/****************************************************************************** // MARECHAI: Master repository of computing history artifacts information // ---------------------------------------------------------------------------- // // Filename : ProcessorsByOwnedMachinesController.cs // Author(s) : Natalia Portillo // // --[ Description ] ---------------------------------------------------------- // // Processors by machine admin controller // // --[ 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 © 2003-2018 Natalia Portillo *******************************************************************************/ using System.Linq; using System.Threading.Tasks; using Cicm.Database.Models; using cicm_web.Areas.Admin.Models; using Microsoft.AspNetCore.Authorization; using Microsoft.AspNetCore.Mvc; using Microsoft.AspNetCore.Mvc.Rendering; using Microsoft.EntityFrameworkCore; using Microsoft.EntityFrameworkCore.Query; namespace cicm_web.Areas.Admin.Controllers { [Area("Admin")] [Authorize] public class ProcessorsByOwnedMachinesController : Controller { readonly cicmContext _context; public ProcessorsByOwnedMachinesController(cicmContext context) { _context = context; } // GET: Admin/ProcessorsByOwnedMachines public async Task Index() { IIncludableQueryable cicmContext = _context.ProcessorsByOwnedMachine.Include(p => p.OwnedMachine).Include(p => p.Processor); return View(await cicmContext.OrderBy(p => p.OwnedMachine.Machine.Name).ThenBy(p => p.Processor.Name) .Select(p => new ProcessorsByMachineViewModel { Id = p.Id, Machine = $"{p.OwnedMachine.Machine.Company.Name} {p.OwnedMachine.Machine.Name} <{p.OwnedMachine.User.UserName}>", Processor = p.Processor.Name, Speed = p.Speed }).ToListAsync()); } // GET: Admin/ProcessorsByOwnedMachines/Details/5 public async Task Details(long? id) { if(id == null) return NotFound(); ProcessorsByMachineViewModel processorsByOwnedMachine = await _context.ProcessorsByOwnedMachine.OrderBy(p => p.OwnedMachine.Machine.Name) .ThenBy(p => p.Processor.Name).Select(p => new ProcessorsByMachineViewModel { Id = p.Id, Machine = $"{p.OwnedMachine.Machine.Company.Name} {p.OwnedMachine.Machine.Name} <{p.OwnedMachine.User.UserName}>", Processor = p.Processor.Name, Speed = p.Speed }).FirstOrDefaultAsync(m => m.Id == id); if(processorsByOwnedMachine == null) return NotFound(); return View(processorsByOwnedMachine); } // GET: Admin/ProcessorsByOwnedMachines/Create public IActionResult Create() { ViewData["OwnedMachineId"] = new SelectList(_context.OwnedMachines.OrderBy(m => m.Machine.Company.Name).ThenBy(m => m.Machine.Name).ThenBy(m => m.User.UserName).Select(m => new {m.Id, Name = $"{m.Machine.Company.Name} {m.Machine.Name} <{m.User.UserName}>"}), "Id", "Name"); ViewData["ProcessorId"] = new SelectList(_context.Processors, "Id", "Name"); return View(); } // POST: Admin/ProcessorsByOwnedMachines/Create // To protect from overposting attacks, please enable the specific properties you want to bind to, for // more details see http://go.microsoft.com/fwlink/?LinkId=317598. [HttpPost] [ValidateAntiForgeryToken] public async Task Create([Bind("ProcessorId,OwnedMachineId,Speed,Id")] ProcessorsByOwnedMachine processorsByOwnedMachine) { if(ModelState.IsValid) { _context.Add(processorsByOwnedMachine); await _context.SaveChangesAsync(); return RedirectToAction(nameof(Index)); } ViewData["OwnedMachineId"] = new SelectList(_context.OwnedMachines.OrderBy(m => m.Machine.Company.Name).ThenBy(m => m.Machine.Name).ThenBy(m => m.User.UserName).Select(m => new {m.Id, Name = $"{m.Machine.Company.Name} {m.Machine.Name} <{m.User.UserName}>"}), "Id", "Name", processorsByOwnedMachine.OwnedMachineId); ViewData["ProcessorId"] = new SelectList(_context.Processors, "Id", "Name", processorsByOwnedMachine.ProcessorId); return View(processorsByOwnedMachine); } // GET: Admin/ProcessorsByOwnedMachines/Edit/5 public async Task Edit(long? id) { if(id == null) return NotFound(); ProcessorsByOwnedMachine processorsByOwnedMachine = await _context.ProcessorsByOwnedMachine.FindAsync(id); if(processorsByOwnedMachine == null) return NotFound(); ViewData["OwnedMachineId"] = new SelectList(_context.OwnedMachines.OrderBy(m => m.Machine.Company.Name).ThenBy(m => m.Machine.Name).ThenBy(m => m.User.UserName).Select(m => new {m.Id, Name = $"{m.Machine.Company.Name} {m.Machine.Name} <{m.User.UserName}>"}), "Id", "Name", processorsByOwnedMachine.OwnedMachineId); ViewData["ProcessorId"] = new SelectList(_context.Processors, "Id", "Name", processorsByOwnedMachine.ProcessorId); return View(processorsByOwnedMachine); } // POST: Admin/ProcessorsByOwnedMachines/Edit/5 // To protect from overposting attacks, please enable the specific properties you want to bind to, for // more details see http://go.microsoft.com/fwlink/?LinkId=317598. [HttpPost] [ValidateAntiForgeryToken] public async Task Edit(long id, [Bind("ProcessorId,OwnedMachineId,Speed,Id")] ProcessorsByOwnedMachine processorsByOwnedMachine) { if(id != processorsByOwnedMachine.Id) return NotFound(); if(ModelState.IsValid) { try { _context.Update(processorsByOwnedMachine); await _context.SaveChangesAsync(); } catch(DbUpdateConcurrencyException) { if(!ProcessorsByOwnedMachineExists(processorsByOwnedMachine.Id)) return NotFound(); throw; } return RedirectToAction(nameof(Index)); } ViewData["OwnedMachineId"] = new SelectList(_context.OwnedMachines.OrderBy(m => m.Machine.Company.Name).ThenBy(m => m.Machine.Name).ThenBy(m => m.User.UserName).Select(m => new {m.Id, Name = $"{m.Machine.Company.Name} {m.Machine.Name} <{m.User.UserName}>"}), "Id", "Name", processorsByOwnedMachine.OwnedMachineId); ViewData["ProcessorId"] = new SelectList(_context.Processors, "Id", "Name", processorsByOwnedMachine.ProcessorId); return View(processorsByOwnedMachine); } // GET: Admin/ProcessorsByOwnedMachines/Delete/5 public async Task Delete(long? id) { if(id == null) return NotFound(); ProcessorsByMachineViewModel processorsByOwnedMachine = await _context.ProcessorsByOwnedMachine.OrderBy(p => p.OwnedMachine.Machine.Name) .ThenBy(p => p.Processor.Name).Select(p => new ProcessorsByMachineViewModel { Id = p.Id, Machine = $"{p.OwnedMachine.Machine.Company.Name} {p.OwnedMachine.Machine.Name} <{p.OwnedMachine.User.UserName}>", Processor = p.Processor.Name, Speed = p.Speed }).FirstOrDefaultAsync(m => m.Id == id); if(processorsByOwnedMachine == null) return NotFound(); return View(processorsByOwnedMachine); } // POST: Admin/ProcessorsByOwnedMachines/Delete/5 [HttpPost] [ActionName("Delete")] [ValidateAntiForgeryToken] public async Task DeleteConfirmed(long id) { ProcessorsByOwnedMachine processorsByOwnedMachine = await _context.ProcessorsByOwnedMachine.FindAsync(id); _context.ProcessorsByOwnedMachine.Remove(processorsByOwnedMachine); await _context.SaveChangesAsync(); return RedirectToAction(nameof(Index)); } bool ProcessorsByOwnedMachineExists(long id) { return _context.ProcessorsByOwnedMachine.Any(e => e.Id == id); } } }