#include "shared/point.hlsl" #include "shared/quat-functions.hlsl" static const float3 Corners[] = { float3(0, -1, 0), float3(1, -1, 0), float3(1, 1, 0), float3(1, 1, 0), float3(0, 1, 0), float3(0, -1, 0), }; cbuffer Params : register(b0) { float4 Color; float Size; float ShrinkWithDistance; float OffsetU; float UvScale; float FadeTooLong; }; cbuffer Params : register(b1) { int UvMode; int WidthFX; int UseWForU; int UseWForWidth; }; cbuffer Transforms : register(b2) { float4x4 CameraToClipSpace; float4x4 ClipSpaceToCamera; float4x4 WorldToCamera; float4x4 CameraToWorld; float4x4 WorldToClipSpace; float4x4 ClipSpaceToWorld; float4x4 ObjectToWorld; float4x4 WorldToObject; float4x4 ObjectToCamera; float4x4 ObjectToClipSpace; }; cbuffer FogParams : register(b3) { float4 FogColor; float FogDistance; float FogBias; } struct psInput { float4 position : SV_POSITION; float4 color : COLOR; float2 texCoord : TEXCOORD; float fog : FOG; }; sampler texSampler : register(s0); StructuredBuffer Points : t0; Texture2D texture2 : register(t1); psInput vsMain(uint id : SV_VertexID) { psInput output; float discardFactor = 1; uint SegmentCount, Stride; Points.GetDimensions(SegmentCount, Stride); float4 aspect = float4(CameraToClipSpace[1][1] / CameraToClipSpace[0][0], 1, 1, 1); int quadIndex = id % 6; uint particleId = id / 6; float3 cornerFactors = Corners[quadIndex]; Point pointAA = Points[particleId < 1 ? 0 : particleId - 1]; Point pointA = Points[particleId]; Point pointB = Points[particleId + 1]; Point pointBB = Points[particleId > SegmentCount - 2 ? SegmentCount - 2 : particleId + 2]; float3 pointAPos = pointA.Position; float3 pointBPos = pointB.Position; float len = length(pointAPos - pointBPos); float fade = smoothstep(2 * FadeTooLong, FadeTooLong, len); if (fade < 0.001) discardFactor = 0; float f = cornerFactors.x; float3 posInObject = f < 0.5 ? pointAPos : pointBPos; float4 aaInScreen = mul(float4(pointAA.Position, 1), ObjectToClipSpace) * aspect; aaInScreen /= aaInScreen.w; float4 aInScreen = mul(float4(pointA.Position, 1), ObjectToClipSpace) * aspect; if (aInScreen.z < -0) discardFactor = 0; aInScreen /= aInScreen.w; float4 bInScreen = mul(float4(pointB.Position, 1), ObjectToClipSpace) * aspect; if (bInScreen.z < -0) discardFactor = 0; bInScreen /= bInScreen.w; float4 bbInScreen = mul(float4(pointBB.Position, 1), ObjectToClipSpace) * aspect; bbInScreen /= bbInScreen.w; float3 direction = (aInScreen - bInScreen).xyz; float3 directionA = particleId > 0 ? (aaInScreen - aInScreen).xyz : direction; float3 directionB = particleId < SegmentCount - 1 ? (bInScreen - bbInScreen).xyz : direction; float3 normal = normalize(cross(direction, float3(0, 0, 1))); float3 normalA = normalize(cross(directionA, float3(0, 0, 1))); float3 normalB = normalize(cross(directionB, float3(0, 0, 1))); if (isnan(pointAA.Scale.x) || isinf(pointAA.Scale.x)) { normalA = normal; } if (isnan(pointBB.Scale.x) || isinf(pointBB.Scale.x)) { normalB = normal; } float3 neighboarNormal = lerp(normalA, normalB, f); float3 meterNormal = (normal + neighboarNormal) / 2; float4 pos = lerp(aInScreen, bInScreen, f); float4 posInCamSpace = mul(float4(posInObject, 1), ObjectToCamera); posInCamSpace.xyz /= posInCamSpace.w; posInCamSpace.w = 1; float pFx1 = lerp(pointA.FX1, pointB.FX1, f); float pFx2 = lerp(pointA.FX2, pointB.FX2, f); float texFxFactor = WidthFX == 0 ? 1 : ((WidthFX == 1) ? pFx1 : pFx2); float u = f; switch (UvMode) { case 0: u = (particleId + f) / SegmentCount; break; case 1: u = pFx1; break; case 2: u = pFx2; break; } output.texCoord = float2(u * UvScale + OffsetU, cornerFactors.y / 2 + 0.5); float widthAtPoint = lerp(pointA.Scale.x, pointB.Scale.x, f); float widthFxFactor = WidthFX == 0 ? 1 : ((WidthFX == 1) ? pFx1 : pFx2); float thickness = Size * discardFactor * lerp(1, 1 / (posInCamSpace.z), ShrinkWithDistance) * widthFxFactor; thickness *= widthAtPoint; // UseWForWidth < 0 ? lerp(1, 1-widthAtPoint, -UseWForWidth) //: lerp(1, widthAtPoint, UseWForWidth) ; float miter = dot(-meterNormal, normal); pos += cornerFactors.y * 0.1 * thickness * float4(meterNormal, 0) / clamp(miter, -1, -0.01); output.position = pos / aspect; float3 n = f < 0.5 ? cross(pointA.Position - pointAA.Position, pointA.Position - pointB.Position) : cross(pointB.Position - pointA.Position, pointB.Position - pointBB.Position); n = normalize(n); output.fog = pow(saturate(-posInCamSpace.z / FogDistance), FogBias); output.color = Color * lerp(pointA.Color, pointB.Color, cornerFactors.x); output.color.a *= fade; return output; } float4 psMain(psInput input) : SV_TARGET { float4 imgColor = texture2.Sample(texSampler, input.texCoord); float dFromLineCenter = abs(input.texCoord.y - 0.5) * 2; float4 col = input.color * imgColor; col.rgb = lerp(col.rgb, FogColor.rgb, input.fog); return clamp(col, float4(0, 0, 0, 0), float4(1000, 1000, 1000, 1)); }