Does a simple property need synchronization? [duplicate] - c#

I would like to know if C# automatically implemented properties, like public static T Prop { get; set; }, are thread-safe or not. Thanks!

Section 10.7.4 of the C# specification states:
When a property is specified as an
automatically implemented property, a
hidden backing field is automatically
available for the property, and the
accessors are implemented to read from
and write to that backing field. The
following example:
public class Point {
public int X { get; set; } // automatically implemented
public int Y { get; set; } // automatically implemented
}
is equivalent to the following declaration:
public class Point {
private int x;
private int y;
public int X { get { return x; } set { x = value; } }
public int Y { get { return y; } set { y = value; } }
}
That's what we promise, and that's what you get. The point of auto properties is to do the most basic, simple, cheap thing; if you want to do something fancier then you should write a "real" property.

It appears not. This is the decompilation with Reflector:
private static string Test
{
[CompilerGenerated]
get
{
return <Test>k__BackingField;
}
[CompilerGenerated]
set
{
<Test>k__BackingField = value;
}
}

No. You must wrap them in thread-locking mechanisms.
object _lock = new object();
public static Main(string[] args)
{
lock(_lock)
{
Prop = new T();
}
T val = null;
lock(_lock)
{
val = Prop;
}
}

There is no synchronization provided with automatic properties, including static properties.
If you need full thread safety, you'll want to use your own properties with a backing field, and handle the synchronization yourself.

For completeness, field-like events do have thread-safety built in, but they are alone in this. Automatically implemented properties do not have any such features. You can, however, do something like:
public static double SomeProp
{ // ### NOT RECOMMENDED ###
[MethodImpl(MethodImplOptions.Synchronized)] get;
[MethodImpl(MethodImplOptions.Synchronized)] set;
}
The problem with this is that it will lock the Type, which is a bad thing. I would implement my own synchronization for this, personally.

I don't believe so. I believe they are just syntatic sugar for:
private static T _prop;
public static T Prop
{
get { return _prop; }
set { _prop = value; }
}

No, they not threadsafe. Static properties just as vulnerable as static fields are to concurrency issues.

Related

Assign different types of variable to one type

As a very simplified and stupid example of what I'm dealing with, suppose I had the following class with a simple static int property:
public class MyClass
{
public static int MyVar { get; set; }
}
So, if I wanted to set that property via code, it would be easy enough with something such as:
MyClass.MyVar = 2;
But, how could I take care of (again, to simplify the example) passing in a string and have it converted to an int?
The only way I could think of doing it is to create a helper method such as:
public class MyClass
{
public static int MyVar { get; private set; }
public static void SetMyVar(string sMyVar)
{
MyVar = int.Parse(sMyVar);
}
}
And then in code run:
MyClass.SetMyVar("2");
I would love to know if there was a better way to accomplish this than having to add in that extra method.
Although you definitely shouldn't do this because it's confusing to read, you could create the property this way
class MyClass
{
private static int _property = 0;
public static object Property
{
get
{
return _property;
}
set
{
_property = Convert.ToInt32(value);
}
}
}
You would have to cast this to an int whenever you wanted to use it as an integer but this is best I could think of.
is this what you were trying to do?
class newclass
{
private static int MyVarValue = 0;
public static int MyVar
{
get;
set
{
MyVarValue = Convert.ToInt32(value);
}
}
}
This would not compile because the value that a property gets set to has to be of the same type as the property itself. But if you are taking a list of objects in a constructor and assigning them to the properties, there you can do something like this...
class newclass
{
private static int MyVarValue = 0;
public newclass(List<object> startingList)
{
MyVarValue = Convert.ToInt32(startingList[0]);
}
}
You can use the compiler's method overload resolution to pick a SetMyValue method depending on the type of the argument. Inside each SetMyValue method you have a mechanism to convert all of the different input values to the same underlying type.
Doing this is probably a bad idea - but here goes anyway. It doesn't have quite the semantics that you're asking for but it's close:
//A class with multiple 'set' methods that will silently handle
//type conversions
class MyClass{
private int myValue;
public int MyValue { { get return this.myValue; } }
public void SetMyValue(int value){
this.myValue = value;
}
public void SetMyValue(string value){
this.myValue = Convert.ToInt32(value);
}
}
In statically typed languages, switching types silently in a way that loses information is not a very wise idea. There are other, dynamically typed languages that let you play fast and loose with types but C# is not one of them. You have to go out of your way in C# to get dynamic typing.
Doing this is probably a pain in the butt from a maintenance standpoint. I would put some more thought into the underlying problem that you're trying to solve that lead to this question.

What's the difference between a property with a private setter and a property with no setter?

If I want a read-only property, I write it like:
public int MyProperty { get { //Code goes here } }
However, the Microsoft example (and a few other examples I've seen) are written like:
public int MyProperty { get; private set; }
Is there any difference between these two, and should I start writing properties like this?
As you can see in your second sample, you can leave out the implementation for a property. .NET will then automatically create a local variable for the property and implement simple getting and setting.
public int MyProperty { get; private set; }
is actually equivalent to
private int _myProperty;
public int MyProperty {
get { return _myProperty; }
private set { _myProperty = value; }
}
Writing
public int MyProperty { get; }
does not work at all, as automatic properties need to implement a getter and a setter, while
public int MyProperty { get; private set; }
leaves you with a property that may return any int, but can only be changed within the current class.
public int MyProperty { get { ... } }
creates a read-only property.
Question is: what do you need? If you already have a member variable that's used within your class and you only want to return the current value using a property, you're perfectly fine with
public int MyProperty { get { return ...; }}
However, if you want a read-only property, which you need to set within your code (but not from other classes) without explicitly declaring a member variable, you have to go with the private set approach.
With private setter you can only assign property value inside of instance when property is without setter you can't set its value anywhere.
If you don't use an explicit member assignment in the property, you'll have to declare a private set at least in order to be able to set a value to this property. Otherwise, you'll get a warning at compile-time saying that your property cannot be assigned.
If you use an explicit member, you'll be able to assign a value to this member directly, without needing to add a private set:
private int member ;
public int MyProperty {
get { return member; }
}
// ...
member = 2;
int anotherVariable = MyProperty; // anotherVariable == 2
public int MyProperty
{
get
{
// Your own logic, like lazy loading
return _myProperty ?? (_myProperty = GetMyProperty());
}
}
A property with only a getter is very useful if you need your own logic behind the access of that property, in particular when you need the property to be lazy loaded.
public int MyProperty { get; private set; }
A property with a private setter is useful if you need the property not te be changed from the outside, but still maintained from within the class.
In both cases, you can have a backing data field for the actual value, but in the former, you'll have to maintain that yourself, and in the latter, it is maintained for you by the generated code.
There is a difference when you access the object with reflection.
public class Foo
{
public string Bar { get; private set; }
}
// .....
internal static void Main()
{
Foo foo = new Foo();
foo.GetType().GetProperty("Bar").SetValue(foo, "private?", null);
Console.WriteLine(foo.Bar);
}

How do you keep your backing fields organized? (Styles/Patterns)

c# 3.0 offers us getters and setters with compiler generated backing fields - this is really great, but there are plenty of times that you still need to use a backing field.
In a perfect world (opinion), you would be able to do something like
class MyClass {
... stuff ...
public string MyProperty {
private string _myBackingField = "Foo";
get { return _myBackingField; }
set { _myBackingField = value; }
}
}
instead of
class MyClass {
private string _myBackingField = "Foo";
... stuff ...
public string MyProperty {
get { return _myBackingField; }
set { _myBackingField = value; }
}
}
Does anyone have suggestions or techniques which come close to this? Or to put it another way - what is the clearest way to keep your backing fields and properties organized.
I still prefer
class MyClass {
private string _myBackingField = "Foo";
private string _myOtherBackingField = "bar";
... stuff ...
public string MyProperty {
get { return _myBackingField; }
set { _myBackingField = value; }
}
public string MyOtherProperty {
get { return _myOtherBackingField; }
set { _myOtherBackingField = value; }
}
}
If the lack of proximity bothers you, you can put the backing field for each property above the property it services.
class MyClass {
private string _myBackingField = "Foo";
public string MyProperty {
get { return _myBackingField; }
set { _myBackingField = value; }
}
private string _myOtherBackingField = "bar";
public string MyOtherProperty {
get { return _myOtherBackingField; }
set { _myOtherBackingField = value; }
}
}
I tend to keep the backing fields together at the top, but then I do that with method variables too. Perhaps its a carry over from some of the older languages where variable declaration was always the first step, but it just seems more organized to me than declaring variables inline as needed.
If you don't like declaring variables at the top, the closest I've seen to your "ideal" style would be:
private int _integer1 = 0;
public int Integer1
{
get {return _integer1;}
set {_integer1 = value;}
}
What I prefer:
public int Integer1
{
get {return _integer1;}
set {_integer1 = value;}
}
private int _integer1 = 0;
Why?
because the property is much more
important than the backing field so
it should be read as the first.
if you comment your property, what reads nicer?
this
private int _integer1 = 0;
///<summary>
/// this is my property, enjoy it
///</summary>
public int Integer1
{
get {return _integer1;}
set {_integer1 = value;}
}
or
///<summary>
/// this is my property, enjoy it
///</summary>
public int Integer1
{
get {return _integer1;}
set {_integer1 = value;}
}
private int _integer1 = 0;
The approchach with the backing field at the end is much more readable imho. The same holds for applying attributes to the property.
Why would you put "...stuff..." between the property and the field? I'm a firm believer in keeping tightly-coupled things as close as possible:
class MyClass {
... stuff ...
private string _myBackingField = "Foo";
public string MyProperty {
get { return _myBackingField; }
set { _myBackingField = value; }
}
}
I would also not introduce an extra field unless I had to:
because I need logic the in accessors
for (BinaryFormatter) serialization reasons
In the example given, I'd just use an auto prop:
class MyClass {
... stuff ...
public MyClass() {
MyProperty = "Foo";
}
[DefaultValue("Foo")]
public string MyProperty { get;set; }
}
Obviously, some kind of auto-prop syntax that allowed a default would be nice here, but I don't need it, so I don't expect it any time soon. It doesn't solve a big enough problem to be worth much effort...
I agree that the OP's "perfect world" example would be useful. An auto-property wouldn't work for a lazy-loading scenario:
class MyClass
{
... stuff ...
public string MyProperty
{
private string _myBackingField;
get
{
if (_myBackingField == null)
{
myBackingField = ... load field ...;
}
return _myBackingField;
}
set { _myBackingField = value; }
}
}
In fact I raised this as a suggestion on Microsoft Connect some time ago.
In practice, it doesn't seem to matter.
In my experience, once a class passes a certain threshold of complexity (which is basically the threshold between "trivial" and "non-trivial"), I no longer navigate through the class by scrolling around in its source, I navigate by using Go To Definition and Find Usages.
Using linear proximity to imply things about relationships between class members seems like a good idea, but I think it really isn't. If I see this:
private string _Foo;
public string Foo
{
// arbitrarily complex get/set logic
}
the implication is clear: _Foo is used only by the Foo property. That implication's not dependable, though. The only way for me to be certain that there's no code in the class that's manipulating _Foo is to inspect it. Well, if I can't rely on proximity to tell me anything, why should I care about proximity at all?
These days, I just alphabetize my class members from the start. This frees me up from having to think about something (where should I put this member, and why should I choose that place for it?) that doesn't really matter.

Are C# auto-implemented static properties thread-safe?

I would like to know if C# automatically implemented properties, like public static T Prop { get; set; }, are thread-safe or not. Thanks!
Section 10.7.4 of the C# specification states:
When a property is specified as an
automatically implemented property, a
hidden backing field is automatically
available for the property, and the
accessors are implemented to read from
and write to that backing field. The
following example:
public class Point {
public int X { get; set; } // automatically implemented
public int Y { get; set; } // automatically implemented
}
is equivalent to the following declaration:
public class Point {
private int x;
private int y;
public int X { get { return x; } set { x = value; } }
public int Y { get { return y; } set { y = value; } }
}
That's what we promise, and that's what you get. The point of auto properties is to do the most basic, simple, cheap thing; if you want to do something fancier then you should write a "real" property.
It appears not. This is the decompilation with Reflector:
private static string Test
{
[CompilerGenerated]
get
{
return <Test>k__BackingField;
}
[CompilerGenerated]
set
{
<Test>k__BackingField = value;
}
}
No. You must wrap them in thread-locking mechanisms.
object _lock = new object();
public static Main(string[] args)
{
lock(_lock)
{
Prop = new T();
}
T val = null;
lock(_lock)
{
val = Prop;
}
}
There is no synchronization provided with automatic properties, including static properties.
If you need full thread safety, you'll want to use your own properties with a backing field, and handle the synchronization yourself.
For completeness, field-like events do have thread-safety built in, but they are alone in this. Automatically implemented properties do not have any such features. You can, however, do something like:
public static double SomeProp
{ // ### NOT RECOMMENDED ###
[MethodImpl(MethodImplOptions.Synchronized)] get;
[MethodImpl(MethodImplOptions.Synchronized)] set;
}
The problem with this is that it will lock the Type, which is a bad thing. I would implement my own synchronization for this, personally.
I don't believe so. I believe they are just syntatic sugar for:
private static T _prop;
public static T Prop
{
get { return _prop; }
set { _prop = value; }
}
No, they not threadsafe. Static properties just as vulnerable as static fields are to concurrency issues.

Is it possible to have fields that are assignable only once?

I need a field that can be assigned to from where ever I want, but it should be possible to assign it only once (so subsequent assignments should be ignored). How can I do this?
That would not be a readonly field then. Your only options for initializing real readonly fields are field initializer and constructor.
You could however implement a kind of readonly functionality using properties. Make your field as properties. Implement a "freeze instance" method that flipped a flag stating that no more updates to the readonly parts are allowed. Have your setters check this flag.
Keep in mind that you're giving up a compile time check for a runtime check. The compiler will tell you if you try to assign a value to a readonly field from anywhere but the declaration/constructor. With the code below you'll get an exception (or you could ignore the update - neither of which are optimal IMO).
EDIT: to avoid repeating the check you can encapsulate the readonly feature in a class.
Revised implementation could look something like this:
class ReadOnlyField<T> {
public T Value {
get { return _Value; }
set {
if (Frozen) throw new InvalidOperationException();
_Value = value;
}
}
private T _Value;
private bool Frozen;
public void Freeze() {
Frozen = true;
}
}
class Foo {
public readonly ReadOnlyField<int> FakeReadOnly = new ReadOnlyField<int>();
// forward to allow freeze of multiple fields
public void Freeze() {
FakeReadOnly.Freeze();
}
}
Then your code can do something like
var f = new Foo();
f.FakeReadOnly.Value = 42;
f.Freeze();
f.FakeReadOnly.Value = 1337;
The last statement will throw an exception.
Try the following:
class MyClass{
private int num1;
public int Num1
{
get { return num1; }
}
public MyClass()
{
num1=10;
}
}
Or maybe you mean a field that everyone can read but only the class itself can write to? In that case, use a private field with a public getter and a private setter.
private TYPE field;
public TYPE Field
{
get { return field; }
private set { field = value; }
}
or use an automatic property:
public TYPE Field { get; private set; }

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