using Enigmos.Ports; using Enigmos.Ports.DataPorts; using Godot; using Nocturnis.DataStructures; using Nocturnis.Enigmos.Modules; using Nocturnis.Enigmos.Ports; using TabulaSmaragdina; using TabulaSmaragdina.Constants; namespace Enigmos.Modules.ComputationalModules.Binary; public partial class SubtractionModule : BinaryComputationalModule, IPolymorphismModule { private IDataPortGroup InputGroup { get; set; } private IDataPortGroup OutputGroup { get; set; } private DataOutPort Output1 { get; set; } private DataOutPort Output2 { get; set; } private DataOutPort Output3 { get; set; } private DataOutPort Output4 { get; set; } public override IEnumerable Ports => base.Ports.Union(new[] { Output1, Output2, Output3, Output4 }); public HashSet ConfigurablePortGroups { get; set; } public override void Init() { base.Init(); Output1 = GetPort("Output1"); Output2 = GetPort("Output2"); Output3 = GetPort("Output3"); Output4 = GetPort("Output4"); InputGroup = GlobalProvider.DataStructureProvider.NewDataPortGroup( this, new IDataPort[] { Input1, Input2 }, "", EnigmosConstant.DataPortTypes.Real, Array.Empty() ); OutputGroup = GlobalProvider.DataStructureProvider.NewDataPortGroup( this, new IDataPort[] { Output1, Output2, Output3, Output4 }, "Output Port Type", EnigmosConstant.DataPortTypes.Real, EnigmosConstant.DataPortTypes.AnyTensor ); ConfigurablePortGroups = new HashSet { OutputGroup }; PostInit(); } protected override void Compute(IDataPackage input1, IDataPackage input2) { IDataPackage res = GlobalProvider.PolymorphismProvider.Sub(input1, input2, OutputGroup.SelectedType); foreach (DataPort port in OutputGroup) (port as DataOutPort)!.ResultData.Assign(res, OutputGroup.SelectedType); } public void Inference() => InputGroup.SelectedType = OutputGroup.SelectedType; }