visual basic to c#
DESCRIPTION
Visual Basic to C#. Computer Programming II Summer 2011. Purpose. This PowerPoint is for students that received instruction in Computer Programming I using the Visual Basic language. Computer Programming II uses the C# language. This lesson will introduces the differences between VB and C#. - PowerPoint PPT PresentationTRANSCRIPT
COMPUTER PROGRAMMING I ISUMMER 2011
Visual Basic to C#
Purpose
This PowerPoint is for students that received instruction in Computer Programming I using the Visual Basic language.
Computer Programming II uses the C# language. This lesson will introduces the differences between VB and C#.
Essential Standard
This PowerPoint reviews variables, decision making statements, arrays, and methods (sub procedures). Major differences between C# and VB are also covered.
C# is very different from VB in one KEY way. All statements MUST end with a semicolon (;). If you forget this, your code will not work. Exceptions: IF statements and loops
The upside to this is two-fold: 1. Multiple coding statements may be on the same line 2. A long code segment can be spilt up without having to use an
underscore like in VB.
Spacing C# Examples
int intAge; string strName; Two different statements- same line
Long line of code: string query = @"SELECT whatever
FROM tableNameWHERE column = 1";
Both are perfectly valid statements in C#.
Semicolon Exceptions
Two exceptions to the semicolon rule:
if(x==b) no semicolon here It is a “clause” - only part of the statement
{ y=7; semicolon as normal}
while(x< i) no semicolon here either – again it is a “clause”{ intGradeTotal=intGrade; semicolon as normal}
Declaring a Variable
In VB we use the Dim keyword to declare a variable: Dim intAge as Integer
C# handles this differently: int intAge;
In C# use the following format: DataType variableName;
All types are spelled out except integer (int) and character (char).
C# Examples
string strName;
char charGrade;
int intAge;
double dblTaxRate;
Coding Blocks
In VB we use the End keyword to end coding blocks like IF statements or loops.
If a = b Then b=cEnd If
In C#, we use braces so this code block would be written:
if(a==b){ b=c;}
Equality Check (==)
You might of noticed something on the last slide- a == in the if statement.
In VB the assignment operator and equality are the same (=). This is NOT true in C#. The equals sign is solely used for assignment. To check for equality you must use ==.
Using = in an if statement to check for equality is a logic error. The code will run properly, but not produce the intended result. (It will always be false.)
Increment Counters
In VB to add one to a counter we use varName += 1, for two we use +=2 and so on. (i+=1)
This shorthand works in C# as well, but C# provides an additional way to add or subtract one from a counter. i++; i--;
++ adds 1 to the value of i while -- subtracts one. Remember the semicolon is required.
To count by 2, or another number, we use the same shorthand is in VB (i+=2).
IF Statements
In C# we do not use THEN keyword as in VB. The comparison is enclosed in ( ) after the if keyword.
if (a < b){ Statements}
All statements after the if (to be run if the if is true) that would be executed are enclosed in braces ( { } ).
IF..Then..Else Example
if(a > b){ b=c; d= 7;}else{ b=5;d=4;}
Else If
C# handles multiple else if statements a little differently as well. There is a space between else and if unlike in VB. As in VB there can be multiple else ifs and a else (default) if all statements are false.
if (a == b) {c = 12;} else if (a>b) {c=14;} else if (a < b) { c = 16; } else { c = 10; }
If Statements in Assignment Statements
Like VB, C# supports an if statement in an assignment statement. However the format is completely different:
string strName = (a < b) ? "less than 10" : "greater than 10";
? is called the ternary operator.
And/Or & Short Circuiting
In VB we use the And/Or keywords in compound if statements.
C# And = & Or = |
To short circuit the statement use && (and) or || (or).
Examples
else if (number < 15 & number > 5) Using and
else if(number > 50 | number < 25) Usingor
else if (number < 15 && number > 5) Using short circuit and
else if(number > 50 || number < 25) Using short circuit or
Select Case
The Select Case statement in VB do not exist in C#. Instead C# has the switch keyword. This operates similarly to Select Case, but has some key differences. Let’s refresh our memory with an example:
Select case intGradesCase 90 to 100
strGrade= “A”
Case 80 to 89strGrade=“B”
Case 70 to 79strGrade=“C”
Case 60 to 69strGrade=“D”
Case Is < 60strGrade=“F”
ElseMessagebox.show(“Please input a valid number!”)
End Select
Switch
switch(intGrades) { case 10: case 9: strGrade="A"; break; case 8: strGrade="B"; break; case 7: strGrade = "C"; break; case 6: strGrade="D"; break; case 5: case 4: case 3: case 2: case 1: strGrade = "F"; break; }
• Notice instead of using the To keyword we can just assign multiple cases to a given statement.
• The break; as the end of each case is required or the program will continue to read through the statements.
• There could be multiple true cases in C# unlike VB which stops after finding ONE true case.
• Break prevents this which is almost always the desired outcome.
Switch 2
If all cases are false and we want an action to occur we use the default keyword:
switch (caseSwitch) { case 1: Console.WriteLine("Case 1"); break; case 2: Console.WriteLine("Case 2"); break; default: Console.WriteLine("Default case"); break; }
Select Case vs. Switch
The C# Switch statement does not allow ranges or comparisons like the Select Case statement in Visual Basic. It also does not allow Boolean comparison.
This is one place where the VB implementation is superior to the C# one.
Loops
VB and C# each support the following loops: Do While For For each
In C# loops are written in the same syntax as an if statement:while (i< intNum) remember no semicolon on this line{ Code to run in the loop; semicolon at the end of each code statement unless using a if statement}
Loop Examples
while (i <= 50) //pretest loop{ intResult = intResult + i; i++;}
do { intResult = intResult + i; i ++;} while (i <= 50) //posttest loop
For Statements
For statements are written completely differently in C#:
for(i=0; i<=50; i++){ intResult = intResult + i;}
VB:For i as Integer = 0 to 50 intResult = intResult + iNext i
Modifier – increment or decrement
ConditionInitializer
Initializer Condition
Modifier – increment or decrement – Uses Step if other than add 1.
Step Keyword
In VB to count by a value other than 1 we use the Step keyword. This is not supported in C#. To count by a value other than 1 we change the end of the statement.
To count by 2’s upward for example: for(i=0; i<=50; i+=2)
To decrease by 2: for(i=100; i>=50; i-=2)
For each
The for each loop is handled differently in C# as well.
foreach(int j in intArray) //no space { lstGrades.Items.Add(j); }
VB: For Each j In intArray lstGrades.Items.Add(j) Next j
Arrays
In VB we use ( ) in array statements. In C# [ ] are used instead.
Dim intArray = New Integer(4) {1, 2, 3, 4, 5} (VB)
int[] intArray = new int[5] {1,2,3,4,5}; (C#)
In VB we put in 1 less than the number of elements we want in the array. This is NOT the case in C#. If we want five elements we use a 5.
Arrays are still index-based starting at 0.
COMPUTER PROGRAMMING ISUMMER 2011
Applying Functions/Methodsin C#
Breaking it Up
As programs gets more complex- they become longer and harder to debug or even figure out what exactly is going on.
Functions, also called Methods, provide a way to break up long coding segments and reduce repeated code.
Declare a Method
When you declare a method, you will follow a specific formula for the method header
access_modifier return_type Name ()
Access Modifier We will only use the public in this course. You can use private which would restrict use of the
method.Return Type
The return type will either be void, if there is no value being returned, or it will be the data type of the value being returned.
Declare a Method
Method Header Example:
public void Signature() {
lblResult.Text = “Created by J Smith”; }
To use the method, you will “Call” it when wanted.
Signature();
Methods with Parameters
Parameters provide information to a method that is necessary to do its job.
The method call provides the values – called actual arguments.
You will add the “formal arguments” or “parameters” to the method header.
public void Signature(string Name )
Methods with Parameters
Method:public void Signature(string Name ){
lblResult.Text = “Written by: ” + Name;}
Call:Signature(strName);
The arguments and parameters MUST match in order, data type and number.
Methods that Return a Value
When you specify a return type you will add a return statement.
Method Header Example:
public string Signature(){
return “Created by J Smith”;}
Return data type and what is returned MUST match.
Return Type
Methods that Return a Value
When a method returns a value, the method call must be part of an assignment statement.
Method Call Example:
lblResult.Text = Signature();
Two Ways to Pass Arguments
There are two ways to pass arguments. Pass-by-Value Pass-by-Reference
Pass-by-Value is how we passed the variable strName earlier.
Pass-By-Value
This is the default way to pass arguments in C#.
A copy of the value is made and sent to the method.
Any changes are not passed back to the call.
Think of this as a one way street; the value only moves in one direction.
Pass-By-Reference
The method has the ability to access and modify the original variable from the call.
Reference-type variables store references to objects.
Think of it as sending the actual address of the object for the method to access the value. The method can then manipulate that value and send it back.
Pass-By-Reference
To pass a variable by reference use the keyword ref.
Apply the ref keyword to the parameter declaration allows you to pass that variable by reference.
The ref keyword is used for variables that already have been initialized in the calling method. It must be initialized, otherwise the compiler will generate
an error.
Pass-By-Reference
public void Calculate(int num1, ref int num2){ num2 = num1 + 1;}
private void btnCalc_Click(object sender, EventArgs e){ int n1 = 0; int n2 = 0;
Calculate(n1, ref n2); lblResult.Text = n2.ToString(); //displays 1 in label}
Conclusion
This PowerPoint provided an overview of creating methods in C#.
Next step is to practice with sample programs the skilled students have learned! The Unpacked Content will provide some sample programs.
For more information on this topic http://msdn.microsoft.com/en-us/library/aa645760(v=
VS.71).aspx