/****************************************************************************** // MARECHAI: Master repository of computing history artifacts information // ---------------------------------------------------------------------------- // // Author(s) : Natalia Portillo // // --[ License ] -------------------------------------------------------------- // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as // published by the Free Software Foundation, either version 3 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // // ---------------------------------------------------------------------------- // Copyright © 2003-2021 Natalia Portillo *******************************************************************************/ using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Marechai.Database.Models; using Marechai.ViewModels; using Microsoft.EntityFrameworkCore; namespace Marechai.Services { public class ProcessorsService { readonly MarechaiContext _context; public ProcessorsService(MarechaiContext context) => _context = context; public async Task> GetAsync() => await _context.Processors.Select(p => new ProcessorViewModel { Name = p.Name, CompanyName = p.Company.Name, CompanyId = p.Company.Id, ModelCode = p.ModelCode, Introduced = p.Introduced, Speed = p.Speed, Package = p.Package, Gprs = p.Gprs, GprSize = p.GprSize, Fprs = p.Fprs, FprSize = p.FprSize, Cores = p.Cores, ThreadsPerCore = p.ThreadsPerCore, Process = p.Process, ProcessNm = p.ProcessNm, DieSize = p.DieSize, Transistors = p.Transistors, DataBus = p.DataBus, AddrBus = p.AddrBus, SimdRegisters = p.SimdRegisters, SimdSize = p.SimdSize, L1Instruction = p.L1Instruction, L1Data = p.L1Data, L2 = p.L2, L3 = p.L3, InstructionSet = p.InstructionSet.Name, Id = p.Id, InstructionSetExtensions = p.InstructionSetExtensions.Select(e => e.Extension.Extension).ToList() }).OrderBy(p => p.CompanyName).ThenBy(p => p.Name).ToListAsync(); public async Task> GetByMachineAsync(int machineId) => await _context.ProcessorsByMachine.Where(p => p.MachineId == machineId).Select(p => new ProcessorViewModel { Name = p.Processor.Name, CompanyName = p.Processor.Company.Name, CompanyId = p.Processor.Company.Id, ModelCode = p.Processor.ModelCode, Introduced = p.Processor.Introduced, Speed = p.Speed, Package = p.Processor.Package, Gprs = p.Processor.Gprs, GprSize = p.Processor.GprSize, Fprs = p.Processor.Fprs, FprSize = p.Processor.FprSize, Cores = p.Processor.Cores, ThreadsPerCore = p.Processor.ThreadsPerCore, Process = p.Processor.Process, ProcessNm = p.Processor.ProcessNm, DieSize = p.Processor.DieSize, Transistors = p.Processor.Transistors, DataBus = p.Processor.DataBus, AddrBus = p.Processor.AddrBus, SimdRegisters = p.Processor.SimdRegisters, SimdSize = p.Processor.SimdSize, L1Instruction = p.Processor.L1Instruction, L1Data = p.Processor.L1Data, L2 = p.Processor.L2, L3 = p.Processor.L3, InstructionSet = p.Processor.InstructionSet.Name, Id = p.Processor.Id, InstructionSetExtensions = p.Processor.InstructionSetExtensions.Select(e => e.Extension.Extension).ToList() }).OrderBy(p => p.CompanyName).ThenBy(p => p.Name).ToListAsync(); public async Task GetAsync(int id) => await _context.Processors.Where(p => p.Id == id).Select(p => new ProcessorViewModel { Name = p.Name, CompanyName = p.Company.Name, CompanyId = p.Company.Id, ModelCode = p.ModelCode, Introduced = p.Introduced, Speed = p.Speed, Package = p.Package, Gprs = p.Gprs, GprSize = p.GprSize, Fprs = p.Fprs, FprSize = p.FprSize, Cores = p.Cores, ThreadsPerCore = p.ThreadsPerCore, Process = p.Process, ProcessNm = p.ProcessNm, DieSize = p.DieSize, Transistors = p.Transistors, DataBus = p.DataBus, AddrBus = p.AddrBus, SimdRegisters = p.SimdRegisters, SimdSize = p.SimdSize, L1Instruction = p.L1Instruction, L1Data = p.L1Data, L2 = p.L2, L3 = p.L3, InstructionSet = p.InstructionSet.Name, InstructionSetId = p.InstructionSetId }).FirstOrDefaultAsync(); public async Task UpdateAsync(ProcessorViewModel viewModel, string userId) { Processor model = await _context.Processors.FindAsync(viewModel.Id); if(model is null) return; model.AddrBus = viewModel.AddrBus; model.CompanyId = viewModel.CompanyId; model.Cores = viewModel.Cores; model.DataBus = viewModel.DataBus; model.DieSize = viewModel.DieSize; model.Fprs = viewModel.Fprs; model.FprSize = viewModel.FprSize; model.Gprs = viewModel.Gprs; model.GprSize = viewModel.GprSize; model.InstructionSetId = viewModel.InstructionSetId; model.Introduced = viewModel.Introduced; model.L1Data = viewModel.L1Data; model.L1Instruction = viewModel.L1Instruction; model.L2 = viewModel.L2; model.L3 = viewModel.L3; model.ModelCode = viewModel.ModelCode; model.Name = viewModel.Name; model.Package = viewModel.Package; model.Process = viewModel.Process; model.ProcessNm = viewModel.ProcessNm; model.SimdRegisters = viewModel.SimdRegisters; model.SimdSize = viewModel.SimdSize; model.Speed = viewModel.Speed; model.ThreadsPerCore = viewModel.ThreadsPerCore; model.Transistors = viewModel.Transistors; await _context.SaveChangesWithUserAsync(userId); } public async Task CreateAsync(ProcessorViewModel viewModel, string userId) { var model = new Processor { AddrBus = viewModel.AddrBus, CompanyId = viewModel.CompanyId, Cores = viewModel.Cores, DataBus = viewModel.DataBus, DieSize = viewModel.DieSize, Fprs = viewModel.Fprs, FprSize = viewModel.FprSize, Gprs = viewModel.Gprs, GprSize = viewModel.GprSize, InstructionSetId = viewModel.InstructionSetId, Introduced = viewModel.Introduced, L1Data = viewModel.L1Data, L1Instruction = viewModel.L1Instruction, L2 = viewModel.L2, L3 = viewModel.L3, ModelCode = viewModel.ModelCode, Name = viewModel.Name, Package = viewModel.Package, Process = viewModel.Process, ProcessNm = viewModel.ProcessNm, SimdRegisters = viewModel.SimdRegisters, SimdSize = viewModel.SimdSize, Speed = viewModel.Speed, ThreadsPerCore = viewModel.ThreadsPerCore, Transistors = viewModel.Transistors }; await _context.Processors.AddAsync(model); await _context.SaveChangesWithUserAsync(userId); return model.Id; } public async Task DeleteAsync(int id, string userId) { Processor item = await _context.Processors.FindAsync(id); if(item is null) return; _context.Processors.Remove(item); await _context.SaveChangesWithUserAsync(userId); } } }