C# Unsafe Codes allows using pointer variables in a function of code block when it is marked by the unsafe modifier. The unsafe code or the unmanaged code is a code block that uses a pointer variable.
Note − To execute the programs mentioned in this chapter please set compilation option in Project >> Compile Options >> Compilation Command to
mcs *.cs -out:main.exe -unsafe"
C# Unsafe Codes Pointers
A pointer is a variable whose value is the address of another variable i.e., the direct address of the memory location. similar to any variable or constant, you must declare a pointer before you can use it to store any variable address.
The general form of a pointer declaration is −
type *var-name;
Following are valid pointer declarations −
int *ip; /* pointer to an integer */ double *dp; /* pointer to a double */ float *fp; /* pointer to a float */ char *ch /* pointer to a character */
The following example illustrates the use of pointers in C#, using the unsafe modifier −
using System; namespace UnsafeCodeApplication { class Program { static unsafe void Main(string[] args) { int var = 20; int* p = &var; Console.WriteLine("Data is: {0} ", var); Console.WriteLine("Address is: {0}", (int)p); Console.ReadKey(); } } }
When the above code was compiled and executed, it produces the following result −
Data is: 20 Address is: 99215364
Instead of declaring an entire method as unsafe, you can also declare a part of the code as unsafe. The example in the following section shows this.
Retrieving the Data Value Using a Pointer
You can retrieve the data stored at the location referenced by the pointer variable, using the ToString() method. The following example demonstrates this −
using System; namespace UnsafeCodeApplication { class Program { public static void Main() { unsafe { int var = 20; int* p = &var; Console.WriteLine("Data is: {0} " , var); Console.WriteLine("Data is: {0} " , p->ToString()); Console.WriteLine("Address is: {0} " , (int)p); } Console.ReadKey(); } } }
When the above code was compiled and executed, it produces the following result −
Data is: 20 Data is: 20 Address is: 77128984
Passing Pointers as Parameters to Methods
You can pass a pointer variable to a method as a parameter. The following example illustrates this −
using System; namespace UnsafeCodeApplication { class TestPointer { public unsafe void swap(int* p, int *q) { int temp = *p; *p = *q; *q = temp; } public unsafe static void Main() { TestPointer p = new TestPointer(); int var1 = 10; int var2 = 20; int* x = &var1; int* y = &var2; Console.WriteLine("Before Swap: var1:{0}, var2: {1}", var1, var2); p.swap(x, y); Console.WriteLine("After Swap: var1:{0}, var2: {1}", var1, var2); Console.ReadKey(); } } }
When the above code is compiled and executed, it produces the following result −
Before Swap: var1: 10, var2: 20 After Swap: var1: 20, var2: 10
Accessing Array Elements Using a Pointer
In C#, an array name and a pointer to a data type same as the array data, are not the same variable type. For example, int *p and int[] p, are not the same type. You can increment the pointer variable p because it is not fixed in memory but an array address is fixed in memory, and you can’t increment that.
Therefore, if you need to access an array of data using a pointer variable, as we traditionally do in C, or C++ ( please check: C Pointers), you need to fix the pointer using the fixed keyword.
The following example demonstrates this −
using System; namespace UnsafeCodeApplication { class TestPointer { public unsafe static void Main() { int[] list = {10, 100, 200}; fixed(int *ptr = list) /* let us have array address in pointer */ for ( int i = 0; i < 3; i++) { Console.WriteLine("Address of list[{0}]={1}",i,(int)(ptr + i)); Console.WriteLine("Value of list[{0}]={1}", i, *(ptr + i)); } Console.ReadKey(); } } }
When the above code was compiled and executed, it produces the following result −
Address of list[0] = 31627168 Value of list[0] = 10 Address of list[1] = 31627172 Value of list[1] = 100 Address of list[2] = 31627176 Value of list[2] = 200
Compiling Unsafe Code
For compiling unsafe code, you have to specify the /unsafe command-line switch with the command-line compiler.
For example, to compile a program named prog1.cs containing unsafe code, from the command line, give the command −
csc /unsafe prog1.cs
If you are using Visual Studio IDE then you need to enable the use of unsafe code in the project properties.
To do this −
- Open project properties by double clicking the properties node in the Solution Explorer.
- Click on the Build tab.
- Select the option “Allow unsafe code“.
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