bgfx/examples/46-fsr/fs_fsr_forward.sc
Бранимир Караџић 4581f14cd4 Happy New Year!
2022-01-15 11:59:06 -08:00

80 lines
2.2 KiB
Scala

$input v_normal, v_texcoord0, v_texcoord1, v_texcoord2
/*
* Copyright 2021 elven cache. All rights reserved.
* License: https://github.com/bkaradzic/bgfx/blob/master/LICENSE
*/
#include "../common/common.sh"
SAMPLER2D(s_albedo, 0);
SAMPLER2D(s_normal, 1);
// struct ModelUniforms
uniform vec4 u_modelParams[2];
#define u_color (u_modelParams[0].xyz)
#define u_lightPosition (u_modelParams[1].xyz)
// http://www.thetenthplanet.de/archives/1180
// "followup: normal mapping without precomputed tangents"
mat3 cotangentFrame(vec3 N, vec3 p, vec2 uv)
{
// get edge vectors of the pixel triangle
vec3 dp1 = dFdx(p);
vec3 dp2 = dFdy(p);
vec2 duv1 = dFdx(uv);
vec2 duv2 = dFdy(uv);
// solve the linear system
vec3 dp2perp = cross(dp2, N);
vec3 dp1perp = cross(N, dp1);
vec3 T = dp2perp * duv1.x + dp1perp * duv2.x;
vec3 B = dp2perp * duv1.y + dp1perp * duv2.y;
// construct a scale-invariant frame
float invMax = inversesqrt(max(dot(T,T), dot(B,B)));
return mat3(T*invMax, B*invMax, N);
}
void main()
{
vec3 albedo = toLinear(texture2D(s_albedo, v_texcoord0).xyz);
// get vertex normal
vec3 normal = normalize(v_normal);
// get normal map normal, unpack, and calculate z
vec3 normalMap;
normalMap.xy = texture2D(s_normal, v_texcoord0).xy;
normalMap.xy = normalMap.xy * 2.0 - 1.0;
normalMap.z = sqrt(1.0 - dot(normalMap.xy, normalMap.xy));
// swap x and y, because the brick texture looks flipped, don't copy this...
normalMap.xy = -normalMap.yx;
// perturb geometry normal by normal map
vec3 pos = v_texcoord1.xyz; // contains world space pos
mat3 TBN = cotangentFrame(normal, pos, v_texcoord0);
vec3 bumpedNormal = normalize(instMul(TBN, normalMap));
vec3 light = (u_lightPosition - pos);
light = normalize(light);
float NdotL = saturate(dot(bumpedNormal, light));
float diffuse = NdotL * 1.0;
vec3 V = v_texcoord2.xyz; // contains view vector
vec3 H = normalize(V+light);
float NdotH = saturate(dot(bumpedNormal, H));
float specular = 5.0 * pow(NdotH, 256);
float ambient = 0.1;
float lightAmount = ambient + diffuse;
vec3 color = u_color * albedo * lightAmount + specular;
// leave color in linear space for better dof filter result
gl_FragColor = vec4(color, 1.0);
}