// Amplify Shader Editor - Visual Shader Editing Tool
// Copyright (c) Amplify Creations, Lda <info@amplify.pt>
using System;
using System.Collections.Generic;
using UnityEngine;
using UnityEditor;
namespace AmplifyShaderEditor
{
[Serializable]
public sealed class TessellationOpHelper
{
public const string TessellationPortStr = "Tessellation";
public const string TessSurfParam = "tessellate:tessFunction";
public const string TessInclude = "Tessellation.cginc";
//public const string CustomAppData = "\t\tstruct appdata\n" +
// "\t\t{\n" +
// "\t\t\tfloat4 vertex : POSITION;\n" +
// "\t\t\tfloat4 tangent : TANGENT;\n" +
// "\t\t\tfloat3 normal : NORMAL;\n" +
// "\t\t\tfloat4 texcoord : TEXCOORD0;\n" +
// "\t\t\tfloat4 texcoord1 : TEXCOORD1;\n" +
// "\t\t\tfloat4 texcoord2 : TEXCOORD2;\n" +
// "\t\t\tfloat4 texcoord3 : TEXCOORD3;\n" +
// "\t\t\tfixed4 color : COLOR;\n" +
// "\t\t\tUNITY_VERTEX_INPUT_INSTANCE_ID\n" +
// "\t\t};\n\n";
private const string TessUniformName = "_TessValue";
private const string TessMinUniformName = "_TessMin";
private const string TessMaxUniformName = "_TessMax";
//private GUIContent EnableTessContent = new GUIContent( "Tessellation", "Activates the use of tessellation which subdivides polygons to increase geometry detail using a set of rules\nDefault: OFF" );
private GUIContent TessFactorContent = new GUIContent( "Tess", "Tessellation factor\nDefault: 4" );
private GUIContent TessMinDistanceContent = new GUIContent( "Min", "Minimum tessellation distance\nDefault: 10" );
private GUIContent TessMaxDistanceContent = new GUIContent( "Max", "Maximum tessellation distance\nDefault: 25" );
private readonly int[] TesselationTypeValues = { 0, 1, 2, 3 };
private readonly string[] TesselationTypeLabels = { "Distance-based", "Fixed", "Edge Length", "Edge Length Cull" };
private readonly string TesselationTypeStr = "Type";
private const string TessProperty = "_TessValue( \"Max Tessellation\", Range( 1, 32 ) ) = {0}";
private const string TessMinProperty = "_TessMin( \"Tess Min Distance\", Float ) = {0}";
private const string TessMaxProperty = "_TessMax( \"Tess Max Distance\", Float ) = {0}";
private const string TessFunctionOpen = "\t\tfloat4 tessFunction( {0} v0, {0} v1, {0} v2 )\n\t\t{{\n";
private const string TessFunctionClose = "\t\t}\n";
// Custom function
private const string CustomFunctionBody = "\t\t\treturn {0};\n";
// Distance based function
private const string DistBasedTessFunctionBody = "\t\t\treturn UnityDistanceBasedTess( v0.vertex, v1.vertex, v2.vertex, _TessMin, _TessMax, _TessValue );\n";
// Fixed amount function
private const string FixedAmountTessFunctionOpen = "\t\tfloat4 tessFunction( )\n\t\t{\n";
private const string FixedAmountTessFunctionBody = "\t\t\treturn _TessValue;\n";
// Edge Length
private GUIContent EdgeLengthContent = new GUIContent( "Edge Length", "Tessellation levels ccomputed based on triangle edge length on the screen\nDefault: 4" );
private const string EdgeLengthTessProperty = "_EdgeLength ( \"Edge length\", Range( 2, 50 ) ) = {0}";
private const string EdgeLengthTessUniformName = "_EdgeLength";
private const string EdgeLengthTessFunctionBody = "\t\t\treturn UnityEdgeLengthBasedTess (v0.vertex, v1.vertex, v2.vertex, _EdgeLength);\n";
private const string EdgeLengthTessCullFunctionBody = "\t\t\treturn UnityEdgeLengthBasedTessCull (v0.vertex, v1.vertex, v2.vertex, _EdgeLength , _TessMaxDisp );\n";
private const string EdgeLengthTessMaxDispProperty = "_TessMaxDisp( \"Max Displacement\", Float ) = {0}";
private const string EdgeLengthTessMaxDispUniformName = "_TessMaxDisp";
private GUIContent EdgeLengthTessMaxDisplacementContent = new GUIContent( "Max Disp.", "Max Displacement" );
// Phong
private GUIContent PhongEnableContent = new GUIContent( "Phong", "Modifies positions of the subdivided faces so that the resulting surface follows the mesh normals a bit\nDefault: OFF" );
private GUIContent PhongStrengthContent = new GUIContent( "Strength", "Strength\nDefault: 0.5" );
public const string PhongStrengthParam = "tessphong:_TessPhongStrength";
private const string PhongStrengthProperty = "_TessPhongStrength( \"Phong Tess Strength\", Range( 0, 1 ) ) = {0}";
private const string PhongStrengthUniformName = "_TessPhongStrength";
[SerializeField]
private bool m_enabled = false;
//private bool m_expanded = false;
[SerializeField]
private int m_tessType = 2;
[SerializeField]
private float m_tessMinDistance = 10f;
[SerializeField]
private float m_tessMaxDistance = 25f;
[SerializeField]
private float m_tessFactor = 15f;
[SerializeField]
private float m_phongStrength = 0.5f;
[SerializeField]
private bool m_phongEnabled = false;
[SerializeField]
private string[] m_customData = { string.Empty, string.Empty, string.Empty };
[SerializeField]
private bool m_hasCustomFunction = false;
[SerializeField]
private string m_customFunction = String.Empty;
[SerializeField]
private string m_additionalData = string.Empty;
[SerializeField]
private StandardSurfaceOutputNode m_parentSurface;
private Dictionary<string, bool> m_additionalDataDict = new Dictionary<string, bool>();
private int m_masterNodeIndexPort = 0;
private int m_vertexOffsetIndexPort = 0;
//private int m_orderIndex = 1000;
public void Draw( UndoParentNode owner, GUIStyle toolbarstyle, Material mat, bool connectedInput )
{
Color cachedColor = GUI.color;
GUI.color = new Color( cachedColor.r, cachedColor.g, cachedColor.b, 0.5f );
EditorGUILayout.BeginHorizontal( toolbarstyle );
GUI.color = cachedColor;
EditorGUI.BeginChangeCheck();
m_parentSurface.ContainerGraph.ParentWindow.InnerWindowVariables.ExpandedTesselation = GUILayout.Toggle( m_parentSurface.ContainerGraph.ParentWindow.InnerWindowVariables.ExpandedTesselation, " Tessellation", UIUtils.MenuItemToggleStyle, GUILayout.ExpandWidth( true ) );
if ( EditorGUI.EndChangeCheck() )
{
EditorPrefs.SetBool( "ExpandedTesselation", m_parentSurface.ContainerGraph.ParentWindow.InnerWindowVariables.ExpandedTesselation );
}
EditorGUI.BeginChangeCheck();
m_enabled = owner.EditorGUILayoutToggle( string.Empty, m_enabled, UIUtils.MenuItemEnableStyle, GUILayout.Width( 16 ) );
if ( EditorGUI.EndChangeCheck() )
{
if ( m_enabled )
UpdateToMaterial( mat, !connectedInput );
UIUtils.RequestSave();
}
EditorGUILayout.EndHorizontal();
m_enabled = m_enabled || connectedInput;
if ( m_parentSurface.ContainerGraph.ParentWindow.InnerWindowVariables.ExpandedTesselation )
{
cachedColor = GUI.color;
GUI.color = new Color( cachedColor.r, cachedColor.g, cachedColor.b, ( EditorGUIUtility.isProSkin ? 0.5f : 0.25f ) );
EditorGUILayout.BeginVertical( UIUtils.MenuItemBackgroundStyle );
GUI.color = cachedColor;
EditorGUILayout.Separator();
EditorGUI.BeginDisabledGroup( !m_enabled );
EditorGUI.indentLevel += 1;
m_phongEnabled = owner.EditorGUILayoutToggle( PhongEnableContent, m_phongEnabled );
if ( m_phongEnabled )
{
EditorGUI.indentLevel += 1;
EditorGUI.BeginChangeCheck();
m_phongStrength = owner.EditorGUILayoutSlider( PhongStrengthContent, m_phongStrength, 0.0f, 1.0f );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( PhongStrengthUniformName ) )
mat.SetFloat( PhongStrengthUniformName, m_phongStrength );
}
EditorGUI.indentLevel -= 1;
}
bool guiEnabled = GUI.enabled;
GUI.enabled = !connectedInput && m_enabled;
m_tessType = owner.EditorGUILayoutIntPopup( TesselationTypeStr, m_tessType, TesselationTypeLabels, TesselationTypeValues );
switch ( m_tessType )
{
case 0:
{
EditorGUI.BeginChangeCheck();
m_tessFactor = owner.EditorGUILayoutSlider( TessFactorContent, m_tessFactor, 1, 32 );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( TessUniformName ) )
mat.SetFloat( TessUniformName, m_tessFactor );
}
EditorGUI.BeginChangeCheck();
m_tessMinDistance = owner.EditorGUILayoutFloatField( TessMinDistanceContent, m_tessMinDistance );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( TessMinUniformName ) )
mat.SetFloat( TessMinUniformName, m_tessMinDistance );
}
EditorGUI.BeginChangeCheck();
m_tessMaxDistance = owner.EditorGUILayoutFloatField( TessMaxDistanceContent, m_tessMaxDistance );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( TessMaxUniformName ) )
mat.SetFloat( TessMaxUniformName, m_tessMaxDistance );
}
}
break;
case 1:
{
EditorGUI.BeginChangeCheck();
m_tessFactor = owner.EditorGUILayoutSlider( TessFactorContent, m_tessFactor, 1, 32 );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( TessUniformName ) )
mat.SetFloat( TessUniformName, m_tessFactor );
}
}
break;
case 2:
{
EditorGUI.BeginChangeCheck();
m_tessFactor = owner.EditorGUILayoutSlider( EdgeLengthContent, m_tessFactor, 2, 50 );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
mat.SetFloat( EdgeLengthTessUniformName, m_tessFactor );
}
}
break;
case 3:
{
EditorGUI.BeginChangeCheck();
m_tessFactor = owner.EditorGUILayoutSlider( EdgeLengthContent, m_tessFactor, 2, 50 );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
mat.SetFloat( EdgeLengthTessUniformName, m_tessFactor );
}
EditorGUI.BeginChangeCheck();
m_tessMaxDistance = owner.EditorGUILayoutFloatField( EdgeLengthTessMaxDisplacementContent, m_tessMaxDistance );
if ( EditorGUI.EndChangeCheck() && mat != null )
{
if ( mat.HasProperty( TessMinUniformName ) )
mat.SetFloat( TessMinUniformName, m_tessMaxDistance );
}
}
break;
}
GUI.enabled = guiEnabled;
EditorGUI.indentLevel -= 1;
EditorGUI.EndDisabledGroup();
EditorGUILayout.Separator();
EditorGUILayout.EndVertical();
}
}
public void UpdateToMaterial( Material mat, bool updateInternals )
{
if ( mat == null )
return;
if ( m_phongEnabled )
{
if ( mat.HasProperty( PhongStrengthUniformName ) )
mat.SetFloat( PhongStrengthUniformName, m_phongStrength );
}
if ( updateInternals )
{
switch ( m_tessType )
{
case 0:
{
if ( mat.HasProperty( TessUniformName ) )
mat.SetFloat( TessUniformName, m_tessFactor );
if ( mat.HasProperty( TessMinUniformName ) )
mat.SetFloat( TessMinUniformName, m_tessMinDistance );
if ( mat.HasProperty( TessMaxUniformName ) )
mat.SetFloat( TessMaxUniformName, m_tessMaxDistance );
}
break;
case 1:
{
if ( mat.HasProperty( TessUniformName ) )
mat.SetFloat( TessUniformName, m_tessFactor );
}
break;
case 2:
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
mat.SetFloat( EdgeLengthTessUniformName, m_tessFactor );
}
break;
case 3:
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
mat.SetFloat( EdgeLengthTessUniformName, m_tessFactor );
if ( mat.HasProperty( TessMinUniformName ) )
mat.SetFloat( TessMinUniformName, m_tessMaxDistance );
}
break;
}
}
}
public void ReadFromString( ref uint index, ref string[] nodeParams )
{
m_enabled = Convert.ToBoolean( nodeParams[ index++ ] );
m_tessType = Convert.ToInt32( nodeParams[ index++ ] );
m_tessFactor = Convert.ToSingle( nodeParams[ index++ ] );
m_tessMinDistance = Convert.ToSingle( nodeParams[ index++ ] );
m_tessMaxDistance = Convert.ToSingle( nodeParams[ index++ ] );
if ( UIUtils.CurrentShaderVersion() > 3001 )
{
m_phongEnabled = Convert.ToBoolean( nodeParams[ index++ ] );
m_phongStrength = Convert.ToSingle( nodeParams[ index++ ] );
}
}
public void WriteToString( ref string nodeInfo )
{
IOUtils.AddFieldValueToString( ref nodeInfo, m_enabled );
IOUtils.AddFieldValueToString( ref nodeInfo, m_tessType );
IOUtils.AddFieldValueToString( ref nodeInfo, m_tessFactor );
IOUtils.AddFieldValueToString( ref nodeInfo, m_tessMinDistance );
IOUtils.AddFieldValueToString( ref nodeInfo, m_tessMaxDistance );
IOUtils.AddFieldValueToString( ref nodeInfo, m_phongEnabled );
IOUtils.AddFieldValueToString( ref nodeInfo, m_phongStrength );
}
public string Uniforms()
{
string uniforms = string.Empty;
switch( m_tessType )
{
case 0:
{
if( !m_hasCustomFunction )
{
//Tess
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessUniformName + ";\n";
//Min
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessMinUniformName + ";\n";
//Max
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessMaxUniformName + ";\n";
}
}
break;
case 1:
//Tess
if( !m_hasCustomFunction )
{
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessUniformName + ";\n";
}
break;
case 2:
if( !m_hasCustomFunction )
{
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float , WirePortDataType.FLOAT ) + " " + EdgeLengthTessUniformName + ";\n";
}
break;
case 3:
if( !m_hasCustomFunction )
{
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float , WirePortDataType.FLOAT ) + " " + EdgeLengthTessUniformName + ";\n";
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float , WirePortDataType.FLOAT ) + " " + EdgeLengthTessMaxDispUniformName + ";\n";
}
break;
}
if( m_phongEnabled )
{
uniforms += "\t\tuniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + PhongStrengthUniformName + ";\n" ;
}
return uniforms;
}
public void AddToDataCollector( ref MasterNodeDataCollector dataCollector, int reorder )
{
int orderIndex = reorder;
switch ( m_tessType )
{
case 0:
{
dataCollector.AddToIncludes( -1, TessellationOpHelper.TessInclude );
if ( !m_hasCustomFunction )
{
//Tess
dataCollector.AddToProperties( -1, string.Format( TessProperty, m_tessFactor ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessUniformName + ";" );
//Min
dataCollector.AddToProperties( -1, string.Format( TessMinProperty, m_tessMinDistance ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessMinUniformName + ";" );
//Max
dataCollector.AddToProperties( -1, string.Format( TessMaxProperty, m_tessMaxDistance ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessMaxUniformName + ";" );
}
}
break;
case 1:
{
//Tess
if ( !m_hasCustomFunction )
{
dataCollector.AddToProperties( -1, string.Format( TessProperty, m_tessFactor ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + TessUniformName + ";" );
}
}
break;
case 2:
{
dataCollector.AddToIncludes( -1, TessellationOpHelper.TessInclude );
//Tess
if ( !m_hasCustomFunction )
{
dataCollector.AddToProperties( -1, string.Format( EdgeLengthTessProperty, m_tessFactor ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + EdgeLengthTessUniformName + ";" );
}
}
break;
case 3:
{
dataCollector.AddToIncludes( -1, TessellationOpHelper.TessInclude );
if ( !m_hasCustomFunction )
{
//Tess
dataCollector.AddToProperties( -1, string.Format( EdgeLengthTessProperty, m_tessFactor ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + EdgeLengthTessUniformName + ";" );
//Max Displacement
dataCollector.AddToProperties( -1, string.Format( EdgeLengthTessMaxDispProperty, m_tessMaxDistance ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + EdgeLengthTessMaxDispUniformName + ";" );
}
}
break;
}
if ( m_phongEnabled )
{
dataCollector.AddToProperties( -1, string.Format( PhongStrengthProperty, m_phongStrength ), orderIndex++ );
dataCollector.AddToUniforms( -1, "uniform " + UIUtils.PrecisionWirePortToCgType( PrecisionType.Float, WirePortDataType.FLOAT ) + " " + PhongStrengthUniformName + ";" );
}
}
//ToDo: Optimize material property fetches to use Id instead of string
public void UpdateFromMaterial( Material mat )
{
if ( m_enabled )
{
if ( m_phongEnabled )
{
if ( mat.HasProperty( PhongStrengthUniformName ) )
m_phongStrength = mat.GetFloat( PhongStrengthUniformName );
}
switch ( m_tessType )
{
case 0:
{
if ( mat.HasProperty( TessUniformName ) )
m_tessFactor = mat.GetFloat( TessUniformName );
if ( mat.HasProperty( TessMinUniformName ) )
m_tessMinDistance = mat.GetFloat( TessMinUniformName );
if ( mat.HasProperty( TessMaxUniformName ) )
m_tessMaxDistance = mat.GetFloat( TessMaxUniformName );
}
break;
case 1:
{
if ( mat.HasProperty( TessUniformName ) )
m_tessFactor = mat.GetFloat( TessUniformName );
}
break;
case 2:
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
m_tessFactor = mat.GetFloat( EdgeLengthTessUniformName );
}
break;
case 3:
{
if ( mat.HasProperty( EdgeLengthTessUniformName ) )
m_tessFactor = mat.GetFloat( EdgeLengthTessUniformName );
if ( mat.HasProperty( EdgeLengthTessMaxDispUniformName ) )
m_tessMaxDistance = mat.GetFloat( EdgeLengthTessMaxDispUniformName );
}
break;
}
}
}
public void WriteToOptionalParams( ref string optionalParams )
{
optionalParams += TessellationOpHelper.TessSurfParam + Constants.OptionalParametersSep;
if ( m_phongEnabled )
{
optionalParams += TessellationOpHelper.PhongStrengthParam + Constants.OptionalParametersSep;
}
}
public void Reset()
{
m_hasCustomFunction = false;
m_customFunction = string.Empty;
m_additionalData = string.Empty;
m_additionalDataDict.Clear();
switch ( m_tessType )
{
case 0:
{
m_customData[ 0 ] = TessUniformName;
m_customData[ 1 ] = TessMinUniformName;
m_customData[ 2 ] = TessMaxUniformName;
}
break;
case 1:
{
m_customData[ 0 ] = TessUniformName;
m_customData[ 1 ] = string.Empty;
m_customData[ 2 ] = string.Empty;
}
break;
case 2:
{
m_customData[ 0 ] = EdgeLengthTessUniformName;
m_customData[ 1 ] = string.Empty;
m_customData[ 2 ] = string.Empty;
}
break;
case 3:
{
m_customData[ 0 ] = EdgeLengthTessUniformName;
m_customData[ 1 ] = EdgeLengthTessMaxDispUniformName;
m_customData[ 2 ] = string.Empty;
}
break;
}
}
public string GetCurrentTessellationFunction( ref MasterNodeDataCollector dataCollector )
{
string finalTessFunctionOpen = string.Format( TessFunctionOpen , dataCollector.SurfaceVertexStructure );
if ( m_hasCustomFunction )
{
return finalTessFunctionOpen +
m_customFunction +
TessFunctionClose;
}
string tessFunction = string.Empty;
switch ( m_tessType )
{
case 0:
{
tessFunction = finalTessFunctionOpen +
DistBasedTessFunctionBody +
TessFunctionClose;
}
break;
case 1:
{
tessFunction = FixedAmountTessFunctionOpen +
FixedAmountTessFunctionBody +
TessFunctionClose;
}
break;
case 2:
{
tessFunction = finalTessFunctionOpen +
EdgeLengthTessFunctionBody +
TessFunctionClose;
}
break;
case 3:
{
tessFunction = finalTessFunctionOpen +
EdgeLengthTessCullFunctionBody +
TessFunctionClose;
}
break;
}
return tessFunction;
}
public void AddAdditionalData( string data )
{
if ( !m_additionalDataDict.ContainsKey( data ) )
{
m_additionalDataDict.Add( data, true );
m_additionalData += data;
}
}
public void AddCustomFunction( string returnData )
{
m_hasCustomFunction = true;
m_customFunction = m_additionalData + string.Format( CustomFunctionBody, returnData );
}
public void Destroy()
{
m_additionalDataDict.Clear();
m_additionalDataDict = null;
}
public bool IsTessellationPort( int index )
{
return index == m_masterNodeIndexPort;
}
public bool EnableTesselation { get { return m_enabled; } }
public int TessType { get { return m_tessType; } }
public int MasterNodeIndexPort
{
get { return m_masterNodeIndexPort; }
set { m_masterNodeIndexPort = value; }
}
public int VertexOffsetIndexPort
{
get { return m_vertexOffsetIndexPort; }
set { m_vertexOffsetIndexPort = value; }
}
public StandardSurfaceOutputNode ParentSurface { get { return m_parentSurface; } set { m_parentSurface = value; } }
}
}