Tomaz added some cl_explosions cvars, more work on this to come

[divverent/darkplaces.git] / gl_textures.c

#include "quakedef.h"
#include "image.h"
#include "jpeg.h"

cvar_t  r_max_size = {CVAR_SAVE, "r_max_size", "2048"};
cvar_t  r_max_scrapsize = {CVAR_SAVE, "r_max_scrapsize", "256"};
cvar_t  r_picmip = {CVAR_SAVE, "r_picmip", "0"};
cvar_t  r_lerpimages = {CVAR_SAVE, "r_lerpimages", "1"};
cvar_t  r_precachetextures = {CVAR_SAVE, "r_precachetextures", "1"};
cvar_t  gl_texture_anisotropy = {CVAR_SAVE, "gl_texture_anisotropy", "1"};

int             gl_filter_min = GL_LINEAR_MIPMAP_LINEAR;
int             gl_filter_mag = GL_LINEAR;


static mempool_t *texturemempool;
static mempool_t *texturedatamempool;
static mempool_t *textureprocessingmempool;

// note: this must not conflict with TEXF_ flags in r_textures.h
// cleared when a texture is uploaded
#define GLTEXF_UPLOAD 0x00010000
// bitmask for mismatch checking
#define GLTEXF_IMPORTANTBITS (0)
// set when image is uploaded and freed
#define GLTEXF_DESTROYED 0x00040000

// size of images which hold fragment textures, ignores picmip and max_size
static int block_size;

typedef struct
{
        int textype;
        int inputbytesperpixel;
        int internalbytesperpixel;
        int glformat;
        int glinternalformat;
}
textypeinfo_t;

static textypeinfo_t textype_palette       = {TEXTYPE_PALETTE, 1, 4, GL_RGBA   , 3};
static textypeinfo_t textype_rgb           = {TEXTYPE_RGB    , 3, 3, GL_RGB    , 3};
static textypeinfo_t textype_rgba          = {TEXTYPE_RGBA   , 4, 4, GL_RGBA   , 3};
static textypeinfo_t textype_palette_alpha = {TEXTYPE_PALETTE, 1, 4, GL_RGBA   , 4};
static textypeinfo_t textype_rgba_alpha    = {TEXTYPE_RGBA   , 4, 4, GL_RGBA   , 4};
static textypeinfo_t textype_dsdt          = {TEXTYPE_DSDT   , 2, 2, GL_DSDT_NV, GL_DSDT8_NV};

// a tiling texture (most common type)
#define GLIMAGETYPE_TILE 0
// a fragments texture (contains one or more fragment textures)
#define GLIMAGETYPE_FRAGMENTS 1

#define GLTEXTURETYPE_1D 0
#define GLTEXTURETYPE_2D 1
#define GLTEXTURETYPE_3D 2
#define GLTEXTURETYPE_CUBEMAP 3

static int gltexturetypeenums[4] = {GL_TEXTURE_1D, GL_TEXTURE_2D, GL_TEXTURE_3D, GL_TEXTURE_CUBE_MAP_ARB};
static int gltexturetypebindingenums[4] = {GL_TEXTURE_BINDING_1D, GL_TEXTURE_BINDING_2D, GL_TEXTURE_BINDING_3D, GL_TEXTURE_BINDING_CUBE_MAP_ARB};
static int gltexturetypedimensions[4] = {1, 2, 3, 2};
static int cubemapside[6] =
{
        GL_TEXTURE_CUBE_MAP_POSITIVE_X_ARB,
        GL_TEXTURE_CUBE_MAP_NEGATIVE_X_ARB,
        GL_TEXTURE_CUBE_MAP_POSITIVE_Y_ARB,
        GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_ARB,
        GL_TEXTURE_CUBE_MAP_POSITIVE_Z_ARB,
        GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_ARB
};

// a gltextureimage can have one (or more if fragments) gltextures inside
typedef struct gltextureimage_s
{
        struct gltextureimage_s *imagechain;
        int texturecount;
        int type; // one of the GLIMAGETYPE_ values
        int texturetype; // one of the GLTEXTURETYPE_ values
        int sides; // 1 or 6 depending on texturetype
        int texnum; // GL texture slot number
        int width, height, depth; // 3D texture support
        int bytesperpixel; // bytes per pixel
        int glformat; // GL_RGB or GL_RGBA
        int glinternalformat; // 3 or 4
        int flags;
        short *blockallocation; // fragment allocation (2D only)
}
gltextureimage_t;

typedef struct gltexture_s
{
        // this field is exposed to the R_GetTexture macro, for speed reasons
        // (must be identical in rtexture_t)
        int texnum; // GL texture slot number

        // pointer to texturepool (check this to see if the texture is allocated)
        struct gltexturepool_s *pool;
        // pointer to next texture in texturepool chain
        struct gltexture_s *chain;
        // pointer into gltextureimage array
        gltextureimage_t *image;
        // name of the texture (this might be removed someday), no duplicates
        char *identifier;
        // location in the image, and size
        int x, y, z, width, height, depth;
        // copy of the original texture(s) supplied to the upload function, for
        // delayed uploads (non-precached)
        qbyte *inputtexels;
        // original data size in *inputtexels
        int inputdatasize;
        // flags supplied to the LoadTexture function
        // (might be altered to remove TEXF_ALPHA), and GLTEXF_ private flags
        int flags;
        // pointer to one of the textype_ structs
        textypeinfo_t *textype;
        // one of the GLTEXTURETYPE_ values
        int texturetype;
        // palette if the texture is TEXTYPE_PALETTE
        const unsigned int *palette;
}
gltexture_t;

#define TEXTUREPOOL_SENTINEL 0xC0DEDBAD

typedef struct gltexturepool_s
{
        unsigned int sentinel;
        struct gltextureimage_s *imagechain;
        struct gltexture_s *gltchain;
        struct gltexturepool_s *next;
}
gltexturepool_t;

static gltexturepool_t *gltexturepoolchain = NULL;

static qbyte *resizebuffer = NULL, *colorconvertbuffer;
static int resizebuffersize = 0;
static qbyte *texturebuffer;
static int texturebuffersize = 0;

static int realmaxsize = 0;

static textypeinfo_t *R_GetTexTypeInfo(int textype, int flags)
{
        if (flags & TEXF_ALPHA)
        {
                switch(textype)
                {
                case TEXTYPE_PALETTE:
                        return &textype_palette_alpha;
                case TEXTYPE_RGB:
                        Host_Error("R_GetTexTypeInfo: RGB format has no alpha, TEXF_ALPHA not allowed\n");
                        return NULL;
                case TEXTYPE_RGBA:
                        return &textype_rgba_alpha;
                default:
                        Host_Error("R_GetTexTypeInfo: unknown texture format\n");
                        return NULL;
                }
        }
        else
        {
                switch(textype)
                {
                case TEXTYPE_PALETTE:
                        return &textype_palette;
                case TEXTYPE_RGB:
                        return &textype_rgb;
                case TEXTYPE_RGBA:
                        return &textype_rgba;
                case TEXTYPE_DSDT:
                        return &textype_dsdt;
                default:
                        Host_Error("R_GetTexTypeInfo: unknown texture format\n");
                        return NULL;
                }
        }
}

static void R_UploadTexture(gltexture_t *t);

static void R_PrecacheTexture(gltexture_t *glt)
{
        int precache;
        precache = false;
        if (glt->flags & TEXF_ALWAYSPRECACHE)
                precache = true;
        else if (r_precachetextures.integer >= 2)
                precache = true;
        else if (r_precachetextures.integer >= 1)
                if (glt->flags & TEXF_PRECACHE)
                        precache = true;

        if (precache)
                R_UploadTexture(glt);
}

int R_RealGetTexture(rtexture_t *rt)
{
        if (rt)
        {
                gltexture_t *glt;
                glt = (gltexture_t *)rt;
                if (glt->flags & GLTEXF_UPLOAD)
                        R_UploadTexture(glt);
                glt->texnum = glt->image->texnum;
                return glt->image->texnum;
        }
        else
                return 0;
}

void R_FreeTexture(rtexture_t *rt)
{
        gltexture_t *glt, **gltpointer;
        gltextureimage_t *image, **gltimagepointer;

        glt = (gltexture_t *)rt;
        if (glt == NULL)
                Host_Error("R_FreeTexture: texture == NULL\n");

        for (gltpointer = &glt->pool->gltchain;*gltpointer && *gltpointer != glt;gltpointer = &(*gltpointer)->chain);
        if (*gltpointer == glt)
                *gltpointer = glt->chain;
        else
                Host_Error("R_FreeTexture: texture \"%s\" not linked in pool\n", glt->identifier);

        // note: if freeing a fragment texture, this will not make the claimed
        // space available for new textures unless all other fragments in the
        // image are also freed
        if (glt->image)
        {
                image = glt->image;
                image->texturecount--;
                if (image->texturecount < 1)
                {
                        for (gltimagepointer = &glt->pool->imagechain;*gltimagepointer && *gltimagepointer != image;gltimagepointer = &(*gltimagepointer)->imagechain);
                        if (*gltimagepointer == image)
                                *gltimagepointer = image->imagechain;
                        else
                                Host_Error("R_FreeTexture: image not linked in pool\n");
                        if (image->texnum)
                                qglDeleteTextures(1, &image->texnum);
                        if (image->blockallocation)
                                Mem_Free(image->blockallocation);
                        Mem_Free(image);
                }
        }

        if (glt->identifier)
                Mem_Free(glt->identifier);
        if (glt->inputtexels)
                Mem_Free(glt->inputtexels);
        Mem_Free(glt);
}

/*
static gltexture_t *R_FindTexture (gltexturepool_t *pool, char *identifier)
{
        gltexture_t     *glt;

        if (!identifier)
                return NULL;

        for (glt = pool->gltchain;glt;glt = glt->chain)
                if (glt->identifier && !strcmp (identifier, glt->identifier))
                        return glt;

        return NULL;
}
*/

rtexturepool_t *R_AllocTexturePool(void)
{
        gltexturepool_t *pool;
        if (texturemempool == NULL)
                return NULL;
        pool = Mem_Alloc(texturemempool, sizeof(gltexturepool_t));
        if (pool == NULL)
                return NULL;
        pool->next = gltexturepoolchain;
        gltexturepoolchain = pool;
        pool->sentinel = TEXTUREPOOL_SENTINEL;
        return (rtexturepool_t *)pool;
}

void R_FreeTexturePool(rtexturepool_t **rtexturepool)
{
        gltexturepool_t *pool, **poolpointer;
        if (rtexturepool == NULL)
                return;
        if (*rtexturepool == NULL)
                return;
        pool = (gltexturepool_t *)(*rtexturepool);
        *rtexturepool = NULL;
        if (pool->sentinel != TEXTUREPOOL_SENTINEL)
                Host_Error("R_FreeTexturePool: pool already freed\n");
        for (poolpointer = &gltexturepoolchain;*poolpointer && *poolpointer != pool;poolpointer = &(*poolpointer)->next);
        if (*poolpointer == pool)
                *poolpointer = pool->next;
        else
                Host_Error("R_FreeTexturePool: pool not linked\n");
        while (pool->gltchain)
                R_FreeTexture((rtexture_t *)pool->gltchain);
        if (pool->imagechain)
                Sys_Error("R_FreeTexturePool: not all images freed\n");
        Mem_Free(pool);
}


typedef struct
{
        char *name;
        int minification, magnification;
}
glmode_t;

static glmode_t modes[] =
{
        {"GL_NEAREST", GL_NEAREST, GL_NEAREST},
        {"GL_LINEAR", GL_LINEAR, GL_LINEAR},
        {"GL_NEAREST_MIPMAP_NEAREST", GL_NEAREST_MIPMAP_NEAREST, GL_NEAREST},
        {"GL_LINEAR_MIPMAP_NEAREST", GL_LINEAR_MIPMAP_NEAREST, GL_LINEAR},
        {"GL_NEAREST_MIPMAP_LINEAR", GL_NEAREST_MIPMAP_LINEAR, GL_NEAREST},
        {"GL_LINEAR_MIPMAP_LINEAR", GL_LINEAR_MIPMAP_LINEAR, GL_LINEAR}
};

static void GL_TextureMode_f (void)
{
        int i;
        GLint oldbindtexnum;
        gltextureimage_t *image;
        gltexturepool_t *pool;

        if (Cmd_Argc() == 1)
        {
                for (i = 0;i < 6;i++)
                {
                        if (gl_filter_min == modes[i].minification)
                        {
                                Con_Printf("%s\n", modes[i].name);
                                return;
                        }
                }
                Con_Print("current filter is unknown???\n");
                return;
        }

        for (i = 0;i < 6;i++)
                if (!strcasecmp (modes[i].name, Cmd_Argv(1) ) )
                        break;
        if (i == 6)
        {
                Con_Print("bad filter name\n");
                return;
        }

        gl_filter_min = modes[i].minification;
        gl_filter_mag = modes[i].magnification;

        // change all the existing mipmap texture objects
        // FIXME: force renderer(/client/something?) restart instead?
        for (pool = gltexturepoolchain;pool;pool = pool->next)
        {
                for (image = pool->imagechain;image;image = image->imagechain)
                {
                        // only update already uploaded images
                        if (!(image->flags & GLTEXF_UPLOAD) && !(image->flags & (TEXF_FORCENEAREST | TEXF_FORCELINEAR)))
                        {
                                qglGetIntegerv(gltexturetypebindingenums[image->texturetype], &oldbindtexnum);
                                qglBindTexture(gltexturetypeenums[image->texturetype], image->texnum);
                                if (image->flags & TEXF_MIPMAP)
                                        qglTexParameteri(gltexturetypeenums[image->texturetype], GL_TEXTURE_MIN_FILTER, gl_filter_min);
                                else
                                        qglTexParameteri(gltexturetypeenums[image->texturetype], GL_TEXTURE_MIN_FILTER, gl_filter_mag);
                                qglTexParameteri(gltexturetypeenums[image->texturetype], GL_TEXTURE_MAG_FILTER, gl_filter_mag);
                                qglBindTexture(gltexturetypeenums[image->texturetype], oldbindtexnum);
                        }
                }
        }
}

static int R_CalcTexelDataSize (gltexture_t *glt)
{
        int width2, height2, depth2, size;
        if (glt->flags & TEXF_FRAGMENT)
                size = glt->width * glt->height * glt->depth;
        else
        {
                if (r_max_size.integer > realmaxsize)
                        Cvar_SetValue("r_max_size", realmaxsize);
                // calculate final size
                for (width2 = 1;width2 < glt->width;width2 <<= 1);
                for (height2 = 1;height2 < glt->height;height2 <<= 1);
                for (depth2 = 1;depth2 < glt->depth;depth2 <<= 1);
                for (width2 >>= r_picmip.integer;width2 > r_max_size.integer;width2 >>= 1);
                for (height2 >>= r_picmip.integer;height2 > r_max_size.integer;height2 >>= 1);
                for (depth2 >>= r_picmip.integer;depth2 > r_max_size.integer;depth2 >>= 1);
                if (width2 < 1) width2 = 1;
                if (height2 < 1) height2 = 1;
                if (depth2 < 1) depth2 = 1;

                size = 0;
                if (glt->flags & TEXF_MIPMAP)
                {
                        while (width2 > 1 || height2 > 1 || depth2 > 1)
                        {
                                size += width2 * height2 * depth2;
                                if (width2 > 1)
                                        width2 >>= 1;
                                if (height2 > 1)
                                        height2 >>= 1;
                                if (depth2 > 1)
                                        depth2 >>= 1;
                        }
                        size++; // count the last 1x1 mipmap
                }
                else
                        size = width2 * height2 * depth2;
        }
        size *= glt->textype->internalbytesperpixel * glt->image->sides;

        return size;
}

void R_TextureStats_PrintTotal(void)
{
        int glsize, total = 0, totalt = 0, totalp = 0, loaded = 0, loadedt = 0, loadedp = 0;
        gltexture_t *glt;
        gltexturepool_t *pool;
        for (pool = gltexturepoolchain;pool;pool = pool->next)
        {
                for (glt = pool->gltchain;glt;glt = glt->chain)
                {
                        glsize = R_CalcTexelDataSize(glt);
                        total++;
                        totalt += glsize;
                        totalp += glt->inputdatasize;
                        if (!(glt->flags & GLTEXF_UPLOAD))
                        {
                                loaded++;
                                loadedt += glsize;
                                loadedp += glt->inputdatasize;
                        }
                }
        }
        Con_Printf("total: %i (%.3fMB, %.3fMB original), uploaded %i (%.3fMB, %.3fMB original), upload on demand %i (%.3fMB, %.3fMB original)\n", total, totalt / 1048576.0, totalp / 1048576.0, loaded, loadedt / 1048576.0, loadedp / 1048576.0, total - loaded, (totalt - loadedt) / 1048576.0, (totalp - loadedp) / 1048576.0);
}

static void R_TextureStats_f(void)
{
        int loaded;
        gltexture_t *glt;
        gltexturepool_t *pool;
        Con_Print("glsize input loaded mip alpha name\n");
        for (pool = gltexturepoolchain;pool;pool = pool->next)
        {
                for (glt = pool->gltchain;glt;glt = glt->chain)
                {
                        loaded = !(glt->flags & GLTEXF_UPLOAD);
                        Con_Printf("%c%4i%c%c%4i%c %s %s %s %s\n", loaded ? '[' : ' ', (R_CalcTexelDataSize(glt) + 1023) / 1024, loaded ? ']' : ' ', glt->inputtexels ? '[' : ' ', (glt->inputdatasize + 1023) / 1024, glt->inputtexels ? ']' : ' ', loaded ? "loaded" : "      ", (glt->flags & TEXF_MIPMAP) ? "mip" : "   ", (glt->flags & TEXF_ALPHA) ? "alpha" : "     ", glt->identifier ? glt->identifier : "<unnamed>");
                }
                Con_Printf("pool %10p\n", pool);
        }
        R_TextureStats_PrintTotal();
}

char engineversion[40];

static void r_textures_start(void)
{
        // deal with size limits of various drivers (3dfx in particular)
        qglGetIntegerv(GL_MAX_TEXTURE_SIZE, &realmaxsize);
        CHECKGLERROR
        // LordHavoc: allow any alignment
        qglPixelStorei(GL_UNPACK_ALIGNMENT, 1);
        CHECKGLERROR

        // use the largest scrap texture size we can (not sure if this is really a good idea)
        for (block_size = 1;block_size < realmaxsize && block_size < r_max_scrapsize.integer;block_size <<= 1);

        texturemempool = Mem_AllocPool("Texture Info");
        texturedatamempool = Mem_AllocPool("Texture Storage (not yet uploaded)");
        textureprocessingmempool = Mem_AllocPool("Texture Processing Buffers");

        // Disable JPEG screenshots if the DLL isn't loaded
        if (! JPEG_OpenLibrary ())
                Cvar_SetValueQuick (&scr_screenshot_jpeg, 0);
}

static void r_textures_shutdown(void)
{
        rtexturepool_t *temp;

        JPEG_CloseLibrary ();

        while(gltexturepoolchain)
        {
                temp = (rtexturepool_t *) gltexturepoolchain;
                R_FreeTexturePool(&temp);
        }

        resizebuffersize = 0;
        texturebuffersize = 0;
        resizebuffer = NULL;
        colorconvertbuffer = NULL;
        texturebuffer = NULL;
        Mem_FreePool(&texturemempool);
        Mem_FreePool(&texturedatamempool);
        Mem_FreePool(&textureprocessingmempool);
}

static void r_textures_newmap(void)
{
}

void R_Textures_Init (void)
{
        Cmd_AddCommand("gl_texturemode", &GL_TextureMode_f);
        Cmd_AddCommand("r_texturestats", R_TextureStats_f);
        Cvar_RegisterVariable (&r_max_scrapsize);
        Cvar_RegisterVariable (&r_max_size);
        Cvar_RegisterVariable (&r_picmip);
        Cvar_RegisterVariable (&r_lerpimages);
        Cvar_RegisterVariable (&r_precachetextures);
        Cvar_RegisterVariable (&gl_texture_anisotropy);

        R_RegisterModule("R_Textures", r_textures_start, r_textures_shutdown, r_textures_newmap);
}

void R_Textures_Frame (void)
{
        // could do procedural texture animation here, if we keep track of which
        // textures were accessed this frame...

        // free the resize buffers
        resizebuffersize = 0;
        if (resizebuffer)
        {
                Mem_Free(resizebuffer);
                resizebuffer = NULL;
        }
        if (colorconvertbuffer)
        {
                Mem_Free(colorconvertbuffer);
                colorconvertbuffer = NULL;
        }
}

void R_MakeResizeBufferBigger(int size)
{
        if (resizebuffersize < size)
        {
                resizebuffersize = size;
                if (resizebuffer)
                        Mem_Free(resizebuffer);
                if (colorconvertbuffer)
                        Mem_Free(colorconvertbuffer);
                resizebuffer = Mem_Alloc(textureprocessingmempool, resizebuffersize);
                colorconvertbuffer = Mem_Alloc(textureprocessingmempool, resizebuffersize);
                if (!resizebuffer || !colorconvertbuffer)
                        Host_Error("R_Upload: out of memory\n");
        }
}

static void GL_SetupTextureParameters(int flags, int texturetype)
{
        int textureenum = gltexturetypeenums[texturetype];
        int wrapmode = ((flags & TEXF_CLAMP) && gl_support_clamptoedge) ? GL_CLAMP_TO_EDGE : GL_REPEAT;

        CHECKGLERROR

        if (gl_support_anisotropy)
        {
                int aniso = bound(1, gl_texture_anisotropy.integer, gl_max_anisotropy);
                if (gl_texture_anisotropy.integer != aniso)
                        Cvar_SetValueQuick(&gl_texture_anisotropy, aniso);
                qglTexParameteri(textureenum, GL_TEXTURE_MAX_ANISOTROPY_EXT, aniso);CHECKGLERROR
        }
        qglTexParameteri(textureenum, GL_TEXTURE_WRAP_S, wrapmode);CHECKGLERROR
        qglTexParameteri(textureenum, GL_TEXTURE_WRAP_T, wrapmode);CHECKGLERROR
        if (gltexturetypedimensions[texturetype] >= 3)
        {
                qglTexParameteri(textureenum, GL_TEXTURE_WRAP_R, wrapmode);CHECKGLERROR
        }

        CHECKGLERROR
        if (flags & TEXF_FORCENEAREST)
        {
                if (flags & TEXF_MIPMAP)
                {
                        qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, GL_NEAREST_MIPMAP_NEAREST);CHECKGLERROR
                }
                else
                {
                        qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, GL_NEAREST);CHECKGLERROR
                }
                qglTexParameteri(textureenum, GL_TEXTURE_MAG_FILTER, GL_NEAREST);CHECKGLERROR
        }
        else if (flags & TEXF_FORCELINEAR)
        {
                if (flags & TEXF_MIPMAP)
                {
                        if (gl_filter_min == GL_NEAREST_MIPMAP_LINEAR || gl_filter_min == GL_LINEAR_MIPMAP_LINEAR)
                        {
                                qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);CHECKGLERROR
                        }
                        else
                        {
                                qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_NEAREST);CHECKGLERROR
                        }
                }
                else
                {
                        qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, GL_LINEAR);CHECKGLERROR
                }
                qglTexParameteri(textureenum, GL_TEXTURE_MAG_FILTER, GL_LINEAR);CHECKGLERROR
        }
        else
        {
                if (flags & TEXF_MIPMAP)
                {
                        qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, gl_filter_min);CHECKGLERROR
                }
                else
                {
                        qglTexParameteri(textureenum, GL_TEXTURE_MIN_FILTER, gl_filter_mag);CHECKGLERROR
                }
                qglTexParameteri(textureenum, GL_TEXTURE_MAG_FILTER, gl_filter_mag);CHECKGLERROR
        }

        CHECKGLERROR
}

static void R_Upload(gltexture_t *glt, qbyte *data)
{
        int i, mip, width, height, depth;
        GLint oldbindtexnum;
        qbyte *prevbuffer;
        prevbuffer = data;

        CHECKGLERROR

        glt->texnum = glt->image->texnum;
        // we need to restore the texture binding after finishing the upload
        qglGetIntegerv(gltexturetypebindingenums[glt->image->texturetype], &oldbindtexnum);
        qglBindTexture(gltexturetypeenums[glt->image->texturetype], glt->image->texnum);
        CHECKGLERROR
        glt->flags &= ~GLTEXF_UPLOAD;

        if (glt->flags & TEXF_FRAGMENT)
        {
                if (glt->image->flags & GLTEXF_UPLOAD)
                {
                        glt->image->flags &= ~GLTEXF_UPLOAD;
                        Con_DPrint("uploaded new fragments image\n");
                        R_MakeResizeBufferBigger(glt->image->width * glt->image->height * glt->image->depth * glt->image->bytesperpixel);
                        memset(resizebuffer, 255, glt->image->width * glt->image->height * glt->image->depth * glt->image->bytesperpixel);
                        switch(glt->image->texturetype)
                        {
                        case GLTEXTURETYPE_1D:
                                qglTexImage1D(GL_TEXTURE_1D, 0, glt->image->glinternalformat, glt->image->width, 0, glt->image->glformat, GL_UNSIGNED_BYTE, resizebuffer);
                                CHECKGLERROR
                                break;
                        case GLTEXTURETYPE_2D:
                                qglTexImage2D(GL_TEXTURE_2D, 0, glt->image->glinternalformat, glt->image->width, glt->image->height, 0, glt->image->glformat, GL_UNSIGNED_BYTE, resizebuffer);
                                CHECKGLERROR
                                break;
                        case GLTEXTURETYPE_3D:
                                qglTexImage3D(GL_TEXTURE_3D, 0, glt->image->glinternalformat, glt->image->width, glt->image->height, glt->image->depth, 0, glt->image->glformat, GL_UNSIGNED_BYTE, resizebuffer);
                                CHECKGLERROR
                                break;
                        default:
                                Host_Error("R_Upload: fragment texture of type other than 1D, 2D, or 3D\n");
                                break;
                        }
                        GL_SetupTextureParameters(glt->image->flags, glt->image->texturetype);
                }

                if (prevbuffer == NULL)
                {
                        R_MakeResizeBufferBigger(glt->image->width * glt->image->height * glt->image->depth * glt->image->bytesperpixel);
                        memset(resizebuffer, 255, glt->width * glt->height * glt->image->depth * glt->image->bytesperpixel);
                        prevbuffer = resizebuffer;
                }
                else if (glt->textype->textype == TEXTYPE_PALETTE)
                {
                        // promote paletted to RGBA, so we only have to worry about RGB and
                        // RGBA in the rest of this code
                        R_MakeResizeBufferBigger(glt->image->width * glt->image->height * glt->image->depth * glt->image->sides * glt->image->bytesperpixel);
                        Image_Copy8bitRGBA(prevbuffer, colorconvertbuffer, glt->width * glt->height * glt->depth, glt->palette);
                        prevbuffer = colorconvertbuffer;
                }

                switch(glt->image->texturetype)
                {
                case GLTEXTURETYPE_1D:
                        qglTexSubImage1D(GL_TEXTURE_1D, 0, glt->x, glt->width, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        break;
                case GLTEXTURETYPE_2D:
                        qglTexSubImage2D(GL_TEXTURE_2D, 0, glt->x, glt->y, glt->width, glt->height, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        break;
                case GLTEXTURETYPE_3D:
                        qglTexSubImage3D(GL_TEXTURE_3D, 0, glt->x, glt->y, glt->z, glt->width, glt->height, glt->depth, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        break;
                default:
                        Host_Error("R_Upload: fragment texture of type other than 1D, 2D, or 3D\n");
                        break;
                }
        }
        else
        {
                glt->image->flags &= ~GLTEXF_UPLOAD;

                // these are rounded up versions of the size to do better resampling
                for (width  = 1;width  < glt->width ;width  <<= 1);
                for (height = 1;height < glt->height;height <<= 1);
                for (depth  = 1;depth  < glt->depth ;depth  <<= 1);

                R_MakeResizeBufferBigger(width * height * depth * glt->image->sides * glt->image->bytesperpixel);

                if (prevbuffer == NULL)
                {
                        width = glt->image->width;
                        height = glt->image->height;
                        depth = glt->image->depth;
                        memset(resizebuffer, 255, width * height * depth * glt->image->bytesperpixel);
                        prevbuffer = resizebuffer;
                }
                else
                {
                        if (glt->textype->textype == TEXTYPE_PALETTE)
                        {
                                // promote paletted to RGBA, so we only have to worry about RGB and
                                // RGBA in the rest of this code
                                Image_Copy8bitRGBA(prevbuffer, colorconvertbuffer, glt->width * glt->height * glt->depth * glt->image->sides, glt->palette);
                                prevbuffer = colorconvertbuffer;
                        }
                }

                // cubemaps contain multiple images and thus get processed a bit differently
                if (glt->image->texturetype != GLTEXTURETYPE_CUBEMAP)
                {
                        if (glt->width != width || glt->height != height || glt->depth != depth)
                        {
                                Image_Resample(prevbuffer, glt->width, glt->height, glt->depth, resizebuffer, width, height, depth, glt->image->bytesperpixel, r_lerpimages.integer);
                                prevbuffer = resizebuffer;
                        }
                        // picmip/max_size
                        while (width > glt->image->width || height > glt->image->height || depth > glt->image->depth)
                        {
                                Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, glt->image->width, glt->image->height, glt->image->depth, glt->image->bytesperpixel);
                                prevbuffer = resizebuffer;
                        }
                }
                mip = 0;
                switch(glt->image->texturetype)
                {
                case GLTEXTURETYPE_1D:
                        qglTexImage1D(GL_TEXTURE_1D, mip++, glt->image->glinternalformat, width, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        if (glt->flags & TEXF_MIPMAP)
                        {
                                while (width > 1 || height > 1 || depth > 1)
                                {
                                        Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, 1, 1, 1, glt->image->bytesperpixel);
                                        prevbuffer = resizebuffer;
                                        qglTexImage1D(GL_TEXTURE_1D, mip++, glt->image->glinternalformat, width, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                                        CHECKGLERROR
                                }
                        }
                        break;
                case GLTEXTURETYPE_2D:
                        qglTexImage2D(GL_TEXTURE_2D, mip++, glt->image->glinternalformat, width, height, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        if (glt->flags & TEXF_MIPMAP)
                        {
                                while (width > 1 || height > 1 || depth > 1)
                                {
                                        Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, 1, 1, 1, glt->image->bytesperpixel);
                                        prevbuffer = resizebuffer;
                                        qglTexImage2D(GL_TEXTURE_2D, mip++, glt->image->glinternalformat, width, height, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                                        CHECKGLERROR
                                }
                        }
                        break;
                case GLTEXTURETYPE_3D:
                        qglTexImage3D(GL_TEXTURE_3D, mip++, glt->image->glinternalformat, width, height, depth, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                        CHECKGLERROR
                        if (glt->flags & TEXF_MIPMAP)
                        {
                                while (width > 1 || height > 1 || depth > 1)
                                {
                                        Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, 1, 1, 1, glt->image->bytesperpixel);
                                        prevbuffer = resizebuffer;
                                        qglTexImage3D(GL_TEXTURE_3D, mip++, glt->image->glinternalformat, width, height, depth, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                                        CHECKGLERROR
                                }
                        }
                        break;
                case GLTEXTURETYPE_CUBEMAP:
                        // convert and upload each side in turn,
                        // from a continuous block of input texels
                        texturebuffer = prevbuffer;
                        for (i = 0;i < 6;i++)
                        {
                                prevbuffer = texturebuffer;
                                texturebuffer += glt->width * glt->height * glt->depth * glt->textype->inputbytesperpixel;
                                if (glt->width != width || glt->height != height || glt->depth != depth)
                                {
                                        Image_Resample(prevbuffer, glt->width, glt->height, glt->depth, resizebuffer, width, height, depth, glt->image->bytesperpixel, r_lerpimages.integer);
                                        prevbuffer = resizebuffer;
                                }
                                // picmip/max_size
                                while (width > glt->image->width || height > glt->image->height || depth > glt->image->depth)
                                {
                                        Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, glt->image->width, glt->image->height, glt->image->depth, glt->image->bytesperpixel);
                                        prevbuffer = resizebuffer;
                                }
                                mip = 0;
                                qglTexImage2D(cubemapside[i], mip++, glt->image->glinternalformat, width, height, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                                CHECKGLERROR
                                if (glt->flags & TEXF_MIPMAP)
                                {
                                        while (width > 1 || height > 1 || depth > 1)
                                        {
                                                Image_MipReduce(prevbuffer, resizebuffer, &width, &height, &depth, 1, 1, 1, glt->image->bytesperpixel);
                                                prevbuffer = resizebuffer;
                                                qglTexImage2D(cubemapside[i], mip++, glt->image->glinternalformat, width, height, 0, glt->image->glformat, GL_UNSIGNED_BYTE, prevbuffer);
                                                CHECKGLERROR
                                        }
                                }
                        }
                        break;
                }
                GL_SetupTextureParameters(glt->image->flags, glt->image->texturetype);
        }
        qglBindTexture(gltexturetypeenums[glt->image->texturetype], oldbindtexnum);
}

static void R_FindImageForTexture(gltexture_t *glt)
{
        int i, j, best, best2, x, y, z, w, h, d;
        textypeinfo_t *texinfo;
        gltexturepool_t *pool;
        gltextureimage_t *image, **imagechainpointer;
        texinfo = glt->textype;
        pool = glt->pool;

        // remains -1 until uploaded
        glt->texnum = -1;

        x = 0;
        y = 0;
        z = 0;
        w = glt->width;
        h = glt->height;
        d = glt->depth;
        if (glt->flags & TEXF_FRAGMENT)
        {
                for (imagechainpointer = &pool->imagechain;*imagechainpointer;imagechainpointer = &(*imagechainpointer)->imagechain)
                {
                        image = *imagechainpointer;
                        if (image->type != GLIMAGETYPE_FRAGMENTS)
                                continue;
                        if (image->texturetype != glt->texturetype)
                                continue;
                        if ((image->flags ^ glt->flags) & (TEXF_MIPMAP | TEXF_ALPHA | TEXF_CLAMP))
                                continue;
                        if (image->glformat != texinfo->glformat || image->glinternalformat != texinfo->glinternalformat)
                                continue;
                        if (glt->width > image->width || glt->height > image->height || glt->depth > image->depth)
                                continue;

                        // got a fragments texture, find a place in it if we can
                        for (best = image->width, i = 0;i < image->width - w;i++)
                        {
                                for (best2 = 0, j = 0;j < w;j++)
                                {
                                        if (image->blockallocation[i+j] >= best)
                                                break;
                                        if (best2 < image->blockallocation[i+j])
                                                best2 = image->blockallocation[i+j];
                                }
                                if (j == w)
                                {
                                        // this is a valid spot
                                        x = i;
                                        y = best = best2;
                                }
                        }

                        if (best + h > image->height)
                                continue;

                        for (i = 0;i < w;i++)
                                image->blockallocation[x + i] = best + h;

                        glt->x = x;
                        glt->y = y;
                        glt->z = 0;
                        glt->image = image;
                        image->texturecount++;
                        return;
                }

                image = Mem_Alloc(texturemempool, sizeof(gltextureimage_t));
                if (image == NULL)
                        Sys_Error("R_FindImageForTexture: ran out of memory\n");
                image->type = GLIMAGETYPE_FRAGMENTS;
                // make sure the created image is big enough for the fragment
                for (image->width = block_size;image->width < glt->width;image->width <<= 1);
                image->height = 1;
                if (gltexturetypedimensions[glt->texturetype] >= 2)
                        for (image->height = block_size;image->height < glt->height;image->height <<= 1);
                image->depth = 1;
                if (gltexturetypedimensions[glt->texturetype] >= 3)
                        for (image->depth = block_size;image->depth < glt->depth;image->depth <<= 1);
                image->blockallocation = Mem_Alloc(texturemempool, image->width * sizeof(short));
                memset(image->blockallocation, 0, image->width * sizeof(short));

                x = 0;
                y = 0;
                z = 0;
                for (i = 0;i < w;i++)
                        image->blockallocation[x + i] = y + h;
        }
        else
        {
                for (imagechainpointer = &pool->imagechain;*imagechainpointer;imagechainpointer = &(*imagechainpointer)->imagechain);

                image = Mem_Alloc(texturemempool, sizeof(gltextureimage_t));
                if (image == NULL)
                        Sys_Error("R_FindImageForTexture: ran out of memory\n");
                image->type = GLIMAGETYPE_TILE;
                image->blockallocation = NULL;

                // calculate final size
                if (r_max_size.integer > realmaxsize)
                        Cvar_SetValue("r_max_size", realmaxsize);
                for (image->width = 1;image->width < glt->width;image->width <<= 1);
                for (image->height = 1;image->height < glt->height;image->height <<= 1);
                for (image->depth = 1;image->depth < glt->depth;image->depth <<= 1);
                for (image->width >>= r_picmip.integer;image->width > r_max_size.integer;image->width >>= 1);
                for (image->height >>= r_picmip.integer;image->height > r_max_size.integer;image->height >>= 1);
                for (image->depth >>= r_picmip.integer;image->depth > r_max_size.integer;image->depth >>= 1);
                if (image->width < 1) image->width = 1;
                if (image->height < 1) image->height = 1;
                if (image->depth < 1) image->depth = 1;
        }
        image->texturetype = glt->texturetype;
        image->glinternalformat = texinfo->glinternalformat;
        image->glformat = texinfo->glformat;
        image->flags = (glt->flags & (TEXF_MIPMAP | TEXF_ALPHA | TEXF_CLAMP)) | GLTEXF_UPLOAD;
        image->bytesperpixel = texinfo->internalbytesperpixel;
        image->sides = image->texturetype == GLTEXTURETYPE_CUBEMAP ? 6 : 1;
        // get a texture number to use
        qglGenTextures(1, &image->texnum);
        *imagechainpointer = image;
        image->texturecount++;

        glt->x = x;
        glt->y = y;
        glt->y = z;
        glt->image = image;
}

// note: R_FindImageForTexture must be called before this
static void R_UploadTexture (gltexture_t *glt)
{
        if (!(glt->flags & GLTEXF_UPLOAD))
                return;

        R_Upload(glt, glt->inputtexels);
        if (glt->inputtexels)
        {
                Mem_Free(glt->inputtexels);
                glt->inputtexels = NULL;
                glt->flags |= GLTEXF_DESTROYED;
        }
        else if (glt->flags & GLTEXF_DESTROYED)
                Con_Printf("R_UploadTexture: Texture %s already uploaded and destroyed.  Can not upload original image again.  Uploaded blank texture.\n", glt->identifier);
}

static rtexture_t *R_SetupTexture(rtexturepool_t *rtexturepool, const char *identifier, int width, int height, int depth, int sides, int flags, int textype, int texturetype, const qbyte *data, const unsigned int *palette)
{
        int i, size;
        gltexture_t *glt;
        gltexturepool_t *pool = (gltexturepool_t *)rtexturepool;
        textypeinfo_t *texinfo;

        if (cls.state == ca_dedicated)
                return NULL;

        if (flags & TEXF_FRAGMENT && texturetype != GLTEXTURETYPE_2D)
                Sys_Error("R_LoadTexture: only 2D fragment textures implemented\n");
        if (texturetype == GLTEXTURETYPE_CUBEMAP && !gl_texturecubemap)
                Sys_Error("R_LoadTexture: cubemap texture not supported by driver\n");
        if (texturetype == GLTEXTURETYPE_3D && !gl_texture3d)
                Sys_Error("R_LoadTexture: 3d texture not supported by driver\n");

        /*
        glt = R_FindTexture (pool, identifier);
        if (glt)
        {
                Con_Printf("R_LoadTexture: replacing existing texture %s\n", identifier);
                R_FreeTexture((rtexture_t *)glt);
        }
        */

        texinfo = R_GetTexTypeInfo(textype, flags);
        size = width * height * depth * sides * texinfo->inputbytesperpixel;
        if (size < 1)
                Sys_Error("R_LoadTexture: bogus texture size (%dx%dx%dx%dbppx%dsides = %d bytes)\n", width, height, depth, texinfo->inputbytesperpixel * 8, sides);

        // clear the alpha flag if the texture has no transparent pixels
        switch(textype)
        {
        case TEXTYPE_PALETTE:
                if (flags & TEXF_ALPHA)
                {
                        flags &= ~TEXF_ALPHA;
                        if (data)
                        {
                                for (i = 0;i < size;i++)
                                {
                                        if (((qbyte *)&palette[data[i]])[3] < 255)
                                        {
                                                flags |= TEXF_ALPHA;
                                                break;
                                        }
                                }
                        }
                }
                break;
        case TEXTYPE_RGB:
                if (flags & TEXF_ALPHA)
                        Host_Error("R_LoadTexture: RGB has no alpha, don't specify TEXF_ALPHA\n");
                break;
        case TEXTYPE_RGBA:
                if (flags & TEXF_ALPHA)
                {
                        flags &= ~TEXF_ALPHA;
                        if (data)
                        {
                                for (i = 3;i < size;i += 4)
                                {
                                        if (data[i] < 255)
                                        {
                                                flags |= TEXF_ALPHA;
                                                break;
                                        }
                                }
                        }
                }
                break;
        case TEXTYPE_DSDT:
                break;
        default:
                Host_Error("R_LoadTexture: unknown texture type\n");
        }

        glt = Mem_Alloc(texturemempool, sizeof(gltexture_t));
        if (identifier)
        {
                glt->identifier = Mem_Alloc(texturemempool, strlen(identifier)+1);
                strcpy (glt->identifier, identifier);
        }
        else
                glt->identifier = NULL;
        glt->pool = pool;
        glt->chain = pool->gltchain;
        pool->gltchain = glt;
        glt->width = width;
        glt->height = height;
        glt->depth = depth;
        glt->flags = flags | GLTEXF_UPLOAD;
        glt->textype = texinfo;
        glt->texturetype = texturetype;
        glt->inputdatasize = size;
        glt->palette = palette;

        if (data)
        {
                glt->inputtexels = Mem_Alloc(texturedatamempool, size);
                if (glt->inputtexels == NULL)
                        Sys_Error("R_LoadTexture: out of memory\n");
                memcpy(glt->inputtexels, data, size);
        }
        else
                glt->inputtexels = NULL;

        R_FindImageForTexture(glt);
        R_PrecacheTexture(glt);

        return (rtexture_t *)glt;
}

rtexture_t *R_LoadTexture1D(rtexturepool_t *rtexturepool, const char *identifier, int width, const qbyte *data, int textype, int flags, const unsigned int *palette)
{
        return R_SetupTexture(rtexturepool, identifier, width, 1, 1, 1, flags, textype, GLTEXTURETYPE_1D, data, palette);
}

rtexture_t *R_LoadTexture2D(rtexturepool_t *rtexturepool, const char *identifier, int width, int height, const qbyte *data, int textype, int flags, const unsigned int *palette)
{
        return R_SetupTexture(rtexturepool, identifier, width, height, 1, 1, flags, textype, GLTEXTURETYPE_2D, data, palette);
}

rtexture_t *R_LoadTexture3D(rtexturepool_t *rtexturepool, const char *identifier, int width, int height, int depth, const qbyte *data, int textype, int flags, const unsigned int *palette)
{
        return R_SetupTexture(rtexturepool, identifier, width, height, depth, 1, flags, textype, GLTEXTURETYPE_3D, data, palette);
}

rtexture_t *R_LoadTextureCubeMap(rtexturepool_t *rtexturepool, const char *identifier, int width, const qbyte *data, int textype, int flags, const unsigned int *palette)
{
        return R_SetupTexture(rtexturepool, identifier, width, width, 1, 6, flags, textype, GLTEXTURETYPE_CUBEMAP, data, palette);
}

int R_TextureHasAlpha(rtexture_t *rt)
{
        return rt ? (((gltexture_t *)rt)->flags & TEXF_ALPHA) != 0 : false;
}

int R_TextureWidth(rtexture_t *rt)
{
        return rt ? ((gltexture_t *)rt)->width : 0;
}

int R_TextureHeight(rtexture_t *rt)
{
        return rt ? ((gltexture_t *)rt)->height : 0;
}

void R_FragmentLocation3D(rtexture_t *rt, int *x, int *y, int *z, float *fx1, float *fy1, float *fz1, float *fx2, float *fy2, float *fz2)
{
        gltexture_t *glt;
        float iwidth, iheight, idepth;
        if (cls.state == ca_dedicated)
        {
                if (x)
                        *x = 0;
                if (y)
                        *y = 0;
                if (z)
                        *z = 0;
                if (fx1 || fy1 || fx2 || fy2)
                {
                        if (fx1)
                                *fx1 = 0;
                        if (fy1)
                                *fy1 = 0;
                        if (fz1)
                                *fz1 = 0;
                        if (fx2)
                                *fx2 = 1;
                        if (fy2)
                                *fy2 = 1;
                        if (fz2)
                                *fz2 = 1;
                }
                return;
        }
        if (!rt)
                Host_Error("R_FragmentLocation: no texture supplied\n");
        glt = (gltexture_t *)rt;
        if (glt->flags & TEXF_FRAGMENT)
        {
                if (x)
                        *x = glt->x;
                if (y)
                        *y = glt->y;
                if (fx1 || fy1 || fx2 || fy2)
                {
                        iwidth = 1.0f / glt->image->width;
                        iheight = 1.0f / glt->image->height;
                        idepth = 1.0f / glt->image->depth;
                        if (fx1)
                                *fx1 = glt->x * iwidth;
                        if (fy1)
                                *fy1 = glt->y * iheight;
                        if (fz1)
                                *fz1 = glt->z * idepth;
                        if (fx2)
                                *fx2 = (glt->x + glt->width) * iwidth;
                        if (fy2)
                                *fy2 = (glt->y + glt->height) * iheight;
                        if (fz2)
                                *fz2 = (glt->z + glt->depth) * idepth;
                }
        }
        else
        {
                if (x)
                        *x = 0;
                if (y)
                        *y = 0;
                if (z)
                        *z = 0;
                if (fx1 || fy1 || fx2 || fy2)
                {
                        if (fx1)
                                *fx1 = 0;
                        if (fy1)
                                *fy1 = 0;
                        if (fz1)
                                *fz1 = 0;
                        if (fx2)
                                *fx2 = 1;
                        if (fy2)
                                *fy2 = 1;
                        if (fz2)
                                *fz2 = 1;
                }
        }
}

void R_FragmentLocation(rtexture_t *rt, int *x, int *y, float *fx1, float *fy1, float *fx2, float *fy2)
{
        R_FragmentLocation3D(rt, x, y, NULL, fx1, fy1, NULL, fx2, fy2, NULL);
}

int R_CompatibleFragmentWidth(int width, int textype, int flags)
{
        return width;
}

void R_UpdateTexture(rtexture_t *rt, qbyte *data)
{
        gltexture_t *glt;
        if (rt == NULL)
                Host_Error("R_UpdateTexture: no texture supplied\n");
        if (data == NULL)
                Host_Error("R_UpdateTexture: no data supplied\n");
        glt = (gltexture_t *)rt;

        // if it has not been uploaded yet, update the data that will be used when it is
        if (glt->inputtexels)
                memcpy(glt->inputtexels, data, glt->inputdatasize);
        else
                R_Upload(glt, data);
}