#version 150 core in vec2 ioFragTexCoords; out vec3 outColor; uniform sampler2D uPositions; uniform sampler2D uNormals; uniform sampler2D uNoise; uniform float uRadius; uniform float uBias; uniform int uSampleCount; uniform vec3 uSamples[64]; uniform mat4 uProjection; void main() { vec2 noise_scale = textureSize(uPositions, 0) / 2.0; vec3 position = texture(uPositions, ioFragTexCoords).xyz; vec3 normal = normalize(texture(uNormals, ioFragTexCoords)).rgb; vec3 random_vector = normalize(texture(uNoise, ioFragTexCoords * noise_scale).xyz); vec3 tangent = normalize(random_vector - normal * dot(random_vector, normal)); vec3 bitangent = cross(normal, tangent); mat3 TBN = mat3 (tangent, bitangent, normal); float occlusion = 0.0; for (int i = 0; i < uSampleCount; ++i) { vec3 sample = TBN * uSamples[i]; sample = position + sample * uRadius; vec4 offset = vec4(sample, 1.0); offset = uProjection * offset; offset.xyz /= offset.w; offset.xyz = offset.xyz * 0.5 + 0.5; float sample_depth = texture(uPositions, offset.xy).z; float range_check = smoothstep(0.0, 1.0, uRadius / abs(position.z - sample_depth)); occlusion += (sample_depth >= sample.z + uBias ? 1.0 : 0.0) * range_check; } occlusion = 1.0 - (occlusion / uSampleCount); outColor = vec3(occlusion); }