"const correctness" in C# - c#

The point of const-correctness is to be able to provide a view of an instance that can't be altered or deleted by the user. The compiler supports this by pointing out when you break constness from within a const function, or try to use a non-const function of a const object. So without copying the const approach, is there a methodology I can use in C# that has the same ends?
I'm aware of immutability, but that doesn't really carry over to container objects to name but one example.

I've come across this issue a lot of times too and ended up using interfaces.
I think it's important to drop the idea that C# is any form, or even an evolution of C++. They're two different languages that share almost the same syntax.
I usually express 'const correctness' in C# by defining a read-only view of a class:
public interface IReadOnlyCustomer
{
String Name { get; }
int Age { get; }
}
public class Customer : IReadOnlyCustomer
{
private string m_name;
private int m_age;
public string Name
{
get { return m_name; }
set { m_name = value; }
}
public int Age
{
get { return m_age; }
set { m_age = value; }
}
}

To get the benefit of const-craziness (or pureness in functional programming terms), you will need to design your classes in a way so they are immutable, just like the String class of c# is.
This approach is way better than just marking an object as readonly, since with immutable classes you can pass data around easily in multi-tasking environments.

I just wanted to note for you that many of the System.Collections.Generics containers have an AsReadOnly method which will give you back an immutable collection.

C# doesn't have such feature. You can pass argument by value or by reference. Reference itself is immutable unless you specify ref modifier. But referenced data isn't immutable. So you need to be careful if you want to avoid side effects.
MSDN:
Passing Parameters

Interfaces are the answer, and are actually more powerful than "const" in C++. const is a one-size-fits-all solution to the problem where "const" is defined as "doesn't set members or call something that sets members". That's a good shorthand for const-ness in many scenarios, but not all of them. For example, consider a function that calculates a value based on some members but also caches the results. In C++, that's considered non-const, although from the user's perspective it is essentially const.
Interfaces give you more flexibility in defining the specific subset of capabilities you want to provide from your class. Want const-ness? Just provide an interface with no mutating methods. Want to allow setting some things but not others? Provide an interface with just those methods.

Agree with some of the others look at using readonly fields that you initialize in the constructor, to create immutable objects.
public class Customer
{
private readonly string m_name;
private readonly int m_age;
public Customer(string name, int age)
{
m_name = name;
m_age = age;
}
public string Name
{
get { return m_name; }
}
public int Age
{
get { return m_age; }
}
}
Alternatively you could also add access scope on the properties, i.e. public get and protected set?
public class Customer
{
private string m_name;
private int m_age;
protected Customer()
{}
public Customer(string name, int age)
{
m_name = name;
m_age = age;
}
public string Name
{
get { return m_name; }
protected set { m_name = value; }
}
public int Age
{
get { return m_age; }
protected set { m_age = value; }
}
}

The const keyword can be used for compile time constants such as primitive types and strings
The readonly keyword can be used for run-time constants such as reference types
The problem with readonly is that it only allows the reference (pointer) to be constant. The thing referenced (pointed to) can still be modified. This is the tricky part but there is no way around it. To implement constant objects means making them not expose any mutable methods or properties but this is awkward.
See also Effective C#: 50 Specific Ways to Improve Your C# (Item 2 - Prefer readonly to const.)

Related

C# Public variables vs Properties, what's the difference? [duplicate]

In C#, what makes a field different from a property, and when should a field be used instead of a property?
Properties expose fields. Fields should (almost always) be kept private to a class and accessed via get and set properties. Properties provide a level of abstraction allowing you to change the fields while not affecting the external way they are accessed by the things that use your class.
public class MyClass
{
// this is a field. It is private to your class and stores the actual data.
private string _myField;
// this is a property. When accessed it uses the underlying field,
// but only exposes the contract, which will not be affected by the underlying field
public string MyProperty
{
get
{
return _myField;
}
set
{
_myField = value;
}
}
// This is an AutoProperty (C# 3.0 and higher) - which is a shorthand syntax
// used to generate a private field for you
public int AnotherProperty { get; set; }
}
#Kent points out that Properties are not required to encapsulate fields, they could do a calculation on other fields, or serve other purposes.
#GSS points out that you can also do other logic, such as validation, when a property is accessed, another useful feature.
Object orientated programming principles say that, the internal workings of a class should be hidden from the outside world. If you expose a field you're in essence exposing the internal implementation of the class. Therefore we wrap fields with Properties (or methods in Java's case) to give us the ability to change the implementation without breaking code depending on us. Seeing as we can put logic in the Property also allows us to perform validation logic etc if we need it.
C# 3 has the possibly confusing notion of autoproperties. This allows us to simply define the Property and the C#3 compiler will generate the private field for us.
public class Person
{
private string _name;
public string Name
{
get
{
return _name;
}
set
{
_name = value;
}
}
public int Age{get;set;} //AutoProperty generates private field for us
}
An important difference is that interfaces can have properties but not fields. This, to me, underlines that properties should be used to define a class's public interface while fields are meant to be used in the private, internal workings of a class. As a rule I rarely create public fields and similarly I rarely create non-public properties.
I'll give you a couple examples of using properties that might get the gears turning:
Lazy Initialization: If you have a property of an object that's expensive to load, but isn't accessed all that much in normal runs of the code, you can delay its loading via the property. That way, it's just sitting there, but the first time another module tries to call that property, it checks if the underlying field is null - if it is, it goes ahead and loads it, unknown to the calling module. This can greatly speed up object initialization.
Dirty Tracking: Which I actually learned about from my own question here on StackOverflow. When I have a lot of objects which values might have changed during a run, I can use the property to track if they need to be saved back to the database or not. If not a single property of an object has changed, the IsDirty flag won't get tripped, and therefore the saving functionality will skip over it when deciding what needs to get back to the database.
Using Properties, you can raise an event, when the value of the property is changed (aka. PropertyChangedEvent) or before the value is changed to support cancellation.
This is not possible with (direct access to) fields.
public class Person {
private string _name;
public event EventHandler NameChanging;
public event EventHandler NameChanged;
public string Name{
get
{
return _name;
}
set
{
OnNameChanging();
_name = value;
OnNameChanged();
}
}
private void OnNameChanging(){
NameChanging?.Invoke(this,EventArgs.Empty);
}
private void OnNameChanged(){
NameChanged?.Invoke(this,EventArgs.Empty);
}
}
Since many of them have explained with technical pros and cons of Properties and Field, it's time to get into real time examples.
1. Properties allows you to set the read-only access level
Consider the case of dataTable.Rows.Count and dataTable.Columns[i].Caption. They come from the class DataTable and both are public to us. The difference in the access-level to them is that we cannot set value to dataTable.Rows.Count but we can read and write to dataTable.Columns[i].Caption. Is that possible through Field? No!!! This can be done with Properties only.
public class DataTable
{
public class Rows
{
private string _count;
// This Count will be accessable to us but have used only "get" ie, readonly
public int Count
{
get
{
return _count;
}
}
}
public class Columns
{
private string _caption;
// Used both "get" and "set" ie, readable and writable
public string Caption
{
get
{
return _caption;
}
set
{
_caption = value;
}
}
}
}
2. Properties in PropertyGrid
You might have worked with Button in Visual Studio. Its properties are shown in the PropertyGrid like Text,Name etc. When we drag and drop a button, and when we click the properties, it will automatically find the class Button and filters Properties and show that in PropertyGrid (where PropertyGrid won't show Field even though they are public).
public class Button
{
private string _text;
private string _name;
private string _someProperty;
public string Text
{
get
{
return _text;
}
set
{
_text = value;
}
}
public string Name
{
get
{
return _name;
}
set
{
_name = value;
}
}
[Browsable(false)]
public string SomeProperty
{
get
{
return _someProperty;
}
set
{
_someProperty= value;
}
}
In PropertyGrid, the properties Name and Text will be shown, but not SomeProperty. Why??? Because Properties can accept Attributes. It does not show in case where [Browsable(false)] is false.
3. Can execute statements inside Properties
public class Rows
{
private string _count;
public int Count
{
get
{
return CalculateNoOfRows();
}
}
public int CalculateNoOfRows()
{
// Calculation here and finally set the value to _count
return _count;
}
}
4. Only Properties can be used in Binding Source
Binding Source helps us to decrease the number of lines of code. Fields are not accepted by BindingSource. We should use Properties for that.
5. Debugging mode
Consider we are using Field to hold a value. At some point we need to debug and check where the value is getting null for that field. It will be difficult to do where the number of lines of code are more than 1000. In such situations we can use Property and can set debug mode inside Property.
public string Name
{
// Can set debug mode inside get or set
get
{
return _name;
}
set
{
_name = value;
}
}
DIFFERENCES - USES (when and why)
A field is a variable that is declared directly in a class or struct. A class or struct may have instance fields or static fields or both. Generally, you should use fields only for variables that have private or protected accessibility. Data that your class exposes to client code should be provided through methods, properties and indexers. By using these constructs for indirect access to internal fields, you can guard against invalid input values.
A property is a member that provides a flexible mechanism to read, write, or compute the value of a private field. Properties can be used as if they are public data members, but they are actually special methods called accessors. This enables data to be accessed easily and still helps promote the safety and flexibility of methods.
Properties enable a class to expose a public way of getting and setting values, while hiding implementation or verification code. A get property accessor is used to return the property value, and a set accessor is used to assign a new value.
Though fields and properties look to be similar to each other, they are 2 completely different language elements.
Fields are the only mechanism how to store data on class level. Fields are conceptually variables at class scope. If you want to store some data to instances of your classes (objects) you need to use fields. There is no other choice. Properties can't store any data even though, it may look they are able to do so. See bellow.
Properties on the other hand never store data. They are just the pairs of methods (get and set) that can be syntactically called in a similar way as fields and in most cases they access (for read or write) fields, which is the source of some confusion. But because property methods are (with some limitations like fixed prototype) regular C# methods they can do whatever regular methods can do. It means they can have 1000 lines of code, they can throw exceptions, call another methods, can be even virtual, abstract or overridden. What makes properties special, is the fact that C# compiler stores some extra metadata into assemblies that can be used to search for specific properties - widely used feature.
Get and set property methods has the following prototypes.
PROPERTY_TYPE get();
void set(PROPERTY_TYPE value);
So it means that properties can be 'emulated' by defining a field and 2 corresponding methods.
class PropertyEmulation
{
private string MSomeValue;
public string GetSomeValue()
{
return(MSomeValue);
}
public void SetSomeValue(string value)
{
MSomeValue=value;
}
}
Such property emulation is typical for programming languages that don't support properties - like standard C++. In C# there you should always prefer properties as the way how to access to your fields.
Because only the fields can store a data, it means that more fields class contains, more memory objects of such class will consume. On the other hand, adding new properties into a class doesn't make objects of such class bigger. Here is the example.
class OneHundredFields
{
public int Field1;
public int Field2;
...
public int Field100;
}
OneHundredFields Instance=new OneHundredFields() // Variable 'Instance' consumes 100*sizeof(int) bytes of memory.
class OneHundredProperties
{
public int Property1
{
get
{
return(1000);
}
set
{
// Empty.
}
}
public int Property2
{
get
{
return(1000);
}
set
{
// Empty.
}
}
...
public int Property100
{
get
{
return(1000);
}
set
{
// Empty.
}
}
}
OneHundredProperties Instance=new OneHundredProperties() // !!!!! Variable 'Instance' consumes 0 bytes of memory. (In fact a some bytes are consumed becasue every object contais some auxiliarity data, but size doesn't depend on number of properties).
Though property methods can do anything, in most cases they serve as a way how to access objects' fields. If you want to make a field accessible to other classes you can do by 2 ways.
Making fields as public - not advisable.
Using properties.
Here is a class using public fields.
class Name
{
public string FullName;
public int YearOfBirth;
public int Age;
}
Name name=new Name();
name.FullName="Tim Anderson";
name.YearOfBirth=1979;
name.Age=40;
While the code is perfectly valid, from design point of view, it has several drawbacks. Because fields can be both read and written, you can't prevent user from writing to fields. You can apply readonly keyword, but in this way, you have to initialize readonly fields only in constructor. What's more, nothing prevents you to store invalid values into your fields.
name.FullName=null;
name.YearOfBirth=2200;
name.Age=-140;
The code is valid, all assignments will be executed though they are illogical. Age has a negative value, YearOfBirth is far in future and doesn't correspond to Age and FullName is null. With fields you can't prevent users of class Name to make such mistakes.
Here is a code with properties that fixes these issues.
class Name
{
private string MFullName="";
private int MYearOfBirth;
public string FullName
{
get
{
return(MFullName);
}
set
{
if (value==null)
{
throw(new InvalidOperationException("Error !"));
}
MFullName=value;
}
}
public int YearOfBirth
{
get
{
return(MYearOfBirth);
}
set
{
if (MYearOfBirth<1900 || MYearOfBirth>DateTime.Now.Year)
{
throw(new InvalidOperationException("Error !"));
}
MYearOfBirth=value;
}
}
public int Age
{
get
{
return(DateTime.Now.Year-MYearOfBirth);
}
}
public string FullNameInUppercase
{
get
{
return(MFullName.ToUpper());
}
}
}
The updated version of class has the following advantages.
FullName and YearOfBirth are checked for invalid values.
Age is not writtable. It's callculated from YearOfBirth and current year.
A new property FullNameInUppercase converts FullName to UPPER CASE. This is a little contrived example of property usage, where properties are commonly used to present field values in the format that is more appropriate for user - for instance using current locale on specific numeric of DateTime format.
Beside this, properties can be defined as virtual or overridden - simply because they are regular .NET methods. The same rules applies for such property methods as for regular methods.
C# also supports indexers which are the properties that have an index parameter in property methods. Here is the example.
class MyList
{
private string[] MBuffer;
public MyList()
{
MBuffer=new string[100];
}
public string this[int Index]
{
get
{
return(MBuffer[Index]);
}
set
{
MBuffer[Index]=value;
}
}
}
MyList List=new MyList();
List[10]="ABC";
Console.WriteLine(List[10]);
Since C# 3.0 allows you to define automatic properties. Here is the example.
class AutoProps
{
public int Value1
{
get;
set;
}
public int Value2
{
get;
set;
}
}
Even though class AutoProps contains only properties (or it looks like), it can store 2 values and size of objects of this class is equal to sizeof(Value1)+sizeof(Value2)=4+4=8 bytes.
The reason for this is simple. When you define an automatic property, C# compiler generates automatic code that contains hidden field and a property with property methods accessing this hidden field. Here is the code compiler produces.
Here is a code generated by the ILSpy from compiled assembly. Class contains generated hidden fields and properties.
internal class AutoProps
{
[CompilerGenerated]
[DebuggerBrowsable(DebuggerBrowsableState.Never)]
private int <Value1>k__BackingField;
[CompilerGenerated]
[DebuggerBrowsable(DebuggerBrowsableState.Never)]
private int <Value2>k__BackingField;
public int Value1
{
[CompilerGenerated]
get
{
return <Value1>k__BackingField;
}
[CompilerGenerated]
set
{
<Value1>k__BackingField = value;
}
}
public int Value2
{
[CompilerGenerated]
get
{
return <Value2>k__BackingField;
}
[CompilerGenerated]
set
{
<Value2>k__BackingField = value;
}
}
}
So, as you can see, the compiler still uses the fields to store the values - since fields are the only way how to store values into objects.
So as you can see, though properties and fields have similar usage syntax they are very different concepts. Even if you use automatic properties or events - hidden fields are generated by compiler where the real data are stored.
If you need to make a field value accessible to the outside world (users of your class) don't use public or protected fields. Fields always should be marked as private. Properties allow you to make value checks, formatting, conversions etc. and generally make your code safer, more readable and more extensible for future modifications.
Properties have the primary advantage of allowing you to change the way data on an object is accessed without breaking it's public interface. For example, if you need to add extra validation, or to change a stored field into a calculated you can do so easily if you initially exposed the field as a property. If you just exposed a field directly, then you would have to change the public interface of your class to add the new functionality. That change would break existing clients, requiring them to be recompiled before they could use the new version of your code.
If you write a class library designed for wide consumption (like the .NET Framework, which is used by millions of people), that can be a problem. However, if you are writing a class used internally inside a small code base (say <= 50 K lines), it's really not a big deal, because no one would be adversely affected by your changes. In that case it really just comes down to personal preference.
Properties support asymmetric access, i.e. you can have either a getter and a setter or just one of the two. Similarly properties support individual accessibility for getter/setter. Fields are always symmetric, i.e. you can always both get and set the value. Exception to this is readonly fields which obviously cannot be set after initialization.
Properties may run for a very long time, have side effects, and may even throw exceptions. Fields are fast, with no side effects, and will never throw exceptions. Due to side effects a property may return a different value for each call (as may be the case for DateTime.Now, i.e. DateTime.Now is not always equal to DateTime.Now). Fields always return the same value.
Fields may be used for out / ref parameters, properties may not.
Properties support additional logic – this could be used to implement lazy loading among other things.
Properties support a level of abstraction by encapsulating whatever it means to get/set the value.
Use properties in most / all cases, but try to avoid side effects.
In the background a property is compiled into methods. So a Name property is compiled into get_Name() and set_Name(string value). You can see this if you study the compiled code.
So there is a (very) small performance overhead when using them. Normally you will always use a Property if you expose a field to the outside, and you will often use it internally if you need to do validation of the value.
When you want your private variable(field) to be accessible to object of your class from other classes you need to create properties for those variables.
for example if I have variables named as "id" and "name" which is private
but there might be situation where this variable needed for read/write operation outside of the class. At that situation , property can help me to get that variable to read/write depending upon the get/set defined for the property. A property can be a readonly / writeonly / readwrite both.
here is the demo
class Employee
{
// Private Fields for Employee
private int id;
private string name;
//Property for id variable/field
public int EmployeeId
{
get
{
return id;
}
set
{
id = value;
}
}
//Property for name variable/field
public string EmployeeName
{
get
{
return name;
}
set
{
name = value;
}
}
}
class MyMain
{
public static void Main(string [] args)
{
Employee aEmployee = new Employee();
aEmployee.EmployeeId = 101;
aEmployee.EmployeeName = "Sundaran S";
}
}
The second question here, "when should a field be used instead of a property?", is only briefly touched on in this other answer and kinda this one too, but not really much detail.
In general, all the other answers are spot-on about good design: prefer exposing properties over exposing fields. While you probably won't regularly find yourself saying "wow, imagine how much worse things would be if I had made this a field instead of a property", it's so much more rare to think of a situation where you would say "wow, thank God I used a field here instead of a property."
But there's one advantage that fields have over properties, and that's their ability to be used as "ref" / "out" parameters. Suppose you have a method with the following signature:
public void TransformPoint(ref double x, ref double y);
and suppose that you want to use that method to transform an array created like this:
System.Windows.Point[] points = new Point[1000000];
Initialize(points);
Here's I think the fastest way to do it, since X and Y are properties:
for (int i = 0; i < points.Length; i++)
{
double x = points[i].X;
double y = points[i].Y;
TransformPoint(ref x, ref y);
points[i].X = x;
points[i].Y = y;
}
And that's going to be pretty good! Unless you have measurements that prove otherwise, there's no reason to throw a stink. But I believe it's not technically guaranteed to be as fast as this:
internal struct MyPoint
{
internal double X;
internal double Y;
}
// ...
MyPoint[] points = new MyPoint[1000000];
Initialize(points);
// ...
for (int i = 0; i < points.Length; i++)
{
TransformPoint(ref points[i].X, ref points[i].Y);
}
Doing some measurements myself, the version with fields takes about 61% of the time as the version with properties (.NET 4.6, Windows 7, x64, release mode, no debugger attached). The more expensive the TransformPoint method gets, the less pronounced that the difference becomes. To repeat this yourself, run with the first line commented-out and with it not commented-out.
Even if there were no performance benefits for the above, there are other places where being able to use ref and out parameters might be beneficial, such as when calling the Interlocked or Volatile family of methods. Note: In case this is new to you, Volatile is basically a way to get at the same behavior provided by the volatile keyword. As such, like volatile, it doesn't magically solve all thread-safety woes like its name suggests that it might.
I definitely don't want to seem like I'm advocating that you go "oh, I should start exposing fields instead of properties." The point is that if you need to regularly use these members in calls that take "ref" or "out" parameters, especially on something that might be a simple value type that's unlikely to ever need any of the value-added elements of properties, an argument can be made.
Also, properties allow you to use logic when setting values.
So you can say you only want to set a value to an integer field, if the value is greater than x, otherwise throw an exception.
Really useful feature.
(This should really be a comment, but I can't post a comment, so please excuse if it is not appropriate as a post).
I once worked at a place where the recommended practice was to use public fields instead of properties when the equivalent property def would just have been accessing a field, as in :
get { return _afield; }
set { _afield = value; }
Their reasoning was that the public field could be converted into a property later in future if required. It seemed a little strange to me at the time. Judging by these posts, it looks like not many here would agree either. What might you have said to try to change things ?
Edit : I should add that all of the code base at this place was compiled at the same time, so they might have thought that changing the public interface of classes (by changing a public field to a property) was not a problem.
Technically, i don't think that there is a difference, because properties are just wrappers around fields created by the user or automatically created by the compiler.The purpose of properties is to enforce encapsuation and to offer a lightweight method-like feature.
It's just a bad practice to declare fields as public, but it does not have any issues.
Fields are ordinary member variables or member instances of a class. Properties are an abstraction to get and set their values. Properties are also called accessors because they offer a way to change and retrieve a field if you expose a field in the class as private. Generally, you should declare your member variables private, then declare or define properties for them.
class SomeClass
{
int numbera; //Field
//Property
public static int numbera { get; set;}
}
If you are going to use thread primitives you are forced to use fields. Properties can break your threaded code. Apart from that, what cory said is correct.
My design of a field is that a field needs to be modified only by its parent, hence the class. Result the variable becomes private, then to be able to give the right to read the classes / methods outside I go through the system of property with only the Get. The field is then retrieved by the property and read-only! If you want to modify it you have to go through methods (for example the constructor) and I find that thanks to this way of making you secure, we have better control over our code because we "flange". One could very well always put everything in public so every possible case, the notion of variables / methods / classes etc ... in my opinion is just an aid to the development, maintenance of the code. For example, if a person resumes a code with public fields, he can do anything and therefore things "illogical" in relation to the objective, the logic of why the code was written. It's my point of view.
When i use a classic model private field / public readonly properties,for 10 privates fields i should write 10 publics properties! The code can be really big faster. I discover the private setter and now i only use public properties with a private setter.
The setter create in background a private field.
That why my old classic programming style was:
public class MyClass
{
private int _id;
public int ID { get { return _id; } }
public MyClass(int id)
{
_id = id;
}
}
My new programming style:
public class MyClass
{
public int ID { get; private set; }
public MyClass(int id)
{
ID = id;
}
}
Basic and general difference is:
Fields
ALWAYS give both get and set access
CAN NOT cause side effects (throwing exceptions, calling methods, changing fields except the one being got/set, etc)
Properties
NOT ALWAYS give both get and set access
CAN cause side effects
Properties encapsulate fields, thus enabling you to perform additional processing on the value to be set or retrieved. It is typically overkill to use properties if you will not be doing any pre- or postprocessing on the field value.
IMO, Properties are just the "SetXXX()" "GetXXX()" functions/methods/interfaces pairs we used before, but they are more concise and elegant.
Traditionally private fields are set via getter and setter methods. For the sake of less code you can use properties to set fields instead.
when you have a class which is "Car". The properties are color,shape..
Where as fields are variables defined within the scope of a class.
From Wikipedia -- Object-oriented programming:
Object-oriented programming (OOP) is a programming paradigm based on the concept of "objects", which are data structures that contain data, in the form of fields, often known as attributes; and code, in the form of procedures, often known as methods. (emphasis added)
Properties are actually part of an object's behavior, but are designed to give consumers of the object the illusion/abstraction of working with the object's data.
Properties are special kind of class member, In properties we use a predefined Set or Get method.They use accessors through which we can read, written or change the values of the private fields.
For example, let us take a class named Employee, with private fields for name, age and Employee_Id. We cannot access these fields from outside the class , but we can access these private fields through properties.
Why do we use properties?
Making the class field public & exposing it is risky, as you will not have control what gets assigned & returned.
To understand this clearly with an example lets take a student class who have ID, passmark, name. Now in this example some problem with public field
ID should not be -ve.
Name can not be set to null
Pass mark should be read only.
If student name is missing No Name should be return.
To remove this problem We use Get and set method.
// A simple example
public class student
{
public int ID;
public int passmark;
public string name;
}
public class Program
{
public static void Main(string[] args)
{
student s1 = new student();
s1.ID = -101; // here ID can't be -ve
s1.Name = null ; // here Name can't be null
}
}
Now we take an example of get and set method
public class student
{
private int _ID;
private int _passmark;
private string_name ;
// for id property
public void SetID(int ID)
{
if(ID<=0)
{
throw new exception("student ID should be greater then 0");
}
this._ID = ID;
}
public int getID()
{
return_ID;
}
}
public class programme
{
public static void main()
{
student s1 = new student ();
s1.SetID(101);
}
// Like this we also can use for Name property
public void SetName(string Name)
{
if(string.IsNullOrEmpty(Name))
{
throw new exeception("name can not be null");
}
this._Name = Name;
}
public string GetName()
{
if( string.IsNullOrEmpty(This.Name))
{
return "No Name";
}
else
{
return this._name;
}
}
// Like this we also can use for Passmark property
public int Getpassmark()
{
return this._passmark;
}
}
Additional info:
By default, get and set accessors are as accessible as the property itself.
You can control/restrict accessor accessibility individually (for get and set) by applying more restrictive access modifiers on them.
Example:
public string Name
{
get
{
return name;
}
protected set
{
name = value;
}
}
Here get is still publicly accessed (as the property is public), but set is protected (a more restricted access specifier).
Think about it : You have a room and a door to enter this room. If you want to check how who is coming in and secure your room, then you should use properties otherwise they won't be any door and every one easily come in w/o any regulation
class Room {
public string sectionOne;
public string sectionTwo;
}
Room r = new Room();
r.sectionOne = "enter";
People is getting in to sectionOne pretty easily, there wasn't any checking
class Room
{
private string sectionOne;
private string sectionTwo;
public string SectionOne
{
get
{
return sectionOne;
}
set
{
sectionOne = Check(value);
}
}
}
Room r = new Room();
r.SectionOne = "enter";
Now you checked the person and know about whether he has something evil with him
Fields are the variables in classes. Fields are the data which you can encapsulate through the use of access modifiers.
Properties are similar to Fields in that they define states and the data associated with an object.
Unlike a field a property has a special syntax that controls how a person reads the data and writes the data, these are known as the get and set operators. The set logic can often be used to do validation.
Properties are used to expose field. They use accessors(set, get) through which the values of the private fields can be read, written or manipulated.
Properties do not name the storage locations. Instead, they have accessors that read, write, or compute their values.
Using properties we can set validation on the type of data that is set on a field.
For example we have private integer field age on that we should allow positive values since age cannot be negative.
We can do this in two ways using getter and setters and using property.
Using Getter and Setter
// field
private int _age;
// setter
public void set(int age){
if (age <=0)
throw new Exception();
this._age = age;
}
// getter
public int get (){
return this._age;
}
Now using property we can do the same thing. In the value is a key word
private int _age;
public int Age{
get{
return this._age;
}
set{
if (value <= 0)
throw new Exception()
}
}
Auto Implemented property if we don't logic in get and set accessors we can use auto implemented property.
When use auto-implemented property compiles creates a private, anonymous field that can only be accessed through get and set accessors.
public int Age{get;set;}
Abstract Properties
An abstract class may have an abstract property, which should be implemented in the derived class
public abstract class Person
{
public abstract string Name
{
get;
set;
}
public abstract int Age
{
get;
set;
}
}
// overriden something like this
// Declare a Name property of type string:
public override string Name
{
get
{
return name;
}
set
{
name = value;
}
}
We can privately set a property
In this we can privately set the auto property(set with in the class)
public int MyProperty
{
get; private set;
}
You can achieve same with this code. In this property set feature is not available as we have to set value to field directly.
private int myProperty;
public int MyProperty
{
get { return myProperty; }
}

Using or not get and set methods in C# classes [duplicate]

In C#, what makes a field different from a property, and when should a field be used instead of a property?
Properties expose fields. Fields should (almost always) be kept private to a class and accessed via get and set properties. Properties provide a level of abstraction allowing you to change the fields while not affecting the external way they are accessed by the things that use your class.
public class MyClass
{
// this is a field. It is private to your class and stores the actual data.
private string _myField;
// this is a property. When accessed it uses the underlying field,
// but only exposes the contract, which will not be affected by the underlying field
public string MyProperty
{
get
{
return _myField;
}
set
{
_myField = value;
}
}
// This is an AutoProperty (C# 3.0 and higher) - which is a shorthand syntax
// used to generate a private field for you
public int AnotherProperty { get; set; }
}
#Kent points out that Properties are not required to encapsulate fields, they could do a calculation on other fields, or serve other purposes.
#GSS points out that you can also do other logic, such as validation, when a property is accessed, another useful feature.
Object orientated programming principles say that, the internal workings of a class should be hidden from the outside world. If you expose a field you're in essence exposing the internal implementation of the class. Therefore we wrap fields with Properties (or methods in Java's case) to give us the ability to change the implementation without breaking code depending on us. Seeing as we can put logic in the Property also allows us to perform validation logic etc if we need it.
C# 3 has the possibly confusing notion of autoproperties. This allows us to simply define the Property and the C#3 compiler will generate the private field for us.
public class Person
{
private string _name;
public string Name
{
get
{
return _name;
}
set
{
_name = value;
}
}
public int Age{get;set;} //AutoProperty generates private field for us
}
An important difference is that interfaces can have properties but not fields. This, to me, underlines that properties should be used to define a class's public interface while fields are meant to be used in the private, internal workings of a class. As a rule I rarely create public fields and similarly I rarely create non-public properties.
I'll give you a couple examples of using properties that might get the gears turning:
Lazy Initialization: If you have a property of an object that's expensive to load, but isn't accessed all that much in normal runs of the code, you can delay its loading via the property. That way, it's just sitting there, but the first time another module tries to call that property, it checks if the underlying field is null - if it is, it goes ahead and loads it, unknown to the calling module. This can greatly speed up object initialization.
Dirty Tracking: Which I actually learned about from my own question here on StackOverflow. When I have a lot of objects which values might have changed during a run, I can use the property to track if they need to be saved back to the database or not. If not a single property of an object has changed, the IsDirty flag won't get tripped, and therefore the saving functionality will skip over it when deciding what needs to get back to the database.
Using Properties, you can raise an event, when the value of the property is changed (aka. PropertyChangedEvent) or before the value is changed to support cancellation.
This is not possible with (direct access to) fields.
public class Person {
private string _name;
public event EventHandler NameChanging;
public event EventHandler NameChanged;
public string Name{
get
{
return _name;
}
set
{
OnNameChanging();
_name = value;
OnNameChanged();
}
}
private void OnNameChanging(){
NameChanging?.Invoke(this,EventArgs.Empty);
}
private void OnNameChanged(){
NameChanged?.Invoke(this,EventArgs.Empty);
}
}
Since many of them have explained with technical pros and cons of Properties and Field, it's time to get into real time examples.
1. Properties allows you to set the read-only access level
Consider the case of dataTable.Rows.Count and dataTable.Columns[i].Caption. They come from the class DataTable and both are public to us. The difference in the access-level to them is that we cannot set value to dataTable.Rows.Count but we can read and write to dataTable.Columns[i].Caption. Is that possible through Field? No!!! This can be done with Properties only.
public class DataTable
{
public class Rows
{
private string _count;
// This Count will be accessable to us but have used only "get" ie, readonly
public int Count
{
get
{
return _count;
}
}
}
public class Columns
{
private string _caption;
// Used both "get" and "set" ie, readable and writable
public string Caption
{
get
{
return _caption;
}
set
{
_caption = value;
}
}
}
}
2. Properties in PropertyGrid
You might have worked with Button in Visual Studio. Its properties are shown in the PropertyGrid like Text,Name etc. When we drag and drop a button, and when we click the properties, it will automatically find the class Button and filters Properties and show that in PropertyGrid (where PropertyGrid won't show Field even though they are public).
public class Button
{
private string _text;
private string _name;
private string _someProperty;
public string Text
{
get
{
return _text;
}
set
{
_text = value;
}
}
public string Name
{
get
{
return _name;
}
set
{
_name = value;
}
}
[Browsable(false)]
public string SomeProperty
{
get
{
return _someProperty;
}
set
{
_someProperty= value;
}
}
In PropertyGrid, the properties Name and Text will be shown, but not SomeProperty. Why??? Because Properties can accept Attributes. It does not show in case where [Browsable(false)] is false.
3. Can execute statements inside Properties
public class Rows
{
private string _count;
public int Count
{
get
{
return CalculateNoOfRows();
}
}
public int CalculateNoOfRows()
{
// Calculation here and finally set the value to _count
return _count;
}
}
4. Only Properties can be used in Binding Source
Binding Source helps us to decrease the number of lines of code. Fields are not accepted by BindingSource. We should use Properties for that.
5. Debugging mode
Consider we are using Field to hold a value. At some point we need to debug and check where the value is getting null for that field. It will be difficult to do where the number of lines of code are more than 1000. In such situations we can use Property and can set debug mode inside Property.
public string Name
{
// Can set debug mode inside get or set
get
{
return _name;
}
set
{
_name = value;
}
}
DIFFERENCES - USES (when and why)
A field is a variable that is declared directly in a class or struct. A class or struct may have instance fields or static fields or both. Generally, you should use fields only for variables that have private or protected accessibility. Data that your class exposes to client code should be provided through methods, properties and indexers. By using these constructs for indirect access to internal fields, you can guard against invalid input values.
A property is a member that provides a flexible mechanism to read, write, or compute the value of a private field. Properties can be used as if they are public data members, but they are actually special methods called accessors. This enables data to be accessed easily and still helps promote the safety and flexibility of methods.
Properties enable a class to expose a public way of getting and setting values, while hiding implementation or verification code. A get property accessor is used to return the property value, and a set accessor is used to assign a new value.
Though fields and properties look to be similar to each other, they are 2 completely different language elements.
Fields are the only mechanism how to store data on class level. Fields are conceptually variables at class scope. If you want to store some data to instances of your classes (objects) you need to use fields. There is no other choice. Properties can't store any data even though, it may look they are able to do so. See bellow.
Properties on the other hand never store data. They are just the pairs of methods (get and set) that can be syntactically called in a similar way as fields and in most cases they access (for read or write) fields, which is the source of some confusion. But because property methods are (with some limitations like fixed prototype) regular C# methods they can do whatever regular methods can do. It means they can have 1000 lines of code, they can throw exceptions, call another methods, can be even virtual, abstract or overridden. What makes properties special, is the fact that C# compiler stores some extra metadata into assemblies that can be used to search for specific properties - widely used feature.
Get and set property methods has the following prototypes.
PROPERTY_TYPE get();
void set(PROPERTY_TYPE value);
So it means that properties can be 'emulated' by defining a field and 2 corresponding methods.
class PropertyEmulation
{
private string MSomeValue;
public string GetSomeValue()
{
return(MSomeValue);
}
public void SetSomeValue(string value)
{
MSomeValue=value;
}
}
Such property emulation is typical for programming languages that don't support properties - like standard C++. In C# there you should always prefer properties as the way how to access to your fields.
Because only the fields can store a data, it means that more fields class contains, more memory objects of such class will consume. On the other hand, adding new properties into a class doesn't make objects of such class bigger. Here is the example.
class OneHundredFields
{
public int Field1;
public int Field2;
...
public int Field100;
}
OneHundredFields Instance=new OneHundredFields() // Variable 'Instance' consumes 100*sizeof(int) bytes of memory.
class OneHundredProperties
{
public int Property1
{
get
{
return(1000);
}
set
{
// Empty.
}
}
public int Property2
{
get
{
return(1000);
}
set
{
// Empty.
}
}
...
public int Property100
{
get
{
return(1000);
}
set
{
// Empty.
}
}
}
OneHundredProperties Instance=new OneHundredProperties() // !!!!! Variable 'Instance' consumes 0 bytes of memory. (In fact a some bytes are consumed becasue every object contais some auxiliarity data, but size doesn't depend on number of properties).
Though property methods can do anything, in most cases they serve as a way how to access objects' fields. If you want to make a field accessible to other classes you can do by 2 ways.
Making fields as public - not advisable.
Using properties.
Here is a class using public fields.
class Name
{
public string FullName;
public int YearOfBirth;
public int Age;
}
Name name=new Name();
name.FullName="Tim Anderson";
name.YearOfBirth=1979;
name.Age=40;
While the code is perfectly valid, from design point of view, it has several drawbacks. Because fields can be both read and written, you can't prevent user from writing to fields. You can apply readonly keyword, but in this way, you have to initialize readonly fields only in constructor. What's more, nothing prevents you to store invalid values into your fields.
name.FullName=null;
name.YearOfBirth=2200;
name.Age=-140;
The code is valid, all assignments will be executed though they are illogical. Age has a negative value, YearOfBirth is far in future and doesn't correspond to Age and FullName is null. With fields you can't prevent users of class Name to make such mistakes.
Here is a code with properties that fixes these issues.
class Name
{
private string MFullName="";
private int MYearOfBirth;
public string FullName
{
get
{
return(MFullName);
}
set
{
if (value==null)
{
throw(new InvalidOperationException("Error !"));
}
MFullName=value;
}
}
public int YearOfBirth
{
get
{
return(MYearOfBirth);
}
set
{
if (MYearOfBirth<1900 || MYearOfBirth>DateTime.Now.Year)
{
throw(new InvalidOperationException("Error !"));
}
MYearOfBirth=value;
}
}
public int Age
{
get
{
return(DateTime.Now.Year-MYearOfBirth);
}
}
public string FullNameInUppercase
{
get
{
return(MFullName.ToUpper());
}
}
}
The updated version of class has the following advantages.
FullName and YearOfBirth are checked for invalid values.
Age is not writtable. It's callculated from YearOfBirth and current year.
A new property FullNameInUppercase converts FullName to UPPER CASE. This is a little contrived example of property usage, where properties are commonly used to present field values in the format that is more appropriate for user - for instance using current locale on specific numeric of DateTime format.
Beside this, properties can be defined as virtual or overridden - simply because they are regular .NET methods. The same rules applies for such property methods as for regular methods.
C# also supports indexers which are the properties that have an index parameter in property methods. Here is the example.
class MyList
{
private string[] MBuffer;
public MyList()
{
MBuffer=new string[100];
}
public string this[int Index]
{
get
{
return(MBuffer[Index]);
}
set
{
MBuffer[Index]=value;
}
}
}
MyList List=new MyList();
List[10]="ABC";
Console.WriteLine(List[10]);
Since C# 3.0 allows you to define automatic properties. Here is the example.
class AutoProps
{
public int Value1
{
get;
set;
}
public int Value2
{
get;
set;
}
}
Even though class AutoProps contains only properties (or it looks like), it can store 2 values and size of objects of this class is equal to sizeof(Value1)+sizeof(Value2)=4+4=8 bytes.
The reason for this is simple. When you define an automatic property, C# compiler generates automatic code that contains hidden field and a property with property methods accessing this hidden field. Here is the code compiler produces.
Here is a code generated by the ILSpy from compiled assembly. Class contains generated hidden fields and properties.
internal class AutoProps
{
[CompilerGenerated]
[DebuggerBrowsable(DebuggerBrowsableState.Never)]
private int <Value1>k__BackingField;
[CompilerGenerated]
[DebuggerBrowsable(DebuggerBrowsableState.Never)]
private int <Value2>k__BackingField;
public int Value1
{
[CompilerGenerated]
get
{
return <Value1>k__BackingField;
}
[CompilerGenerated]
set
{
<Value1>k__BackingField = value;
}
}
public int Value2
{
[CompilerGenerated]
get
{
return <Value2>k__BackingField;
}
[CompilerGenerated]
set
{
<Value2>k__BackingField = value;
}
}
}
So, as you can see, the compiler still uses the fields to store the values - since fields are the only way how to store values into objects.
So as you can see, though properties and fields have similar usage syntax they are very different concepts. Even if you use automatic properties or events - hidden fields are generated by compiler where the real data are stored.
If you need to make a field value accessible to the outside world (users of your class) don't use public or protected fields. Fields always should be marked as private. Properties allow you to make value checks, formatting, conversions etc. and generally make your code safer, more readable and more extensible for future modifications.
Properties have the primary advantage of allowing you to change the way data on an object is accessed without breaking it's public interface. For example, if you need to add extra validation, or to change a stored field into a calculated you can do so easily if you initially exposed the field as a property. If you just exposed a field directly, then you would have to change the public interface of your class to add the new functionality. That change would break existing clients, requiring them to be recompiled before they could use the new version of your code.
If you write a class library designed for wide consumption (like the .NET Framework, which is used by millions of people), that can be a problem. However, if you are writing a class used internally inside a small code base (say <= 50 K lines), it's really not a big deal, because no one would be adversely affected by your changes. In that case it really just comes down to personal preference.
Properties support asymmetric access, i.e. you can have either a getter and a setter or just one of the two. Similarly properties support individual accessibility for getter/setter. Fields are always symmetric, i.e. you can always both get and set the value. Exception to this is readonly fields which obviously cannot be set after initialization.
Properties may run for a very long time, have side effects, and may even throw exceptions. Fields are fast, with no side effects, and will never throw exceptions. Due to side effects a property may return a different value for each call (as may be the case for DateTime.Now, i.e. DateTime.Now is not always equal to DateTime.Now). Fields always return the same value.
Fields may be used for out / ref parameters, properties may not.
Properties support additional logic – this could be used to implement lazy loading among other things.
Properties support a level of abstraction by encapsulating whatever it means to get/set the value.
Use properties in most / all cases, but try to avoid side effects.
In the background a property is compiled into methods. So a Name property is compiled into get_Name() and set_Name(string value). You can see this if you study the compiled code.
So there is a (very) small performance overhead when using them. Normally you will always use a Property if you expose a field to the outside, and you will often use it internally if you need to do validation of the value.
When you want your private variable(field) to be accessible to object of your class from other classes you need to create properties for those variables.
for example if I have variables named as "id" and "name" which is private
but there might be situation where this variable needed for read/write operation outside of the class. At that situation , property can help me to get that variable to read/write depending upon the get/set defined for the property. A property can be a readonly / writeonly / readwrite both.
here is the demo
class Employee
{
// Private Fields for Employee
private int id;
private string name;
//Property for id variable/field
public int EmployeeId
{
get
{
return id;
}
set
{
id = value;
}
}
//Property for name variable/field
public string EmployeeName
{
get
{
return name;
}
set
{
name = value;
}
}
}
class MyMain
{
public static void Main(string [] args)
{
Employee aEmployee = new Employee();
aEmployee.EmployeeId = 101;
aEmployee.EmployeeName = "Sundaran S";
}
}
The second question here, "when should a field be used instead of a property?", is only briefly touched on in this other answer and kinda this one too, but not really much detail.
In general, all the other answers are spot-on about good design: prefer exposing properties over exposing fields. While you probably won't regularly find yourself saying "wow, imagine how much worse things would be if I had made this a field instead of a property", it's so much more rare to think of a situation where you would say "wow, thank God I used a field here instead of a property."
But there's one advantage that fields have over properties, and that's their ability to be used as "ref" / "out" parameters. Suppose you have a method with the following signature:
public void TransformPoint(ref double x, ref double y);
and suppose that you want to use that method to transform an array created like this:
System.Windows.Point[] points = new Point[1000000];
Initialize(points);
Here's I think the fastest way to do it, since X and Y are properties:
for (int i = 0; i < points.Length; i++)
{
double x = points[i].X;
double y = points[i].Y;
TransformPoint(ref x, ref y);
points[i].X = x;
points[i].Y = y;
}
And that's going to be pretty good! Unless you have measurements that prove otherwise, there's no reason to throw a stink. But I believe it's not technically guaranteed to be as fast as this:
internal struct MyPoint
{
internal double X;
internal double Y;
}
// ...
MyPoint[] points = new MyPoint[1000000];
Initialize(points);
// ...
for (int i = 0; i < points.Length; i++)
{
TransformPoint(ref points[i].X, ref points[i].Y);
}
Doing some measurements myself, the version with fields takes about 61% of the time as the version with properties (.NET 4.6, Windows 7, x64, release mode, no debugger attached). The more expensive the TransformPoint method gets, the less pronounced that the difference becomes. To repeat this yourself, run with the first line commented-out and with it not commented-out.
Even if there were no performance benefits for the above, there are other places where being able to use ref and out parameters might be beneficial, such as when calling the Interlocked or Volatile family of methods. Note: In case this is new to you, Volatile is basically a way to get at the same behavior provided by the volatile keyword. As such, like volatile, it doesn't magically solve all thread-safety woes like its name suggests that it might.
I definitely don't want to seem like I'm advocating that you go "oh, I should start exposing fields instead of properties." The point is that if you need to regularly use these members in calls that take "ref" or "out" parameters, especially on something that might be a simple value type that's unlikely to ever need any of the value-added elements of properties, an argument can be made.
Also, properties allow you to use logic when setting values.
So you can say you only want to set a value to an integer field, if the value is greater than x, otherwise throw an exception.
Really useful feature.
(This should really be a comment, but I can't post a comment, so please excuse if it is not appropriate as a post).
I once worked at a place where the recommended practice was to use public fields instead of properties when the equivalent property def would just have been accessing a field, as in :
get { return _afield; }
set { _afield = value; }
Their reasoning was that the public field could be converted into a property later in future if required. It seemed a little strange to me at the time. Judging by these posts, it looks like not many here would agree either. What might you have said to try to change things ?
Edit : I should add that all of the code base at this place was compiled at the same time, so they might have thought that changing the public interface of classes (by changing a public field to a property) was not a problem.
Technically, i don't think that there is a difference, because properties are just wrappers around fields created by the user or automatically created by the compiler.The purpose of properties is to enforce encapsuation and to offer a lightweight method-like feature.
It's just a bad practice to declare fields as public, but it does not have any issues.
Fields are ordinary member variables or member instances of a class. Properties are an abstraction to get and set their values. Properties are also called accessors because they offer a way to change and retrieve a field if you expose a field in the class as private. Generally, you should declare your member variables private, then declare or define properties for them.
class SomeClass
{
int numbera; //Field
//Property
public static int numbera { get; set;}
}
If you are going to use thread primitives you are forced to use fields. Properties can break your threaded code. Apart from that, what cory said is correct.
My design of a field is that a field needs to be modified only by its parent, hence the class. Result the variable becomes private, then to be able to give the right to read the classes / methods outside I go through the system of property with only the Get. The field is then retrieved by the property and read-only! If you want to modify it you have to go through methods (for example the constructor) and I find that thanks to this way of making you secure, we have better control over our code because we "flange". One could very well always put everything in public so every possible case, the notion of variables / methods / classes etc ... in my opinion is just an aid to the development, maintenance of the code. For example, if a person resumes a code with public fields, he can do anything and therefore things "illogical" in relation to the objective, the logic of why the code was written. It's my point of view.
When i use a classic model private field / public readonly properties,for 10 privates fields i should write 10 publics properties! The code can be really big faster. I discover the private setter and now i only use public properties with a private setter.
The setter create in background a private field.
That why my old classic programming style was:
public class MyClass
{
private int _id;
public int ID { get { return _id; } }
public MyClass(int id)
{
_id = id;
}
}
My new programming style:
public class MyClass
{
public int ID { get; private set; }
public MyClass(int id)
{
ID = id;
}
}
Basic and general difference is:
Fields
ALWAYS give both get and set access
CAN NOT cause side effects (throwing exceptions, calling methods, changing fields except the one being got/set, etc)
Properties
NOT ALWAYS give both get and set access
CAN cause side effects
Properties encapsulate fields, thus enabling you to perform additional processing on the value to be set or retrieved. It is typically overkill to use properties if you will not be doing any pre- or postprocessing on the field value.
IMO, Properties are just the "SetXXX()" "GetXXX()" functions/methods/interfaces pairs we used before, but they are more concise and elegant.
Traditionally private fields are set via getter and setter methods. For the sake of less code you can use properties to set fields instead.
when you have a class which is "Car". The properties are color,shape..
Where as fields are variables defined within the scope of a class.
From Wikipedia -- Object-oriented programming:
Object-oriented programming (OOP) is a programming paradigm based on the concept of "objects", which are data structures that contain data, in the form of fields, often known as attributes; and code, in the form of procedures, often known as methods. (emphasis added)
Properties are actually part of an object's behavior, but are designed to give consumers of the object the illusion/abstraction of working with the object's data.
Properties are special kind of class member, In properties we use a predefined Set or Get method.They use accessors through which we can read, written or change the values of the private fields.
For example, let us take a class named Employee, with private fields for name, age and Employee_Id. We cannot access these fields from outside the class , but we can access these private fields through properties.
Why do we use properties?
Making the class field public & exposing it is risky, as you will not have control what gets assigned & returned.
To understand this clearly with an example lets take a student class who have ID, passmark, name. Now in this example some problem with public field
ID should not be -ve.
Name can not be set to null
Pass mark should be read only.
If student name is missing No Name should be return.
To remove this problem We use Get and set method.
// A simple example
public class student
{
public int ID;
public int passmark;
public string name;
}
public class Program
{
public static void Main(string[] args)
{
student s1 = new student();
s1.ID = -101; // here ID can't be -ve
s1.Name = null ; // here Name can't be null
}
}
Now we take an example of get and set method
public class student
{
private int _ID;
private int _passmark;
private string_name ;
// for id property
public void SetID(int ID)
{
if(ID<=0)
{
throw new exception("student ID should be greater then 0");
}
this._ID = ID;
}
public int getID()
{
return_ID;
}
}
public class programme
{
public static void main()
{
student s1 = new student ();
s1.SetID(101);
}
// Like this we also can use for Name property
public void SetName(string Name)
{
if(string.IsNullOrEmpty(Name))
{
throw new exeception("name can not be null");
}
this._Name = Name;
}
public string GetName()
{
if( string.IsNullOrEmpty(This.Name))
{
return "No Name";
}
else
{
return this._name;
}
}
// Like this we also can use for Passmark property
public int Getpassmark()
{
return this._passmark;
}
}
Additional info:
By default, get and set accessors are as accessible as the property itself.
You can control/restrict accessor accessibility individually (for get and set) by applying more restrictive access modifiers on them.
Example:
public string Name
{
get
{
return name;
}
protected set
{
name = value;
}
}
Here get is still publicly accessed (as the property is public), but set is protected (a more restricted access specifier).
Think about it : You have a room and a door to enter this room. If you want to check how who is coming in and secure your room, then you should use properties otherwise they won't be any door and every one easily come in w/o any regulation
class Room {
public string sectionOne;
public string sectionTwo;
}
Room r = new Room();
r.sectionOne = "enter";
People is getting in to sectionOne pretty easily, there wasn't any checking
class Room
{
private string sectionOne;
private string sectionTwo;
public string SectionOne
{
get
{
return sectionOne;
}
set
{
sectionOne = Check(value);
}
}
}
Room r = new Room();
r.SectionOne = "enter";
Now you checked the person and know about whether he has something evil with him
Fields are the variables in classes. Fields are the data which you can encapsulate through the use of access modifiers.
Properties are similar to Fields in that they define states and the data associated with an object.
Unlike a field a property has a special syntax that controls how a person reads the data and writes the data, these are known as the get and set operators. The set logic can often be used to do validation.
Properties are used to expose field. They use accessors(set, get) through which the values of the private fields can be read, written or manipulated.
Properties do not name the storage locations. Instead, they have accessors that read, write, or compute their values.
Using properties we can set validation on the type of data that is set on a field.
For example we have private integer field age on that we should allow positive values since age cannot be negative.
We can do this in two ways using getter and setters and using property.
Using Getter and Setter
// field
private int _age;
// setter
public void set(int age){
if (age <=0)
throw new Exception();
this._age = age;
}
// getter
public int get (){
return this._age;
}
Now using property we can do the same thing. In the value is a key word
private int _age;
public int Age{
get{
return this._age;
}
set{
if (value <= 0)
throw new Exception()
}
}
Auto Implemented property if we don't logic in get and set accessors we can use auto implemented property.
When use auto-implemented property compiles creates a private, anonymous field that can only be accessed through get and set accessors.
public int Age{get;set;}
Abstract Properties
An abstract class may have an abstract property, which should be implemented in the derived class
public abstract class Person
{
public abstract string Name
{
get;
set;
}
public abstract int Age
{
get;
set;
}
}
// overriden something like this
// Declare a Name property of type string:
public override string Name
{
get
{
return name;
}
set
{
name = value;
}
}
We can privately set a property
In this we can privately set the auto property(set with in the class)
public int MyProperty
{
get; private set;
}
You can achieve same with this code. In this property set feature is not available as we have to set value to field directly.
private int myProperty;
public int MyProperty
{
get { return myProperty; }
}

Encapsulation C# newbie

New to C#, and I understand that encapsulation is just a way of "protecting data". But I am still unclear. I thought that the point of get and set accessors were to add tests within those methods to check to see if parameters meet certain criteria, before allowing an external function to get and set anything, like this:
private string myName;
public string MyName;// this is a property, speical to c#, which sets the backing field.
private string myName = "mary";// the backing field.
public string MyName // this is a property, which sets/gets the backing field.
{
get
{
return myName;
}
set
{
if (value != "Silly Woman"){
myName = value;
}
}
}
But I've been seeing code in c# which just looks like this:
public string MyName { get; set; }
Why would you just have a get and set with nothing in there, - isn't that the same as just declaring your private backing field public? If you can just get and set it from outside, why wouldn't you just do it directly?
Indeed, creating an auto-property as follows:
public string Name { get; set; }
is identical to building a property backed by a field:
private string _name;
public string Name {
get { return _name; }
set { _name = value; }
}
The point of these properties is not to hide data. As you observed, they don't do this. Instead, these properties can do other stuff instead of just working with a field:
public string Name {
get { return _name; }
set { if (value == null) throw new Exception("GTFO!"); _name = value; }
}
Another thing is, you can make properties virtual:
public virtual string Name { get; set; }
which, if overridden, can provide different results and behaviours in a derived class.
By using public string MyName { get; set; }, you leave an ability to change its logic later without the need to recompile/change other code that uses your property.
For example, if you are making a library and v1 uses a field and v2 uses a property, applications that work with v1 will not work with v2 without recompilation (and, potentially, code changes if they are written in some .NET language that has different syntax for accessing fields).
Another important difference is in serialization scenarios -- a lot of them do not support fields. Also any interface that requires a property can not be implemented without using one, but depending on interface it may not be required to do any additional checks/logic in it.
It makes it easier to add logic later. If you have a class that has a public field that you want to change to a property, you have to recompile everything that uses your class. That's a key point that I didn't understand initially.
If you have a class:
public class MyClass
{
public string MyString;
}
You could access the value like this:
var myClass = new MyClass();
string s = myClass.MyString;
Now change that to a property:
public class MyClass
{
public string MyString { get; set; }
}
How is it accessed? The exact same way:
var myClass = new MyClass();
string s = myClass.MyString;
So no big deal, right? Well, actually....
Properties are actually compiled into getter and setter methods:
get_MyString() and set_MyString(string value)
So the two methods do produce different compiled code. Now if all your code that uses this class is in the same project, is not as big a deal, because it will all be compiled together. But if you have an API library that you've distributed, it can be a much bigger deal to update.
Because it is easier to change the Code if you want to add the checks/tests later on.
Especially if you have many inheritance and many classes in your code it is very hard to change the implementation from a public variable to a public Property.
Moreover you can add to the get and set within the property different attributes, e.g. if you are using reflection. The get and set of the property are internally different methods. If you have just a public variable /field it is not possible to added different properties to the different access ways.
Yeah, but you can easily change it to:
public string MyName { get; private set; }
Plus, properties are used in other scenarios, like DataContracts and Serialization... so, this is a nice feature... (Mostly, syntactic sugar. I think) EDIT: I take that back.. you can apply virtual to it, so it's not the same

Common practice for variables with similar names in constructor parameter and as a property

Is there a "correct" way to name a variable when it is being passed in a constructor to a property? Example (in c#):
public class MyClass
{
private int index;
public MyClass(int i)
{
index = i;
}
}
When the two variables are the "same", is it common to name one more concisely, etc.? I want to be consistent at least, but I'm as to whether there is an accepted way to do this.
public MyClass(int index)
{
this.index = index;
}
This is at least the common way of doing in Java, and I guess it's the same in C#. It makes the name more meaningful than i, and uses the same name as the property to designate the same thing.
Refactor recommends private fields of a class to be camelCase prefixed them with _ (_index in your case). They recommend parameters to be camelCase without the underscore.
As mentioned in comments, there is no MSDN-recommended standard for private fields.
You can use as you wrote
or
below can be another option if the variable names are same
public class MyClass
{
private int index;
public MyClass(int index)
{
this.index = index;
}
}
You can name them the same. Use this to clarify what you're doing.
this.index = index;
If you make a distinction (which I do no recommend) it's better to be most explicit about the parameter name passed to the method instead of your internal name. If other programmers use your class then at least they know what the parameter means. So if you want to distinct:
public MyClass(int index)
{
i = index;
}
I think you should focus on making the "visible" variable more readable (in this case, that's the constructor's parameter). After all, this is what the users of your class will see when typing out.
Yes, there is a correct way to avoid such dilemmas, which is to follow the naming conventions established for your language. For example, in C# it's a convention that private fields begin with an underscore. There's probably something equivalent to Java.
That being said, it's definitely possible to differentiate between fields and local variables by explicitly using this to reference fields (a practice that's appropriate when there's a naming ambiguity).
There are set of coding standards in .NET defined in MSDN.
http://msdn.microsoft.com/en-us/library/ms229002.aspx
but for the total list of guidelines:
http://msdn.microsoft.com/en-us/library/ms229042.aspx
The C# standard would write your code like this:
public class MyClass {
public MyClass(int index) {
Index = index;
}
public int Index {
get { return _index; }
private set { _idex = value; /* Perform other actions triggered by the set */ }
}
private int _index;
}
In cases where no backing field is required the property (and backing field) can and should be simplified to:
public Index { get; private set; }

Basic C# property question

In C# do properties need to reference private member variables, or can I just declare the properties and use them directly in the class code?
If the former is the best practice, then does that rule out using C# property short-hand? I.e.
public string FirstName { get; set; }
Properties, when implemented like this:
public string FirstName { get; set; }
Automatically create a private member variable (the compiler does this for you), so you don't have to worry about it. This will behave exactly the same as if you do:
private string firstName;
public string FirstName {
get { return firstName; }
set { firstName = value; }
}
There is no reason not to use the automatic properties ( { get; set; } ). The provide the same advantages as making your own private member variable.
In addition, if you later decide you need to do extra processing (for example, if you decide to implement INotifyPropertyChanged in your property setter), you can add this without changing your public API, but putting a backing field in manually.
You don't need properties to access private fields but in general it is considered best practice.
And you can use auto-properties (short hand) untill you need to add more functionality to a property, like validation. Changing it to a 'real' property is always a non-breaking change.
Properties created like this
public String Caption{ get; set; }
this will be compiled as
[CompilerGenerated]
private string <Caption>k__BackingField;
public string Caption
{
[CompilerGenerated]
get
{
return this.<Caption>k__BackingField;
}
[CompilerGenerated]
set
{
this.<Caption>k__BackingField = value;
}
}
The above code is extracted after compilation using reflector tool.
They do not need to reference private member variables. You can use them directly in the class.
Properties do not need to reference private member variables. It is best practice, though, to have them do so. You can think of properties as methods if it makes it easier to understand. You can run code inside of them. You can return whatever you want. You can call methods and use private member variables. You can even simply return a constant.
I use private member variables in almost all cases. It allows me to create a readonly property, or to provide some rules to those outside my class of getting or setting properties that my class doesn't have to follow.
To add on to Reed's answer, inside of your code (within the class itself) the member functions should adhere to this and actually use the Property rather then the actual private member. For instance if you had this:
public string FirstName { get; set; }
And you had a strange method called public char GetFirstLetter() that returned the first letter in a person's first name you'd want to do it like this:
public char GetFirstLetter()
{
return FirstName[0];
}
Instead of actually using your private variable. When you set a property a programmer may have written code to set it in a particular manner. So it only makes sense to simply use that property within your class methods.
C# can reference private variables as in:
public class A
{
private string _b;
public string B
{
get { return _b; }
set { _b = value; }
}
}
The get;set; designation is automatic properties which when compiled will generate the private variable for you, as a way to make it easy to setup your code.
Using properties is the best way to provide a method of control and security to the attributes in a class, always keep the attributes private if possible.
if you use like
public string FirstName { get; set; }
compiler will automatically adds getters and setters for this property automatically.it not a bad practice.
Here is the proof
if you declare
private string firstName;
public string FirstName
{
get { return firstName; }
set { firstName = value; }
}
like this also compiler will takes it as
so its not ruled out... :)

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