forked from Mirrorlandia_minetest/minetest
31578303a4
* Pass perspective distortion parameters as uniforms * Set all perspective bias parameters via ShadowRenderer * Recalibrate perspective distortion and shadow range to render less shadow geometry with the same quality and observed shadow distance
230 lines
7.3 KiB
GLSL
230 lines
7.3 KiB
GLSL
uniform mat4 mWorld;
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// Color of the light emitted by the sun.
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uniform vec3 dayLight;
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uniform vec3 eyePosition;
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// The cameraOffset is the current center of the visible world.
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uniform vec3 cameraOffset;
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uniform float animationTimer;
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varying vec3 vNormal;
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varying vec3 vPosition;
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// World position in the visible world (i.e. relative to the cameraOffset.)
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// This can be used for many shader effects without loss of precision.
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// If the absolute position is required it can be calculated with
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// cameraOffset + worldPosition (for large coordinates the limits of float
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// precision must be considered).
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varying vec3 worldPosition;
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varying lowp vec4 varColor;
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// The centroid keyword ensures that after interpolation the texture coordinates
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// lie within the same bounds when MSAA is en- and disabled.
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// This fixes the stripes problem with nearest-neighbour textures and MSAA.
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#ifdef GL_ES
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varying mediump vec2 varTexCoord;
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#else
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centroid varying vec2 varTexCoord;
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#endif
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#ifdef ENABLE_DYNAMIC_SHADOWS
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// shadow uniforms
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uniform vec3 v_LightDirection;
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uniform float f_textureresolution;
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uniform mat4 m_ShadowViewProj;
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uniform float f_shadowfar;
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uniform float f_shadow_strength;
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uniform float f_timeofday;
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varying float cosLight;
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varying float normalOffsetScale;
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varying float adj_shadow_strength;
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varying float f_normal_length;
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#endif
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varying vec3 eyeVec;
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varying float nightRatio;
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// Color of the light emitted by the light sources.
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const vec3 artificialLight = vec3(1.04, 1.04, 1.04);
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const float e = 2.718281828459;
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const float BS = 10.0;
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uniform float xyPerspectiveBias0;
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uniform float xyPerspectiveBias1;
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#ifdef ENABLE_DYNAMIC_SHADOWS
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// custom smoothstep implementation because it's not defined in glsl1.2
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// https://docs.gl/sl4/smoothstep
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float mtsmoothstep(in float edge0, in float edge1, in float x)
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{
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float t = clamp((x - edge0) / (edge1 - edge0), 0.0, 1.0);
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return t * t * (3.0 - 2.0 * t);
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}
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#endif
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float smoothCurve(float x)
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{
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return x * x * (3.0 - 2.0 * x);
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}
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float triangleWave(float x)
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{
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return abs(fract(x + 0.5) * 2.0 - 1.0);
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}
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float smoothTriangleWave(float x)
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{
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return smoothCurve(triangleWave(x)) * 2.0 - 1.0;
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}
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// OpenGL < 4.3 does not support continued preprocessor lines
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#if (MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_TRANSPARENT || MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_OPAQUE || MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_BASIC) && ENABLE_WAVING_WATER
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//
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// Simple, fast noise function.
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// See: https://gist.github.com/patriciogonzalezvivo/670c22f3966e662d2f83
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//
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vec4 perm(vec4 x)
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{
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return mod(((x * 34.0) + 1.0) * x, 289.0);
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}
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float snoise(vec3 p)
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{
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vec3 a = floor(p);
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vec3 d = p - a;
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d = d * d * (3.0 - 2.0 * d);
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vec4 b = a.xxyy + vec4(0.0, 1.0, 0.0, 1.0);
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vec4 k1 = perm(b.xyxy);
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vec4 k2 = perm(k1.xyxy + b.zzww);
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vec4 c = k2 + a.zzzz;
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vec4 k3 = perm(c);
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vec4 k4 = perm(c + 1.0);
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vec4 o1 = fract(k3 * (1.0 / 41.0));
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vec4 o2 = fract(k4 * (1.0 / 41.0));
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vec4 o3 = o2 * d.z + o1 * (1.0 - d.z);
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vec2 o4 = o3.yw * d.x + o3.xz * (1.0 - d.x);
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return o4.y * d.y + o4.x * (1.0 - d.y);
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}
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#endif
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void main(void)
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{
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varTexCoord = inTexCoord0.st;
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float disp_x;
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float disp_z;
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// OpenGL < 4.3 does not support continued preprocessor lines
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#if (MATERIAL_TYPE == TILE_MATERIAL_WAVING_LEAVES && ENABLE_WAVING_LEAVES) || (MATERIAL_TYPE == TILE_MATERIAL_WAVING_PLANTS && ENABLE_WAVING_PLANTS)
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vec4 pos2 = mWorld * inVertexPosition;
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float tOffset = (pos2.x + pos2.y) * 0.001 + pos2.z * 0.002;
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disp_x = (smoothTriangleWave(animationTimer * 23.0 + tOffset) +
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smoothTriangleWave(animationTimer * 11.0 + tOffset)) * 0.4;
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disp_z = (smoothTriangleWave(animationTimer * 31.0 + tOffset) +
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smoothTriangleWave(animationTimer * 29.0 + tOffset) +
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smoothTriangleWave(animationTimer * 13.0 + tOffset)) * 0.5;
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#endif
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worldPosition = (mWorld * inVertexPosition).xyz;
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// OpenGL < 4.3 does not support continued preprocessor lines
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#if (MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_TRANSPARENT || MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_OPAQUE || MATERIAL_TYPE == TILE_MATERIAL_WAVING_LIQUID_BASIC) && ENABLE_WAVING_WATER
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// Generate waves with Perlin-type noise.
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// The constants are calibrated such that they roughly
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// correspond to the old sine waves.
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vec4 pos = inVertexPosition;
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vec3 wavePos = worldPosition + cameraOffset;
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// The waves are slightly compressed along the z-axis to get
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// wave-fronts along the x-axis.
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wavePos.x /= WATER_WAVE_LENGTH * 3.0;
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wavePos.z /= WATER_WAVE_LENGTH * 2.0;
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wavePos.z += animationTimer * WATER_WAVE_SPEED * 10.0;
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pos.y += (snoise(wavePos) - 1.0) * WATER_WAVE_HEIGHT * 5.0;
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gl_Position = mWorldViewProj * pos;
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#elif MATERIAL_TYPE == TILE_MATERIAL_WAVING_LEAVES && ENABLE_WAVING_LEAVES
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vec4 pos = inVertexPosition;
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pos.x += disp_x;
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pos.y += disp_z * 0.1;
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pos.z += disp_z;
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gl_Position = mWorldViewProj * pos;
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#elif MATERIAL_TYPE == TILE_MATERIAL_WAVING_PLANTS && ENABLE_WAVING_PLANTS
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vec4 pos = inVertexPosition;
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if (varTexCoord.y < 0.05) {
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pos.x += disp_x;
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pos.z += disp_z;
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}
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gl_Position = mWorldViewProj * pos;
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#else
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gl_Position = mWorldViewProj * inVertexPosition;
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#endif
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vPosition = gl_Position.xyz;
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eyeVec = -(mWorldView * inVertexPosition).xyz;
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vNormal = inVertexNormal;
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// Calculate color.
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// Red, green and blue components are pre-multiplied with
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// the brightness, so now we have to multiply these
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// colors with the color of the incoming light.
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// The pre-baked colors are halved to prevent overflow.
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#ifdef GL_ES
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vec4 color = inVertexColor.bgra;
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#else
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vec4 color = inVertexColor;
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#endif
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// The alpha gives the ratio of sunlight in the incoming light.
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nightRatio = 1.0 - color.a;
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color.rgb = color.rgb * (color.a * dayLight.rgb +
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nightRatio * artificialLight.rgb) * 2.0;
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color.a = 1.0;
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// Emphase blue a bit in darker places
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// See C++ implementation in mapblock_mesh.cpp final_color_blend()
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float brightness = (color.r + color.g + color.b) / 3.0;
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color.b += max(0.0, 0.021 - abs(0.2 * brightness - 0.021) +
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0.07 * brightness);
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varColor = clamp(color, 0.0, 1.0);
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#ifdef ENABLE_DYNAMIC_SHADOWS
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if (f_shadow_strength > 0.0) {
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vec3 nNormal = normalize(vNormal);
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cosLight = dot(nNormal, -v_LightDirection);
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// Calculate normal offset scale based on the texel size adjusted for
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// curvature of the SM texture. This code must be change together with
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// getPerspectiveFactor or any light-space transformation.
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vec3 eyeToVertex = worldPosition - eyePosition + cameraOffset;
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// Distance from the vertex to the player
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float distanceToPlayer = length(eyeToVertex - v_LightDirection * dot(eyeToVertex, v_LightDirection)) / f_shadowfar;
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// perspective factor estimation according to the
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float perspectiveFactor = distanceToPlayer * xyPerspectiveBias0 + xyPerspectiveBias1;
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float texelSize = f_shadowfar * perspectiveFactor * perspectiveFactor /
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(f_textureresolution * xyPerspectiveBias1 - perspectiveFactor * xyPerspectiveBias0);
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float slopeScale = clamp(pow(1.0 - cosLight*cosLight, 0.5), 0.0, 1.0);
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normalOffsetScale = texelSize * slopeScale;
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if (f_timeofday < 0.2) {
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adj_shadow_strength = f_shadow_strength * 0.5 *
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(1.0 - mtsmoothstep(0.18, 0.2, f_timeofday));
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} else if (f_timeofday >= 0.8) {
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adj_shadow_strength = f_shadow_strength * 0.5 *
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mtsmoothstep(0.8, 0.83, f_timeofday);
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} else {
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adj_shadow_strength = f_shadow_strength *
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mtsmoothstep(0.20, 0.25, f_timeofday) *
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(1.0 - mtsmoothstep(0.7, 0.8, f_timeofday));
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}
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f_normal_length = length(vNormal);
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}
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#endif
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}
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