I've looked at the other questions on here about subscripting with dictionaries and I didn't see anything that quite fit what my scenario is. It may be that I'm still too new to Swift to realize it but in any case here is my scenario. I'm getting the typical can't "Subscript" dictionary with type string. I've seen the posts on here about it being an optional and needing to unwrap it however when I try that, Xcode suggests that I remove the !, so I do that, then I get the subscript error.
I've watched tons of tutorials on swift development and a lot of them use playgrounds and I never remembered seeing anyone have to do this in any of the tutorials. So I tried the same thing in a playground and it worked.
Here is what I have in the ViewController that DOESN'T work.
var validFields:Dictionary = ["loanBalanceInput":false,"cashOutInput":false,"appraisedValueInput":false,"interestRateInput":false]
func validationSuccess(sender:UITextField){
sender.backgroundColor = green
switch sender {
case loanBalanceInput:
validFields["loanBalanceInput"] = true
break
default:
break
}
}
What I've done is create a dictionary of strings that refer to textfields and their validation status to track whether or not they have been validated. The concept is that when everything in the dictionary is true, I can activate the calculate button.
However I get the "cannot subscript a value of type dictionary with an index of type string" error... However this code in a playground works...
var validatedFields:Dictionary = ["loanBalanceInput":false,"cashOutInput":false,"appraisedValueInput":false,"interestRateInput":false]
validatedFields["loanBalanceInput"]
validatedFields["loanBalanceInput"] = true
I don't understand what's going on here. Is it because this is an optional?
#IBOutlet weak var loanBalanceInput: UITextField!
I'm not unwrapping it in my switch? I'm not trying to get at the value of loanBalanceInput though, I'm just checking to see if it was the sender.
Normally a Swift Dictionary declaration needs also the type of the containing keys and values like
var validFields: Dictionary<String,Bool> = [" ...
but as the compiler can infer the type just delete the annotation.
Related
I'm adding new functionality in my app, which is the ability to add an event in the default calendar set up on the phone. I get the permission and am ready to add the event. I check to see if there is an actual default calendar, but I get the error:
Initializer for conditional binding must have Optional type, not
'EKCalendar'
Now, defaultCalendarForNewEvents is an Optional (see definition below) and it should be perfectly fine to use optional binding to check if it's nil or not. What am I missing?
defaultCalendarForNewEvents definition in EKEventStore.h:
open var defaultCalendarForNewEvents: EKCalendar? { get }
I'm using Swift 3 on iOS11.2.(Edited to correct the Swift version I'm using.)
Here's the code:
if let defaultCalendar = eventStore.defaultCalendarForNewEvents { <-- error line
newEvent.title = "Some Event Name"
newEvent.startDate = Date()
newEvent.endDate = Date()
}
I asked this question at the Swift discussion forum at swift.org and got a response. So as per the response, 'defaultCalendarForNewEvents' was marked non-optional in Swift 3 by accident and that was fixed in Swift 4. That's why there was a discrepancy: documentation showing declaration in Swift 4 but optional binding failing as I'm on Swift 3. Hope this helps someone who is having the same issue.
I was also told that this issue was not release-noted as it was a minor update.
The error is telling you that the defaultCalendarForNewEvents is not, in fact, an Optional. Perhaps there is some nil-coalescing or something else happening that is not visible to you. Regardless, if the compiler is telling you it's not optional there's no need to fight for optional binding.
After updating to Xcode 8.0 and iOS 10, I am getting an error in my code that I didn't before. Let me just walk you through the code that is bugging me.
viewDidLoad:
struct defaultsKeys {
static var localStrings = ""
}
Outside button (IBAction):
var storeUserData = NSUserDefaults.standardUserDefaults()
Inside button (IBAction):
let earlierStrings = storeUserData.stringForKey("localStrings")
The last one, inside the button, is the line that is giving me an error. I am now getting this error:
fatal error: unexpectedly found nil while unwrapping an Optional value
And I wasn't before the update? Has something changed about NSUserDefaults? I am very confused and I hope you can help me :-)
First of all if you want to pass around values inside your program just use local variables as #vikingosegundo stated. Declare local variables and use them.
Second, use NSUserDefault when you want to store variables like for example user-settings or preferences. Do also follow #Adils advice. Use them as follows:
Set value:
NSUserDefaults.standardUserDefaults().setObject("YOUR STRING", forKey: "key")
Get value:
NSUserDefaults.standardUserDefaults().stringForKey("key")
I'm learning Swift for iOS 8 / OSX 10.10 by following this tutorial, and the term "unwrapped value" is used several times, as in this paragraph (under Objects and Class):
When working with optional values, you can write ? before operations
like methods, properties, and subscripting. If the value before the ?
is nil, everything after the ? is ignored and the value of the whole
expression is nil. Otherwise, the optional value is unwrapped, and
everything after the ? acts on the unwrapped value. In both cases, the
value of the whole expression is an optional value.
let optionalSquare: Square? = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare?.sideLength
I don't get it, and searched on the web without luck.
What does this means?
Edit
From Cezary's answer, there's a slight difference between the output of the original code and the final solution (tested on playground) :
Original code
Cezary's solution
The superclass' properties are shown in the output in the second case, while there's an empty object in the first case.
Isn't the result supposed to be identical in both case?
Related Q&A : What is an optional value in Swift?
First, you have to understand what an Optional type is. An optional type basically means that the variable can be nil.
Example:
var canBeNil : Int? = 4
canBeNil = nil
The question mark indicates the fact that canBeNil can be nil.
This would not work:
var cantBeNil : Int = 4
cantBeNil = nil // can't do this
To get the value from your variable if it is optional, you have to unwrap it. This just means putting an exclamation point at the end.
var canBeNil : Int? = 4
println(canBeNil!)
Your code should look like this:
let optionalSquare: Square? = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare!.sideLength
A sidenote:
You can also declare optionals to automatically unwrap by using an exclamation mark instead of a question mark.
Example:
var canBeNil : Int! = 4
print(canBeNil) // no unwrapping needed
So an alternative way to fix your code is:
let optionalSquare: Square! = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare.sideLength
EDIT:
The difference that you're seeing is exactly the symptom of the fact that the optional value is wrapped. There is another layer on top of it. The unwrapped version just shows the straight object because it is, well, unwrapped.
A quick playground comparison:
In the first and second cases, the object is not being automatically unwrapped, so you see two "layers" ({{...}}), whereas in the third case, you see only one layer ({...}) because the object is being automatically unwrapped.
The difference between the first case and the second two cases is that the second two cases will give you a runtime error if optionalSquare is set to nil. Using the syntax in the first case, you can do something like this:
if let sideLength = optionalSquare?.sideLength {
println("sideLength is not nil")
} else {
println("sidelength is nil")
}
The existing correct answer is great, but I found that for me to understand this fully, I needed a good analogy, since this is a very abstract and weird concept.
So, let me help those fellow "right-brained" (visual thinking) developers out by giving a different perspective in addition to the correct answer. Here is a good analogy that helped me a lot.
Birthday Present Wrapping Analogy
Think of optionals as being like birthday presents that come in stiff, hard, colored wrapping.
You don't know if there's anything inside the wrapping until you unwrap the present — maybe there is nothing at all inside! If there is something inside, it could be yet another present, which is also wrapped, and which also might contain nothing. You might even unwrap 100 nested presents to finally discover there was nothing but wrapping.
If the value of the optional is not nil, now you have revealed a box containing something. But, especially if the value is not explicitly typed and is a variable and not a predefined constant, then you may still need to open the box before you can know anything specific about what's in the box, like what type it is, or what the actual value is.
What's In The Box?! Analogy
Even after you unwrap the variable, you are still like Brad Pitt in the last scene in SE7EN (warning: spoilers and very R-rated foul language and violence), because even after you have unwrapped the present, you are in the following situation: you now have nil, or a box containing something (but you don't know what).
You might know the type of the something. For example, if you declared the variable as being type, [Int:Any?], then you'd know you had a (potentially empty) Dictionary with integer subscripts that yield wrapped contents of any old type.
That is why dealing with collection types (Dictionaries and Arrays) in Swift can get kind of hairy.
Case in point:
typealias presentType = [Int:Any?]
func wrap(i:Int, gift:Any?) -> presentType? {
if(i != 0) {
let box : presentType = [i:wrap(i-1,gift:gift)]
return box
}
else {
let box = [i:gift]
return box
}
}
func getGift() -> String? {
return "foobar"
}
let f00 = wrap(10,gift:getGift())
//Now we have to unwrap f00, unwrap its entry, then force cast it into the type we hope it is, and then repeat this in nested fashion until we get to the final value.
var b4r = (((((((((((f00![10]! as! [Int:Any?])[9]! as! [Int:Any?])[8]! as! [Int:Any?])[7]! as! [Int:Any?])[6]! as! [Int:Any?])[5]! as! [Int:Any?])[4]! as! [Int:Any?])[3]! as! [Int:Any?])[2]! as! [Int:Any?])[1]! as! [Int:Any?])[0])
//Now we have to DOUBLE UNWRAP the final value (because, remember, getGift returns an optional) AND force cast it to the type we hope it is
let asdf : String = b4r!! as! String
print(asdf)
Swift places a high premium on type safety. The entire Swift language was designed with safety in mind. It is one of the hallmarks of Swift and one that you should welcome with open arms. It will assist in the development of clean, readable code and help keep your application from crashing.
All optionals in Swift are demarcated with the ? symbol. By setting the ? after the name of the type in which you are declaring as optional you are essentially casting this not as the type in which is before the ?, but instead as the optional type.
Note: A variable or type Int is not the same as Int?. They are two different types that can not be operated on each other.
Using Optional
var myString: String?
myString = "foobar"
This does not mean that you are working with a type of String. This means that you are working with a type of String? (String Optional, or Optional String). In fact, whenever you attempt to
print(myString)
at runtime, the debug console will print Optional("foobar"). The "Optional()" part indicates that this variable may or may not have a value at runtime, but just so happens to currently be containing the string "foobar". This "Optional()" indication will remain unless you do what is called "unwrapping" the optional value.
Unwrapping an optional means that you are now casting that type as non-optional. This will generate a new type and assign the value that resided within that optional to the new non-optional type. This way you can perform operations on that variable as it has been guaranteed by the compiler to have a solid value.
Conditionally Unwrapping will check if the value in the optional is nil or not. If it is not nil, there will be a newly created constant variable that will be assigned the value and unwrapped into the non-optional constant. And from there you may safely use the non-optional in the if block.
Note: You can give your conditionally unwrapped constant the same name as the optional variable you are unwrapping.
if let myString = myString {
print(myString)
// will print "foobar"
}
Conditionally unwrapping optionals is the cleanest way to access an optional's value because if it contains a nil value then everything within the if let block will not execute. Of course, like any if statement, you may include an else block
if let myString = myString {
print(myString)
// will print "foobar"
}
else {
print("No value")
}
Forcibly Unwrapping is done by employing what is known as the ! ("bang") operator. This is less safe but still allows your code to compile. However whenever you use the bang operator you must be 1000% certain that your variable does in fact contain a solid value before forcibly unwrapping.
var myString: String?
myString = "foobar"
print(myString!)
This above is entirely valid Swift code. It prints out the value of myString that was set as "foobar". The user would see foobar printed in the console and that's about it. But let's assume the value was never set:
var myString: String?
print(myString!)
Now we have a different situation on our hands. Unlike Objective-C, whenever an attempt is made to forcibly unwrap an optional, and the optional has not been set and is nil, when you try to unwrap the optional to see what's inside your application will crash.
Unwrapping w/ Type Casting. As we said earlier that while you are unwrapping the optional you are actually casting to a non-optional type, you can also cast the non-optional to a different type. For example:
var something: Any?
Somewhere in our code the variable something will get set with some value. Maybe we are using generics or maybe there is some other logic that is going on that will cause this to change. So later in our code we want to use something but still be able to treat it differently if it is a different type. In this case you will want to use the as keyword to determine this:
Note: The as operator is how you type cast in Swift.
// Conditionally
if let thing = something as? Int {
print(thing) // 0
}
// Optionally
let thing = something as? Int
print(thing) // Optional(0)
// Forcibly
let thing = something as! Int
print(thing) // 0, if no exception is raised
Notice the difference between the two as keywords. Like before when we forcibly unwrapped an optional we used the ! bang operator to do so. Here you will do the same thing but instead of casting as just a non-optional you are casting it also as Int. And it must be able to be downcast as Int, otherwise, like using the bang operator when the value is nil your application will crash.
And in order to use these variables at all in some sort or mathematical operation they must be unwrapped in order to do so.
For instance, in Swift only valid number data types of the same kind may be operated on each other. When you cast a type with the as! you are forcing the downcast of that variable as though you are certain it is of that type, therefore safe to operate on and not crash your application. This is ok as long as the variable indeed is of the type you are casting it to, otherwise you'll have a mess on your hands.
Nonetheless casting with as! will allow your code to compile. By casting with an as? is a different story. In fact, as? declares your Int as a completely different data type all together.
Now it is Optional(0)
And if you ever tried to do your homework writing something like
1 + Optional(1) = 2
Your math teacher would have likely given you an "F". Same with Swift. Except Swift would rather not compile at all rather than give you a grade. Because at the end of the day the optional may in fact be nil.
Safety First Kids.
'?' means optional chaining expression
the'!'means is force-value
There are 7 ways to unwrapping optional value in Swift.
Optional Binding - Safe
Optional Chaining - Safe
Optional Pattern - Safe
Nil Coalescing - Safe
Guard Statement - Safe
Force Unwrapping - Unsafe
Implicit Unwrapping - Unsafe
There are a lot of questions on Stack Overflow related to this error. I’ve read some excellent posts on how Optionals work and this error in particular. However, I haven’t found any information about the best way to figure out which value is being set to nil and causing the error in the first place.
Are there any good debugging techniques to find out which Optional is causing this error?
Here's at least half an answer (would the other respondents please read the question first!): Use the simulator instead of an actual iOS device.
The debugger seems to be pretty good at pointing to the line with the maltreated optional that's causing the trouble... unless you are like me, choosing to run the code on an iOS device directly from time to time. In the latter case, the debugger lands me right in the middle of some assembler code with no sensible stack trace. Switching back to the simulator gives the exact line of code at fault.
You Xcode does not crash at the incorrect line of code?
This does not response to the question but it's important to note:
When you are not sure about an optional variable, you have to verify if it contains value or not, by using a pattern like this:
var myOptional : String?
if let aString = myOptional {
//do your work with aString.
}
What basically optional value is "?" when you place ? after a datatype that is optional while if it is unwrapped and a nil appears theres no error but it you place "!" exclamation mark after datatype then if it unwrap the variable and nil appears then there's crash or error so often use optional as
var myVariable : DataType ? = DataType()
or
var myVariable : DataType ? = nil
or
var myVariable : DataType ? = value
An optional in Swift is a variable that can hold either a value or no value. Optionals are written by appending a ? to the type:
var myOptionalString:String? = "Hello"
Some places optionals are useful:
When a property can be there or not there, like middleName or spouse
in a Person class
When a method can return a value or nothing, like
searching for a match in an array
When a method can return either a result or get an error and
return nothing
Delegate properties (which don't always have to be set)
For weak properties in classes. The thing they point to can
be set to nil
For a large resource that might have to be released to
reclaim memory
https://medium.com/#rrridges/swift-optionals-a10dcfd8aab5
I'm learning Swift for iOS 8 / OSX 10.10 by following this tutorial, and the term "unwrapped value" is used several times, as in this paragraph (under Objects and Class):
When working with optional values, you can write ? before operations
like methods, properties, and subscripting. If the value before the ?
is nil, everything after the ? is ignored and the value of the whole
expression is nil. Otherwise, the optional value is unwrapped, and
everything after the ? acts on the unwrapped value. In both cases, the
value of the whole expression is an optional value.
let optionalSquare: Square? = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare?.sideLength
I don't get it, and searched on the web without luck.
What does this means?
Edit
From Cezary's answer, there's a slight difference between the output of the original code and the final solution (tested on playground) :
Original code
Cezary's solution
The superclass' properties are shown in the output in the second case, while there's an empty object in the first case.
Isn't the result supposed to be identical in both case?
Related Q&A : What is an optional value in Swift?
First, you have to understand what an Optional type is. An optional type basically means that the variable can be nil.
Example:
var canBeNil : Int? = 4
canBeNil = nil
The question mark indicates the fact that canBeNil can be nil.
This would not work:
var cantBeNil : Int = 4
cantBeNil = nil // can't do this
To get the value from your variable if it is optional, you have to unwrap it. This just means putting an exclamation point at the end.
var canBeNil : Int? = 4
println(canBeNil!)
Your code should look like this:
let optionalSquare: Square? = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare!.sideLength
A sidenote:
You can also declare optionals to automatically unwrap by using an exclamation mark instead of a question mark.
Example:
var canBeNil : Int! = 4
print(canBeNil) // no unwrapping needed
So an alternative way to fix your code is:
let optionalSquare: Square! = Square(sideLength: 2.5, name: "optional square")
let sideLength = optionalSquare.sideLength
EDIT:
The difference that you're seeing is exactly the symptom of the fact that the optional value is wrapped. There is another layer on top of it. The unwrapped version just shows the straight object because it is, well, unwrapped.
A quick playground comparison:
In the first and second cases, the object is not being automatically unwrapped, so you see two "layers" ({{...}}), whereas in the third case, you see only one layer ({...}) because the object is being automatically unwrapped.
The difference between the first case and the second two cases is that the second two cases will give you a runtime error if optionalSquare is set to nil. Using the syntax in the first case, you can do something like this:
if let sideLength = optionalSquare?.sideLength {
println("sideLength is not nil")
} else {
println("sidelength is nil")
}
The existing correct answer is great, but I found that for me to understand this fully, I needed a good analogy, since this is a very abstract and weird concept.
So, let me help those fellow "right-brained" (visual thinking) developers out by giving a different perspective in addition to the correct answer. Here is a good analogy that helped me a lot.
Birthday Present Wrapping Analogy
Think of optionals as being like birthday presents that come in stiff, hard, colored wrapping.
You don't know if there's anything inside the wrapping until you unwrap the present — maybe there is nothing at all inside! If there is something inside, it could be yet another present, which is also wrapped, and which also might contain nothing. You might even unwrap 100 nested presents to finally discover there was nothing but wrapping.
If the value of the optional is not nil, now you have revealed a box containing something. But, especially if the value is not explicitly typed and is a variable and not a predefined constant, then you may still need to open the box before you can know anything specific about what's in the box, like what type it is, or what the actual value is.
What's In The Box?! Analogy
Even after you unwrap the variable, you are still like Brad Pitt in the last scene in SE7EN (warning: spoilers and very R-rated foul language and violence), because even after you have unwrapped the present, you are in the following situation: you now have nil, or a box containing something (but you don't know what).
You might know the type of the something. For example, if you declared the variable as being type, [Int:Any?], then you'd know you had a (potentially empty) Dictionary with integer subscripts that yield wrapped contents of any old type.
That is why dealing with collection types (Dictionaries and Arrays) in Swift can get kind of hairy.
Case in point:
typealias presentType = [Int:Any?]
func wrap(i:Int, gift:Any?) -> presentType? {
if(i != 0) {
let box : presentType = [i:wrap(i-1,gift:gift)]
return box
}
else {
let box = [i:gift]
return box
}
}
func getGift() -> String? {
return "foobar"
}
let f00 = wrap(10,gift:getGift())
//Now we have to unwrap f00, unwrap its entry, then force cast it into the type we hope it is, and then repeat this in nested fashion until we get to the final value.
var b4r = (((((((((((f00![10]! as! [Int:Any?])[9]! as! [Int:Any?])[8]! as! [Int:Any?])[7]! as! [Int:Any?])[6]! as! [Int:Any?])[5]! as! [Int:Any?])[4]! as! [Int:Any?])[3]! as! [Int:Any?])[2]! as! [Int:Any?])[1]! as! [Int:Any?])[0])
//Now we have to DOUBLE UNWRAP the final value (because, remember, getGift returns an optional) AND force cast it to the type we hope it is
let asdf : String = b4r!! as! String
print(asdf)
Swift places a high premium on type safety. The entire Swift language was designed with safety in mind. It is one of the hallmarks of Swift and one that you should welcome with open arms. It will assist in the development of clean, readable code and help keep your application from crashing.
All optionals in Swift are demarcated with the ? symbol. By setting the ? after the name of the type in which you are declaring as optional you are essentially casting this not as the type in which is before the ?, but instead as the optional type.
Note: A variable or type Int is not the same as Int?. They are two different types that can not be operated on each other.
Using Optional
var myString: String?
myString = "foobar"
This does not mean that you are working with a type of String. This means that you are working with a type of String? (String Optional, or Optional String). In fact, whenever you attempt to
print(myString)
at runtime, the debug console will print Optional("foobar"). The "Optional()" part indicates that this variable may or may not have a value at runtime, but just so happens to currently be containing the string "foobar". This "Optional()" indication will remain unless you do what is called "unwrapping" the optional value.
Unwrapping an optional means that you are now casting that type as non-optional. This will generate a new type and assign the value that resided within that optional to the new non-optional type. This way you can perform operations on that variable as it has been guaranteed by the compiler to have a solid value.
Conditionally Unwrapping will check if the value in the optional is nil or not. If it is not nil, there will be a newly created constant variable that will be assigned the value and unwrapped into the non-optional constant. And from there you may safely use the non-optional in the if block.
Note: You can give your conditionally unwrapped constant the same name as the optional variable you are unwrapping.
if let myString = myString {
print(myString)
// will print "foobar"
}
Conditionally unwrapping optionals is the cleanest way to access an optional's value because if it contains a nil value then everything within the if let block will not execute. Of course, like any if statement, you may include an else block
if let myString = myString {
print(myString)
// will print "foobar"
}
else {
print("No value")
}
Forcibly Unwrapping is done by employing what is known as the ! ("bang") operator. This is less safe but still allows your code to compile. However whenever you use the bang operator you must be 1000% certain that your variable does in fact contain a solid value before forcibly unwrapping.
var myString: String?
myString = "foobar"
print(myString!)
This above is entirely valid Swift code. It prints out the value of myString that was set as "foobar". The user would see foobar printed in the console and that's about it. But let's assume the value was never set:
var myString: String?
print(myString!)
Now we have a different situation on our hands. Unlike Objective-C, whenever an attempt is made to forcibly unwrap an optional, and the optional has not been set and is nil, when you try to unwrap the optional to see what's inside your application will crash.
Unwrapping w/ Type Casting. As we said earlier that while you are unwrapping the optional you are actually casting to a non-optional type, you can also cast the non-optional to a different type. For example:
var something: Any?
Somewhere in our code the variable something will get set with some value. Maybe we are using generics or maybe there is some other logic that is going on that will cause this to change. So later in our code we want to use something but still be able to treat it differently if it is a different type. In this case you will want to use the as keyword to determine this:
Note: The as operator is how you type cast in Swift.
// Conditionally
if let thing = something as? Int {
print(thing) // 0
}
// Optionally
let thing = something as? Int
print(thing) // Optional(0)
// Forcibly
let thing = something as! Int
print(thing) // 0, if no exception is raised
Notice the difference between the two as keywords. Like before when we forcibly unwrapped an optional we used the ! bang operator to do so. Here you will do the same thing but instead of casting as just a non-optional you are casting it also as Int. And it must be able to be downcast as Int, otherwise, like using the bang operator when the value is nil your application will crash.
And in order to use these variables at all in some sort or mathematical operation they must be unwrapped in order to do so.
For instance, in Swift only valid number data types of the same kind may be operated on each other. When you cast a type with the as! you are forcing the downcast of that variable as though you are certain it is of that type, therefore safe to operate on and not crash your application. This is ok as long as the variable indeed is of the type you are casting it to, otherwise you'll have a mess on your hands.
Nonetheless casting with as! will allow your code to compile. By casting with an as? is a different story. In fact, as? declares your Int as a completely different data type all together.
Now it is Optional(0)
And if you ever tried to do your homework writing something like
1 + Optional(1) = 2
Your math teacher would have likely given you an "F". Same with Swift. Except Swift would rather not compile at all rather than give you a grade. Because at the end of the day the optional may in fact be nil.
Safety First Kids.
'?' means optional chaining expression
the'!'means is force-value
There are 7 ways to unwrapping optional value in Swift.
Optional Binding - Safe
Optional Chaining - Safe
Optional Pattern - Safe
Nil Coalescing - Safe
Guard Statement - Safe
Force Unwrapping - Unsafe
Implicit Unwrapping - Unsafe