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various voxel/caveview improvements

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This commit is contained in:
Sean Barrett 2015-03-28 17:36:09 -07:00
parent 0669a6659a
commit 0f8e471f7b
3 changed files with 136 additions and 84 deletions
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151
stb_voxel_render.h
View File

@ -1,20 +1,21 @@
// @TODO
//
// - API for texture rotation on side faces (& top&bottom ?)
// - edge clamp
// - test API for texture rotation on side faces
// - API for texture rotation on top & bottom
// - better culling of vheight faces with vheight neighbors
// - better culling of non-vheight faces with fheight neighbors
// - gather vertex lighting from slopes correctly
// - better support texture edge_clamp: explicitly mod texcoords by 1, use textureGrad to avoid
// mipmap articats. Need to do compute texcoords in vertex shader, offset towards
// center before modding, need 2 bits per vertex to know offset direction (is implicit
// for modes without vertex data)
// - better support texture edge_clamp: currently if you fall
// exactly on 1.0 you get wrapped incorrectly; this is rare, but
// can avoid: compute texcoords in vertex shader, offset towards
// center before modding, need 2 bits per vertex to know offset direction)
// - add 10-byte quad type (loses per-face tex1/tex2 blend mode)
// - add 6-byte quad type (loses baked ao, most geometry, flags, texlerp)
// - add 4-byte quad type (only texture or only color, no baked light, no recolor)
// - fog properties
// - enable/disable fog at run-time
// stb_voxel_render.h - 0.01 - Sean Barrett, 2015
// stb_voxel_render.h - 0.01 - Sean Barrett, 2015 - public domain
//
// This library helps render large "voxel" worlds for games,
// in this case one with blocks that can have textures and that
@ -381,6 +382,7 @@ enum
#define STBVOX_MAKE_TEXLERP1(vert,e2,n2,w2,s2,u4,d2) STBVOX_MAKE_TEXLERP(s2, w2, d2, vert)
#define STBVOX_MAKE_TEXLERP2(vert,e2,n2,w2,s2,u4,d2) ((u2)*16 + (n2)*4 + (s2))
#define STBVOX_MAKE_FACE_MASK(e,n,w,s,u,d) ((e)+(n)*2+(w)*4+(s)*8+(u)*16+(d)*32)
#define STBVOX_MAKE_SIDE_TEXROT(e,n,w,s) ((e)+(n)*4+(w)*16+(s)*64)
#ifdef STBVOX_ROTATION_IN_LIGHTING
#define STBVOX_MAKE_LIGHTING(lighting, rot) (((lighting)&~3)+(rot))
@ -408,6 +410,7 @@ struct stbvox_input_description
unsigned char *tex2; // raw tex2 value to use on all sides of block
unsigned char *tex2_replace; // STBVOX_MAKE_TEX2_REPLACE -- tex2:6, face_1:2
unsigned char *tex2_facemask; // facemask:6 (use all bits of tex2_replace as texture)
unsigned char *side_texrot; // e:2,n:2,w:2,s:2 texture rotation
unsigned char *vheight; // STBVOX_MAKE_VHEIGHT -- sw:2, se:2, nw:2, ne:2, doesn't rotate
unsigned char *texlerp; // STBVOX_MAKE_TEXLERP -- vert:2, ud:2, ew:2, ns:2
unsigned char *texlerp2; // STBVOX_MAKE_TEXLERP2 (and use STBVOX_MAKE_TEXLERP1 for 'texlerp' -- e:2, n:2, u:3, unused:1
@ -440,11 +443,13 @@ struct stbvox_input_description
unsigned char *block_color;
unsigned char *block_texlerp;
unsigned char *block_selector;
unsigned char *block_side_texrot;
// indexed by overlay*6+side; in all cases 0 means 'nochange'
unsigned char (*overlay_tex1)[6];
unsigned char (*overlay_tex2)[6];
unsigned char (*overlay_color)[6];
unsigned char *overlay_side_texrot;
// indexed by extended_color
unsigned char *ecolor_color; // 256
@ -824,7 +829,7 @@ static char *stbvox_fragment_program =
"uniform vec4 camera_pos;\n" // 4th value is used for arbitrary hacking
// probably constant data
"uniform vec3 ambient[4];\n"
"uniform vec4 ambient[4];\n"
#ifndef STBVOX_ICONFIG_UNTEXTURED
// generally constant data
@ -875,7 +880,9 @@ static char *stbvox_fragment_program =
" vec3 texgen_s = texelFetch(texgen, int(texprojid)).xyz;\n"
" vec3 texgen_t = texelFetch(texgen, int(texprojid+32u)).xyz;\n"
" float tex1_scale = texelFetch(texscale, int(tex1_id & 127u)).x;\n"
#ifndef STBVOX_CONFIG_DISABLE_TEX2
" float tex2_scale = texelFetch(texscale, int(tex2_id & 127u)).y;\n"
#endif
" vec4 color = texelFetch(color_table, int(color_id & 63u));\n"
#endif
" vec2 texcoord;\n"
@ -883,35 +890,55 @@ static char *stbvox_fragment_program =
" texcoord.s = dot(texturespace_pos, texgen_s);\n"
" texcoord.t = dot(texturespace_pos, texgen_t);\n"
// @TODO: use 2 bits of facedata.w to enable animation of facedata.x & y?
" vec2 texcoord_1 = tex1_scale * texcoord;\n"
#ifndef STBVOX_CONFIG_DISABLE_TEX2
" vec2 texcoord_2 = tex2_scale * texcoord;\n"
#endif
" vec4 tex1 = texture(tex_array[0], vec3(tex1_scale * texcoord, float(tex1_id)));\n"
" vec4 tex2 = texture(tex_array[1], vec3(tex2_scale * texcoord, float(tex2_id)));\n"
#ifdef STBVOX_CONFIG_TEX1_EDGE_CLAMP
" texcoord_1 = texcoord_1 - floor(texcoord_1);\n"
" vec4 tex1 = textureGrad(tex_array[0], vec3(texcoord_1, float(tex1_id)), dFdx(tex1_scale*texcoord), dFdy(tex1_scale*texcoord));\n"
#else
" vec4 tex1 = texture(tex_array[0], vec3(texcoord_1, float(tex1_id)));\n"
#endif
#ifndef STBVOX_CONFIG_DISABLE_TEX2
#ifdef STBVOX_CONFIG_TEX2_EDGE_CLAMP
" texcoord_2 = texcoord_2 - floor(texcoord_2);\n"
" vec4 tex2 = textureGrad(tex_array[0], vec3(texcoord_2, float(tex2_id)), dFdx(tex2_scale*texcoord), dFdy(tex2_scale*texcoord));\n"
#else
" vec4 tex2 = texture(tex_array[1], vec3(texcoord_2, float(tex2_id)));\n"
#endif
#endif
" bool emissive = (int(color.w) & 1) != 0;\n"
// recolor textures
" if ((color_id & 64u) != 0u) tex1.xyz *= color.xyz;\n"
" if ((color_id & 128u) != 0u) tex2.xyz *= color.xyz;\n"
#ifdef STBVOX_CONFIG_PREMULTIPLIED_ALPHA
" tex2.rgba *= texlerp;\n"
#else
" tex2.a *= texlerp;\n"
#endif
" if (texblend_mode)\n"
" albedo = tex2.xyz * rlerp(tex2.a, 2.0*tex1.xyz, vec3(1.0,1.0,1.0));\n"
" else {\n"
#ifdef STBVOX_CONFIG_PREMULTIPLIED_ALPHA
" albedo = (1.0-tex2.a)*tex1.xyz + tex2.xyz;\n"
#else
" albedo = rlerp(tex2.a, tex1.xyz, tex2.xyz);\n"
#endif
" fragment_alpha = tex1.a*(1-tex2.a)+tex2.a;\n"
" }\n"
" fragment_alpha = tex1.a;\n"
#ifndef STBVOX_CONFIG_DISABLE_TEX2
" if ((color_id & 128u) != 0u) tex2.xyz *= color.xyz;\n"
#ifdef STBVOX_CONFIG_PREMULTIPLIED_ALPHA
" tex2.rgba *= texlerp;\n"
#else
" tex2.a *= texlerp;\n"
#endif
" if (texblend_mode)\n"
" albedo = tex2.xyz * rlerp(tex2.a, 2.0*tex1.xyz, vec3(1.0,1.0,1.0));\n"
" else {\n"
#ifdef STBVOX_CONFIG_PREMULTIPLIED_ALPHA
" albedo = (1.0-tex2.a)*tex1.xyz + tex2.xyz;\n"
#else
" albedo = rlerp(tex2.a, tex1.xyz, tex2.xyz);\n"
#endif
" fragment_alpha = tex1.a*(1-tex2.a)+tex2.a;\n"
" }\n"
#else
" albedo = tex1.xyz;\n"
#endif
#else // UNTEXTURED
" vec4 color;"
" color.xyz = vec3(facedata.xyz) / 255.0;\n"
@ -928,7 +955,7 @@ static char *stbvox_fragment_program =
" vec3 normal = vnormal;\n"
#endif
" vec3 ambient_color = dot(normal, ambient[0]) * ambient[1] + ambient[2];\n"
" vec3 ambient_color = dot(normal, ambient[0].xyz) * ambient[1].xyz + ambient[2].xyz;\n"
" ambient_color = clamp(ambient_color, 0.0, 1.0);"
" ambient_color *= amb_occ;\n"
@ -972,14 +999,15 @@ static char *stbvox_fragment_program =
"\n"
"vec3 compute_fog(vec3 color, vec3 relative_pos, float fragment_alpha)\n"
"{\n"
" float f = sqrt(dot(relative_pos,relative_pos))/1320.0;\n"
" float f = dot(relative_pos,relative_pos)*ambient[3].w;\n"
//" f = rlerp(f, -2,1);\n"
" f = clamp(f, 0.0, 1.0);\n"
" f = 3.0*f*f - 2.0*f*f*f;\n" // smoothstep
" f = f*f;\n" // fade in more smoothly
//" f = f*f;\n" // fade in more smoothly
#ifdef STBVOX_CONFIG_PREMULTIPLIED_ALPHA
" return rlerp(f, color.xyz, ambient[3]*fragment_alpha);\n"
" return rlerp(f, color.xyz, ambient[3].xyz*fragment_alpha);\n"
#else
" return rlerp(f, color.xyz, ambient[3]);\n"
" return rlerp(f, color.xyz, ambient[3].xyz);\n"
#endif
"}\n"
#endif
@ -1042,10 +1070,22 @@ static char *stbvox_fragment_program_alpha_only =
" texcoord.s = dot(texturespace_pos, texgen_s);\n"
" texcoord.t = dot(texturespace_pos, texgen_t);\n"
// @TODO: use 2 bits of facedata.w to enable animation of facedata.x & y?
" vec2 texcoord_1 = tex1_scale * texcoord;\n"
" vec2 texcoord_2 = tex2_scale * texcoord;\n"
" vec4 tex1 = texture(tex_array[0], vec3(tex1_scale * texcoord, float(tex1_id)));\n"
" vec4 tex2 = texture(tex_array[1], vec3(tex2_scale * texcoord, float(tex2_id)));\n"
#ifdef STBVOX_CONFIG_TEX1_EDGE_CLAMP
" texcoord_1 = texcoord_1 - floor(texcoord_1);\n"
" vec4 tex1 = textureGrad(tex_array[0], vec3(texcoord_1, float(tex1_id)), dFdx(tex1_scale*texcoord), dFdy(tex1_scale*texcoord));\n"
#else
" vec4 tex1 = texture(tex_array[0], vec3(texcoord_1, float(tex1_id)));\n"
#endif
#ifdef STBVOX_CONFIG_TEX2_EDGE_CLAMP
" texcoord_2 = texcoord_2 - floor(texcoord_2);\n"
" vec4 tex2 = textureGrad(tex_array[0], vec3(texcoord_2, float(tex2_id)), dFdx(tex2_scale*texcoord), dFdy(tex2_scale*texcoord));\n"
#else
" vec4 tex2 = texture(tex_array[1], vec3(texcoord_2, float(tex2_id)));\n"
#endif
" tex2.a *= texlerp;\n"
@ -1094,8 +1134,8 @@ static stbvox_uniform_info stbvox_uniforms[] =
{ STBVOX_UNIFORM_TYPE_vec4 , 16, 64, "color_table" , stbvox_default_palette[0] , STBVOX_TEXBUF },
{ STBVOX_UNIFORM_TYPE_vec3 , 12, 32, "normal_table" , stbvox_default_normals[0] },
{ STBVOX_UNIFORM_TYPE_vec3 , 12, 64, "texgen" , stbvox_default_texgen[0][0], STBVOX_TEXBUF },
{ STBVOX_UNIFORM_TYPE_vec3 , 12, 4, "ambient" , 0 },
{ STBVOX_UNIFORM_TYPE_vec4 , 12, 1, "camera_pos" , stbvox_dummy_transform[0] },
{ STBVOX_UNIFORM_TYPE_vec4 , 16, 4, "ambient" , 0 },
{ STBVOX_UNIFORM_TYPE_vec4 , 16, 1, "camera_pos" , stbvox_dummy_transform[0] },
};
STBVXDEC int stbvox_get_uniform_info(stbvox_uniform_info *info, int uniform)
@ -1141,6 +1181,7 @@ stbvox_mesh_face stbvox_compute_mesh_face_value(stbvox_mesh_maker *mm, stbvox_ro
stbvox_mesh_face face_data = { 0 };
stbvox_block_type bt = mm->input.blocktype[v_off];
unsigned char bt_face = STBVOX_ROTATE(face, rot.block);
int facerot = rot.facerot;
if (mm->input.color)
face_data.color = mm->input.color[v_off];
@ -1167,6 +1208,13 @@ stbvox_mesh_face stbvox_compute_mesh_face_value(stbvox_mesh_maker *mm, stbvox_ro
face_data.color = mcol;
}
if (face <= STBVOX_FACE_south) {
if (mm->input.side_texrot)
facerot = mm->input.side_texrot[v_off] >> (2 * face);
else if (mm->input.block_side_texrot)
facerot = mm->input.block_side_texrot[v_off] >> (2 * bt_face);
}
if (mm->input.overlay) {
int over_face = STBVOX_ROTATE(face, rot.overlay);
unsigned char over = mm->input.overlay[v_off];
@ -1185,7 +1233,11 @@ stbvox_mesh_face stbvox_compute_mesh_face_value(stbvox_mesh_maker *mm, stbvox_ro
if (rep3)
face_data.color = rep3;
}
if (face <= STBVOX_FACE_south)
facerot = mm->input.overlay_side_texrot[over] >> (2*over_face);
}
if (mm->input.tex2_for_tex1)
face_data.tex2 = mm->input.tex2_for_tex1[face_data.tex1];
if (mm->input.tex2)
@ -1195,19 +1247,22 @@ stbvox_mesh_face stbvox_compute_mesh_face_value(stbvox_mesh_maker *mm, stbvox_ro
if (mm->input.tex2_facemask[v_off] & (1 << tex2_face))
face_data.tex2 = mm->input.tex2_replace[v_off];
}
color_face = STBVOX_ROTATE(face, rot.ecolor);
if (mm->input.extended_color) {
unsigned char ec = mm->input.extended_color[v_off];
if (mm->input.ecolor_facemask[ec] & (1 << color_face))
face_data.color = mm->input.ecolor_color[ec];
}
if (mm->input.color2) {
if (mm->input.color2_facemask[v_off] & (1 << color_face))
face_data.color = mm->input.color2[v_off];
if (mm->input.color3 && (mm->input.color3_facemask[v_off] & (1 << color_face)))
face_data.color = mm->input.color3[v_off];
}
face_data.face_info = (normal<<2) + rot.facerot;
face_data.face_info = (normal<<2) + facerot;
return face_data;
}
@ -1309,8 +1364,9 @@ void stbvox_make_mesh_for_face(stbvox_mesh_maker *mm, stbvox_rotate rot, int fac
if (mm->input.lighting_at_vertices) {
int i;
for (i=0; i < 4; ++i) {
*mv[i] = vertbase + face_coord[i];
+ stbvox_vertex_encode(0,0,0,mm->input.lighting[v_off + mm->cube_vertex_offset[face][i]] & 63,0);
*mv[i] = vertbase + face_coord[i]
+ stbvox_vertex_encode(0,0,0,mm->input.lighting[v_off + mm->cube_vertex_offset[face][i]] & 63,0)
+ p1[i];
}
} else {
unsigned char *amb = &mm->input.lighting[v_off];
@ -1330,7 +1386,8 @@ void stbvox_make_mesh_for_face(stbvox_mesh_maker *mm, stbvox_rotate rot, int fac
for (j=0; j < 4; ++j)
total += STBVOX_GET_LIGHTING(vamb[mm->vertex_gather_offset[face][j]]);
*mv[i] = vertbase + face_coord[i]
+ stbvox_vertex_encode(0,0,0,(total+STBVOX_LIGHTING_ROUNDOFF)>>4,0);
+ stbvox_vertex_encode(0,0,0,(total+STBVOX_LIGHTING_ROUNDOFF)>>4,0)
+ p1[i];
// >> 4 is because:
// >> 2 to divide by 4 to get average over 4 samples
// >> 2 because input is 8 bits, output is 6 bits
@ -2143,9 +2200,9 @@ void stbvox_get_transform(stbvox_mesh_maker *mm, float transform[3][3])
transform[1][1] = (float) (mm->pos_y);
transform[1][2] = (float) (mm->pos_z);
// texture coordinate projection translation
transform[2][0] = (float) (mm->pos_x & 63); // @TODO depends on max texture scale
transform[2][1] = (float) (mm->pos_y & 63);
transform[2][2] = (float) (mm->pos_z & 63);
transform[2][0] = (float) (mm->pos_x & 255); // @TODO depends on max texture scale
transform[2][1] = (float) (mm->pos_y & 255);
transform[2][2] = (float) (mm->pos_z & 255);
}
void stbvox_get_bounds(stbvox_mesh_maker *mm, float bounds[2][3])

45
tests/caveview/cave_mesher.c
View File

@ -21,8 +21,10 @@
#define STBVOX_CONFIG_PREFER_TEXBUFFER
//#define STBVOX_CONFIG_LIGHTING_SIMPLE
#define STBVOX_CONFIG_FOG_SMOOTHSTEP
//#define STBVOX_CONFIG_PREMULTIPLIED_ALPHA // use this even though it doesn't really work for alpha test without next #define
//#define STBVOX_CONFIG_UNPREMULTIPLY // slower, makes windows & fancy leaves look better
//#define STBVOX_CONFIG_PREMULTIPLIED_ALPHA // this doesn't work properly alpha test without next #define
//#define STBVOX_CONFIG_UNPREMULTIPLY // slower, fixes alpha test makes windows & fancy leaves look better
//#define STBVOX_CONFIG_TEX1_EDGE_CLAMP
#define STBVOX_CONFIG_DISABLE_TEX2
#define STBVOX_ROTATION_IN_LIGHTING
#define STB_VOXEL_RENDER_IMPLEMENTATION
@ -300,7 +302,6 @@ unsigned char minecraft_info[256][7] =
unsigned char minecraft_tex1_for_blocktype[256][6];
unsigned char effective_blocktype[256];
unsigned char effective_block_add[256];
unsigned char minecraft_color_for_blocktype[256][6];
unsigned char minecraft_geom_for_blocktype[256];
@ -703,26 +704,21 @@ unsigned char mc_rot[4] = { 1,3,2,0 };
// in lighting
void build_stair_rotations(int blocktype, unsigned char *map)
{
int i,j,k;
for (j=0; j < 2; ++j) {
int geom = j ? STBVOX_GEOM_ceil_slope_north_is_bottom : STBVOX_GEOM_floor_slope_north_is_top;
//int geom = STBVOX_GEOM_solid;
for (i=0; i < 4; ++i) {
if (i == 0 && j == 0) {
map[j*4+i+8] = map[j*4+i] = blocktype;
minecraft_geom_for_blocktype[blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(geom, 0, 0);
} else {
map[j*4+i+8] = map[j*4+i] = next_blocktype;
int i;
for (k=0; k < 6; ++k) {
minecraft_color_for_blocktype[next_blocktype][k] = minecraft_color_for_blocktype[blocktype][k];
minecraft_tex1_for_blocktype [next_blocktype][k] = minecraft_tex1_for_blocktype [blocktype][k];
}
minecraft_geom_for_blocktype[next_blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(geom, 0, 0);
--next_blocktype;
}
}
// use the existing block type for floor stairs; allocate a new type for ceil stairs
for (i=0; i < 6; ++i) {
minecraft_color_for_blocktype[next_blocktype][i] = minecraft_color_for_blocktype[blocktype][i];
minecraft_tex1_for_blocktype [next_blocktype][i] = minecraft_tex1_for_blocktype [blocktype][i];
}
minecraft_geom_for_blocktype[next_blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(STBVOX_GEOM_ceil_slope_north_is_bottom, 0, 0);
minecraft_geom_for_blocktype[ blocktype] = (unsigned char) STBVOX_MAKE_GEOMETRY(STBVOX_GEOM_floor_slope_north_is_top, 0, 0);
for (i=0; i < 4; ++i) {
map[0+i+8] = map[0+i] = blocktype;
map[4+i+8] = map[4+i] = next_blocktype;
}
--next_blocktype;
}
void build_wool_variations(int bt, unsigned char *map)
@ -847,11 +843,4 @@ void mesh_init(void)
// set the remap flags for these so they write the rotation values
remap_in_place(54, 9);
remap_in_place(146, 10);
for (i=0; i < 256; ++i) {
if (remap[i])
effective_block_add[i] = 0;
else
effective_block_add[i] = effective_blocktype[i];
}
}

24
tests/caveview/cave_render.c
View File

@ -18,6 +18,7 @@
#include <math.h>
#include <assert.h>
//#define STBVOX_CONFIG_TEX1_EDGE_CLAMP
// currently no dynamic way to set mesh cache size or view distance
@ -182,6 +183,7 @@ static void upload_mesh_data(raw_mesh *rm)
GLint uniform_loc[16];
float table3[128][3];
float table4[64][4];
GLint tablei[2];
float step=0;
@ -238,9 +240,9 @@ void setup_uniforms(float pos[3])
// ambient direction is sky-colored upwards
// "ambient" lighting is from above
table3[0][0] = 0.3f;
table3[0][1] = -0.5f;
table3[0][2] = 0.9f;
table4[0][0] = 0.3f;
table4[0][1] = -0.5f;
table4[0][2] = 0.9f;
amb[1][0] = 0.3f; amb[1][1] = 0.3f; amb[1][2] = 0.3f; // dark-grey
amb[2][0] = 1.0; amb[2][1] = 1.0; amb[2][2] = 1.0; // white
@ -252,16 +254,16 @@ void setup_uniforms(float pos[3])
// amb[1] + (amb[2] - amb[1]) * dot/2 + (amb[2]-amb[1])/2
for (j=0; j < 3; ++j) {
table3[1][j] = (amb[2][j] - amb[1][j])/2 * bright;
table3[2][j] = (amb[1][j] + amb[2][j])/2 * bright;
table4[1][j] = (amb[2][j] - amb[1][j])/2 * bright;
table4[2][j] = (amb[1][j] + amb[2][j])/2 * bright;
}
// fog color
table3[3][0] = 0.6f, table3[3][1] = 0.7f, table3[3][2] = 0.9f;
// fog distance
//table3[3][3] = 1200;
table4[3][0] = 0.6f, table4[3][1] = 0.7f, table4[3][2] = 0.9f;
table4[3][3] = 1.0f / 1320.0f;
table4[3][3] *= table4[3][3];
data = table3;
data = table4;
break;
}
}
@ -407,6 +409,10 @@ void render_init(void)
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_MAX_ANISOTROPY_EXT, 16);
#ifdef STBVOX_CONFIG_TEX1_EDGE_CLAMP
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameteri(GL_TEXTURE_2D_ARRAY_EXT, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
#endif
glGenerateMipmapEXT(GL_TEXTURE_2D_ARRAY_EXT);