 0 ; j < galias - > numbones ; j + + )
{
if ( seen [ j ] )
galias - > bonemap [ galias - > mappedbones + + ] = j ;
}
}
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else
Con_DPrintf ( " \" %s \" : \" %s \" exceeds gpu bone limit and will be software-skinned - %i > %i \n " , mod - > name , galias - > surfacename , k , sh_config . max_gpu_bones ) ;
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}
if ( galias - > mappedbones )
{
boneidx_t * remaps = alloca ( sizeof ( * remaps ) * galias - > numbones ) ;
bone_vec4_t * bones = alloca ( sizeof ( * bones ) * galias - > numverts ) ;
int j , k ;
//our remap table is gpu->cpu, but we need cpu->gpu here
for ( j = 0 ; j < galias - > numbones ; j + + )
remaps [ j ] = 0 ; //errors.
for ( j = 0 ; j < galias - > mappedbones ; j + + )
remaps [ galias - > bonemap [ j ] ] = j ;
//now remap them all
for ( j = 0 ; j < galias - > numverts ; j + + )
for ( k = 0 ; k < 4 ; k + + )
bones [ j ] [ k ] = remaps [ galias - > ofs_skel_idx [ j ] [ k ] ] ;
//and we can upload
if ( galias - > ofs_skel_idx )
BE_VBO_Data ( & vboctx , bones , sizeof ( * bones ) * galias - > numverts , & galias - > vbo_skel_bonenum ) ;
if ( galias - > ofs_skel_weight )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_weight , sizeof ( * galias - > ofs_skel_weight ) * galias - > numverts , & galias - > vbo_skel_bweight ) ;
}
else
{
if ( galias - > ofs_skel_idx )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_idx , sizeof ( * galias - > ofs_skel_idx ) * galias - > numverts , & galias - > vbo_skel_bonenum ) ;
if ( galias - > ofs_skel_weight )
BE_VBO_Data ( & vboctx , galias - > ofs_skel_weight , sizeof ( * galias - > ofs_skel_weight ) * galias - > numverts , & galias - > vbo_skel_bweight ) ;
}
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# endif
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# ifdef NONSKELETALMODELS
for ( i = 0 ; i < galias - > numanimations ; i + + )
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{
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galiaspose_t * pose = group [ i ] . poseofs ;
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if ( pose )
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for ( p = 0 ; p < group [ i ] . numposes ; p + + , pose + + )
{
BE_VBO_Data ( & vboctx , pose - > ofsverts , sizeof ( * pose - > ofsverts ) * galias - > numverts , & pose - > vboverts ) ;
BE_VBO_Data ( & vboctx , pose - > ofsnormals , sizeof ( * pose - > ofsnormals ) * galias - > numverts , & pose - > vbonormals ) ;
if ( pose - > ofssvector )
BE_VBO_Data ( & vboctx , pose - > ofssvector , sizeof ( * pose - > ofssvector ) * galias - > numverts , & pose - > vbosvector ) ;
if ( pose - > ofstvector )
BE_VBO_Data ( & vboctx , pose - > ofstvector , sizeof ( * pose - > ofstvector ) * galias - > numverts , & pose - > vbotvector ) ;
}
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}
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# endif
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BE_VBO_Finish ( & vboctx , galias - > ofs_indexes , sizeof ( * galias - > ofs_indexes ) * galias - > numindexes , & galias - > vboindicies , & galias - > vbomem , & galias - > ebomem ) ;
}
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# endif
2016-07-12 00:40:13 +00:00
2017-02-19 00:15:42 +00:00
# ifdef NONSKELETALMODELS
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//called for non-skeletal model formats.
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static void Mod_BuildTextureVectors ( galiasinfo_t * galias )
2016-07-12 00:40:13 +00:00
//vec3_t *vc, vec2_t *tc, vec3_t *nv, vec3_t *sv, vec3_t *tv, index_t *idx, int numidx, int numverts)
{
# ifndef SERVERONLY
int i , p ;
galiasanimation_t * group ;
galiaspose_t * pose ;
vecV_t * vc ;
vec3_t * nv , * sv , * tv ;
vec2_t * tc ;
index_t * idx ;
//don't fail on dedicated servers
if ( ! qrenderer | | ! BE_VBO_Begin )
return ;
idx = galias - > ofs_indexes ;
tc = galias - > ofs_st_array ;
group = galias - > ofsanimations ;
for ( i = 0 ; i < galias - > numanimations ; i + + , group + + )
{
pose = group - > poseofs ;
for ( p = 0 ; p < group - > numposes ; p + + , pose + + )
{
vc = pose - > ofsverts ;
nv = pose - > ofsnormals ;
if ( pose - > ofssvector ! = 0 & & pose - > ofstvector ! = 0 )
{
sv = pose - > ofssvector ;
tv = pose - > ofstvector ;
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Mod_AccumulateTextureVectors ( vc , tc , nv , sv , tv , idx , galias - > numindexes , false ) ;
Mod_NormaliseTextureVectors ( nv , sv , tv , galias - > numverts , false ) ;
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}
}
}
# endif
}
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# endif
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# ifndef SERVERONLY
//looks for foo.md3_0.skin files, for dp compat
//also try foo_0.skin, because people appear to use that too. *sigh*.
2018-10-11 10:31:23 +00:00
static int Mod_CountSkinFiles ( model_t * mod )
2016-07-12 00:40:13 +00:00
{
int i ;
char skinfilename [ MAX_QPATH ] ;
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
2017-02-27 09:34:35 +00:00
char * modelname = mod - > name ;
2016-07-12 00:40:13 +00:00
//try and add numbered skins, and then try fixed names.
for ( i = 0 ; ; i + + )
{
Q_snprintfz ( skinfilename , sizeof ( skinfilename ) , " %s_%i.skin " , modelname , i ) ;
if ( ! COM_FCheckExists ( skinfilename ) )
{
COM_StripExtension ( modelname , skinfilename , sizeof ( skinfilename ) ) ;
Q_snprintfz ( skinfilename + strlen ( skinfilename ) , sizeof ( skinfilename ) - strlen ( skinfilename ) , " _%i.skin " , i ) ;
if ( ! COM_FCheckExists ( skinfilename ) )
break ;
}
}
return i ;
}
void Mod_LoadAliasShaders ( model_t * mod )
{
galiasinfo_t * ai = mod - > meshinfo ;
galiasskin_t * s ;
skinframe_t * f ;
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int i , j , k ;
int numskins ;
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unsigned int loadflags ;
unsigned int imageflags ;
char basename [ 32 ] ;
char alttexpath [ MAX_QPATH ] ;
uploadfmt_t skintranstype ;
char * slash ;
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# ifdef MD1MODELS
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# ifdef HEXEN2
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if ( mod - > flags & MFH2_TRANSPARENT )
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skintranstype = TF_H2_T7G1 ; //hexen2
else
# endif
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if ( mod - > flags & MFH2_HOLEY )
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{
//in hexen2, the official value is 0.
//hexen2's GL renderer ONLY also has a bug that ADDITIONALLY translates index 255. this is the 'normal' behaviour.
//quakespasm has a bug that translates ONLY 255 and ignores 0. massive fuckup, when index 0 is more commonly used (and is also a dupe anyway, with q1's palette).
skintranstype = mod_h2holey_bugged . ival ? TF_TRANS8 : TF_H2_TRANS8_0 ; //hexen2
}
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# ifdef HEXEN2
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else if ( mod - > flags & MFH2_SPECIAL_TRANS )
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skintranstype = TF_H2_T4A4 ; //hexen2
# endif
else
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# endif
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skintranstype = TF_SOLID8 ;
COM_FileBase ( mod - > name , basename , sizeof ( basename ) ) ;
imageflags = 0 ;
if ( mod - > engineflags & MDLF_NOTREPLACEMENTS )
{
ruleset_allow_sensitive_texture_replacements . flags | = CVAR_RENDERERLATCH ;
if ( ! ruleset_allow_sensitive_texture_replacements . ival )
imageflags | = IF_NOREPLACE ;
}
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# ifdef MD1MODELS
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if ( mod - > fromgame = = fg_quake & & mod_nomipmap . ival )
imageflags | = IF_NOMIPMAP ;
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# endif
2016-07-12 00:40:13 +00:00
slash = COM_SkipPath ( mod - > name ) ;
if ( slash ! = mod - > name & & slash - mod - > name < sizeof ( alttexpath ) )
{
slash - - ;
memcpy ( alttexpath , mod - > name , slash - mod - > name ) ;
Q_strncpyz ( alttexpath + ( slash - mod - > name ) , " :models " , sizeof ( alttexpath ) - ( slash - mod - > name ) ) ; //fuhquake compat
slash + + ;
}
else
{
slash = mod - > name ;
strcpy ( alttexpath , " models " ) ; //fuhquake compat
}
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for ( ai = mod - > meshinfo , numskins = 0 ; ai ; ai = ai - > nextsurf )
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{
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if ( numskins < ai - > numskins )
numskins = ai - > numskins ;
2019-03-12 05:04:27 +00:00
Mod_GenerateMeshVBO ( mod , ai ) ; //FIXME: shares verts
2017-11-14 14:37:04 +00:00
}
for ( i = 0 ; i < numskins ; i + + )
{
skinid_t skinid ;
skinfile_t * skinfile ;
char * filedata ;
char skinfilename [ MAX_QPATH ] ;
char * modelname = mod - > name ;
skinid = 0 ;
skinfile = NULL ;
if ( qrenderer ! = QR_NONE )
{
Q_snprintfz ( skinfilename , sizeof ( skinfilename ) , " %s_%i.skin " , modelname , i ) ;
filedata = FS_LoadMallocFile ( skinfilename , NULL ) ;
if ( ! filedata )
{
COM_StripExtension ( modelname , skinfilename , sizeof ( skinfilename ) ) ;
Q_snprintfz ( skinfilename + strlen ( skinfilename ) , sizeof ( skinfilename ) - strlen ( skinfilename ) , " _%i.skin " , i ) ;
filedata = FS_LoadMallocFile ( skinfilename , NULL ) ;
}
if ( filedata )
{
skinid = Mod_ReadSkinFile ( skinfilename , filedata ) ;
Z_Free ( filedata ) ;
skinfile = Mod_LookupSkin ( skinid ) ;
}
}
for ( ai = mod - > meshinfo ; ai ; ai = ai - > nextsurf )
2016-07-12 00:40:13 +00:00
{
2017-11-14 14:37:04 +00:00
if ( i > = ai - > numskins )
continue ;
s = ai - > ofsskins + i ;
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for ( j = 0 , f = s - > frame ; j < s - > numframes ; j + + , f + + )
{
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if ( j = = 0 & & skinfile )
{
//check if this skinfile has a mapping.
for ( k = 0 ; k < skinfile - > nummappings ; k + + )
{
if ( ! strcmp ( ai - > surfacename , skinfile - > mappings [ k ] . surface ) )
{
skinfile - > mappings [ k ] . shader - > uses + + ; //so it doesn't blow up when the skin gets freed.
f - > shader = skinfile - > mappings [ k ] . shader ;
f - > texnums = skinfile - > mappings [ k ] . texnums ;
skinfile - > mappings [ k ] . needsfree = 0 ; //don't free any composed texture. it'll live on as part of the model.
break ;
}
}
}
2016-07-12 00:40:13 +00:00
else
f - > shader = NULL ;
if ( ! f - > shader )
{
if ( ! f - > defaultshader )
2017-01-13 00:39:50 +00:00
{
Too many changes, sorry.
Change revision displays, use the SVN commit date instead of using __DATE__ (when there's no local changes). This should allow reproducible builds.
Added s_al_disable cvar, to block openal and all the various problems people have had with it, without having to name an explicit fallback (which would vary by system).
Add mastervolume cvar (for ss).
Add r_shadows 2 (aka fake shadows - for ss).
Add scr_loadingscreen_aspect -1 setting, to disable levelshots entirely, also disables the progress bar (for ss).
Better support for some effectinfo hacks (for ss).
Added dpcompat_nocsqcwarnings (because of lazy+buggy mods like ss).
Rework the dpcsqc versions of project+unproject builtins for better compat (for ss).
Added dpcompat_csqcinputeventtypes to block unexpected csqc input events (for ss).
Better compat with DP's loadfont console command (for ss).
Added dpcompat_smallerfonts cvar to replicate a DP bug (for ss).
Detect dp's m_draw extension, to work around it (for ss).
Cvar dpcompat_ignoremodificationtimes added. A value of 0 favour the most recently modified file, 1 will use DP-like alphabetically sorted preferences (for ss).
loadfont builtin can now accept outline=1 in the sizes arg for slightly more readable fonts.
Fix bbox calcs for rotated entities, fix needed for r_ignorenetpvs 0.
Hackily parse emoji.json to provide :poop: etc suggestions.
Skip prediction entirely when there's no local entity info. This fixes stair-smoothing in xonotic.
screenshot_cubemap will now capture half-float images when saving to ktx or dds files.
Fix support for xcf files larger than 4gb, mostly to avoid compiler warnings.
Fixed size of gfx/loading.lmp when replacement textures are used.
Added mipmap support for rg8 and l8a8 textures.
r_hdr_framebuffer cvar updated to support format names instead of random negative numbers. Description updated to name some interesting ones.
Perform autoupdate _checks_ ONLY with explicit user confirmation (actual updating already needed user confirmation, but this extra step should reduce the chances of us getting wrongly accused of exfiltrating user data if we're run in a sandbox - we ONLY ever included the updating engine's version in the checks, though there's nothing we can do to avoid sending the user's router's IP).
Removed the 'summon satan all over your harddrive' quit message, in case paranoid security researchers are idiots and don't bother doing actual research.
Removed the triptohell.info and fte.triptohell.info certificates, they really need to stop being self-signed. The updates domain is still self-signed for autoupdates.
Video drivers are now able to report supported video resolutions, visible to menuqc. Currently only works with SDL2 builds.
Added setmousepos builtin. Should work with glx+win32 build.
VF_SKYROOM_CAMERA can now accept an extra two args, setviewprop(VF_SKYROOM_CAMERA, org, axis, degrees).
Removed v_skyroom_origin+v_skyroom_orientation cvars in favour just v_skyroom, which should make it behave more like the 'fog' command (used when csqc isn't overriding).
Added R_EndPolygonRibbon builtin to make it faster+easier to generate textured ribbon/cable/etc wide lines (for TW).
sdl: Fix up sys_sdl.c's file enumeration to support wildcards in directories.
edit command now displays end1.bin/end2.bin correctly, because we can.
Finally add support for f_modified - though ruleset_allow_larger_models and ruleset_allow_overlong_sounds generally make it redundant.
Fix threading race condition in sha1 lookups.
Updated f_ruleset to include the same extra flags reported by ezquake.
A mod's default.fmf file can now contain an eg 'mainconfig config.cfg' line (to explicitly set the main config saved with cfg_save_auto 1 etc).
fmf: basegame steam:GameName/GameDir can be used to try to load a mod directory from an installed steam game. The resulting gamedir will be read-only.
HOMEDIR CHANGE: use homedirs only if the basedir cannot be written or a homedir already exists, which should further reduce the probability of microsoft randomly uploading our data to their cloud (but mostly because its annoying to never know where your data is written).
Fixed buf_cvarlist, should work in xonotic now, and without segfaults.
Added an extra arg to URI_Get_Callback calls - the response size, also changed the tempstring to contain all bytes of the response, you need to be careful about nulls though.
Try to work around nvidia's forced-panning bug on x11 when changing video modes. This might screw with other programs.
sdl: support custom icons.
sdl: support choosing a specific display.
Added some documentation to menuqc builtins.
menusys: use outlines for slightly more readable fonts.
menusys: switch vid_width and vid_height combos into a single video mode combo to set both according to reported video modes.
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5581 fc73d0e0-1445-4013-8a0c-d673dee63da5
2019-11-20 03:09:50 +00:00
if ( ( ai - > csurface . flags & 0x80 ) | | dpcompat_skinfiles . ival ) //nodraw
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f - > shader = R_RegisterShader ( f - > shadername , SUF_NONE , " { \n surfaceparm nodraw \n surfaceparm nodlight \n surfaceparm nomarks \n surfaceparm noshadows \n } \n " ) ;
else
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f - > shader = R_RegisterSkin ( mod , f - > shadername ) ;
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}
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else
f - > shader = R_RegisterShader ( f - > shadername , SUF_NONE , f - > defaultshader ) ;
}
if ( f - > texels )
{
loadflags = SHADER_HASPALETTED | SHADER_HASDIFFUSE | SHADER_HASGLOSS | SHADER_HASTOPBOTTOM ;
if ( r_fb_models . ival )
loadflags | = SHADER_HASFULLBRIGHT ;
if ( r_loadbumpmapping )
loadflags | = SHADER_HASNORMALMAP ;
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R_BuildLegacyTexnums ( f - > shader , basename , alttexpath , loadflags , imageflags , skintranstype , s - > skinwidth , s - > skinheight , f - > texels , host_basepal ) ;
2016-07-12 00:40:13 +00:00
}
else
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R_BuildDefaultTexnums ( & f - > texnums , f - > shader , 0 ) ;
2016-07-12 00:40:13 +00:00
}
}
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Mod_WipeSkin ( skinid , false ) ;
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}
}
# endif
//Q1 model loading
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# ifdef MD1MODELS
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# define NUMVERTEXNORMALS 162
extern float r_avertexnormals [ NUMVERTEXNORMALS ] [ 3 ] ;
// mdltype 0 = q1, 1 = qtest, 2 = rapo/h2
static void Q1MDL_LoadPose ( galiasinfo_t * galias , dmdl_t * pq1inmodel , vecV_t * verts , vec3_t * normals , vec3_t * svec , vec3_t * tvec , dtrivertx_t * pinframe , int * seamremaps , int mdltype , unsigned int bbox [ 6 ] )
{
int j ;
# ifdef _DEBUG
bbox [ 0 ] = bbox [ 1 ] = bbox [ 2 ] = ~ 0 ;
bbox [ 3 ] = bbox [ 4 ] = bbox [ 5 ] = 0 ;
# endif
# ifdef HEXEN2
if ( mdltype = = 2 )
{
for ( j = 0 ; j < galias - > numverts ; j + + )
{
verts [ j ] [ 0 ] = pinframe [ seamremaps [ j ] ] . v [ 0 ] * pq1inmodel - > scale [ 0 ] + pq1inmodel - > scale_origin [ 0 ] ;
verts [ j ] [ 1 ] = pinframe [ seamremaps [ j ] ] . v [ 1 ] * pq1inmodel - > scale [ 1 ] + pq1inmodel - > scale_origin [ 1 ] ;
verts [ j ] [ 2 ] = pinframe [ seamremaps [ j ] ] . v [ 2 ] * pq1inmodel - > scale [ 2 ] + pq1inmodel - > scale_origin [ 2 ] ;
# ifndef SERVERONLY
VectorCopy ( r_avertexnormals [ pinframe [ seamremaps [ j ] ] . lightnormalindex ] , normals [ j ] ) ;
# endif
}
}
else
# endif
{
for ( j = 0 ; j < pq1inmodel - > numverts ; j + + )
{
# ifdef _DEBUG
bbox [ 0 ] = min ( bbox [ 0 ] , pinframe [ j ] . v [ 0 ] ) ;
bbox [ 1 ] = min ( bbox [ 1 ] , pinframe [ j ] . v [ 1 ] ) ;
bbox [ 2 ] = min ( bbox [ 2 ] , pinframe [ j ] . v [ 2 ] ) ;
bbox [ 3 ] = max ( bbox [ 3 ] , pinframe [ j ] . v [ 0 ] ) ;
bbox [ 4 ] = max ( bbox [ 4 ] , pinframe [ j ] . v [ 1 ] ) ;
bbox [ 5 ] = max ( bbox [ 5 ] , pinframe [ j ] . v [ 2 ] ) ;
# endif
verts [ j ] [ 0 ] = pinframe [ j ] . v [ 0 ] * pq1inmodel - > scale [ 0 ] + pq1inmodel - > scale_origin [ 0 ] ;
verts [ j ] [ 1 ] = pinframe [ j ] . v [ 1 ] * pq1inmodel - > scale [ 1 ] + pq1inmodel - > scale_origin [ 1 ] ;
verts [ j ] [ 2 ] = pinframe [ j ] . v [ 2 ] * pq1inmodel - > scale [ 2 ] + pq1inmodel - > scale_origin [ 2 ] ;
# ifndef SERVERONLY
VectorCopy ( r_avertexnormals [ pinframe [ j ] . lightnormalindex ] , normals [ j ] ) ;
# endif
if ( seamremaps [ j ] ! = j )
{
VectorCopy ( verts [ j ] , verts [ seamremaps [ j ] ] ) ;
# ifndef SERVERONLY
VectorCopy ( normals [ j ] , normals [ seamremaps [ j ] ] ) ;
# endif
}
}
}
}
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static void Q1MDL_LoadPoseQF16 ( galiasinfo_t * galias , dmdl_t * pq1inmodel , vecV_t * verts , vec3_t * normals , vec3_t * svec , vec3_t * tvec , dtrivertx_t * pinframe , int * seamremaps , int mdltype )
2016-07-12 00:40:13 +00:00
{
//quakeforge's MD16 format has regular 8bit stuff, trailed by an extra low-order set of the verts providing the extra 8bits of precision.
//its worth noting that the model could be rendered using the high-order parts only, if your software renderer only supports that or whatever.
dtrivertx_t * pinframelow = pinframe + pq1inmodel - > numverts ;
int j ;
vec3_t exscale ;
VectorScale ( pq1inmodel - > scale , 1.0 / 256 , exscale ) ;
for ( j = 0 ; j < pq1inmodel - > numverts ; j + + )
{
verts [ j ] [ 0 ] = pinframe [ j ] . v [ 0 ] * pq1inmodel - > scale [ 0 ] + pinframelow [ j ] . v [ 0 ] * exscale [ 0 ] + pq1inmodel - > scale_origin [ 0 ] ;
verts [ j ] [ 1 ] = pinframe [ j ] . v [ 1 ] * pq1inmodel - > scale [ 1 ] + pinframelow [ j ] . v [ 1 ] * exscale [ 1 ] + pq1inmodel - > scale_origin [ 1 ] ;
verts [ j ] [ 2 ] = pinframe [ j ] . v [ 2 ] * pq1inmodel - > scale [ 2 ] + pinframelow [ j ] . v [ 2 ] * exscale [ 2 ] + pq1inmodel - > scale_origin [ 2 ] ;
# ifndef SERVERONLY
VectorCopy ( r_avertexnormals [ pinframe [ j ] . lightnormalindex ] , normals [ j ] ) ;
# endif
if ( seamremaps [ j ] ! = j )
{
VectorCopy ( verts [ j ] , verts [ seamremaps [ j ] ] ) ;
# ifndef SERVERONLY
VectorCopy ( normals [ j ] , normals [ seamremaps [ j ] ] ) ;
# endif
}
}
}
static void * Q1MDL_LoadFrameGroup ( galiasinfo_t * galias , dmdl_t * pq1inmodel , model_t * loadmodel , daliasframetype_t * pframetype , int * seamremaps , int mdltype )
{
galiaspose_t * pose ;
galiasanimation_t * frame = galias - > ofsanimations ;
dtrivertx_t * pinframe ;
daliasframe_t * frameinfo ;
int i , k ;
daliasgroup_t * ingroup ;
daliasinterval_t * intervals ;
float sinter ;
vec3_t * normals , * svec , * tvec ;
vecV_t * verts ;
int aliasframesize = ( mdltype = = 1 ) ? sizeof ( daliasframe_t ) - 16 : sizeof ( daliasframe_t ) ;
unsigned int bbox [ 6 ] ;
# ifdef SERVERONLY
normals = NULL ;
svec = NULL ;
tvec = NULL ;
# endif
for ( i = 0 ; i < pq1inmodel - > numframes ; i + + )
{
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frame - > action = - 1 ;
frame - > actionweight = 0 ;
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switch ( LittleLong ( pframetype - > type ) )
{
case ALIAS_SINGLE :
frameinfo = ( daliasframe_t * ) ( ( char * ) ( pframetype + 1 ) ) ; // qtest aliasframe is a subset
pinframe = ( dtrivertx_t * ) ( ( char * ) frameinfo + aliasframesize ) ;
# ifndef SERVERONLY
pose = ( galiaspose_t * ) ZG_Malloc ( & loadmodel - > memgroup , sizeof ( galiaspose_t ) + ( sizeof ( vecV_t ) + sizeof ( vec3_t ) * 3 ) * galias - > numverts ) ;
# else
pose = ( galiaspose_t * ) ZG_Malloc ( & loadmodel - > memgroup , sizeof ( galiaspose_t ) + ( sizeof ( vecV_t ) ) * galias - > numverts ) ;
# endif
frame - > poseofs = pose ;
frame - > numposes = 1 ;
galias - > numanimations + + ;
if ( mdltype = = 1 )
frame - > name [ 0 ] = ' \0 ' ;
else
Q_strncpyz ( frame - > name , frameinfo - > name , sizeof ( frame - > name ) ) ;
verts = ( vecV_t * ) ( pose + 1 ) ;
pose - > ofsverts = verts ;
# ifndef SERVERONLY
normals = ( vec3_t * ) & verts [ galias - > numverts ] ;
svec = & normals [ galias - > numverts ] ;
tvec = & svec [ galias - > numverts ] ;
pose - > ofsnormals = normals ;
pose - > ofssvector = svec ;
pose - > ofstvector = tvec ;
# endif
if ( mdltype & 16 )
{
2018-11-19 06:37:25 +00:00
Q1MDL_LoadPoseQF16 ( galias , pq1inmodel , verts , normals , svec , tvec , pinframe , seamremaps , mdltype ) ;
2016-07-12 00:40:13 +00:00
pframetype = ( daliasframetype_t * ) & pinframe [ pq1inmodel - > numverts * 2 ] ;
}
else
{
Q1MDL_LoadPose ( galias , pq1inmodel , verts , normals , svec , tvec , pinframe , seamremaps , mdltype , bbox ) ;
pframetype = ( daliasframetype_t * ) & pinframe [ pq1inmodel - > numverts ] ;
# ifdef _DEBUG
2018-11-19 06:37:25 +00:00
if ( ( bbox [ 3 ] > frameinfo - > bboxmax . v [ 0 ] | | bbox [ 4 ] > frameinfo - > bboxmax . v [ 1 ] | | bbox [ 5 ] > frameinfo - > bboxmax . v [ 2 ] | |
bbox [ 0 ] < frameinfo - > bboxmin . v [ 0 ] | | bbox [ 1 ] < frameinfo - > bboxmin . v [ 1 ] | | bbox [ 2 ] < frameinfo - > bboxmin . v [ 2 ] ) & & ! galias - > warned )
2016-07-12 00:40:13 +00:00
# else
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if ( galias - > numverts & & pinframe [ 0 ] . v [ 2 ] > frameinfo - > bboxmax . v [ 2 ] & & ! galias - > warned )
2016-07-12 00:40:13 +00:00
# endif
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{
Con_DPrintf ( CON_WARNING " %s has incorrect frame bounds \n " , loadmodel - > name ) ;
galias - > warned = true ;
}
2016-07-12 00:40:13 +00:00
}
// GL_GenerateNormals((float*)verts, (float*)normals, (int *)((char *)galias + galias->ofs_indexes), galias->numindexes/3, galias->numverts);
break ;
case ALIAS_GROUP :
case ALIAS_GROUP_SWAPPED : // prerelease
ingroup = ( daliasgroup_t * ) ( pframetype + 1 ) ;
frame - > numposes = LittleLong ( ingroup - > numframes ) ;
# ifdef SERVERONLY
pose = ( galiaspose_t * ) ZG_Malloc ( & loadmodel - > memgroup , frame - > numposes * ( sizeof ( galiaspose_t ) + sizeof ( vecV_t ) * galias - > numverts ) ) ;
verts = ( vecV_t * ) ( pose + frame - > numposes ) ;
# else
pose = ( galiaspose_t * ) ZG_Malloc ( & loadmodel - > memgroup , frame - > numposes * ( sizeof ( galiaspose_t ) + ( sizeof ( vecV_t ) + sizeof ( vec3_t ) * 3 ) * galias - > numverts ) ) ;
verts = ( vecV_t * ) ( pose + frame - > numposes ) ;
normals = ( vec3_t * ) & verts [ galias - > numverts ] ;
svec = & normals [ galias - > numverts ] ;
tvec = & svec [ galias - > numverts ] ;
# endif
frame - > poseofs = pose ;
frame - > loop = true ;
galias - > numanimations + + ;
intervals = ( daliasinterval_t * ) ( ingroup + 1 ) ;
2019-05-23 15:11:32 +00:00
if ( frame - > numposes = = 0 )
frame - > rate = 10 ;
else
{
sinter = LittleFloat ( intervals - > interval ) ;
if ( sinter < = 0 )
sinter = 0.1 ;
frame - > rate = 1 / sinter ;
}
2016-07-12 00:40:13 +00:00
pinframe = ( dtrivertx_t * ) ( intervals + frame - > numposes ) ;
for ( k = 0 ; k < frame - > numposes ; k + + )
{
pose - > ofsverts = verts ;
# ifndef SERVERONLY
pose - > ofsnormals = normals ;
pose - > ofssvector = svec ;
pose - > ofstvector = tvec ;
# endif
frameinfo = ( daliasframe_t * ) pinframe ;
pinframe = ( dtrivertx_t * ) ( ( char * ) frameinfo + aliasframesize ) ;
if ( k = = 0 )
{
if ( mdltype = = 1 )
frame - > name [ 0 ] = ' \0 ' ;
else
Q_strncpyz ( frame - > name , frameinfo - > name , sizeof ( frame - > name ) ) ;
}
if ( mdltype & 16 )
{
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Q1MDL_LoadPoseQF16 ( galias , pq1inmodel , verts , normals , svec , tvec , pinframe , seamremaps , mdltype ) ;
2016-07-12 00:40:13 +00:00
pinframe + = pq1inmodel - > numverts * 2 ;
}
else
{
Q1MDL_LoadPose ( galias , pq1inmodel , verts , normals , svec , tvec , pinframe , seamremaps , mdltype , bbox ) ;
# ifdef _DEBUG
2018-11-19 06:37:25 +00:00
if ( ( bbox [ 3 ] > frameinfo - > bboxmax . v [ 0 ] | | bbox [ 4 ] > frameinfo - > bboxmax . v [ 1 ] | | bbox [ 5 ] > frameinfo - > bboxmax . v [ 2 ] | |
bbox [ 0 ] < frameinfo - > bboxmin . v [ 0 ] | | bbox [ 1 ] < frameinfo - > bboxmin . v [ 1 ] | | bbox [ 2 ] < frameinfo - > bboxmin . v [ 2 ] | |
2016-07-12 00:40:13 +00:00
# else
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if ( galias - > numverts & & ( pinframe [ 0 ] . v [ 2 ] > frameinfo - > bboxmax . v [ 2 ] | |
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# endif
2018-11-19 06:37:25 +00:00
frameinfo - > bboxmin . v [ 0 ] < ingroup - > bboxmin . v [ 0 ] | | frameinfo - > bboxmin . v [ 1 ] < ingroup - > bboxmin . v [ 1 ] | | frameinfo - > bboxmin . v [ 2 ] < ingroup - > bboxmin . v [ 2 ] | |
frameinfo - > bboxmax . v [ 0 ] > ingroup - > bboxmax . v [ 0 ] | | frameinfo - > bboxmax . v [ 1 ] > ingroup - > bboxmax . v [ 1 ] | | frameinfo - > bboxmax . v [ 2 ] > ingroup - > bboxmax . v [ 2 ] ) & & ! galias - > warned )
{
Con_DPrintf ( CON_WARNING " %s has incorrect frame bounds \n " , loadmodel - > name ) ;
galias - > warned = true ;
}
2020-02-26 00:37:52 +00:00
pinframe + = pq1inmodel - > numverts ;
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}
# ifndef SERVERONLY
verts = ( vecV_t * ) & tvec [ galias - > numverts ] ;
normals = ( vec3_t * ) & verts [ galias - > numverts ] ;
svec = & normals [ galias - > numverts ] ;
tvec = & svec [ galias - > numverts ] ;
# else
verts = & verts [ galias - > numverts ] ;
# endif
pose + + ;
}
// GL_GenerateNormals((float*)verts, (float*)normals, (int *)((char *)galias + galias->ofs_indexes), galias->numindexes/3, galias->numverts);
pframetype = ( daliasframetype_t * ) pinframe ;
break ;
default :
Con_Printf ( CON_ERROR " Bad frame type in %s \n " , loadmodel - > name ) ;
return NULL ;
}
frame + + ;
}
return pframetype ;
}
//greatly reduced version of Q1_LoadSkins
//just skips over the data
static void * Q1MDL_LoadSkins_SV ( galiasinfo_t * galias , dmdl_t * pq1inmodel , daliasskintype_t * pskintype , unsigned int skintranstype )
{
int i ;
int s ;
int * count ;
float * intervals ;
qbyte * data ;
s = pq1inmodel - > skinwidth * pq1inmodel - > skinheight ;
for ( i = 0 ; i < pq1inmodel - > numskins ; i + + )
{
switch ( LittleLong ( pskintype - > type ) )
{
case ALIAS_SKIN_SINGLE :
pskintype = ( daliasskintype_t * ) ( ( char * ) ( pskintype + 1 ) + s ) ;
break ;
default :
count = ( int * ) ( pskintype + 1 ) ;
intervals = ( float * ) ( count + 1 ) ;
data = ( qbyte * ) ( intervals + LittleLong ( * count ) ) ;
data + = s * LittleLong ( * count ) ;
pskintype = ( daliasskintype_t * ) data ;
break ;
}
}
galias - > numskins = pq1inmodel - > numskins ;
return pskintype ;
}
# ifndef SERVERONLY
2019-01-29 07:18:07 +00:00
static cvar_t dpcompat_nofloodfill = CVARD ( " dpcompat_nofloodfill " , " 0 " , " Disables the q1mdl floodfill. Setting this to 1 may result in blue seams on the vanilla quake models. " ) ;
2017-01-15 13:13:09 +00:00
/*
= = = = = = = = = = = = = = = = =
Mod_FloodFillSkin
Fill background pixels so mipmapping doesn ' t have haloes - Ed
= = = = = = = = = = = = = = = = =
*/
typedef struct
{
short x , y ;
} floodfill_t ;
// must be a power of 2
# define FLOODFILL_FIFO_SIZE 0x1000
# define FLOODFILL_FIFO_MASK (FLOODFILL_FIFO_SIZE - 1)
# define FLOODFILL_STEP( off, dx, dy ) \
2020-06-12 23:29:58 +00:00
do { \
2017-01-15 13:13:09 +00:00
if ( pos [ off ] = = fillcolor ) \
{ \
pos [ off ] = 255 ; \
fifo [ inpt ] . x = x + ( dx ) , fifo [ inpt ] . y = y + ( dy ) ; \
inpt = ( inpt + 1 ) & FLOODFILL_FIFO_MASK ; \
} \
else if ( pos [ off ] ! = 255 ) fdc = pos [ off ] ; \
2020-06-12 23:29:58 +00:00
} while ( 0 )
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static void Mod_FloodFillSkin ( qbyte * skin , int skinwidth , int skinheight )
{
qbyte fillcolor = * skin ; // assume this is the pixel to fill
floodfill_t fifo [ FLOODFILL_FIFO_SIZE ] ;
int inpt = 0 , outpt = 0 ;
int filledcolor = - 1 ;
int i ;
2019-01-29 07:18:07 +00:00
if ( dpcompat_nofloodfill . ival )
return ;
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if ( filledcolor = = - 1 )
{
filledcolor = 0 ;
// attempt to find opaque black
for ( i = 0 ; i < 256 ; + + i )
if ( d_8to24rgbtable [ i ] = = ( 255 < < 0 ) ) // alpha 1.0
{
filledcolor = i ;
break ;
}
}
// can't fill to filled color or to transparent color (used as visited marker)
if ( ( fillcolor = = filledcolor ) | | ( fillcolor = = 255 ) )
{
//printf( "not filling skin from %d to %d\n", fillcolor, filledcolor );
return ;
}
fifo [ inpt ] . x = 0 , fifo [ inpt ] . y = 0 ;
inpt = ( inpt + 1 ) & FLOODFILL_FIFO_MASK ;
while ( outpt ! = inpt )
{
int x = fifo [ outpt ] . x , y = fifo [ outpt ] . y ;
int fdc = filledcolor ;
qbyte * pos = & skin [ x + skinwidth * y ] ;
outpt = ( outpt + 1 ) & FLOODFILL_FIFO_MASK ;
if ( x > 0 ) FLOODFILL_STEP ( - 1 , - 1 , 0 ) ;
if ( x < skinwidth - 1 ) FLOODFILL_STEP ( 1 , 1 , 0 ) ;
if ( y > 0 ) FLOODFILL_STEP ( - skinwidth , 0 , - 1 ) ;
if ( y < skinheight - 1 ) FLOODFILL_STEP ( skinwidth , 0 , 1 ) ;
skin [ x + skinwidth * y ] = fdc ;
}
}
2016-07-12 00:40:13 +00:00
static void * Q1MDL_LoadSkins_GL ( galiasinfo_t * galias , dmdl_t * pq1inmodel , model_t * loadmodel , daliasskintype_t * pskintype , uploadfmt_t skintranstype )
{
skinframe_t * frames ;
char skinname [ MAX_QPATH ] ;
char alttexpath [ MAX_QPATH ] ;
int i ;
int s , t ;
float sinter ;
daliasskingroup_t * count ;
daliasskininterval_t * intervals ;
qbyte * data , * saved ;
galiasskin_t * outskin = galias - > ofsskins ;
const char * slash ;
unsigned int texflags ;
s = pq1inmodel - > skinwidth * pq1inmodel - > skinheight ;
for ( i = 0 ; i < pq1inmodel - > numskins ; i + + )
{
switch ( LittleLong ( pskintype - > type ) )
{
case ALIAS_SKIN_SINGLE :
outskin - > skinwidth = pq1inmodel - > skinwidth ;
outskin - > skinheight = pq1inmodel - > skinheight ;
//but only preload it if we have no replacement.
outskin - > numframes = 1 ;
if ( 1 | | /*!TEXVALID(texture) ||*/ ( loadmodel - > engineflags & MDLF_NOTREPLACEMENTS ) )
{
//we're not using 24bits
frames = ZG_Malloc ( & loadmodel - > memgroup , sizeof ( * frames ) + s ) ;
saved = ( qbyte * ) ( frames + 1 ) ;
frames [ 0 ] . texels = saved ;
memcpy ( saved , pskintype + 1 , s ) ;
Mod_FloodFillSkin ( saved , outskin - > skinwidth , outskin - > skinheight ) ;
}
else
{
frames = ZG_Malloc ( & loadmodel - > memgroup , sizeof ( * frames ) ) ;
Q_snprintfz ( skinname , sizeof ( skinname ) , " %s_%i.lmp " , slash , i ) ;
frames [ 0 ] . texnums . base = R_LoadReplacementTexture ( skinname , alttexpath , texflags , frames [ 0 ] . texels , outskin - > skinwidth , outskin - > skinheight , skintranstype ) ;
if ( r_fb_models . ival )
{
Q_snprintfz ( skinname , sizeof ( skinname ) , " %s_%i_luma.lmp " , slash , i ) ;
frames [ 0 ] . texnums . fullbright = R_LoadReplacementTexture ( skinname , alttexpath , texflags , frames [ 0 ] . texels , outskin - > skinwidth , outskin - > skinheight , TF_TRANS8_FULLBRIGHT ) ;
}
if ( r_loadbumpmapping )
{
Q_snprintfz ( skinname , sizeof ( skinname ) , " %s_%i_norm.lmp " , slash , i ) ;
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frames [ 0 ] . texnums . bump = R_LoadReplacementTexture ( skinname , alttexpath , texflags | IF_TRYBUMP | IF_NOSRGB , frames [ 0 ] . texels , outskin - > skinwidth , outskin - > skinheight , TF_HEIGHT8PAL ) ;
2016-07-12 00:40:13 +00:00
}
Q_snprintfz ( skinname , sizeof ( skinname ) , " %s_%i_shirt.lmp " , slash , i ) ;
frames [ 0 ] . texnums . upperoverlay = R_LoadReplacementTexture ( skinname , alttexpath , texflags , NULL , outskin - > skinwidth , outskin - > skinheight , TF_INVALID ) ;
Q_snprintfz ( skinname , sizeof ( skinname ) , " %s_%i_pants.lmp " , slash , i ) ;
frames [ 0 ] . texnums . loweroverlay = R_LoadReplacementTexture ( skinname , alttexpath , texflags , NULL , outskin - > skinwidth , outskin - > skinheight , TF_INVALID ) ;
}
Q_snprintfz ( frames [ 0 ] . shadername , sizeof ( frames [ 0 ] . shadername ) , " %s_%i.lmp " , loadmodel - > name , i ) ;
frames [ 0 ] . shader = NULL ;
frames [ 0 ] . defaultshader = NULL ;
outskin - > frame = frames ;
switch ( skintranstype )
{
default : //urk
case TF_SOLID8 :
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frames [ 0 ] . defaultshader = NULL ; //default skin...
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break ;
case TF_H2_T7G1 :
frames [ 0 ] . defaultshader =
" { \n "
// "program defaultskin\n"
" { \n "
" map $diffuse \n "
" blendfunc gl_src_alpha gl_one_minus_src_alpha \n "
" alphagen entity \n "
" rgbgen lightingDiffuse \n "
" depthwrite \n "
" } \n "
" } \n " ;
break ;
case TF_H2_TRANS8_0 :
frames [ 0 ] . defaultshader =
" { \n "
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" glslprogram defaultskin#MASK=0.5#MASKLT \n "
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" { \n "
" map $diffuse \n "
" blendfunc gl_src_alpha gl_one_minus_src_alpha \n "
" alphafunc ge128 \n "
" rgbgen lightingDiffuse \n "
" alphagen entity \n "
" depthwrite \n "
" } \n "
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" { \n "
" map $loweroverlay \n "
" rgbgen bottomcolor \n "
" blendfunc gl_src_alpha gl_one \n "
" } \n "
" { \n "
" map $upperoverlay \n "
" rgbgen topcolor \n "
" blendfunc gl_src_alpha gl_one \n "
" } \n "
" { \n "
" map $fullbright \n "
" blendfunc add \n "
" } \n "
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" } \n " ;
break ;
case TF_H2_T4A4 :
frames [ 0 ] . defaultshader =
" { \n "
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// "program defaultskin\n"
2018-08-23 06:03:31 +00:00
" cull disable \n "
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" { \n "
" map $diffuse \n "
" blendfunc gl_one_minus_src_alpha gl_src_alpha \n "
" alphagen entity \n "
" rgbgen lightingDiffuse \n "
" depthwrite \n "
" } \n "
2020-02-11 18:06:10 +00:00
" { \n "
" map $loweroverlay \n "
" rgbgen bottomcolor \n "
" blendfunc gl_src_alpha gl_one \n "
" } \n "
" { \n "
" map $upperoverlay \n "
" rgbgen topcolor \n "
" blendfunc gl_src_alpha gl_one \n "
" } \n "
" { \n "
" map $fullbright \n "
" blendfunc add \n "
" } \n "
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" } \n " ;
break ;
}
pskintype = ( daliasskintype_t * ) ( ( char * ) ( pskintype + 1 ) + s ) ;
break ;
default :
outskin - > skinwidth = pq1inmodel - > skinwidth ;
outskin - > skinheight = pq1inmodel - > skinheight ;
count = ( daliasskingroup_t * ) ( pskintype + 1 ) ;
intervals = ( daliasskininterval_t * ) ( count + 1 ) ;
outskin - > numframes = LittleLong ( count - > numskins ) ;
data = ( qbyte * ) ( intervals + outskin - > numframes ) ;
frames = ZG_Malloc ( & loadmodel - > memgroup , sizeof ( * frames ) * outskin - > numframes ) ;
outskin - > frame = frames ;
sinter = LittleFloat ( intervals [ 0 ] . interval ) ;
if ( sinter < = 0 )
sinter = 0.1 ;
outskin - > skinspeed = 1 / sinter ;
for ( t = 0 ; t < outskin - > numframes ; t + + , data + = s )
{
frames [ t ] . texels = ZG_Malloc ( & loadmodel - > memgroup , s ) ;
memcpy ( frames [ t ] . texels , data , s ) ;
//other engines apparently don't flood fill. because flood filling is horrible, we won't either.
//Mod_FloodFillSkin(frames[t].texels, outskin->skinwidth, outskin->skinheight);
Q_snprintfz ( frames [ t ] . shadername , sizeof ( frames [ t ] . shadername ) , " %s_%i_%i.lmp " , loadmodel - > name , i , t ) ;
frames [ t ] . defaultshader = NULL ;
}
pskintype = ( daliasskintype_t * ) data ;
break ;
}
outskin + + ;
}
galias - > numskins = pq1inmodel - > numskins ;
return pskintype ;
}
# endif
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static void Mesh_HandleFramegroupsFile ( model_t * mod , galiasinfo_t * galias )
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{
unsigned int numanims , a , p , g , oldnumanims = galias - > numanimations , targpose ;
galiasanimation_t * o , * oldanims = galias - > ofsanimations , * frame ;
frameinfo_t * framegroups = ParseFrameInfo ( mod - > name , & numanims ) ;
if ( framegroups )
{
galias - > ofsanimations = o = ZG_Malloc ( & mod - > memgroup , sizeof ( * galias - > ofsanimations ) * numanims ) ;
for ( a = 0 ; a < numanims ; a + + , o + + )
{
o - > poseofs = ZG_Malloc ( & mod - > memgroup , sizeof ( * o - > poseofs ) * framegroups [ a ] . posecount ) ;
for ( p = 0 ; p < framegroups [ a ] . posecount ; p + + )
{
targpose = framegroups [ a ] . firstpose + p ;
for ( g = 0 , frame = oldanims ; g < oldnumanims ; g + + , frame + + )
{
if ( targpose < frame - > numposes )
break ;
targpose - = frame - > numposes ;
}
if ( g = = oldnumanims )
break ;
o - > poseofs [ p ] = frame - > poseofs [ targpose ] ;
}
o - > numposes = p ;
o - > rate = framegroups [ a ] . fps ;
o - > loop = framegroups [ a ] . loop ;
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o - > action = - 1 ;
o - > actionweight = 0 ;
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Q_strncpyz ( o - > name , framegroups [ a ] . name , sizeof ( o - > name ) ) ;
}
galias - > numanimations = numanims ;
free ( framegroups ) ;
}
}
2017-01-13 00:39:50 +00:00
static qboolean QDECL Mod_LoadQ1Model ( model_t * mod , void * buffer , size_t fsize )
2016-07-12 00:40:13 +00:00
{
# ifndef SERVERONLY
vec2_t * st_array ;
int j ;
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float halftexel = mod_halftexel . ival ? 0.5 : 0 ;
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# endif
int version ;
int i , onseams ;
dstvert_t * pinstverts ;
dtriangle_t * pinq1triangles ;
int * seamremap ;
index_t * indexes ;
daliasskintype_t * skinstart ;
uploadfmt_t skintranstype ;
qboolean sixteenbit ;
int size ;
unsigned int hdrsize ;
void * end ;
qboolean qtest = false ;
# ifdef HEXEN2
dh2triangle_t * pinh2triangles ;
qboolean rapo = false ;
# endif
galiasinfo_t * galias ;
dmdl_t * pq1inmodel = ( dmdl_t * ) buffer ;
hdrsize = sizeof ( dmdl_t ) - sizeof ( int ) ;
mod - > engineflags | = MDLF_NEEDOVERBRIGHT ;
sixteenbit = pq1inmodel - > ident = = LittleLong ( ( ' 6 ' < < 24 ) + ( ' 1 ' < < 16 ) + ( ' D ' < < 8 ) + ' M ' ) ; //quakeforge's 16bit mdls
version = LittleLong ( pq1inmodel - > version ) ;
if ( version = = QTESTALIAS_VERSION & & ! sixteenbit )
{
hdrsize = ( size_t ) & ( ( dmdl_t * ) NULL ) - > flags ;
qtest = true ;
}
# ifdef HEXEN2
else if ( version = = 50 & & ! sixteenbit )
{
hdrsize = sizeof ( dmdl_t ) ;
rapo = true ;
}
# endif
else if ( version ! = ALIAS_VERSION )
{
Con_Printf ( CON_ERROR " %s has wrong version number (%i should be %i) \n " ,
mod - > name , version , ALIAS_VERSION ) ;
return false ;
}
seamremap = ( int * ) pq1inmodel ; //I like overloading locals.
i = hdrsize / 4 - 1 ;
for ( ; i > = 0 ; i - - )
seamremap [ i ] = LittleLong ( seamremap [ i ] ) ;
if ( pq1inmodel - > numframes < 1 | |
pq1inmodel - > numskins < 1 | |
pq1inmodel - > numtris < 1 | |
pq1inmodel - > numverts < 3 | |
pq1inmodel - > skinheight < 1 | |
pq1inmodel - > skinwidth < 1 )
{
Con_Printf ( CON_ERROR " Model %s has an invalid quantity \n " , mod - > name ) ;
return false ;
}
if ( qtest )
mod - > flags = 0 ; // Qtest has no flags in header
else
mod - > flags = pq1inmodel - > flags ;
size = sizeof ( galiasinfo_t )
# ifndef SERVERONLY
+ pq1inmodel - > numskins * sizeof ( galiasskin_t )
# endif
+ pq1inmodel - > numframes * sizeof ( galiasanimation_t ) ;
galias = ZG_Malloc ( & mod - > memgroup , size ) ;
2017-01-13 00:39:50 +00:00
Mod_DefaultMesh ( galias , mod - > name , 0 ) ;
2016-07-12 00:40:13 +00:00
galias - > ofsanimations = ( galiasanimation_t * ) ( galias + 1 ) ;
# ifndef SERVERONLY
galias - > ofsskins = ( galiasskin_t * ) ( galias - > ofsanimations + pq1inmodel - > numframes ) ;
# endif
galias - > nextsurf = 0 ;
mod - > numframes = pq1inmodel - > numframes ;
//skins
skinstart = ( daliasskintype_t * ) ( ( char * ) pq1inmodel + hdrsize ) ;
# ifdef HEXEN2
if ( mod - > flags & MFH2_TRANSPARENT )
skintranstype = TF_H2_T7G1 ; //hexen2
else
# endif
if ( mod - > flags & MFH2_HOLEY )
skintranstype = TF_H2_TRANS8_0 ; //hexen2
# ifdef HEXEN2
else if ( mod - > flags & MFH2_SPECIAL_TRANS )
skintranstype = TF_H2_T4A4 ; //hexen2
# endif
else
skintranstype = TF_SOLID8 ;
switch ( qrenderer )
{
default :
# ifndef SERVERONLY
pinstverts = ( dstvert_t * ) Q1MDL_LoadSkins_GL ( galias , pq1inmodel , mod , skinstart , skintranstype ) ;
break ;
# endif
case QR_NONE :
pinstverts = ( dstvert_t * ) Q1MDL_LoadSkins_SV ( galias , pq1inmodel , skinstart , skintranstype ) ;
break ;
}
# ifdef HEXEN2
if ( rapo )
{
/*each triangle can use one coord and one st, for each vert, that's a lot of combinations*/
# ifdef SERVERONLY
/*separate st + vert lists*/
pinh2triangles = ( dh2triangle_t * ) & pinstverts [ pq1inmodel - > num_st ] ;
seamremap = BZ_Malloc ( sizeof ( * seamremap ) * pq1inmodel - > numtris * 3 ) ;
galias - > numverts = pq1inmodel - > numverts ;
galias - > numindexes = pq1inmodel - > numtris * 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , galias - > numindexes * sizeof ( * indexes ) ) ;
galias - > ofs_indexes = indexes ;
for ( i = 0 ; i < pq1inmodel - > numverts ; i + + )
seamremap [ i ] = i ;
for ( i = 0 ; i < pq1inmodel - > numtris ; i + + )
{
indexes [ i * 3 + 0 ] = LittleShort ( pinh2triangles [ i ] . vertindex [ 0 ] ) ;
indexes [ i * 3 + 1 ] = LittleShort ( pinh2triangles [ i ] . vertindex [ 1 ] ) ;
indexes [ i * 3 + 2 ] = LittleShort ( pinh2triangles [ i ] . vertindex [ 2 ] ) ;
}
# else
int t , v , k ;
int * stremap ;
/*separate st + vert lists*/
pinh2triangles = ( dh2triangle_t * ) & pinstverts [ pq1inmodel - > num_st ] ;
seamremap = BZ_Malloc ( sizeof ( int ) * pq1inmodel - > numtris * 6 ) ;
stremap = seamremap + pq1inmodel - > numtris * 3 ;
/*output the indicies as we figure out which verts we want*/
galias - > numindexes = pq1inmodel - > numtris * 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , galias - > numindexes * sizeof ( * indexes ) ) ;
galias - > ofs_indexes = indexes ;
for ( i = 0 ; i < pq1inmodel - > numtris ; i + + )
{
for ( j = 0 ; j < 3 ; j + + )
{
v = LittleShort ( pinh2triangles [ i ] . vertindex [ j ] ) ;
t = LittleShort ( pinh2triangles [ i ] . stindex [ j ] ) ;
if ( pinstverts [ t ] . onseam & & ! pinh2triangles [ i ] . facesfront )
t + = pq1inmodel - > num_st ;
for ( k = 0 ; k < galias - > numverts ; k + + ) /*big fatoff slow loop*/
{
if ( stremap [ k ] = = t & & seamremap [ k ] = = v )
break ;
}
if ( k = = galias - > numverts )
{
galias - > numverts + + ;
stremap [ k ] = t ;
seamremap [ k ] = v ;
}
indexes [ i * 3 + j ] = k ;
}
}
st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( * st_array ) * ( galias - > numverts ) ) ;
galias - > ofs_st_array = st_array ;
/*generate our st_array now we know which vertexes we want*/
for ( k = 0 ; k < galias - > numverts ; k + + )
{
if ( stremap [ k ] > pq1inmodel - > num_st )
{ /*onseam verts? shrink the index, and add half a texture width to the s coord*/
2020-03-07 09:00:40 +00:00
st_array [ k ] [ 0 ] = 0.5 + ( LittleLong ( pinstverts [ stremap [ k ] - pq1inmodel - > num_st ] . s ) + halftexel ) / ( float ) pq1inmodel - > skinwidth ;
st_array [ k ] [ 1 ] = ( LittleLong ( pinstverts [ stremap [ k ] - pq1inmodel - > num_st ] . t ) + halftexel ) / ( float ) pq1inmodel - > skinheight ;
2016-07-12 00:40:13 +00:00
}
else
{
2020-03-07 09:00:40 +00:00
st_array [ k ] [ 0 ] = ( LittleLong ( pinstverts [ stremap [ k ] ] . s ) + halftexel ) / ( float ) pq1inmodel - > skinwidth ;
st_array [ k ] [ 1 ] = ( LittleLong ( pinstverts [ stremap [ k ] ] . t ) + halftexel ) / ( float ) pq1inmodel - > skinheight ;
2016-07-12 00:40:13 +00:00
}
}
# endif
end = & pinh2triangles [ pq1inmodel - > numtris ] ;
if ( Q1MDL_LoadFrameGroup ( galias , pq1inmodel , mod , ( daliasframetype_t * ) end , seamremap , 2 ) = = NULL )
{
BZ_Free ( seamremap ) ;
ZG_FreeGroup ( & mod - > memgroup ) ;
return false ;
}
BZ_Free ( seamremap ) ;
}
else
# endif
{
/*onseam means +=skinwidth/2
verticies that are marked as onseam potentially generate two output verticies .
the triangle chooses which side based upon its ' onseam ' field .
*/
//count number of verts that are onseam.
for ( onseams = 0 , i = 0 ; i < pq1inmodel - > numverts ; i + + )
{
if ( pinstverts [ i ] . onseam )
onseams + + ;
}
seamremap = BZ_Malloc ( sizeof ( * seamremap ) * pq1inmodel - > numverts ) ;
galias - > numverts = pq1inmodel - > numverts + onseams ;
//st
# ifndef SERVERONLY
st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( * st_array ) * ( pq1inmodel - > numverts + onseams ) ) ;
galias - > ofs_st_array = st_array ;
for ( j = pq1inmodel - > numverts , i = 0 ; i < pq1inmodel - > numverts ; i + + )
{
2020-03-07 09:00:40 +00:00
st_array [ i ] [ 0 ] = ( LittleLong ( pinstverts [ i ] . s ) + halftexel ) / ( float ) pq1inmodel - > skinwidth ;
st_array [ i ] [ 1 ] = ( LittleLong ( pinstverts [ i ] . t ) + halftexel ) / ( float ) pq1inmodel - > skinheight ;
2016-07-12 00:40:13 +00:00
if ( pinstverts [ i ] . onseam )
{
if ( pinstverts [ i ] . onseam ! = 0x20 & & ! galias - > warned )
{
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Con_DPrintf ( CON_WARNING " Model %s has an invalid seam flag, which may crash software-rendered engines \n " , mod - > name ) ;
2016-07-12 00:40:13 +00:00
//1 == ALIAS_LEFT_CLIP
galias - > warned = true ;
}
st_array [ j ] [ 0 ] = st_array [ i ] [ 0 ] + 0.5 ;
st_array [ j ] [ 1 ] = st_array [ i ] [ 1 ] ;
seamremap [ i ] = j ;
j + + ;
}
else
seamremap [ i ] = i ;
}
# else
for ( i = 0 ; i < pq1inmodel - > numverts ; i + + )
{
seamremap [ i ] = i ;
}
# endif
//trianglelists;
pinq1triangles = ( dtriangle_t * ) & pinstverts [ pq1inmodel - > numverts ] ;
galias - > numindexes = pq1inmodel - > numtris * 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , galias - > numindexes * sizeof ( * indexes ) ) ;
galias - > ofs_indexes = indexes ;
for ( i = 0 ; i < pq1inmodel - > numtris ; i + + )
{
unsigned int v1 = LittleLong ( pinq1triangles [ i ] . vertindex [ 0 ] ) ;
unsigned int v2 = LittleLong ( pinq1triangles [ i ] . vertindex [ 1 ] ) ;
unsigned int v3 = LittleLong ( pinq1triangles [ i ] . vertindex [ 2 ] ) ;
if ( v1 > = pq1inmodel - > numverts | | v2 > = pq1inmodel - > numverts | | v3 > = pq1inmodel - > numverts )
{
2016-10-22 07:06:51 +00:00
Con_DPrintf ( CON_ERROR " %s has invalid triangle (%u %u %u > %u) \n " , mod - > name , v1 , v2 , v3 , pq1inmodel - > numverts ) ;
2016-07-12 00:40:13 +00:00
v1 = v2 = v3 = 0 ;
}
if ( ! pinq1triangles [ i ] . facesfront )
{
indexes [ i * 3 + 0 ] = seamremap [ v1 ] ;
indexes [ i * 3 + 1 ] = seamremap [ v2 ] ;
indexes [ i * 3 + 2 ] = seamremap [ v3 ] ;
}
else
{
indexes [ i * 3 + 0 ] = v1 ;
indexes [ i * 3 + 1 ] = v2 ;
indexes [ i * 3 + 2 ] = v3 ;
}
}
end = & pinq1triangles [ pq1inmodel - > numtris ] ;
//frames
if ( Q1MDL_LoadFrameGroup ( galias , pq1inmodel , mod , ( daliasframetype_t * ) end , seamremap , ( sixteenbit ? 16 : 0 ) | ( qtest ? 1 : 0 ) ) = = NULL )
{
BZ_Free ( seamremap ) ;
ZG_FreeGroup ( & mod - > memgroup ) ;
return false ;
}
BZ_Free ( seamremap ) ;
}
Mod_CompileTriangleNeighbours ( mod , galias ) ;
Mod_BuildTextureVectors ( galias ) ;
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#if 0 //fast (somewhat inaccurate) way. some exporters will bias all geometry weirdly (often ensuring 0 0 0 is in the bounds, resulting in unfortunate biases.)
2016-07-12 00:40:13 +00:00
VectorCopy ( pq1inmodel - > scale_origin , mod - > mins ) ;
VectorMA ( mod - > mins , 255 , pq1inmodel - > scale , mod - > maxs ) ;
2021-09-05 00:35:00 +00:00
# else
ClearBounds ( mod - > mins , mod - > maxs ) ;
for ( i = 0 ; i < galias - > numanimations ; i + + )
{
galiasanimation_t * a = galias - > ofsanimations ;
vecV_t * v ;
size_t j , k ;
for ( j = 0 ; j < a - > numposes ; j + + )
{
v = a - > poseofs [ j ] . ofsverts ;
for ( k = 0 ; k < galias - > numverts ; k + + )
AddPointToBounds ( v [ k ] , mod - > mins , mod - > maxs ) ;
}
}
if ( mod - > maxs [ 0 ] < mod - > mins [ 0 ] ) //no points? o.O
AddPointToBounds ( vec3_origin , mod - > mins , mod - > maxs ) ;
# endif
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mod - > type = mod_alias ;
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , galias - > ofsanimations , galias - > numanimations ) ;
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Mesh_HandleFramegroupsFile ( mod , galias ) ;
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mod - > numframes = galias - > numanimations ;
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mod - > meshinfo = galias ;
mod - > funcs . NativeTrace = Mod_Trace ;
if ( ! strcmp ( mod - > name , " progs/v_shot.mdl " ) )
galias - > lerpcutoff = 20 ;
else if ( ! strcmp ( mod - > name , " progs/v_shot2.mdl " ) )
galias - > lerpcutoff = 20 ;
else if ( ! strcmp ( mod - > name , " progs/v_nail.mdl " ) )
galias - > lerpcutoff = 7 ;
else if ( ! strcmp ( mod - > name , " progs/v_nail2.mdl " ) )
galias - > lerpcutoff = 6 ;
else if ( ! strcmp ( mod - > name , " progs/v_rock.mdl " ) )
galias - > lerpcutoff = 30 ;
else if ( ! strcmp ( mod - > name , " progs/v_rock2.mdl " ) )
galias - > lerpcutoff = 30 ;
else if ( ! strcmp ( mod - > name , " progs/v_light.mdl " ) )
galias - > lerpcutoff = 30 ;
# ifdef HEXEN2
if ( ( mod - > flags = = MF_ROCKET ) & & ! strncmp ( mod - > name , " models/sflesh " , 13 ) )
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mod - > flags = MFH2_SPIDERBLOOD ;
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# endif
return true ;
}
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static int Mod_ReadFlagsFromMD1 ( char * name , int md3version )
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{
int result = 0 ;
size_t fsize ;
dmdl_t * pinmodel ;
char fname [ MAX_QPATH ] ;
COM_StripExtension ( name , fname , sizeof ( fname ) ) ;
COM_DefaultExtension ( fname , " .mdl " , sizeof ( fname ) ) ;
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if ( ! strcmp ( name , fname ) ) //md3 renamed as mdl
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{
COM_StripExtension ( name , fname , sizeof ( fname ) ) ; //seeing as the md3 is named over the mdl,
COM_DefaultExtension ( fname , " .md1 " , sizeof ( fname ) ) ; //read from a file with md1 (one, not an ell)
}
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pinmodel = ( dmdl_t * ) FS_LoadMallocFile ( fname , & fsize ) ;
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if ( pinmodel )
{
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if ( fsize > = sizeof ( dmdl_t ) & & ! memcmp ( & pinmodel - > ident , IDPOLYHEADER ) )
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if ( LittleLong ( pinmodel - > version ) = = ALIAS_VERSION )
result = LittleLong ( pinmodel - > flags ) ;
BZ_Free ( pinmodel ) ;
}
return result ;
}
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# else
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int Mod_ReadFlagsFromMD1 ( char * name , int md3version )
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{
return 0 ;
}
# endif
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# ifdef MD2MODELS
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//Q2 model loading
typedef struct
{
float scale [ 3 ] ; // multiply qbyte verts by this
float translate [ 3 ] ; // then add this
char name [ 16 ] ; // frame name from grabbing
dtrivertx_t verts [ 1 ] ; // variable sized
} dmd2aliasframe_t ;
//static galiasinfo_t *galias;
//static md2_t *pq2inmodel;
# define Q2NUMVERTEXNORMALS 162
extern vec3_t bytedirs [ Q2NUMVERTEXNORMALS ] ;
static void Q2MD2_LoadSkins ( galiasinfo_t * galias , model_t * mod , md2_t * pq2inmodel , char * skins )
{
# ifndef SERVERONLY
int i ;
skinframe_t * frames ;
galiasskin_t * outskin = galias - > ofsskins ;
for ( i = 0 ; i < LittleLong ( pq2inmodel - > num_skins ) ; i + + , outskin + + )
{
frames = ZG_Malloc ( & mod - > memgroup , sizeof ( * frames ) ) ;
outskin - > frame = frames ;
outskin - > numframes = 1 ;
COM_CleanUpPath ( skins ) ; //blooming tanks.
Q_strncpyz ( frames - > shadername , skins , sizeof ( frames - > shadername ) ) ;
outskin - > skinwidth = 0 ;
outskin - > skinheight = 0 ;
outskin - > skinspeed = 0 ;
skins + = MD2MAX_SKINNAME ;
}
# endif
galias - > numskins = LittleLong ( pq2inmodel - > num_skins ) ;
/*
# ifndef SERVERONLY
outskin = ( galiasskin_t * ) ( ( char * ) galias + galias - > ofsskins ) ;
outskin + = galias - > numskins - 1 ;
if ( galias - > numskins )
{
if ( * ( shader_t * * ) ( ( char * ) outskin + outskin - > ofstexnums ) )
return ;
galias - > numskins - - ;
}
# endif
*/
}
# define MD2_MAX_TRIANGLES 4096
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static qboolean QDECL Mod_LoadQ2Model ( model_t * mod , void * buffer , size_t fsize )
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{
# ifndef SERVERONLY
dmd2stvert_t * pinstverts ;
vec2_t * st_array ;
vec3_t * normals ;
# endif
md2_t * pq2inmodel ;
int version ;
int i , j ;
dmd2triangle_t * pintri ;
index_t * indexes ;
int numindexes ;
vec3_t min ;
vec3_t max ;
galiaspose_t * pose ;
galiasanimation_t * poutframe ;
dmd2aliasframe_t * pinframe ;
int framesize ;
vecV_t * verts ;
int indremap [ MD2_MAX_TRIANGLES * 3 ] ;
unsigned short ptempindex [ MD2_MAX_TRIANGLES * 3 ] , ptempstindex [ MD2_MAX_TRIANGLES * 3 ] ;
int numverts ;
int size ;
galiasinfo_t * galias ;
mod - > engineflags | = MDLF_NEEDOVERBRIGHT ;
pq2inmodel = ( md2_t * ) buffer ;
version = LittleLong ( pq2inmodel - > version ) ;
if ( version ! = MD2ALIAS_VERSION )
{
Con_Printf ( CON_ERROR " %s has wrong version number (%i should be %i) \n " ,
mod - > name , version , MD2ALIAS_VERSION ) ;
return false ;
}
if ( LittleLong ( pq2inmodel - > num_frames ) < 1 | |
LittleLong ( pq2inmodel - > num_skins ) < 0 | |
LittleLong ( pq2inmodel - > num_tris ) < 1 | |
LittleLong ( pq2inmodel - > num_xyz ) < 3 | |
LittleLong ( pq2inmodel - > num_st ) < 3 | |
LittleLong ( pq2inmodel - > skinheight ) < 1 | |
LittleLong ( pq2inmodel - > skinwidth ) < 1 )
{
Con_Printf ( CON_ERROR " Model %s has an invalid quantity \n " , mod - > name ) ;
return false ;
}
mod - > flags = 0 ;
mod - > numframes = LittleLong ( pq2inmodel - > num_frames ) ;
size = sizeof ( galiasinfo_t )
# ifndef SERVERONLY
+ LittleLong ( pq2inmodel - > num_skins ) * sizeof ( galiasskin_t )
# endif
+ LittleLong ( pq2inmodel - > num_frames ) * sizeof ( galiasanimation_t ) ;
galias = ZG_Malloc ( & mod - > memgroup , size ) ;
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Mod_DefaultMesh ( galias , mod - > name , 0 ) ;
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galias - > ofsanimations = ( galiasanimation_t * ) ( galias + 1 ) ;
# ifndef SERVERONLY
galias - > ofsskins = ( galiasskin_t * ) ( galias - > ofsanimations + LittleLong ( pq2inmodel - > num_frames ) ) ;
# endif
galias - > nextsurf = 0 ;
//skins
Q2MD2_LoadSkins ( galias , mod , pq2inmodel , ( ( char * ) pq2inmodel + LittleLong ( pq2inmodel - > ofs_skins ) ) ) ;
//trianglelists;
pintri = ( dmd2triangle_t * ) ( ( char * ) pq2inmodel + LittleLong ( pq2inmodel - > ofs_tris ) ) ;
for ( i = 0 ; i < LittleLong ( pq2inmodel - > num_tris ) ; i + + , pintri + + )
{
for ( j = 0 ; j < 3 ; j + + )
{
ptempindex [ i * 3 + j ] = ( unsigned short ) LittleShort ( pintri - > xyz_index [ j ] ) ;
ptempstindex [ i * 3 + j ] = ( unsigned short ) LittleShort ( pintri - > st_index [ j ] ) ;
}
}
numindexes = galias - > numindexes = LittleLong ( pq2inmodel - > num_tris ) * 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , galias - > numindexes * sizeof ( * indexes ) ) ;
galias - > ofs_indexes = indexes ;
memset ( indremap , - 1 , sizeof ( indremap ) ) ;
numverts = 0 ;
for ( i = 0 ; i < numindexes ; i + + )
{
if ( indremap [ i ] ! = - 1 ) {
continue ;
}
for ( j = 0 ; j < numindexes ; j + + )
{
if ( j = = i ) {
continue ;
}
if ( ( ptempindex [ i ] = = ptempindex [ j ] ) & & ( ptempstindex [ i ] = = ptempstindex [ j ] ) ) {
indremap [ j ] = i ;
}
}
}
// count unique vertexes
for ( i = 0 ; i < numindexes ; i + + )
{
if ( indremap [ i ] ! = - 1 ) {
continue ;
}
indexes [ i ] = numverts + + ;
indremap [ i ] = i ;
}
// Con_DPrintf ( "%s: remapped %i verts to %i\n", mod->name, LittleLong(pq2inmodel->num_xyz), numverts );
galias - > numverts = numverts ;
// remap remaining indexes
for ( i = 0 ; i < numindexes ; i + + )
{
if ( indremap [ i ] ! = i ) {
indexes [ i ] = indexes [ indremap [ i ] ] ;
}
}
// s and t vertices
# ifndef SERVERONLY
pinstverts = ( dmd2stvert_t * ) ( ( qbyte * ) pq2inmodel + LittleLong ( pq2inmodel - > ofs_st ) ) ;
st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( * st_array ) * ( numverts ) ) ;
galias - > ofs_st_array = st_array ;
for ( j = 0 ; j < numindexes ; j + + )
{
st_array [ indexes [ j ] ] [ 0 ] = ( float ) ( ( ( double ) LittleShort ( pinstverts [ ptempstindex [ indremap [ j ] ] ] . s ) + 0.5f ) / LittleLong ( pq2inmodel - > skinwidth ) ) ;
st_array [ indexes [ j ] ] [ 1 ] = ( float ) ( ( ( double ) LittleShort ( pinstverts [ ptempstindex [ indremap [ j ] ] ] . t ) + 0.5f ) / LittleLong ( pq2inmodel - > skinheight ) ) ;
}
# endif
//frames
ClearBounds ( mod - > mins , mod - > maxs ) ;
poutframe = galias - > ofsanimations ;
framesize = LittleLong ( pq2inmodel - > framesize ) ;
for ( i = 0 ; i < LittleLong ( pq2inmodel - > num_frames ) ; i + + )
{
size = sizeof ( galiaspose_t ) + sizeof ( vecV_t ) * numverts ;
# ifndef SERVERONLY
size + = 3 * sizeof ( vec3_t ) * numverts ;
# endif
pose = ( galiaspose_t * ) ZG_Malloc ( & mod - > memgroup , size ) ;
poutframe - > poseofs = pose ;
poutframe - > numposes = 1 ;
galias - > numanimations + + ;
verts = ( vecV_t * ) ( pose + 1 ) ;
pose - > ofsverts = verts ;
# ifndef SERVERONLY
normals = ( vec3_t * ) & verts [ galias - > numverts ] ;
pose - > ofsnormals = normals ;
pose - > ofssvector = & normals [ galias - > numverts ] ;
pose - > ofstvector = & normals [ galias - > numverts * 2 ] ;
# endif
pinframe = ( dmd2aliasframe_t * ) ( ( qbyte * ) pq2inmodel + LittleLong ( pq2inmodel - > ofs_frames ) + i * framesize ) ;
Q_strncpyz ( poutframe - > name , pinframe - > name , sizeof ( poutframe - > name ) ) ;
for ( j = 0 ; j < 3 ; j + + )
{
pose - > scale [ j ] = LittleFloat ( pinframe - > scale [ j ] ) ;
pose - > scale_origin [ j ] = LittleFloat ( pinframe - > translate [ j ] ) ;
}
for ( j = 0 ; j < numindexes ; j + + )
{
// verts are all 8 bit, so no swapping needed
verts [ indexes [ j ] ] [ 0 ] = pose - > scale_origin [ 0 ] + pose - > scale [ 0 ] * pinframe - > verts [ ptempindex [ indremap [ j ] ] ] . v [ 0 ] ;
verts [ indexes [ j ] ] [ 1 ] = pose - > scale_origin [ 1 ] + pose - > scale [ 1 ] * pinframe - > verts [ ptempindex [ indremap [ j ] ] ] . v [ 1 ] ;
verts [ indexes [ j ] ] [ 2 ] = pose - > scale_origin [ 2 ] + pose - > scale [ 2 ] * pinframe - > verts [ ptempindex [ indremap [ j ] ] ] . v [ 2 ] ;
# ifndef SERVERONLY
VectorCopy ( bytedirs [ pinframe - > verts [ ptempindex [ indremap [ j ] ] ] . lightnormalindex ] , normals [ indexes [ j ] ] ) ;
# endif
}
// Mod_AliasCalculateVertexNormals ( numindexes, poutindex, numverts, poutvertex, qfalse );
VectorCopy ( pose - > scale_origin , min ) ;
VectorMA ( pose - > scale_origin , 255 , pose - > scale , max ) ;
// poutframe->radius = RadiusFromBounds ( min, max );
// mod->radius = max ( mod->radius, poutframe->radius );
AddPointToBounds ( min , mod - > mins , mod - > maxs ) ;
AddPointToBounds ( max , mod - > mins , mod - > maxs ) ;
// GL_GenerateNormals((float*)verts, (float*)normals, indexes, numindexes/3, numverts);
poutframe + + ;
}
Mod_CompileTriangleNeighbours ( mod , galias ) ;
Mod_BuildTextureVectors ( galias ) ;
/*
VectorCopy ( pq2inmodel - > scale_origin , mod - > mins ) ;
VectorMA ( mod - > mins , 255 , pq2inmodel - > scale , mod - > maxs ) ;
*/
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , galias - > ofsanimations , galias - > numanimations ) ;
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mod - > meshinfo = galias ;
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mod - > numframes = galias - > numanimations ;
2016-07-12 00:40:13 +00:00
mod - > type = mod_alias ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif
2019-09-04 08:32:22 +00:00
# ifdef MODELFMT_MDX
2016-07-12 00:40:13 +00:00
2019-09-04 08:32:22 +00:00
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//Kingpin model loading
//basically md2, but with toggleable subobjects and object bounding boxes (fixme: use those for hitmesh instead of the mesh itself)
typedef struct
{
float scale [ 3 ] ; // multiply qbyte verts by this
float translate [ 3 ] ; // then add this
char name [ 16 ] ; // frame name from grabbing
dtrivertx_t verts [ 1 ] ; // variable sized
} dmdxframe_t ;
typedef struct
{
int cmd ;
int obj ;
struct dmdxcommandvert_s
{
float s , t ;
int origvert ;
} vert [ 1 ] ;
} dmdxcommand_t ;
typedef struct
{
int magic ;
int version ;
int skinWidth ;
int skinHeight ;
int frameSize ;
int numSkins ;
int numVertices ;
int numTriangles_Unusable ;
int numGlCommands ;
int numFrames ;
int numSfxDefines_Unsupported ;
int numSfxEntries_Unsupported ;
int numSubObjects ;
int offsetSkins ;
int offsetTriangles_Unusable ;
int offsetFrames ;
int offsetGlCommands ;
int offsetVertexInfo_Whatever ;
int offsetSfxDefines_Unsupported ;
int offsetSfxEntries_Unsupported ;
int offsetBBoxFrames_HitmeshInstead ;
int offsetMaybeST_Bugged ;
int offsetEnd ;
} dmdxheader_t ;
2021-11-03 20:31:32 +00:00
# define MDX_IDENT "IDPX",4
2019-09-04 08:32:22 +00:00
# define MDX_VERSION 4
# define Q2NUMVERTEXNORMALS 162
extern vec3_t bytedirs [ Q2NUMVERTEXNORMALS ] ;
# ifndef SERVERONLY
static void MDX_LoadSkins ( galiasinfo_t * galias , model_t * mod , dmdxheader_t * pinmodel , char * skins )
{
int i ;
skinframe_t * frames ;
galiasskin_t * outskin = galias - > ofsskins ;
for ( i = 0 ; i < LittleLong ( pinmodel - > numSkins ) ; i + + , outskin + + )
{
frames = ZG_Malloc ( & mod - > memgroup , sizeof ( * frames ) ) ;
outskin - > frame = frames ;
outskin - > numframes = 1 ;
COM_CleanUpPath ( skins ) ; //blooming tanks.
Q_strncpyz ( frames - > shadername , skins , sizeof ( frames - > shadername ) ) ;
outskin - > skinwidth = 0 ;
outskin - > skinheight = 0 ;
outskin - > skinspeed = 0 ;
skins + = MD2MAX_SKINNAME ;
}
galias - > numskins = LittleLong ( pinmodel - > numSkins ) ;
}
# endif
# define MDX_MAX_TRIANGLES 4096
# define MDX_MAX_VERTS MDX_MAX_TRIANGLES*3
static int MDX_MatchVert ( struct dmdxcommandvert_s * list , int * count , struct dmdxcommandvert_s * newvert )
{
int i ;
for ( i = 0 ; i < * count ; i + + )
{
if ( list [ i ] . origvert = = newvert - > origvert & &
list [ i ] . s = = newvert - > s & &
list [ i ] . t = = newvert - > t )
return i ; //its a dupe!
}
if ( i = = MDX_MAX_VERTS )
return 0 ;
list [ i ] = * newvert ;
* count + = 1 ;
return i ;
}
static qboolean QDECL Mod_LoadKingpinModel ( model_t * mod , void * buffer , size_t fsize )
{
# ifndef SERVERONLY
vec2_t * st_array ;
vec3_t * normals ;
# endif
dmdxheader_t * pinmodel ;
int version ;
int i , j , subobj ;
index_t * indexes ;
vec3_t min ;
vec3_t max ;
galiaspose_t * pose ;
galiasanimation_t * poutframe ;
dmdxframe_t * pinframe ;
int framesize ;
vecV_t * verts ;
dmdxcommand_t * pincmd , * pincmdend ;
struct dmdxcommandvert_s tmpvert [ MDX_MAX_VERTS ] ;
int numverts ;
struct
{
int newidx [ 3 ] ;
} tri [ MDX_MAX_TRIANGLES ] ;
int numtri ;
int size ;
galiasinfo_t * galias , * root ;
mod - > engineflags | = MDLF_NEEDOVERBRIGHT ;
pinmodel = ( dmdxheader_t * ) buffer ;
if ( fsize < sizeof ( * pinmodel ) )
{
Con_Printf ( CON_ERROR " %s is truncated \n " , mod - > name ) ;
return false ;
}
version = LittleLong ( pinmodel - > version ) ;
if ( version ! = MDX_VERSION )
{
Con_Printf ( CON_ERROR " %s has wrong version number (%i should be %i) \n " ,
mod - > name , version , MDX_VERSION ) ;
return false ;
}
if ( LittleLong ( pinmodel - > offsetEnd ) ! = fsize )
{
Con_Printf ( CON_ERROR " %s is truncated \n " , mod - > name ) ;
return false ;
}
if ( LittleLong ( pinmodel - > numFrames ) < 1 | |
LittleLong ( pinmodel - > numSkins ) < 0 | |
LittleLong ( pinmodel - > numTriangles_Unusable ) < 1 | |
LittleLong ( pinmodel - > numVertices ) < 3 | |
LittleLong ( pinmodel - > skinHeight ) < 1 | |
LittleLong ( pinmodel - > skinWidth ) < 1 | |
LittleLong ( pinmodel - > numSubObjects ) < 1 )
{
Con_Printf ( CON_ERROR " Model %s has an invalid quantity \n " , mod - > name ) ;
return false ;
}
mod - > flags = 0 ;
mod - > numframes = LittleLong ( pinmodel - > numFrames ) ;
size = sizeof ( galiasinfo_t ) * pinmodel - > numSubObjects
+ LittleLong ( pinmodel - > numFrames ) * sizeof ( galiasanimation_t ) * pinmodel - > numSubObjects
# ifndef SERVERONLY
+ LittleLong ( pinmodel - > numSkins ) * sizeof ( galiasskin_t )
# endif
;
root = galias = ZG_Malloc ( & mod - > memgroup , size ) ;
# ifndef SERVERONLY
//skins
galias - > ofsskins = ( galiasskin_t * ) ( ( galiasanimation_t * ) ( galias + pinmodel - > numSubObjects ) + LittleLong ( pinmodel - > numFrames ) * pinmodel - > numSubObjects ) ;
MDX_LoadSkins ( galias , mod , pinmodel , ( ( char * ) pinmodel + LittleLong ( pinmodel - > offsetSkins ) ) ) ;
# else
galias - > numskins = LittleLong ( pinmodel - > numSkins ) ;
# endif
ClearBounds ( mod - > mins , mod - > maxs ) ;
for ( subobj = 0 ; subobj < pinmodel - > numSubObjects ; subobj + + )
{
galias = & root [ subobj ] ;
Mod_DefaultMesh ( galias , mod - > name , subobj ) ;
galias - > ofsanimations = ( galiasanimation_t * ) ( root + pinmodel - > numSubObjects ) + subobj * pinmodel - > numFrames ;
galias - > ofsskins = root - > ofsskins ;
galias - > numskins = root - > numskins ;
galias - > shares_verts = subobj ;
if ( subobj > 0 )
root [ subobj - 1 ] . nextsurf = galias ;
//process the strips+fans, and split the verts into the appropriate submesh
pincmd = ( dmdxcommand_t * ) ( ( char * ) pinmodel + LittleLong ( pinmodel - > offsetGlCommands ) ) ;
pincmdend = ( dmdxcommand_t * ) ( ( char * ) pinmodel + LittleLong ( pinmodel - > offsetGlCommands ) + LittleLong ( pinmodel - > numGlCommands ) * 4 ) ;
numverts = 0 ;
numtri = 0 ;
while ( pincmd < pincmdend )
{
int n = LittleLong ( pincmd - > cmd ) ;
if ( ! n )
break ; //no more commands
if ( n < 0 )
{ //fan club
n = - n ;
if ( n > 2 & & LittleLong ( pincmd - > obj ) = = subobj )
{
int first = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ 0 ] ) ;
int prev = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ 1 ] ) ;
for ( i = 2 ; i < n & & numtri < countof ( tri ) ; i + + )
{
tri [ numtri ] . newidx [ 0 ] = first ;
tri [ numtri ] . newidx [ 1 ] = prev ;
tri [ numtri ] . newidx [ 2 ] = prev = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ i ] ) ;
numtri + + ;
}
}
}
else
{ //stripper
if ( n > 2 & & LittleLong ( pincmd - > obj ) = = subobj )
{
int first = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ 0 ] ) ;
int prev = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ 1 ] ) ;
for ( i = 2 ; i < n & & numtri < countof ( tri ) ; i + + )
{
tri [ numtri ] . newidx [ 2 ] = MDX_MatchVert ( tmpvert , & numverts , & pincmd - > vert [ i ] ) ;
if ( i & 1 )
{
tri [ numtri ] . newidx [ 0 ] = prev ;
tri [ numtri ] . newidx [ 1 ] = first ;
}
else
{
tri [ numtri ] . newidx [ 0 ] = first ;
tri [ numtri ] . newidx [ 1 ] = prev ;
}
first = prev ;
prev = tri [ numtri ] . newidx [ 2 ] ;
if ( tri [ numtri ] . newidx [ 0 ] = = tri [ numtri ] . newidx [ 1 ] | |
tri [ numtri ] . newidx [ 0 ] = = tri [ numtri ] . newidx [ 2 ] | |
tri [ numtri ] . newidx [ 1 ] = = tri [ numtri ] . newidx [ 2 ] )
continue ; //degenerate... I doubt we'll see any though.
numtri + + ;
}
}
}
pincmd = ( dmdxcommand_t * ) & pincmd - > vert [ n ] ;
}
for ( i = 0 ; i < numverts ; i + + )
{ //might as well byteswap that stuff now...
tmpvert [ i ] . origvert = LittleLong ( tmpvert [ i ] . origvert ) ;
tmpvert [ i ] . s = LittleFloat ( tmpvert [ i ] . s ) ;
tmpvert [ i ] . t = LittleFloat ( tmpvert [ i ] . t ) ;
}
galias - > numverts = numverts ;
galias - > numindexes = numtri * 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , galias - > numindexes * sizeof ( * indexes ) ) ;
galias - > ofs_indexes = indexes ;
for ( i = 0 ; i < numtri ; i + + , indexes + = 3 )
{
indexes [ 0 ] = tri [ i ] . newidx [ 0 ] ;
indexes [ 1 ] = tri [ i ] . newidx [ 1 ] ;
indexes [ 2 ] = tri [ i ] . newidx [ 2 ] ;
}
// s and t vertices
# ifndef SERVERONLY
st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( * st_array ) * ( numverts ) ) ;
galias - > ofs_st_array = st_array ;
for ( j = 0 ; j < numverts ; j + + )
{
st_array [ j ] [ 0 ] = tmpvert [ j ] . s ;
st_array [ j ] [ 1 ] = tmpvert [ j ] . t ;
}
# endif
//frames
poutframe = galias - > ofsanimations ;
framesize = LittleLong ( pinmodel - > frameSize ) ;
size = sizeof ( galiaspose_t ) + sizeof ( vecV_t ) * numverts ;
# ifndef SERVERONLY
size + = 3 * sizeof ( vec3_t ) * numverts ;
# endif
size * = pinmodel - > numFrames ;
pose = ( galiaspose_t * ) ZG_Malloc ( & mod - > memgroup , size ) ;
verts = ( vecV_t * ) ( pose + pinmodel - > numFrames ) ;
# ifndef SERVERONLY
normals = ( vec3_t * ) ( verts + pinmodel - > numFrames * numverts ) ;
# endif
for ( i = 0 ; i < LittleLong ( pinmodel - > numFrames ) ; i + + )
{
poutframe - > poseofs = pose ;
poutframe - > numposes = 1 ;
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poutframe - > action = - 1 ;
poutframe - > actionweight = 0 ;
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galias - > numanimations + + ;
# ifndef SERVERONLY
pose - > ofsnormals = normals ;
pose - > ofssvector = & normals [ galias - > numverts ] ;
pose - > ofstvector = & normals [ galias - > numverts * 2 ] ;
# endif
pinframe = ( dmdxframe_t * ) ( ( qbyte * ) pinmodel + LittleLong ( pinmodel - > offsetFrames ) + i * framesize ) ;
Q_strncpyz ( poutframe - > name , pinframe - > name , sizeof ( poutframe - > name ) ) ;
for ( j = 0 ; j < 3 ; j + + )
{
pose - > scale [ j ] = LittleFloat ( pinframe - > scale [ j ] ) ;
pose - > scale_origin [ j ] = LittleFloat ( pinframe - > translate [ j ] ) ;
}
pose - > ofsverts = verts ;
for ( j = 0 ; j < numverts ; j + + )
{
// verts are all 8 bit, so no swapping needed
verts [ j ] [ 0 ] = pose - > scale_origin [ 0 ] + pose - > scale [ 0 ] * pinframe - > verts [ tmpvert [ j ] . origvert ] . v [ 0 ] ;
verts [ j ] [ 1 ] = pose - > scale_origin [ 1 ] + pose - > scale [ 1 ] * pinframe - > verts [ tmpvert [ j ] . origvert ] . v [ 1 ] ;
verts [ j ] [ 2 ] = pose - > scale_origin [ 2 ] + pose - > scale [ 2 ] * pinframe - > verts [ tmpvert [ j ] . origvert ] . v [ 2 ] ;
# ifndef SERVERONLY
VectorCopy ( bytedirs [ pinframe - > verts [ tmpvert [ j ] . origvert ] . lightnormalindex ] , normals [ j ] ) ;
# endif
}
VectorCopy ( pose - > scale_origin , min ) ;
VectorMA ( pose - > scale_origin , 255 , pose - > scale , max ) ;
AddPointToBounds ( min , mod - > mins , mod - > maxs ) ;
AddPointToBounds ( max , mod - > mins , mod - > maxs ) ;
poutframe + + ;
pose + + ;
verts + = numverts ;
# ifndef SERVERONLY
normals + = numverts * 3 ;
# endif
}
Mod_CompileTriangleNeighbours ( mod , galias ) ;
Mod_BuildTextureVectors ( galias ) ;
}
mod - > radius = RadiusFromBounds ( mod - > mins , mod - > maxs ) ;
Mod_ClampModelSize ( mod ) ;
Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
mod - > meshinfo = root ;
mod - > numframes = root - > numanimations ;
mod - > type = mod_alias ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif
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int Mod_GetNumBones ( model_t * model , qboolean allowtags )
{
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# ifdef SKELORTAGS
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if ( model & & model - > type = = mod_alias )
{
galiasinfo_t * inf = Mod_Extradata ( model ) ;
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# ifdef SKELETALMODELS
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if ( inf - > numbones )
return inf - > numbones ;
else
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# endif
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# ifdef MD3MODELS
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if ( allowtags )
return inf - > numtags ;
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# endif
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return 0 ;
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}
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# endif
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# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife )
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return HLMDL_GetNumBones ( model , allowtags ) ;
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# endif
return 0 ;
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}
int Mod_GetBoneRelations ( model_t * model , int firstbone , int lastbone , framestate_t * fstate , float * result )
{
# ifdef SKELETALMODELS
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if ( model & & model - > type = = mod_alias )
return Alias_BlendBoneData ( Mod_Extradata ( model ) , fstate , result , SKEL_RELATIVE , firstbone , lastbone ) ;
# endif
# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife )
return HLMDL_GetBoneData ( model , firstbone , lastbone , fstate , result ) ;
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# endif
return 0 ;
}
galiasbone_t * Mod_GetBoneInfo ( model_t * model , int * numbones )
{
# ifdef SKELETALMODELS
galiasbone_t * bone ;
galiasinfo_t * inf ;
if ( ! model | | model - > type ! = mod_alias )
return NULL ;
inf = Mod_Extradata ( model ) ;
bone = inf - > ofsbones ;
* numbones = inf - > numbones ;
return bone ;
# else
* numbones = 0 ;
return NULL ;
# endif
}
int Mod_GetBoneParent ( model_t * model , int bonenum )
{
# ifdef SKELETALMODELS
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if ( model & & model - > type = = mod_alias )
{
galiasbone_t * bone ;
galiasinfo_t * inf ;
inf = Mod_Extradata ( model ) ;
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bonenum - - ;
if ( ( unsigned int ) bonenum > = inf - > numbones )
return 0 ; //no parent
bone = inf - > ofsbones ;
return bone [ bonenum ] . parent + 1 ;
}
# endif
# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife )
return HLMDL_GetBoneParent ( model , bonenum - 1 ) + 1 ;
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# endif
return 0 ;
}
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const char * Mod_GetBoneName ( model_t * model , int bonenum )
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{
# ifdef SKELETALMODELS
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if ( model & & model - > type = = mod_alias )
{
galiasbone_t * bone ;
galiasinfo_t * inf ;
inf = Mod_Extradata ( model ) ;
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bonenum - - ;
if ( ( unsigned int ) bonenum > = inf - > numbones )
return 0 ; //no parent
bone = inf - > ofsbones ;
return bone [ bonenum ] . name ;
}
# endif
# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife )
return HLMDL_GetBoneName ( model , bonenum - 1 ) ;
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# endif
return 0 ;
}
qboolean Mod_GetTag ( model_t * model , int tagnum , framestate_t * fstate , float * result )
{
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# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife )
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{
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int numbones = Mod_GetNumBones ( model , true ) ;
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if ( tagnum > 0 & & tagnum < = numbones )
{
float relatives [ MAX_BONES * 12 ] ;
float tempmatrix [ 12 ] ; //flipped between this and bonematrix
float * matrix ; //the matrix for a single bone in a single pose.
float * lerps = relatives ;
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int k ;
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if ( tagnum < = 0 | | tagnum > numbones )
return false ;
tagnum - - ; //tagnum 0 is 'use my angles/org'
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//data comes from skeletal object, if possible
if ( fstate - > bonestate )
{
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numbones = fstate - > bonecount ;
lerps = fstate - > bonestate ;
if ( tagnum > = numbones )
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return false ;
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if ( fstate - > skeltype = = SKEL_ABSOLUTE )
{ //can just directly read it, woo.
memcpy ( result , fstate - > bonestate + 12 * tagnum , 12 * sizeof ( * result ) ) ;
return true ;
}
}
else //try getting the data from the frame state
{
numbones = Mod_GetBoneRelations ( model , 0 , tagnum + 1 , fstate , relatives ) ;
lerps = relatives ;
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}
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//set up the identity matrix
for ( k = 0 ; k < 12 ; k + + )
result [ k ] = 0 ;
result [ 0 ] = 1 ;
result [ 5 ] = 1 ;
result [ 10 ] = 1 ;
if ( tagnum > = numbones )
tagnum = HLMDL_GetAttachment ( model , tagnum - numbones , result ) ;
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while ( tagnum > = 0 )
{
//set up the per-bone transform matrix
matrix = lerps + tagnum * 12 ;
memcpy ( tempmatrix , result , sizeof ( tempmatrix ) ) ;
R_ConcatTransforms ( ( void * ) matrix , ( void * ) tempmatrix , ( void * ) result ) ;
tagnum = Mod_GetBoneParent ( model , tagnum + 1 ) - 1 ;
}
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return true ;
}
}
# endif
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# ifdef SKELORTAGS
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if ( model & & model - > type = = mod_alias )
{
galiasinfo_t * inf = Mod_Extradata ( model ) ;
# ifdef SKELETALMODELS
if ( inf - > numbones )
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{
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galiasbone_t * bone = inf - > ofsbones ;
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float tempmatrix [ 12 ] ; //flipped between this and bonematrix
float * matrix ; //the matrix for a single bone in a single pose.
float m [ 12 ] ; //combined interpolated version of 'matrix'.
int b , k ; //counters
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int numbonegroups = 0 ;
skellerps_t lerps [ FS_COUNT ] , * lerp ;
if ( tagnum < = 0 | | tagnum > inf - > numbones )
return false ;
tagnum - - ; //tagnum 0 is 'use my angles/org'
//data comes from skeletal object, if possible
if ( ! numbonegroups & & fstate - > bonestate )
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{
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if ( tagnum > = fstate - > bonecount )
return false ;
if ( fstate - > skeltype = = SKEL_ABSOLUTE )
{ //can just directly read it, woo.
memcpy ( result , fstate - > bonestate + 12 * tagnum , 12 * sizeof ( * result ) ) ;
return true ;
}
lerps [ 0 ] . pose [ 0 ] = fstate - > bonestate ;
lerps [ 0 ] . frac [ 0 ] = 1 ;
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lerps [ 0 ] . needsfree [ 0 ] = 0 ;
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lerps [ 0 ] . lerpcount = 1 ;
lerps [ 0 ] . firstbone = 0 ;
lerps [ 0 ] . endbone = fstate - > bonecount ;
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lerps [ 0 ] . skeltype = fstate - > skeltype ;
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numbonegroups = 1 ;
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}
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//try getting the data from the frame state
if ( ! numbonegroups )
numbonegroups = Alias_FindRawSkelData ( inf , fstate , lerps , 0 , inf - > numbones ) ;
//try base pose?
if ( ! numbonegroups & & inf - > baseframeofs )
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{
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lerps [ 0 ] . pose [ 0 ] = inf - > baseframeofs ;
lerps [ 0 ] . frac [ 0 ] = 1 ;
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lerps [ 0 ] . needsfree [ 0 ] = 0 ;
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lerps [ 0 ] . lerpcount = 1 ;
lerps [ 0 ] . firstbone = 0 ;
lerps [ 0 ] . endbone = inf - > numbones ;
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lerps [ 0 ] . skeltype = SKEL_ABSOLUTE ;
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numbonegroups = 1 ;
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}
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//make sure it was all okay.
if ( ! numbonegroups | | tagnum > = lerps [ numbonegroups - 1 ] . endbone )
return false ;
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//set up the identity matrix
for ( k = 0 ; k < 12 ; k + + )
result [ k ] = 0 ;
result [ 0 ] = 1 ;
result [ 5 ] = 1 ;
result [ 10 ] = 1 ;
while ( tagnum > = 0 )
{
for ( lerp = lerps ; tagnum < lerp - > firstbone ; lerp + + )
;
//set up the per-bone transform matrix
matrix = lerp - > pose [ 0 ] + tagnum * 12 ;
for ( k = 0 ; k < 12 ; k + + )
m [ k ] = matrix [ k ] * lerp - > frac [ 0 ] ;
for ( b = 1 ; b < lerp - > lerpcount ; b + + )
{
matrix = lerp - > pose [ b ] + tagnum * 12 ;
for ( k = 0 ; k < 12 ; k + + )
m [ k ] + = matrix [ k ] * lerp - > frac [ b ] ;
}
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if ( lerp - > skeltype = = SKEL_ABSOLUTE )
{
memcpy ( result , m , sizeof ( tempmatrix ) ) ;
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break ;
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}
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memcpy ( tempmatrix , result , sizeof ( tempmatrix ) ) ;
R_ConcatTransforms ( ( void * ) m , ( void * ) tempmatrix , ( void * ) result ) ;
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tagnum = bone [ tagnum ] . parent ;
}
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for ( b = 0 ; b < numbonegroups ; b + + )
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for ( k = 0 ; k < lerps [ b ] . lerpcount ; k + + )
BZ_Free ( lerps [ b ] . needsfree [ k ] ) ;
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return true ;
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}
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# endif
# ifdef MD3MODELS
if ( inf - > numtags )
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{
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md3tag_t * t1 , * t2 ;
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int frame1 , frame2 ;
//float f1time, f2time; //tags/md3s don't support framegroups.
float f2ness ;
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# if FRAME_BLENDS != 2
if ( fstate - > g [ FS_REG ] . lerpweight [ 2 ] | | fstate - > g [ FS_REG ] . lerpweight [ 3 ] )
{
static float printtimer ;
Con_ThrottlePrintf ( & printtimer , 1 , " Mod_GetTag(%s): non-skeletal animation only supports two animations \n " , model - > name ) ;
}
# endif
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frame1 = fstate - > g [ FS_REG ] . frame [ 0 ] ;
frame2 = fstate - > g [ FS_REG ] . frame [ 1 ] ;
//f1time = fstate->g[FS_REG].frametime[0];
//f2time = fstate->g[FS_REG].frametime[1];
f2ness = fstate - > g [ FS_REG ] . lerpweight [ 1 ] ;
if ( tagnum < = 0 | | tagnum > inf - > numtags )
return false ;
if ( frame1 < 0 )
return false ;
if ( frame1 > = inf - > numtagframes )
frame1 = inf - > numtagframes - 1 ;
if ( frame2 < 0 | | frame2 > = inf - > numtagframes )
frame2 = frame1 ;
tagnum - - ; //tagnum 0 is 'use my angles/org'
t1 = inf - > ofstags ;
t1 + = tagnum ;
t1 + = inf - > numtags * frame1 ;
t2 = inf - > ofstags ;
t2 + = tagnum ;
t2 + = inf - > numtags * frame2 ;
if ( t1 = = t2 )
{
result [ 0 ] = t1 - > ang [ 0 ] [ 0 ] ;
result [ 1 ] = t1 - > ang [ 0 ] [ 1 ] ;
result [ 2 ] = t1 - > ang [ 0 ] [ 2 ] ;
result [ 3 ] = t1 - > org [ 0 ] ;
result [ 4 ] = t1 - > ang [ 1 ] [ 0 ] ;
result [ 5 ] = t1 - > ang [ 1 ] [ 1 ] ;
result [ 6 ] = t1 - > ang [ 1 ] [ 2 ] ;
result [ 7 ] = t1 - > org [ 1 ] ;
result [ 8 ] = t1 - > ang [ 2 ] [ 0 ] ;
result [ 9 ] = t1 - > ang [ 2 ] [ 1 ] ;
result [ 10 ] = t1 - > ang [ 2 ] [ 2 ] ;
result [ 11 ] = t1 - > org [ 2 ] ;
}
else
{
float f1ness = 1 - f2ness ;
result [ 0 ] = t1 - > ang [ 0 ] [ 0 ] * f1ness + t2 - > ang [ 0 ] [ 0 ] * f2ness ;
result [ 1 ] = t1 - > ang [ 0 ] [ 1 ] * f1ness + t2 - > ang [ 0 ] [ 1 ] * f2ness ;
result [ 2 ] = t1 - > ang [ 0 ] [ 2 ] * f1ness + t2 - > ang [ 0 ] [ 2 ] * f2ness ;
result [ 3 ] = t1 - > org [ 0 ] * f1ness + t2 - > org [ 0 ] * f2ness ;
result [ 4 ] = t1 - > ang [ 1 ] [ 0 ] * f1ness + t2 - > ang [ 1 ] [ 0 ] * f2ness ;
result [ 5 ] = t1 - > ang [ 1 ] [ 1 ] * f1ness + t2 - > ang [ 1 ] [ 1 ] * f2ness ;
result [ 6 ] = t1 - > ang [ 1 ] [ 2 ] * f1ness + t2 - > ang [ 1 ] [ 2 ] * f2ness ;
result [ 7 ] = t1 - > org [ 1 ] * f1ness + t2 - > org [ 1 ] * f2ness ;
result [ 8 ] = t1 - > ang [ 2 ] [ 0 ] * f1ness + t2 - > ang [ 2 ] [ 0 ] * f2ness ;
result [ 9 ] = t1 - > ang [ 2 ] [ 1 ] * f1ness + t2 - > ang [ 2 ] [ 1 ] * f2ness ;
result [ 10 ] = t1 - > ang [ 2 ] [ 2 ] * f1ness + t2 - > ang [ 2 ] [ 2 ] * f2ness ;
result [ 11 ] = t1 - > org [ 2 ] * f1ness + t2 - > org [ 2 ] * f2ness ;
}
VectorNormalize ( result ) ;
VectorNormalize ( result + 4 ) ;
VectorNormalize ( result + 8 ) ;
return true ;
}
# endif
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}
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# endif
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return false ;
}
int Mod_TagNumForName ( model_t * model , const char * name )
{
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# ifdef SKELORTAGS
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int i ;
galiasinfo_t * inf ;
if ( ! model )
return 0 ;
if ( model - > loadstate ! = MLS_LOADED )
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{
if ( model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( model - > loadstate ! = MLS_LOADED )
return 0 ;
}
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# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
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return HLMDL_BoneForName ( model , name ) ;
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# endif
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if ( model - > type = = mod_alias )
{
inf = Mod_Extradata ( model ) ;
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# ifdef SKELETALMODELS
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if ( inf - > numbones )
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{
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galiasbone_t * b ;
b = inf - > ofsbones ;
for ( i = 0 ; i < inf - > numbones ; i + + )
{
if ( ! strcmp ( b [ i ] . name , name ) )
return i + 1 ;
}
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}
# endif
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# ifdef MD3MODELS
if ( inf - > numtags )
{
md3tag_t * t = inf - > ofstags ;
for ( i = 0 ; i < inf - > numtags ; i + + )
{
if ( ! strcmp ( t [ i ] . name , name ) )
return i + 1 ;
}
}
# endif
return 0 ;
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}
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# endif
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return 0 ;
}
int Mod_FrameNumForName ( model_t * model , int surfaceidx , const char * name )
{
galiasanimation_t * group ;
galiasinfo_t * inf ;
int i ;
if ( ! model )
return - 1 ;
# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
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return HLMDL_FrameForName ( model , name ) ;
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# endif
if ( model - > type ! = mod_alias )
return 0 ;
inf = Mod_Extradata ( model ) ;
while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( inf )
{
group = inf - > ofsanimations ;
for ( i = 0 ; i < inf - > numanimations ; i + + , group + + )
{
if ( ! strcmp ( group - > name , name ) )
return i ;
}
}
return - 1 ;
}
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int Mod_FrameNumForAction ( model_t * model , int surfaceidx , int actionid )
{
galiasanimation_t * group ;
galiasinfo_t * inf ;
int i ;
float weight ;
if ( ! model )
return - 1 ;
# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
return HLMDL_FrameForAction ( model , actionid ) ;
# endif
if ( model - > type ! = mod_alias )
return - 1 ;
inf = Mod_Extradata ( model ) ;
while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( inf )
{
for ( i = 0 , weight = 0 , group = inf - > ofsanimations ; i < inf - > numanimations ; i + + , group + + )
{
if ( group - > action = = actionid )
weight + = group - > actionweight ;
}
weight * = frandom ( ) ;
for ( i = 0 , group = inf - > ofsanimations ; i < inf - > numanimations ; i + + , group + + )
{
if ( group - > action = = actionid )
{
if ( weight < = group - > actionweight )
return i ;
weight - = group - > actionweight ;
}
}
}
return - 1 ;
}
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qboolean Mod_GetModelEvent ( model_t * model , int animation , int eventidx , float * timestamp , int * eventcode , char * * eventdata )
{
if ( ! model )
return false ;
if ( model - > type = = mod_alias )
{
galiasinfo_t * inf = Mod_Extradata ( model ) ;
if ( inf & & animation > = 0 & & animation < inf - > numanimations )
{
galiasanimation_t * anim = inf - > ofsanimations + animation ;
galiasevent_t * ev = anim - > events ;
while ( eventidx - - > 0 & & ev )
ev = ev - > next ;
if ( ev )
{
* timestamp = ev - > timestamp ;
* eventcode = ev - > code ;
* eventdata = ev - > data ;
return true ;
}
}
}
# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
return HLMDL_GetModelEvent ( model , animation , eventidx , timestamp , eventcode , eventdata ) ;
# endif
return false ;
}
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# ifndef SERVERONLY
int Mod_SkinNumForName ( model_t * model , int surfaceidx , const char * name )
{
int i ;
galiasinfo_t * inf ;
galiasskin_t * skin ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
{
if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED | | model - > type ! = mod_alias )
return - 1 ;
}
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inf = Mod_Extradata ( model ) ;
while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( inf )
{
skin = inf - > ofsskins ;
for ( i = 0 ; i < inf - > numskins ; i + + , skin + + )
{
if ( ! strcmp ( skin - > name , name ) )
return i ;
}
}
return - 1 ;
}
# endif
const char * Mod_FrameNameForNum ( model_t * model , int surfaceidx , int num )
{
galiasanimation_t * group ;
galiasinfo_t * inf ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
{
if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED )
return NULL ;
}
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if ( model - > type = = mod_alias )
{
inf = Mod_Extradata ( model ) ;
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while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
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if ( ! inf | | num > = inf - > numanimations )
return NULL ;
group = inf - > ofsanimations ;
return group [ num ] . name ;
}
# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
return HLMDL_FrameNameForNum ( model , surfaceidx , num ) ;
# endif
return NULL ;
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}
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qboolean Mod_FrameInfoForNum ( model_t * model , int surfaceidx , int num , char * * name , int * numframes , float * duration , qboolean * loop , int * act )
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{
galiasanimation_t * group ;
galiasinfo_t * inf ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
{
if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED )
return false ;
}
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if ( model - > type = = mod_alias )
{
inf = Mod_Extradata ( model ) ;
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while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
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if ( ! inf | | num > = inf - > numanimations )
return false ;
group = inf - > ofsanimations ;
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* name = group [ num ] . name ;
* numframes = group [ num ] . numposes ;
* loop = group [ num ] . loop ;
* duration = group - > numposes / group - > rate ;
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* act = group [ num ] . action ;
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return true ;
}
# ifdef HALFLIFEMODELS
if ( model - > type = = mod_halflife )
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return HLMDL_FrameInfoForNum ( model , surfaceidx , num , name , numframes , duration , loop , act ) ;
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# endif
return false ;
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}
# ifndef SERVERONLY
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shader_t * Mod_ShaderForSkin ( model_t * model , int surfaceidx , int num , float time , texnums_t * * out_texnums )
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{
galiasinfo_t * inf ;
galiasskin_t * skin ;
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skinframe_t * skinframe ;
* out_texnums = NULL ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
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{
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if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED )
return NULL ;
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}
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switch ( model - > type )
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{
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case mod_brush :
if ( surfaceidx < model - > numtextures & & ! num )
return model - > textures [ surfaceidx ] - > shader ;
return NULL ;
case mod_alias :
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inf = Mod_Extradata ( model ) ;
while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
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if ( ! inf | | num > = inf - > numskins )
return NULL ;
skin = inf - > ofsskins ;
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skin + = num ;
skinframe = skin - > frame ;
if ( skin - > numframes )
skinframe + = ( int ) ( time * skin - > skinspeed ) % skin - > numframes ;
* out_texnums = & skinframe - > texnums ;
return skinframe - > shader ;
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default :
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return NULL ;
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}
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}
# endif
const char * Mod_SkinNameForNum ( model_t * model , int surfaceidx , int num )
{
# ifdef SERVERONLY
return NULL ;
# else
galiasinfo_t * inf ;
galiasskin_t * skin ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
{
if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED )
return NULL ;
}
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switch ( model - > type )
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{
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case mod_brush :
if ( surfaceidx < model - > numtextures & & ! num )
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return " " ;
return NULL ;
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case mod_alias :
inf = Mod_Extradata ( model ) ;
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while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( ! inf | | num > = inf - > numskins )
return NULL ;
skin = inf - > ofsskins ;
// if (!*skin[num].name)
// return skin[num].frame[0].shadername;
// else
return skin [ num ] . name ;
default :
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return NULL ;
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}
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# endif
}
const char * Mod_SurfaceNameForNum ( model_t * model , int num )
{
# ifdef SERVERONLY
return NULL ;
# else
galiasinfo_t * inf ;
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if ( ! model | | model - > loadstate ! = MLS_LOADED )
{
if ( model & & model - > loadstate = = MLS_NOTLOADED )
Mod_LoadModel ( model , MLV_SILENT ) ;
if ( model & & model - > loadstate = = MLS_LOADING )
COM_WorkerPartialSync ( model , & model - > loadstate , MLS_LOADING ) ;
if ( ! model | | model - > loadstate ! = MLS_LOADED )
return NULL ;
}
switch ( model - > type )
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{
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case mod_brush :
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if ( model - > type = = mod_brush & & num < model - > numtextures )
return model - > textures [ num ] - > name ;
return NULL ;
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case mod_halflife :
return NULL ;
case mod_alias :
inf = Mod_Extradata ( model ) ;
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while ( num - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( inf )
return inf - > surfacename ;
else
return NULL ;
case mod_sprite :
case mod_dummy :
case mod_heightmap :
default :
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return NULL ;
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}
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# endif
}
float Mod_GetFrameDuration ( model_t * model , int surfaceidx , int frameno )
{
galiasinfo_t * inf ;
galiasanimation_t * group ;
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# ifdef HALFLIFEMODELS
if ( model & & model - > type = = mod_halflife ) {
int unused ;
float duration ;
char * name ;
qboolean loop ;
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int act ;
HLMDL_FrameInfoForNum ( model , surfaceidx , frameno , & name , & unused , & duration , & loop , & act ) ;
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return duration ;
}
# endif
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if ( ! model | | model - > type ! = mod_alias )
return 0 ;
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inf = Mod_Extradata ( model ) ;
while ( surfaceidx - - > 0 & & inf )
inf = inf - > nextsurf ;
if ( inf )
{
group = inf - > ofsanimations ;
if ( frameno > = 0 & & frameno < inf - > numanimations )
{
group + = frameno ;
return group - > numposes / group - > rate ;
}
}
return 0 ;
}
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int Mod_GetFrameCount ( struct model_s * model )
{
if ( ! model )
return 0 ;
return model - > numframes ;
}
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# ifdef MD3MODELS
//structures from Tenebrae
typedef struct {
int ident ;
int version ;
char name [ 64 ] ;
int flags ; //Does anyone know what these are?
int numFrames ;
int numTags ;
int numSurfaces ;
int numSkins ;
int ofsFrames ;
int ofsTags ;
int ofsSurfaces ;
int ofsEnd ;
} md3Header_t ;
//then has header->numFrames of these at header->ofs_Frames
typedef struct md3Frame_s {
vec3_t bounds [ 2 ] ;
vec3_t localOrigin ;
float radius ;
char name [ 16 ] ;
} md3Frame_t ;
//there are header->numSurfaces of these at header->ofsSurfaces, following from ofsEnd
typedef struct {
int ident ; //
char name [ 64 ] ; // polyset name
int flags ;
int numFrames ; // all surfaces in a model should have the same
int numShaders ; // all surfaces in a model should have the same
int numVerts ;
int numTriangles ;
int ofsTriangles ;
int ofsShaders ; // offset from start of md3Surface_t
int ofsSt ; // texture coords are common for all frames
int ofsXyzNormals ; // numVerts * numFrames
int ofsEnd ; // next surface follows
} md3Surface_t ;
//at surf+surf->ofsXyzNormals
typedef struct {
short xyz [ 3 ] ;
qbyte latlong [ 2 ] ;
} md3XyzNormal_t ;
//surf->numTriangles at surf+surf->ofsTriangles
typedef struct {
int indexes [ 3 ] ;
} md3Triangle_t ;
//surf->numVerts at surf+surf->ofsSt
typedef struct {
float s ;
float t ;
} md3St_t ;
typedef struct {
char name [ 64 ] ;
int shaderIndex ;
} md3Shader_t ;
//End of Tenebrae 'assistance'
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//q3 loads foo.md3, foo_1.md3, foo_2.md3 etc
static galiasinfo_t * Mod_LoadQ3ModelLod ( model_t * mod , int * surfcount , void * buffer , size_t fsize )
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{
# ifndef SERVERONLY
galiasskin_t * skin ;
skinframe_t * frames ;
float lat , lng ;
md3St_t * inst ;
vec3_t * normals ;
vec3_t * svector ;
vec3_t * tvector ;
vec2_t * st_array ;
md3Shader_t * inshader ;
int externalskins ;
# endif
// int version;
int s , i , j , d ;
index_t * indexes ;
vec3_t min ;
vec3_t max ;
galiaspose_t * pose ;
galiasanimation_t * group ;
vecV_t * verts ;
md3Triangle_t * intris ;
md3XyzNormal_t * invert ;
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galiasinfo_t * first = NULL ;
galiasinfo_t * * surflink = & first ;
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int size ;
md3Header_t * header ;
md3Surface_t * surf ;
galiasinfo_t * galias ;
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unsigned int numposes , numverts ;
frameinfo_t * framegroups ;
unsigned int numgroups ;
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header = buffer ;
// if (header->version != sdfs)
// Sys_Error("GL_LoadQ3Model: Bad version\n");
# ifndef SERVERONLY
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
2017-02-27 09:34:35 +00:00
externalskins = Mod_CountSkinFiles ( mod ) ;
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# endif
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framegroups = ParseFrameInfo ( mod - > name , & numgroups ) ;
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ClearBounds ( min , max ) ;
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surf = ( md3Surface_t * ) ( ( qbyte * ) header + LittleLong ( header - > ofsSurfaces ) ) ;
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for ( s = 0 ; s < LittleLong ( header - > numSurfaces ) ; s + + , * surfcount + = 1 )
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{
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if ( memcmp ( & surf - > ident , MD3_IDENT ) )
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Con_Printf ( CON_WARNING " Warning: md3 sub-surface doesn't match ident \n " ) ;
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if ( ! framegroups )
numgroups = LittleLong ( header - > numFrames ) ;
numposes = LittleLong ( surf - > numFrames ) ;
numverts = LittleLong ( surf - > numVerts ) ;
size = sizeof ( galiasinfo_t ) + sizeof ( galiasanimation_t ) * numgroups ;
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galias = ZG_Malloc ( & mod - > memgroup , size ) ;
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Mod_DefaultMesh ( galias , surf - > name , s ) ;
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galias - > ofsanimations = group = ( galiasanimation_t * ) ( galias + 1 ) ; //frame groups
galias - > numanimations = numgroups ;
galias - > numverts = numverts ;
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galias - > numindexes = LittleLong ( surf - > numTriangles ) * 3 ;
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galias - > shares_verts = * surfcount ; //with itself, so no sharing.
if ( ! first )
first = galias ;
* surflink = galias ;
surflink = & galias - > nextsurf ;
galias - > nextsurf = NULL ;
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//load the texcoords
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# ifndef SERVERONLY
st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( vec2_t ) * galias - > numindexes ) ;
galias - > ofs_st_array = st_array ;
inst = ( md3St_t * ) ( ( qbyte * ) surf + LittleLong ( surf - > ofsSt ) ) ;
for ( i = 0 ; i < galias - > numverts ; i + + )
{
st_array [ i ] [ 0 ] = LittleFloat ( inst [ i ] . s ) ;
st_array [ i ] [ 1 ] = LittleFloat ( inst [ i ] . t ) ;
}
# endif
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//load the index data
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indexes = ZG_Malloc ( & mod - > memgroup , sizeof ( * indexes ) * galias - > numindexes ) ;
galias - > ofs_indexes = indexes ;
intris = ( md3Triangle_t * ) ( ( qbyte * ) surf + LittleLong ( surf - > ofsTriangles ) ) ;
for ( i = 0 ; i < LittleLong ( surf - > numTriangles ) ; i + + )
{
indexes [ i * 3 + 0 ] = LittleLong ( intris [ i ] . indexes [ 0 ] ) ;
indexes [ i * 3 + 1 ] = LittleLong ( intris [ i ] . indexes [ 1 ] ) ;
indexes [ i * 3 + 2 ] = LittleLong ( intris [ i ] . indexes [ 2 ] ) ;
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if ( indexes [ i * 3 + 0 ] > = numverts | | indexes [ i * 3 + 1 ] > = numverts | | indexes [ i * 3 + 2 ] > = numverts )
{
Con_Printf ( CON_WARNING " Warning: surface %s has invalid vertex indexes \n " , galias - > surfacename ) ;
indexes [ i * 3 + 0 ] = indexes [ i * 3 + 1 ] = indexes [ i * 3 + 2 ] = 0 ;
}
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}
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//figure out where we're putting the pose data
size = sizeof ( galiaspose_t ) + sizeof ( vecV_t ) * numverts ;
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# ifndef SERVERONLY
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size + = 3 * sizeof ( vec3_t ) * numverts ;
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# endif
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size * = numposes ;
pose = ( galiaspose_t * ) ZG_Malloc ( & mod - > memgroup , size ) ;
verts = ( vecV_t * ) ( pose + numposes ) ;
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# ifndef SERVERONLY
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normals = ( vec3_t * ) ( verts + numverts * numposes ) ;
svector = ( vec3_t * ) ( normals + numverts * numposes ) ;
tvector = ( vec3_t * ) ( svector + numverts * numposes ) ;
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# endif
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if ( framegroups )
{ //group the poses into animations.
for ( i = 0 ; i < numgroups ; i + + )
{
int first = framegroups [ i ] . firstpose , count = framegroups [ i ] . posecount ;
if ( first > = numposes ) //bound the numbers.
first = numposes - 1 ;
if ( first < 0 )
first = 0 ;
if ( count > numposes - first )
count = numposes - first ;
if ( count < 0 )
count = 0 ;
Q_snprintfz ( group - > name , sizeof ( group - > name ) , " %s " , framegroups [ i ] . name ) ;
group - > numposes = count ;
group - > rate = framegroups [ i ] . fps ;
group - > poseofs = pose + first ;
group - > loop = framegroups [ i ] . loop ;
group - > events = NULL ;
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group - > action = - 1 ;
group - > actionweight = 0 ;
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group + + ;
}
}
else
{ //raw poses, no animations.
for ( i = 0 ; i < numgroups ; i + + )
{
Q_snprintfz ( group - > name , sizeof ( group - > name ) , " frame%i " , i ) ;
group - > numposes = 1 ;
group - > rate = 1 ;
group - > poseofs = pose + i ;
group - > loop = false ;
group - > events = NULL ;
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group - > action = - 1 ;
group - > actionweight = 0 ;
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group + + ;
}
}
//load in that per-pose data
invert = ( md3XyzNormal_t * ) ( ( qbyte * ) surf + LittleLong ( surf - > ofsXyzNormals ) ) ;
for ( i = 0 ; i < numposes ; i + + )
{
for ( j = 0 ; j < numverts ; j + + )
2016-07-12 00:40:13 +00:00
{
# ifndef SERVERONLY
lat = ( float ) invert [ j ] . latlong [ 0 ] * ( 2 * M_PI ) * ( 1.0 / 255.0 ) ;
lng = ( float ) invert [ j ] . latlong [ 1 ] * ( 2 * M_PI ) * ( 1.0 / 255.0 ) ;
normals [ j ] [ 0 ] = cos ( lng ) * sin ( lat ) ;
normals [ j ] [ 1 ] = sin ( lng ) * sin ( lat ) ;
normals [ j ] [ 2 ] = cos ( lat ) ;
# endif
for ( d = 0 ; d < 3 ; d + + )
{
verts [ j ] [ d ] = LittleShort ( invert [ j ] . xyz [ d ] ) / 64.0f ;
if ( verts [ j ] [ d ] < min [ d ] )
min [ d ] = verts [ j ] [ d ] ;
if ( verts [ j ] [ d ] > max [ d ] )
max [ d ] = verts [ j ] [ d ] ;
}
}
pose - > scale [ 0 ] = 1 ;
pose - > scale [ 1 ] = 1 ;
pose - > scale [ 2 ] = 1 ;
pose - > scale_origin [ 0 ] = 0 ;
pose - > scale_origin [ 1 ] = 0 ;
pose - > scale_origin [ 2 ] = 0 ;
invert + = LittleLong ( surf - > numVerts ) ;
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pose - > ofsverts = verts ;
verts + = numverts ;
# ifndef SERVERONLY
pose - > ofsnormals = normals ;
normals + = numverts ;
pose - > ofssvector = svector ;
svector + = numverts ;
pose - > ofstvector = tvector ;
tvector + = numverts ;
# endif
pose + + ;
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}
# ifndef SERVERONLY
if ( externalskins < LittleLong ( surf - > numShaders ) )
externalskins = LittleLong ( surf - > numShaders ) ;
if ( externalskins )
{
skin = ZG_Malloc ( & mod - > memgroup , ( externalskins ) * ( ( sizeof ( galiasskin_t ) + sizeof ( skinframe_t ) ) ) ) ;
galias - > ofsskins = skin ;
frames = ( skinframe_t * ) ( skin + externalskins ) ;
inshader = ( md3Shader_t * ) ( ( qbyte * ) surf + LittleLong ( surf - > ofsShaders ) ) ;
for ( i = 0 ; i < externalskins ; i + + )
{
skin - > numframes = 1 ;
skin - > frame = & frames [ i ] ;
skin - > skinwidth = 0 ;
skin - > skinheight = 0 ;
skin - > skinspeed = 0 ;
if ( i > = LittleLong ( surf - > numShaders ) )
Q_strncpyz ( frames - > shadername , " " , sizeof ( frames - > shadername ) ) ; //this shouldn't be possible
else
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{
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Q_strncpyz ( frames - > shadername , inshader - > name , sizeof ( frames - > shadername ) ) ;
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Q_strncpyz ( skin - > name , inshader - > name , sizeof ( frames - > shadername ) ) ;
}
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inshader + + ;
skin + + ;
}
galias - > numskins = i ;
}
# endif
Mod_CompileTriangleNeighbours ( mod , galias ) ;
Mod_BuildTextureVectors ( galias ) ;
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//if the surfacename is eg _1 then strip that off.
//this works around q3data requiring different surface names in higher lod levels (and matches q3).
size = strlen ( galias - > surfacename ) ;
if ( size > 2 & & galias - > surfacename [ size - 2 ] = = ' _ ' )
galias - > surfacename [ size - 2 ] = 0 ;
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surf = ( md3Surface_t * ) ( ( qbyte * ) surf + LittleLong ( surf - > ofsEnd ) ) ;
}
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AddPointToBounds ( min , mod - > mins , mod - > maxs ) ;
AddPointToBounds ( max , mod - > mins , mod - > maxs ) ;
return first ;
}
static qboolean QDECL Mod_LoadQ3Model ( model_t * mod , void * buffer , size_t fsize )
{
// int version;
galiasinfo_t * root ;
md3Header_t * header ;
int lod ;
int surfcount = 0 ;
header = buffer ;
// if (header->version != sdfs)
// Sys_Error("GL_LoadQ3Model: Bad version\n");
root = NULL ;
ClearBounds ( mod - > mins , mod - > maxs ) ;
mod - > meshinfo = Mod_LoadQ3ModelLod ( mod , & surfcount , buffer , fsize ) ;
if ( mod - > meshinfo )
{
const char * ext = COM_GetFileExtension ( mod - > name , NULL ) ;
if ( * ext = = ' . ' & & ext - mod - > name < MAX_QPATH )
{
galiasinfo_t * sublod ;
sublod = mod - > meshinfo ;
for ( lod = 1 ; lod > 0 ; lod + + )
{
size_t s ;
char * f ;
char basename [ MAX_QPATH ] ;
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char lodname [ MAX_QPATH ] ;
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memcpy ( basename , mod - > name , ext - mod - > name ) ;
basename [ ext - mod - > name ] = 0 ;
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Q_snprintfz ( lodname , sizeof ( lodname ) , " %s_%i%s " , basename , lod , ext ) ;
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f = FS_LoadMallocFile ( lodname , & s ) ;
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if ( ! f )
break ;
root = sublod ;
sublod = Mod_LoadQ3ModelLod ( mod , & surfcount , f , s ) ;
if ( sublod )
{
for ( ; ; )
{
root - > maxdist = lod ;
if ( ! root - > nextsurf )
break ;
root = root - > nextsurf ;
}
root - > nextsurf = sublod ;
for ( root = sublod ; root ; root = root - > nextsurf )
root - > mindist = lod ;
mod - > maxlod = lod + 1 ;
}
else
lod = - 1 ;
FS_FreeFile ( f ) ;
}
}
}
root = mod - > meshinfo ;
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if ( ! root )
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{
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root = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasinfo_t ) ) ;
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Mod_DefaultMesh ( root , mod - > name , 0 ) ;
}
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root - > numtagframes = LittleLong ( header - > numFrames ) ;
root - > numtags = LittleLong ( header - > numTags ) ;
root - > ofstags = ZG_Malloc ( & mod - > memgroup , LittleLong ( header - > numTags ) * sizeof ( md3tag_t ) * LittleLong ( header - > numFrames ) ) ;
{
md3tag_t * src ;
md3tag_t * dst ;
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int s , i , j ;
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src = ( md3tag_t * ) ( ( char * ) header + LittleLong ( header - > ofsTags ) ) ;
dst = root - > ofstags ;
for ( i = 0 ; i < LittleLong ( header - > numTags ) * LittleLong ( header - > numFrames ) ; i + + )
{
memcpy ( dst - > name , src - > name , sizeof ( dst - > name ) ) ;
for ( j = 0 ; j < 3 ; j + + )
{
dst - > org [ j ] = LittleFloat ( src - > org [ j ] ) ;
}
for ( j = 0 ; j < 3 ; j + + )
{
for ( s = 0 ; s < 3 ; s + + )
{
dst - > ang [ j ] [ s ] = LittleFloat ( src - > ang [ j ] [ s ] ) ;
}
}
src + + ;
dst + + ;
}
}
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mod - > radius = RadiusFromBounds ( mod - > mins , mod - > maxs ) ;
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# ifndef SERVERONLY
if ( mod_md3flags . value )
mod - > flags = LittleLong ( header - > flags ) ;
else
# endif
mod - > flags = 0 ;
if ( ! mod - > flags )
mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ;
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > type = mod_alias ;
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mod - > numframes = root - > numanimations ;
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mod - > meshinfo = root ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif
# ifdef ZYMOTICMODELS
typedef struct zymlump_s
{
int start ;
int length ;
} zymlump_t ;
typedef struct zymtype1header_s
{
char id [ 12 ] ; // "ZYMOTICMODEL", length 12, no termination
int type ; // 0 (vertex morph) 1 (skeletal pose) or 2 (skeletal scripted)
int filesize ; // size of entire model file
float mins [ 3 ] , maxs [ 3 ] , radius ; // for clipping uses
int numverts ;
int numtris ;
int numsurfaces ;
int numbones ; // this may be zero in the vertex morph format (undecided)
int numscenes ; // 0 in skeletal scripted models
// skeletal pose header
// lump offsets are relative to the file
zymlump_t lump_scenes ; // zymscene_t scene[numscenes]; // name and other information for each scene (see zymscene struct)
zymlump_t lump_poses ; // float pose[numposes][numbones][6]; // animation data
zymlump_t lump_bones ; // zymbone_t bone[numbones];
zymlump_t lump_vertbonecounts ; // int vertbonecounts[numvertices]; // how many bones influence each vertex (separate mainly to make this compress better)
zymlump_t lump_verts ; // zymvertex_t vert[numvertices]; // see vertex struct
zymlump_t lump_texcoords ; // float texcoords[numvertices][2];
zymlump_t lump_render ; // int renderlist[rendersize]; // sorted by shader with run lengths (int count), shaders are sequentially used, each run can be used with glDrawElements (each triangle is 3 int indices)
zymlump_t lump_surfnames ; // char shadername[numsurfaces][32]; // shaders used on this model
zymlump_t lump_trizone ; // byte trizone[numtris]; // see trizone explanation
} zymtype1header_t ;
typedef struct zymbone_s
{
char name [ 32 ] ;
int flags ;
int parent ; // parent bone number
} zymbone_t ;
typedef struct zymscene_s
{
char name [ 32 ] ;
float mins [ 3 ] , maxs [ 3 ] , radius ; // for clipping
float framerate ; // the scene will animate at this framerate (in frames per second)
int flags ;
int start , length ; // range of poses
} zymscene_t ;
# define ZYMSCENEFLAG_NOLOOP 1
typedef struct zymvertex_s
{
int bonenum ;
float origin [ 3 ] ;
} zymvertex_t ;
//this can generate multiple meshes (one for each shader).
//but only one set of transforms are ever generated.
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static qboolean QDECL Mod_LoadZymoticModel ( model_t * mod , void * buffer , size_t fsize )
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{
# ifndef SERVERONLY
galiasskin_t * skin ;
skinframe_t * skinframe ;
int skinfiles ;
int j ;
# endif
int i ;
zymtype1header_t * header ;
galiasinfo_t * root ;
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size_t numtransforms ;
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galisskeletaltransforms_t * transforms ;
zymvertex_t * intrans ;
galiasbone_t * bone ;
zymbone_t * inbone ;
int v ;
float multiplier ;
float * matrix , * inmatrix ;
vec2_t * stcoords ;
vec2_t * inst ;
int * vertbonecounts ;
galiasanimation_t * grp ;
zymscene_t * inscene ;
int * renderlist , count ;
index_t * indexes ;
char * surfname ;
header = buffer ;
if ( memcmp ( header - > id , " ZYMOTICMODEL " , 12 ) )
{
Con_Printf ( " Mod_LoadZymoticModel: %s, doesn't appear to BE a zymotic! \n " , mod - > name ) ;
return false ;
}
if ( BigLong ( header - > type ) ! = 1 )
{
Con_Printf ( " Mod_LoadZymoticModel: %s, only type 1 is supported \n " , mod - > name ) ;
return false ;
}
for ( i = 0 ; i < sizeof ( zymtype1header_t ) / 4 ; i + + )
( ( int * ) header ) [ i ] = BigLong ( ( ( int * ) header ) [ i ] ) ;
if ( ! header - > numverts )
{
Con_Printf ( " Mod_LoadZymoticModel: %s, no vertexes \n " , mod - > name ) ;
return false ;
}
if ( ! header - > numsurfaces )
{
Con_Printf ( " Mod_LoadZymoticModel: %s, no surfaces \n " , mod - > name ) ;
return false ;
}
VectorCopy ( header - > mins , mod - > mins ) ;
VectorCopy ( header - > maxs , mod - > maxs ) ;
root = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasinfo_t ) * header - > numsurfaces ) ;
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numtransforms = header - > lump_verts . length / sizeof ( zymvertex_t ) ;
transforms = Z_Malloc ( numtransforms * sizeof ( * transforms ) ) ;
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vertbonecounts = ( int * ) ( ( char * ) header + header - > lump_vertbonecounts . start ) ;
intrans = ( zymvertex_t * ) ( ( char * ) header + header - > lump_verts . start ) ;
vertbonecounts [ 0 ] = BigLong ( vertbonecounts [ 0 ] ) ;
multiplier = 1.0f / vertbonecounts [ 0 ] ;
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for ( i = 0 , v = 0 ; i < numtransforms ; i + + )
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{
while ( ! vertbonecounts [ v ] )
{
v + + ;
if ( v = = header - > numverts )
{
Con_Printf ( " Mod_LoadZymoticModel: %s, too many transformations \n " , mod - > name ) ;
return false ;
}
vertbonecounts [ v ] = BigLong ( vertbonecounts [ v ] ) ;
multiplier = 1.0f / vertbonecounts [ v ] ;
}
transforms [ i ] . vertexindex = v ;
transforms [ i ] . boneindex = BigLong ( intrans [ i ] . bonenum ) ;
transforms [ i ] . org [ 0 ] = multiplier * BigFloat ( intrans [ i ] . origin [ 0 ] ) ;
transforms [ i ] . org [ 1 ] = multiplier * BigFloat ( intrans [ i ] . origin [ 1 ] ) ;
transforms [ i ] . org [ 2 ] = multiplier * BigFloat ( intrans [ i ] . origin [ 2 ] ) ;
transforms [ i ] . org [ 3 ] = multiplier * 1 ;
vertbonecounts [ v ] - - ;
}
if ( intrans ! = ( zymvertex_t * ) ( ( char * ) header + header - > lump_verts . start ) )
{
Con_Printf ( CON_ERROR " %s, Vertex transforms list appears corrupt. \n " , mod - > name ) ;
return false ;
}
if ( vertbonecounts ! = ( int * ) ( ( char * ) header + header - > lump_vertbonecounts . start ) )
{
Con_Printf ( CON_ERROR " %s, Vertex bone counts list appears corrupt. \n " , mod - > name ) ;
return false ;
}
root - > numverts = v + 1 ;
root - > numbones = header - > numbones ;
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bone = ZG_Malloc ( & mod - > memgroup , numtransforms * sizeof ( * transforms ) ) ;
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inbone = ( zymbone_t * ) ( ( char * ) header + header - > lump_bones . start ) ;
for ( i = 0 ; i < root - > numbones ; i + + )
{
Q_strncpyz ( bone [ i ] . name , inbone [ i ] . name , sizeof ( bone [ i ] . name ) ) ;
bone [ i ] . parent = BigLong ( inbone [ i ] . parent ) ;
}
root - > ofsbones = bone ;
renderlist = ( int * ) ( ( char * ) header + header - > lump_render . start ) ;
for ( i = 0 ; i < header - > numsurfaces ; i + + )
{
count = BigLong ( * renderlist + + ) ;
count * = 3 ;
indexes = ZG_Malloc ( & mod - > memgroup , count * sizeof ( * indexes ) ) ;
root [ i ] . ofs_indexes = indexes ;
root [ i ] . numindexes = count ;
while ( count )
{ //invert
indexes [ count - 1 ] = BigLong ( renderlist [ count - 3 ] ) ;
indexes [ count - 2 ] = BigLong ( renderlist [ count - 2 ] ) ;
indexes [ count - 3 ] = BigLong ( renderlist [ count - 1 ] ) ;
count - = 3 ;
}
renderlist + = root [ i ] . numindexes ;
}
if ( renderlist ! = ( int * ) ( ( char * ) header + header - > lump_render . start + header - > lump_render . length ) )
{
Con_Printf ( CON_ERROR " %s, render list appears corrupt. \n " , mod - > name ) ;
return false ;
}
grp = ZG_Malloc ( & mod - > memgroup , sizeof ( * grp ) * header - > numscenes * header - > numsurfaces ) ;
matrix = ZG_Malloc ( & mod - > memgroup , header - > lump_poses . length ) ;
inmatrix = ( float * ) ( ( char * ) header + header - > lump_poses . start ) ;
for ( i = 0 ; i < header - > lump_poses . length / 4 ; i + + )
matrix [ i ] = BigFloat ( inmatrix [ i ] ) ;
inscene = ( zymscene_t * ) ( ( char * ) header + header - > lump_scenes . start ) ;
surfname = ( ( char * ) header + header - > lump_surfnames . start ) ;
stcoords = ZG_Malloc ( & mod - > memgroup , root [ 0 ] . numverts * sizeof ( vec2_t ) ) ;
inst = ( vec2_t * ) ( ( char * ) header + header - > lump_texcoords . start ) ;
for ( i = 0 ; i < header - > lump_texcoords . length / 8 ; i + + )
{
stcoords [ i ] [ 0 ] = BigFloat ( inst [ i ] [ 0 ] ) ;
stcoords [ i ] [ 1 ] = 1 - BigFloat ( inst [ i ] [ 1 ] ) ; //hmm. upside down skin coords?
}
# ifndef SERVERONLY
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
2017-02-27 09:34:35 +00:00
skinfiles = Mod_CountSkinFiles ( mod ) ;
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if ( skinfiles < 1 )
skinfiles = 1 ;
skin = ZG_Malloc ( & mod - > memgroup , ( sizeof ( galiasskin_t ) + sizeof ( skinframe_t ) ) * skinfiles * header - > numsurfaces ) ;
skinframe = ( skinframe_t * ) ( skin + skinfiles * header - > numsurfaces ) ;
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# endif
for ( i = 0 ; i < header - > numsurfaces ; i + + , surfname + = 32 )
{
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Mod_DefaultMesh ( & root [ i ] , surfname , i ) ;
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root [ i ] . numanimations = header - > numscenes ;
root [ i ] . ofsanimations = grp ;
# ifdef SERVERONLY
root [ i ] . numskins = 1 ;
# else
root [ i ] . ofs_st_array = stcoords ;
root [ i ] . numskins = skinfiles ;
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root [ i ] . ofsskins = skin ;
2016-07-12 00:40:13 +00:00
2016-12-13 11:50:15 +00:00
for ( j = 0 ; j < skinfiles ; j + + )
2016-07-12 00:40:13 +00:00
{
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skin - > skinwidth = 1 ;
skin - > skinheight = 1 ;
skin - > skinspeed = 10 ; /*something to avoid div-by-0*/
skin - > numframes = 1 ; //non-sequenced skins.
skin - > frame = skinframe ;
skin + + ;
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2016-12-13 11:50:15 +00:00
Q_strncpyz ( skinframe - > shadername , surfname , sizeof ( skinframe - > shadername ) ) ;
skinframe + + ;
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}
# endif
}
for ( i = 0 ; i < header - > numscenes ; i + + , grp + + , inscene + + )
{
Q_strncpyz ( grp - > name , inscene - > name , sizeof ( grp - > name ) ) ;
grp - > skeltype = SKEL_RELATIVE ;
grp - > rate = BigFloat ( inscene - > framerate ) ;
grp - > loop = ! ( BigLong ( inscene - > flags ) & ZYMSCENEFLAG_NOLOOP ) ;
grp - > numposes = BigLong ( inscene - > length ) ;
grp - > boneofs = matrix + BigLong ( inscene - > start ) * 12 * root - > numbones ;
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grp - > action = - 1 ;
grp - > actionweight = 0 ;
2016-07-12 00:40:13 +00:00
}
if ( inscene ! = ( zymscene_t * ) ( ( char * ) header + header - > lump_scenes . start + header - > lump_scenes . length ) )
{
Con_Printf ( CON_ERROR " %s, scene list appears corrupt. \n " , mod - > name ) ;
return false ;
}
2018-09-24 08:15:55 +00:00
Alias_BuildGPUWeights ( mod , root , numtransforms , transforms , true ) ;
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for ( i = 0 ; i < header - > numsurfaces - 1 ; i + + )
root [ i ] . nextsurf = & root [ i + 1 ] ;
for ( i = 1 ; i < header - > numsurfaces ; i + + )
{
2018-09-24 08:15:55 +00:00
root [ i ] . ofs_skel_xyz = root [ 0 ] . ofs_skel_xyz ;
root [ i ] . ofs_skel_norm = root [ 0 ] . ofs_skel_norm ;
root [ i ] . ofs_skel_svect = root [ 0 ] . ofs_skel_svect ;
root [ i ] . ofs_skel_tvect = root [ 0 ] . ofs_skel_tvect ;
root [ i ] . ofs_skel_idx = root [ 0 ] . ofs_skel_idx ;
root [ i ] . ofs_skel_weight = root [ 0 ] . ofs_skel_weight ;
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root [ i ] . shares_verts = 0 ;
root [ i ] . numbones = root [ 0 ] . numbones ;
root [ i ] . numverts = root [ 0 ] . numverts ;
root [ i ] . ofsbones = root [ 0 ] . ofsbones ;
}
2016-12-13 11:50:15 +00:00
Z_Free ( transforms ) ;
2016-07-12 00:40:13 +00:00
mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ; //file replacement - inherit flags from any defunc mdl files.
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > meshinfo = root ;
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mod - > numframes = root - > numanimations ;
2016-07-12 00:40:13 +00:00
mod - > type = mod_alias ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif //ZYMOTICMODELS
///////////////////////////////////////////////////////////////
//psk
# ifdef PSKMODELS
/*Typedefs copied from DarkPlaces*/
2018-07-22 11:49:37 +00:00
extern cvar_t dpcompat_psa_ungroup ;
2016-07-12 00:40:13 +00:00
typedef struct pskchunk_s
{
// id is one of the following:
// .psk:
// ACTRHEAD (recordsize = 0, numrecords = 0)
// PNTS0000 (recordsize = 12, pskpnts_t)
// VTXW0000 (recordsize = 16, pskvtxw_t)
// FACE0000 (recordsize = 12, pskface_t)
// MATT0000 (recordsize = 88, pskmatt_t)
// REFSKELT (recordsize = 120, pskboneinfo_t)
// RAWWEIGHTS (recordsize = 12, pskrawweights_t)
// .psa:
// ANIMHEAD (recordsize = 0, numrecords = 0)
// BONENAMES (recordsize = 120, pskboneinfo_t)
// ANIMINFO (recordsize = 168, pskaniminfo_t)
// ANIMKEYS (recordsize = 32, pskanimkeys_t)
char id [ 20 ] ;
// in .psk always 0x1e83b9
// in .psa always 0x2e
int version ;
int recordsize ;
int numrecords ;
} pskchunk_t ;
typedef struct pskpnts_s
{
float origin [ 3 ] ;
} pskpnts_t ;
typedef struct pskvtxw_s
{
unsigned short pntsindex ; // index into PNTS0000 chunk
unsigned char unknown1 [ 2 ] ; // seems to be garbage
float texcoord [ 2 ] ;
unsigned char mattindex ; // index into MATT0000 chunk
unsigned char unknown2 ; // always 0?
unsigned char unknown3 [ 2 ] ; // seems to be garbage
} pskvtxw_t ;
typedef struct pskface_s
{
unsigned short vtxwindex [ 3 ] ; // triangle
unsigned char mattindex ; // index into MATT0000 chunk
unsigned char unknown ; // seems to be garbage
unsigned int group ; // faces seem to be grouped, possibly for smoothing?
} pskface_t ;
typedef struct pskmatt_s
{
char name [ 64 ] ;
int unknown [ 6 ] ; // observed 0 0 0 0 5 0
} pskmatt_t ;
typedef struct pskpose_s
{
float quat [ 4 ] ;
float origin [ 3 ] ;
float unknown ; // probably a float, always seems to be 0
float size [ 3 ] ;
} pskpose_t ;
typedef struct pskboneinfo_s
{
char name [ 64 ] ;
int unknown1 ;
int numchildren ;
int parent ; // root bones have 0 here
pskpose_t basepose ;
} pskboneinfo_t ;
typedef struct pskrawweights_s
{
float weight ;
int pntsindex ;
int boneindex ;
} pskrawweights_t ;
typedef struct pskaniminfo_s
{
char name [ 64 ] ;
char group [ 64 ] ;
int numbones ;
int unknown1 ;
int unknown2 ;
int unknown3 ;
float unknown4 ;
float playtime ; // not really needed
float fps ; // frames per second
int unknown5 ;
int firstframe ;
int numframes ;
// firstanimkeys = (firstframe + frameindex) * numbones
} pskaniminfo_t ;
typedef struct pskanimkeys_s
{
float origin [ 3 ] ;
float quat [ 4 ] ;
float frametime ;
} pskanimkeys_t ;
2018-10-11 10:31:23 +00:00
static qboolean QDECL Mod_LoadPSKModel ( model_t * mod , void * buffer , size_t fsize )
2016-07-12 00:40:13 +00:00
{
pskchunk_t * chunk ;
unsigned int pos = 0 ;
unsigned int i , j ;
qboolean fail = false ;
char basename [ MAX_QPATH ] ;
char psaname [ MAX_QPATH ] ;
galiasinfo_t * gmdl ;
# ifndef SERVERONLY
vec2_t * stcoord ;
galiasskin_t * skin ;
skinframe_t * sframes ;
# endif
galiasbone_t * bones ;
galiasanimation_t * group ;
float * animmatrix , * basematrix ;
index_t * indexes ;
int bonemap [ MAX_BONES ] ;
char * e ;
size_t psasize ;
void * psabuffer ;
pskpnts_t * pnts = NULL ;
pskvtxw_t * vtxw = NULL ;
pskface_t * face = NULL ;
pskmatt_t * matt = NULL ;
pskboneinfo_t * boneinfo = NULL ;
pskrawweights_t * rawweights = NULL ;
unsigned int num_pnts , num_vtxw = 0 , num_face = 0 , num_matt = 0 , num_boneinfo = 0 , num_rawweights = 0 ;
pskaniminfo_t * animinfo = NULL ;
pskanimkeys_t * animkeys = NULL ;
unsigned int num_animinfo = 0 , num_animkeys = 0 ;
vecV_t * skel_xyz ;
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vec3_t * skel_norm , * skel_svect , * skel_tvect ;
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bone_vec4_t * skel_idx ;
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vec4_t * skel_weights ;
/*load the psk*/
while ( pos < fsize & & ! fail )
{
chunk = ( pskchunk_t * ) ( ( char * ) buffer + pos ) ;
chunk - > version = LittleLong ( chunk - > version ) ;
chunk - > recordsize = LittleLong ( chunk - > recordsize ) ;
chunk - > numrecords = LittleLong ( chunk - > numrecords ) ;
pos + = sizeof ( * chunk ) ;
if ( ! strcmp ( " ACTRHEAD " , chunk - > id ) & & chunk - > recordsize = = 0 & & chunk - > numrecords = = 0 )
{
}
else if ( ! strcmp ( " PNTS0000 " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskpnts_t ) )
{
num_pnts = chunk - > numrecords ;
pnts = ( pskpnts_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_pnts ; i + + )
{
pnts [ i ] . origin [ 0 ] = LittleFloat ( pnts [ i ] . origin [ 0 ] ) ;
pnts [ i ] . origin [ 1 ] = LittleFloat ( pnts [ i ] . origin [ 1 ] ) ;
pnts [ i ] . origin [ 2 ] = LittleFloat ( pnts [ i ] . origin [ 2 ] ) ;
}
}
else if ( ! strcmp ( " VTXW0000 " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskvtxw_t ) )
{
num_vtxw = chunk - > numrecords ;
vtxw = ( pskvtxw_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_vtxw ; i + + )
{
vtxw [ i ] . pntsindex = LittleShort ( vtxw [ i ] . pntsindex ) ;
vtxw [ i ] . texcoord [ 0 ] = LittleFloat ( vtxw [ i ] . texcoord [ 0 ] ) ;
vtxw [ i ] . texcoord [ 1 ] = LittleFloat ( vtxw [ i ] . texcoord [ 1 ] ) ;
}
}
else if ( ! strcmp ( " FACE0000 " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskface_t ) )
{
num_face = chunk - > numrecords ;
face = ( pskface_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_face ; i + + )
{
face [ i ] . vtxwindex [ 0 ] = LittleShort ( face [ i ] . vtxwindex [ 0 ] ) ;
face [ i ] . vtxwindex [ 1 ] = LittleShort ( face [ i ] . vtxwindex [ 1 ] ) ;
face [ i ] . vtxwindex [ 2 ] = LittleShort ( face [ i ] . vtxwindex [ 2 ] ) ;
}
}
else if ( ! strcmp ( " MATT0000 " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskmatt_t ) )
{
num_matt = chunk - > numrecords ;
matt = ( pskmatt_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
}
else if ( ! strcmp ( " REFSKELT " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskboneinfo_t ) )
{
num_boneinfo = chunk - > numrecords ;
boneinfo = ( pskboneinfo_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_boneinfo ; i + + )
{
boneinfo [ i ] . parent = LittleLong ( boneinfo [ i ] . parent ) ;
boneinfo [ i ] . basepose . origin [ 0 ] = LittleFloat ( boneinfo [ i ] . basepose . origin [ 0 ] ) ;
boneinfo [ i ] . basepose . origin [ 1 ] = LittleFloat ( boneinfo [ i ] . basepose . origin [ 1 ] ) ;
boneinfo [ i ] . basepose . origin [ 2 ] = LittleFloat ( boneinfo [ i ] . basepose . origin [ 2 ] ) ;
boneinfo [ i ] . basepose . quat [ 0 ] = LittleFloat ( boneinfo [ i ] . basepose . quat [ 0 ] ) ;
boneinfo [ i ] . basepose . quat [ 1 ] = LittleFloat ( boneinfo [ i ] . basepose . quat [ 1 ] ) ;
boneinfo [ i ] . basepose . quat [ 2 ] = LittleFloat ( boneinfo [ i ] . basepose . quat [ 2 ] ) ;
boneinfo [ i ] . basepose . quat [ 3 ] = LittleFloat ( boneinfo [ i ] . basepose . quat [ 3 ] ) ;
boneinfo [ i ] . basepose . size [ 0 ] = LittleFloat ( boneinfo [ i ] . basepose . size [ 0 ] ) ;
boneinfo [ i ] . basepose . size [ 1 ] = LittleFloat ( boneinfo [ i ] . basepose . size [ 1 ] ) ;
boneinfo [ i ] . basepose . size [ 2 ] = LittleFloat ( boneinfo [ i ] . basepose . size [ 2 ] ) ;
/*not sure if this is needed, but mimic DP*/
if ( i )
{
boneinfo [ i ] . basepose . quat [ 0 ] * = - 1 ;
boneinfo [ i ] . basepose . quat [ 2 ] * = - 1 ;
}
boneinfo [ i ] . basepose . quat [ 1 ] * = - 1 ;
}
}
else if ( ! strcmp ( " RAWWEIGHTS " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskrawweights_t ) )
{
num_rawweights = chunk - > numrecords ;
rawweights = ( pskrawweights_t * ) ( ( char * ) buffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_rawweights ; i + + )
{
rawweights [ i ] . boneindex = LittleLong ( rawweights [ i ] . boneindex ) ;
rawweights [ i ] . pntsindex = LittleLong ( rawweights [ i ] . pntsindex ) ;
rawweights [ i ] . weight = LittleFloat ( rawweights [ i ] . weight ) ;
}
}
else
{
Con_Printf ( CON_ERROR " %s has unsupported chunk %s of %i size with version %i. \n " , mod - > name , chunk - > id , chunk - > recordsize , chunk - > version ) ;
fail = true ;
}
}
if ( ! num_matt )
fail = true ;
if ( ! pnts | | ! vtxw | | ! face | | ! matt | | ! boneinfo | | ! rawweights )
fail = true ;
/*attempt to load a psa file. don't die if we can't find one*/
COM_StripExtension ( mod - > name , psaname , sizeof ( psaname ) ) ;
Q_strncatz ( psaname , " .psa " , sizeof ( psaname ) ) ;
buffer = NULL ; //test
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psabuffer = FS_LoadMallocFile ( psaname , & psasize ) ;
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if ( psabuffer )
{
pos = 0 ;
while ( pos < psasize & & ! fail )
{
chunk = ( pskchunk_t * ) ( ( char * ) psabuffer + pos ) ;
chunk - > version = LittleLong ( chunk - > version ) ;
chunk - > recordsize = LittleLong ( chunk - > recordsize ) ;
chunk - > numrecords = LittleLong ( chunk - > numrecords ) ;
pos + = sizeof ( * chunk ) ;
if ( ! strcmp ( " ANIMHEAD " , chunk - > id ) & & chunk - > recordsize = = 0 & & chunk - > numrecords = = 0 )
{
}
else if ( ! strcmp ( " BONENAMES " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskboneinfo_t ) )
{
/*parsed purely to ensure that the bones match the main model*/
pskboneinfo_t * animbones = ( pskboneinfo_t * ) ( ( char * ) psabuffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
if ( num_boneinfo ! = chunk - > numrecords )
{
fail = true ;
Con_Printf ( " PSK/PSA bone counts do not match \n " ) ;
}
else
{
for ( i = 0 ; i < num_boneinfo ; i + + )
{
/*assumption: 1:1 mapping will be common*/
if ( ! strcmp ( boneinfo [ i ] . name , animbones [ i ] . name ) )
bonemap [ i ] = i ;
else
{
/*non 1:1 mapping*/
for ( j = 0 ; j < chunk - > numrecords ; j + + )
{
if ( ! strcmp ( boneinfo [ i ] . name , animbones [ j ] . name ) )
{
bonemap [ i ] = j ;
break ;
}
}
if ( j = = chunk - > numrecords )
{
fail = true ;
Con_Printf ( " PSK bone %s does not exist in PSA %s \n " , boneinfo [ i ] . name , basename ) ;
break ;
}
}
}
}
}
else if ( ! strcmp ( " ANIMINFO " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskaniminfo_t ) )
{
num_animinfo = chunk - > numrecords ;
animinfo = ( pskaniminfo_t * ) ( ( char * ) psabuffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_animinfo ; i + + )
{
animinfo [ i ] . firstframe = LittleLong ( animinfo [ i ] . firstframe ) ;
animinfo [ i ] . numframes = LittleLong ( animinfo [ i ] . numframes ) ;
animinfo [ i ] . numbones = LittleLong ( animinfo [ i ] . numbones ) ;
animinfo [ i ] . fps = LittleFloat ( animinfo [ i ] . fps ) ;
animinfo [ i ] . playtime = LittleFloat ( animinfo [ i ] . playtime ) ;
}
}
else if ( ! strcmp ( " ANIMKEYS " , chunk - > id ) & & chunk - > recordsize = = sizeof ( pskanimkeys_t ) )
{
num_animkeys = chunk - > numrecords ;
animkeys = ( pskanimkeys_t * ) ( ( char * ) psabuffer + pos ) ;
pos + = chunk - > recordsize * chunk - > numrecords ;
for ( i = 0 ; i < num_animkeys ; i + + )
{
animkeys [ i ] . origin [ 0 ] = LittleFloat ( animkeys [ i ] . origin [ 0 ] ) ;
animkeys [ i ] . origin [ 1 ] = LittleFloat ( animkeys [ i ] . origin [ 1 ] ) ;
animkeys [ i ] . origin [ 2 ] = LittleFloat ( animkeys [ i ] . origin [ 2 ] ) ;
animkeys [ i ] . quat [ 0 ] = LittleFloat ( animkeys [ i ] . quat [ 0 ] ) ;
animkeys [ i ] . quat [ 1 ] = LittleFloat ( animkeys [ i ] . quat [ 1 ] ) ;
animkeys [ i ] . quat [ 2 ] = LittleFloat ( animkeys [ i ] . quat [ 2 ] ) ;
animkeys [ i ] . quat [ 3 ] = LittleFloat ( animkeys [ i ] . quat [ 3 ] ) ;
/*not sure if this is needed, but mimic DP*/
if ( i % num_boneinfo )
{
animkeys [ i ] . quat [ 0 ] * = - 1 ;
animkeys [ i ] . quat [ 2 ] * = - 1 ;
}
animkeys [ i ] . quat [ 1 ] * = - 1 ;
}
}
else if ( ! strcmp ( " SCALEKEYS " , chunk - > id ) & & chunk - > recordsize = = 16 )
{
pos + = chunk - > recordsize * chunk - > numrecords ;
}
else
{
Con_Printf ( CON_ERROR " %s has unsupported chunk %s of %i size with version %i. \n " , va ( " %s.psa " , basename ) , chunk - > id , chunk - > recordsize , chunk - > version ) ;
fail = true ;
}
}
if ( fail )
{
animinfo = NULL ;
num_animinfo = 0 ;
animkeys = NULL ;
num_animkeys = 0 ;
fail = false ;
}
}
if ( fail )
{
BZ_Free ( psabuffer ) ;
return false ;
}
gmdl = ZG_Malloc ( & mod - > memgroup , sizeof ( * gmdl ) * num_matt ) ;
/*bones!*/
bones = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasbone_t ) * num_boneinfo ) ;
for ( i = 0 ; i < num_boneinfo ; i + + )
{
Q_strncpyz ( bones [ i ] . name , boneinfo [ i ] . name , sizeof ( bones [ i ] . name ) ) ;
e = bones [ i ] . name + strlen ( bones [ i ] . name ) ;
while ( e > bones [ i ] . name & & e [ - 1 ] = = ' ' )
* - - e = 0 ;
bones [ i ] . parent = boneinfo [ i ] . parent ;
if ( i = = 0 & & bones [ i ] . parent = = 0 )
bones [ i ] . parent = - 1 ;
else if ( bones [ i ] . parent > = i | | bones [ i ] . parent < - 1 )
{
Con_Printf ( " Invalid bones \n " ) ;
break ;
}
}
basematrix = ZG_Malloc ( & mod - > memgroup , num_boneinfo * sizeof ( float ) * 12 ) ;
for ( i = 0 ; i < num_boneinfo ; i + + )
{
float tmp [ 12 ] ;
PSKGenMatrix (
boneinfo [ i ] . basepose . origin [ 0 ] , boneinfo [ i ] . basepose . origin [ 1 ] , boneinfo [ i ] . basepose . origin [ 2 ] ,
boneinfo [ i ] . basepose . quat [ 0 ] , boneinfo [ i ] . basepose . quat [ 1 ] , boneinfo [ i ] . basepose . quat [ 2 ] , boneinfo [ i ] . basepose . quat [ 3 ] ,
tmp ) ;
if ( bones [ i ] . parent < 0 )
memcpy ( basematrix + i * 12 , tmp , sizeof ( float ) * 12 ) ;
else
R_ConcatTransforms ( ( void * ) ( basematrix + bones [ i ] . parent * 12 ) , ( void * ) tmp , ( void * ) ( basematrix + i * 12 ) ) ;
}
for ( i = 0 ; i < num_boneinfo ; i + + )
{
Matrix3x4_Invert_Simple ( basematrix + i * 12 , bones [ i ] . inverse ) ;
}
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skel_xyz = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_xyz ) * num_vtxw ) ;
skel_norm = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_norm ) * num_vtxw ) ;
skel_svect = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_svect ) * num_vtxw ) ;
skel_tvect = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_tvect ) * num_vtxw ) ;
skel_idx = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_idx ) * num_vtxw ) ;
skel_weights = ZG_Malloc ( & mod - > memgroup , sizeof ( * skel_weights ) * num_vtxw ) ;
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for ( j = 0 ; j < 4 ; j + + )
skel_idx [ i ] [ j ] = ~ 0 ;
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for ( i = 0 ; i < num_vtxw ; i + + )
{
float t ;
for ( j = 0 ; j < num_rawweights ; j + + )
{
if ( rawweights [ j ] . pntsindex = = vtxw [ i ] . pntsindex )
{
int in , lin = - 1 ;
float liv = rawweights [ j ] . weight ;
for ( in = 0 ; in < 4 ; in + + )
{
if ( liv > skel_weights [ i ] [ in ] )
{
liv = skel_weights [ i ] [ in ] ;
lin = in ;
if ( ! liv )
break ;
}
}
if ( lin > = 0 )
{
skel_idx [ i ] [ lin ] = rawweights [ j ] . boneindex ;
skel_weights [ i ] [ lin ] = rawweights [ j ] . weight ;
}
}
}
t = 0 ;
for ( j = 0 ; j < 4 ; j + + )
t + = skel_weights [ i ] [ j ] ;
if ( t ! = 1 )
for ( j = 0 ; j < 4 ; j + + )
skel_weights [ i ] [ j ] * = 1 / t ;
skel_xyz [ i ] [ 0 ] = pnts [ vtxw [ i ] . pntsindex ] . origin [ 0 ] ;
skel_xyz [ i ] [ 1 ] = pnts [ vtxw [ i ] . pntsindex ] . origin [ 1 ] ;
skel_xyz [ i ] [ 2 ] = pnts [ vtxw [ i ] . pntsindex ] . origin [ 2 ] ;
}
# ifndef SERVERONLY
/*st coords, all share the same list*/
stcoord = ZG_Malloc ( & mod - > memgroup , sizeof ( vec2_t ) * num_vtxw ) ;
for ( i = 0 ; i < num_vtxw ; i + + )
{
stcoord [ i ] [ 0 ] = vtxw [ i ] . texcoord [ 0 ] ;
stcoord [ i ] [ 1 ] = vtxw [ i ] . texcoord [ 1 ] ;
}
# endif
/*allocate faces in a single block, as we at least know an upper bound*/
indexes = ZG_Malloc ( & mod - > memgroup , sizeof ( index_t ) * num_face * 3 ) ;
if ( animinfo & & animkeys )
{
int numgroups = 0 ;
frameinfo_t * frameinfo = ParseFrameInfo ( mod - > name , & numgroups ) ;
if ( numgroups )
{
/*externally supplied listing of frames. ignore all framegroups in the model and use only the pose info*/
group = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * numgroups + num_animkeys * sizeof ( float ) * 12 ) ;
animmatrix = ( float * ) ( group + numgroups ) ;
for ( j = 0 ; j < numgroups ; j + + )
{
/*bound check*/
if ( frameinfo [ j ] . firstpose + frameinfo [ j ] . posecount > num_animkeys )
frameinfo [ j ] . posecount = num_animkeys - frameinfo [ j ] . firstpose ;
if ( frameinfo [ j ] . firstpose > = num_animkeys )
{
frameinfo [ j ] . firstpose = 0 ;
frameinfo [ j ] . posecount = 1 ;
}
group [ j ] . boneofs = animmatrix + 12 * num_boneinfo * frameinfo [ j ] . firstpose ;
group [ j ] . numposes = frameinfo [ j ] . posecount ;
if ( * frameinfo [ j ] . name )
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Q_snprintfz ( group [ j ] . name , sizeof ( group [ j ] . name ) , " %s " , frameinfo [ j ] . name ) ;
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else
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Q_snprintfz ( group [ j ] . name , sizeof ( group [ j ] . name ) , " frame_%i " , j ) ;
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group [ j ] . loop = frameinfo [ j ] . loop ;
group [ j ] . rate = frameinfo [ j ] . fps ;
group [ j ] . skeltype = SKEL_RELATIVE ;
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group [ j ] . action = - 1 ;
group [ j ] . actionweight = 0 ;
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}
num_animinfo = numgroups ;
}
2019-04-16 22:40:05 +00:00
# ifndef HAVE_LEGACY
2016-07-12 00:40:13 +00:00
else if ( dpcompat_psa_ungroup . ival )
{
/*unpack each frame of each animation to be a separate framegroup*/
unsigned int iframe ; /*individual frame count*/
iframe = 0 ;
for ( i = 0 ; i < num_animinfo ; i + + )
iframe + = animinfo [ i ] . numframes ;
group = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * iframe + num_animkeys * sizeof ( float ) * 12 ) ;
animmatrix = ( float * ) ( group + iframe ) ;
iframe = 0 ;
for ( j = 0 ; j < num_animinfo ; j + + )
{
for ( i = 0 ; i < animinfo [ j ] . numframes ; i + + )
{
group [ iframe ] . boneofs = animmatrix + 12 * num_boneinfo * ( animinfo [ j ] . firstframe + i ) ;
group [ iframe ] . numposes = 1 ;
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Q_snprintfz ( group [ iframe ] . name , sizeof ( group [ iframe ] . name ) , " %s_%i " , animinfo [ j ] . name , i ) ;
2016-07-12 00:40:13 +00:00
group [ iframe ] . loop = true ;
group [ iframe ] . rate = animinfo [ j ] . fps ;
group [ iframe ] . skeltype = SKEL_RELATIVE ;
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group [ iframe ] . action = - 1 ;
group [ iframe ] . actionweight = 0 ;
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iframe + + ;
}
}
num_animinfo = iframe ;
}
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# endif
2016-07-12 00:40:13 +00:00
else
{
/*keep each framegroup as a group*/
group = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * num_animinfo + num_animkeys * sizeof ( float ) * 12 ) ;
animmatrix = ( float * ) ( group + num_animinfo ) ;
for ( i = 0 ; i < num_animinfo ; i + + )
{
group [ i ] . boneofs = animmatrix + 12 * num_boneinfo * animinfo [ i ] . firstframe ;
group [ i ] . numposes = animinfo [ i ] . numframes ;
Q_strncpyz ( group [ i ] . name , animinfo [ i ] . name , sizeof ( group [ i ] . name ) ) ;
group [ i ] . loop = true ;
group [ i ] . rate = animinfo [ i ] . fps ;
group [ i ] . skeltype = SKEL_RELATIVE ;
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group [ i ] . action = - 1 ;
group [ i ] . actionweight = 0 ;
2016-07-12 00:40:13 +00:00
}
}
for ( j = 0 ; j < num_animkeys ; j + = num_boneinfo )
{
pskanimkeys_t * sb ;
for ( i = 0 ; i < num_boneinfo ; i + + )
{
sb = & animkeys [ j + bonemap [ i ] ] ;
PSKGenMatrix (
sb - > origin [ 0 ] , sb - > origin [ 1 ] , sb - > origin [ 2 ] ,
sb - > quat [ 0 ] , sb - > quat [ 1 ] , sb - > quat [ 2 ] , sb - > quat [ 3 ] ,
animmatrix + ( j + i ) * 12 ) ;
}
}
}
else
{
num_animinfo = 1 ;
/*build a base pose*/
group = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) + num_boneinfo * sizeof ( float ) * 12 ) ;
animmatrix = basematrix ;
group - > boneofs = animmatrix ;
group - > numposes = 1 ;
strcpy ( group - > name , " base " ) ;
group - > loop = true ;
group - > rate = 10 ;
group - > skeltype = SKEL_ABSOLUTE ;
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group - > action = - 1 ;
group - > actionweight = 0 ;
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}
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# ifndef SERVERONLY
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//client builds need skin info
2016-07-12 00:40:13 +00:00
skin = ZG_Malloc ( & mod - > memgroup , num_matt * ( sizeof ( galiasskin_t ) + sizeof ( skinframe_t ) ) ) ;
sframes = ( skinframe_t * ) ( skin + num_matt ) ;
for ( i = 0 ; i < num_matt ; i + + , skin + + )
{
skin - > frame = & sframes [ i ] ;
skin - > numframes = 1 ;
skin - > skinspeed = 10 ;
Q_strncpyz ( skin - > name , matt [ i ] . name , sizeof ( skin - > name ) ) ;
Q_strncpyz ( sframes [ i ] . shadername , matt [ i ] . name , sizeof ( sframes [ i ] . shadername ) ) ;
sframes [ i ] . shader = NULL ;
gmdl [ i ] . ofsskins = skin ;
gmdl [ i ] . numskins = 1 ;
gmdl [ i ] . ofs_st_array = stcoord ;
gmdl [ i ] . numverts = num_vtxw ;
# else
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//server-only builds
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for ( i = 0 ; i < num_matt ; i + + )
{
# endif
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//common to all builds
2018-01-03 04:40:06 +00:00
Mod_DefaultMesh ( & gmdl [ i ] , mod - > name , i ) ;
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gmdl [ i ] . ofsanimations = group ;
gmdl [ i ] . numanimations = num_animinfo ;
gmdl [ i ] . numindexes = 0 ;
for ( j = 0 ; j < num_face ; j + + )
{
if ( face [ j ] . mattindex % num_matt = = i )
{
indexes [ gmdl [ i ] . numindexes + 0 ] = face [ j ] . vtxwindex [ 0 ] ;
indexes [ gmdl [ i ] . numindexes + 1 ] = face [ j ] . vtxwindex [ 1 ] ;
indexes [ gmdl [ i ] . numindexes + 2 ] = face [ j ] . vtxwindex [ 2 ] ;
gmdl [ i ] . numindexes + = 3 ;
}
}
gmdl [ i ] . ofs_indexes = indexes ;
indexes + = gmdl [ i ] . numindexes ;
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//all surfaces share bones
gmdl [ i ] . baseframeofs = basematrix ;
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gmdl [ i ] . ofsbones = bones ;
gmdl [ i ] . numbones = num_boneinfo ;
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gmdl [ i ] . shares_bones = 0 ;
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//all surfaces share verts, but not indexes.
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gmdl [ i ] . ofs_skel_idx = skel_idx ;
gmdl [ i ] . ofs_skel_weight = skel_weights ;
gmdl [ i ] . ofs_skel_xyz = skel_xyz ;
gmdl [ i ] . ofs_skel_norm = skel_norm ;
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gmdl [ i ] . ofs_skel_svect = skel_svect ;
gmdl [ i ] . ofs_skel_tvect = skel_tvect ;
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gmdl [ i ] . shares_verts = 0 ;
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gmdl [ i ] . nextsurf = ( i ! = num_matt - 1 ) ? & gmdl [ i + 1 ] : NULL ;
}
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# ifndef SERVERONLY
Mod_AccumulateTextureVectors ( skel_xyz , stcoord , skel_norm , skel_svect , skel_tvect , gmdl [ 0 ] . ofs_indexes , indexes - gmdl [ 0 ] . ofs_indexes , true ) ;
Mod_NormaliseTextureVectors ( skel_norm , skel_svect , skel_tvect , num_vtxw , true ) ;
# endif
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BZ_Free ( psabuffer ) ;
if ( fail )
{
return false ;
}
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// mod->radius = Alias_CalculateSkeletalNormals(gmdl);
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mod - > mins [ 0 ] = mod - > mins [ 1 ] = mod - > mins [ 2 ] = - mod - > radius ;
mod - > maxs [ 0 ] = mod - > maxs [ 1 ] = mod - > maxs [ 2 ] = mod - > radius ;
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mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ; //file replacement - inherit flags from any defunc mdl files.
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , gmdl - > ofsanimations , gmdl - > numanimations ) ;
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mod - > meshinfo = gmdl ;
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mod - > numframes = gmdl - > numanimations ;
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mod - > type = mod_alias ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif
//////////////////////////////////////////////////////////////
//dpm
# ifdef DPMMODELS
// header for the entire file
typedef struct dpmheader_s
{
char id [ 16 ] ; // "DARKPLACESMODEL\0", length 16
unsigned int type ; // 2 (hierarchical skeletal pose)
unsigned int filesize ; // size of entire model file
float mins [ 3 ] , maxs [ 3 ] , yawradius , allradius ; // for clipping uses
// these offsets are relative to the file
unsigned int num_bones ;
unsigned int num_meshs ;
unsigned int num_frames ;
unsigned int ofs_bones ; // dpmbone_t bone[num_bones];
unsigned int ofs_meshs ; // dpmmesh_t mesh[num_meshs];
unsigned int ofs_frames ; // dpmframe_t frame[num_frames];
} dpmheader_t ;
// there may be more than one of these
typedef struct dpmmesh_s
{
// these offsets are relative to the file
char shadername [ 32 ] ; // name of the shader to use
unsigned int num_verts ;
unsigned int num_tris ;
unsigned int ofs_verts ; // dpmvertex_t vert[numvertices]; // see vertex struct
unsigned int ofs_texcoords ; // float texcoords[numvertices][2];
unsigned int ofs_indices ; // unsigned int indices[numtris*3]; // designed for glDrawElements (each triangle is 3 unsigned int indices)
unsigned int ofs_groupids ; // unsigned int groupids[numtris]; // the meaning of these values is entirely up to the gamecode and modeler
} dpmmesh_t ;
// if set on a bone, it must be protected from removal
# define DPMBONEFLAG_ATTACHMENT 1
// one per bone
typedef struct dpmbone_s
{
// name examples: upperleftarm leftfinger1 leftfinger2 hand, etc
char name [ 32 ] ;
// parent bone number
signed int parent ;
// flags for the bone
unsigned int flags ;
} dpmbone_t ;
// a bonepose matrix is intended to be used like this:
// (n = output vertex, v = input vertex, m = matrix, f = influence)
// n[0] = v[0] * m[0][0] + v[1] * m[0][1] + v[2] * m[0][2] + f * m[0][3];
// n[1] = v[0] * m[1][0] + v[1] * m[1][1] + v[2] * m[1][2] + f * m[1][3];
// n[2] = v[0] * m[2][0] + v[1] * m[2][1] + v[2] * m[2][2] + f * m[2][3];
typedef struct dpmbonepose_s
{
float matrix [ 3 ] [ 4 ] ;
} dpmbonepose_t ;
// immediately followed by bone positions for the frame
typedef struct dpmframe_s
{
// name examples: idle_1 idle_2 idle_3 shoot_1 shoot_2 shoot_3, etc
char name [ 32 ] ;
float mins [ 3 ] , maxs [ 3 ] , yawradius , allradius ;
int ofs_bonepositions ; // dpmbonepose_t bonepositions[bones];
} dpmframe_t ;
// one or more of these per vertex
typedef struct dpmbonevert_s
{
float origin [ 3 ] ; // vertex location (these blend)
float influence ; // influence fraction (these must add up to 1)
float normal [ 3 ] ; // surface normal (these blend)
unsigned int bonenum ; // number of the bone
} dpmbonevert_t ;
// variable size, parsed sequentially
typedef struct dpmvertex_s
{
unsigned int numbones ;
// immediately followed by 1 or more dpmbonevert_t structures
} dpmvertex_t ;
2018-10-11 10:31:23 +00:00
static qboolean QDECL Mod_LoadDarkPlacesModel ( model_t * mod , void * buffer , size_t fsize )
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{
# ifndef SERVERONLY
galiasskin_t * skin ;
skinframe_t * skinframe ;
int skinfiles ;
float * inst ;
float * outst ;
# endif
int i , j , k ;
dpmheader_t * header ;
galiasinfo_t * root , * m ;
dpmmesh_t * mesh ;
dpmvertex_t * vert ;
dpmbonevert_t * bonevert ;
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galisskeletaltransforms_t * transforms , * firsttransform ;
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galiasbone_t * outbone ;
dpmbone_t * inbone ;
float * outposedata ;
galiasanimation_t * outgroups ;
float * inposedata ;
dpmframe_t * inframes ;
unsigned int * index ; index_t * outdex ; // groan...
int numtransforms ;
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int numgroups ;
frameinfo_t * framegroups ;
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header = buffer ;
if ( memcmp ( header - > id , " DARKPLACESMODEL \0 " , 16 ) )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: %s, doesn't appear to be a darkplaces model! \n " , mod - > name ) ;
return false ;
}
if ( BigLong ( header - > type ) ! = 2 )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: %s, only type 2 is supported \n " , mod - > name ) ;
return false ;
}
for ( i = 0 ; i < sizeof ( dpmheader_t ) / 4 ; i + + )
( ( int * ) header ) [ i ] = BigLong ( ( ( int * ) header ) [ i ] ) ;
if ( ! header - > num_bones )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: %s, no bones \n " , mod - > name ) ;
return false ;
}
if ( ! header - > num_frames )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: %s, no frames \n " , mod - > name ) ;
return false ;
}
if ( ! header - > num_meshs )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: %s, no surfaces \n " , mod - > name ) ;
return false ;
}
VectorCopy ( header - > mins , mod - > mins ) ;
VectorCopy ( header - > maxs , mod - > maxs ) ;
root = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasinfo_t ) * header - > num_meshs ) ;
outbone = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasbone_t ) * header - > num_bones ) ;
inbone = ( dpmbone_t * ) ( ( char * ) buffer + header - > ofs_bones ) ;
for ( i = 0 ; i < header - > num_bones ; i + + )
{
outbone [ i ] . parent = BigLong ( inbone [ i ] . parent ) ;
if ( outbone [ i ] . parent > = i | | outbone [ i ] . parent < - 1 )
{
Con_Printf ( CON_ERROR " Mod_LoadDarkPlacesModel: bad bone index in %s \n " , mod - > name ) ;
return false ;
}
Q_strncpyz ( outbone [ i ] . name , inbone [ i ] . name , sizeof ( outbone [ i ] . name ) ) ;
//throw away the flags.
}
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framegroups = ParseFrameInfo ( mod - > name , & numgroups ) ;
if ( ! framegroups )
{ //use the dpm's poses directly.
numgroups = header - > num_frames ;
outgroups = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * numgroups + sizeof ( float ) * header - > num_frames * header - > num_bones * 12 ) ;
outposedata = ( float * ) ( outgroups + numgroups ) ;
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inframes = ( dpmframe_t * ) ( ( char * ) buffer + header - > ofs_frames ) ;
for ( i = 0 ; i < numgroups ; i + + )
{
inframes [ i ] . ofs_bonepositions = BigLong ( inframes [ i ] . ofs_bonepositions ) ;
inframes [ i ] . allradius = BigLong ( inframes [ i ] . allradius ) ;
inframes [ i ] . yawradius = BigLong ( inframes [ i ] . yawradius ) ;
inframes [ i ] . mins [ 0 ] = BigLong ( inframes [ i ] . mins [ 0 ] ) ;
inframes [ i ] . mins [ 1 ] = BigLong ( inframes [ i ] . mins [ 1 ] ) ;
inframes [ i ] . mins [ 2 ] = BigLong ( inframes [ i ] . mins [ 2 ] ) ;
inframes [ i ] . maxs [ 0 ] = BigLong ( inframes [ i ] . maxs [ 0 ] ) ;
inframes [ i ] . maxs [ 1 ] = BigLong ( inframes [ i ] . maxs [ 1 ] ) ;
inframes [ i ] . maxs [ 2 ] = BigLong ( inframes [ i ] . maxs [ 2 ] ) ;
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2018-09-24 08:15:55 +00:00
Q_strncpyz ( outgroups [ i ] . name , inframes [ i ] . name , sizeof ( outgroups [ i ] . name ) ) ;
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outgroups [ i ] . rate = 10 ;
outgroups [ i ] . numposes = 1 ;
outgroups [ i ] . skeltype = SKEL_RELATIVE ;
outgroups [ i ] . boneofs = outposedata ;
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outgroups [ i ] . action = - 1 ;
outgroups [ i ] . actionweight = 0 ;
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inposedata = ( float * ) ( ( char * ) buffer + inframes [ i ] . ofs_bonepositions ) ;
for ( j = 0 ; j < header - > num_bones * 12 ; j + + )
* outposedata + + = BigFloat ( * inposedata + + ) ;
}
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}
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else
{ //we read a .framegroups file to remap everything.
outgroups = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * numgroups + sizeof ( float ) * header - > num_frames * header - > num_bones * 12 ) ;
outposedata = ( float * ) ( outgroups + numgroups ) ;
inframes = ( dpmframe_t * ) ( ( char * ) buffer + header - > ofs_frames ) ;
for ( i = 0 ; i < header - > num_frames ; i + + )
{
inposedata = ( float * ) ( ( char * ) buffer + BigLong ( inframes [ i ] . ofs_bonepositions ) ) ;
for ( j = 0 ; j < header - > num_bones * 12 ; j + + )
* outposedata + + = BigFloat ( * inposedata + + ) ;
}
outposedata - = header - > num_frames * header - > num_bones * 12 ;
for ( i = 0 ; i < numgroups ; i + + )
{
int firstpose = framegroups [ i ] . firstpose , numposes = framegroups [ i ] . posecount ;
if ( firstpose > = header - > num_frames )
firstpose = header - > num_frames - 1 ;
if ( firstpose < 0 )
firstpose = 0 ;
if ( numposes < 0 )
numposes = 0 ;
if ( firstpose + numposes > header - > num_frames )
numposes = header - > num_frames - firstpose ;
outgroups [ i ] . skeltype = SKEL_RELATIVE ;
outgroups [ i ] . boneofs = outposedata + firstpose * header - > num_bones * 12 ;
outgroups [ i ] . numposes = numposes ;
outgroups [ i ] . loop = framegroups [ i ] . loop ;
outgroups [ i ] . rate = framegroups [ i ] . fps ;
outgroups [ i ] . events = NULL ;
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outgroups [ i ] . action = - 1 ;
outgroups [ i ] . actionweight = 0 ;
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Q_strncpyz ( outgroups [ i ] . name , framegroups [ i ] . name , sizeof ( outgroups [ i ] . name ) ) ;
}
}
2016-07-12 00:40:13 +00:00
# ifndef SERVERONLY
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
2017-02-27 09:34:35 +00:00
skinfiles = Mod_CountSkinFiles ( mod ) ;
2016-07-12 00:40:13 +00:00
if ( skinfiles < 1 )
skinfiles = 1 ;
# endif
mesh = ( dpmmesh_t * ) ( ( char * ) buffer + header - > ofs_meshs ) ;
for ( i = 0 ; i < header - > num_meshs ; i + + , mesh + + )
{
Too many changes, sorry.
Change revision displays, use the SVN commit date instead of using __DATE__ (when there's no local changes). This should allow reproducible builds.
Added s_al_disable cvar, to block openal and all the various problems people have had with it, without having to name an explicit fallback (which would vary by system).
Add mastervolume cvar (for ss).
Add r_shadows 2 (aka fake shadows - for ss).
Add scr_loadingscreen_aspect -1 setting, to disable levelshots entirely, also disables the progress bar (for ss).
Better support for some effectinfo hacks (for ss).
Added dpcompat_nocsqcwarnings (because of lazy+buggy mods like ss).
Rework the dpcsqc versions of project+unproject builtins for better compat (for ss).
Added dpcompat_csqcinputeventtypes to block unexpected csqc input events (for ss).
Better compat with DP's loadfont console command (for ss).
Added dpcompat_smallerfonts cvar to replicate a DP bug (for ss).
Detect dp's m_draw extension, to work around it (for ss).
Cvar dpcompat_ignoremodificationtimes added. A value of 0 favour the most recently modified file, 1 will use DP-like alphabetically sorted preferences (for ss).
loadfont builtin can now accept outline=1 in the sizes arg for slightly more readable fonts.
Fix bbox calcs for rotated entities, fix needed for r_ignorenetpvs 0.
Hackily parse emoji.json to provide :poop: etc suggestions.
Skip prediction entirely when there's no local entity info. This fixes stair-smoothing in xonotic.
screenshot_cubemap will now capture half-float images when saving to ktx or dds files.
Fix support for xcf files larger than 4gb, mostly to avoid compiler warnings.
Fixed size of gfx/loading.lmp when replacement textures are used.
Added mipmap support for rg8 and l8a8 textures.
r_hdr_framebuffer cvar updated to support format names instead of random negative numbers. Description updated to name some interesting ones.
Perform autoupdate _checks_ ONLY with explicit user confirmation (actual updating already needed user confirmation, but this extra step should reduce the chances of us getting wrongly accused of exfiltrating user data if we're run in a sandbox - we ONLY ever included the updating engine's version in the checks, though there's nothing we can do to avoid sending the user's router's IP).
Removed the 'summon satan all over your harddrive' quit message, in case paranoid security researchers are idiots and don't bother doing actual research.
Removed the triptohell.info and fte.triptohell.info certificates, they really need to stop being self-signed. The updates domain is still self-signed for autoupdates.
Video drivers are now able to report supported video resolutions, visible to menuqc. Currently only works with SDL2 builds.
Added setmousepos builtin. Should work with glx+win32 build.
VF_SKYROOM_CAMERA can now accept an extra two args, setviewprop(VF_SKYROOM_CAMERA, org, axis, degrees).
Removed v_skyroom_origin+v_skyroom_orientation cvars in favour just v_skyroom, which should make it behave more like the 'fog' command (used when csqc isn't overriding).
Added R_EndPolygonRibbon builtin to make it faster+easier to generate textured ribbon/cable/etc wide lines (for TW).
sdl: Fix up sys_sdl.c's file enumeration to support wildcards in directories.
edit command now displays end1.bin/end2.bin correctly, because we can.
Finally add support for f_modified - though ruleset_allow_larger_models and ruleset_allow_overlong_sounds generally make it redundant.
Fix threading race condition in sha1 lookups.
Updated f_ruleset to include the same extra flags reported by ezquake.
A mod's default.fmf file can now contain an eg 'mainconfig config.cfg' line (to explicitly set the main config saved with cfg_save_auto 1 etc).
fmf: basegame steam:GameName/GameDir can be used to try to load a mod directory from an installed steam game. The resulting gamedir will be read-only.
HOMEDIR CHANGE: use homedirs only if the basedir cannot be written or a homedir already exists, which should further reduce the probability of microsoft randomly uploading our data to their cloud (but mostly because its annoying to never know where your data is written).
Fixed buf_cvarlist, should work in xonotic now, and without segfaults.
Added an extra arg to URI_Get_Callback calls - the response size, also changed the tempstring to contain all bytes of the response, you need to be careful about nulls though.
Try to work around nvidia's forced-panning bug on x11 when changing video modes. This might screw with other programs.
sdl: support custom icons.
sdl: support choosing a specific display.
Added some documentation to menuqc builtins.
menusys: use outlines for slightly more readable fonts.
menusys: switch vid_width and vid_height combos into a single video mode combo to set both according to reported video modes.
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5581 fc73d0e0-1445-4013-8a0c-d673dee63da5
2019-11-20 03:09:50 +00:00
m = & root [ i ] ;
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Mod_DefaultMesh ( m , mesh - > shadername , i ) ;
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if ( i < header - > num_meshs - 1 )
m - > nextsurf = & root [ i + 1 ] ;
m - > shares_bones = 0 ;
m - > ofsbones = outbone ;
m - > numbones = header - > num_bones ;
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m - > numanimations = numgroups ;
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m - > ofsanimations = outgroups ;
# ifdef SERVERONLY
m - > numskins = 1 ;
# else
m - > numskins = skinfiles ;
skin = ZG_Malloc ( & mod - > memgroup , ( sizeof ( galiasskin_t ) + sizeof ( skinframe_t ) ) * skinfiles ) ;
skinframe = ( skinframe_t * ) ( skin + skinfiles ) ;
for ( j = 0 ; j < skinfiles ; j + + , skinframe + + )
{
skin [ j ] . numframes = 1 ; //non-sequenced skins.
skin [ j ] . frame = skinframe ;
skin [ j ] . skinwidth = 1 ;
skin [ j ] . skinheight = 1 ;
skin [ j ] . skinspeed = 10 ; /*something to avoid div by 0*/
if ( ! j )
{
Q_strncpyz ( skin [ j ] . name , mesh - > shadername , sizeof ( skin [ j ] . name ) ) ;
Q_strncpyz ( skinframe - > shadername , mesh - > shadername , sizeof ( skin [ j ] . name ) ) ;
}
else
{
Q_strncpyz ( skin [ j ] . name , " " , sizeof ( skin [ j ] . name ) ) ;
Q_strncpyz ( skinframe - > shadername , " " , sizeof ( skin [ j ] . name ) ) ;
}
}
m - > ofsskins = skin ;
# endif
2016-12-13 11:50:15 +00:00
mesh - > num_verts = BigLong ( mesh - > num_verts ) ;
mesh - > num_tris = BigLong ( mesh - > num_tris ) ;
mesh - > ofs_verts = BigLong ( mesh - > ofs_verts ) ;
mesh - > ofs_texcoords = BigLong ( mesh - > ofs_texcoords ) ;
mesh - > ofs_indices = BigLong ( mesh - > ofs_indices ) ;
mesh - > ofs_groupids = BigLong ( mesh - > ofs_groupids ) ;
index = ( unsigned int * ) ( ( char * ) buffer + mesh - > ofs_indices ) ;
outdex = ZG_Malloc ( & mod - > memgroup , mesh - > num_tris * 3 * sizeof ( index_t ) ) ;
m - > ofs_indexes = outdex ;
m - > numindexes = mesh - > num_tris * 3 ;
for ( j = 0 ; j < mesh - > num_tris ; j + + , index + = 3 , outdex + = 3 )
{
outdex [ 0 ] = BigLong ( index [ 2 ] ) ;
outdex [ 1 ] = BigLong ( index [ 1 ] ) ;
outdex [ 2 ] = BigLong ( index [ 0 ] ) ;
}
numtransforms = 0 ;
//count and byteswap the transformations
vert = ( dpmvertex_t * ) ( ( char * ) buffer + mesh - > ofs_verts ) ;
for ( j = 0 ; j < mesh - > num_verts ; j + + )
{
vert - > numbones = BigLong ( vert - > numbones ) ;
numtransforms + = vert - > numbones ;
bonevert = ( dpmbonevert_t * ) ( vert + 1 ) ;
vert = ( dpmvertex_t * ) ( bonevert + vert - > numbones ) ;
}
m = & root [ i ] ;
m - > shares_verts = i ;
m - > shares_bones = 0 ;
# ifndef SERVERONLY
outst = ZG_Malloc ( & mod - > memgroup , mesh - > num_verts * sizeof ( vec2_t ) ) ;
m - > ofs_st_array = ( vec2_t * ) outst ;
m - > numverts = mesh - > num_verts ;
inst = ( float * ) ( ( char * ) buffer + mesh - > ofs_texcoords ) ;
for ( j = 0 ; j < mesh - > num_verts ; j + + , outst + = 2 , inst + = 2 )
{
outst [ 0 ] = BigFloat ( inst [ 0 ] ) ;
outst [ 1 ] = BigFloat ( inst [ 1 ] ) ;
}
# endif
firsttransform = transforms = Z_Malloc ( numtransforms * sizeof ( galisskeletaltransforms_t ) ) ;
//build the transform list.
vert = ( dpmvertex_t * ) ( ( char * ) buffer + mesh - > ofs_verts ) ;
for ( j = 0 ; j < mesh - > num_verts ; j + + )
{
bonevert = ( dpmbonevert_t * ) ( vert + 1 ) ;
for ( k = 0 ; k < vert - > numbones ; k + + , bonevert + + , transforms + + )
{
transforms - > boneindex = BigLong ( bonevert - > bonenum ) ;
transforms - > vertexindex = j ;
transforms - > org [ 0 ] = BigFloat ( bonevert - > origin [ 0 ] ) ;
transforms - > org [ 1 ] = BigFloat ( bonevert - > origin [ 1 ] ) ;
transforms - > org [ 2 ] = BigFloat ( bonevert - > origin [ 2 ] ) ;
transforms - > org [ 3 ] = BigFloat ( bonevert - > influence ) ;
# ifndef SERVERONLY
transforms - > normal [ 0 ] = BigFloat ( bonevert - > normal [ 0 ] ) ;
transforms - > normal [ 1 ] = BigFloat ( bonevert - > normal [ 1 ] ) ;
transforms - > normal [ 2 ] = BigFloat ( bonevert - > normal [ 2 ] ) ;
# endif
}
vert = ( dpmvertex_t * ) bonevert ;
}
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Alias_BuildGPUWeights ( mod , m , numtransforms , firsttransform , false ) ;
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Z_Free ( firsttransform ) ;
}
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mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ; //file replacement - inherit flags from any defunc mdl files.
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > meshinfo = root ;
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mod - > numframes = root - > numanimations ;
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mod - > type = mod_alias ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif //DPMMODELS
# ifdef INTERQUAKEMODELS
# define IQM_MAGIC "INTERQUAKEMODEL"
# define IQM_VERSION1 1
# define IQM_VERSION2 2
struct iqmheader
{
char magic [ 16 ] ;
unsigned int version ;
unsigned int filesize ;
unsigned int flags ;
unsigned int num_text , ofs_text ;
unsigned int num_meshes , ofs_meshes ;
unsigned int num_vertexarrays , num_vertexes , ofs_vertexarrays ;
unsigned int num_triangles , ofs_triangles , ofs_adjacency ;
unsigned int num_joints , ofs_joints ;
unsigned int num_poses , ofs_poses ;
unsigned int num_anims , ofs_anims ;
unsigned int num_frames , num_framechannels , ofs_frames , ofs_bounds ;
unsigned int num_comment , ofs_comment ;
unsigned int num_extensions , ofs_extensions ;
} ;
struct iqmmesh
{
unsigned int name ;
unsigned int material ;
unsigned int first_vertex , num_vertexes ;
unsigned int first_triangle , num_triangles ;
} ;
enum
{
IQM_POSITION = 0 ,
IQM_TEXCOORD = 1 ,
IQM_NORMAL = 2 ,
IQM_TANGENT = 3 ,
IQM_BLENDINDEXES = 4 ,
IQM_BLENDWEIGHTS = 5 ,
IQM_COLOR = 6 ,
IQM_CUSTOM = 0x10
} ;
enum
{
IQM_BYTE = 0 ,
IQM_UBYTE = 1 ,
IQM_SHORT = 2 ,
IQM_USHORT = 3 ,
IQM_INT = 4 ,
IQM_UINT = 5 ,
IQM_HALF = 6 ,
IQM_FLOAT = 7 ,
IQM_DOUBLE = 8 ,
} ;
struct iqmtriangle
{
unsigned int vertex [ 3 ] ;
} ;
struct iqmjoint1
{
unsigned int name ;
int parent ;
float translate [ 3 ] , rotate [ 3 ] , scale [ 3 ] ;
} ;
struct iqmjoint2
{
unsigned int name ;
int parent ;
float translate [ 3 ] , rotate [ 4 ] , scale [ 3 ] ;
} ;
struct iqmpose1
{
int parent ;
unsigned int mask ;
float channeloffset [ 9 ] ;
float channelscale [ 9 ] ;
} ;
struct iqmpose2
{
int parent ;
unsigned int mask ;
float channeloffset [ 10 ] ;
float channelscale [ 10 ] ;
} ;
struct iqmanim
{
unsigned int name ;
unsigned int first_frame , num_frames ;
float framerate ;
unsigned int flags ;
} ;
enum
{
IQM_LOOP = 1 < < 0
} ;
struct iqmvertexarray
{
unsigned int type ;
unsigned int flags ;
unsigned int format ;
unsigned int size ;
unsigned int offset ;
} ;
struct iqmbounds
{
float bbmin [ 3 ] , bbmax [ 3 ] ;
float xyradius , radius ;
} ;
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struct iqmextension
{
unsigned int name ;
unsigned int num_data , ofs_data ;
unsigned int ofs_extensions ; // pointer to next extension. wtf is up with this? how is this not redundant due to ofs_data?
} ;
struct iqmext_fte_mesh
{
unsigned int contents ; //default CONTENTS_BODY
unsigned int surfaceflags ; //propagates to trace_surfaceflags
unsigned int surfaceid ; //the body reported to qc via trace_surface
unsigned int geomset ;
unsigned int geomid ;
float mindist ;
float maxdist ;
} ;
struct iqmext_fte_event
{
unsigned int anim ;
float timestamp ;
unsigned int evcode ;
unsigned int evdata_str ; //stringtable
} ;
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//skin lump is made of 3 parts
struct iqmext_fte_skin
{
unsigned int numskinframes ;
unsigned int nummeshskins ;
//unsigned int numskins[nummeshes];
//iqmext_fte_skin_skinframe[numskinframes];
//iqmext_fte_skin_meshskin mesh0[numskins[0]];
//iqmext_fte_skin_meshskin mesh1[numskins[1]]; etc
} ;
struct iqmext_fte_skin_skinframe
{ //as many as needed
unsigned int material_idx ;
unsigned int shadertext_idx ;
} ;
struct iqmext_fte_skin_meshskin
{
unsigned int firstframe ; //index into skinframes
unsigned int countframes ; //skinframes
float interval ;
} ;
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/*struct iqmext_fte_shader
{
unsigned int material ;
unsigned int defaultshaderbody ;
unsigned int ofs_data ; //rgba or 8bit, depending on whether a palette is specified
unsigned int width ; //if ofs_data
unsigned int height ; //if ofs_data
unsigned int ofs_palette ; //rgba*256. colourmapped if exactly matches quake's palette
} ;
//struct iqmext_fte_ragdoll; // pure text
struct iqmext_fte_bone
{
unsigned int bonegroup ;
} ; */
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/*
galisskeletaltransforms_t * IQM_ImportTransforms ( int * resultcount , int inverts , float * vpos , float * tcoord , float * vnorm , float * vtang , unsigned char * vbone , unsigned char * vweight )
{
galisskeletaltransforms_t * t , * r ;
unsigned int num_t = 0 ;
unsigned int v , j ;
for ( v = 0 ; v < inverts * 4 ; v + + )
{
if ( vweight [ v ] )
num_t + + ;
}
t = r = Hunk_Alloc ( sizeof ( * r ) * num_t ) ;
for ( v = 0 ; v < inverts ; v + + )
{
for ( j = 0 ; j < 4 ; j + + )
{
if ( vweight [ ( v < < 2 ) + j ] )
{
t - > boneindex = vbone [ ( v < < 2 ) + j ] ;
t - > vertexindex = v ;
VectorScale ( vpos , vweight [ ( v < < 2 ) + j ] / 255.0 , t - > org ) ;
VectorScale ( vnorm , vweight [ ( v < < 2 ) + j ] / 255.0 , t - > normal ) ;
t + + ;
}
}
}
return r ;
}
*/
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static qboolean IQM_ImportArray4Bone ( const qbyte * fte_restrict base , const struct iqmvertexarray * fte_restrict src , bone_vec4_t * fte_restrict out , size_t count , unsigned int maxval )
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{
size_t i ;
unsigned int j ;
unsigned int sz = LittleLong ( src - > size ) ;
unsigned int fmt = LittleLong ( src - > format ) ;
unsigned int offset = LittleLong ( src - > offset ) ;
qboolean invalid = false ;
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maxval = min ( MAX_BONES , maxval ) ; //output is bytes.
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if ( ! offset )
{
sz = 0 ;
fmt = IQM_UBYTE ;
}
switch ( fmt )
{
default :
sz = 0 ;
invalid = true ;
break ;
case IQM_BYTE : //FIXME: should be signed, but this makes no sense for our uses
case IQM_UBYTE :
{
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const qbyte * in = ( const qbyte * ) ( base + offset ) ;
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/*if (sz == 4)
memcpy ( out , in , count * sizeof ( * out ) ) ; //the fast path.
else */ for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < 4 & & j < sz ; j + + )
{
if ( in [ i * sz + j ] > = maxval )
{
out [ i ] [ j ] = 0 ;
invalid = true ;
}
else
out [ i ] [ j ] = in [ i * sz + j ] ;
}
}
}
break ;
case IQM_SHORT : //FIXME: should be signed, but this makes no sense for our uses
case IQM_USHORT :
{
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const unsigned short * in = ( const unsigned short * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < 4 & & j < sz ; j + + )
{
if ( in [ i * sz + j ] > = maxval )
{
out [ i ] [ j ] = 0 ;
invalid = true ;
}
else
out [ i ] [ j ] = in [ i * sz + j ] ;
}
}
}
break ;
case IQM_INT : //FIXME: should be signed, but this makes no sense for our uses
case IQM_UINT :
{
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const unsigned int * in = ( const unsigned int * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < 4 & & j < sz ; j + + )
{
if ( in [ i * sz + j ] > = maxval )
{
out [ i ] [ j ] = 0 ;
invalid = true ;
}
else
out [ i ] [ j ] = in [ i * sz + j ] ;
}
}
}
break ;
//float types don't really make sense
}
//if there were not enough elements, pad it.
if ( sz < 4 )
{
for ( i = 0 ; i < count ; i + + )
{
for ( j = sz ; j < 4 ; j + + )
out [ i ] [ j ] = 0 ;
}
}
return ! invalid ;
}
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static void IQM_ImportArrayF ( const qbyte * fte_restrict base , const struct iqmvertexarray * fte_restrict src , float * fte_restrict out , size_t e , size_t count , float * def )
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{
size_t i ;
unsigned int j ;
unsigned int sz = LittleLong ( src - > size ) ;
unsigned int fmt = LittleLong ( src - > format ) ;
unsigned int offset = LittleLong ( src - > offset ) ;
if ( ! offset )
{
sz = 0 ;
fmt = IQM_FLOAT ;
}
switch ( fmt )
{
default :
sz = 0 ;
break ;
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case IQM_BYTE : //negatives not handled properly
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{
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const signed char * in = ( const signed char * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] * ( 1.0 / 127 ) ;
}
}
break ;
case IQM_UBYTE :
{
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const qbyte * in = ( const qbyte * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] * ( 1.0 / 255 ) ;
}
}
break ;
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case IQM_SHORT : //negatives not handled properly
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{
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const signed short * in = ( const signed short * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] * ( 1.0 / 32767 ) ;
}
}
break ;
case IQM_USHORT :
{
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const unsigned short * in = ( const unsigned short * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] * ( 1.0 / 65535 ) ;
}
}
break ;
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case IQM_INT : //negatives not handled properly
{
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const signed int * in = ( const signed int * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] / ( float ) 0x7fffffff ;
}
}
break ;
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case IQM_UINT :
{
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const unsigned int * in = ( const unsigned int * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
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out [ i * e + j ] = in [ i * sz + j ] / ( float ) 0xffffffffu ;
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}
}
break ;
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case IQM_HALF :
# ifdef __F16C__
{ //x86 intrinsics
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const unsigned short * in = ( const unsigned short * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = _cvtsh_ss ( in [ i * sz + j ] ) ;
}
}
# elif 0
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{
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const _Float16 * in = ( const _Float16 * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] ;
}
}
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# else
sz = 0 ;
# endif
break ;
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case IQM_FLOAT :
{
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const float * in = ( const float * ) ( base + offset ) ;
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if ( e = = sz )
memcpy ( out , in , e * sizeof ( float ) * count ) ;
else for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] ;
}
}
break ;
case IQM_DOUBLE :
{
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const double * in = ( const double * ) ( base + offset ) ;
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for ( i = 0 ; i < count ; i + + )
{
for ( j = 0 ; j < e & & j < sz ; j + + )
out [ i * e + j ] = in [ i * sz + j ] ;
}
}
break ;
}
//if there were not enough elements, pad it.
if ( sz < e )
{
for ( i = 0 ; i < count ; i + + )
{
for ( j = sz ; j < e ; j + + )
out [ i * e + j ] = def [ j ] ;
}
}
}
2018-03-04 14:41:16 +00:00
static const void * IQM_FindExtension ( const char * buffer , size_t buffersize , const char * extname , int index , size_t * extsize )
2016-07-12 00:40:13 +00:00
{
2018-11-19 06:37:25 +00:00
const struct iqmheader * h = ( const struct iqmheader * ) buffer ;
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const char * strings = buffer + h - > ofs_text ;
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const struct iqmextension * ext ;
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int i ;
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for ( i = 0 , ext = ( const struct iqmextension * ) ( buffer + h - > ofs_extensions ) ; i < h - > num_extensions ; i + + , ext = ( const struct iqmextension * ) ( buffer + ext - > ofs_extensions ) )
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{
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if ( ( const char * ) ext > buffer + buffersize | | ext - > name > h - > num_text | | ext - > ofs_data + ext - > num_data > buffersize )
2018-03-04 14:41:16 +00:00
break ;
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if ( ! Q_strcasecmp ( strings + ext - > name , extname ) & & index - - > = 0 )
{
* extsize = ext - > num_data ;
return buffer + ext - > ofs_data ;
}
}
* extsize = 0 ;
return NULL ;
}
2016-07-12 00:40:13 +00:00
2019-03-12 05:04:27 +00:00
static void Mod_CleanWeights ( const char * modelname , size_t numverts , vec4_t * oweight , bone_vec4_t * oindex )
2018-01-22 19:18:04 +00:00
{ //some IQMs lack weight values, apparently.
int j , v ;
qboolean problemfound = false ;
for ( v = 0 ; v < numverts ; v + + )
{
float t = oweight [ v ] [ 0 ] + oweight [ v ] [ 1 ] + oweight [ v ] [ 2 ] + oweight [ v ] [ 3 ] ;
if ( ! t )
{
problemfound = true ;
Vector4Set ( oweight [ v ] , 1 , 0 , 0 , 0 ) ;
}
else if ( t < 0.99 | | t > 1.01 )
Vector4Scale ( oweight [ v ] , 1 / t , oweight [ v ] ) ;
//compact any omitted weights...
for ( j = 3 ; j > 0 ; )
{
if ( oweight [ v ] [ j ] & & ! oweight [ v ] [ j - 1 ] )
{
problemfound = true ;
oweight [ v ] [ j - 1 ] = oweight [ v ] [ j ] ;
oindex [ v ] [ j - 1 ] = oindex [ v ] [ j ] ;
oweight [ v ] [ j ] = 0 ;
j + + ; //bubble back up
}
else
j - - ;
}
}
if ( problemfound )
2018-03-04 14:41:16 +00:00
Con_DPrintf ( CON_ERROR " %s has invalid vertex weights. Verticies will probably be attached to the wrong bones \n " , modelname ) ;
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}
2018-10-11 10:31:23 +00:00
static galiasinfo_t * Mod_ParseIQMMeshModel ( model_t * mod , const char * buffer , size_t fsize )
2017-01-13 00:39:50 +00:00
{
2018-11-19 06:37:25 +00:00
const struct iqmheader * h = ( const struct iqmheader * ) buffer ;
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const struct iqmmesh * mesh ;
const struct iqmvertexarray * varray ;
const struct iqmtriangle * tris ;
const struct iqmanim * anim ;
const struct iqmext_fte_mesh * ftemesh ;
const struct iqmext_fte_event * fteevents ;
const char * strings ;
2021-09-03 08:02:21 +00:00
const unsigned int * fteskincount ;
const struct iqmext_fte_skin_meshskin * fteskins ;
const struct iqmext_fte_skin_skinframe * fteskinframes ;
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unsigned int i , j , t , numtris , numverts , firstvert , firsttri ;
size_t extsize ;
2016-07-12 00:40:13 +00:00
2018-11-19 06:37:25 +00:00
const float * vtang = NULL ;
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struct iqmvertexarray vpos = { 0 } , vnorm = { 0 } , vtcoord = { 0 } , vbone = { 0 } , vweight = { 0 } , vrgba = { 0 } ;
unsigned int type , fmt , size , offset ;
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const unsigned short * framedata ;
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vec4_t defaultcolour = { 1 , 1 , 1 , 1 } ;
vec4_t defaultweight = { 0 , 0 , 0 , 0 } ;
vec4_t defaultvert = { 0 , 0 , 0 , 1 } ;
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const struct iqmbounds * inbounds ;
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int memsize ;
qbyte * obase = NULL ;
vecV_t * opos = NULL ;
vec3_t * onorm1 = NULL , * onorm2 = NULL , * onorm3 = NULL ;
vec4_t * oweight = NULL ;
2019-03-12 05:04:27 +00:00
bone_vec4_t * oindex = NULL ;
2016-07-12 00:40:13 +00:00
float * opose = NULL , * oposebase = NULL ;
vec2_t * otcoords = NULL ;
vec4_t * orgbaf = NULL ;
galiasinfo_t * gai = NULL ;
# ifndef SERVERONLY
int skinfiles ;
# endif
galiasanimation_t * fgroup = NULL ;
galiasbone_t * bones = NULL ;
index_t * idx ;
qboolean noweights ;
frameinfo_t * framegroups ;
int numgroups ;
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qboolean fuckedevents = false ;
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if ( memcmp ( h - > magic , IQM_MAGIC , sizeof ( h - > magic ) ) )
{
Con_Printf ( " %s: format not recognised \n " , mod - > name ) ;
return NULL ;
}
if ( h - > version ! = IQM_VERSION1 & & h - > version ! = IQM_VERSION2 )
{
Con_Printf ( " %s: unsupported IQM version \n " , mod - > name ) ;
return NULL ;
}
if ( h - > filesize ! = fsize )
{
Con_Printf ( " %s: size (%u != % " PRIuSIZE " ) \n " , mod - > name , h - > filesize , fsize ) ;
return NULL ;
}
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varray = ( const struct iqmvertexarray * ) ( buffer + h - > ofs_vertexarrays ) ;
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for ( i = 0 ; i < h - > num_vertexarrays ; i + + )
{
type = LittleLong ( varray [ i ] . type ) ;
fmt = LittleLong ( varray [ i ] . format ) ;
size = LittleLong ( varray [ i ] . size ) ;
offset = LittleLong ( varray [ i ] . offset ) ;
if ( type = = IQM_POSITION )
vpos = varray [ i ] ;
else if ( type = = IQM_TEXCOORD )
vtcoord = varray [ i ] ;
else if ( type = = IQM_NORMAL )
vnorm = varray [ i ] ;
else if ( type = = IQM_TANGENT & & fmt = = IQM_FLOAT & & size = = 4 ) /*yup, 4, extra is side, for the bitangent*/
2018-11-19 06:37:25 +00:00
vtang = ( const float * ) ( buffer + offset ) ;
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else if ( type = = IQM_BLENDINDEXES )
vbone = varray [ i ] ;
else if ( type = = IQM_BLENDWEIGHTS )
vweight = varray [ i ] ;
else if ( type = = IQM_COLOR )
vrgba = varray [ i ] ;
else
Con_Printf ( " Unrecognised iqm info (type=%i, fmt=%i, size=%i) \n " , type , fmt , size ) ;
}
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/*if (!h->num_meshes)
2016-07-12 00:40:13 +00:00
{
Con_Printf ( " %s: IQM has no meshes \n " , mod - > name ) ;
return NULL ;
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} */
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//a mesh must contain vertex coords or its not much of a mesh.
//we also require texcoords because we can.
//we don't require normals
//we don't require weights, but such models won't animate.
if ( h - > num_vertexes > 0 & & ( ! vpos . offset | | ! vtcoord . offset ) )
{
Con_Printf ( " %s is missing vertex array data \n " , mod - > name ) ;
return NULL ;
}
noweights = ! vbone . offset | | ! vweight . offset ;
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if ( ! h - > num_meshes )
noweights = true ;
else if ( noweights )
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{
if ( h - > num_frames | | h - > num_anims | | h - > num_joints )
{
Con_Printf ( " %s: animated IQM lacks bone weights \n " , mod - > name ) ;
return NULL ;
}
}
if ( h - > num_joints > MAX_BONES )
{
Con_Printf ( " %s: IQM has %u joints, max supported is %u. \n " , mod - > name , h - > num_joints , MAX_BONES ) ;
return NULL ;
}
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if ( h - > num_poses > MAX_BONES )
{
Con_Printf ( " %s: IQM has %u bones, max supported is %u. \n " , mod - > name , h - > num_joints , MAX_BONES ) ;
return NULL ;
}
if ( h - > num_joints & & h - > num_poses & & h - > num_joints ! = h - > num_poses )
{
Con_Printf ( " %s: IQM has mismatched joints (%i vs %i). \n " , mod - > name , h - > num_joints , h - > num_poses ) ;
return NULL ;
}
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if ( h - > num_meshes & & ! noweights & & ! h - > num_joints )
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{
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Con_Printf ( " %s: mesh IQM has no joints. \n " , mod - > name ) ;
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return NULL ;
}
if ( h - > num_frames & & ! h - > num_poses )
{
Con_Printf ( " %s: animated IQM has no poses. \n " , mod - > name ) ;
return NULL ;
}
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strings = buffer + h - > ofs_text ;
/*try to completely disregard all the info the creator carefully added to their model...*/
numgroups = 0 ;
framegroups = NULL ;
if ( ! numgroups )
framegroups = ParseFrameInfo ( mod - > name , & numgroups ) ;
if ( ! numgroups & & h - > num_anims )
{
/*use the model's framegroups*/
numgroups = h - > num_anims ;
framegroups = malloc ( sizeof ( * framegroups ) * numgroups ) ;
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anim = ( const struct iqmanim * ) ( buffer + h - > ofs_anims ) ;
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for ( i = 0 ; i < numgroups ; i + + )
{
framegroups [ i ] . firstpose = LittleLong ( anim [ i ] . first_frame ) ;
framegroups [ i ] . posecount = LittleLong ( anim [ i ] . num_frames ) ;
framegroups [ i ] . fps = LittleFloat ( anim [ i ] . framerate ) ;
framegroups [ i ] . loop = ! ! ( LittleLong ( anim [ i ] . flags ) & IQM_LOOP ) ;
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framegroups [ i ] . action = - 1 ;
framegroups [ i ] . actionweight = 0 ;
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Q_strncpyz ( framegroups [ i ] . name , strings + anim [ i ] . name , sizeof ( fgroup [ i ] . name ) ) ;
}
}
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else
fuckedevents = true ; //we're not using the animation data from the model, so ignore any events because they won't make sense any more.
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if ( ! numgroups & & ! noweights & & h - > num_joints )
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{ /*base frame only*/
numgroups = 1 ;
framegroups = malloc ( sizeof ( * framegroups ) ) ;
framegroups - > firstpose = - 1 ;
framegroups - > posecount = 1 ;
framegroups - > fps = 10 ;
framegroups - > loop = 1 ;
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framegroups - > action = - 1 ;
framegroups - > actionweight = 0 ;
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strcpy ( framegroups - > name , " base " ) ;
}
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mesh = ( const struct iqmmesh * ) ( buffer + h - > ofs_meshes ) ;
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# ifndef SERVERONLY
added r_meshpitch cvar that allows for fixing the unfixable mesh pitch bug from vanilla... needs a better name... do note that this will break pretty much any mod, so this is really only for TCs designed to use it. Its likely that I missed places.
nqsv: added support for spectators with nq clients. the angles are a bit rough, but hey. need to do something about frags so nq clients know who's a spectator. use 'cmd observe' to get an nq client to spectate on an fte server (then attack/jump behave the same as in qw clients).
nqsv: rewrote EF_MUZZLEFLASH handling, so svc_muzzleflash is now translated properly to EF_MUZZLEFLASH, and vice versa. No more missing muzzleflashes!
added screenshot_cubemap, so you can actually pre-generate cubemaps with fte (which can be used for reflections or whatever).
misc fixes (server crash, a couple of other less important ones).
external files based on a model's name will now obey r_replacemodels properly, instead of needing to use foo.mdl_0.skin for foo.md3.
identify <playernum> should now use the correct masked ip, instead of abrubtly failing (reported by kt)
vid_toggle console command should now obey vid_width and vid_height when switching to fullscreen, but only if vid_fullscreen is actually set, which should make it seem better behaved (reported by kt).
qcc: cleaned up sym->symboldata[sym->ofs] to be more consistent at all stages.
qcc: typedef float vec4[4]; now works to define a float array with 4 elements (however, it will be passed by-value rather than by-reference).
qcc: cleaned up optional vs __out ordering issues.
qccgui: shift+f3 searches backwards
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5064 fc73d0e0-1445-4013-8a0c-d673dee63da5
2017-02-27 09:34:35 +00:00
skinfiles = Mod_CountSkinFiles ( mod ) ;
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if ( skinfiles < 1 )
skinfiles = 1 ; //iqms have 1 skin and one skin only and always. make sure its loaded.
# endif
/*allocate a nice big block of memory and figure out where stuff is*/
/*run through twice, so things are consistant*/
# define dalloc(o,count) do{o = (void*)(obase+memsize); memsize += sizeof(*o)*(count);}while(0)
for ( i = 0 , memsize = 0 , obase = NULL ; i < 2 ; i + + )
{
if ( i )
obase = ZG_Malloc ( & mod - > memgroup , memsize ) ;
memsize = 0 ;
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dalloc ( gai , max ( 1 , h - > num_meshes ) ) ;
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dalloc ( bones , h - > num_joints ) ;
dalloc ( opos , h - > num_vertexes ) ;
dalloc ( onorm1 , h - > num_vertexes ) ;
dalloc ( onorm2 , h - > num_vertexes ) ;
dalloc ( onorm3 , h - > num_vertexes ) ;
if ( ! noweights )
{
dalloc ( oindex , h - > num_vertexes ) ;
dalloc ( oweight , h - > num_vertexes ) ;
}
else
{
oindex = NULL ;
oweight = NULL ;
}
# ifndef SERVERONLY
if ( vtcoord . offset )
dalloc ( otcoords , h - > num_vertexes ) ;
else
otcoords = NULL ;
if ( vrgba . offset )
dalloc ( orgbaf , h - > num_vertexes ) ;
else
orgbaf = NULL ;
# endif
dalloc ( fgroup , numgroups ) ;
dalloc ( oposebase , 12 * h - > num_joints ) ;
dalloc ( opose , 12 * ( h - > num_poses * h - > num_frames ) ) ;
}
# undef dalloc
//no code to load animations or bones
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framedata = ( const unsigned short * ) ( buffer + h - > ofs_frames ) ;
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/*Version 1 supports only normalized quaternions, version 2 uses complete quaternions. Some struct sizes change for this, otherwise functionally identical.*/
if ( h - > version = = IQM_VERSION1 )
{
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const struct iqmpose1 * p , * ipose = ( const struct iqmpose1 * ) ( buffer + h - > ofs_poses ) ;
const struct iqmjoint1 * ijoint = ( const struct iqmjoint1 * ) ( buffer + h - > ofs_joints ) ;
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vec3_t pos ;
vec4_t quat ;
vec3_t scale ;
float mat [ 12 ] ;
//joint info (mesh)
for ( i = 0 ; i < h - > num_joints ; i + + )
{
Q_strncpyz ( bones [ i ] . name , strings + ijoint [ i ] . name , sizeof ( bones [ i ] . name ) ) ;
bones [ i ] . parent = ijoint [ i ] . parent ;
GenMatrixPosQuat3Scale ( ijoint [ i ] . translate , ijoint [ i ] . rotate , ijoint [ i ] . scale , mat ) ;
if ( ijoint [ i ] . parent > = 0 )
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Matrix3x4_Multiply ( mat , & oposebase [ ijoint [ i ] . parent * 12 ] , & oposebase [ i * 12 ] ) ;
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else
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memcpy ( & oposebase [ i * 12 ] , mat , sizeof ( mat ) ) ;
Matrix3x4_Invert_Simple ( & oposebase [ i * 12 ] , bones [ i ] . inverse ) ;
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}
//pose info (anim)
for ( i = 0 ; i < h - > num_frames ; i + + )
{
for ( j = 0 , p = ipose ; j < h - > num_poses ; j + + , p + + )
{
pos [ 0 ] = p - > channeloffset [ 0 ] ; if ( p - > mask & 1 ) pos [ 0 ] + = * framedata + + * p - > channelscale [ 0 ] ;
pos [ 1 ] = p - > channeloffset [ 1 ] ; if ( p - > mask & 2 ) pos [ 1 ] + = * framedata + + * p - > channelscale [ 1 ] ;
pos [ 2 ] = p - > channeloffset [ 2 ] ; if ( p - > mask & 4 ) pos [ 2 ] + = * framedata + + * p - > channelscale [ 2 ] ;
quat [ 0 ] = p - > channeloffset [ 3 ] ; if ( p - > mask & 8 ) quat [ 0 ] + = * framedata + + * p - > channelscale [ 3 ] ;
quat [ 1 ] = p - > channeloffset [ 4 ] ; if ( p - > mask & 16 ) quat [ 1 ] + = * framedata + + * p - > channelscale [ 4 ] ;
quat [ 2 ] = p - > channeloffset [ 5 ] ; if ( p - > mask & 32 ) quat [ 2 ] + = * framedata + + * p - > channelscale [ 5 ] ;
scale [ 0 ] = p - > channeloffset [ 6 ] ; if ( p - > mask & 64 ) scale [ 0 ] + = * framedata + + * p - > channelscale [ 6 ] ;
scale [ 1 ] = p - > channeloffset [ 7 ] ; if ( p - > mask & 128 ) scale [ 1 ] + = * framedata + + * p - > channelscale [ 7 ] ;
scale [ 2 ] = p - > channeloffset [ 8 ] ; if ( p - > mask & 256 ) scale [ 2 ] + = * framedata + + * p - > channelscale [ 8 ] ;
quat [ 3 ] = - sqrt ( max ( 1.0 - pow ( VectorLength ( quat ) , 2 ) , 0.0 ) ) ;
GenMatrixPosQuat3Scale ( pos , quat , scale , & opose [ ( i * h - > num_poses + j ) * 12 ] ) ;
}
}
}
else
{
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const struct iqmpose2 * p , * ipose = ( const struct iqmpose2 * ) ( buffer + h - > ofs_poses ) ;
const struct iqmjoint2 * ijoint = ( const struct iqmjoint2 * ) ( buffer + h - > ofs_joints ) ;
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vec3_t pos ;
vec4_t quat ;
vec3_t scale ;
float mat [ 12 ] ;
//joint info (mesh)
for ( i = 0 ; i < h - > num_joints ; i + + )
{
Q_strncpyz ( bones [ i ] . name , strings + ijoint [ i ] . name , sizeof ( bones [ i ] . name ) ) ;
bones [ i ] . parent = ijoint [ i ] . parent ;
GenMatrixPosQuat4Scale ( ijoint [ i ] . translate , ijoint [ i ] . rotate , ijoint [ i ] . scale , mat ) ;
if ( ijoint [ i ] . parent > = 0 )
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Matrix3x4_Multiply ( mat , & oposebase [ ijoint [ i ] . parent * 12 ] , & oposebase [ i * 12 ] ) ;
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else
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memcpy ( & oposebase [ i * 12 ] , mat , sizeof ( mat ) ) ;
Matrix3x4_Invert_Simple ( & oposebase [ i * 12 ] , bones [ i ] . inverse ) ;
2016-07-12 00:40:13 +00:00
}
//pose info (anim)
for ( i = 0 ; i < h - > num_frames ; i + + )
{
for ( j = 0 , p = ipose ; j < h - > num_poses ; j + + , p + + )
{
pos [ 0 ] = p - > channeloffset [ 0 ] ; if ( p - > mask & 1 ) pos [ 0 ] + = * framedata + + * p - > channelscale [ 0 ] ;
pos [ 1 ] = p - > channeloffset [ 1 ] ; if ( p - > mask & 2 ) pos [ 1 ] + = * framedata + + * p - > channelscale [ 1 ] ;
pos [ 2 ] = p - > channeloffset [ 2 ] ; if ( p - > mask & 4 ) pos [ 2 ] + = * framedata + + * p - > channelscale [ 2 ] ;
quat [ 0 ] = p - > channeloffset [ 3 ] ; if ( p - > mask & 8 ) quat [ 0 ] + = * framedata + + * p - > channelscale [ 3 ] ;
quat [ 1 ] = p - > channeloffset [ 4 ] ; if ( p - > mask & 16 ) quat [ 1 ] + = * framedata + + * p - > channelscale [ 4 ] ;
quat [ 2 ] = p - > channeloffset [ 5 ] ; if ( p - > mask & 32 ) quat [ 2 ] + = * framedata + + * p - > channelscale [ 5 ] ;
quat [ 3 ] = p - > channeloffset [ 6 ] ; if ( p - > mask & 64 ) quat [ 3 ] + = * framedata + + * p - > channelscale [ 6 ] ;
scale [ 0 ] = p - > channeloffset [ 7 ] ; if ( p - > mask & 128 ) scale [ 0 ] + = * framedata + + * p - > channelscale [ 7 ] ;
scale [ 1 ] = p - > channeloffset [ 8 ] ; if ( p - > mask & 256 ) scale [ 1 ] + = * framedata + + * p - > channelscale [ 8 ] ;
scale [ 2 ] = p - > channeloffset [ 9 ] ; if ( p - > mask & 512 ) scale [ 2 ] + = * framedata + + * p - > channelscale [ 9 ] ;
GenMatrixPosQuat4Scale ( pos , quat , scale , & opose [ ( i * h - > num_poses + j ) * 12 ] ) ;
}
}
}
//now generate the animations.
for ( i = 0 ; i < numgroups ; i + + )
{
if ( framegroups [ i ] . firstpose + framegroups [ i ] . posecount > h - > num_frames )
framegroups [ i ] . posecount = h - > num_frames - framegroups [ i ] . firstpose ;
if ( framegroups [ i ] . firstpose > = h - > num_frames )
{
//invalid/basepose.
fgroup [ i ] . skeltype = SKEL_ABSOLUTE ;
fgroup [ i ] . boneofs = oposebase ;
fgroup [ i ] . numposes = 1 ;
}
else
{
fgroup [ i ] . skeltype = SKEL_RELATIVE ;
fgroup [ i ] . boneofs = opose + framegroups [ i ] . firstpose * 12 * h - > num_poses ;
fgroup [ i ] . numposes = framegroups [ i ] . posecount ;
}
fgroup [ i ] . loop = framegroups [ i ] . loop ;
fgroup [ i ] . rate = framegroups [ i ] . fps ;
Q_strncpyz ( fgroup [ i ] . name , framegroups [ i ] . name , sizeof ( fgroup [ i ] . name ) ) ;
if ( fgroup [ i ] . rate < = 0 )
fgroup [ i ] . rate = 10 ;
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fgroup [ i ] . action = framegroups [ i ] . action ;
fgroup [ i ] . actionweight = framegroups [ i ] . actionweight ;
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}
free ( framegroups ) ;
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if ( fuckedevents )
{
fteevents = NULL ;
extsize = 0 ;
}
else
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fteevents = IQM_FindExtension ( buffer , fsize , " FTE_EVENT " , 0 , & extsize ) ;
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if ( fteevents & & ! ( extsize % sizeof ( * fteevents ) ) )
{
galiasevent_t * oevent , * * link ;
extsize / = sizeof ( * fteevents ) ;
oevent = ZG_Malloc ( & mod - > memgroup , sizeof ( * oevent ) * extsize ) ;
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for ( ; extsize > 0 ; extsize - - , fteevents + + , oevent + + )
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{
oevent - > timestamp = fteevents - > timestamp ;
oevent - > code = fteevents - > evcode ;
oevent - > data = ZG_Malloc ( & mod - > memgroup , strlen ( strings + fteevents - > evdata_str ) + 1 ) ;
strcpy ( oevent - > data , strings + fteevents - > evdata_str ) ;
link = & fgroup [ fteevents - > anim ] . events ;
while ( * link & & ( * link ) - > timestamp < = oevent - > timestamp )
link = & ( * link ) - > next ;
oevent - > next = * link ;
* link = oevent ;
}
}
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//determine the bounds
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inbounds = ( const struct iqmbounds * ) ( buffer + h - > ofs_bounds ) ;
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if ( h - > ofs_bounds )
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{
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for ( i = 0 ; i < h - > num_frames ; i + + )
{
vec3_t mins , maxs ;
mins [ 0 ] = LittleFloat ( inbounds [ i ] . bbmin [ 0 ] ) ;
mins [ 1 ] = LittleFloat ( inbounds [ i ] . bbmin [ 1 ] ) ;
mins [ 2 ] = LittleFloat ( inbounds [ i ] . bbmin [ 2 ] ) ;
AddPointToBounds ( mins , mod - > mins , mod - > maxs ) ;
maxs [ 0 ] = LittleFloat ( inbounds [ i ] . bbmax [ 0 ] ) ;
maxs [ 1 ] = LittleFloat ( inbounds [ i ] . bbmax [ 1 ] ) ;
maxs [ 2 ] = LittleFloat ( inbounds [ i ] . bbmax [ 2 ] ) ;
AddPointToBounds ( maxs , mod - > mins , mod - > maxs ) ;
}
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}
2021-04-14 05:21:04 +00:00
2016-07-12 00:40:13 +00:00
2018-03-04 14:41:16 +00:00
ftemesh = IQM_FindExtension ( buffer , fsize , " FTE_MESH " , 0 , & extsize ) ;
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if ( ! extsize | | extsize ! = sizeof ( * ftemesh ) * h - > num_meshes )
ftemesh = NULL ; //erk.
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fteskincount = IQM_FindExtension ( buffer , fsize , " FTE_SKINS " , 0 , & extsize ) ;
if ( extsize > = sizeof ( unsigned int ) * ( 2 + h - > num_meshes ) & & extsize = = sizeof ( struct iqmext_fte_skin ) + sizeof ( unsigned int ) * h - > num_meshes + LittleLong ( fteskincount [ 0 ] ) * sizeof ( * fteskinframes ) + LittleLong ( fteskincount [ 1 ] ) * sizeof ( * fteskins ) )
{
unsigned int numskinframes = LittleLong ( * fteskincount + + ) ;
/*unsigned int numskins = LittleLong(* */ fteskincount + + ;
fteskinframes = ( const struct iqmext_fte_skin_skinframe * ) ( fteskincount + h - > num_meshes ) ;
fteskins = ( const struct iqmext_fte_skin_meshskin * ) ( fteskinframes + numskinframes ) ;
}
else fteskincount = NULL , fteskins = NULL , fteskinframes = NULL ;
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for ( i = 0 ; i < max ( 1 , h - > num_meshes ) ; i + + )
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{
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if ( h - > num_meshes )
{
Mod_DefaultMesh ( & gai [ i ] , strings + mesh [ i ] . name , i ) ;
firstvert = LittleLong ( mesh [ i ] . first_vertex ) ;
numverts = LittleLong ( mesh [ i ] . num_vertexes ) ;
numtris = LittleLong ( mesh [ i ] . num_triangles ) ;
firsttri = LittleLong ( mesh [ i ] . first_triangle ) ;
}
else
{ //animation-only models still need a place-holder mesh.
firstvert = 0 ;
numverts = 0 ;
numtris = 0 ;
firsttri = 0 ;
}
gai [ i ] . nextsurf = & gai [ i + 1 ] ;
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/*animation info*/
gai [ i ] . shares_bones = 0 ;
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gai [ i ] . numbones = h - > num_joints ? h - > num_joints : h - > num_poses ;
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gai [ i ] . ofsbones = bones ;
gai [ i ] . numanimations = numgroups ;
gai [ i ] . ofsanimations = fgroup ;
# ifndef SERVERONLY
/*colours*/
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gai [ i ] . ofs_rgbaf = orgbaf ? ( orgbaf + firstvert ) : NULL ;
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gai [ i ] . ofs_rgbaub = NULL ;
/*texture coords*/
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gai [ i ] . ofs_st_array = ( otcoords + firstvert ) ;
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/*skins*/
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if ( h - > num_meshes )
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{
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galiasskin_t * skin ;
skinframe_t * skinframe ;
unsigned int iqmskins = fteskincount ? LittleLong ( * fteskincount + + ) : 0 ;
gai [ i ] . numskins = max ( iqmskins , skinfiles ) ;
gai [ i ] . ofsskins = skin = ZG_Malloc ( & mod - > memgroup , sizeof ( * gai [ i ] . ofsskins ) * gai [ i ] . numskins ) ;
2016-07-12 00:40:13 +00:00
2021-09-03 08:02:21 +00:00
for ( j = 0 ; j < gai [ i ] . numskins ; j + + , skin + + )
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{
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const struct iqmext_fte_skin_skinframe * sf ;
if ( j < iqmskins )
{
sf = fteskinframes + LittleLong ( fteskins - > firstframe ) ;
fteskins + + ;
}
else
sf = NULL ;
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skin - > skinwidth = 1 ;
skin - > skinheight = 1 ;
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Q_snprintfz ( gai [ i ] . ofsskins [ j ] . name , sizeof ( gai [ i ] . ofsskins [ j ] . name ) , " %i " , j ) ;
if ( sf )
{
skin - > skinspeed = 1.0 / LittleFloat ( fteskins [ - 1 ] . interval ) ; /*something to avoid div by 0*/
skin - > numframes = LittleLong ( fteskins [ - 1 ] . countframes ) ; //non-sequenced skins.
if ( ! skin - > numframes )
continue ;
2017-01-13 00:39:50 +00:00
2021-09-03 08:02:21 +00:00
skin - > frame = ZG_Malloc ( & mod - > memgroup , sizeof ( * skin - > frame ) * skin - > numframes ) ;
for ( t = 0 ; t < skin - > numframes ; t + + , sf + + )
{
Q_strncpyz ( skin - > frame [ t ] . shadername , strings + sf - > material_idx , sizeof ( skin - > frame [ t ] . shadername ) ) ;
if ( sf - > shadertext_idx & & sf - > shadertext_idx < h - > num_text )
{
const char * stxt = strings + sf - > shadertext_idx ;
skin - > frame [ t ] . defaultshader = strcpy ( ZG_Malloc ( & mod - > memgroup , strlen ( stxt ) + 1 ) , stxt ) ;
}
}
}
else
{
skin - > skinspeed = 10 ; //something to avoid div by 0
skin - > numframes = 1 ; //non-sequenced skins.
skin - > frame = skinframe = ZG_Malloc ( & mod - > memgroup , sizeof ( * skin - > frame ) * skin - > numframes ) ;
Q_strncpyz ( skinframe - > shadername , strings + mesh [ i ] . material , sizeof ( skinframe - > shadername ) ) ;
}
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}
2021-09-03 08:02:21 +00:00
gai [ i ] . numskins = skin - gai [ i ] . ofsskins ;
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}
# endif
2018-11-19 06:37:25 +00:00
tris = ( const struct iqmtriangle * ) ( buffer + LittleLong ( h - > ofs_triangles ) ) ;
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tris + = firsttri ;
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idx = ZG_Malloc ( & mod - > memgroup , sizeof ( * idx ) * numtris * 3 ) ;
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gai [ i ] . ofs_indexes = idx ;
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for ( t = 0 ; t < numtris ; t + + )
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{
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unsigned int a , b , c ;
a = LittleLong ( tris [ t ] . vertex [ 0 ] ) - firstvert ;
b = LittleLong ( tris [ t ] . vertex [ 1 ] ) - firstvert ;
c = LittleLong ( tris [ t ] . vertex [ 2 ] ) - firstvert ;
if ( a > MAX_INDICIES | | b > MAX_INDICIES | | c > MAX_INDICIES )
continue ; //we can't handle this triangle properly.
* idx + + = a ;
* idx + + = b ;
* idx + + = c ;
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}
2021-04-14 05:21:04 +00:00
gai [ i ] . numindexes = idx - gai [ i ] . ofs_indexes ;
if ( gai [ i ] . numindexes ! = numtris * 3 )
Con_Printf ( " %s(%s|%s): Dropped %u of %u triangles due to index size limit \n " , mod - > name , gai [ i ] . surfacename , strings + mesh [ i ] . material , numtris - gai [ i ] . numindexes / 3 , numtris ) ;
2016-07-12 00:40:13 +00:00
/*verts*/
gai [ i ] . shares_verts = i ;
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gai [ i ] . numverts = numverts ;
gai [ i ] . ofs_skel_xyz = ( opos + firstvert ) ;
gai [ i ] . ofs_skel_norm = ( onorm1 + firstvert ) ;
gai [ i ] . ofs_skel_svect = ( onorm2 + firstvert ) ;
gai [ i ] . ofs_skel_tvect = ( onorm3 + firstvert ) ;
gai [ i ] . ofs_skel_idx = oindex ? ( oindex + firstvert ) : NULL ;
gai [ i ] . ofs_skel_weight = oweight ? ( oweight + firstvert ) : NULL ;
if ( ftemesh )
{ //if we have extensions, then lets use them!
gai [ i ] . geomset = ftemesh [ i ] . geomset ;
gai [ i ] . geomid = ftemesh [ i ] . geomid ;
gai [ i ] . contents = ftemesh [ i ] . contents ;
gai [ i ] . csurface . flags = ftemesh [ i ] . surfaceflags ;
gai [ i ] . surfaceid = ftemesh [ i ] . surfaceid ;
gai [ i ] . mindist = ftemesh [ i ] . mindist ;
gai [ i ] . maxdist = ftemesh [ i ] . maxdist ;
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mod - > maxlod = max ( mod - > maxlod , gai [ i ] . mindist ) ;
mod - > maxlod = max ( mod - > maxlod , gai [ i ] . maxdist ) ;
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}
}
gai [ i - 1 ] . nextsurf = NULL ;
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if ( ! noweights )
{
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if ( ! IQM_ImportArray4Bone ( buffer , & vbone , oindex , h - > num_vertexes , h - > num_joints ) )
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Con_DPrintf ( CON_WARNING " Invalid bone indexes detected inside %s \n " , mod - > name ) ;
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IQM_ImportArrayF ( buffer , & vweight , ( float * ) oweight , 4 , h - > num_vertexes , defaultweight ) ;
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Mod_CleanWeights ( mod - > name , h - > num_vertexes , oweight , oindex ) ;
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}
if ( otcoords )
IQM_ImportArrayF ( buffer , & vtcoord , ( float * ) otcoords , 2 , h - > num_vertexes , defaultweight ) ;
if ( orgbaf )
IQM_ImportArrayF ( buffer , & vrgba , ( float * ) orgbaf , 4 , h - > num_vertexes , defaultcolour ) ;
IQM_ImportArrayF ( buffer , & vnorm , ( float * ) onorm1 , 3 , h - > num_vertexes , defaultcolour ) ;
IQM_ImportArrayF ( buffer , & vpos , ( float * ) opos , sizeof ( opos [ 0 ] ) / sizeof ( float ) , h - > num_vertexes , defaultvert ) ;
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if ( ! h - > ofs_bounds | | ! h - > num_frames )
for ( i = 0 ; i < h - > num_vertexes ; i + + )
AddPointToBounds ( opos [ i ] , mod - > mins , mod - > maxs ) ;
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if ( vnorm . offset & & vtang )
{
for ( i = 0 ; i < h - > num_vertexes ; i + + )
{
VectorCopy ( vtang + i * 4 , onorm2 [ i ] ) ;
if ( LittleFloat ( vtang [ i * 4 + 3 ] ) < 0 )
CrossProduct ( onorm2 [ i ] , onorm1 [ i ] , onorm3 [ i ] ) ;
else
CrossProduct ( onorm1 [ i ] , onorm2 [ i ] , onorm3 [ i ] ) ;
}
}
# ifndef SERVERONLY //hopefully dedicated servers won't need this too often...
else if ( h - > num_vertexes )
{ //make something up
for ( i = 0 ; i < h - > num_meshes ; i + + )
{
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Mod_AccumulateTextureVectors ( gai [ i ] . ofs_skel_xyz , gai [ i ] . ofs_st_array , gai [ i ] . ofs_skel_norm , gai [ i ] . ofs_skel_svect , gai [ i ] . ofs_skel_tvect , gai [ i ] . ofs_indexes , gai [ i ] . numindexes , false ) ;
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}
for ( i = 0 ; i < h - > num_meshes ; i + + )
{
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Mod_NormaliseTextureVectors ( gai [ i ] . ofs_skel_norm , gai [ i ] . ofs_skel_svect , gai [ i ] . ofs_skel_tvect , gai [ i ] . numverts , false ) ;
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}
}
# endif
return gai ;
}
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static qboolean QDECL Mod_LoadInterQuakeModel ( model_t * mod , void * buffer , size_t fsize )
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{
galiasinfo_t * root ;
struct iqmheader * h = ( struct iqmheader * ) buffer ;
ClearBounds ( mod - > mins , mod - > maxs ) ;
root = Mod_ParseIQMMeshModel ( mod , buffer , fsize ) ;
if ( ! root )
{
return false ;
}
mod - > flags = h - > flags ;
mod - > radius = RadiusFromBounds ( mod - > mins , mod - > maxs ) ;
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > numframes = root - > numanimations ;
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mod - > meshinfo = root ;
mod - > type = mod_alias ;
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Mod_SetMeshModelFuncs ( mod , ! root - > ofs_skel_idx & & ! root - > ofs_skel_weight ) ;
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return true ;
}
# endif
# ifdef MD5MODELS
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static qboolean Mod_ParseMD5Anim ( model_t * mod , char * buffer , galiasinfo_t * prototype , void * * poseofs , galiasanimation_t * gat )
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{
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# define MD5ERROR0PARAM(x) do{ Con_Printf(CON_ERROR x "\n"); return false; }while(0)
# define MD5ERROR1PARAM(x, y) do{ Con_Printf(CON_ERROR x "\n", y); return false; }while(0)
# define EXPECT(x) do{buffer = COM_ParseOut(buffer, token, sizeof(token)); if (strcmp(token, x)) MD5ERROR1PARAM("MD5ANIM: expected %s", x);}while(0)
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unsigned int i , j ;
galiasanimation_t grp ;
unsigned int parent ;
unsigned int numframes ;
unsigned int numjoints ;
float framespersecond ;
unsigned int numanimatedparts ;
galiasbone_t * bonelist ;
unsigned char * boneflags ;
unsigned int * firstanimatedcomponents ;
float * animatedcomponents ;
float * baseframe ; //6 components.
float * posedata ;
float tx , ty , tz , qx , qy , qz ;
int fac , flags ;
float f ;
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char token [ 8192 ] ;
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EXPECT ( " MD5Version " ) ;
EXPECT ( " 10 " ) ;
EXPECT ( " commandline " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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EXPECT ( " numFrames " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numframes = atoi ( token ) ;
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EXPECT ( " numJoints " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numjoints = atoi ( token ) ;
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EXPECT ( " frameRate " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
framespersecond = atof ( token ) ;
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EXPECT ( " numAnimatedComponents " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numanimatedparts = atoi ( token ) ;
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firstanimatedcomponents = BZ_Malloc ( sizeof ( int ) * numjoints ) ;
animatedcomponents = BZ_Malloc ( sizeof ( float ) * numanimatedparts ) ;
boneflags = BZ_Malloc ( sizeof ( unsigned char ) * numjoints ) ;
baseframe = BZ_Malloc ( sizeof ( float ) * 12 * numjoints ) ;
* poseofs = posedata = ZG_Malloc ( & mod - > memgroup , sizeof ( float ) * 12 * numjoints * numframes ) ;
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if ( ! prototype - > baseframeofs )
prototype - > baseframeofs = posedata ;
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if ( prototype - > numbones )
{
if ( prototype - > numbones ! = numjoints )
MD5ERROR0PARAM ( " MD5ANIM: number of bones doesn't match " ) ;
bonelist = prototype - > ofsbones ;
}
else
{
bonelist = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasbone_t ) * numjoints ) ;
prototype - > ofsbones = bonelist ;
}
EXPECT ( " hierarchy " ) ;
EXPECT ( " { " ) ;
for ( i = 0 ; i < numjoints ; i + + , bonelist + + )
{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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if ( prototype - > numbones )
{
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if ( strcmp ( bonelist - > name , token ) )
MD5ERROR1PARAM ( " MD5ANIM: bone name doesn't match (%s) " , token ) ;
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}
else
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Q_strncpyz ( bonelist - > name , token , sizeof ( bonelist - > name ) ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
parent = atoi ( token ) ;
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if ( prototype - > numbones )
{
if ( bonelist - > parent ! = parent )
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MD5ERROR1PARAM ( " MD5ANIM: bone name doesn't match (%s) " , token ) ;
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}
else
bonelist - > parent = parent ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
boneflags [ i ] = atoi ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
firstanimatedcomponents [ i ] = atoi ( token ) ;
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}
EXPECT ( " } " ) ;
if ( ! prototype - > numbones )
prototype - > numbones = numjoints ;
EXPECT ( " bounds " ) ;
EXPECT ( " { " ) ;
for ( i = 0 ; i < numframes ; i + + )
{
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f < mod - > mins [ 0 ] ) mod - > mins [ 0 ] = f ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f < mod - > mins [ 1 ] ) mod - > mins [ 1 ] = f ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f < mod - > mins [ 2 ] ) mod - > mins [ 2 ] = f ;
EXPECT ( " ) " ) ;
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f > mod - > maxs [ 0 ] ) mod - > maxs [ 0 ] = f ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f > mod - > maxs [ 1 ] ) mod - > maxs [ 1 ] = f ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ; f = atoi ( token ) ;
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if ( f > mod - > maxs [ 2 ] ) mod - > maxs [ 2 ] = f ;
EXPECT ( " ) " ) ;
}
EXPECT ( " } " ) ;
EXPECT ( " baseframe " ) ;
EXPECT ( " { " ) ;
for ( i = 0 ; i < numjoints ; i + + )
{
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 0 ] = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 1 ] = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 2 ] = atof ( token ) ;
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EXPECT ( " ) " ) ;
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 3 ] = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 4 ] = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
baseframe [ i * 6 + 5 ] = atof ( token ) ;
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EXPECT ( " ) " ) ;
}
EXPECT ( " } " ) ;
for ( i = 0 ; i < numframes ; i + + )
{
EXPECT ( " frame " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
if ( atoi ( token ) ! = i )
MD5ERROR1PARAM ( " MD5ANIM: expected frame %i " , i ) ;
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EXPECT ( " { " ) ;
for ( j = 0 ; j < numanimatedparts ; j + + )
{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
animatedcomponents [ j ] = atof ( token ) ;
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}
EXPECT ( " } " ) ;
for ( j = 0 ; j < numjoints ; j + + )
{
fac = firstanimatedcomponents [ j ] ;
flags = boneflags [ j ] ;
if ( flags & 1 )
tx = animatedcomponents [ fac + + ] ;
else
tx = baseframe [ j * 6 + 0 ] ;
if ( flags & 2 )
ty = animatedcomponents [ fac + + ] ;
else
ty = baseframe [ j * 6 + 1 ] ;
if ( flags & 4 )
tz = animatedcomponents [ fac + + ] ;
else
tz = baseframe [ j * 6 + 2 ] ;
if ( flags & 8 )
qx = animatedcomponents [ fac + + ] ;
else
qx = baseframe [ j * 6 + 3 ] ;
if ( flags & 16 )
qy = animatedcomponents [ fac + + ] ;
else
qy = baseframe [ j * 6 + 4 ] ;
if ( flags & 32 )
qz = animatedcomponents [ fac + + ] ;
else
qz = baseframe [ j * 6 + 5 ] ;
GenMatrix ( tx , ty , tz , qx , qy , qz , posedata + 12 * ( j + numjoints * i ) ) ;
}
}
BZ_Free ( firstanimatedcomponents ) ;
BZ_Free ( animatedcomponents ) ;
BZ_Free ( boneflags ) ;
BZ_Free ( baseframe ) ;
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memset ( & grp , 0 , sizeof ( grp ) ) ;
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Q_strncpyz ( grp . name , " " , sizeof ( grp . name ) ) ;
grp . skeltype = SKEL_RELATIVE ;
grp . numposes = numframes ;
grp . rate = framespersecond ;
grp . loop = true ;
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grp . boneofs = * poseofs ;
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* gat = grp ;
return true ;
# undef MD5ERROR0PARAM
# undef MD5ERROR1PARAM
# undef EXPECT
}
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static galiasinfo_t * Mod_ParseMD5MeshModel ( model_t * mod , char * buffer , char * modname )
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{
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# define MD5ERROR0PARAM(x) do{ Con_Printf(CON_ERROR x "\n"); return NULL; }while(0)
# define MD5ERROR1PARAM(x, y) do{ Con_Printf(CON_ERROR x "\n", y); return NULL; }while(0)
# define EXPECT(x) do{buffer = COM_ParseOut(buffer, token, sizeof(token)); if (strcmp(token, x)) Sys_Error("MD5MESH: expected %s", x);}while(0)
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int numjoints = 0 ;
int nummeshes = 0 ;
qboolean foundjoints = false ;
int i ;
galiasbone_t * bones = NULL ;
galiasanimation_t * pose = NULL ;
galiasinfo_t * inf , * root , * lastsurf ;
float * posedata ;
# ifndef SERVERONLY
galiasskin_t * skin ;
skinframe_t * frames ;
# endif
char * filestart = buffer ;
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char token [ 1024 ] ;
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float x , y , z , qx , qy , qz ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
if ( strcmp ( token , " MD5Version " ) )
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MD5ERROR0PARAM ( " MD5 model without MD5Version identifier first " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
if ( atoi ( token ) ! = 10 )
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MD5ERROR0PARAM ( " MD5 model with unsupported MD5Version " ) ;
root = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasinfo_t ) ) ;
lastsurf = NULL ;
for ( ; ; )
{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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if ( ! buffer )
break ;
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if ( ! strcmp ( token , " numFrames " ) )
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{
void * poseofs ;
galiasanimation_t * grp = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) ) ;
Mod_ParseMD5Anim ( mod , filestart , root , & poseofs , grp ) ;
root - > ofsanimations = grp ;
root - > numanimations = 1 ;
grp - > poseofs = poseofs ;
return root ;
}
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else if ( ! strcmp ( token , " commandline " ) )
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{ //we don't need this
buffer = strchr ( buffer , ' \" ' ) ;
buffer = strchr ( ( char * ) buffer + 1 , ' \" ' ) + 1 ;
// buffer = COM_Parse(buffer);
}
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else if ( ! strcmp ( token , " numJoints " ) )
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{
if ( numjoints )
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MD5ERROR0PARAM ( " MD5MESH: numJoints was already declared " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numjoints = atoi ( token ) ;
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if ( numjoints < = 0 )
MD5ERROR0PARAM ( " MD5MESH: Needs some joints " ) ;
}
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else if ( ! strcmp ( token , " numMeshes " ) )
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{
if ( nummeshes )
MD5ERROR0PARAM ( " MD5MESH: numMeshes was already declared " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
nummeshes = atoi ( token ) ;
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if ( nummeshes < = 0 )
MD5ERROR0PARAM ( " MD5MESH: Needs some meshes " ) ;
}
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else if ( ! strcmp ( token , " joints " ) )
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{
if ( foundjoints )
MD5ERROR0PARAM ( " MD5MESH: Duplicate joints section " ) ;
foundjoints = true ;
if ( ! numjoints )
MD5ERROR0PARAM ( " MD5MESH: joints section before (or without) numjoints " ) ;
bones = ZG_Malloc ( & mod - > memgroup , sizeof ( * bones ) * numjoints ) ;
pose = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) ) ;
posedata = ZG_Malloc ( & mod - > memgroup , sizeof ( float ) * 12 * numjoints ) ;
pose - > skeltype = SKEL_ABSOLUTE ;
pose - > rate = 1 ;
pose - > numposes = 1 ;
pose - > boneofs = posedata ;
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root - > baseframeofs = posedata ;
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Q_strncpyz ( pose - > name , " base " , sizeof ( pose - > name ) ) ;
EXPECT ( " { " ) ;
//"name" parent (x y z) (s t u)
//stu are a normalized quaternion, which we will convert to a 3*4 matrix for no apparent reason
for ( i = 0 ; i < numjoints ; i + + )
{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
Q_strncpyz ( bones [ i ] . name , token , sizeof ( bones [ i ] . name ) ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
bones [ i ] . parent = atoi ( token ) ;
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if ( bones [ i ] . parent > = i )
MD5ERROR0PARAM ( " MD5MESH: joints parent's must be lower " ) ;
if ( ( bones [ i ] . parent < 0 & & i ) | | ( ! i & & bones [ i ] . parent ! = - 1 ) )
MD5ERROR0PARAM ( " MD5MESH: Only the root joint may have a negative parent " ) ;
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
x = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
y = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
z = atof ( token ) ;
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EXPECT ( " ) " ) ;
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
qx = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
qy = atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
qz = atof ( token ) ;
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EXPECT ( " ) " ) ;
GenMatrix ( x , y , z , qx , qy , qz , posedata + i * 12 ) ;
}
EXPECT ( " } " ) ;
}
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else if ( ! strcmp ( token , " mesh " ) )
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{
int numverts = 0 ;
int numweights = 0 ;
int numtris = 0 ;
int num ;
int vnum ;
int numusableweights = 0 ;
int * firstweightlist = NULL ;
int * numweightslist = NULL ;
galisskeletaltransforms_t * trans ;
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# ifdef HAVE_CLIENT
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float * stcoord = NULL ;
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unsigned int numskins ;
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# endif
index_t * indexes = NULL ;
float w ;
vec4_t * rawweight = NULL ;
int * rawweightbone = NULL ;
if ( ! nummeshes )
MD5ERROR0PARAM ( " MD5MESH: mesh section before (or without) nummeshes " ) ;
if ( ! foundjoints | | ! bones | | ! pose )
MD5ERROR0PARAM ( " MD5MESH: mesh must come after joints " ) ;
if ( ! lastsurf )
{
lastsurf = root ;
inf = root ;
}
else
{
inf = ZG_Malloc ( & mod - > memgroup , sizeof ( * inf ) ) ;
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inf - > shares_verts = lastsurf - > shares_verts + 1 ;
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lastsurf - > nextsurf = inf ;
lastsurf = inf ;
}
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Mod_DefaultMesh ( inf , COM_SkipPath ( mod - > name ) , 0 ) ;
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inf - > shares_bones = 0 ;
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inf - > ofsbones = bones ;
inf - > numbones = numjoints ;
inf - > numanimations = 1 ;
inf - > ofsanimations = pose ;
inf - > baseframeofs = pose - > boneofs ;
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# ifdef HAVE_CLIENT
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skin = ZG_Malloc ( & mod - > memgroup , sizeof ( * skin ) ) ;
frames = ZG_Malloc ( & mod - > memgroup , sizeof ( * frames ) ) ;
inf - > numskins = 1 ;
inf - > ofsskins = skin ;
skin - > numframes = 1 ;
skin - > skinspeed = 1 ;
skin - > frame = frames ;
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numskins = 0 ;
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# endif
EXPECT ( " { " ) ;
for ( ; ; )
{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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if ( ! buffer )
MD5ERROR0PARAM ( " MD5MESH: unexpected eof " ) ;
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if ( ! strcmp ( token , " shader " ) )
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{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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# ifdef HAVE_CLIENT
if ( ! strchr ( token , ' / ' ) )
{ //hack to try to deal with the rerelease using md5s for things that don't actually support skins properly.
char texbase [ MAX_QPATH ] ;
char texname [ MAX_QPATH ] ;
Q_strncpyz ( texbase , mod - > name , sizeof ( frames [ 0 ] . shadername ) ) ;
* COM_SkipPath ( texbase ) = 0 ;
Q_strncatz ( texbase , token , sizeof ( texbase ) ) ;
for ( numskins = 0 ; ; numskins + + )
{
Q_snprintfz ( texname , sizeof ( texname ) , " %s_%02d_%02d.lmp " , texbase , numskins , 0 ) ;
if ( ! COM_FCheckExists ( texname ) )
break ;
}
if ( numskins )
{
skin = ZG_Malloc ( & mod - > memgroup , sizeof ( * skin ) * numskins ) ;
inf - > numskins = numskins ;
inf - > ofsskins = skin ;
for ( num = 0 ; num < numskins ; num + + , skin + + )
{
skin - > skinspeed = 5 ; //match bsp anim speed.
for ( skin - > numframes = 1 ; ; skin - > numframes + + )
{
Q_snprintfz ( texname , sizeof ( texname ) , " %s_%02d_%02d.lmp " , texbase , num , skin - > numframes ) ;
if ( ! COM_FCheckExists ( texname ) )
break ;
}
frames = ZG_Malloc ( & mod - > memgroup , sizeof ( * frames ) * skin - > numframes ) ;
skin - > frame = frames ;
for ( vnum = 0 ; vnum < skin - > numframes ; vnum + + )
Q_snprintfz ( frames [ vnum ] . shadername , sizeof ( frames [ vnum ] . shadername ) , " %s_%02d_%02d.lmp " , texbase , num , vnum ) ;
}
}
}
if ( ! numskins )
//FIXME: we probably want to support multiple skins some time
Q_strncpyz ( frames [ 0 ] . shadername , token , sizeof ( frames [ 0 ] . shadername ) ) ;
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# endif
}
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else if ( ! strcmp ( token , " numverts " ) )
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{
if ( numverts )
MD5ERROR0PARAM ( " MD5MESH: numverts was already specified " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numverts = atoi ( token ) ;
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if ( numverts < 0 )
MD5ERROR0PARAM ( " MD5MESH: numverts cannot be negative " ) ;
firstweightlist = Z_Malloc ( sizeof ( * firstweightlist ) * numverts ) ;
numweightslist = Z_Malloc ( sizeof ( * numweightslist ) * numverts ) ;
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# ifdef HAVE_CLIENT
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stcoord = ZG_Malloc ( & mod - > memgroup , sizeof ( float ) * 2 * numverts ) ;
inf - > ofs_st_array = ( vec2_t * ) stcoord ;
inf - > numverts = numverts ;
# endif
}
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else if ( ! strcmp ( token , " vert " ) )
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{ //vert num ( s t ) firstweight numweights
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
num = atoi ( token ) ;
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if ( num < 0 | | num > = numverts )
MD5ERROR0PARAM ( " MD5MESH: vertex out of range " ) ;
EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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# ifdef HAVE_CLIENT
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if ( ! stcoord )
MD5ERROR0PARAM ( " MD5MESH: vertex out of range " ) ;
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stcoord [ num * 2 + 0 ] = atof ( token ) ;
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# endif
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
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# ifdef HAVE_CLIENT
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stcoord [ num * 2 + 1 ] = atof ( token ) ;
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# endif
EXPECT ( " ) " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
firstweightlist [ num ] = atoi ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numweightslist [ num ] = atoi ( token ) ;
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numusableweights + = numweightslist [ num ] ;
}
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else if ( ! strcmp ( token , " numtris " ) )
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{
if ( numtris )
MD5ERROR0PARAM ( " MD5MESH: numtris was already specified " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numtris = atoi ( token ) ;
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if ( numtris < 0 )
MD5ERROR0PARAM ( " MD5MESH: numverts cannot be negative " ) ;
indexes = ZG_Malloc ( & mod - > memgroup , sizeof ( int ) * 3 * numtris ) ;
inf - > ofs_indexes = indexes ;
inf - > numindexes = numtris * 3 ;
}
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else if ( ! strcmp ( token , " tri " ) )
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{
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
num = atoi ( token ) ;
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if ( num < 0 | | num > = numtris )
MD5ERROR0PARAM ( " MD5MESH: vertex out of range " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
indexes [ num * 3 + 0 ] = atoi ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
indexes [ num * 3 + 1 ] = atoi ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
indexes [ num * 3 + 2 ] = atoi ( token ) ;
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}
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else if ( ! strcmp ( token , " numweights " ) )
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{
if ( numweights )
MD5ERROR0PARAM ( " MD5MESH: numweights was already specified " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
numweights = atoi ( token ) ;
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rawweight = Z_Malloc ( sizeof ( * rawweight ) * numweights ) ;
rawweightbone = Z_Malloc ( sizeof ( * rawweightbone ) * numweights ) ;
}
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else if ( ! strcmp ( token , " weight " ) )
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{
//weight num bone scale ( x y z )
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
num = atoi ( token ) ;
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if ( num < 0 | | num > = numweights )
MD5ERROR0PARAM ( " MD5MESH: weight out of range " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
rawweightbone [ num ] = atoi ( token ) ;
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if ( rawweightbone [ num ] < 0 | | rawweightbone [ num ] > = numjoints )
MD5ERROR0PARAM ( " MD5MESH: weight specifies bad bone " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
w = atof ( token ) ;
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EXPECT ( " ( " ) ;
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buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
rawweight [ num ] [ 0 ] = w * atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
rawweight [ num ] [ 1 ] = w * atof ( token ) ;
buffer = COM_ParseOut ( buffer , token , sizeof ( token ) ) ;
rawweight [ num ] [ 2 ] = w * atof ( token ) ;
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EXPECT ( " ) " ) ;
rawweight [ num ] [ 3 ] = w ;
}
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else if ( ! strcmp ( token , " } " ) )
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break ;
else
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MD5ERROR1PARAM ( " MD5MESH: Unrecognised token inside mesh (%s) " , token ) ;
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}
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trans = Z_Malloc ( sizeof ( * trans ) * numusableweights ) ;
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for ( num = 0 , vnum = 0 ; num < numverts ; num + + )
{
if ( numweightslist [ num ] < = 0 )
MD5ERROR0PARAM ( " MD5MESH: weights not set on vertex " ) ;
while ( numweightslist [ num ] )
{
trans [ vnum ] . vertexindex = num ;
trans [ vnum ] . boneindex = rawweightbone [ firstweightlist [ num ] ] ;
trans [ vnum ] . org [ 0 ] = rawweight [ firstweightlist [ num ] ] [ 0 ] ;
trans [ vnum ] . org [ 1 ] = rawweight [ firstweightlist [ num ] ] [ 1 ] ;
trans [ vnum ] . org [ 2 ] = rawweight [ firstweightlist [ num ] ] [ 2 ] ;
trans [ vnum ] . org [ 3 ] = rawweight [ firstweightlist [ num ] ] [ 3 ] ;
vnum + + ;
firstweightlist [ num ] + + ;
numweightslist [ num ] - - ;
}
}
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Alias_BuildGPUWeights ( mod , inf , vnum , trans , true ) ;
Z_Free ( trans ) ;
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for ( i = 0 ; i < inf - > numverts ; i + + )
AddPointToBounds ( inf - > ofs_skel_xyz [ i ] , mod - > mins , mod - > maxs ) ;
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if ( firstweightlist )
Z_Free ( firstweightlist ) ;
if ( numweightslist )
Z_Free ( numweightslist ) ;
if ( rawweight )
Z_Free ( rawweight ) ;
if ( rawweightbone )
Z_Free ( rawweightbone ) ;
}
else
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MD5ERROR1PARAM ( " Unrecognised token in MD5 model (%s) " , token ) ;
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}
if ( ! lastsurf )
MD5ERROR0PARAM ( " MD5MESH: No meshes " ) ;
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// Alias_CalculateSkeletalNormals(root);
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return root ;
# undef MD5ERROR0PARAM
# undef MD5ERROR1PARAM
# undef EXPECT
}
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static qboolean QDECL Mod_LoadMD5MeshModel ( model_t * mod , void * buffer , size_t fsize )
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{
galiasinfo_t * root ;
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char animname [ MAX_QPATH ] ;
void * animfile ;
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root = Mod_ParseMD5MeshModel ( mod , buffer , mod - > name ) ;
if ( root = = NULL )
{
return false ;
}
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if ( mod_md5_singleanimation . ival & & root - > numanimations = = 1 & & root - > ofsanimations [ 0 ] . skeltype = = SKEL_ABSOLUTE ) //make sure there's only the base pose...
{
COM_StripAllExtensions ( mod - > name , animname , sizeof ( animname ) ) ;
Q_strncatz ( animname , " .md5anim " , sizeof ( animname ) ) ;
animfile = FS_LoadMallocFile ( animname , NULL ) ;
if ( animfile ) //FIXME: make non fatal somehow..
{
galiasinfo_t * surf ;
void * np = NULL ;
galiasanimation_t ng ;
if ( Mod_ParseMD5Anim ( mod , animfile , root , & np , & ng ) & & ng . numposes > 0 )
{
galiasanimation_t * a ;
int i ;
root - > numanimations = ng . numposes ;
root - > ofsanimations = ZG_Malloc ( & mod - > memgroup , ng . numposes * sizeof ( * root - > ofsanimations ) ) ;
//pull out each frame individually
for ( i = 0 ; i < ng . numposes ; i + + )
{
a = & root - > ofsanimations [ i ] ;
a - > skeltype = ng . skeltype ;
a - > loop = false ;
a - > numposes = 1 ;
a - > rate = 10 ;
a - > boneofs = ( float * ) np + i * 12 * root - > numbones ;
Q_snprintfz ( a - > name , sizeof ( a - > name ) , " %s_%i " , animname , i ) ;
}
for ( surf = root ; ( surf = surf - > nextsurf ) ; )
{
surf - > ofsanimations = root - > ofsanimations ;
surf - > numanimations = root - > numanimations ;
}
}
Z_Free ( animfile ) ;
}
}
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mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ; //file replacement - inherit flags from any defunc mdl files.
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > type = mod_alias ;
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mod - > numframes = root - > numanimations ;
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mod - > meshinfo = root ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
/*
EXTERNALANIM
//File that specifies md5 model/anim stuff.
model test / imp . md5mesh
group test / idle1 . md5anim
clampgroup test / idle1 . md5anim
frames test / idle1 . md5anim
*/
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static qboolean QDECL Mod_LoadCompositeAnim ( model_t * mod , void * buffer , size_t fsize )
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{
int i ;
char * file ;
galiasinfo_t * root = NULL , * surf ;
int numgroups = 0 ;
galiasanimation_t * grouplist = NULL ;
galiasanimation_t * newgroup = NULL ;
float * * poseofs ;
char com_token [ 8192 ] ;
buffer = COM_Parse ( buffer ) ;
if ( strcmp ( com_token , " EXTERNALANIM " ) )
{
Con_Printf ( CON_ERROR " EXTERNALANIM: header is not compleate (%s) \n " , mod - > name ) ;
return false ;
}
buffer = COM_Parse ( buffer ) ;
if ( ! strcmp ( com_token , " model " ) )
{
buffer = COM_Parse ( buffer ) ;
file = COM_LoadTempMoreFile ( com_token , NULL ) ;
if ( ! file ) //FIXME: make non fatal somehow..
{
Con_Printf ( CON_ERROR " Couldn't open %s (from %s) \n " , com_token , mod - > name ) ;
return false ;
}
root = Mod_ParseMD5MeshModel ( mod , file , mod - > name ) ;
if ( root = = NULL )
{
return false ;
}
newgroup = root - > ofsanimations ;
grouplist = BZ_Malloc ( sizeof ( galiasanimation_t ) * ( numgroups + root - > numanimations ) ) ;
memcpy ( grouplist , newgroup , sizeof ( galiasanimation_t ) * ( numgroups + root - > numanimations ) ) ;
poseofs = BZ_Malloc ( sizeof ( galiasanimation_t ) * ( numgroups + root - > numanimations ) ) ;
for ( i = 0 ; i < root - > numanimations ; i + + )
{
grouplist [ numgroups ] = newgroup [ i ] ;
poseofs [ numgroups ] = newgroup [ i ] . boneofs ;
numgroups + + ;
}
}
else
{
Con_Printf ( CON_ERROR " EXTERNALANIM: model must be defined immediatly after the header \n " ) ;
return false ;
}
for ( ; ; )
{
buffer = COM_Parse ( buffer ) ;
if ( ! buffer )
break ;
if ( ! strcmp ( com_token , " group " ) )
{
grouplist = BZ_Realloc ( grouplist , sizeof ( galiasanimation_t ) * ( numgroups + 1 ) ) ;
poseofs = BZ_Realloc ( poseofs , sizeof ( * poseofs ) * ( numgroups + 1 ) ) ;
buffer = COM_Parse ( buffer ) ;
file = COM_LoadTempMoreFile ( com_token , NULL ) ;
if ( file ) //FIXME: make non fatal somehow..
{
char namebkup [ MAX_QPATH ] ;
Q_strncpyz ( namebkup , com_token , sizeof ( namebkup ) ) ;
if ( ! Mod_ParseMD5Anim ( mod , file , root , ( void * * ) & poseofs [ numgroups ] , & grouplist [ numgroups ] ) )
{
return false ;
}
Q_strncpyz ( grouplist [ numgroups ] . name , namebkup , sizeof ( grouplist [ numgroups ] . name ) ) ;
numgroups + + ;
}
}
else if ( ! strcmp ( com_token , " clampgroup " ) )
{
grouplist = BZ_Realloc ( grouplist , sizeof ( galiasanimation_t ) * ( numgroups + 1 ) ) ;
poseofs = BZ_Realloc ( poseofs , sizeof ( * poseofs ) * ( numgroups + 1 ) ) ;
buffer = COM_Parse ( buffer ) ;
file = COM_LoadTempMoreFile ( com_token , NULL ) ;
if ( file ) //FIXME: make non fatal somehow..
{
char namebkup [ MAX_QPATH ] ;
Q_strncpyz ( namebkup , com_token , sizeof ( namebkup ) ) ;
if ( ! Mod_ParseMD5Anim ( mod , file , root , ( void * * ) & poseofs [ numgroups ] , & grouplist [ numgroups ] ) )
{
return false ;
}
Q_strncpyz ( grouplist [ numgroups ] . name , namebkup , sizeof ( grouplist [ numgroups ] . name ) ) ;
grouplist [ numgroups ] . loop = false ;
numgroups + + ;
}
}
else if ( ! strcmp ( com_token , " frames " ) )
{
galiasanimation_t ng ;
void * np ;
buffer = COM_Parse ( buffer ) ;
file = COM_LoadTempMoreFile ( com_token , NULL ) ;
if ( file ) //FIXME: make non fatal somehow..
{
char namebkup [ MAX_QPATH ] ;
Q_strncpyz ( namebkup , com_token , sizeof ( namebkup ) ) ;
if ( ! Mod_ParseMD5Anim ( mod , file , root , & np , & ng ) )
{
return false ;
}
grouplist = BZ_Realloc ( grouplist , sizeof ( galiasanimation_t ) * ( numgroups + ng . numposes ) ) ;
poseofs = BZ_Realloc ( poseofs , sizeof ( * poseofs ) * ( numgroups + ng . numposes ) ) ;
//pull out each frame individually
for ( i = 0 ; i < ng . numposes ; i + + )
{
grouplist [ numgroups ] . skeltype = ng . skeltype ;
grouplist [ numgroups ] . loop = false ;
grouplist [ numgroups ] . numposes = 1 ;
grouplist [ numgroups ] . rate = 24 ;
poseofs [ numgroups ] = ( float * ) np + i * 12 * root - > numbones ;
Q_snprintfz ( grouplist [ numgroups ] . name , sizeof ( grouplist [ numgroups ] . name ) , " %s%i " , namebkup , i ) ;
Q_strncpyz ( grouplist [ numgroups ] . name , namebkup , sizeof ( grouplist [ numgroups ] . name ) ) ;
grouplist [ numgroups ] . loop = false ;
numgroups + + ;
}
}
}
else
{
Con_Printf ( CON_ERROR " EXTERNALANIM: unrecognised token (%s) \n " , mod - > name ) ;
return false ;
}
}
newgroup = grouplist ;
grouplist = ZG_Malloc ( & mod - > memgroup , sizeof ( galiasanimation_t ) * numgroups ) ;
for ( surf = root ; ; )
{
surf - > ofsanimations = grouplist ;
surf - > numanimations = numgroups ;
if ( ! surf - > nextsurf )
break ;
surf = surf - > nextsurf ;
}
for ( i = 0 ; i < numgroups ; i + + )
{
grouplist [ i ] = newgroup [ i ] ;
grouplist [ i ] . boneofs = poseofs [ i ] ;
}
mod - > flags = Mod_ReadFlagsFromMD1 ( mod - > name , 0 ) ; //file replacement - inherit flags from any defunc mdl files.
Mod_ClampModelSize ( mod ) ;
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Mod_ParseModelEvents ( mod , root - > ofsanimations , root - > numanimations ) ;
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mod - > type = mod_alias ;
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mod - > numframes = root - > numanimations ;
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mod - > meshinfo = root ;
mod - > funcs . NativeTrace = Mod_Trace ;
return true ;
}
# endif //MD5MODELS
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# ifdef MODELFMT_OBJ
# include <ctype.h>
struct objvert { size_t attrib [ 3 ] ; } ;
struct objbuf_s { char * ptr ; char * end ; } ;
static char * obj_getline ( struct objbuf_s * vf , char * buffer , size_t buflen )
{
char in ;
char * out = buffer ;
size_t len ;
if ( buflen < = 1 )
return NULL ;
len = buflen - 1 ;
while ( len > 0 )
{
if ( vf - > ptr = = vf - > end )
{
if ( len = = buflen - 1 )
return NULL ;
* out = ' \0 ' ;
return buffer ;
}
in = * vf - > ptr + + ;
if ( in = = ' \n ' )
break ;
* out + + = in ;
len - - ;
}
* out = ' \0 ' ;
//if there's a trailing \r, strip it.
if ( out > buffer )
if ( out [ - 1 ] = = ' \r ' )
out [ - 1 ] = 0 ;
return buffer ;
}
struct objattrib_s {
size_t length ;
size_t maxlength ;
float * data ;
} ;
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static qboolean parseobjvert ( char * s , struct objattrib_s * out , int reorient )
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{
int i ;
float * v ;
char * n ;
if ( out - > length = = out - > maxlength )
Z_ReallocElements ( ( void * * ) & out - > data , & out - > maxlength , out - > length + 1024 , 3 * sizeof ( float ) ) ;
v = out - > data + out - > length * 3 ;
out - > length + + ;
while ( isalpha ( * s ) ) s + + ;
for ( i = 0 ; i < 3 ; )
{
v [ i ] = strtod ( s , & n ) ;
if ( n = = s )
return false ;
s = n ;
while ( isspace ( * s ) ) s + + ;
i + + ;
if ( ! * s ) break ;
}
for ( ; i < 3 ; i + + )
v [ i ] = 0 ;
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if ( reorient )
{
if ( reorient = = 1 )
{ //xzy - DP's orientation.
float z = v [ 2 ] ;
v [ 2 ] = v [ 1 ] ;
v [ 1 ] = z ;
}
else
{ //zxy - match iqmtool (doesn't need negative scaling)
float z = v [ 2 ] ;
v [ 2 ] = v [ 1 ] ;
v [ 1 ] = v [ 0 ] ;
v [ 0 ] = z ;
}
}
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return true ;
}
static galiasinfo_t * Obj_FinishFace ( model_t * mod , galiasinfo_t * m , struct objattrib_s * attribs , struct objvert * vert , size_t numverts , index_t * indexes , size_t * numelements )
{ //this is really lame. not optimised and I don't care.
qboolean calcnorms = false ;
size_t i ;
if ( m & & numverts < MAX_INDICIES )
{
m - > ofs_skel_xyz = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_skel_xyz ) * numverts ) ;
m - > ofs_st_array = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_st_array ) * numverts ) ;
m - > ofs_skel_norm = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_skel_norm ) * numverts ) ;
m - > ofs_skel_svect = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_skel_svect ) * numverts ) ;
m - > ofs_skel_tvect = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_skel_tvect ) * numverts ) ;
for ( i = 0 ; i < numverts ; i + + )
{
if ( vert [ i ] . attrib [ 0 ] > = attribs [ 0 ] . length )
VectorClear ( m - > ofs_skel_xyz [ i ] ) ;
else
VectorCopy ( attribs [ 0 ] . data + 3 * vert [ i ] . attrib [ 0 ] , m - > ofs_skel_xyz [ i ] ) ;
AddPointToBounds ( m - > ofs_skel_xyz [ i ] , mod - > mins , mod - > maxs ) ;
if ( vert [ i ] . attrib [ 1 ] > = attribs [ 1 ] . length )
Vector2Clear ( m - > ofs_st_array [ i ] ) ;
else
Vector2Copy ( attribs [ 1 ] . data + 3 * vert [ i ] . attrib [ 1 ] , m - > ofs_st_array [ i ] ) ;
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m - > ofs_st_array [ i ] [ 1 ] = 1 - m - > ofs_st_array [ i ] [ 1 ] ; //flip y coords.
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if ( vert [ i ] . attrib [ 2 ] > = attribs [ 2 ] . length )
{
VectorClear ( m - > ofs_skel_norm [ i ] ) ;
calcnorms = true ;
}
else
VectorCopy ( attribs [ 2 ] . data + 3 * vert [ i ] . attrib [ 2 ] , m - > ofs_skel_norm [ i ] ) ;
}
m - > numverts = i ;
m - > ofs_indexes = ZG_Malloc ( & mod - > memgroup , sizeof ( * m - > ofs_indexes ) * * numelements ) ;
memcpy ( m - > ofs_indexes , indexes , sizeof ( * m - > ofs_indexes ) * * numelements ) ;
m - > numindexes = * numelements ;
//calc tangents.
Mod_AccumulateTextureVectors ( m - > ofs_skel_xyz , m - > ofs_st_array , m - > ofs_skel_norm , m - > ofs_skel_svect , m - > ofs_skel_tvect , m - > ofs_indexes , m - > numindexes , calcnorms ) ;
Mod_NormaliseTextureVectors ( m - > ofs_skel_norm , m - > ofs_skel_svect , m - > ofs_skel_tvect , m - > numverts , calcnorms ) ;
* numelements = 0 ;
}
return NULL ;
}
static qboolean QDECL Mod_LoadObjModel ( model_t * mod , void * buffer , size_t fsize )
{
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struct objbuf_s f = { buffer , ( qbyte * ) buffer + fsize } ;
struct objattrib_s attrib [ 3 ] = { { 0 } , { 0 } , { 0 } } ;
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char buf [ 512 ] ;
char * meshname = NULL , * matname = NULL ;
galiasinfo_t * m = NULL , * * link = ( galiasinfo_t * * ) & mod - > meshinfo ;
size_t numverts = 0 ;
size_t maxverts = 0 ;
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struct objvert * vert = NULL , defaultvert = { { - 1 , - 1 , - 2 } } ;
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size_t numelems = 0 ;
size_t maxelems = 0 ;
index_t * elem = NULL ;
qboolean badinput = false ;
int meshidx = 0 ;
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int reorient = mod_obj_orientation . ival ;
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ClearBounds ( mod - > mins , mod - > maxs ) ;
while ( ! badinput & & obj_getline ( & f , buf , sizeof ( buf ) ) )
{
char * c = buf ;
while ( isspace ( * c ) ) c + + ;
switch ( * c )
{
case ' # ' : continue ;
case ' v ' :
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if ( isspace ( c [ 1 ] ) ) badinput | = ! parseobjvert ( c , & attrib [ 0 ] , reorient ) ;
else if ( c [ 1 ] = = ' t ' ) badinput | = ! parseobjvert ( c , & attrib [ 1 ] , false ) ;
else if ( c [ 1 ] = = ' n ' ) badinput | = ! parseobjvert ( c , & attrib [ 2 ] , reorient ) ;
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break ;
case ' g ' :
{
char * name ;
size_t namelen ;
while ( isalpha ( * c ) ) c + + ;
while ( isspace ( * c ) ) c + + ;
name = c ;
namelen = strlen ( name ) ;
while ( namelen > 0 & & isspace ( name [ namelen - 1 ] ) ) namelen - - ;
Z_Free ( meshname ) ;
meshname = Z_Malloc ( namelen + 1 ) ;
memcpy ( meshname , name , namelen ) ;
meshname [ namelen ] = 0 ;
m = Obj_FinishFace ( mod , m , attrib , vert , numverts , elem , & numelems ) ;
break ;
}
case ' u ' :
{
char * name ;
size_t namelen ;
if ( strncmp ( c , " usemtl " , 6 ) ) continue ;
while ( isalpha ( * c ) ) c + + ;
while ( isspace ( * c ) ) c + + ;
name = c ;
namelen = strlen ( name ) ;
while ( namelen > 0 & & isspace ( name [ namelen - 1 ] ) ) namelen - - ;
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if ( ! matname | | strncmp ( matname , name , namelen ) | | matname [ namelen ] )
{
Z_Free ( matname ) ;
matname = Z_Malloc ( namelen + 1 ) ;
memcpy ( matname , name , namelen ) ;
matname [ namelen ] = 0 ;
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m = Obj_FinishFace ( mod , m , attrib , vert , numverts , elem , & numelems ) ;
}
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break ;
}
case ' s ' :
{
if ( ! isspace ( c [ 1 ] ) ) continue ;
while ( isalpha ( * c ) ) c + + ;
while ( isspace ( * c ) ) c + + ;
//make sure that these verts are not merged, ensuring that they get smoothed.
//different texture coords will still have discontinuities though.
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defaultvert . attrib [ 2 ] = - 1 - strtol ( c , & c , 10 ) ;
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break ;
}
case ' f ' :
{
size_t i , v = 0 ;
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struct objvert vkey = { 0 } ;
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index_t first = 0 , prev = 0 , cur = 0 ;
//only generate a new mesh if something actually changed.
if ( ! m )
{
# ifdef HAVE_CLIENT
galiasskin_t * skin ;
skinframe_t * sframe ;
m = ZG_Malloc ( & mod - > memgroup , sizeof ( * m ) + sizeof ( * skin ) + sizeof ( * sframe ) ) ;
# else
m = ZG_Malloc ( & mod - > memgroup , sizeof ( * m ) ) ;
# endif
* link = m ;
link = & m - > nextsurf ;
m - > shares_verts = meshidx ;
Mod_DefaultMesh ( m , COM_SkipPath ( mod - > name ) , meshidx + + ) ;
Q_strncpyz ( m - > surfacename , meshname ? meshname : " " , sizeof ( m - > surfacename ) ) ;
# ifdef HAVE_CLIENT
skin = ( void * ) ( m + 1 ) ;
sframe = ( void * ) ( skin + 1 ) ;
skin - > frame = sframe ;
skin - > numframes = 1 ;
skin - > skinspeed = 10 ;
Q_strncpyz ( skin - > name , matname ? matname : " " , sizeof ( skin - > name ) ) ;
Q_strncpyz ( sframe - > shadername , matname ? matname : " " , sizeof ( sframe - > shadername ) ) ;
sframe - > shader = NULL ;
m - > ofsskins = skin ;
m - > numskins = 1 ;
# endif
}
while ( isalpha ( * c ) ) c + + ;
for ( ; ; )
{
while ( isspace ( * c ) ) c + + ;
if ( ! * c ) break ;
for ( i = 0 ; i < countof ( vkey . attrib ) ; )
{
char * n ;
long v ;
v = strtol ( c , & n , 10 ) ;
if ( c = = n ) { badinput = true ; break ; } //not a number if we read nothing!
if ( v < 0 )
vkey . attrib [ i ] = attrib [ i ] . length + v ;
else
vkey . attrib [ i ] = v - 1 ; //0 is index-not-specified.
i + + ;
c = n ;
if ( * c ! = ' / ' ) break ;
c + + ;
}
for ( ; i < countof ( vkey . attrib ) ; i + + )
vkey . attrib [ i ] = defaultvert . attrib [ i ] ;
//figure out the verts, to avoid dupes
for ( cur = 0 ; cur < numverts ; cur + + )
{
if ( vert [ cur ] . attrib [ 0 ] = = vkey . attrib [ 0 ] & &
vert [ cur ] . attrib [ 1 ] = = vkey . attrib [ 1 ] & &
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vert [ cur ] . attrib [ 2 ] = = vkey . attrib [ 2 ] & & vkey . attrib [ 2 ] ! = - 1 )
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break ;
}
if ( cur = = numverts )
{
if ( numverts = = maxverts )
Z_ReallocElements ( ( void * * ) & vert , & maxverts , numverts + 1024 , sizeof ( * vert ) ) ;
vert [ numverts + + ] = vkey ;
}
//spew out the trifan
if ( v = = 0 )
first = cur ;
else if ( v > 1 )
{
if ( numelems + 3 > = maxelems )
{
if ( numelems > = 65535 )
{
badinput = true ;
break ; //don't depend upon the OOM killer... it kills everything else too
}
Z_ReallocElements ( ( void * * ) & elem , & maxelems , numelems + 1024 , sizeof ( * elem ) ) ;
}
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if ( reorient = = 1 )
{
elem [ numelems + + ] = first ;
elem [ numelems + + ] = prev ;
elem [ numelems + + ] = cur ;
}
else
{
elem [ numelems + + ] = cur ;
elem [ numelems + + ] = prev ;
elem [ numelems + + ] = first ;
}
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}
prev = cur ;
v + + ;
}
break ;
}
}
}
m = Obj_FinishFace ( mod , m , attrib , vert , numverts , elem , & numelems ) ;
Z_Free ( vert ) ;
Z_Free ( elem ) ;
Z_Free ( attrib [ 0 ] . data ) ;
Z_Free ( attrib [ 1 ] . data ) ;
Z_Free ( attrib [ 2 ] . data ) ;
if ( badinput )
{ //fail the load.
Con_Printf ( CON_WARNING " File \" %s \" with .obj extension does not appear to be an .obj file \n " , mod - > name ) ;
mod - > meshinfo = NULL ;
return false ;
}
Mod_ClampModelSize ( mod ) ;
Mod_ParseModelEvents ( mod , NULL , 0 ) ;
mod - > flags = 0 ;
mod - > type = mod_alias ;
mod - > numframes = 0 ;
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Mod_SetMeshModelFuncs ( mod , true ) ;
// Con_Printf(CON_WARNING "%s: multi-surface obj files are unoptimised\n", mod->name);
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return ! ! mod - > meshinfo ;
}
# endif
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void Alias_Register ( void )
{
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# ifdef MD1MODELS
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# ifndef SERVERONLY
Cvar_Register ( & dpcompat_nofloodfill , NULL ) ;
# endif
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Mod_RegisterModelFormatMagic ( NULL , " Quake1 Model (mdl) " , IDPOLYHEADER , Mod_LoadQ1Model ) ;
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Mod_RegisterModelFormatMagic ( NULL , " QuakeForge 16bit Model " , " MD16 " , 4 , Mod_LoadQ1Model ) ;
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# ifdef HEXEN2
Mod_RegisterModelFormatMagic ( NULL , " Hexen2 Model (mdl) " , RAPOLYHEADER , Mod_LoadQ1Model ) ;
# endif
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# endif
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# ifdef MD2MODELS
Mod_RegisterModelFormatMagic ( NULL , " Quake2 Model (md2) " , MD2IDALIASHEADER , Mod_LoadQ2Model ) ;
# endif
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# ifdef MODELFMT_MDX
Mod_RegisterModelFormatMagic ( NULL , " Kingpin Model (mdx) " , MDX_IDENT , Mod_LoadKingpinModel ) ;
# endif
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# ifdef MD3MODELS
Mod_RegisterModelFormatMagic ( NULL , " Quake3 Model (md3) " , MD3_IDENT , Mod_LoadQ3Model ) ;
# endif
# ifdef HALFLIFEMODELS
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Mod_RegisterModelFormatMagic ( NULL , " Half-Life Model (mdl) " , " IDST \x0a \0 \0 \0 " , 8 , Mod_LoadHLModel ) ;
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# endif
# ifdef ZYMOTICMODELS
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Mod_RegisterModelFormatMagic ( NULL , " Zymotic Model (zym) " , " ZYMOTICMODEL " , 12 , Mod_LoadZymoticModel ) ;
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# endif
# ifdef DPMMODELS
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Mod_RegisterModelFormatMagic ( NULL , " DarkPlaces Model (dpm) " , " DARKPLACESMODEL \0 " , 16 , Mod_LoadDarkPlacesModel ) ;
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# endif
# ifdef PSKMODELS
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Mod_RegisterModelFormatMagic ( NULL , " Unreal Interchange Model (psk) " , " ACTR " , 4 , Mod_LoadPSKModel ) ;
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# endif
# ifdef INTERQUAKEMODELS
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Mod_RegisterModelFormatMagic ( NULL , " Inter-Quake Model (iqm) " , " INTERQUAKEMODEL \0 " , 16 , Mod_LoadInterQuakeModel ) ;
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# endif
# ifdef MD5MODELS
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Cvar_Register ( & mod_md5_singleanimation , NULL ) ;
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Mod_RegisterModelFormatText ( NULL , " MD5 Mesh/Anim (md5mesh) " , " MD5Version " , Mod_LoadMD5MeshModel ) ;
Mod_RegisterModelFormatText ( NULL , " External Anim " , " EXTERNALANIM " , Mod_LoadCompositeAnim ) ;
# endif
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# ifdef MODELFMT_OBJ
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Mod_RegisterModelFormatText ( NULL , " Wavefront Object (obj) " , " .obj " , Mod_LoadObjModel ) ;
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Cvar_Register ( & mod_obj_orientation , NULL ) ;
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# endif
Too many changes, sorry.
Change revision displays, use the SVN commit date instead of using __DATE__ (when there's no local changes). This should allow reproducible builds.
Added s_al_disable cvar, to block openal and all the various problems people have had with it, without having to name an explicit fallback (which would vary by system).
Add mastervolume cvar (for ss).
Add r_shadows 2 (aka fake shadows - for ss).
Add scr_loadingscreen_aspect -1 setting, to disable levelshots entirely, also disables the progress bar (for ss).
Better support for some effectinfo hacks (for ss).
Added dpcompat_nocsqcwarnings (because of lazy+buggy mods like ss).
Rework the dpcsqc versions of project+unproject builtins for better compat (for ss).
Added dpcompat_csqcinputeventtypes to block unexpected csqc input events (for ss).
Better compat with DP's loadfont console command (for ss).
Added dpcompat_smallerfonts cvar to replicate a DP bug (for ss).
Detect dp's m_draw extension, to work around it (for ss).
Cvar dpcompat_ignoremodificationtimes added. A value of 0 favour the most recently modified file, 1 will use DP-like alphabetically sorted preferences (for ss).
loadfont builtin can now accept outline=1 in the sizes arg for slightly more readable fonts.
Fix bbox calcs for rotated entities, fix needed for r_ignorenetpvs 0.
Hackily parse emoji.json to provide :poop: etc suggestions.
Skip prediction entirely when there's no local entity info. This fixes stair-smoothing in xonotic.
screenshot_cubemap will now capture half-float images when saving to ktx or dds files.
Fix support for xcf files larger than 4gb, mostly to avoid compiler warnings.
Fixed size of gfx/loading.lmp when replacement textures are used.
Added mipmap support for rg8 and l8a8 textures.
r_hdr_framebuffer cvar updated to support format names instead of random negative numbers. Description updated to name some interesting ones.
Perform autoupdate _checks_ ONLY with explicit user confirmation (actual updating already needed user confirmation, but this extra step should reduce the chances of us getting wrongly accused of exfiltrating user data if we're run in a sandbox - we ONLY ever included the updating engine's version in the checks, though there's nothing we can do to avoid sending the user's router's IP).
Removed the 'summon satan all over your harddrive' quit message, in case paranoid security researchers are idiots and don't bother doing actual research.
Removed the triptohell.info and fte.triptohell.info certificates, they really need to stop being self-signed. The updates domain is still self-signed for autoupdates.
Video drivers are now able to report supported video resolutions, visible to menuqc. Currently only works with SDL2 builds.
Added setmousepos builtin. Should work with glx+win32 build.
VF_SKYROOM_CAMERA can now accept an extra two args, setviewprop(VF_SKYROOM_CAMERA, org, axis, degrees).
Removed v_skyroom_origin+v_skyroom_orientation cvars in favour just v_skyroom, which should make it behave more like the 'fog' command (used when csqc isn't overriding).
Added R_EndPolygonRibbon builtin to make it faster+easier to generate textured ribbon/cable/etc wide lines (for TW).
sdl: Fix up sys_sdl.c's file enumeration to support wildcards in directories.
edit command now displays end1.bin/end2.bin correctly, because we can.
Finally add support for f_modified - though ruleset_allow_larger_models and ruleset_allow_overlong_sounds generally make it redundant.
Fix threading race condition in sha1 lookups.
Updated f_ruleset to include the same extra flags reported by ezquake.
A mod's default.fmf file can now contain an eg 'mainconfig config.cfg' line (to explicitly set the main config saved with cfg_save_auto 1 etc).
fmf: basegame steam:GameName/GameDir can be used to try to load a mod directory from an installed steam game. The resulting gamedir will be read-only.
HOMEDIR CHANGE: use homedirs only if the basedir cannot be written or a homedir already exists, which should further reduce the probability of microsoft randomly uploading our data to their cloud (but mostly because its annoying to never know where your data is written).
Fixed buf_cvarlist, should work in xonotic now, and without segfaults.
Added an extra arg to URI_Get_Callback calls - the response size, also changed the tempstring to contain all bytes of the response, you need to be careful about nulls though.
Try to work around nvidia's forced-panning bug on x11 when changing video modes. This might screw with other programs.
sdl: support custom icons.
sdl: support choosing a specific display.
Added some documentation to menuqc builtins.
menusys: use outlines for slightly more readable fonts.
menusys: switch vid_width and vid_height combos into a single video mode combo to set both according to reported video modes.
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5581 fc73d0e0-1445-4013-8a0c-d673dee63da5
2019-11-20 03:09:50 +00:00
# ifndef SERVERONLY
Cvar_Register ( & dpcompat_skinfiles , NULL ) ;
# endif
2016-07-28 15:57:22 +00:00
}