raze/source/build/src/texcache.cpp

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#ifdef USE_OPENGL
#include "baselayer.h"
#include "build.h"
#include "lz4.h"
#include "hightile.h"
#include "polymost.h"
#include "texcache.h"
#include "dxtfilter.h"
#include "scriptfile.h"
#include "xxhash.h"
#include "kplib.h"
#define CLEAR_GL_ERRORS() while(bglGetError() != GL_NO_ERROR) { }
#define TEXCACHE_FREEBUFS() { Bfree(pic), Bfree(packbuf), Bfree(midbuf); }
globaltexcache texcache;
char TEXCACHEFILE[BMAX_PATH] = "textures";
static const char *texcache_errorstr[TEXCACHEERRORS] = {
"no error",
"out of memory!",
"read too few bytes from cache file",
"dedxtfilter failed",
"bglCompressedTexImage2DARB failed",
"bglGetTexLevelParameteriv failed",
};
static pthtyp *texcache_tryart(int32_t const dapicnum, int32_t const dapalnum, int32_t const dashade, int32_t const dameth)
{
const int32_t j = dapicnum&(GLTEXCACHEADSIZ-1);
pthtyp *pth;
int32_t tintpalnum = -1;
int32_t searchpalnum = dapalnum;
polytintflags_t const tintflags = hictinting[dapalnum].f;
if (tintflags & (HICTINT_USEONART|HICTINT_ALWAYSUSEART))
{
tintpalnum = dapalnum;
if (!(tintflags & HICTINT_APPLYOVERPALSWAP))
searchpalnum = 0;
}
// load from art
for (pth=texcache.list[j]; pth; pth=pth->next)
if (pth->picnum == dapicnum && pth->palnum == dapalnum && pth->shade == dashade &&
(pth->flags & (PTH_CLAMPED | PTH_HIGHTILE | PTH_NOTRANSFIX)) ==
(TO_PTH_CLAMPED(dameth) | TO_PTH_NOTRANSFIX(dameth)) &&
polymost_want_npotytex(dameth, tilesiz[dapicnum].y) == !!(pth->flags&PTH_NPOTWALL)
)
{
if (pth->flags & PTH_INVALIDATED)
{
pth->flags &= ~PTH_INVALIDATED;
gloadtile_art(dapicnum, searchpalnum, tintpalnum, dashade, dameth, pth, 0);
pth->palnum = dapalnum;
}
return pth;
}
pth = (pthtyp *)Xcalloc(1,sizeof(pthtyp));
gloadtile_art(dapicnum, searchpalnum, tintpalnum, dashade, dameth, pth, 1);
pth->palnum = dapalnum;
pth->next = texcache.list[j];
texcache.list[j] = pth;
return pth;
}
pthtyp *texcache_fetchmulti(pthtyp *pth, hicreplctyp *si, int32_t dapicnum, int32_t dameth)
{
const int32_t j = dapicnum&(GLTEXCACHEADSIZ-1);
int32_t i;
for (i = 0; i <= (GLTEXCACHEADSIZ - 1); i++)
{
const pthtyp *pth2;
for (pth2=texcache.list[i]; pth2; pth2=pth2->next)
{
if (pth2->hicr && pth2->hicr->filename && si->filename && filnamcmp(pth2->hicr->filename, si->filename) == 0)
{
Bmemcpy(pth, pth2, sizeof(pthtyp));
pth->picnum = dapicnum;
pth->flags = TO_PTH_CLAMPED(dameth) | TO_PTH_NOTRANSFIX(dameth) |
PTH_HIGHTILE | (drawingskybox>0)*PTH_SKYBOX;
if (pth2->flags & PTH_HASALPHA)
pth->flags |= PTH_HASALPHA;
pth->hicr = si;
pth->next = texcache.list[j];
texcache.list[j] = pth;
return pth;
}
}
}
return NULL;
}
// <dashade>: ignored if not in Polymost+r_usetileshades
pthtyp *texcache_fetch(int32_t dapicnum, int32_t dapalnum, int32_t dashade, int32_t dameth)
{
const int32_t j = dapicnum & (GLTEXCACHEADSIZ - 1);
hicreplctyp *si = usehightile ? hicfindsubst(dapicnum, dapalnum, hictinting[dapalnum].f & HICTINT_ALWAYSUSEART) : NULL;
if (drawingskybox && usehightile)
if ((si = hicfindskybox(dapicnum, dapalnum)) == NULL)
return NULL;
if (!r_usetileshades || (globalflags & GLOBAL_NO_GL_TILESHADES) || getrendermode() != REND_POLYMOST)
dashade = 0;
if (!si)
{
return (dapalnum >= (MAXPALOOKUPS - RESERVEDPALS) || hicprecaching) ?
NULL : texcache_tryart(dapicnum, dapalnum, dashade, dameth);
}
/* if palette > 0 && replacement found
* no effects are applied to the texture
* else if palette > 0 && no replacement found
* effects are applied to the palette 0 texture if it exists
*/
polytintflags_t const tintflags = hictinting[dapalnum].f;
const int32_t checktintpal = (tintflags & HICTINT_APPLYOVERALTPAL) ? 0 : si->palnum;
const int32_t checkcachepal = (tintflags & HICTINT_IN_MEMORY) || ((tintflags & HICTINT_APPLYOVERALTPAL) && si->palnum > 0) ? dapalnum : si->palnum;
// load a replacement
for (pthtyp *pth = texcache.list[j]; pth; pth = pth->next)
{
if (pth->picnum == dapicnum && pth->palnum == checkcachepal &&
(checktintpal > 0 ? 1 : (pth->effects == tintflags)) &&
(pth->flags & (PTH_CLAMPED | PTH_HIGHTILE | PTH_SKYBOX | PTH_NOTRANSFIX)) ==
(TO_PTH_CLAMPED(dameth) | TO_PTH_NOTRANSFIX(dameth) |
PTH_HIGHTILE | (drawingskybox > 0) * PTH_SKYBOX) &&
(drawingskybox > 0 ? (pth->skyface == drawingskybox) : 1))
{
if (pth->flags & PTH_INVALIDATED)
{
pth->flags &= ~PTH_INVALIDATED;
int32_t tilestat = gloadtile_hi(dapicnum, dapalnum, drawingskybox, si, dameth, pth, 0,
(checktintpal > 0) ? 0 : tintflags); // reload tile
if (!tilestat)
continue;
if (tilestat == -2) // bad filename
hicclearsubst(dapicnum, dapalnum);
return (drawingskybox || hicprecaching) ? NULL : texcache_tryart(dapicnum, dapalnum, dashade, dameth);
}
return pth;
}
}
pthtyp *pth = (pthtyp *)Xcalloc(1, sizeof(pthtyp));
// possibly fetch an already loaded multitexture :_)
if (dapalnum == DETAILPAL && texcache_fetchmulti(pth, si, dapicnum, dameth))
return pth;
int32_t tilestat =
gloadtile_hi(dapicnum, dapalnum, drawingskybox, si, dameth, pth, 1, (checktintpal > 0) ? 0 : tintflags);
if (!tilestat)
{
pth->next = texcache.list[j];
pth->palnum = checkcachepal;
texcache.list[j] = pth;
return pth;
}
if (tilestat == -2) // bad filename
hicclearsubst(dapicnum, dapalnum);
Bfree(pth);
return (drawingskybox || hicprecaching) ? NULL : texcache_tryart(dapicnum, dapalnum, dashade, dameth);
}
static void texcache_closefiles(void)
{
if (texcache.filehandle != -1)
{
Bclose(texcache.filehandle);
texcache.filehandle = -1;
}
MAYBE_FCLOSE_AND_NULL(texcache.index);
}
void texcache_freeptrs(void)
{
texcache.iptrcnt = 0;
if (!texcache.iptrs)
return;
for (bssize_t i = 0; i < texcache.numentries; i++)
if (texcache.iptrs[i])
{
for (bssize_t ii = texcache.numentries - 1; ii >= 0; ii--)
if (i != ii && texcache.iptrs[ii] == texcache.iptrs[i])
{
/*OSD_Printf("removing duplicate cacheptr %d\n",ii);*/
texcache.iptrs[ii] = NULL;
}
DO_FREE_AND_NULL(texcache.iptrs[i]);
}
DO_FREE_AND_NULL(texcache.iptrs);
}
static inline void texcache_clearmemcache(void)
{
DO_FREE_AND_NULL(texcache.memcache.ptr);
texcache.memcache.size = -1;
}
void texcache_syncmemcache(void)
{
int32_t len = Bfilelength(texcache.filehandle);
if (!texcache.memcache.ptr || texcache.filehandle == -1 || len <= (int32_t)texcache.memcache.size)
return;
texcache.memcache.ptr = (uint8_t *)Brealloc(texcache.memcache.ptr, len);
if (!texcache.memcache.ptr)
{
texcache_clearmemcache();
initprintf("Failed syncing memcache to texcache, disabling memcache.\n");
texcache.memcache.noalloc = 1;
}
else
{
initprintf("Syncing memcache to texcache\n");
Blseek(texcache.filehandle, texcache.memcache.size, BSEEK_SET);
if (Bread(texcache.filehandle, texcache.memcache.ptr + texcache.memcache.size, len - texcache.memcache.size) != (bssize_t)(len-texcache.memcache.size))
{
initprintf("polymost_cachesync: Failed reading texcache into memcache!\n");
texcache_clearmemcache();
texcache.memcache.noalloc = 1;
}
else
{
texcache.memcache.size = len;
}
}
}
void texcache_init(void)
{
if (!texcache.index)
texcache.filehandle = -1;
texcache_closefiles();
texcache_clearmemcache();
texcache_freeptrs();
texcache.currentindex = texcache.firstindex = (texcacheindex *)Xcalloc(1, sizeof(texcacheindex));
texcache.numentries = 0;
// Bmemset(&firstcacheindex, 0, sizeof(texcacheindex));
// Bmemset(&cacheptrs[0], 0, sizeof(cacheptrs));
texcache.hashes.size = TEXCACHEHASHSIZE;
hash_init(&texcache.hashes);
}
static void texcache_deletefiles(void)
{
Bstrcpy(ptempbuf, TEXCACHEFILE);
unlink(ptempbuf);
Bstrcat(ptempbuf, ".cache");
unlink(ptempbuf);
}
int32_t texcache_enabled(void)
{
#if defined EDUKE32_GLES || !defined USE_GLEXT
return 0;
#else
if (!glinfo.texcompr || !glusetexcompr || !glusetexcache)
return 0;
if (!texcache.index || texcache.filehandle < 0)
{
OSD_Printf("Warning: no active cache!\n");
return 0;
}
return 1;
#endif
}
void texcache_openfiles(void)
{
Bstrcpy(ptempbuf,TEXCACHEFILE);
Bstrcat(ptempbuf,".cache");
texcache.index = Bfopen(ptempbuf, "at+");
texcache.filehandle = Bopen(TEXCACHEFILE, BO_BINARY|BO_CREAT|BO_APPEND|BO_RDWR, BS_IREAD|BS_IWRITE);
if (!texcache.index || texcache.filehandle < 0)
{
initprintf("Unable to open cache file \"%s\" or \"%s\": %s\n", TEXCACHEFILE, ptempbuf, strerror(errno));
texcache_closefiles();
glusetexcache = 0;
return;
}
Bfseek(texcache.index, 0, BSEEK_END);
if (!Bftell(texcache.index))
{
Brewind(texcache.index);
Bfprintf(texcache.index,"// automatically generated by EDuke32, DO NOT MODIFY!\n");
}
else Brewind(texcache.index);
initprintf("Opened \"%s\" as cache file\n", TEXCACHEFILE);
}
void texcache_checkgarbage(void)
{
int32_t i = 0;
if (!texcache_enabled())
return;
texcache.currentindex = texcache.firstindex;
while (texcache.currentindex->next)
{
i += texcache.currentindex->len;
texcache.currentindex = texcache.currentindex->next;
}
i = Blseek(texcache.filehandle, 0, BSEEK_END)-i;
if (i)
initprintf("Cache contains %d bytes of garbage data\n",i);
}
void texcache_invalidate(void)
{
#ifdef DEBUGGINGAIDS
OSD_Printf("texcache_invalidate()\n");
#endif
r_downsizevar = r_downsize; // update the cvar representation when the menu changes r_downsize
polymost_glreset();
texcache_init();
texcache_deletefiles();
texcache_openfiles();
}
int32_t texcache_loadoffsets(void)
{
int32_t foffset, fsize, i;
char *fname;
scriptfile *script;
Bstrcpy(ptempbuf,TEXCACHEFILE);
Bstrcat(ptempbuf,".cache");
script = scriptfile_fromfile(ptempbuf);
if (!script) return -1;
while (!scriptfile_eof(script))
{
if (scriptfile_getstring(script, &fname)) break; // hashed filename
if (scriptfile_getnumber(script, &foffset)) break; // offset in cache
if (scriptfile_getnumber(script, &fsize)) break; // size
i = hash_find(&texcache.hashes,fname);
if (i > -1)
{
// update an existing entry
texcacheindex *t = texcache.iptrs[i];
t->offset = foffset;
t->len = fsize;
/*initprintf("%s %d got a match for %s offset %d\n",__FILE__, __LINE__, fname,foffset);*/
}
else
{
Bstrncpyz(texcache.currentindex->name, fname, BMAX_PATH);
texcache.currentindex->offset = foffset;
texcache.currentindex->len = fsize;
texcache.currentindex->next = (texcacheindex *)Xcalloc(1, sizeof(texcacheindex));
hash_add(&texcache.hashes, fname, texcache.numentries, 1);
if (++texcache.numentries > texcache.iptrcnt)
{
texcache.iptrcnt += 512;
texcache.iptrs = (texcacheindex **) Xrealloc(texcache.iptrs, sizeof(intptr_t) * texcache.iptrcnt);
}
texcache.iptrs[texcache.numentries-1] = texcache.currentindex;
texcache.currentindex = texcache.currentindex->next;
}
}
scriptfile_close(script);
return 0;
}
// Read from on-disk texcache or its in-memory cache.
int32_t texcache_readdata(void *dest, int32_t len)
{
const int32_t ocachepos = texcache.filepos;
texcache.filepos += len;
if (texcache.memcache.ptr && texcache.memcache.size >= ocachepos+len)
{
// initprintf("using memcache!\n");
Bmemcpy(dest, texcache.memcache.ptr+ocachepos, len);
return 0;
}
if (Blseek(texcache.filehandle, ocachepos, BSEEK_SET) != ocachepos)
return 1;
if (Bread(texcache.filehandle, dest, len) < len)
return 1;
return 0;
}
char const * texcache_calcid(char *cachefn, const char *fn, const int32_t len, const int32_t dameth, const char effect)
{
// Assert that BMAX_PATH is a multiple of 4 so that struct texcacheid_t
// gets no padding inserted by the compiler.
EDUKE32_STATIC_ASSERT((BMAX_PATH & 3) == 0);
struct texcacheid_t {
int32_t len, method;
char effect, name[BMAX_PATH+3]; // +3: pad to a multiple of 4
} id = { len, dameth, effect, "" };
Bstrcpy(id.name, fn);
size_t const fnlen = Bstrlen(fn);
while (Bstrlen(id.name) < BMAX_PATH - fnlen)
Bstrcat(id.name, fn);
Bsprintf(cachefn, "%08x%08x%08x",
XXH32((uint8_t *)id.name, fnlen, TEXCACHEMAGIC[3]),
XXH32((uint8_t *)id.name, Bstrlen(id.name), TEXCACHEMAGIC[3]),
XXH32((uint8_t *)&id, sizeof(struct texcacheid_t), TEXCACHEMAGIC[3]));
return cachefn;
}
#define READTEXHEADER_FAILURE(x) { err = x; goto failure; }
// returns 1 on success
int32_t texcache_readtexheader(char const * const cachefn, texcacheheader *head, int32_t modelp)
{
int32_t i, err = 0;
if (!texcache_enabled())
return 0;
i = hash_find(&texcache.hashes, cachefn);
if (i < 0 || !texcache.iptrs[i])
return 0; // didn't find it
texcache.filepos = texcache.iptrs[i]->offset;
// initprintf("%s %d got a match for %s offset %d\n",__FILE__, __LINE__, cachefn,offset);
if (texcache_readdata(head, sizeof(texcacheheader)))
READTEXHEADER_FAILURE(0);
if (Bmemcmp(head->magic, TEXCACHEMAGIC, 4))
READTEXHEADER_FAILURE(1);
// native (little-endian) -> internal
head->xdim = B_LITTLE32(head->xdim);
head->ydim = B_LITTLE32(head->ydim);
head->flags = B_LITTLE32(head->flags);
head->quality = B_LITTLE32(head->quality);
if (modelp && head->quality != r_downsize)
READTEXHEADER_FAILURE(2);
if ((head->flags & CACHEAD_COMPRESSED) && glusetexcache != 2)
READTEXHEADER_FAILURE(3);
if (!(head->flags & CACHEAD_COMPRESSED) && glusetexcache == 2)
READTEXHEADER_FAILURE(4);
// handle nodownsize
if (!modelp && !(head->flags & CACHEAD_NODOWNSIZE) && head->quality != r_downsize)
return 0;
if (gltexmaxsize && (head->xdim > (1<<gltexmaxsize) || head->ydim > (1<<gltexmaxsize)))
READTEXHEADER_FAILURE(5);
if (!glinfo.texnpot && (head->flags & CACHEAD_NONPOW2))
READTEXHEADER_FAILURE(6);
return 1;
failure:
{
static const char *error_msgs[] = {
"failed reading texture cache header", // 0
"header magic string doesn't match", // 1
"r_downsize doesn't match", // 2 (skins only)
"compression doesn't match: cache contains compressed tex", // 3
"compression doesn't match: cache contains uncompressed tex", // 4
"texture in cache exceeds maximum supported size", // 5
"texture in cache has non-power-of-two size, unsupported", // 6
};
initprintf("%s cache miss: %s\n", modelp?"Skin":"Texture", error_msgs[err]);
}
return 0;
}
#undef READTEXHEADER_FAILURE
#if defined USE_GLEXT && !defined EDUKE32_GLES
void texcache_prewritetex(texcacheheader *head)
{
Bmemcpy(head->magic, TEXCACHEMAGIC, 4); // sizes are set by caller
if (glusetexcache == 2)
head->flags |= CACHEAD_COMPRESSED;
// native -> external (little-endian)
head->xdim = B_LITTLE32(head->xdim);
head->ydim = B_LITTLE32(head->ydim);
head->flags = B_LITTLE32(head->flags);
head->quality = B_LITTLE32(head->quality);
}
#define WRITEX_FAIL_ON_ERROR() if (bglGetError() != GL_NO_ERROR) goto failure
void texcache_writetex_fromdriver(char const * const cachefn, texcacheheader *head)
{
texcachepicture pict;
char *pic = NULL, *packbuf = NULL;
void *midbuf = NULL;
uint32_t alloclen=0;
if (!texcache_enabled()) return;
GLint gi = GL_FALSE;
bglGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_COMPRESSED_ARB, &gi);
if (gi != GL_TRUE)
{
static GLint glGetTexLevelParameterivOK = GL_TRUE;
if (glGetTexLevelParameterivOK == GL_TRUE)
{
OSD_Printf("Error: glGetTexLevelParameteriv returned GL_FALSE!\n");
glGetTexLevelParameterivOK = GL_FALSE;
}
return;
}
texcache_prewritetex(head);
Blseek(texcache.filehandle, 0, BSEEK_END);
int32_t offset = Blseek(texcache.filehandle, 0, BSEEK_CUR);
// OSD_Printf("Caching %s, offset 0x%x\n", cachefn, offset);
if (Bwrite(texcache.filehandle, head, sizeof(texcacheheader)) != sizeof(texcacheheader)) goto failure;
CLEAR_GL_ERRORS();
for (uint32_t level = 0, padx = 0, pady = 0; level == 0 || (padx > 1 || pady > 1); ++level)
{
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_COMPRESSED_ARB, &gi); WRITEX_FAIL_ON_ERROR();
if (gi != GL_TRUE) goto failure; // an uncompressed mipmap
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_INTERNAL_FORMAT, &gi); WRITEX_FAIL_ON_ERROR();
#if defined __APPLE__ && defined POLYMER
if (pr_ati_textureformat_one && gi == 1) gi = GL_COMPRESSED_RGBA_S3TC_DXT1_EXT;
#endif
// native -> external (little endian)
pict.format = B_LITTLE32(gi);
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_WIDTH, &gi); WRITEX_FAIL_ON_ERROR();
padx = gi; pict.xdim = B_LITTLE32(gi);
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_HEIGHT, &gi); WRITEX_FAIL_ON_ERROR();
pady = gi; pict.ydim = B_LITTLE32(gi);
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_BORDER, &gi); WRITEX_FAIL_ON_ERROR();
pict.border = B_LITTLE32(gi);
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_DEPTH, &gi); WRITEX_FAIL_ON_ERROR();
pict.depth = B_LITTLE32(gi);
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_COMPRESSED_IMAGE_SIZE_ARB, &gi); WRITEX_FAIL_ON_ERROR();
uint32_t miplen = gi; pict.size = B_LITTLE32(gi);
if (alloclen < miplen)
{
pic = (char *)Xrealloc(pic, miplen);
alloclen = miplen;
packbuf = (char *)Xrealloc(packbuf, alloclen);
midbuf = (void *)Xrealloc(midbuf, miplen);
}
bglGetCompressedTexImageARB(GL_TEXTURE_2D, level, pic); WRITEX_FAIL_ON_ERROR();
if (Bwrite(texcache.filehandle, &pict, sizeof(texcachepicture)) != sizeof(texcachepicture)) goto failure;
if (dxtfilter(texcache.filehandle, &pict, pic, midbuf, packbuf, miplen)) goto failure;
}
texcache_postwritetex(cachefn, offset);
goto success;
failure:
initprintf("ERROR: cache failure!\n");
texcache.currentindex->offset = 0;
Bmemset(texcache.currentindex->name,0,sizeof(texcache.currentindex->name));
success:
TEXCACHE_FREEBUFS();
}
#undef WRITEX_FAIL_ON_ERROR
void texcache_postwritetex(char const * const cachefn, int32_t const offset)
{
texcacheindex *t;
int32_t i = hash_find(&texcache.hashes, cachefn);
if (i > -1)
{
// update an existing entry
t = texcache.iptrs[i];
t->offset = offset;
t->len = Blseek(texcache.filehandle, 0, BSEEK_CUR) - t->offset;
/*initprintf("%s %d got a match for %s offset %d\n",__FILE__, __LINE__, cachefn,offset);*/
}
else
{
t = texcache.currentindex;
Bstrcpy(t->name, cachefn);
t->offset = offset;
t->len = Blseek(texcache.filehandle, 0, BSEEK_CUR) - t->offset;
t->next = (texcacheindex *)Xcalloc(1, sizeof(texcacheindex));
hash_add(&texcache.hashes, cachefn, texcache.numentries, 0);
if (++texcache.numentries > texcache.iptrcnt)
{
texcache.iptrcnt += 512;
texcache.iptrs = (texcacheindex **)Xrealloc(texcache.iptrs, sizeof(intptr_t) * texcache.iptrcnt);
}
texcache.iptrs[texcache.numentries - 1] = t;
texcache.currentindex = t->next;
}
if (texcache.index)
{
fseek(texcache.index, 0, BSEEK_END);
Bfprintf(texcache.index, "%s %d %d\n", t->name, t->offset, t->len);
}
else
OSD_Printf("wtf?\n");
}
#endif
static void texcache_setuptexture(int32_t *doalloc, GLuint *glpic)
{
if (*doalloc&1)
{
bglGenTextures(1,glpic); //# of textures (make OpenGL allocate structure)
*doalloc |= 2; // prevents bglGenTextures being called again if we fail in here
}
bglBindTexture(GL_TEXTURE_2D,*glpic);
}
static int32_t texcache_loadmips(const texcacheheader *head, GLenum *glerr)
{
texcachepicture pict;
char *pic = NULL, *packbuf = NULL;
void *midbuf = NULL;
int32_t alloclen=0;
#if !defined USE_GLEXT && defined EDUKE32_GLES
UNREFERENCED_PARAMETER(glerr);
UNREFERENCED_PARAMETER(head);
#endif
for (bssize_t level = 0; level==0 || (pict.xdim > 1 || pict.ydim > 1); level++)
{
if (texcache_readdata(&pict, sizeof(texcachepicture)))
{
TEXCACHE_FREEBUFS();
return TEXCACHERR_BUFFERUNDERRUN;
}
// external (little endian) -> native
pict.size = B_LITTLE32(pict.size);
pict.format = B_LITTLE32(pict.format);
pict.xdim = B_LITTLE32(pict.xdim);
pict.ydim = B_LITTLE32(pict.ydim);
pict.border = B_LITTLE32(pict.border);
pict.depth = B_LITTLE32(pict.depth);
if (alloclen < pict.size)
{
pic = (char *)Xrealloc(pic, pict.size);
alloclen = pict.size;
packbuf = (char *)Xrealloc(packbuf, alloclen+16);
midbuf = (void *)Xrealloc(midbuf, pict.size);
}
#if defined USE_GLEXT && !defined EDUKE32_GLES
if (dedxtfilter(texcache.filehandle, &pict, pic, midbuf, packbuf,
(head->flags & CACHEAD_COMPRESSED)!=0))
{
TEXCACHE_FREEBUFS();
return TEXCACHERR_DEDXT;
}
bglCompressedTexImage2DARB(GL_TEXTURE_2D,level,pict.format,pict.xdim,pict.ydim,pict.border,pict.size,pic);
if ((*glerr=bglGetError()) != GL_NO_ERROR)
{
TEXCACHE_FREEBUFS();
return TEXCACHERR_COMPTEX;
}
GLint format;
bglGetTexLevelParameteriv(GL_TEXTURE_2D, level, GL_TEXTURE_INTERNAL_FORMAT, &format);
if ((*glerr = bglGetError()) != GL_NO_ERROR)
{
TEXCACHE_FREEBUFS();
return TEXCACHERR_GETTEXLEVEL;
}
if (pict.format != format)
{
OSD_Printf("gloadtile_cached: invalid texture cache file format %d %d\n", pict.format, format);
TEXCACHE_FREEBUFS();
return -1;
}
#endif
}
TEXCACHE_FREEBUFS();
return 0;
}
int32_t texcache_loadskin(const texcacheheader *head, int32_t *doalloc, GLuint *glpic, vec2_t *siz)
{
int32_t err=0;
GLenum glerr=GL_NO_ERROR;
texcache_setuptexture(doalloc, glpic);
siz->x = head->xdim;
siz->y = head->ydim;
CLEAR_GL_ERRORS();
if ((err = texcache_loadmips(head, &glerr)))
{
if (err > 0)
initprintf("texcache_loadskin: %s (glerr=%x)\n", texcache_errorstr[err], glerr);
return -1;
}
return 0;
}
int32_t texcache_loadtile(const texcacheheader *head, int32_t *doalloc, pthtyp *pth)
{
int32_t err=0;
GLenum glerr=GL_NO_ERROR;
texcache_setuptexture(doalloc, &pth->glpic);
pth->siz.x = head->xdim;
pth->siz.y = head->ydim;
CLEAR_GL_ERRORS();
if ((err = texcache_loadmips(head, &glerr)))
{
if (err > 0)
initprintf("texcache_loadtile: %s (glerr=%x)\n", texcache_errorstr[err], glerr);
return -1;
}
return 0;
}
void texcache_setupmemcache(void)
{
if (!glusememcache || texcache.memcache.noalloc || !texcache_enabled())
return;
texcache.memcache.size = Bfilelength(texcache.filehandle);
if (texcache.memcache.size <= 0)
return;
texcache.memcache.ptr = (uint8_t *)Brealloc(texcache.memcache.ptr, texcache.memcache.size);
if (!texcache.memcache.ptr)
{
initprintf("Failed allocating %d bytes for memcache, disabling memcache.\n", (int)texcache.memcache.size);
texcache_clearmemcache();
texcache.memcache.noalloc = 1;
return;
}
if (Bread(texcache.filehandle, texcache.memcache.ptr, texcache.memcache.size) != (bssize_t)texcache.memcache.size)
{
initprintf("Failed reading texcache into memcache!\n");
texcache_clearmemcache();
texcache.memcache.noalloc = 1;
}
}
#endif