mathe/Library/PackageCache/com.unity.shadergraph@14.0.8/Editor/Data/Util/SpaceTransformUtil.cs

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2024-09-20 20:30:10 +02:00
// using System;
using System.Collections.Generic;
using UnityEditor.ShaderGraph.Internal;
namespace UnityEditor.ShaderGraph
{
enum ConversionType
{
Position,
Direction,
Normal
}
internal struct SpaceTransform
{
public CoordinateSpace from;
public CoordinateSpace to;
public ConversionType type;
public bool normalize;
public int version;
public const int kLatestVersion = 2;
public SpaceTransform(CoordinateSpace from, CoordinateSpace to, ConversionType type, bool normalize = false, int version = kLatestVersion)
{
this.from = from;
this.to = to;
this.type = type;
this.normalize = normalize;
this.version = version;
}
internal string NormalizeString()
{
return normalize ? "true" : "false";
}
// non-identity transforms involving tangent space require the full tangent frame
public NeededCoordinateSpace RequiresNormal =>
(((from == CoordinateSpace.Tangent) || (to == CoordinateSpace.Tangent)) && (from != to)) ?
NeededCoordinateSpace.World : NeededCoordinateSpace.None;
public NeededCoordinateSpace RequiresTangent =>
(((from == CoordinateSpace.Tangent) || (to == CoordinateSpace.Tangent)) && (from != to)) ?
NeededCoordinateSpace.World : NeededCoordinateSpace.None;
public NeededCoordinateSpace RequiresBitangent =>
(((from == CoordinateSpace.Tangent) || (to == CoordinateSpace.Tangent)) && (from != to)) ?
NeededCoordinateSpace.World : NeededCoordinateSpace.None;
// non-identity position transforms involving tangent space require the world position
public NeededCoordinateSpace RequiresPosition =>
((type == ConversionType.Position) && ((from == CoordinateSpace.Tangent) || (to == CoordinateSpace.Tangent)) && (from != to)) ?
NeededCoordinateSpace.World : NeededCoordinateSpace.None;
public IEnumerable<NeededTransform> RequiresTransform =>
SpaceTransformUtil.ComputeTransformRequirement(this);
};
static class SpaceTransformUtil
{
delegate void TransformFunction(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb);
public static string GenerateTangentTransform(ShaderStringBuilder sb, CoordinateSpace tangentTransformSpace)
{
sb.AddLine("$precision3x3 tangentTransform = $precision3x3(IN.",
tangentTransformSpace.ToString(), "SpaceTangent, IN.",
tangentTransformSpace.ToString(), "SpaceBiTangent, IN.",
tangentTransformSpace.ToString(), "SpaceNormal);");
return "tangentTransform";
}
public static void Identity(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
// identity didn't normalize before version 2
if ((xform.version > 1) && xform.normalize && (xform.type != ConversionType.Position))
sb.AddLine(outputVariable, " = SafeNormalize(", inputValue, ");");
else
sb.AddLine(outputVariable, " = ", inputValue, ";");
}
private static void ViaWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
// should never be calling this if one of the spaces is already world space (silly, and could lead to infinite recursions)
if ((xform.from == CoordinateSpace.World) || (xform.to == CoordinateSpace.World))
return;
// this breaks the transform into two parts: (from->world) and (world->to)
var toWorld = new SpaceTransform()
{
from = xform.from,
to = CoordinateSpace.World,
type = xform.type,
normalize = false,
version = xform.version
};
var fromWorld = new SpaceTransform()
{
from = CoordinateSpace.World,
to = xform.to,
type = xform.type,
normalize = xform.normalize,
version = xform.version
};
// Apply Versioning Hacks to match old (incorrect) versions
if (xform.version <= 1)
{
if (xform.type == ConversionType.Direction)
{
switch (xform.from)
{
case CoordinateSpace.AbsoluteWorld:
if ((xform.to == CoordinateSpace.Object) || (xform.to == CoordinateSpace.View))
{
// these transforms were wrong in v0, but correct in v1, so here we
// pretend it is a later version to disable the v1 versioning in the AbsWorldToWorld transform
if (xform.version == 1)
toWorld.version = 2;
}
break;
case CoordinateSpace.View:
if ((xform.to == CoordinateSpace.Tangent) || (xform.to == CoordinateSpace.AbsoluteWorld))
{
// these transforms erroneously used the position view-to-world transform
toWorld.type = ConversionType.Position;
}
break;
case CoordinateSpace.Tangent:
if ((xform.to == CoordinateSpace.Object) || (xform.to == CoordinateSpace.View) || (xform.to == CoordinateSpace.AbsoluteWorld))
{
// manually version to 2, to remove normalization (while keeping Normal type)
toWorld.type = ConversionType.Normal;
toWorld.version = 2;
}
break;
}
}
}
using (sb.BlockScope())
{
sb.AddLine("// Converting ", xform.type.ToString(), " from ", xform.from.ToString(), " to ", xform.to.ToString(), " via world space");
sb.AddLine("float3 world;");
GenerateTransformCodeStatement(toWorld, inputValue, "world", sb);
GenerateTransformCodeStatement(fromWorld, "world", outputVariable, sb);
}
}
public static void WorldToObject(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformWorldToObject(", inputValue, ");");
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = true;
sb.AddLine(outputVariable, " = TransformWorldToObjectDir(", inputValue, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformWorldToObjectNormal(", inputValue, ", ", xform.NormalizeString(), ");");
break;
}
}
public static void WorldToTangent(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
if (xform.version <= 1)
{
// prior to version 2, all transform were normalized, and all transforms were Normal transforms
xform.normalize = true;
xform.type = ConversionType.Normal;
}
using (sb.BlockScope())
{
string tangentTransform = GenerateTangentTransform(sb, xform.from);
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformWorldToTangentDir(", inputValue, " - IN.WorldSpacePosition, ", tangentTransform, ", false);");
break;
case ConversionType.Direction:
sb.AddLine(outputVariable, " = TransformWorldToTangentDir(", inputValue, ", ", tangentTransform, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformWorldToTangent(", inputValue, ", ", tangentTransform, ", ", xform.NormalizeString(), ");");
break;
}
}
}
public static void WorldToView(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformWorldToView(", inputValue, ");");
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = false;
sb.AddLine(outputVariable, " = TransformWorldToViewDir(", inputValue, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformWorldToViewNormal(", inputValue, ", ", xform.NormalizeString(), ");");
break;
}
}
public static void WorldToAbsoluteWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
// prior to version 2 always used Position transform
if (xform.version <= 1)
xform.type = ConversionType.Position;
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = GetAbsolutePositionWS(", inputValue, ");");
break;
case ConversionType.Direction:
case ConversionType.Normal:
// both normal and direction are unchanged
if (xform.normalize)
sb.AddLine(outputVariable, " = SafeNormalize(", inputValue, ");");
else
sb.AddLine(outputVariable, " = ", inputValue, ";");
break;
}
}
public static void ObjectToWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformObjectToWorld(", inputValue, ");");
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = true;
sb.AddLine(outputVariable, " = TransformObjectToWorldDir(", inputValue, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformObjectToWorldNormal(", inputValue, ", ", xform.NormalizeString(), ");");
break;
}
}
public static void ObjectToAbsoluteWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
ViaWorld(xform, inputValue, outputVariable, sb);
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = true;
sb.AddLine(outputVariable, " = TransformObjectToWorldDir(", inputValue, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformObjectToWorldNormal(", inputValue, ", ", xform.NormalizeString(), ");");
break;
}
}
public static void TangentToWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
// prior to version 2 all transforms were Normal, and directional transforms were normalized
if (xform.version <= 1)
{
if (xform.type != ConversionType.Position)
xform.normalize = true;
xform.type = ConversionType.Normal;
}
using (sb.BlockScope())
{
string tangentTransform = GenerateTangentTransform(sb, CoordinateSpace.World);
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformTangentToWorldDir(", inputValue, ", ", tangentTransform, ", false).xyz + IN.WorldSpacePosition;");
break;
case ConversionType.Direction:
sb.AddLine(outputVariable, " = TransformTangentToWorldDir(", inputValue, ", ", tangentTransform, ", ", xform.NormalizeString(), ").xyz;");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformTangentToWorld(", inputValue, ", ", tangentTransform, ", ", xform.NormalizeString(), ");");
break;
}
}
}
public static void ViewToWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = TransformViewToWorld(", inputValue, ");");
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = false;
sb.AddLine(outputVariable, " = TransformViewToWorldDir(", inputValue, ", ", xform.NormalizeString(), ");");
break;
case ConversionType.Normal:
sb.AddLine(outputVariable, " = TransformViewToWorldNormal(", inputValue, ", ", xform.NormalizeString(), ");");
break;
}
}
public static void AbsoluteWorldToWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
// prior to version 2, always used position transform
if (xform.version <= 1)
xform.type = ConversionType.Position;
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = GetCameraRelativePositionWS(", inputValue, ");");
break;
case ConversionType.Direction:
case ConversionType.Normal:
// both normal and direction are unchanged
if (xform.normalize)
sb.AddLine(outputVariable, " = SafeNormalize(", inputValue, ");");
else
sb.AddLine(outputVariable, " = ", inputValue, ";");
break;
}
}
public static void ObjectToHScreen(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
using (sb.BlockScope())
{
sb.AddLine("$precision4 ", outputVariable, "_value = TransformObjectToHClip(", inputValue, ");");
sb.AddLine("$precision3 ", outputVariable, "_uv = ", outputVariable, "_value.xyz / ", outputVariable, "_value.w;");
sb.AddLine("#if UNITY_UV_STARTS_AT_TOP");
sb.AddLine(outputVariable, "_uv.y = -", outputVariable, "_uv.y;");
sb.AddLine("#endif");
sb.AddLine(outputVariable, "_uv.xy = ", outputVariable, "_uv.xy * 0.5 + 0.5;");
sb.AddLine(outputVariable, " = ", outputVariable, "_uv;");
}
break;
case ConversionType.Direction:
case ConversionType.Normal:
ViaWorld(xform, inputValue, outputVariable, sb);
break;
}
}
public static void ViewToHScreen(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine("$precision4 ", outputVariable, "_value = TransformWViewToHClip(", inputValue, ");");
sb.AddLine("$precision3 ", outputVariable, "_uv = ", outputVariable, "_value.xyz / ", outputVariable, "_value.w;");
sb.AddLine("#if UNITY_UV_STARTS_AT_TOP");
sb.AddLine(outputVariable, "_uv.y = -", outputVariable, "_uv.y;");
sb.AddLine("#endif");
sb.AddLine(outputVariable, "_uv.xy = ", outputVariable, "_uv.xy * 0.5 + 0.5;");
sb.AddLine(outputVariable, " = ", outputVariable, "_uv;");
break;
case ConversionType.Direction:
case ConversionType.Normal:
ViaWorld(xform, inputValue, outputVariable, sb);
break;
}
}
public static void WorldToHScreen(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine("$precision4 ", outputVariable, "_value = TransformWorldToHClip(", inputValue, ");");
break;
case ConversionType.Direction:
if (xform.version <= 1)
xform.normalize = true;
sb.AddLine("$precision4 ", outputVariable, "_value = $precision4(TransformWorldToHClipDir(", inputValue, ", ", xform.NormalizeString(), "), 1.0f);");
break;
case ConversionType.Normal:
sb.AddLine("$precision4 ", outputVariable, "_value = $precision4(TransformWorldToHClipDir(", inputValue, ", ", xform.NormalizeString(), "), 1.0f);");
break;
}
sb.AddLine("$precision3 ", outputVariable, "_uv = ", outputVariable, "_value.xyz / ", outputVariable, "_value.w;");
sb.AddLine("#if UNITY_UV_STARTS_AT_TOP");
sb.AddLine(outputVariable, "_uv.y = -", outputVariable, "_uv.y;");
sb.AddLine("#endif");
sb.AddLine(outputVariable, "_uv.xy = ", outputVariable, "_uv.xy * 0.5 + 0.5;");
sb.AddLine(outputVariable, " = ", outputVariable, "_uv;");
}
public static void HScreenToWorld(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
switch (xform.type)
{
case ConversionType.Position:
sb.AddLine(outputVariable, " = ComputeWorldSpacePosition(", inputValue, ".xy, ", inputValue, ".z, UNITY_MATRIX_I_VP);");
break;
case ConversionType.Direction:
case ConversionType.Normal:
sb.AddLine("$precision4 ", outputVariable, "_CS = ComputeClipSpacePosition(", inputValue, ".xy, ", inputValue, ".z);");
sb.AddLine(outputVariable, " = mul(UNITY_MATRIX_I_VP, $precision4(", outputVariable, "_CS.xyz, 0.0f)).xyz;");
break;
}
}
static readonly TransformFunction[,] k_TransformFunctions = new TransformFunction[6, 6] // [from, to]
{
{ // from CoordinateSpace.Object
Identity, // to CoordinateSpace.Object
ViaWorld, // to CoordinateSpace.View
ObjectToWorld, // to CoordinateSpace.World
ViaWorld, // to CoordinateSpace.Tangent
ObjectToAbsoluteWorld, // to CoordinateSpace.AbsoluteWorld
ObjectToHScreen // to CoordinateSpace.Screen
},
{ // from CoordinateSpace.View
ViaWorld, // to CoordinateSpace.Object
Identity, // to CoordinateSpace.View
ViewToWorld, // to CoordinateSpace.World
ViaWorld, // to CoordinateSpace.Tangent
ViaWorld, // to CoordinateSpace.AbsoluteWorld
ViewToHScreen // to CoordinateSpace.Screen
},
{ // from CoordinateSpace.World
WorldToObject, // to CoordinateSpace.Object
WorldToView, // to CoordinateSpace.View
Identity, // to CoordinateSpace.World
WorldToTangent, // to CoordinateSpace.Tangent
WorldToAbsoluteWorld, // to CoordinateSpace.AbsoluteWorld
WorldToHScreen // to CoordinateSpace.Screen
},
{ // from CoordinateSpace.Tangent
ViaWorld, // to CoordinateSpace.Object
ViaWorld, // to CoordinateSpace.View
TangentToWorld, // to CoordinateSpace.World
Identity, // to CoordinateSpace.Tangent
ViaWorld, // to CoordinateSpace.AbsoluteWorld
ViaWorld // to CoordinateSpace.Screen
},
{ // from CoordinateSpace.AbsoluteWorld
ViaWorld, // to CoordinateSpace.Object
ViaWorld, // to CoordinateSpace.View
AbsoluteWorldToWorld, // to CoordinateSpace.World
ViaWorld, // to CoordinateSpace.Tangent
Identity, // to CoordinateSpace.AbsoluteWorld
ViaWorld // to CoordinateSpace.Screen
},
{ // from CoordinateSpace.Screen
ViaWorld, // to CoordinateSpace.Object
ViaWorld, // to CoordinateSpace.View
HScreenToWorld, // to CoordinateSpace.World
ViaWorld, // to CoordinateSpace.Tangent
ViaWorld, // to CoordinateSpace.AbsoluteWorld
Identity, // to CoordinateSpace.Screen
}
};
internal static IEnumerable<NeededTransform> ComputeTransformRequirement(SpaceTransform xform)
{
var func = k_TransformFunctions[(int)xform.from, (int)xform.to];
if (func == ViaWorld || func == ObjectToAbsoluteWorld)
{
yield return new NeededTransform(xform.from.ToNeededCoordinateSpace(), NeededCoordinateSpace.World);
yield return new NeededTransform(NeededCoordinateSpace.World, xform.to.ToNeededCoordinateSpace());
}
else
{
yield return new NeededTransform(xform.from.ToNeededCoordinateSpace(), xform.to.ToNeededCoordinateSpace());
}
}
public static void GenerateTransformCodeStatement(SpaceTransform xform, string inputValue, string outputVariable, ShaderStringBuilder sb)
{
var func = k_TransformFunctions[(int)xform.from, (int)xform.to];
func(xform, inputValue, outputVariable, sb);
}
}
}