townforge/GameData/Shaders/GLSL/Runestone.glsl
Crypto City 04f467def6 runestones
Currently only a player written message
2020-11-22 15:27:07 +00:00

254 lines
8.5 KiB
GLSL

#include "Uniforms.glsl"
#include "Samplers.glsl"
#include "Transform.glsl"
#include "ScreenPos.glsl"
#include "Lighting.glsl"
#include "Fog.glsl"
#ifdef NORMALMAP
varying vec4 vTexCoord;
varying vec4 vTangent;
#else
varying vec2 vTexCoord;
#endif
varying vec3 vNormal;
varying vec4 vWorldPos;
#ifdef VERTEXCOLOR
varying vec4 vColor;
#endif
#ifdef PERPIXEL
#ifdef SHADOW
#ifndef GL_ES
varying vec4 vShadowPos[NUMCASCADES];
#else
varying highp vec4 vShadowPos[NUMCASCADES];
#endif
#endif
#ifdef SPOTLIGHT
varying vec4 vSpotPos;
#endif
#ifdef POINTLIGHT
varying vec3 vCubeMaskVec;
#endif
#else
varying vec3 vVertexLight;
varying vec4 vScreenPos;
#ifdef ENVCUBEMAP
varying vec3 vReflectionVec;
#endif
#if defined(LIGHTMAP) || defined(AO)
varying vec2 vTexCoord2;
#endif
#endif
uniform sampler2D sStoneMap0;
uniform sampler2D sRuneMap1;
uniform vec4 cRuneColor;
uniform float cRuneRepeat;
void VS()
{
mat4 modelMatrix = iModelMatrix;
vec3 worldPos = GetWorldPos(modelMatrix);
gl_Position = GetClipPos(worldPos);
vNormal = GetWorldNormal(modelMatrix);
vWorldPos = vec4(worldPos, GetDepth(gl_Position));
#ifdef VERTEXCOLOR
vColor = iColor;
#endif
#ifdef NORMALMAP
vec4 tangent = GetWorldTangent(modelMatrix);
vec3 bitangent = cross(tangent.xyz, vNormal) * tangent.w;
vTexCoord = vec4(GetTexCoord(iTexCoord), bitangent.xy);
vTangent = vec4(tangent.xyz, bitangent.z);
#else
vTexCoord = GetTexCoord(iTexCoord);
#endif
#ifdef PERPIXEL
// Per-pixel forward lighting
vec4 projWorldPos = vec4(worldPos, 1.0);
#ifdef SHADOW
// Shadow projection: transform from world space to shadow space
for (int i = 0; i < NUMCASCADES; i++)
vShadowPos[i] = GetShadowPos(i, vNormal, projWorldPos);
#endif
#ifdef SPOTLIGHT
// Spotlight projection: transform from world space to projector texture coordinates
vSpotPos = projWorldPos * cLightMatrices[0];
#endif
#ifdef POINTLIGHT
vCubeMaskVec = (worldPos - cLightPos.xyz) * mat3(cLightMatrices[0][0].xyz, cLightMatrices[0][1].xyz, cLightMatrices[0][2].xyz);
#endif
#else
// Ambient & per-vertex lighting
#if defined(LIGHTMAP) || defined(AO)
// If using lightmap, disregard zone ambient light
// If using AO, calculate ambient in the PS
vVertexLight = vec3(0.0, 0.0, 0.0);
vTexCoord2 = iTexCoord1;
#else
vVertexLight = GetAmbient(GetZonePos(worldPos));
#endif
#ifdef NUMVERTEXLIGHTS
for (int i = 0; i < NUMVERTEXLIGHTS; ++i)
vVertexLight += GetVertexLight(i, worldPos, vNormal) * cVertexLights[i * 3].rgb;
#endif
vScreenPos = GetScreenPos(gl_Position);
#ifdef ENVCUBEMAP
vReflectionVec = worldPos - cCameraPos;
#endif
#endif
}
void PS()
{
// Get material diffuse albedo
#ifdef DIFFMAP
vec4 diffInput = texture2D(sStoneMap0, vTexCoord.xy);
#ifdef ALPHAMASK
if (diffInput.a < 0.5)
discard;
#endif
vec4 diffColor = cMatDiffColor * diffInput;
#else
vec4 diffColor = cMatDiffColor;
#endif
vec4 runeInput = texture2D(sRuneMap1, vTexCoord.xy * cRuneRepeat);
diffColor = diffColor * (1.0 - runeInput.a) + cRuneColor * runeInput.a;
#ifdef VERTEXCOLOR
diffColor *= vColor;
#endif
// Get material specular albedo
#ifdef SPECMAP
vec3 specColor = cMatSpecColor.rgb * texture2D(sSpecMap, vTexCoord.xy).rgb;
#else
vec3 specColor = cMatSpecColor.rgb;
#endif
// Get normal
#ifdef NORMALMAP
mat3 tbn = mat3(vTangent.xyz, vec3(vTexCoord.zw, vTangent.w), vNormal);
vec3 normal = normalize(tbn * DecodeNormal(texture2D(sNormalMap, vTexCoord.xy)));
#else
vec3 normal = normalize(vNormal);
#endif
// Get fog factor
#ifdef HEIGHTFOG
float fogFactor = GetHeightFogFactor(vWorldPos.w, vWorldPos.y);
#else
float fogFactor = GetFogFactor(vWorldPos.w);
#endif
#if defined(PERPIXEL)
// Per-pixel forward lighting
vec3 lightColor;
vec3 lightDir;
vec3 finalColor;
float diff = GetDiffuse(normal, vWorldPos.xyz, lightDir);
#ifdef SHADOW
diff *= GetShadow(vShadowPos, vWorldPos.w);
#endif
#if defined(SPOTLIGHT)
lightColor = vSpotPos.w > 0.0 ? texture2DProj(sLightSpotMap, vSpotPos).rgb * cLightColor.rgb : vec3(0.0, 0.0, 0.0);
#elif defined(CUBEMASK)
lightColor = textureCube(sLightCubeMap, vCubeMaskVec).rgb * cLightColor.rgb;
#else
lightColor = cLightColor.rgb;
#endif
#ifdef SPECULAR
float spec = GetSpecular(normal, cCameraPosPS - vWorldPos.xyz, lightDir, cMatSpecColor.a);
finalColor = diff * lightColor * (diffColor.rgb + spec * specColor * cLightColor.a);
#else
finalColor = diff * lightColor * diffColor.rgb;
#endif
#ifdef AMBIENT
finalColor += cAmbientColor.rgb * diffColor.rgb;
finalColor += cMatEmissiveColor;
gl_FragColor = vec4(GetFog(finalColor, fogFactor), diffColor.a);
#else
gl_FragColor = vec4(GetLitFog(finalColor, fogFactor), diffColor.a);
#endif
#elif defined(PREPASS)
// Fill light pre-pass G-Buffer
float specPower = cMatSpecColor.a / 255.0;
gl_FragData[0] = vec4(normal * 0.5 + 0.5, specPower);
gl_FragData[1] = vec4(EncodeDepth(vWorldPos.w), 0.0);
#elif defined(DEFERRED)
// Fill deferred G-buffer
float specIntensity = specColor.g;
float specPower = cMatSpecColor.a / 255.0;
vec3 finalColor = vVertexLight * diffColor.rgb;
#ifdef AO
// If using AO, the vertex light ambient is black, calculate occluded ambient here
finalColor += texture2D(sEmissiveMap, vTexCoord2).rgb * cAmbientColor.rgb * diffColor.rgb;
#endif
#ifdef ENVCUBEMAP
finalColor += cMatEnvMapColor * textureCube(sEnvCubeMap, reflect(vReflectionVec, normal)).rgb;
#endif
#ifdef LIGHTMAP
finalColor += texture2D(sEmissiveMap, vTexCoord2).rgb * diffColor.rgb;
#endif
#ifdef EMISSIVEMAP
finalColor += cMatEmissiveColor * texture2D(sEmissiveMap, vTexCoord.xy).rgb;
#else
finalColor += cMatEmissiveColor;
#endif
gl_FragData[0] = vec4(GetFog(finalColor, fogFactor), 1.0);
gl_FragData[1] = fogFactor * vec4(diffColor.rgb, specIntensity);
gl_FragData[2] = vec4(normal * 0.5 + 0.5, specPower);
gl_FragData[3] = vec4(EncodeDepth(vWorldPos.w), 0.0);
#else
// Ambient & per-vertex lighting
vec3 finalColor = vVertexLight * diffColor.rgb;
#ifdef AO
// If using AO, the vertex light ambient is black, calculate occluded ambient here
finalColor += texture2D(sEmissiveMap, vTexCoord2).rgb * cAmbientColor.rgb * diffColor.rgb;
#endif
#ifdef MATERIAL
// Add light pre-pass accumulation result
// Lights are accumulated at half intensity. Bring back to full intensity now
vec4 lightInput = 2.0 * texture2DProj(sLightBuffer, vScreenPos);
vec3 lightSpecColor = lightInput.a * lightInput.rgb / max(GetIntensity(lightInput.rgb), 0.001);
finalColor += lightInput.rgb * diffColor.rgb + lightSpecColor * specColor;
#endif
#ifdef ENVCUBEMAP
finalColor += cMatEnvMapColor * textureCube(sEnvCubeMap, reflect(vReflectionVec, normal)).rgb;
#endif
#ifdef LIGHTMAP
finalColor += texture2D(sEmissiveMap, vTexCoord2).rgb * diffColor.rgb;
#endif
#ifdef EMISSIVEMAP
finalColor += cMatEmissiveColor * texture2D(sEmissiveMap, vTexCoord.xy).rgb;
#else
finalColor += cMatEmissiveColor;
#endif
gl_FragColor = vec4(GetFog(finalColor, fogFactor), diffColor.a);
#endif
}