Do you need to dispose of objects and set them to null?
你是否需要处理对象并将它们设置为null,或者当垃圾收集器超出范围时将它们清理干净?
Objects will be cleaned up when they are no longer being used and when the garbage collector sees fit. Sometimes, you may need to set an object to null
in order to make it go out of scope (such as a static field whose value you no longer need), but overall there is usually no need to set to null
.
Regarding disposing objects, I agree with @Andre. If the object is IDisposable
it is a good idea to dispose it when you no longer need it, especially if the object uses unmanaged resources. Not disposing unmanaged resources will lead to memory leaks .
You can use the using
statement to automatically dispose an object once your program leaves the scope of the using
statement.
using (MyIDisposableObject obj = new MyIDisposableObject())
{
// use the object here
} // the object is disposed here
Which is functionally equivalent to:
MyIDisposableObject obj;
try
{
obj = new MyIDisposableObject();
}
finally
{
if (obj != null)
{
((IDisposable)obj).Dispose();
}
}
Objects never go out of scope in C# as they do in C++. They are dealt with by the Garbage Collector automatically when they are not used anymore. This is a more complicated approach than C++ where the scope of a variable is entirely deterministic. CLR garbage collector actively goes through all objects that have been created and works out if they are being used.
An object can go "out of scope" in one function but if its value is returned, then GC would look at whether or not the calling function holds onto the return value.
Setting object references to null
is unnecessary as garbage collection works by working out which objects are being referenced by other objects.
In practice, you don't have to worry about destruction, it just works and it's great :)
Dispose
must be called on all objects that implement IDisposable
when you are finished working with them. Normally you would use a using
block with those objects like so:
using (var ms = new MemoryStream()) {
//...
}
EDIT On variable scope. Craig has asked whether the variable scope has any effect on the object lifetime. To properly explain that aspect of CLR, I'll need to explain a few concepts from C++ and C#.
Actual variable scope
In both languages the variable can only be used in the same scope as it was defined - class, function or a statement block enclosed by braces. The subtle difference, however, is that in C#, variables cannot be redefined in a nested block.
In C++, this is perfectly legal:
int iVal = 8;
//iVal == 8
if (iVal == 8){
int iVal = 5;
//iVal == 5
}
//iVal == 8
In C#, however you get aa compiler error:
int iVal = 8;
if(iVal == 8) {
int iVal = 5; //error CS0136: A local variable named 'iVal' cannot be declared in this scope because it would give a different meaning to 'iVal', which is already used in a 'parent or current' scope to denote something else
}
This makes sense if you look at generated MSIL - all the variables used by the function are defined at the start of the function. Take a look at this function:
public static void Scope() {
int iVal = 8;
if(iVal == 8) {
int iVal2 = 5;
}
}
Below is the generated IL. Note that iVal2, which is defined inside the if block is actually defined at function level. Effectively this means that C# only has class and function level scope as far as variable lifetime is concerned.
.method public hidebysig static void Scope() cil managed
{
// Code size 19 (0x13)
.maxstack 2
.locals init ([0] int32 iVal,
[1] int32 iVal2,
[2] bool CS$4$0000)
//Function IL - omitted
} // end of method Test2::Scope
C++ scope and object lifetime
Whenever a C++ variable, allocated on the stack, goes out of scope it gets destructed. Remember that in C++ you can create objects on the stack or on the heap. When you create them on the stack, once execution leaves the scope, they get popped off the stack and gets destroyed.
if (true) {
MyClass stackObj; //created on the stack
MyClass heapObj = new MyClass(); //created on the heap
obj.doSomething();
} //<-- stackObj is destroyed
//heapObj still lives
When C++ objects are created on the heap, they must be explicitly destroyed, otherwise it is a memory leak. No such problem with stack variables though.
C# Object Lifetime
In CLR, objects (ie reference types) are always created on the managed heap. This is further reinforced by object creation syntax. Consider this code snippet.
MyClass stackObj;
In C++ this would create an instance on MyClass
on the stack and call its default constructor. In C# it would create a reference to class MyClass
that doesn't point to anything. The only way to create an instance of a class is by using new
operator:
MyClass stackObj = new MyClass();
In a way, C# objects are a lot like objects that are created using new
syntax in C++ - they are created on the heap but unlike C++ objects, they are managed by the runtime, so you don't have to worry about destructing them.
Since the objects are always on the heap the fact that object references (ie pointers) go out of scope becomes moot. There are more factors involved in determining if an object is to be collected than simply presence of references to the object.
C# Object references
Jon Skeet compared object references in Java to pieces of string that are attached to the balloon, which is the object. Same analogy applies to C# object references. They simply point to a location of the heap that contains the object. Thus, setting it to null has no immediate effect on the object lifetime, the balloon continues to exist, until the GC "pops" it.
Continuing down the balloon analogy, it would seem logical that once the balloon has no strings attached to it, it can be destroyed. In fact this is exactly how reference counted objects work in non-managed languages. Except this approach doesn't work for circular references very well. Imagine two balloons that are attached together by a string but neither balloon has a string to anything else. Under simple ref counting rules, they both continue to exist, even though the whole balloon group is "orphaned".
.NET objects are a lot like helium balloons under a roof. When the roof opens (GC runs) - the unused balloons float away, even though there might be groups of balloons that are tethered together.
.NET GC uses a combination of generational GC and mark and sweep. Generational approach involves the runtime favouring to inspect objects that have been allocated most recently, as they are more likely to be unused and mark and sweep involves runtime going through the whole object graph and working out if there are object groups that are unused. This adequately deals with circular dependency problem.
Also, .NET GC runs on another thread(so called finalizer thread) as it has quite a bit to do and doing that on the main thread would interrupt your program.
As others have said you definitely want to call Dispose
if the class implements IDisposable
. I take a fairly rigid position on this. Some might claim that calling Dispose
on DataSet
, for example, is pointless because they disassembled it and saw that it did not do anything meaningful. But, I think there are fallacies abound in that argument.
Read this for an interesting debate by respected individuals on the subject. Then read my reasoning here why I think Jeffery Richter is in the wrong camp.
Now, on to whether or not you should set a reference to null
. The answer is no. Let me illustrate my point with the following code.
public static void Main()
{
Object a = new Object();
Console.WriteLine("object created");
DoSomething(a);
Console.WriteLine("object used");
a = null;
Console.WriteLine("reference set to null");
}
So when do you think the object referenced by a
is eligible for collection? If you said after the call to a = null
then you are wrong. If you said after the Main
method completes then you are also wrong. The correct answer is that it is eligible for collection sometime during the call to DoSomething
. That is right. It is eligible before the reference is set to null
and perhaps even before the call to DoSomething
completes. That is because the JIT compiler can recognize when object references are no longer dereferenced even if they are still rooted.
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