| #import "Common/ShaderLib/MultiSample.glsllib" | |
| uniform COLORTEXTURE m_Texture; | |
| uniform DEPTHTEXTURE m_DepthTexture; | |
| uniform sampler2D m_NormalsTexture; | |
| uniform vec2 g_Resolution; | |
| uniform vec4 m_EdgeColor; | |
| uniform float m_EdgeWidth; | |
| uniform float m_EdgeIntensity; | |
| uniform float m_NormalThreshold; | |
| uniform float m_DepthThreshold; | |
| uniform float m_NormalSensitivity; | |
| uniform float m_DepthSensitivity; | |
| in vec2 texCoord; | |
| out vec4 outFragColor; | |
| vec4 fetchNormalDepth(vec2 tc){ | |
| vec4 nd; | |
| nd.xyz = texture2D(m_NormalsTexture, tc).rgb; | |
| nd.w = fetchTextureSample(m_DepthTexture, tc,0).r; | |
| return nd; | |
| } | |
| void main(){ | |
| vec3 color = getColor(m_Texture, texCoord).rgb; | |
| vec2 edgeOffset = vec2(m_EdgeWidth) / textureSize(m_NormalsTexture, 0); | |
| vec4 n1 = fetchNormalDepth(texCoord + vec2(-1.0, -1.0) * edgeOffset); | |
| vec4 n2 = fetchNormalDepth(texCoord + vec2( 1.0, 1.0) * edgeOffset); | |
| vec4 n3 = fetchNormalDepth(texCoord + vec2(-1.0, 1.0) * edgeOffset); | |
| vec4 n4 = fetchNormalDepth(texCoord + vec2( 1.0, -1.0) * edgeOffset); | |
| // Work out how much the normal and depth values are changing. | |
| vec4 diagonalDelta = abs(n1 - n2) + abs(n3 - n4); | |
| float normalDelta = dot(diagonalDelta.xyz, vec3(1.0)); | |
| float depthDelta = diagonalDelta.w; | |
| // Filter out very small changes, in order to produce nice clean results. | |
| normalDelta = clamp((normalDelta - m_NormalThreshold) * m_NormalSensitivity, 0.0, 1.0); | |
| depthDelta = clamp((depthDelta - m_DepthThreshold) * m_DepthSensitivity, 0.0, 1.0); | |
| // Does this pixel lie on an edge? | |
| float edgeAmount = clamp(normalDelta + depthDelta, 0.0, 1.0) * m_EdgeIntensity; | |
| // Apply the edge detection result to the main scene color. | |
| //color *= (1.0 - edgeAmount); | |
| color = mix (color,m_EdgeColor.rgb,edgeAmount); | |
| outFragColor = vec4(color, 1.0); | |
| } |