public VertexOutput VS(VertexInput input)
{
VertexOutput output;
if (MeshConstants.SkinningEnabled == 1)
{
GetSkinnedVertexData(ref input, SkinningBuffer[input.BoneIndex]);
}
VSSkinnedInstanced(
input,
out output.Position,
out output.WorldPosition,
out output.WorldNormal,
out output.CloudUV,
RenderItemConstantsVS.World,
GlobalConstantsVS.ViewProjection,
Global_LightingConstantsVS.CloudShadowMatrix,
GlobalConstantsShared.TimeInSeconds);
output.UV0 = input.UV0;
output.UV1 = input.UV1;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.SystemPosition = Mul(World, new Vector4(input.Position, -1, 1));
return(output);
}
public PixelInput VS(VertexInput input)
{
PixelInput output;
Vector4 worldPosition = Mul(World, new Vector4(input.Position, 1));
Vector4 viewPosition = Mul(View, worldPosition);
output.Position = Mul(Projection, viewPosition);
output.Position_WorldSpace = worldPosition.XYZ();
Vector4 outNormal = Mul(InverseTransposeWorld, new Vector4(input.Normal, 1));
output.Normal = Vector3.Normalize(outNormal.XYZ());
output.TexCoord = input.TexCoord;
output.LightPosition1 = Mul(World, new Vector4(input.Position, 1));
output.LightPosition1 = Mul(LightViewProjection1, output.LightPosition1);
output.LightPosition2 = Mul(World, new Vector4(input.Position, 1));
output.LightPosition2 = Mul(LightViewProjection2, output.LightPosition2);
output.LightPosition3 = Mul(World, new Vector4(input.Position, 1));
output.LightPosition3 = Mul(LightViewProjection3, output.LightPosition3);
output.FragDepth = output.Position.Z;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = Mul(ViewProjection, Mul(World, new Vector4(input.Position, 1)));
return(output);
}
public static void VSSkinnedInstanced(
VertexInput input,
out Vector4 position,
out Vector3 worldPosition,
out Vector3 worldNormal,
out Vector2 cloudUV,
Matrix4x4 world,
Matrix4x4 viewProjection,
Matrix4x4 cloudShadowMatrix,
float timeInSeconds)
{
VSSkinnedInstancedPositionOnly(
input,
out position,
out worldPosition,
world,
viewProjection);
worldNormal = TransformNormal(input.Normal, world);
cloudUV = CloudHelpers.GetCloudUV(
worldPosition,
cloudShadowMatrix,
timeInSeconds);
}
public static void GetSkinnedVertexData(
ref VertexInput input,
Matrix4x4 skinning)
{
input.Position = Vector3.Transform(input.Position, skinning);
input.Normal = TransformNormal(input.Normal, skinning);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
Vector4 worldPosition = Mul(Model, new Vector4(input.Position, 1));
Vector4 viewPosition = Mul(View, worldPosition);
Vector4 clipPosition = Mul(Projection, viewPosition);
output.SystemPosition = clipPosition;
output.Color = input.Color;
// don't need normal matrix if only uniform scalings
// http://www.lighthouse3d.com/tutorials/glsl-12-tutorial/the-normal-matrix/
Vector4 normalModelSpace = Mul(Model, new Vector4(input.Normal, 0.0f));
output.Normal = normalModelSpace.XYZ();
output.LightVec = new Vector4(DirectionalLight.Direction, 1.0f);
Vector4 worldPositionLight = worldPosition;
Vector4 lightClip = Mul(DirectionalLight.ShadowMatrix, worldPositionLight);
output.LightCoord = lightClip;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = new Vector4(input.Position, 1);
return(output);
}
/// <summary>
/// Constructor
/// </summary>
public CentralizedProgressChannel(Stage <Runtime.Progress.ProgressUpdateCentralizer, Pointstamp> consumer,
StageOutput <Int64, Pointstamp> stream, StageInput <Int64, Pointstamp> recvPort,
InternalController controller,
int channelId)
{
this.consumer = consumer;
this.sendBundle = stream; // producer.Output;
this.recvBundle = recvPort; // consumer.Input;
this.postboxes = new Dictionary <int, Fiber>();
this.channelID = channelId;
// Get the shard id and process id of the single consumer
var consumerShardId = consumer.Placement.Single().VertexId;
var consumerProcessId = consumer.Placement.Single().ProcessId;
var graphManager = sendBundle.ForStage.InternalGraphManager;
if (debug)
{
Console.Error.WriteLine(" IncastChannel create ProcessId = {0}", graphManager.Controller.Configuration.ProcessID);
}
var myProcessId = graphManager.Controller.Configuration.ProcessID;
if (myProcessId == consumerProcessId)
{
if (debug)
{
Console.Error.WriteLine(" IncastChannel creating receive mailbox");
}
VertexInput <Int64, Pointstamp> recvFiber = this.recvBundle.GetPin(consumerProcessId);
this.mailbox = new Mailbox(recvFiber.Vertex.Scheduler.State(graphManager).PostOffice,
consumer.GetShard(consumerShardId), this.channelID, consumerShardId);
recvFiber.Vertex.Scheduler.State(graphManager).PostOffice.RegisterMailbox(this.mailbox);
if (controller.NetworkChannel != null)
{
controller.NetworkChannel.RegisterMailbox(this.mailbox);
}
}
foreach (VertexLocation loc in sendBundle.ForStage.Placement)
{
if (loc.ProcessId == sendBundle.ForStage.InternalGraphManager.Controller.Configuration.ProcessID)
{
if (debug)
{
Console.Error.WriteLine(" IncastChannel loc = {0}/{1}/{2}", loc.ProcessId, loc.VertexId, loc.ThreadId);
}
var postbox = new Fiber(this.channelID, loc.VertexId, this.sendBundle.GetFiber(loc.VertexId),
this.mailbox, controller, consumerShardId, consumerProcessId);
this.postboxes[loc.VertexId] = postbox;
}
}
Logging.Info("Allocated incast channel [{0}]: {1} -> {2}", this.channelID, sendBundle, recvBundle);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = Mul(ViewProjection, Mul(WorldAndInverse.World, new Vector4(input.Position, 1)));
output.Position.Y += input.TexCoord.Y * .0001f;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = new Vector4(input.Position, 0, 1);
output.TextureCoordinates = input.TextureCoordinates;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = new Vector4(input.Position.X, input.Position.Y, 0, 1);
output.TexCoords = input.TexCoords;
return(output);
}
FragmentInput VertexShaderFunc(VertexInput input)
{
FragmentInput output;
output.Position = new Vector4(input.Position, 1);
output.Color = input.Color;
return(output);
}
public PixelInput VertexFunc(VertexInput input)
{
return(new PixelInput()
{
Position = Mul(input.Position, cbObject.Wvp),
UV = input.UV,
});
}
public LocalMailbox(PostOffice postOffice, VertexInput <S, T> endpoint, int id, int shardId)
{
this.postOffice = postOffice;
this.dirty = false;
this.endpoint = endpoint;
this.id = id;
this.shardId = shardId;
this.graphId = endpoint.Vertex.Stage.InternalGraphManager.Index;
}
public LocalMailbox(PostOffice postOffice, VertexInput <S, T> endpoint, int id, int vertexId)
{
this.postOffice = postOffice;
this.dirty = false;
this.endpoint = endpoint;
this.id = id;
this.vertexId = vertexId;
this.graphId = endpoint.Vertex.Stage.InternalComputation.Index;
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.UV = input.TexCoords;
output.frColor = input.Color;
output.SystemPosition = Mul(World, new Vector4(input.Position, -1, 1));
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Position = ShaderBuiltins.Mul(Wvp, new Vector4(input.Position, 1));
output.Color = input.Color;
output.TextureCoordinates = input.TextureCoordinates;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.SystemPosition = new Vector4(input.Position.X, input.Position.Y, 0, 1);
output.Color = input.Color;
return(output);
}
public static MeshStressResult GenerateMeshResult(VertexInput beamVertex, List <VertexStressResult> vertexResults)
{
return(new MeshStressResult
{
BarId = beamVertex.BarId,
MeshId = beamVertex.MeshId,
VertexResults = vertexResults,
});
}
public PixelInput VS(VertexInput input)
{
PixelInput output;
output.Position = Vector4.Transform(new Vector4(input.Position, 1), Projection);
output.UV = input.UV;
output.Color = input.Color;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
Vector4 worldPosition = Mul(Model, new Vector4(input.Position, 1));
Vector4 viewPosition = Mul(View, worldPosition);
Vector4 clipPosition = Mul(Projection, viewPosition);
output.SystemPosition = clipPosition;
return(output);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
Vector4 modelViewPosition = Mul(ModelView, new Vector4(input.Position, 1));
output.SystemPosition = Mul(Projection, modelViewPosition);
output.Color = input.Color;
//output.SystemPosition = output.SystemPosition / 4;
return(output);
}
public LegacyLocalMailbox(PostOffice postOffice, VertexInput <S, T> endpoint, int id, int shardId)
: base(postOffice, endpoint, id, shardId)
{
this.sharedQueue = new ConcurrentQueue <Message <Pair <S, T> > >();
this.sharedSerializedQueue = new ConcurrentQueue <SerializedMessage>();
this.privateQueue = new Queue <Message <Pair <S, T> > >();
this.messagesFromLocalShards = new Message <Pair <S, T> > [this.postOffice.Controller.Workers.Count];
for (int i = 0; i < this.postOffice.Controller.Workers.Count; ++i)
{
this.messagesFromLocalShards[i] = new Message <Pair <S, T> >(ThreadLocalBufferPools <Pair <S, T> > .pool.Value.Empty);
}
}
public static void VSSkinnedInstancedPositionOnly(
VertexInput input,
out Vector4 position,
out Vector3 worldPosition,
Matrix4x4 world,
Matrix4x4 viewProjection)
{
var worldPositionHomogeneous = Vector4.Transform(input.Position, world);
position = Vector4.Transform(worldPositionHomogeneous, viewProjection);
worldPosition = worldPositionHomogeneous.XYZ();
}
public FragmentInput VS(VertexInput input)
{
SN.Vector4 worldPos = SMath.Mul(World, new SN.Vector4(input.Position, 1));
SN.Vector4 worldNorm = SMath.Mul(World, new SN.Vector4(input.Normal, 0));
FragmentInput output;
output.SystemPosition = SMath.Mul(WorldViewProjection, new SN.Vector4(input.Position, 1));
output.PositionWS = new SN.Vector3(worldPos.X, worldPos.Y, worldPos.Z);
output.NormalWS = new SN.Vector3(worldNorm.X, worldNorm.Y, worldNorm.Z);
output.TexCoords = input.TexCoords;
return(output);
}
/// <summary>
/// Constructor
/// </summary>
public CentralizedProgressChannel(Stage <ProgressUpdateCentralizer, Empty> consumer,
StageOutput <Update, Empty> stream, StageInput <Update, Empty> recvPort,
InternalController controller,
int channelId)
{
this.consumer = consumer;
this.sendBundle = stream; // producer.Output;
this.recvBundle = recvPort; // consumer.Input;
this.postboxes = new Dictionary <int, Fiber>();
this.channelID = channelId;
// Get the vertex id and process id of the single consumer
var consumerVertexId = consumer.Placement.Single().VertexId;
var consumerProcessId = consumer.Placement.Single().ProcessId;
var computation = sendBundle.ForStage.InternalComputation;
var myProcessId = computation.Controller.Configuration.ProcessID;
if (myProcessId == consumerProcessId)
{
VertexInput <Update, Empty> recvFiber = this.recvBundle.GetPin(consumerProcessId);
this.mailbox = new Mailbox(recvFiber.Vertex.Scheduler.State(computation).PostOffice,
consumer.GetVertex(consumerVertexId), this.channelID, consumerVertexId);
//recvFiber.Vertex.Scheduler.State(computation).PostOffice.RegisterMailbox(this.mailbox);
if (controller.NetworkChannel != null)
{
controller.NetworkChannel.RegisterMailbox(this.mailbox);
}
}
foreach (VertexLocation loc in sendBundle.ForStage.Placement)
{
if (loc.ProcessId == sendBundle.ForStage.InternalComputation.Controller.Configuration.ProcessID)
{
var postbox = new Fiber(this.channelID, loc.VertexId, this.sendBundle.GetFiber(loc.VertexId),
this.mailbox, controller, consumerVertexId, consumerProcessId);
this.postboxes[loc.VertexId] = postbox;
}
}
Logging.Info("Allocated CentralizedProgressChannel [{0}]: {1} -> {2}", this.channelID, sendBundle, recvBundle);
NaiadTracing.Trace.ChannelInfo(ChannelId, SourceStage.StageId, DestinationStage.StageId, true, true);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
Vector4 p = ShaderBuiltins.Mul(XformView, new Vector4(input.Position, 1));
Vector4 n = ShaderBuiltins.Mul(XformView, new Vector4(input.Normal, 0));
output.RelativePosition = p.XYZ();
output.RelativeNormal = ShaderBuiltins.Sqrt(n.XYZ());
output.Projected = ShaderBuiltins.Mul(XformProj, p);
output.Color = input.Color;
return(output);
}
public LegacyLocalMailbox(PostOffice postOffice, VertexInput <S, T> endpoint, int id, int vertexId)
: base(postOffice, endpoint, id, vertexId)
{
this.sharedQueue = new ConcurrentQueue <Message <S, T> >();
this.sharedSerializedQueue = new ConcurrentQueue <SerializedMessage>();
this.privateQueue = new Queue <Message <S, T> >();
this.messagesFromLocalVertices = new Message <S, T> [this.postOffice.Controller.Workers.Count];
for (int i = 0; i < this.postOffice.Controller.Workers.Count; ++i)
{
this.messagesFromLocalVertices[i] = new Message <S, T>();
}
this.decoder = new AutoSerializedMessageDecoder <S, T>(endpoint.Vertex.SerializationFormat);
}
public FragmentInput VS(VertexInput input)
{
FragmentInput output;
output.Color = input.Color;
output.Position = Vector4.Transform(
Vector4.Transform(
Vector4.Transform(
new Vector4(input.Position.X, input.Position.Y, 0.0f, 1f),
Model),
View),
Projection);
return(output);
}
