using System; using System.Collections.Generic; using System.Linq; using UnityEditor.Graphing; using UnityEditor.ShaderGraph.Drawing.Slots; using UnityEditor.ShaderGraph.Internal; using UnityEngine; using UnityEngine.UIElements; namespace UnityEditor.ShaderGraph { [Serializable] class DynamicVectorMaterialSlot : MaterialSlot, IMaterialSlotHasValue { [SerializeField] private Vector4 m_Value; [SerializeField] private Vector4 m_DefaultValue = Vector4.zero; static readonly string[] k_Labels = {"X", "Y", "Z", "W"}; private ConcreteSlotValueType m_ConcreteValueType = ConcreteSlotValueType.Vector4; public DynamicVectorMaterialSlot() { } public DynamicVectorMaterialSlot( int slotId, string displayName, string shaderOutputName, SlotType slotType, Vector4 value, ShaderStageCapability stageCapability = ShaderStageCapability.All, bool hidden = false) : base(slotId, displayName, shaderOutputName, slotType, stageCapability, hidden) { m_Value = value; } public Vector4 defaultValue { get { return m_DefaultValue; } } public Vector4 value { get { return m_Value; } set { m_Value = value; } } public override VisualElement InstantiateControl() { var labels = k_Labels.Take(concreteValueType.GetChannelCount()).ToArray(); return new MultiFloatSlotControlView(owner, labels, () => value, (newValue) => value = newValue); } public override SlotValueType valueType { get { return SlotValueType.DynamicVector; } } public override ConcreteSlotValueType concreteValueType { get { return m_ConcreteValueType; } } public void SetConcreteType(ConcreteSlotValueType valueType) { m_ConcreteValueType = valueType; } public override void GetPreviewProperties(List properties, string name) { var propType = concreteValueType.ToPropertyType(); var pp = new PreviewProperty(propType) { name = name }; if (propType == PropertyType.Vector1) pp.floatValue = value.x; else pp.vector4Value = new Vector4(value.x, value.y, value.z, value.w); properties.Add(pp); } protected override string ConcreteSlotValueAsVariable() { var channelCount = SlotValueHelper.GetChannelCount(concreteValueType); string values = NodeUtils.FloatToShaderValue(value.x); if (channelCount == 1) return values; for (var i = 1; i < channelCount; i++) values += ", " + NodeUtils.FloatToShaderValue(value[i]); return string.Format("$precision{0}({1})", channelCount, values); } public override void AddDefaultProperty(PropertyCollector properties, GenerationMode generationMode) { if (!generationMode.IsPreview()) return; var matOwner = owner as AbstractMaterialNode; if (matOwner == null) throw new Exception(string.Format("Slot {0} either has no owner, or the owner is not a {1}", this, typeof(AbstractMaterialNode))); AbstractShaderProperty property; switch (concreteValueType) { case ConcreteSlotValueType.Vector4: property = new Vector4ShaderProperty(); break; case ConcreteSlotValueType.Vector3: property = new Vector3ShaderProperty(); break; case ConcreteSlotValueType.Vector2: property = new Vector2ShaderProperty(); break; case ConcreteSlotValueType.Vector1: property = new Vector1ShaderProperty(); break; default: // This shouldn't happen due to edge validation. The generated shader will // have errors. Debug.LogError($"Invalid value type {concreteValueType} passed to Vector Slot {displayName}. Value will be ignored, please plug in an edge with a vector type."); return; } property.overrideReferenceName = matOwner.GetVariableNameForSlot(id); property.generatePropertyBlock = false; properties.AddShaderProperty(property); } public override void CopyValuesFrom(MaterialSlot foundSlot) { var slot = foundSlot as DynamicVectorMaterialSlot; if (slot != null) value = slot.value; } } }