mirror of
https://github.com/nzp-team/fteqw.git
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f3ae58608b
don't archive csprogs when it's getting saved into demos anyway. bound bones when using a model with less bones than the relative skeletal object. mute(dprint) xinput restarts. git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5205 fc73d0e0-1445-4013-8a0c-d673dee63da5
287 lines
7.2 KiB
GLSL
287 lines
7.2 KiB
GLSL
!!ver 100 150
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!!permu TESS
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!!permu FULLBRIGHT
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!!permu UPPERLOWER
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!!permu FRAMEBLEND
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!!permu SKELETAL
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!!permu FOG
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!!permu BUMP
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!!permu REFLECTCUBEMASK
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!!cvarf r_glsl_offsetmapping_scale
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!!cvarf gl_specular
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!!cvardf gl_affinemodels=0
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!!cvardf r_tessellation_level=5
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!!samps diffuse normalmap specular fullbright upper lower paletted reflectmask reflectcube
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#include "sys/defs.h"
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//standard shader used for models.
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//must support skeletal and 2-way vertex blending or Bad Things Will Happen.
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//the vertex shader is responsible for calculating lighting values.
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#if gl_affinemodels==1 && __VERSION__ >= 130
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#define affine noperspective
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#else
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#define affine
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#endif
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#ifdef VERTEX_SHADER
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#include "sys/skeletal.h"
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affine varying vec2 tc;
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varying vec3 light;
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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varying vec3 eyevector;
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#endif
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#ifdef REFLECTCUBEMASK
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varying mat3 invsurface;
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#endif
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#ifdef TESS
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varying vec3 vertex;
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varying vec3 normal;
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#endif
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void main ()
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{
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#if defined(SPECULAR)||defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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vec3 n, s, t, w;
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gl_Position = skeletaltransform_wnst(w,n,s,t);
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vec3 eyeminusvertex = e_eyepos - w.xyz;
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eyevector.x = dot(eyeminusvertex, s.xyz);
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eyevector.y = dot(eyeminusvertex, t.xyz);
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eyevector.z = dot(eyeminusvertex, n.xyz);
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#else
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vec3 n, s, t, w;
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gl_Position = skeletaltransform_wnst(w,n,s,t);
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#endif
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#ifdef REFLECTCUBEMASK
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invsurface[0] = s;
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invsurface[1] = t;
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invsurface[2] = n;
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#endif
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tc = v_texcoord;
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float d = dot(n,e_light_dir);
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if (d < 0.0) //vertex shader. this might get ugly, but I don't really want to make it per vertex.
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d = 0.0; //this avoids the dark side going below the ambient level.
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light = e_light_ambient + (d*e_light_mul);
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//FIXME: Software rendering imitation should possibly push out normals by half a pixel or something to approximate software's over-estimation of distant model sizes (small models are drawn using JUST their verticies using the nearest pixel, which results in larger meshes)
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#ifdef TESS
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normal = n;
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vertex = w;
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#endif
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}
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#endif
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#if defined(TESS_CONTROL_SHADER)
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layout(vertices = 3) out;
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in vec3 vertex[];
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out vec3 t_vertex[];
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in vec3 normal[];
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out vec3 t_normal[];
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affine in vec2 tc[];
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affine out vec2 t_tc[];
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in vec3 light[];
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out vec3 t_light[];
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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in vec3 eyevector[];
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out vec3 t_eyevector[];
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#endif
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#ifdef REFLECTCUBEMASK
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in mat3 invsurface[];
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out mat3 t_invsurface[];
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#endif
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void main()
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{
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//the control shader needs to pass stuff through
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#define id gl_InvocationID
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t_vertex[id] = vertex[id];
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t_normal[id] = normal[id];
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t_tc[id] = tc[id];
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t_light[id] = light[id];
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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t_eyevector[id] = eyevector[id];
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#endif
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#ifdef REFLECTCUBEMASK
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t_invsurface[id][0] = invsurface[id][0];
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t_invsurface[id][1] = invsurface[id][1];
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t_invsurface[id][2] = invsurface[id][2];
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#endif
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gl_TessLevelOuter[0] = float(r_tessellation_level);
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gl_TessLevelOuter[1] = float(r_tessellation_level);
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gl_TessLevelOuter[2] = float(r_tessellation_level);
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gl_TessLevelInner[0] = float(r_tessellation_level);
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}
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#endif
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#if defined(TESS_EVALUATION_SHADER)
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layout(triangles) in;
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in vec3 t_vertex[];
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in vec3 t_normal[];
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affine in vec2 t_tc[];
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affine out vec2 tc;
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in vec3 t_light[];
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out vec3 light;
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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in vec3 t_eyevector[];
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out vec3 eyevector;
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#endif
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#ifdef REFLECTCUBEMASK
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in mat3 t_invsurface[];
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out mat3 invsurface;
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#endif
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#define LERP(a) (gl_TessCoord.x*a[0] + gl_TessCoord.y*a[1] + gl_TessCoord.z*a[2])
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void main()
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{
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#define factor 1.0
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tc = LERP(t_tc);
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vec3 w = LERP(t_vertex);
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vec3 t0 = w - dot(w-t_vertex[0],t_normal[0])*t_normal[0];
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vec3 t1 = w - dot(w-t_vertex[1],t_normal[1])*t_normal[1];
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vec3 t2 = w - dot(w-t_vertex[2],t_normal[2])*t_normal[2];
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w = w*(1.0-factor) + factor*(gl_TessCoord.x*t0+gl_TessCoord.y*t1+gl_TessCoord.z*t2);
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//FIXME: we should be recalcing these here, instead of just lerping them
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light = LERP(t_light);
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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eyevector = LERP(t_eyevector);
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#endif
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#ifdef REFLECTCUBEMASK
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invsurface[0] = LERP(t_invsurface[0]);
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invsurface[1] = LERP(t_invsurface[1]);
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invsurface[2] = LERP(t_invsurface[2]);
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#endif
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gl_Position = m_modelviewprojection * vec4(w,1.0);
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}
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#endif
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#ifdef FRAGMENT_SHADER
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#include "sys/fog.h"
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#if defined(SPECULAR)
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uniform float cvar_gl_specular;
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#endif
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#ifdef OFFSETMAPPING
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#include "sys/offsetmapping.h"
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#endif
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#ifdef EIGHTBIT
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#define s_colourmap s_t0
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uniform sampler2D s_colourmap;
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#endif
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affine varying vec2 tc;
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varying vec3 light;
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#if defined(SPECULAR) || defined(OFFSETMAPPING) || defined(REFLECTCUBEMASK)
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varying vec3 eyevector;
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#endif
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#ifdef REFLECTCUBEMASK
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varying mat3 invsurface;
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#endif
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void main ()
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{
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vec4 col, sp;
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#ifdef OFFSETMAPPING
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vec2 tcoffsetmap = offsetmap(s_normalmap, tc, eyevector);
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#define tc tcoffsetmap
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#endif
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#ifdef EIGHTBIT
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vec3 lightlev = light;
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//FIXME: with this extra flag, half the permutations are redundant.
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lightlev *= 0.5; //counter the fact that the colourmap contains overbright values and logically ranges from 0 to 2 intead of to 1.
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float pal = texture2D(s_paletted, tc).r; //the palette index. hopefully not interpolated.
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// lightlev -= 1.0 / 128.0; //software rendering appears to round down, so make sure we favour the lower values instead of rounding to the nearest
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col.r = texture2D(s_colourmap, vec2(pal, 1.0-lightlev.r)).r; //do 3 lookups. this is to cope with lit files, would be a waste to not support those.
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col.g = texture2D(s_colourmap, vec2(pal, 1.0-lightlev.g)).g; //its not very softwarey, but re-palettizing is ugly.
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col.b = texture2D(s_colourmap, vec2(pal, 1.0-lightlev.b)).b; //without lits, it should be identical.
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col.a = (pal<1.0)?1.0:0.0;
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#else
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col = texture2D(s_diffuse, tc);
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#ifdef UPPER
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vec4 uc = texture2D(s_upper, tc);
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col.rgb += uc.rgb*e_uppercolour*uc.a;
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#endif
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#ifdef LOWER
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vec4 lc = texture2D(s_lower, tc);
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col.rgb += lc.rgb*e_lowercolour*lc.a;
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#endif
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#if defined(BUMP) && defined(SPECULAR)
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vec3 bumps = normalize(vec3(texture2D(s_normalmap, tc)) - 0.5);
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vec4 specs = texture2D(s_specular, tc);
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vec3 halfdir = normalize(normalize(eyevector) + vec3(0.0, 0.0, 1.0));
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float spec = pow(max(dot(halfdir, bumps), 0.0), FTE_SPECULAR_EXPONENT * specs.a);
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col.rgb += FTE_SPECULAR_MULTIPLIER * spec * specs.rgb;
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#elif defined(REFLECTCUBEMASK)
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vec3 bumps = vec3(0, 0, 1);
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#endif
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#ifdef REFLECTCUBEMASK
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vec3 rtc = reflect(-eyevector, bumps);
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rtc = rtc.x*invsurface[0] + rtc.y*invsurface[1] + rtc.z*invsurface[2];
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rtc = (m_model * vec4(rtc.xyz,0.0)).xyz;
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col.rgb += texture2D(s_reflectmask, tc).rgb * textureCube(s_reflectcube, rtc).rgb;
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#endif
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col.rgb *= light;
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#ifdef FULLBRIGHT
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vec4 fb = texture2D(s_fullbright, tc);
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// col.rgb = mix(col.rgb, fb.rgb, fb.a);
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col.rgb += fb.rgb * fb.a * e_glowmod.rgb;
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#endif
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#endif
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gl_FragColor = fog4(col * e_colourident);
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}
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#endif
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