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Variables must be declared with an identifier and then initialized. | Variables must be declared with an identifier and then initialized. | ||
Revision as of 23:19, 3 February 2007
<purge></purge>
Contents
C# fundamentals
Questions from week 1 reading. discussion
Some pages comparing c# to other languages
A Comparative Overview of C# http://genamics.com/developer/csharp_comparative.htm
C# and Java: Comparing Programming Languages http://msdn.microsoft.com/library/default.asp?url=/library/en-us/dncenet/html/tchCJavaComparingProgrammingLanguages.asp
Everything is an Object
In c# everything is an object. And all objects inherit from the object class.
See object in the classbrowser
Since all objects inherit from the object class they all have some the basic functionality like a method called ToString();
See the source for object.cs from mono
Basic Data Types
Variable Types
Type | Size in Bytes | .Net Type | Description |
---|---|---|---|
byte | 1 | Byte | Unsigned (0-255) |
char | 2 | Char | Unicode Characters ascii unicode and other |
bool | 1 | Boolean | True of False (Note: C# boolean values do not equate to integer values, or True != (read as is not equal to) 1 and False != 0) |
sbyte | 1 | SByte | Signed integers(-128 to 127) |
short | 2 | Int16 | Signed integers(-32,768 to 32,767) |
ushort | 2 | UInt16 | Unsigned integers(0 to 65,535) |
int | 4 | Int32 | Signed integers(-2,147,483,648 to 2,147,483,647) |
uint | 4 | UInt32 | Unsigned integers(0 to 4,294,967,295) |
float | 4 | Single | fixed-precision up to 7 digits. Floating point number ( 1.5 x 10-45 to 3.4 x 1038 ) |
double | 8 | Double | fixed-precision up to 16 digits. Floating point number ( 5.0 x 10-324 to 1.7 x 10308 ) |
decimal | 12 | Decimal | fixed-precision up to 28 digits. Typically used for financial calculations. Required the suffix "m" or "M" |
long | 8 | Int64 | Signed integer ( -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807) |
ulong | 8 | UInt64 | Unsigned integer (0 to 18,446,744,073,709,551,615 ) |
Variables must be declared with an identifier and then initialized.
Declaration
Declaration sets aside a named section of memory the is the proper size to hold the declared type. At this point the variable contains nothing.
<csharp>// declare a variable int firstInt; //declares a vaiable of type int string myString; //declares a vaiable of type string</csharp>
Initialization
Initialization actually sets the variables value
<csharp>// initialize the variable firstInt = 1; myString = "Hello!";</csharp>
other ways to do it
<csharp>// declare some variables int secondInt, thirdInt, fourthInt; secondInt = 2; thirdInt = 3; fourthInt = 4;
//declare and initialize variables in one line int myNegativeInt = -2147483648;</csharp>
In c# variables cannot be used unil they are initalized. For example
<csharp>int UsedBeforeInit; Console.WriteLine(UsedBeforeInit);</csharp>
will produce
helloError4.cs(10,31): error CS0165: Use of unassigned local variable 'UsedBeforeInit'
Compiler Errors
error helloError4.cs(10,31): error CS0165: Use of unassigned local variable 'UsedBeforeInit' file Line .Net Framework error # and description
Csharp Error error CS0116: A namespace does not
Csharp warning CS0168: The variable 'NeverUsed' is declared but never used
UsedBeforeInit.cs - example of misused variable
UsedBeforeInit_Fixed.cs - all beter now source
More examples of built in types 1x1.cs C# intrinsic types from Learn-C-Sharp. variable.aspx - example from book aspx page View Source variable2.aspx = example from book errors View Source
Variable Names
Variable shoudl be named with meaningful names.
for exmaple
- z = x * y;
does not convey any meaning
but
- distance = speed * time;
does convey meaning. If varibales are named properly it can make your code mush easier to read.
Naming conventions
Name variables intelligently.
Name variables with names that have meaning.
Hungarian Notation
Hungarian notation id a popular notation system used be many C, C++ and VB programmers. It was originally devised in Charles Simonyi's doctoral thesis, "Meta-Programming: A Software Production Method." Hungarian notation specifies that a prefix be added to each variable that indicated that variables type. It also specifies sometimes adding a suffice to clarify variables meaning. In the early 1980's Microsoft adopted this notation system.
ie... intHitCounter, intHitsPerMonthMax
Hungarian Notation - Charles Simonyi Microsoft
PascalNotation
Capitalize first Letter and then the first letter on each word.
ie... PascalNotation, IntVarName
Use on method names method names.
camelNotation
Lower case first letter and then capitalize the first letter of each word
ie... camelNotation, intVarName
use for variable names
Other Coding Techniques and practices
Microsoft - Coding Techniques and Programming Practices
IBM Best Practices for Programming in C
GNU Coding Standards
GNU Naming conventions
More Types
Operators
ECMA-334 Operators and punctuators
C# uses the equals = sign for Assignment
int myVar = 15; //sets the value of myVar to 15
Mathematical Operators
Operator | Description |
* | multiplication |
/ | division |
% | modulus remainder Ask Dr.Math What is Modulus? |
Increment Decrement Operators
Operator | Description |
-- | decrement same as foo = foo - 1 |
-= | calculate and reassign subtraction |
*= | calculate and reassign multiplication |
/= | calculate and reassign division |
%= | calculate and reassign modulus |
y= x++ | assignment prefix y is assigned to x and then x in incremented |
y= ++x | assignment postfix x is incremented and then assigned to y |
Operator Precedence
Evaluated First
- ++,--,unary-
- *,/,%
- +,-
Evaluated Last
- =,+=,-=,*=,etc
String concatenation
+ is also used to concatenate strings
If you have two string that you want to combine into one string you can concatenate them.
<csharp>//Create a string and set it's value to "cool."
string coolString = "cool";
//Do some concatenations and make it super cool
Console.WriteLine ("Super " + "string " + "theory!!!\n" + "Is really " + coolString + ".");</csharp>
will output (remember \n is a new line)
Super string theory!!!! Is really cool.
Escape Sequences
The backslash character is used as a string escape sequence. It will escape the next character and change it's meaning. For example \" with output a ", \n with out put a newline and \\ with output a single \.
Short in class Assignment In class assignment 10-15 mins Build a c# console app (remember to take a takedown aproach start small with somethin you know) * Declare and initialize two integers * Display their values using Console.WriteLine * Declare a third integer and initialize it with the sum of the first two integers * Output the value of the third integer
Top down development with comments topdown.aspx
Fully implemeted Console adding program add.cs
Conversion Casting
Casting is the process of converting form one type of object to another, There are two Conversion types in C# implicit and explicit. Implicit conversion is handled by the compiler and requires no extra work. Implicit conversion is only possible if the new data type can hold the old data type with out any data loss. explicit conversion forces on datatype into another even if it doesn't fit. It is up to the programmer to define explicit casts.
implicit conversion
<csharp>int intNumber = 1000; long lngNumber; lngNumber = intNumber;
int Number1= 6; int Number2= 5; int Number3 = Number1 / Number2; //Number3 == 1 NOT 1.2 because Number3 is an int </csharp>
explicit conversion
<csharp>long lngNumber = 1000; int intNumber; intNumber = (int)lngNumber;
int Number1= 6; int Number2= 5; double Number3 = (double)Number1 / (double)Number2; //Number3 == 1.2</csharp>
Some types cannot be cast from one type to another but the Framework has it's ows Conversion Class. Convert
ConvertClass.cs and Emample of using the convert class to convert an interger to a boolean
Constants
Constants are datatypes that will be assigned a value that will be constant thought the executing of the code. You cannot change constants once they have been assigned a value. syntax
<csharp>const type identifier = value;</csharp>
example
<csharp>const int freezingPoint = 32; const int freezingPointMetric = 0; const float pi = 3.141592</csharp>
Arrays
Arrays are groups of variables of the same type Syntax
<csharp>type [] identifier</csharp>
single dimension arrays
<csharp>string [] aryNames = new string[3];
aryNames [0] = "Joe"; aryNames [1] = "Mike"; aryNames [2] = "Alice";</csharp>
Example single dimensions array singleArrray.aspx singleArray.cs
multi dimension arrays
<csharp>string [,] aryNames = new string[3,3];
aryNames [0,0] = "Joe"; aryNames [0,1] = "Schmoe"; aryNames [0,2] = "111 111-1111"; aryNames [1,0] = "Mike"; aryNames [1,1] = "Orbinawitz"; aryNames [1,2] = "222 222-2222"; aryNames [2,0] = "Mary"; aryNames [2,1] = "Alice"; aryNames [2,2] = "333 333-3333";</csharp>
Example multi dimensions array multiArrray.aspx
jagged arrays
<csharp>string [][] aryNames = new string[3][];
aryNames[0] = new string[2]; aryNames[1] = new string[4]; aryNames[2] = new string[3];
aryNames [0][0] = "John"; aryNames [0][1] = "Doe";
aryNames [1][0] = "James"; aryNames [1][1] = "Bond"; aryNames [1][2] = "007"; aryNames [1][3] = "License to kill";
aryNames [2][0] = "Mary"; aryNames [2][1] = "Alice"; aryNames [2][2] = "Im not a number im a free woman";</csharp>
Example jagged array jaggedArrray.aspx jaggedArray.cs
even more array samples
<csharp>using System;
class Array { public static void Main() { //array of ints int[] myInts = {5,10,15}; Console.WriteLine("array of ints:"); Console.WriteLine( "myInts[0]: {0}, myInts[1]: {1}, myInts[2]:{2}" ,myInts[0],myInts[1],myInts[2]);
//jagged array of bools bool[][] myBools = new bool[2][]; myBools[0] = new bool[2]; myBools[1] = new bool[1];
myBools[0][0] = true; myBools[0][1] = false; myBools[1][0] = true; Console.WriteLine("jagged array of bools:"); Console.WriteLine( "myBools[0][0]: {0}, myBools[1][0]: {1}", myBools[0][0], myBools[1][0]);
//multi-dimensional array of doubles double[,] myDoubles = new double[2,2]; myDoubles[0, 0] = 3.147; myDoubles[0, 1] = 7.157; myDoubles[1, 1] = 2.117; myDoubles[1, 0] = 56.00138917; Console.WriteLine("multi-dimensional array of doubles:"); Console.WriteLine("myDoubles[0, 0]: {0}, myDoubles[1, 0]: {1}", myDoubles[0, 0], myDoubles[1, 0]);
//array of strings
string[] myStrings = new string[3];
myStrings[0] = "Joe";
myStrings[1] = "Matt";
myStrings[2] = "Robert";
Console.WriteLine("array of strings:");
Console.WriteLine("myStrings[0]: {0}, myStrings[1]: {1}, myStrings[2]: {2}", myStrings[0], myStrings[1], myStrings[2]);
}
}</csharp>
moreArrys.cs
Structs
Lightweight alternatives to classes. Structs do not support inheritance or destructors. Don't worry if you don't understand structs yet it hard cuz the book teaches them before classes. We will talk more about stucts after we talk about classes Syntax
[ attributes] [access-modifiers] struct identifier [:interface-list {struct members}
<csharp>struct Dog {
public string name; public string weight; public int age;
}</csharp>
Enumerators
Enumerators are used to set predefined list of named constants. Syntax
[ attributes] [modifiers] enum identifier [:base-type {enumerator-list};
<csharp>//An enumerator for ServingSizes at BK enum ServingSizes : uint {
Small = 0, Regular = 1, Large = 2, SuperSize = 3
}</csharp>
<csharp>//another more usefull example // forced sequence to start // from 1 instead of 0 (default) enum Months
{ January = 1, February , March, April , May , June , July , August , Sept , Oct , Nov , Dec }</csharp>
Enumerator Example Enum.cs
HomeWork
- Learning c#
- Chapter 6, Chapter 7 47-84
- Build a console application Variable Types and Casting 5pts 1 extra credit
Build a console application that declares and initializes three integers with whatever values you like.
Display these integers in the console using a Console.Write;
Cast the intergers into three floats.
Display the floats using Console.Write.
Cast the orignal integers into three strings.
Put the strings into an array
Loop throught the array with a loop and display the strings in the array.
extra credit use an enumerator to change word stings into ints ie "one" = 1 "two" = 2
Analysis of Homework Project
- On very structured programs like the one analysis is quite easy
- Start by indentifing the steps
- Add Pseudocode as c# comments for each step
- Fill in the real syntax for each step and compile each time to make usre nothing breaks (I like to call this baby steps and I like to use this technique whenever I'm trying to implement something that is completely new to me)
The pseudocode might look something like <csharp>using System; namespace HelloVariables {
class VariablesAndCasting { public static void Main() { Console.WriteLine("Casting Examples"); //declares and initializes three integers with whatever values you like
//display these integers in the console using a Console.Write //more steps here } }
}</csharp>