// Amplify Shader Editor - Visual Shader Editing Tool // Copyright (c) Amplify Creations, Lda using System; using System.Collections.Generic; using UnityEngine; namespace AmplifyShaderEditor { [Serializable] public class TemplateInterpElement { public TemplateSemantics Semantic; public bool[] AvailableChannels = { true, true, true, true }; public bool IsFull = false; public int Usage = 0; public string Name; public TemplateInterpElement( TemplateInterpElement other ) { Semantic = other.Semantic; for ( int i = 0; i < AvailableChannels.Length; i++ ) { AvailableChannels[ i ] = other.AvailableChannels[ i ]; } IsFull = other.IsFull; Usage = other.Usage; Name = other.Name; } public TemplateInterpElement( TemplateSemantics semantic ) { Semantic = semantic; int semanticId = TemplateHelperFunctions.SemanticToInt[ Semantic ]; Name = ( semanticId == 0 ) ? TemplateHelperFunctions.BaseInterpolatorName : TemplateHelperFunctions.BaseInterpolatorName + semanticId.ToString(); } public void SetAvailableChannelsFromString( string channels ) { for ( int i = 0; i < AvailableChannels.Length; i++ ) { AvailableChannels[ i ] = false; } Usage = AvailableChannels.Length; for ( int i = 0; i < channels.Length; i++ ) { switch ( channels[ i ] ) { case 'x': if ( !AvailableChannels[ 0 ] ) { AvailableChannels[ 0 ] = true; Usage--; } break; case 'y': if ( !AvailableChannels[ 1 ] ) { AvailableChannels[ 1 ] = true; Usage--; } break; case 'z': if ( !AvailableChannels[ 2 ] ) { AvailableChannels[ 2 ] = true; Usage--; } break; case 'w': if ( !AvailableChannels[ 3 ] ) { AvailableChannels[ 3 ] = true; Usage--; } break; } } } public TemplateVertexData RequestChannels( WirePortDataType type, bool isColor, string customName = null ) { if ( IsFull ) return null; int channelsRequired = TemplateHelperFunctions.DataTypeChannelUsage[ type ]; if ( channelsRequired == 0 ) return null; int firstChannel = -1; for ( int i = 0; i < AvailableChannels.Length; i++ ) { if ( AvailableChannels[ i ] ) { if ( firstChannel < 0 ) { firstChannel = i; } channelsRequired -= 1; if ( channelsRequired == 0 ) break; } } //did not found enough channels to fill request if ( channelsRequired > 0 ) return null; if( Usage == 0 && customName != null ) { Name = customName; } Usage += 1; TemplateVertexData data = null; if ( type == WirePortDataType.COLOR || type == WirePortDataType.FLOAT4 ) { // Automatically lock all channels for ( int i = firstChannel; i < ( firstChannel + channelsRequired ); i++ ) { AvailableChannels[ i ] = false; } IsFull = true; data = new TemplateVertexData( Semantic, type, Name ); } else { string[] swizzleArray = ( isColor ) ? TemplateHelperFunctions.ColorSwizzle : TemplateHelperFunctions.VectorSwizzle; string channels = "."; int count = firstChannel + TemplateHelperFunctions.DataTypeChannelUsage[ type ]; for ( int i = firstChannel; i < count; i++ ) { AvailableChannels[ i ] = false; channels += swizzleArray[ i ]; if ( i == ( AvailableChannels.Length - 1 ) ) { IsFull = true; } } data = new TemplateVertexData( Semantic, type, Name, channels ); } return data; } } [Serializable] public class TemplateInterpData { [SerializeField] private string m_interpDataId = string.Empty; [SerializeField] private int m_interpDataStartIdx = -1; [SerializeField] private bool m_dynamicMax = false; public List AvailableInterpolators = new List(); public List Interpolators = new List(); public List RawInterpolators = new List(); public TemplateInterpData() { } public TemplateInterpData( TemplateInterpData other ) { m_dynamicMax = other.DynamicMax; foreach ( TemplateInterpElement data in other.AvailableInterpolators ) { AvailableInterpolators.Add( new TemplateInterpElement( data ) ); } for ( int i = 0; i < other.Interpolators.Count; i++ ) { Interpolators.Add( new TemplateVertexData( other.Interpolators[ i ] ) ); } for( int i = 0; i < other.RawInterpolators.Count; i++ ) { RawInterpolators.Add( new TemplateVertexData( other.RawInterpolators[ i ] ) ); } } public void RecalculateAvailableInterpolators( int newMax ) { if( m_dynamicMax ) { if( !TemplateHelperFunctions.IntToSemantic.ContainsKey( ( newMax - 1 ) ) ) { Debug.LogWarning( "Attempting to add inexisting available interpolators" ); return; } if( AvailableInterpolators.Count > 0 ) { int currMax = 1 + TemplateHelperFunctions.SemanticToInt[ AvailableInterpolators[ AvailableInterpolators.Count - 1 ].Semantic ]; if( newMax > currMax ) { int count = newMax - currMax; for( int i = 0; i < count; i++ ) { AvailableInterpolators.Add( new TemplateInterpElement( TemplateHelperFunctions.IntToSemantic[ currMax + i ] )); } } else if( newMax < currMax ) { int min = TemplateHelperFunctions.SemanticToInt[ AvailableInterpolators[ 0 ].Semantic ]; if( newMax > min ) { int count = currMax - newMax; for( int i = 0; i < count; i++ ) { AvailableInterpolators.RemoveAt( AvailableInterpolators.Count - 1 ); } } } } } } public void ReplaceNameOnInterpolator( TemplateSemantics semantic, string newName ) { for ( int i = 0; i < AvailableInterpolators.Count; i++ ) { if ( AvailableInterpolators[ i ].Semantic == semantic ) { AvailableInterpolators[ i ].Name = newName; break; } } } public void Destroy() { AvailableInterpolators.Clear(); AvailableInterpolators = null; Interpolators.Clear(); Interpolators = null; RawInterpolators.Clear(); RawInterpolators = null; } public string InterpDataId { get { return m_interpDataId; } set { m_interpDataId = value; } } public int InterpDataStartIdx { get { return m_interpDataStartIdx; } set { m_interpDataStartIdx = value; } } public bool DynamicMax { get { return m_dynamicMax; } set { m_dynamicMax = value; } } } }