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fteqw/engine/gl/gl_alias.c
Spoike f4d3df7bf5 make sure the capture command doesn't switch between gamedirs while capturing. 
added dimension_default global to provide default dimensions. expected to be a (var) constant.
support setcustomskin in menuqc.
implement some considerations for win95, so it can actually run on that horrendously outdated system.
provide scr_autoid and r_showbbox-field info when running csqc.
ignore vid_restarts at the end of config.cfg files from other engines. in fte, these are at best redundant and at worst overrides user settings.
fix issue with latched cvars not flagging the config as modified.
path command always shows filenames properly.
fix some fteqcc inlining bugs.
added precaches command to display all active precaches.
added docs for mapcluster.

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@4881 fc73d0e0-1445-4013-8a0c-d673dee63da5
2015-06-04 06:15:14 +00:00

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//a note about dedicated servers:
//In the server-side gamecode, a couple of q1 extensions require knowing something about models.
//So we load models serverside, if required.
//things we need:
//tag/bone names and indexes so we can have reasonable modding with tags. :)
//tag/bone positions so we can shoot from the actual gun or other funky stuff
//vertex positions so we can trace against the mesh rather than the bbox.
//we use the gl renderer's model code because it supports more sorts of models than the sw renderer. Sad but true.
#include "quakedef.h"
#include "glquake.h"
#ifndef SERVERONLY
#ifdef _WIN32
#include <malloc.h>
#else
#include <alloca.h>
#endif
#include "com_mesh.h"
#if defined(RTLIGHTS)
static int numProjectedShadowVerts;
static vec3_t *ProjectedShadowVerts;
static int numFacing;
static qbyte *triangleFacing;
#endif
//FIXME
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;
extern cvar_t gl_part_flame, r_fullbrightSkins, r_fb_models, ruleset_allow_fbmodels;
extern cvar_t r_noaliasshadows;
extern cvar_t gl_ati_truform;
extern cvar_t r_vertexdlights;
extern cvar_t mod_md3flags;
extern cvar_t r_skin_overlays;
extern cvar_t r_globalskin_first, r_globalskin_count;
#ifndef SERVERONLY
static hashtable_t skincolourmapped;
//q3 .skin support
static skinfile_t **registeredskins;
static skinid_t numregisteredskins;
struct cctx_s
{
texid_t diffuse;
int width;
int height;
};
void Mod_FlushSkin(skinid_t id)
{
skinfile_t *sk;
id--;
if (id >= numregisteredskins)
return; //invalid!
sk = registeredskins[id];
if (!sk)
return;
sk->qwskin = NULL;
}
void Mod_WipeSkin(skinid_t id)
{
skinfile_t *sk;
int i;
id--;
if (id >= numregisteredskins)
return; //invalid!
sk = registeredskins[id];
if (!sk)
return;
for (i = 0; i < sk->nummappings; i++)
{
if (sk->mappings[i].needsfree)
Image_UnloadTexture(sk->mappings[i].texnums.base);
R_UnloadShader(sk->mappings[i].shader);
}
Z_Free(registeredskins[id]);
registeredskins[id] = NULL;
}
static void Mod_WipeAllSkins(qboolean final)
{
skinid_t id;
if (final)
{
for (id = 0; id < numregisteredskins; )
Mod_WipeSkin(++id);
Z_Free(registeredskins);
registeredskins = NULL;
numregisteredskins = 0;
}
else
{
for (id = 0; id < numregisteredskins; )
Mod_FlushSkin(++id);
}
}
skinfile_t *Mod_LookupSkin(skinid_t id)
{
id--;
if (id < numregisteredskins)
return registeredskins[id];
return NULL;
}
static void Mod_ComposeSkin(char *texture, struct cctx_s *cctx)
{
float x=0, y=0;
float w, h;
int iw=0, ih=0;
float r=1,g=1,b=1,a=1;
int l;
char *s, tname[MAX_QPATH];
shader_t *sourceimg;
for (s = texture; *s; s++)
{
if (*s == '@' || *s == ':' || *s == '?' || *s == '*')
break;
}
l = s - texture;
if (l > MAX_QPATH-1)
l = MAX_QPATH-1;
memcpy(tname, texture, l);
tname[l] = 0;
//load the image and set some default sizes, etc.
sourceimg = R2D_SafeCachePic(tname);
if (!sourceimg || R_GetShaderSizes(sourceimg, &iw, &ih, true) != 1) //no shader? no point in doing anything.
{
w = 0;
h = 0;
sourceimg = NULL;
}
else
{
w = iw;
h = ih;
}
while(*s)
{
switch(*s)
{
case '@':
x = strtod(s+1, &s);
if (*s == ',')
s++;
y = strtod(s, &s);
break;
case ':':
w = strtod(s+1, &s);
if (*s == ',')
s++;
h = strtod(s, &s);
break;
case '?':
r = strtod(s+1, &s);
if (*s == ',')
s++;
g = strtod(s, &s);
if (*s == ',')
s++;
b = strtod(s, &s);
if (*s == ',')
s++;
a = strtod(s, &s);
break;
// case '*':
// break;
default:
s+=strlen(s); //some sort of error or other thing we don't support
break;
}
}
if (!w || !h)
return;
//create a render target if one is not already selected
if (!TEXVALID(cctx->diffuse))
{
strcpy(r_refdef.rt_destcolour[0].texname, "-");
cctx->width = x+w;
cctx->height = y+h;
cctx->diffuse = R2D_RT_Configure(r_refdef.rt_destcolour[0].texname, cctx->width, cctx->height, TF_RGBA32);
BE_RenderToTextureUpdate2d(true);
}
if (!sourceimg)
return;
R2D_ImageColours(r,g,b,a);
R2D_Image(x, 512-(y+h), w, h, 0, 1, 1, 0, sourceimg);
R_UnloadShader(sourceimg); //we're done with it now
}
//create a new skin with explicit name and text. even if its already loaded. this means you can free it safely.
skinid_t Mod_ReadSkinFile(const char *skinname, const char *skintext)
{
skinid_t id;
char *nl;
skinfile_t *skin;
char shadername[MAX_QPATH];
for (id = 0; id < numregisteredskins; id++)
{
if (!registeredskins[id])
break;
}
if (id == numregisteredskins)
{
int newn = numregisteredskins + 64;
registeredskins = BZ_Realloc(registeredskins, sizeof(*registeredskins) * newn);
memset(registeredskins + numregisteredskins, 0, (newn-numregisteredskins)*sizeof(*registeredskins));
numregisteredskins = newn;
}
skin = Z_Malloc(sizeof(*skin) - sizeof(skin->mappings) + sizeof(skin->mappings[0])*4);
skin->maxmappings = 4;
Q_strncpyz(skin->skinname, skinname, sizeof(skin->skinname));
skin->q1lower = Q1UNSPECIFIED;
skin->q1upper = Q1UNSPECIFIED;
while(skintext)
{
if (skin->nummappings == skin->maxmappings)
{
skin->maxmappings += 4;
skin = BZ_Realloc(skin, sizeof(*skin) - sizeof(skin->mappings) + sizeof(skin->mappings[0])*skin->maxmappings);
}
skintext = COM_ParseToken(skintext, ",");
if (!skintext)
break;
if (!strcmp(com_token, "replace"))
{
skintext = COM_ParseToken(skintext, NULL);
if (com_tokentype != TTP_LINEENDING)
{
Q_strncpyz(skin->mappings[skin->nummappings].surface, com_token, sizeof(skin->mappings[skin->nummappings].surface));
skintext = COM_ParseToken(skintext, NULL);
Q_strncpyz(shadername, com_token, sizeof(shadername));
skin->mappings[skin->nummappings].shader = R_RegisterSkin(shadername, skin->skinname);
R_BuildDefaultTexnums(NULL, skin->mappings[skin->nummappings].shader);
skin->mappings[skin->nummappings].texnums = *skin->mappings[skin->nummappings].shader->defaulttextures;
skin->nummappings++;
}
}
else if (!strcmp(com_token, "compose"))
{
skintext = COM_ParseToken(skintext, NULL);
//body
if (com_tokentype != TTP_LINEENDING)
{
//fixme: this blocks waiting for the textures to load.
struct cctx_s cctx;
memset(&cctx, 0, sizeof(cctx));
Q_strncpyz(skin->mappings[skin->nummappings].surface, com_token, sizeof(skin->mappings[skin->nummappings].surface));
skintext = COM_ParseToken(skintext, NULL);
Q_strncpyz(shadername, com_token, sizeof(shadername));
skin->mappings[skin->nummappings].shader = R_RegisterSkin(shadername, skin->skinname);
R_BuildDefaultTexnums(NULL, skin->mappings[skin->nummappings].shader);
skin->mappings[skin->nummappings].texnums = *skin->mappings[skin->nummappings].shader->defaulttextures;
for(;;)
{
while(*skintext == ' ' || *skintext == '\t')
skintext++;
if (*skintext == '+')
skintext++;
else
break;
skintext = COM_Parse(skintext);
Mod_ComposeSkin(com_token, &cctx);
}
skin->mappings[skin->nummappings].needsfree = 1;
skin->mappings[skin->nummappings].texnums.base = cctx.diffuse;
skin->nummappings++;
*r_refdef.rt_destcolour[0].texname = 0;
BE_RenderToTextureUpdate2d(true);
}
}
else if (!strcmp(com_token, "geomset"))
{
int set;
skintext = COM_ParseToken(skintext, NULL);
set = atoi(com_token);
if (com_tokentype != TTP_LINEENDING)
{
skintext = COM_ParseToken(skintext, NULL);
if (set < MAX_GEOMSETS)
skin->geomset[set] = atoi(com_token);
}
}
else if (!strncmp(com_token, "tag_", 4))
{
//ignore it. matches q3.
}
else if (!strcmp(com_token, "qwskin"))
{
skintext = COM_ParseToken(skintext, NULL);
Q_strncpyz(skin->qwskinname, com_token, sizeof(skin->qwskinname));
}
else if (!strcmp(com_token, "q1lower"))
{
skintext = COM_ParseToken(skintext, NULL);
if (!strncmp(com_token, "0x", 2))
skin->q1lower = 0xff000000|strtoul(com_token+2, NULL, 16);
else
skin->q1lower = atoi(com_token);
}
else if (!strcmp(com_token, "q1upper"))
{
skintext = COM_ParseToken(skintext, NULL);
if (!strncmp(com_token, "0x", 2))
skin->q1upper = 0xff000000|strtoul(com_token+2, NULL, 16);
else
skin->q1upper = atoi(com_token);
}
else
{
while(*skintext == ' ' || *skintext == '\t')
skintext++;
if (*skintext == ',')
{
Q_strncpyz(skin->mappings[skin->nummappings].surface, com_token, sizeof(skin->mappings[skin->nummappings].surface));
skintext = COM_ParseToken(skintext+1, NULL);
Q_strncpyz(shadername, com_token, sizeof(shadername));
skin->mappings[skin->nummappings].shader = R_RegisterSkin(shadername, skin->skinname);
R_BuildDefaultTexnums(NULL, skin->mappings[skin->nummappings].shader);
skin->mappings[skin->nummappings].texnums = *skin->mappings[skin->nummappings].shader->defaulttextures;
skin->nummappings++;
}
}
if (com_tokentype == TTP_LINEENDING || !skintext)
continue;
nl = strchr(skintext, '\n');
if (!nl)
skintext = skintext+strlen(skintext);
else
skintext = nl+1;
if (!*skintext)
break;
}
registeredskins[id] = skin;
return id+1;
}
//registers a skin. loads it if there's not one with that name already registered.
//returns 0 if it failed.
skinid_t Mod_RegisterSkinFile(const char *skinname)
{
char *f;
skinid_t id;
//block duplicates
for (id = 0; id < numregisteredskins; id++)
{
if (!registeredskins[id])
continue;
if (!strcmp(skinname, registeredskins[id]->skinname))
return id+1;
}
f = FS_LoadMallocFile(skinname, NULL);
if (!f)
return 0;
id = Mod_ReadSkinFile(skinname, f);
Z_Free(f);
return id;
}
//changes vertex lighting values
#if 0
static void R_GAliasApplyLighting(mesh_t *mesh, vec3_t org, vec3_t angles, float *colormod)
{
int l, v;
vec3_t rel;
vec3_t dir;
float dot, d, a;
if (mesh->colors4f_array)
{
float l;
int temp;
int i;
avec4_t *colours = mesh->colors4f_array;
vec3_t *normals = mesh->normals_array;
vec3_t ambient, shade;
qbyte alphab = bound(0, colormod[3], 1);
if (!mesh->normals_array)
{
mesh->colors4f_array = NULL;
return;
}
VectorCopy(ambientlight, ambient);
VectorCopy(shadelight, shade);
for (i = 0; i < 3; i++)
{
ambient[i] *= colormod[i];
shade[i] *= colormod[i];
}
for (i = mesh->numvertexes-1; i >= 0; i--)
{
l = DotProduct(normals[i], shadevector);
temp = l*ambient[0]+shade[0];
colours[i][0] = temp;
temp = l*ambient[1]+shade[1];
colours[i][1] = temp;
temp = l*ambient[2]+shade[2];
colours[i][2] = temp;
colours[i][3] = alphab;
}
}
if (r_vertexdlights.value && mesh->colors4f_array)
{
//don't include world lights
for (l=rtlights_first ; l<RTL_FIRST; l++)
{
if (cl_dlights[l].radius)
{
VectorSubtract (cl_dlights[l].origin,
org,
dir);
if (Length(dir)>cl_dlights[l].radius+mesh->radius) //far out man!
continue;
rel[0] = -DotProduct(dir, currententity->axis[0]);
rel[1] = -DotProduct(dir, currententity->axis[1]); //quake's crazy.
rel[2] = -DotProduct(dir, currententity->axis[2]);
/*
glBegin(GL_LINES);
glVertex3f(0,0,0);
glVertex3f(rel[0],rel[1],rel[2]);
glEnd();
*/
for (v = 0; v < mesh->numvertexes; v++)
{
VectorSubtract(mesh->xyz_array[v], rel, dir);
dot = DotProduct(dir, mesh->normals_array[v]);
if (dot>0)
{
d = DotProduct(dir, dir);
a = 1/d;
if (a>0)
{
a *= 10000000*dot/sqrt(d);
mesh->colors4f_array[v][0] += a*cl_dlights[l].color[0];
mesh->colors4f_array[v][1] += a*cl_dlights[l].color[1];
mesh->colors4f_array[v][2] += a*cl_dlights[l].color[2];
}
// else
// mesh->colors4f_array[v][1] = 1;
}
// else
// mesh->colors4f_array[v][2] = 1;
}
}
}
}
}
#endif
/*
void GL_GAliasFlushOneSkin(char *skinname)
{
int i;
bucket_t **l;
galiascolourmapped_t *cm;
for (i = 0; i < skincolourmapped.numbuckets; i++)
{
for(l = &skincolourmapped.bucket[i]; *l; )
{
cm = (*l)->data;
if (strstr(cm->name, skinname))
{
*l = cm->bucket.next;
BZ_Free(cm);
continue;
}
l = &(*l)->next;
}
}
}*/
//final is set when the renderer is going down.
//if not set, this is mid-map, and everything should be regeneratable.
void R_GAliasFlushSkinCache(qboolean final)
{
int i;
bucket_t *b;
for (i = 0; i < skincolourmapped.numbuckets; i++)
{
while((b = skincolourmapped.bucket[i]))
{
skincolourmapped.bucket[i] = b->next;
BZ_Free(b->data);
}
}
if (skincolourmapped.bucket)
BZ_Free(skincolourmapped.bucket);
skincolourmapped.bucket = NULL;
skincolourmapped.numbuckets = 0;
#ifdef RTLIGHTS
BZ_Free(ProjectedShadowVerts);
ProjectedShadowVerts = NULL;
numProjectedShadowVerts = 0;
BZ_Free(triangleFacing);
triangleFacing = NULL;
numFacing = 0;
#endif
Mod_WipeAllSkins(final);
}
static shader_t *GL_ChooseSkin(galiasinfo_t *inf, model_t *model, int surfnum, entity_t *e, texnums_t **forcedtex)
{
galiasskin_t *skins;
shader_t *shader;
qwskin_t *plskin = NULL;
int frame;
unsigned int subframe;
extern int cl_playerindex; //so I don't have to strcmp
unsigned int tc, bc, pc;
qboolean forced;
qboolean generateupperlower = false;
tc = e->topcolour;
bc = e->bottomcolour;
*forcedtex = NULL;
/*q3 .skin files*/
if (e->customskin)
{
skinfile_t *sk = Mod_LookupSkin(e->customskin);
if (sk)
{
int i;
if (inf->geomset < MAX_GEOMSETS && sk->geomset[inf->geomset] != inf->geomid)
return NULL; //don't allow this surface to be drawn.
for (i = 0; i < sk->nummappings; i++)
{
if (!strcmp(sk->mappings[i].surface, inf->surfacename))
{
*forcedtex = &sk->mappings[i].texnums;
return sk->mappings[i].shader;
}
}
if (!sk->qwskin && *sk->qwskinname)
sk->qwskin = Skin_Lookup(sk->qwskinname);
if (sk->q1lower != Q1UNSPECIFIED)
bc = e->bottomcolour = sk->q1lower;
if (sk->q1upper != Q1UNSPECIFIED)
bc = e->topcolour = sk->q1upper;
plskin = sk->qwskin;
}
}
/*hexen2 feature: global skins */
if (inf->numskins < e->skinnum && e->skinnum >= r_globalskin_first.ival && e->skinnum < r_globalskin_first.ival+r_globalskin_count.ival)
{
shader_t *s;
s = R_RegisterSkin(va("gfx/skin%d.lmp", e->skinnum), NULL);
if (s)
{
// if (!TEXVALID(s->defaulttextures.base))
// s->defaulttextures.base = R_LoadHiResTexture(va("gfx/skin%d.lmp", e->skinnum), NULL, 0);
return s;
}
}
if ((e->model->engineflags & MDLF_NOTREPLACEMENTS) && !ruleset_allow_sensitive_texture_replacements.ival)
forced = true;
else
forced = false;
if (!gl_nocolors.ival || forced)
{
if (plskin && plskin->loadstate == SKIN_LOADING)
plskin = NULL;
else if (!plskin || plskin->loadstate != SKIN_LOADED)
{
if (e->playerindex >= 0 && e->playerindex <= MAX_CLIENTS)
{
//heads don't get skinned, only players (and weaponless players), they do still get recoloured.
if (model==cl.model_precache[cl_playerindex] || model==cl.model_precache_vwep[0])
{
if (!cl.players[e->playerindex].qwskin)
Skin_Find(&cl.players[e->playerindex]);
plskin = cl.players[e->playerindex].qwskin;
}
else
plskin = NULL;
if (plskin && plskin->loadstate != SKIN_LOADED)
{
Skin_Cache8(plskin); //we're not going to use it, but make sure its status is updated when it is finally loaded..
plskin = cl.players[e->playerindex].lastskin;
}
else
cl.players[e->playerindex].lastskin = plskin;
}
else
plskin = NULL;
}
#ifdef HEXEN2
pc = e->h2playerclass;
#else
pc = 0;
#endif
if (forced || tc != TOP_DEFAULT || bc != BOTTOM_DEFAULT || plskin)
{
int inwidth, inheight;
int tinwidth, tinheight;
char *skinname;
qbyte *original;
galiascolourmapped_t *cm;
char hashname[512];
if (plskin)
{
snprintf(hashname, sizeof(hashname), "%s$%s$%i", model->name, plskin->name, surfnum);
skinname = hashname;
}
else if (surfnum)
{
snprintf(hashname, sizeof(hashname), "%s$%i", model->name, surfnum);
skinname = hashname;
}
else
skinname = model->name;
if (!skincolourmapped.numbuckets)
{
void *buckets = BZ_Malloc(Hash_BytesForBuckets(256));
memset(buckets, 0, Hash_BytesForBuckets(256));
Hash_InitTable(&skincolourmapped, 256, buckets);
}
if (!inf->numskins)
{
/*model has no skins*/
skins = NULL;
subframe = 0;
shader = NULL;
}
else
{
skins = inf->ofsskins;
if (e->skinnum >= 0 && e->skinnum < inf->numskins)
skins += e->skinnum;
if (!skins->numframes)
{
/*model has a skin, but has no framegroups*/
skins = NULL;
subframe = 0;
shader = NULL;
}
else
{
subframe = cl.time*skins->skinspeed;
subframe = subframe%skins->numframes;
shader = skins->frame[subframe].shader;
}
}
if (shader)
{
if (!plskin)
{
texnums_t *tex = shader->defaulttextures;
//do this for the loading case too, in the hope that it'll avoid generating a per-player skin at all
if ((tex->loweroverlay && (tex->loweroverlay->status == TEX_LOADING || tex->loweroverlay->status == TEX_LOADED)) ||
(tex->upperoverlay && (tex->upperoverlay->status == TEX_LOADING || tex->upperoverlay->status == TEX_LOADED)))
return shader;
}
if (shader->prog && shader->prog->permu[PERMUTATION_UPPERLOWER].handle.glsl.handle && !h2playertranslations)
{ //this shader can do permutations. this means we can generate only a black image, with separate top+bottom textures.
tc = 0xfe000000;
bc = 0xfe000000;
generateupperlower = true;
}
}
for (cm = Hash_Get(&skincolourmapped, skinname); cm; cm = Hash_GetNext(&skincolourmapped, skinname, cm))
{
if (cm->tcolour == tc && cm->bcolour == bc && cm->skinnum == e->skinnum && cm->subframe == subframe && cm->pclass == pc)
{
*forcedtex = &cm->texnum;
if (!shader)
shader = R_RegisterSkin(skinname, NULL);
return shader;
}
}
//colourmap isn't present yet.
cm = Z_Malloc(sizeof(*cm));
*forcedtex = &cm->texnum;
Q_strncpyz(cm->name, skinname, sizeof(cm->name));
Hash_Add(&skincolourmapped, cm->name, cm, &cm->bucket);
cm->tcolour = tc;
cm->bcolour = bc;
cm->pclass = pc; //is this needed? surely it'll be baked as part of the modelname?
cm->skinnum = e->skinnum;
cm->subframe = subframe;
//q2 has no surfaces in its player models, so don't crash from that
//note that q2 should also always have a custom skin set. its not our problem (here) if it doesn't.
if (!shader)
shader = R_RegisterSkin(skinname, NULL);
cm->texnum.bump = shader->defaulttextures->bump; //can't colour bumpmapping
if (plskin)
{
/*q1 only reskins the player model, not gibbed heads (which have the same colourmap)*/
original = Skin_Cache8(plskin);
inwidth = plskin->width;
inheight = plskin->height;
if (!original && TEXLOADED(plskin->textures.base))
{
cm->texnum.loweroverlay = plskin->textures.loweroverlay;
cm->texnum.upperoverlay = plskin->textures.upperoverlay;
cm->texnum.base = plskin->textures.base;
cm->texnum.fullbright = plskin->textures.fullbright;
cm->texnum.specular = plskin->textures.specular;
cm->texnum.paletted = r_nulltex;
cm->texnum.reflectcube = r_nulltex;
cm->texnum.reflectmask = r_nulltex;
return shader;
}
}
else
{
original = NULL;
inwidth = 0;
inheight = 0;
}
if (!original)
{
if (skins && skins->numframes && skins->frame[subframe].texels)
{
original = skins->frame[subframe].texels;
inwidth = skins->skinwidth;
inheight = skins->skinheight;
}
else
{
original = NULL;
inwidth = 0;
inheight = 0;
}
}
if (skins)
{
tinwidth = skins->skinwidth;
tinheight = skins->skinheight;
}
else
{
tinwidth = inwidth;
tinheight = inheight;
}
if (original)
{
int i, j;
unsigned translate32[256];
unsigned *pixels;
unsigned *out;
unsigned frac, fracstep;
unsigned scaled_width, scaled_height;
qbyte *inrow;
cm->texnum.base = r_nulltex;
cm->texnum.fullbright = r_nulltex;
scaled_width = gl_max_size.value < 512 ? gl_max_size.value : 512;
scaled_height = gl_max_size.value < 512 ? gl_max_size.value : 512;
//handle the case of an external skin being smaller than the texture that its meant to replace
//(to support the evil hackage of the padding on the outside of common qw skins)
if (tinwidth > inwidth)
tinwidth = inwidth;
if (tinheight > inheight)
tinheight = inheight;
//don't make scaled width any larger than it needs to be
if (sh_config.texture_non_power_of_two)
{
scaled_width = tinwidth;
scaled_height = tinheight;
}
else
{
for (i = 0; i < 10; i++)
{
scaled_width = (1<<i);
if (scaled_width >= tinwidth)
break; //its covered
}
for (i = 0; i < 10; i++)
{
scaled_height = (1<<i);
if (scaled_height >= tinheight)
break; //its covered
}
}
if (scaled_width > gl_max_size.value)
scaled_width = gl_max_size.value; //whoops, we made it too big
if (scaled_height > gl_max_size.value)
scaled_height = gl_max_size.value; //whoops, we made it too big
if (scaled_width < 4)
scaled_width = 4;
if (scaled_height < 4)
scaled_height = 4;
#ifdef HEXEN2
if (h2playertranslations && pc)
{
unsigned int color_offsets[5] = {2*14*256,0,1*14*256,2*14*256,2*14*256};
unsigned char *colorA, *colorB, *sourceA, *sourceB;
colorA = h2playertranslations + 256 + color_offsets[pc-1];
colorB = colorA + 256;
sourceA = colorB + (tc * 256);
sourceB = colorB + (bc * 256);
for(i=0;i<256;i++)
{
translate32[i] = d_8to24rgbtable[i];
if (tc > 0 && (colorA[i] != 255))
{
if (tc >= 16)
{
unsigned int v = d_8to24rgbtable[colorA[i]];
v = max(max((v>>0)&0xff, (v>>8)&0xff), (v>>16)&0xff);
*((unsigned char*)&translate32[i]+0) = (((tc&0xff0000)>>16)*v)>>8;
*((unsigned char*)&translate32[i]+1) = (((tc&0x00ff00)>> 8)*v)>>8;
*((unsigned char*)&translate32[i]+2) = (((tc&0x0000ff)>> 0)*v)>>8;
*((unsigned char*)&translate32[i]+3) = 0xff;
}
else
translate32[i] = d_8to24rgbtable[sourceA[i]];
}
if (bc > 0 && (colorB[i] != 255))
{
if (bc >= 16)
{
unsigned int v = d_8to24rgbtable[colorB[i]];
v = max(max((v>>0)&0xff, (v>>8)&0xff), (v>>16)&0xff);
*((unsigned char*)&translate32[i]+0) = (((bc&0xff0000)>>16)*v)>>8;
*((unsigned char*)&translate32[i]+1) = (((bc&0x00ff00)>> 8)*v)>>8;
*((unsigned char*)&translate32[i]+2) = (((bc&0x0000ff)>> 0)*v)>>8;
*((unsigned char*)&translate32[i]+3) = 0xff;
}
else
translate32[i] = d_8to24rgbtable[sourceB[i]];
}
}
translate32[0] = 0;
}
else
#endif
{
for (i=0 ; i<256 ; i++)
translate32[i] = d_8to24rgbtable[i];
for (i = 0; i < 16; i++)
{
if (tc >= 16)
{
//assumption: row 0 is pure white.
*((unsigned char*)&translate32[TOP_RANGE+i]+0) = (((tc&0xff0000)>>16)**((unsigned char*)&d_8to24rgbtable[i]+0))>>8;
*((unsigned char*)&translate32[TOP_RANGE+i]+1) = (((tc&0x00ff00)>> 8)**((unsigned char*)&d_8to24rgbtable[i]+1))>>8;
*((unsigned char*)&translate32[TOP_RANGE+i]+2) = (((tc&0x0000ff)>> 0)**((unsigned char*)&d_8to24rgbtable[i]+2))>>8;
*((unsigned char*)&translate32[TOP_RANGE+i]+3) = 0xff;
}
else
{
if (tc < 8)
translate32[TOP_RANGE+i] = d_8to24rgbtable[(tc<<4)+i];
else
translate32[TOP_RANGE+i] = d_8to24rgbtable[(tc<<4)+15-i];
}
if (bc >= 16)
{
*((unsigned char*)&translate32[BOTTOM_RANGE+i]+0) = (((bc&0xff0000)>>16)**((unsigned char*)&d_8to24rgbtable[i]+0))>>8;
*((unsigned char*)&translate32[BOTTOM_RANGE+i]+1) = (((bc&0x00ff00)>> 8)**((unsigned char*)&d_8to24rgbtable[i]+1))>>8;
*((unsigned char*)&translate32[BOTTOM_RANGE+i]+2) = (((bc&0x0000ff)>> 0)**((unsigned char*)&d_8to24rgbtable[i]+2))>>8;
*((unsigned char*)&translate32[BOTTOM_RANGE+i]+3) = 0xff;
}
else
{
if (bc < 8)
translate32[BOTTOM_RANGE+i] = d_8to24rgbtable[(bc<<4)+i];
else
translate32[BOTTOM_RANGE+i] = d_8to24rgbtable[(bc<<4)+15-i];
}
}
}
pixels = malloc(sizeof(*pixels) * scaled_height*scaled_width);
out = pixels;
fracstep = tinwidth*0x10000/scaled_width;
for (i=0 ; i<scaled_height ; i++, out += scaled_width)
{
inrow = original + inwidth*(i*inheight/scaled_height);
frac = fracstep >> 1;
for (j=0 ; j<scaled_width ; j+=4)
{
out[j] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+1] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+2] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+3] = translate32[inrow[frac>>16]];
frac += fracstep;
}
}
cm->texnum.base = R_LoadTexture(va("base$%x$%x$%i$%i$%i$%s", tc, bc, cm->skinnum, subframe, pc, cm->name),
scaled_width, scaled_height, h2playertranslations?TF_RGBA32:TF_RGBX32, pixels, IF_NOMIPMAP);
cm->texnum.bump = shader->defaulttextures->bump;
cm->texnum.fullbright = shader->defaulttextures->fullbright;
cm->texnum.specular = shader->defaulttextures->specular;
cm->texnum.reflectcube = shader->defaulttextures->reflectcube;
cm->texnum.reflectmask = shader->defaulttextures->reflectmask;
/*if (!h2playertranslations)
{
qboolean valid = false;
//now do the fullbrights.
out = pixels;
fracstep = tinwidth*0x10000/scaled_width;
for (i=0 ; i<scaled_height ; i++, out += scaled_width)
{
inrow = original + inwidth*(i*inheight/scaled_height);
frac = fracstep >> 1;
for (j=0 ; j<scaled_width ; j+=1)
{
if (inrow[frac>>16] < 255-vid.fullbright)
((char *) (&out[j]))[3] = 0; //alpha 0
else
valid = true;
frac += fracstep;
}
}
if (valid)
cm->texnum.fullbright = R_LoadTexture(va("fb$%x$%x$%i$%i$%i$%s", tc, bc, cm->skinnum, subframe, pc, cm->name),
scaled_width, scaled_height, TF_RGBA32, pixels, IF_NOMIPMAP);
}*/
if (generateupperlower)
{
for (i=0 ; i<256 ; i++)
translate32[i] = 0xff000000;
for (i = 0; i < 16; i++)
translate32[TOP_RANGE+i] = d_8to24rgbtable[i];
out = pixels;
fracstep = tinwidth*0x10000/scaled_width;
for (i=0 ; i<scaled_height ; i++, out += scaled_width)
{
inrow = original + inwidth*(i*inheight/scaled_height);
frac = fracstep >> 1;
for (j=0 ; j<scaled_width ; j+=4)
{
out[j] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+1] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+2] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+3] = translate32[inrow[frac>>16]];
frac += fracstep;
}
}
cm->texnum.upperoverlay = R_LoadTexture(va("up$%i$%i$%i$%s", cm->skinnum, subframe, pc, cm->name),
scaled_width, scaled_height, TF_RGBA32, pixels, IF_NOMIPMAP);
for (i=0 ; i<256 ; i++)
translate32[i] = 0xff000000;
for (i = 0; i < 16; i++)
translate32[BOTTOM_RANGE+i] = d_8to24rgbtable[i];
out = pixels;
fracstep = tinwidth*0x10000/scaled_width;
for (i=0 ; i<scaled_height ; i++, out += scaled_width)
{
inrow = original + inwidth*(i*inheight/scaled_height);
frac = fracstep >> 1;
for (j=0 ; j<scaled_width ; j+=4)
{
out[j] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+1] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+2] = translate32[inrow[frac>>16]];
frac += fracstep;
out[j+3] = translate32[inrow[frac>>16]];
frac += fracstep;
}
}
cm->texnum.loweroverlay = R_LoadTexture(va("lo$%i$%i$%i$%s", cm->skinnum, subframe, pc, cm->name),
scaled_width, scaled_height, TF_RGBA32, pixels, IF_NOMIPMAP);
}
free(pixels);
}
else
{
/*model has no original skin info and thus cannot be reskinned, copy over the default textures so that the skincache doesn't break things when it gets reused*/
cm->texnum = *shader->defaulttextures;
}
return shader;
}
}
if (!inf->numskins)
return NULL;
skins = inf->ofsskins;
if (e->skinnum >= 0 && e->skinnum < inf->numskins)
skins += e->skinnum;
else
{
if (developer.ival)
{
static int lastframe;
if (lastframe != r_framecount && lastframe != r_framecount-1) //patented anti-spam technology!... actually, I wonder if it would actually be eligable for a patent.
Con_DPrintf("Skin number out of range (%u >= %u - %s)\n", e->skinnum, inf->numskins, model->name);
lastframe = r_framecount;
}
if (!inf->numskins)
return NULL;
}
if (!skins->numframes)
return NULL;
frame = cl.time*skins->skinspeed;
frame = frame%skins->numframes;
return skins->frame[frame].shader;
}
#if defined(RTLIGHTS)
static void R_CalcFacing(mesh_t *mesh, vec3_t lightpos)
{
float *v1, *v2, *v3;
vec3_t d1, d2, norm;
int i;
index_t *indexes = mesh->indexes;
int numtris = mesh->numindexes/3;
if (numFacing < numtris)
{
if (triangleFacing)
BZ_Free(triangleFacing);
triangleFacing = BZ_Malloc(sizeof(*triangleFacing)*numtris);
numFacing = numtris;
}
for (i = 0; i < numtris; i++, indexes+=3)
{
v1 = (float *)(mesh->xyz_array + indexes[0]);
v2 = (float *)(mesh->xyz_array + indexes[1]);
v3 = (float *)(mesh->xyz_array + indexes[2]);
VectorSubtract(v1, v2, d1);
VectorSubtract(v3, v2, d2);
CrossProduct(d1, d2, norm);
triangleFacing[i] = (( lightpos[0] - v1[0] ) * norm[0] + ( lightpos[1] - v1[1] ) * norm[1] + ( lightpos[2] - v1[2] ) * norm[2]) > 0;
}
}
#define PROJECTION_DISTANCE 30000
static void R_ProjectShadowVolume(mesh_t *mesh, vec3_t lightpos)
{
int numverts = mesh->numvertexes;
int i;
vecV_t *input = mesh->xyz_array;
vec3_t *projected;
if (numProjectedShadowVerts < numverts)
{
if (ProjectedShadowVerts)
BZ_Free(ProjectedShadowVerts);
ProjectedShadowVerts = BZ_Malloc(sizeof(*ProjectedShadowVerts)*numverts);
numProjectedShadowVerts = numverts;
}
projected = ProjectedShadowVerts;
for (i = 0; i < numverts; i++)
{
projected[i][0] = input[i][0] + (input[i][0]-lightpos[0])*PROJECTION_DISTANCE;
projected[i][1] = input[i][1] + (input[i][1]-lightpos[1])*PROJECTION_DISTANCE;
projected[i][2] = input[i][2] + (input[i][2]-lightpos[2])*PROJECTION_DISTANCE;
}
}
static void R_DrawShadowVolume(mesh_t *mesh)
{
#ifdef GLQUAKE
int t;
vec3_t *proj = ProjectedShadowVerts;
vecV_t *verts = mesh->xyz_array;
index_t *indexes = mesh->indexes;
int *neighbours = mesh->trneighbors;
int numtris = mesh->numindexes/3;
qglBegin(GL_TRIANGLES);
for (t = 0; t < numtris; t++)
{
if (triangleFacing[t])
{
//draw front
qglVertex3fv(verts[indexes[t*3+0]]);
qglVertex3fv(verts[indexes[t*3+1]]);
qglVertex3fv(verts[indexes[t*3+2]]);
//draw back
qglVertex3fv(proj[indexes[t*3+1]]);
qglVertex3fv(proj[indexes[t*3+0]]);
qglVertex3fv(proj[indexes[t*3+2]]);
//draw side caps
if (neighbours[t*3+0] < 0 || !triangleFacing[neighbours[t*3+0]])
{
qglVertex3fv(verts[indexes[t*3+1]]);
qglVertex3fv(verts[indexes[t*3+0]]);
qglVertex3fv(proj [indexes[t*3+0]]);
qglVertex3fv(verts[indexes[t*3+1]]);
qglVertex3fv(proj [indexes[t*3+0]]);
qglVertex3fv(proj [indexes[t*3+1]]);
}
if (neighbours[t*3+1] < 0 || !triangleFacing[neighbours[t*3+1]])
{
qglVertex3fv(verts[indexes[t*3+2]]);
qglVertex3fv(verts[indexes[t*3+1]]);
qglVertex3fv(proj [indexes[t*3+1]]);
qglVertex3fv(verts[indexes[t*3+2]]);
qglVertex3fv(proj [indexes[t*3+1]]);
qglVertex3fv(proj [indexes[t*3+2]]);
}
if (neighbours[t*3+2] < 0 || !triangleFacing[neighbours[t*3+2]])
{
qglVertex3fv(verts[indexes[t*3+0]]);
qglVertex3fv(verts[indexes[t*3+2]]);
qglVertex3fv(proj [indexes[t*3+2]]);
qglVertex3fv(verts[indexes[t*3+0]]);
qglVertex3fv(proj [indexes[t*3+2]]);
qglVertex3fv(proj [indexes[t*3+0]]);
}
}
}
qglEnd();
#endif
}
#endif
//true if no shading is to be used.
qboolean R_CalcModelLighting(entity_t *e, model_t *clmodel)
{
vec3_t lightdir;
int i;
vec3_t dist;
float add, m;
vec3_t shadelight, ambientlight;
if (e->light_known)
return e->light_known-1;
e->light_dir[0] = 0; e->light_dir[1] = 1; e->light_dir[2] = 0;
if (clmodel->engineflags & MDLF_FLAME || r_fullbright.ival)
{
e->light_avg[0] = e->light_avg[1] = e->light_avg[2] = 1;
e->light_range[0] = e->light_range[1] = e->light_range[2] = 0;
e->light_known = 2;
return e->light_known-1;
}
if ((e->drawflags & MLS_MASKIN) == MLS_FULLBRIGHT || (e->flags & Q2RF_FULLBRIGHT))
{
e->light_avg[0] = e->light_avg[1] = e->light_avg[2] = 1;
e->light_range[0] = e->light_range[1] = e->light_range[2] = 0;
e->light_known = 2;
return e->light_known-1;
}
if (r_fb_models.ival == 1 && ruleset_allow_fbmodels.ival && (clmodel->engineflags & MDLF_EZQUAKEFBCHEAT) && cls.protocol == CP_QUAKEWORLD && cl.deathmatch)
{
e->light_avg[0] = e->light_avg[1] = e->light_avg[2] = 1;
e->light_range[0] = e->light_range[1] = e->light_range[2] = 0;
e->light_known = 2;
return e->light_known-1;
}
if (!(r_refdef.flags & RDF_NOWORLDMODEL))
{
if (e->flags & RF_WEAPONMODEL)
{
cl.worldmodel->funcs.LightPointValues(cl.worldmodel, r_refdef.vieworg, shadelight, ambientlight, lightdir);
for (i = 0; i < 3; i++)
{ /*viewmodels may not be pure black*/
if (ambientlight[i] < 24)
ambientlight[i] = 24;
}
}
else
{
vec3_t center;
#if 0 /*hexen2*/
VectorAvg(clmodel->mins, clmodel->maxs, center);
VectorAdd(e->origin, center, center);
#else
VectorCopy(e->origin, center);
center[2] += 8;
#endif
cl.worldmodel->funcs.LightPointValues(cl.worldmodel, center, shadelight, ambientlight, lightdir);
}
}
else
{
ambientlight[0] = ambientlight[1] = ambientlight[2] = shadelight[0] = shadelight[1] = shadelight[2] = 128;
lightdir[0] = 0;
lightdir[1] = 1;
lightdir[2] = 1;
}
if (!r_vertexdlights.ival && r_dynamic.ival)
{
float *org = e->origin;
if (e->flags & RF_WEAPONMODEL)
org = r_refdef.vieworg;
//don't do world lights, although that might be funny
for (i=rtlights_first; i<RTL_FIRST; i++)
{
if (cl_dlights[i].radius)
{
VectorSubtract (org,
cl_dlights[i].origin,
dist);
add = cl_dlights[i].radius - Length(dist);
#ifdef RTLIGHTS
//if world lighting is on, there may be no lightmap influence even if r_dynamic is on.
if (r_shadow_realtime_world.ival)
add *= r_shadow_realtime_world_lightmaps.value;
#endif
if (add > 0)
{
ambientlight[0] += add * cl_dlights[i].color[0];
ambientlight[1] += add * cl_dlights[i].color[1];
ambientlight[2] += add * cl_dlights[i].color[2];
//ZOID models should be affected by dlights as well
shadelight[0] += add * cl_dlights[i].color[0];
shadelight[1] += add * cl_dlights[i].color[1];
shadelight[2] += add * cl_dlights[i].color[2];
}
}
}
}
m = max(max(ambientlight[0], ambientlight[1]), ambientlight[2]);
if (m > 255)
{
ambientlight[0] *= 255.0/m;
ambientlight[1] *= 255.0/m;
ambientlight[2] *= 255.0/m;
}
m = max(max(shadelight[0], shadelight[1]), shadelight[2]);
if (m > 128)
{
shadelight[0] *= 128.0/m;
shadelight[1] *= 128.0/m;
shadelight[2] *= 128.0/m;
}
//MORE HUGE HACKS! WHEN WILL THEY CEASE!
// clamp lighting so it doesn't overbright as much
// ZOID: never allow players to go totally black
if (clmodel->engineflags & MDLF_PLAYER)
{
float fb = r_fullbrightSkins.value;
if (fb > cls.allow_fbskins)
fb = cls.allow_fbskins;
if (fb < 0)
fb = 0;
if (fb)
{
extern cvar_t r_fb_models;
if (fb >= 1 && r_fb_models.value)
{
ambientlight[0] = ambientlight[1] = ambientlight[2] = 1;
shadelight[0] = shadelight[1] = shadelight[2] = 1;
e->light_known = 2;
return e->light_known-1;
}
else
{
for (i = 0; i < 3; i++)
{
ambientlight[i] = max(ambientlight[i], 8 + fb * 120);
shadelight[i] = max(shadelight[i], 8 + fb * 120);
}
}
}
for (i = 0; i < 3; i++)
{
if (ambientlight[i] < 8)
ambientlight[i] = 8;
}
}
for (i = 0; i < 3; i++)
{
if (ambientlight[i] > 128)
ambientlight[i] = 128;
shadelight[i] /= 200.0/255;
ambientlight[i] /= 200.0/255;
}
if ((e->model->flags & MF_ROTATE) && cl.hexen2pickups)
{
shadelight[0] = shadelight[1] = shadelight[2] =
ambientlight[0] = ambientlight[1] = ambientlight[2] = 128+sin(cl.servertime*4)*64;
}
if ((e->drawflags & MLS_MASKIN) == MLS_ABSLIGHT)
{
shadelight[0] = shadelight[1] = shadelight[2] = e->abslight;
ambientlight[0] = ambientlight[1] = ambientlight[2] = e->abslight;
}
if (e->flags & RF_WEAPONMODEL)
{
vec3_t temp;
temp[0] = DotProduct(lightdir, vpn);
temp[1] = -DotProduct(lightdir, vright);
temp[2] = DotProduct(lightdir, vup);
e->light_dir[0] = DotProduct(temp, e->axis[0]);
e->light_dir[1] = DotProduct(temp, e->axis[1]);
e->light_dir[2] = DotProduct(temp, e->axis[2]);
}
else
{
e->light_dir[0] = DotProduct(lightdir, e->axis[0]);
e->light_dir[1] = DotProduct(lightdir, e->axis[1]);
e->light_dir[2] = DotProduct(lightdir, e->axis[2]);
}
VectorNormalize(e->light_dir);
shadelight[0] *= 1/255.0f;
shadelight[1] *= 1/255.0f;
shadelight[2] *= 1/255.0f;
ambientlight[0] *= 1/255.0f;
ambientlight[1] *= 1/255.0f;
ambientlight[2] *= 1/255.0f;
if (e->flags & Q2RF_GLOW)
{
float scale = 1 + 0.2 * sin(cl.time*7);
VectorScale(ambientlight, scale, ambientlight);
VectorScale(shadelight, scale, shadelight);
}
VectorMA(ambientlight, 0.5, shadelight, e->light_avg);
VectorSubtract(shadelight, ambientlight, e->light_range);
e->light_known = 1;
return e->light_known-1;
}
void R_GAlias_DrawBatch(batch_t *batch)
{
entity_t *e;
galiasinfo_t *inf;
model_t *clmodel;
int surfnum;
static mesh_t mesh;
static mesh_t *meshl = &mesh;
// qboolean needrecolour;
// qboolean nolightdir;
e = batch->ent;
clmodel = e->model;
currententity = e;
/*nolightdir =*/ R_CalcModelLighting(e, clmodel);
inf = Mod_Extradata (clmodel);
if (inf)
{
memset(&mesh, 0, sizeof(mesh));
for(surfnum=0; inf; inf=inf->nextsurf, surfnum++)
{
if (batch->surf_first == surfnum)
{
/*needrecolour =*/ Alias_GAliasBuildMesh(&mesh, &batch->vbo, inf, surfnum, e, batch->shader->prog && batch->shader->prog->permu[PERMUTATION_SKELETAL].handle.glsl.handle);
batch->mesh = &meshl;
return;
}
}
}
batch->meshes = 0;
Con_Printf("Broken model surfaces mid-frame\n");
return;
}
void R_GAlias_GenerateBatches(entity_t *e, batch_t **batches)
{
galiasinfo_t *inf;
model_t *clmodel;
shader_t *shader, *regshader;
batch_t *b;
int surfnum, j;
shadersort_t sort;
texnums_t *skin;
if ((r_refdef.externalview || r_refdef.recurse) && e->flags & RF_WEAPONMODEL)
return;
clmodel = e->model;
/*switch model if we're the player model, and the player skin says a new model*/
{
extern int cl_playerindex;
if (e->playerindex >= 0 && e->model == cl.model_precache[cl_playerindex])
{
clmodel = cl.players[e->playerindex].model;
if (!clmodel || clmodel->type != mod_alias)
clmodel = e->model; //oops, never mind
}
}
if (!(e->flags & RF_WEAPONMODEL)
#ifdef SKELETALMODELS
&& !e->framestate.bonestate
#endif
)
{
if (R_CullEntityBox (e, clmodel->mins, clmodel->maxs))
return;
#ifdef RTLIGHTS
if (BE_LightCullModel(e->origin, clmodel))
return;
}
else
{
if (BE_LightCullModel(r_origin, clmodel))
return;
#endif
}
if (clmodel->tainted)
{
if (!ruleset_allow_modified_eyes.ival && !strcmp(clmodel->name, "progs/eyes.mdl"))
return;
}
inf = Mod_Extradata (clmodel);
for(surfnum=0; inf; inf=inf->nextsurf, surfnum++)
{
regshader = GL_ChooseSkin(inf, clmodel, surfnum, e, &skin);
if (!regshader)
continue;
skin = skin?skin:NULL;
shader = e->forcedshader?e->forcedshader:regshader;
if (shader)
{
b = BE_GetTempBatch();
if (!b)
break;
b->buildmeshes = R_GAlias_DrawBatch;
b->ent = e;
#ifdef Q3BSPS
b->fog = Mod_FogForOrigin(cl.worldmodel, e->origin);
#endif
b->mesh = NULL;
b->firstmesh = 0;
b->meshes = 1;
b->skin = skin;
b->texture = NULL;
b->shader = shader;
for (j = 0; j < MAXRLIGHTMAPS; j++)
b->lightmap[0] = -1;
b->surf_first = surfnum;
b->flags = 0;
sort = shader->sort;
if (e->flags & RF_FORCECOLOURMOD)
b->flags |= BEF_FORCECOLOURMOD;
if (e->flags & RF_ADDITIVE)
{
b->flags |= BEF_FORCEADDITIVE;
if (sort < SHADER_SORT_ADDITIVE)
sort = SHADER_SORT_ADDITIVE;
}
if (e->flags & RF_TRANSLUCENT)
{
b->flags |= BEF_FORCETRANSPARENT;
if (SHADER_SORT_PORTAL < sort && sort < SHADER_SORT_BLEND)
sort = SHADER_SORT_BLEND;
}
else if (e->drawflags & DRF_TRANSLUCENT)
{
b->flags |= BEF_FORCETRANSPARENT;
if (SHADER_SORT_PORTAL < sort && sort < SHADER_SORT_BLEND)
sort = SHADER_SORT_BLEND;
e->shaderRGBAf[3] = r_wateralpha.value;
}
if (e->flags & RF_NODEPTHTEST)
{
b->flags |= BEF_FORCENODEPTH;
if (sort < SHADER_SORT_NEAREST)
sort = SHADER_SORT_NEAREST;
}
if (e->flags & RF_NOSHADOW)
b->flags |= BEF_NOSHADOWS;
b->vbo = NULL;
b->next = batches[sort];
batches[sort] = b;
}
}
}
#if 0
void R_Sprite_GenerateBatches(entity_t *e, batch_t **batches)
{
galiasinfo_t *inf;
model_t *clmodel;
shader_t *shader;
batch_t *b;
int surfnum;
texnums_t *skin;
if (r_refdef.externalview && e->flags & Q2RF_WEAPONMODEL)
return;
clmodel = e->model;
if (!(e->flags & Q2RF_WEAPONMODEL))
{
if (R_CullEntityBox (e, clmodel->mins, clmodel->maxs))
return;
#ifdef RTLIGHTS
if (BE_LightCullModel(e->origin, clmodel))
return;
}
else
{
if (BE_LightCullModel(r_origin, clmodel))
return;
#endif
}
if (clmodel->tainted)
{
if (!ruleset_allow_modified_eyes.ival && !strcmp(clmodel->name, "progs/eyes.mdl"))
return;
}
inf = RMod_Extradata (clmodel);
if (!e->model || e->forcedshader)
{
//fixme
return;
}
else
{
frame = R_GetSpriteFrame (e);
psprite = e->model->cache.data;
sprtype = psprite->type;
shader = frame->shader;
}
if (shader)
{
b = BE_GetTempBatch();
if (!b)
break;
b->buildmeshes = R_Sprite_DrawBatch;
b->ent = e;
b->mesh = NULL;
b->firstmesh = 0;
b->meshes = 1;
b->skin = frame-;
b->texture = NULL;
b->shader = frame->shader;
b->lightmap = -1;
b->surf_first = surfnum;
b->flags = 0;
b->vbo = NULL;
b->next = batches[shader->sort];
batches[shader->sort] = b;
}
}
#endif
//returns the rotated offset of the two points in result
void RotateLightVector(const vec3_t *axis, const vec3_t origin, const vec3_t lightpoint, vec3_t result)
{
vec3_t offs;
offs[0] = lightpoint[0] - origin[0];
offs[1] = lightpoint[1] - origin[1];
offs[2] = lightpoint[2] - origin[2];
result[0] = DotProduct (offs, axis[0]);
result[1] = DotProduct (offs, axis[1]);
result[2] = DotProduct (offs, axis[2]);
}
#if defined(RTLIGHTS)
/*
static void GL_LightMesh (mesh_t *mesh, vec3_t lightpos, vec3_t colours, float radius)
{
vec3_t dir;
int i;
float dot, d, f, a;
vecV_t *xyz = mesh->xyz_array;
vec3_t *normals = mesh->normals_array;
vec4_t *out = mesh->colors4f_array;
if (!out)
return; //urm..
if (normals)
{
for (i = 0; i < mesh->numvertexes; i++)
{
VectorSubtract(lightpos, xyz[i], dir);
dot = DotProduct(dir, normals[i]);
if (dot > 0)
{
d = DotProduct(dir, dir)/radius;
a = 1/d;
if (a>0)
{
a *= dot/sqrt(d);
f = a*colours[0];
out[i][0] = f;
f = a*colours[1];
out[i][1] = f;
f = a*colours[2];
out[i][2] = f;
}
else
{
out[i][0] = 0;
out[i][1] = 0;
out[i][2] = 0;
}
}
else
{
out[i][0] = 0;
out[i][1] = 0;
out[i][2] = 0;
}
out[i][3] = 1;
}
}
else
{
for (i = 0; i < mesh->numvertexes; i++)
{
VectorSubtract(lightpos, xyz[i], dir);
out[i][0] = colours[0];
out[i][1] = colours[1];
out[i][2] = colours[2];
out[i][3] = 1;
}
}
}
*/
//courtesy of DP
static void R_BuildBumpVectors(const float *v0, const float *v1, const float *v2, const float *tc0, const float *tc1, const float *tc2, float *svector3f, float *tvector3f, float *normal3f)
{
float f, tangentcross[3], v10[3], v20[3], tc10[2], tc20[2];
// 79 add/sub/negate/multiply (1 cycle), 1 compare (3 cycle?), total cycles not counting load/store/exchange roughly 82 cycles
// 6 add, 28 subtract, 39 multiply, 1 compare, 50% chance of 6 negates
// 6 multiply, 9 subtract
VectorSubtract(v1, v0, v10);
VectorSubtract(v2, v0, v20);
normal3f[0] = v10[1] * v20[2] - v10[2] * v20[1];
normal3f[1] = v10[2] * v20[0] - v10[0] * v20[2];
normal3f[2] = v10[0] * v20[1] - v10[1] * v20[0];
// 12 multiply, 10 subtract
tc10[1] = tc1[1] - tc0[1];
tc20[1] = tc2[1] - tc0[1];
svector3f[0] = tc10[1] * v20[0] - tc20[1] * v10[0];
svector3f[1] = tc10[1] * v20[1] - tc20[1] * v10[1];
svector3f[2] = tc10[1] * v20[2] - tc20[1] * v10[2];
tc10[0] = tc1[0] - tc0[0];
tc20[0] = tc2[0] - tc0[0];
tvector3f[0] = tc10[0] * v20[0] - tc20[0] * v10[0];
tvector3f[1] = tc10[0] * v20[1] - tc20[0] * v10[1];
tvector3f[2] = tc10[0] * v20[2] - tc20[0] * v10[2];
// 12 multiply, 4 add, 6 subtract
f = DotProduct(svector3f, normal3f);
svector3f[0] -= f * normal3f[0];
svector3f[1] -= f * normal3f[1];
svector3f[2] -= f * normal3f[2];
f = DotProduct(tvector3f, normal3f);
tvector3f[0] -= f * normal3f[0];
tvector3f[1] -= f * normal3f[1];
tvector3f[2] -= f * normal3f[2];
// if texture is mapped the wrong way (counterclockwise), the tangents
// have to be flipped, this is detected by calculating a normal from the
// two tangents, and seeing if it is opposite the surface normal
// 9 multiply, 2 add, 3 subtract, 1 compare, 50% chance of: 6 negates
CrossProduct(tvector3f, svector3f, tangentcross);
if (DotProduct(tangentcross, normal3f) < 0)
{
VectorNegate(svector3f, svector3f);
VectorNegate(tvector3f, tvector3f);
}
}
//courtesy of DP
void R_AliasGenerateTextureVectors(mesh_t *mesh, float *normal3f, float *svector3f, float *tvector3f)
{
int i;
float sdir[3], tdir[3], normal[3], *v;
index_t *e;
float *vertex3f = (float*)mesh->xyz_array;
float *texcoord2f = (float*)mesh->st_array;
// clear the vectors
// if (svector3f)
memset(svector3f, 0, mesh->numvertexes * sizeof(float[3]));
// if (tvector3f)
memset(tvector3f, 0, mesh->numvertexes * sizeof(float[3]));
// if (normal3f)
memset(normal3f, 0, mesh->numvertexes * sizeof(float[3]));
// process each vertex of each triangle and accumulate the results
for (e = mesh->indexes; e < mesh->indexes+mesh->numindexes; e += 3)
{
R_BuildBumpVectors(vertex3f + e[0] * 3, vertex3f + e[1] * 3, vertex3f + e[2] * 3, texcoord2f + e[0] * 2, texcoord2f + e[1] * 2, texcoord2f + e[2] * 2, sdir, tdir, normal);
// if (!areaweighting)
// {
// VectorNormalize(sdir);
// VectorNormalize(tdir);
// VectorNormalize(normal);
// }
// if (svector3f)
for (i = 0;i < 3;i++)
VectorAdd(svector3f + e[i]*3, sdir, svector3f + e[i]*3);
// if (tvector3f)
for (i = 0;i < 3;i++)
VectorAdd(tvector3f + e[i]*3, tdir, tvector3f + e[i]*3);
// if (normal3f)
for (i = 0;i < 3;i++)
VectorAdd(normal3f + e[i]*3, normal, normal3f + e[i]*3);
}
// now we could divide the vectors by the number of averaged values on
// each vertex... but instead normalize them
// 4 assignments, 1 divide, 1 sqrt, 2 adds, 6 multiplies
if (svector3f)
for (i = 0, v = svector3f;i < mesh->numvertexes;i++, v += 3)
VectorNormalize(v);
// 4 assignments, 1 divide, 1 sqrt, 2 adds, 6 multiplies
if (tvector3f)
for (i = 0, v = tvector3f;i < mesh->numvertexes;i++, v += 3)
VectorNormalize(v);
// 4 assignments, 1 divide, 1 sqrt, 2 adds, 6 multiplies
if (normal3f)
for (i = 0, v = normal3f;i < mesh->numvertexes;i++, v += 3)
VectorNormalize(v);
}
void R_AliasGenerateVertexLightDirs(mesh_t *mesh, vec3_t lightdir, vec3_t *results, vec3_t *normal3f, vec3_t *svector3f, vec3_t *tvector3f)
{
int i;
R_AliasGenerateTextureVectors(mesh, (float*)normal3f, (float*)svector3f, (float*)tvector3f);
for (i = 0; i < mesh->numvertexes; i++)
{
results[i][0] = -DotProduct(lightdir, tvector3f[i]);
results[i][1] = -DotProduct(lightdir, svector3f[i]);
results[i][2] = -DotProduct(lightdir, normal3f[i]);
}
}
//FIXME: Be less agressive.
//This function will have to be called twice (for geforce cards), with the same data, so do the building once and rendering twice.
void R_DrawGAliasShadowVolume(entity_t *e, vec3_t lightpos, float radius)
{
model_t *clmodel = e->model;
galiasinfo_t *inf;
mesh_t mesh;
vec3_t lightorg;
int surfnum = 0;
if (clmodel->engineflags & (MDLF_FLAME | MDLF_BOLT))
return;
if (r_noaliasshadows.ival)
return;
// if (e->shaderRGBAf[3] < 0.5)
// return;
RotateLightVector((void *)e->axis, e->origin, lightpos, lightorg);
if (Length(lightorg) > radius + clmodel->radius)
return;
BE_SelectEntity(e);
inf = Mod_Extradata (clmodel);
while(inf)
{
if (inf->ofs_trineighbours)
{
Alias_GAliasBuildMesh(&mesh, NULL, inf, surfnum, e, false);
R_CalcFacing(&mesh, lightorg);
R_ProjectShadowVolume(&mesh, lightorg);
R_DrawShadowVolume(&mesh);
}
inf = inf->nextsurf;
surfnum++;
}
}
#endif
#if 0
static int R_FindTriangleWithEdge ( index_t *indexes, int numtris, index_t start, index_t 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
#if 0
static void R_BuildTriangleNeighbours ( int *neighbours, index_t *indexes, int numtris )
{
int i, *n;
index_t *index;
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
#if 0
void GL_GenerateNormals(float *orgs, float *normals, int *indicies, int numtris, int numverts)
{
vec3_t d1, d2;
vec3_t norm;
int t, i, v1, v2, v3;
int tricounts[MD2MAX_VERTS];
vec3_t combined[MD2MAX_VERTS];
int triremap[MD2MAX_VERTS];
if (numverts > MD2MAX_VERTS)
return; //not an issue, you just loose the normals.
memset(triremap, 0, numverts*sizeof(triremap[0]));
v2=0;
for (i = 0; i < numverts; i++) //weld points
{
for (v1 = 0; v1 < v2; v1++)
{
if (orgs[i*3+0] == combined[v1][0] &&
orgs[i*3+1] == combined[v1][1] &&
orgs[i*3+2] == combined[v1][2])
{
triremap[i] = v1;
break;
}
}
if (v1 == v2)
{
combined[v1][0] = orgs[i*3+0];
combined[v1][1] = orgs[i*3+1];
combined[v1][2] = orgs[i*3+2];
v2++;
triremap[i] = v1;
}
}
memset(tricounts, 0, v2*sizeof(tricounts[0]));
memset(combined, 0, v2*sizeof(*combined));
for (t = 0; t < numtris; t++)
{
v1 = triremap[indicies[t*3]];
v2 = triremap[indicies[t*3+1]];
v3 = triremap[indicies[t*3+2]];
VectorSubtract((orgs+v2*3), (orgs+v1*3), d1);
VectorSubtract((orgs+v3*3), (orgs+v1*3), d2);
CrossProduct(d1, d2, norm);
VectorNormalize(norm);
VectorAdd(norm, combined[v1], combined[v1]);
VectorAdd(norm, combined[v2], combined[v2]);
VectorAdd(norm, combined[v3], combined[v3]);
tricounts[v1]++;
tricounts[v2]++;
tricounts[v3]++;
}
for (i = 0; i < numverts; i++)
{
if (tricounts[triremap[i]])
{
VectorScale(combined[triremap[i]], 1.0f/tricounts[triremap[i]], normals+i*3);
}
}
}
#endif
#endif
#if defined(Q2CLIENT) || defined(Q3CLIENT)
//q3 lightning gun / q3 railgun / q2 beams
static void R_Beam_GenerateTrisoup(entity_t *e, int bemode)
{
float lightmap;
unsigned int batchflags = 0;
vecV_t *xyz;
vec2_t *st;
vec4_t *rgba;
scenetris_t *t;
shader_t *shader = NULL;
float scale, length;
vec3_t dir, v, cr;
shader = e->forcedshader;
if (!shader)
shader = R_RegisterShader("q2beam", SUF_NONE,
"{\n"
"{\n"
"map $whiteimage\n"
"rgbgen vertex\n"
"alphagen vertex\n"
"blendfunc blend\n"
"}\n"
"}\n"
);
batchflags = 0;
// if (e->flags & RF_NOSHADOW)
batchflags |= BEF_NOSHADOWS;
if (e->flags & RF_ADDITIVE)
batchflags |= BEF_FORCEADDITIVE;
if (e->flags & RF_TRANSLUCENT)
batchflags |= BEF_FORCETRANSPARENT;
if (e->flags & RF_NODEPTHTEST)
batchflags |= BEF_FORCENODEPTH;
if (e->flags & RF_FORCECOLOURMOD)
batchflags |= BEF_FORCECOLOURMOD;
if (shader->flags & SHADER_NODLIGHT)
batchflags |= BEF_NODLIGHT;
if ((batchflags & BEF_NODLIGHT) || (shader->flags & SHADER_NODLIGHT) || bemode != BEM_STANDARD)
{
//unlit sprites are just fullbright
lightmap = 1;
}
else
{
extern cvar_t r_shadow_realtime_world_lightmaps;
//lit sprites need to sample the world lighting. with rtlights that generally means they're 0.
#ifdef RTLIGHTS
if (r_shadow_realtime_world.ival)
lightmap = r_shadow_realtime_world_lightmaps.value;
else
#endif
lightmap = 1;
}
if (cl_numstris && cl_stris[cl_numstris-1].shader == shader && cl_stris[cl_numstris-1].flags == batchflags)
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 = batchflags;
}
if (cl_numstrisidx+6 > cl_maxstrisidx)
{
cl_maxstrisidx=cl_numstrisidx+6 + 64;
cl_strisidx = BZ_Realloc(cl_strisidx, sizeof(*cl_strisidx)*cl_maxstrisidx);
}
if (cl_numstrisvert+4 > cl_maxstrisvert)
{
cl_maxstrisvert+=64;
cl_strisvertv = BZ_Realloc(cl_strisvertv, sizeof(*cl_strisvertv)*cl_maxstrisvert);
cl_strisvertt = BZ_Realloc(cl_strisvertt, sizeof(*cl_strisvertt)*cl_maxstrisvert);
cl_strisvertc = BZ_Realloc(cl_strisvertc, sizeof(*cl_strisvertc)*cl_maxstrisvert);
}
xyz = &cl_strisvertv[cl_numstrisvert];
st = &cl_strisvertt[cl_numstrisvert];
rgba = &cl_strisvertc[cl_numstrisvert];
cl_strisidx[cl_numstrisidx++] = t->numvert+0;
cl_strisidx[cl_numstrisidx++] = t->numvert+1;
cl_strisidx[cl_numstrisidx++] = t->numvert+2;
cl_strisidx[cl_numstrisidx++] = t->numvert+0;
cl_strisidx[cl_numstrisidx++] = t->numvert+2;
cl_strisidx[cl_numstrisidx++] = t->numvert+3;
t->numidx += 6;
t->numvert += 4;
cl_numstrisvert += 4;
scale = e->scale*5;
if (!scale)
scale = 5;
if (shader->flags & SHADER_CULL_FRONT)
scale *= -1;
VectorSubtract(e->origin, e->oldorigin, dir);
length = Length(dir);
Vector2Set(st[0], 0, 1);
Vector2Set(st[1], 0, 0);
Vector2Set(st[2], length/128, 0);
Vector2Set(st[3], length/128, 1);
VectorSubtract(r_refdef.vieworg, e->origin, v);
CrossProduct(v, dir, cr);
VectorNormalize(cr);
VectorMA(e->origin, -scale/2, cr, xyz[0]);
VectorMA(e->origin, scale/2, cr, xyz[1]);
VectorSubtract(r_refdef.vieworg, e->oldorigin, v);
CrossProduct(v, dir, cr);
VectorNormalize(cr);
VectorMA(e->oldorigin, scale/2, cr, xyz[2]);
VectorMA(e->oldorigin, -scale/2, cr, xyz[3]);
if (e->shaderRGBAf[0] != 0 || e->shaderRGBAf[1] != 0 || e->shaderRGBAf[2] != 0 || (batchflags & BEF_FORCECOLOURMOD))
{
if (e->shaderRGBAf[0] > 1)
e->shaderRGBAf[0] = 1;
if (e->shaderRGBAf[1] > 1)
e->shaderRGBAf[1] = 1;
if (e->shaderRGBAf[2] > 1)
e->shaderRGBAf[2] = 1;
}
else
{
e->shaderRGBAf[0] = 1;
e->shaderRGBAf[1] = 1;
e->shaderRGBAf[2] = 1;
}
VectorScale(e->shaderRGBAf, lightmap, rgba[0]);
rgba[0][3] = e->shaderRGBAf[3];
Vector4Copy(rgba[0], rgba[1]);
Vector4Copy(rgba[0], rgba[2]);
Vector4Copy(rgba[0], rgba[3]);
}
#endif
static void R_Sprite_GenerateTrisoup(entity_t *e, int bemode)
{
vec3_t point;
mspriteframe_t genframe;
vec3_t spraxis[3];
msprite_t *psprite;
vec3_t sprorigin;
unsigned int sprtype;
float lightmap;
unsigned int batchflags = 0;
vecV_t *xyz;
vec2_t *st;
vec4_t *rgba;
scenetris_t *t;
extern cvar_t gl_blendsprites;
shader_t *shader = NULL;
mspriteframe_t *frame;
if (!e->model || e->model->type != mod_sprite || e->forcedshader)
{
frame = NULL;
shader = e->forcedshader;
if (!shader)
shader = R_RegisterShader("q2beam", SUF_NONE,
"{\n"
"{\n"
"map $whiteimage\n"
"rgbgen vertex\n"
"alphagen vertex\n"
"blendfunc blend\n"
"}\n"
"}\n"
);
}
else
{
if (!(e->flags & RF_WEAPONMODEL))
{
if (R_CullEntityBox (e, e->model->mins, e->model->maxs))
return;
#ifdef RTLIGHTS
if (BE_LightCullModel(e->origin, e->model))
return;
}
else
{
if (BE_LightCullModel(r_origin, e->model))
return;
#endif
}
// don't even bother culling, because it's just a single
// polygon without a surface cache
frame = R_GetSpriteFrame(e);
shader = frame->shader;
}
batchflags = 0;
// if (e->flags & RF_NOSHADOW)
batchflags |= BEF_NOSHADOWS;
if (e->flags & RF_ADDITIVE)
batchflags |= BEF_FORCEADDITIVE;
if (e->flags & RF_TRANSLUCENT)
batchflags |= BEF_FORCETRANSPARENT;
if (e->flags & RF_NODEPTHTEST)
batchflags |= BEF_FORCENODEPTH;
if (e->flags & RF_FORCECOLOURMOD)
batchflags |= BEF_FORCECOLOURMOD;
if (shader->flags & SHADER_NODLIGHT)
batchflags |= BEF_NODLIGHT;
if ((batchflags & BEF_NODLIGHT) || (shader->flags & SHADER_NODLIGHT) || bemode != BEM_STANDARD)
{
//unlit sprites are just fullbright
lightmap = 1;
}
else
{
extern cvar_t r_shadow_realtime_world_lightmaps;
//lit sprites need to sample the world lighting. with rtlights that generally means they're 0.
#ifdef RTLIGHTS
if (r_shadow_realtime_world.ival)
lightmap = r_shadow_realtime_world_lightmaps.value;
else
#endif
lightmap = 1;
}
if ((e->flags & RF_WEAPONMODEL) && r_refdef.playerview->viewentity > 0)
{
sprorigin[0] = r_refdef.playerview->vw_origin[0];
sprorigin[1] = r_refdef.playerview->vw_origin[1];
sprorigin[2] = r_refdef.playerview->vw_origin[2];
VectorMA(sprorigin, e->origin[0], r_refdef.playerview->vw_axis[0], sprorigin);
VectorMA(sprorigin, e->origin[1], r_refdef.playerview->vw_axis[1], sprorigin);
VectorMA(sprorigin, e->origin[2], r_refdef.playerview->vw_axis[2], sprorigin);
VectorMA(sprorigin, 12, vpn, sprorigin);
batchflags |= BEF_FORCENODEPTH;
}
else
VectorCopy(e->origin, sprorigin);
if (cl_numstris && cl_stris[cl_numstris-1].shader == shader && cl_stris[cl_numstris-1].flags == batchflags)
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 = batchflags;
}
if (cl_numstrisidx+6 > cl_maxstrisidx)
{
cl_maxstrisidx=cl_numstrisidx+6 + 64;
cl_strisidx = BZ_Realloc(cl_strisidx, sizeof(*cl_strisidx)*cl_maxstrisidx);
}
if (cl_numstrisvert+4 > cl_maxstrisvert)
{
cl_maxstrisvert+=64;
cl_strisvertv = BZ_Realloc(cl_strisvertv, sizeof(*cl_strisvertv)*cl_maxstrisvert);
cl_strisvertt = BZ_Realloc(cl_strisvertt, sizeof(*cl_strisvertt)*cl_maxstrisvert);
cl_strisvertc = BZ_Realloc(cl_strisvertc, sizeof(*cl_strisvertc)*cl_maxstrisvert);
}
xyz = &cl_strisvertv[cl_numstrisvert];
st = &cl_strisvertt[cl_numstrisvert];
rgba = &cl_strisvertc[cl_numstrisvert];
cl_strisidx[cl_numstrisidx++] = t->numvert+0;
cl_strisidx[cl_numstrisidx++] = t->numvert+1;
cl_strisidx[cl_numstrisidx++] = t->numvert+2;
cl_strisidx[cl_numstrisidx++] = t->numvert+0;
cl_strisidx[cl_numstrisidx++] = t->numvert+2;
cl_strisidx[cl_numstrisidx++] = t->numvert+3;
t->numidx += 6;
t->numvert += 4;
cl_numstrisvert += 4;
if (!frame)
{
genframe.up = genframe.left = -1;
genframe.down = genframe.right = 1;
sprtype = SPR_VP_PARALLEL;
frame = &genframe;
}
else
{
// don't even bother culling, because it's just a single
// polygon without a surface cache
psprite = e->model->meshinfo;
sprtype = psprite->type;
}
switch(sprtype)
{
case SPR_ORIENTED:
// bullet marks on walls
if ((e->flags & RF_WEAPONMODEL) && r_refdef.playerview->viewentity > 0)
{
vec3_t ea[3];
AngleVectors (e->angles, ea[0], ea[1], ea[2]);
Matrix3_Multiply(ea, r_refdef.playerview->vw_axis, spraxis);
}
else
AngleVectors (e->angles, spraxis[0], spraxis[1], spraxis[2]);
break;
case SPR_FACING_UPRIGHT:
spraxis[2][0] = 0;spraxis[2][1] = 0;spraxis[2][2]=1;
spraxis[1][0] = sprorigin[1] - r_origin[1];
spraxis[1][1] = -(sprorigin[0] - r_origin[0]);
spraxis[1][2] = 0;
VectorNormalize (spraxis[1]);
break;
case SPR_VP_PARALLEL_UPRIGHT:
spraxis[2][0] = 0;spraxis[2][1] = 0;spraxis[2][2]=1;
VectorCopy (vright, spraxis[1]);
break;
default:
case SPR_VP_PARALLEL:
//normal sprite
VectorCopy(vup, spraxis[2]);
VectorCopy(vright, spraxis[1]);
break;
}
if (e->scale)
{
spraxis[2][0]*=e->scale;
spraxis[2][1]*=e->scale;
spraxis[2][2]*=e->scale;
spraxis[1][0]*=e->scale;
spraxis[1][1]*=e->scale;
spraxis[1][2]*=e->scale;
}
if (e->shaderRGBAf[0] != 0 || e->shaderRGBAf[1] != 0 || e->shaderRGBAf[2] != 0 || (batchflags & BEF_FORCECOLOURMOD))
{
if (e->shaderRGBAf[0] > 1)
e->shaderRGBAf[0] = 1;
if (e->shaderRGBAf[1] > 1)
e->shaderRGBAf[1] = 1;
if (e->shaderRGBAf[2] > 1)
e->shaderRGBAf[2] = 1;
}
else
{
e->shaderRGBAf[0] = 1;
e->shaderRGBAf[1] = 1;
e->shaderRGBAf[2] = 1;
}
VectorScale(e->shaderRGBAf, lightmap, rgba[0]);
rgba[0][3] = e->shaderRGBAf[3];
Vector4Copy(rgba[0], rgba[1]);
Vector4Copy(rgba[0], rgba[2]);
Vector4Copy(rgba[0], rgba[3]);
Vector2Set(st[0], 0, 1);
Vector2Set(st[1], 0, 0);
Vector2Set(st[2], 1, 0);
Vector2Set(st[3], 1, 1);
VectorMA (sprorigin, frame->down, spraxis[2], point);
VectorMA (point, frame->left, spraxis[1], xyz[0]);
VectorMA (sprorigin, frame->up, spraxis[2], point);
VectorMA (point, frame->left, spraxis[1], xyz[1]);
VectorMA (sprorigin, frame->up, spraxis[2], point);
VectorMA (point, frame->right, spraxis[1], xyz[2]);
VectorMA (sprorigin, frame->down, spraxis[2], point);
VectorMA (point, frame->right, spraxis[1], xyz[3]);
}
static void R_DB_Poly(batch_t *batch)
{
static mesh_t mesh;
static mesh_t *meshptr = &mesh;
unsigned int i = batch->surf_first;
batch->mesh = &meshptr;
mesh.xyz_array = cl_strisvertv + cl_stris[i].firstvert;
mesh.st_array = cl_strisvertt + cl_stris[i].firstvert;
mesh.colors4f_array[0] = cl_strisvertc + cl_stris[i].firstvert;
mesh.indexes = cl_strisidx + cl_stris[i].firstidx;
mesh.numindexes = cl_stris[i].numidx;
mesh.numvertexes = cl_stris[i].numvert;
}
static void BE_GenPolyBatches(batch_t **batches)
{
shader_t *shader = NULL;
batch_t *b;
unsigned int i = cl_numstris, j;
unsigned int sort;
while (i-- > 0)
{
if (!cl_stris[i].numidx)
continue;
b = BE_GetTempBatch();
if (!b)
return;
shader = cl_stris[i].shader;
if (!shader)
continue;
b->buildmeshes = R_DB_Poly;
b->ent = &r_worldentity;
b->mesh = NULL;
b->firstmesh = 0;
b->meshes = 1;
b->skin = NULL;
b->texture = NULL;
b->shader = shader;
for (j = 0; j < MAXRLIGHTMAPS; j++)
b->lightmap[j] = -1;
b->surf_first = i;
b->flags = cl_stris[i].flags;
b->vbo = 0;
sort = shader->sort;
if ((b->flags & BEF_FORCEADDITIVE) && sort < SHADER_SORT_ADDITIVE)
sort = SHADER_SORT_ADDITIVE;
if ((b->flags & BEF_FORCETRANSPARENT) && SHADER_SORT_PORTAL < sort && sort < SHADER_SORT_BLEND)
sort = SHADER_SORT_BLEND;
if ((b->flags & BEF_FORCENODEPTH) && sort < SHADER_SORT_BANNER)
sort = SHADER_SORT_BANNER;
b->next = batches[sort];
batches[sort] = b;
}
}
void R_HalfLife_GenerateBatches(entity_t *e, batch_t **batches);
void BE_GenModelBatches(batch_t **batches, const dlight_t *dl, unsigned int bemode)
{
int i;
entity_t *ent;
model_t *emodel;
unsigned int orig_numstris = cl_numstris;
unsigned int orig_numvisedicts = cl_numvisedicts;
unsigned int orig_numstrisidx = cl_numstrisidx;
unsigned int orig_numstrisvert = cl_numstrisvert;
/*clear the batch list*/
for (i = 0; i < SHADER_SORT_COUNT; i++)
batches[i] = NULL;
#if defined(TERRAIN)
if (cl.worldmodel && cl.worldmodel->terrain && !(r_refdef.flags & RDF_NOWORLDMODEL))
Terr_DrawTerrainModel(batches, &r_worldentity);
#endif
R_Clutter_Emit(batches);
if (!r_drawentities.ival)
return;
if (bemode == BEM_STANDARD)
{
#ifndef CLIENTONLY
SV_AddDebugPolygons();
#endif
//the alias cache is a backend thing that provides support for multiple entities using the same skeleton.
//thus it needs to be cleared so that it won't reuse the cache over multiple frames.
Alias_FlushCache();
}
// draw sprites seperately, because of alpha blending
for (i=0 ; i<cl_numvisedicts ; i++)
{
ent = &cl_visedicts[i];
if (!r_refdef.externalview && (ent->flags & RF_EXTERNALMODEL))
continue;
if (bemode == BEM_STENCIL || bemode == BEM_DEPTHONLY)
{
if (ent->flags & (RF_NOSHADOW | RF_ADDITIVE | RF_NODEPTHTEST | RF_TRANSLUCENT)) //noshadow often isn't enough for legacy content.
continue;
if (ent->keynum == dl->key && ent->keynum) //shadows are not cast from the entity that owns the light. it is expected to be inside.
continue;
if (ent->model && ent->model->engineflags & MDLF_FLAME)
continue;
}
switch(ent->rtype)
{
case RT_MODEL:
default:
emodel = ent->model;
if (!emodel)
continue;
if (emodel->loadstate == MLS_NOTLOADED)
{
if (!Mod_LoadModel(emodel, MLV_WARN))
continue;
}
if (emodel->loadstate != MLS_LOADED)
continue;
if (cl.lerpents && (cls.allow_anyparticles)) //allowed or static
{
if (gl_part_flame.value)
{
if (ent->model->engineflags & MDLF_ENGULPHS)
continue;
}
}
if (emodel->engineflags & MDLF_NOTREPLACEMENTS)
{
if (emodel->fromgame != fg_quake || emodel->type != mod_alias)
if (!ruleset_allow_sensitive_texture_replacements.value)
continue;
}
switch(emodel->type)
{
case mod_brush:
if (r_drawentities.ival == 2)
continue;
Surf_GenBrushBatches(batches, ent);
break;
case mod_alias:
if (r_drawentities.ival == 3)
continue;
R_GAlias_GenerateBatches(ent, batches);
break;
case mod_sprite:
R_Sprite_GenerateTrisoup(ent, bemode);
break;
case mod_halflife:
#ifdef HALFLIFEMODELS
R_HalfLife_GenerateBatches(ent, batches);
#endif
break;
// warning: enumeration value <20>mod_*<2A> not handled in switch
case mod_dummy:
case mod_heightmap:
#if defined(TERRAIN)
if (emodel->terrain && !(r_refdef.flags & RDF_NOWORLDMODEL))
Terr_DrawTerrainModel(batches, ent);
#endif
break;
}
break;
case RT_SPRITE:
R_Sprite_GenerateTrisoup(ent, bemode);
break;
case RT_BEAM:
case RT_RAIL_RINGS:
case RT_LIGHTNING:
case RT_RAIL_CORE:
#if defined(Q2CLIENT) || defined(Q3CLIENT)
R_Beam_GenerateTrisoup(ent, bemode);
#endif
break;
case RT_POLY:
/*not implemented*/
break;
case RT_PORTALSURFACE:
/*nothing*/
break;
}
}
if (cl_numstris)
BE_GenPolyBatches(batches);
while(orig_numstris < cl_numstris)
cl_stris[orig_numstris++].shader = NULL;
cl_numstris = orig_numstris;
/* cl_numstrisidx = orig_numstrisidx;
cl_numstrisvert = orig_numstrisvert;
if (cl_numstris)
{ //fix this up, in case they got merged.
cl_stris[cl_numstris-1].numvert = cl_numstrisvert - cl_stris[cl_numstris-1].firstvert;
cl_stris[cl_numstris-1].numidx = cl_numstrisidx - cl_stris[cl_numstris-1].firstidx;
}
*/ cl_numvisedicts = orig_numvisedicts;
}
#endif // defined(GLQUAKE)
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