protected override VFXExpression[] BuildExpression(VFXExpression[] inputExpression) { VFXExpression[] output = new VFXExpression[] { VFXBuiltInExpression.TotalTime + (VFXBuiltInExpression.DeltaTime * VFXOperatorUtility.FixedRandom(0xc43388e9, VFXSeedMode.PerParticle)), }; return(output); }
protected override sealed VFXExpression[] BuildExpression(VFXExpression[] inputExpression) { VFXExpression rand = null; if (seed == VFXSeedMode.PerParticleStrip || constant) { rand = VFXOperatorUtility.FixedRandom(inputExpression[2], seed); } else { rand = new VFXExpressionRandom(seed == VFXSeedMode.PerParticle); } return(new[] { VFXOperatorUtility.Lerp(inputExpression[0], inputExpression[1], rand) }); }
protected sealed override VFXExpression[] BuildExpression(VFXExpression[] inputExpression) { VFXExpression rand = null; if (m_IntegratedRandom) { if (m_Constant) { rand = VFXOperatorUtility.FixedRandom(inputExpression.Last(), m_Seed); } else { rand = new VFXExpressionRandom(m_Seed == VFXSeedMode.PerParticle, new RandId(this)); } } else { rand = inputExpression.Last(); } var expressionCountPerUniqueSlot = this.expressionCountPerUniqueSlot; var stride = expressionCountPerUniqueSlot + 1; var prefixedProbablities = new VFXExpression[m_EntryCount]; int offsetProbabilities = 0; prefixedProbablities[0] = inputExpression[offsetProbabilities]; for (uint i = 1; i < m_EntryCount; i++) { offsetProbabilities += stride; prefixedProbablities[i] = prefixedProbablities[i - 1] + inputExpression[offsetProbabilities]; } rand = rand * prefixedProbablities.Last(); var compare = new VFXExpression[m_EntryCount - 1]; for (int i = 0; i < m_EntryCount - 1; i++) { compare[i] = new VFXExpressionCondition(VFXValueType.Float, VFXCondition.GreaterOrEqual, prefixedProbablities[i], rand); } ; var startValueIndex = Enumerable.Range(0, (int)m_EntryCount).Select(o => o * stride + 1).ToArray(); return(ChainedBranchResult(compare, inputExpression, startValueIndex)); }
protected override VFXExpression[] BuildExpression(VFXExpression[] inputExpression) { // Offset to compensate for the numerous custom camera generated expressions _customCameraOffset = 0; // Get the extra number of expressions if a custom camera input is used if (camera == CameraMode.Custom) { _customCameraOffset = GetInputSlot(0).children.Count() - 1; } // List to gather all output expressions as their number can vary List <VFXExpression> outputs = new List <VFXExpression>(); // Camera expressions var expressions = Block.CameraHelper.AddCameraExpressions(GetExpressionsFromSlots(this), camera); Block.CameraMatricesExpressions camMatrices = Block.CameraHelper.GetMatricesExpressions(expressions); var Camera_depthBuffer = expressions.First(e => e.name == "Camera_depthBuffer").exp; var CamPixDim = expressions.First(e => e.name == "Camera_pixelDimensions").exp; // Set uvs VFXExpression uv = VFXValue.Constant <Vector2>(); // Determine how the particles are spawned on the screen switch (mode) { case PositionMode.Random: // Random UVs uv = new VFXExpressionCombine(VFXOperatorUtility.FixedRandom(0, VFXSeedMode.PerParticle), VFXOperatorUtility.FixedRandom(1, VFXSeedMode.PerParticle)); break; case PositionMode.Sequential: // Pixel perfect spawn VFXExpression gridStep = inputExpression[inputSlots.IndexOf(inputSlots.First(o => o.name == "GridStep")) + _customCameraOffset]; VFXExpression sSizeX = new VFXExpressionCastFloatToUint(CamPixDim.x / new VFXExpressionCastUintToFloat(gridStep)); VFXExpression sSizeY = new VFXExpressionCastFloatToUint(CamPixDim.y / new VFXExpressionCastUintToFloat(gridStep)); VFXExpression nbPixels = sSizeX * sSizeY; VFXExpression particleID = new VFXAttributeExpression(VFXAttribute.ParticleId); VFXExpression id = VFXOperatorUtility.Modulo(particleID, nbPixels); VFXExpression shift = new VFXExpressionBitwiseRightShift(gridStep, VFXValue.Constant <uint>(1)); VFXExpression U = VFXOperatorUtility.Modulo(id, sSizeX) * gridStep + shift; VFXExpression V = id / sSizeX * gridStep + shift; VFXExpression ids = new VFXExpressionCombine(new VFXExpressionCastUintToFloat(U), new VFXExpressionCastUintToFloat(V)); uv = new VFXExpressionDivide(ids + VFXOperatorUtility.CastFloat(VFXValue.Constant(0.5f), VFXValueType.Float2), CamPixDim); break; case PositionMode.Custom: // Custom UVs uv = inputExpression[inputSlots.IndexOf(inputSlots.FirstOrDefault(o => o.name == "UVSpawn")) + _customCameraOffset]; break; } VFXExpression projpos = uv * VFXValue.Constant <Vector2>(new Vector2(2f, 2f)) - VFXValue.Constant <Vector2>(Vector2.one); VFXExpression uvs = new VFXExpressionCombine(uv.x * CamPixDim.x, uv.y * CamPixDim.y, VFXValue.Constant(0f), VFXValue.Constant(0f)); // Get depth VFXExpression depth = new VFXExpressionExtractComponent(new VFXExpressionLoadTexture2DArray(Camera_depthBuffer, uvs), 0); if (SystemInfo.usesReversedZBuffer) { depth = VFXOperatorUtility.OneExpression[depth.valueType] - depth; } VFXExpression isAlive = VFXValue.Constant(true); // Determine how the particles are culled switch (cullMode) { case CullMode.None: // do nothing break; case CullMode.Range: VFXExpression depthRange = inputExpression[inputSlots.IndexOf(inputSlots.LastOrDefault(o => o.name == "DepthRange")) + _customCameraOffset]; VFXExpression nearRangeCheck = new VFXExpressionCondition(VFXCondition.Less, depth, depthRange.x); VFXExpression farRangeCheck = new VFXExpressionCondition(VFXCondition.Greater, depth, depthRange.y); VFXExpression logicOr = new VFXExpressionLogicalOr(nearRangeCheck, farRangeCheck); isAlive = new VFXExpressionBranch(logicOr, VFXValue.Constant(false), VFXValue.Constant(true)); break; case CullMode.FarPlane: VFXExpression farPlaneCheck = new VFXExpressionCondition(VFXCondition.GreaterOrEqual, depth, VFXValue.Constant(1f) - VFXValue.Constant(Mathf.Epsilon)); isAlive = new VFXExpressionBranch(farPlaneCheck, VFXValue.Constant(false), VFXValue.Constant(true)); break; } VFXExpression zMultiplier = inputExpression[inputSlots.IndexOf(inputSlots.First(o => o.name == "ZMultiplier")) + _customCameraOffset]; VFXExpression clipPos = new VFXExpressionCombine(projpos.x, projpos.y, depth * zMultiplier * VFXValue.Constant(2f) - VFXValue.Constant(1f), VFXValue.Constant(1f) ); VFXExpression clipToVFX = new VFXExpressionTransformMatrix(camMatrices.ViewToVFX.exp, camMatrices.ClipToView.exp); VFXExpression vfxPos = new VFXExpressionTransformVector4(clipToVFX, clipPos); VFXExpression position = new VFXExpressionCombine(vfxPos.x, vfxPos.y, vfxPos.z) / VFXOperatorUtility.CastFloat(vfxPos.w, VFXValueType.Float3); VFXExpression color = VFXValue.Constant <Vector4>(); // Assigning the color output to the corresponding color buffer value if (inheritSceneColor) { VFXExpression Camera_colorBuffer = expressions.First(e => e.name == "Camera_colorBuffer").exp; VFXExpression tempColor = new VFXExpressionLoadTexture2DArray(Camera_colorBuffer, uvs); color = new VFXExpressionCombine(tempColor.x, tempColor.y, tempColor.z, VFXValue.Constant(1.0f)); } // Add expressions in the right output order outputs.Add(position); if (inheritSceneColor) { outputs.Add(color); } if (cullMode != CullMode.None) { outputs.Add(isAlive); } return(outputs.ToArray()); }