Here is a solution that doesn't require tags. I'm not going to recreate the cell exactly as you want, but this covers the part you are asking about.
Using Swift 2 as I don't have Xcode 6.x anymore.
Let's start with the UITableViewCell
subclass. This is just a dumb container for a label that has two buttons on it. The cell doesn't actually perform any specific button actions, it just passes on the call to closures that are provided in the configuration method. This is part of MVC. The view doesn't interact with the model, just the controller. And the controller provides the closures.
import UIKit
typealias ButtonHandler = (Cell) -> Void
class Cell: UITableViewCell {
@IBOutlet private var label: UILabel!
@IBOutlet private var addButton: UIButton!
@IBOutlet private var subtractButton: UIButton!
var incrementHandler: ButtonHandler?
var decrementHandler: ButtonHandler?
func configureWithValue(value: UInt, incrementHandler: ButtonHandler?, decrementHandler: ButtonHandler?) {
label.text = String(value)
self.incrementHandler = incrementHandler
self.decrementHandler = decrementHandler
}
@IBAction func increment(sender: UIButton) {
incrementHandler?(self)
}
@IBAction func decrement(sender: UIButton) {
decrementHandler?(self)
}
}
Now the controller is just as simple
import UIKit
class ViewController: UITableViewController {
var data: [UInt] = Array(count: 20, repeatedValue: 0)
override func viewDidLoad() {
super.viewDidLoad()
// Do any additional setup after loading the view, typically from a nib.
}
override func numberOfSectionsInTableView(tableView: UITableView) -> Int {
return 1
}
override func tableView(tableView: UITableView, numberOfRowsInSection section: Int) -> Int {
return data.count
}
override func tableView(tableView: UITableView, cellForRowAtIndexPath indexPath: NSIndexPath) -> UITableViewCell {
let cell = tableView.dequeueReusableCellWithIdentifier("Cell", forIndexPath: indexPath) as! Cell
cell.configureWithValue(data[indexPath.row], incrementHandler: incrementHandler(), decrementHandler: decrementHandler())
return cell
}
private func incrementHandler() -> ButtonHandler {
return { [unowned self] cell in
guard let row = self.tableView.indexPathForCell(cell)?.row else { return }
self.data[row] = self.data[row] + UInt(1)
self.reloadCellAtRow(row)
}
}
private func decrementHandler() -> ButtonHandler {
return { [unowned self] cell in
guard
let row = self.tableView.indexPathForCell(cell)?.row
where self.data[row] > 0
else { return }
self.data[row] = self.data[row] - UInt(1)
self.reloadCellAtRow(row)
}
}
private func reloadCellAtRow(row: Int) {
let indexPath = NSIndexPath(forRow: row, inSection: 0)
tableView.beginUpdates()
tableView.reloadRowsAtIndexPaths([indexPath], withRowAnimation: .Automatic)
tableView.endUpdates()
}
}
When the cell is dequeued, it configures the cell with the value to show in the label and provides the closures that handle the button actions. These controllers are what interact with the model to increment and decrement the values that are being displayed. After changing the model, it reloads the changed cell in the tableview.
The closure methods take a single parameter, a reference to the cell, and from this it can find the row of the cell. This is a lot more de-coupled than using tags, which are a very brittle solution to knowing the index of a cell in a tableview.
You can download a full working example (Requires Xcode7) from https://bitbucket.org/abizern/so-32931731/get/ce31699d92a5.zip