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188 lines
4.5 KiB
Markdown
188 lines
4.5 KiB
Markdown
# Lecture for January 18
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## Variables and Assignment
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Think about variables as buckets that hold information. Once the bucket is created, only one type of item can go in the bucket.
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```java
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sand bucket1;
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```
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We can say that bucket1 is of type `sand`, that means the only thing that can go in the bucket is sand.
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```java
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int bucket1;
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double bucket2;
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```
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From the two lines above, we have *declared* the variable.
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Variables store state, they are a name for a location in memory.
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Always remember to initialize your variables. Otherwise there's nothing in the bucket!
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```java
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bucket1 = 5;
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```
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You can combine both the declaration and initialization
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```java
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int count = 15;
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```
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Remember when dealing with variables to stay true with the type, don't mix a bucket of water with a bucket of sand.
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We can update `count` to contain a true value
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```java
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count = 55;
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```
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`count` no longer has the value of `15` in it. There's no record of it! It has been overwritten with the value `55`
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### Primitive Types
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There are 8 primitive types in Java
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- boolean
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- char
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- byte
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- short
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- int
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- long
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- float
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- double
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byte through double are all *numeric* types
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#### Boolean
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`boolean` can only be equal to `true` or `false`
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```java
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boolean student = true;
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```
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#### Char
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Stores a single character from the Unicode set
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There are 16 bits per character which adds up to 65,536 characters
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ASCII is the US subset of the characters. You can look this up online when needing to deal with ASCII values
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```java
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char firstLetter = 'A';
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```
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### Numeric types
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The different numeric types determine the precision of your number. Since numbers are not represented the same in the computer as they are in real life, there are some approximations.
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The default type you can use your code is `int` for integers and `double` for numbers with a decimal point
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There are certain types of operations you can perform on numeric type
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| Symbol | Meaning | Example | Value |
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| ------ | --------------- | ---------- | ----- |
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| + | addition | 43 + 8 | 51 |
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| - | subtraction | 43.0-8.0 | 35.0 |
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| * | multiplication | 43 * 8 | 344 |
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| / | division | 43.0 / 8.0 | 5.375 |
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| % | remainder / mod | 43 % 8 | 3 |
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| - | unary minus | -43 | -43 |
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#### Increment/ Decrement
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There are two types of in/decrementers postfix and prefix
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Postfix:
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```java
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int x = 0;
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int y = 7;
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x++; // Shortcut for x = x + 1
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y--; // Shortcut for y = y - 1
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```
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Prefix
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```java
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int x = 0, y = 7, z;
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z = y * x++; // Equivalent to (y * x) + 1 = 7 * 0
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z = y * ++x; // Equivalent to y * (x + 1) = 7 * 1
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```
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### Data Conversion
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There are two types of data conversion, implicit and explicit
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The compiler can perform implicit data conversion automatically.
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Performing an explicit data conversion requires additional work on the programmer's part
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A conversion is implicit if you do **not** lose any information in it
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```java
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double price = 6.99;
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int sale = 3;
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double total = price - sale;
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```
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A *cast* is an explicit data conversion. This is requested by a programmer, this can lead to loss of information
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```java
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int nextChar = 'b';
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Character.isAlphabetic( (char) nextChar); // Let's you print the actual letter 'b' instead of the number corresponding to it
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float price = 6.99;
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int cost = (int) price; // cost is now 6
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```
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### Printing variables
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You can print the values of variables using `System.out.println` and `System.out.print`
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The difference is that `System.out.println` adds a new line at the end. Meaning the next print out will be on the next line.
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```java
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int cost = 5;
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double sale = .30;
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System.out.print(cost);
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System.out.print(sale);
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// Prints out '5.30`
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System.out.println(cost);
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System.out.println(sale);
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// Prints out '5'
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// Prints out '0.30'
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```
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To add a space between two variables in a print, add `" "` to the expression in between the two variables
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```java
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System.out.println("The total cost is " + 5 " dollars and" + " " + 93 + " cents");
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// The total cost is 5 dollars and 94 cents
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```
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### Input from User
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You can get import from the user, we can do this using the `Scanner` class.
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First import it at the top of your file
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```java
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import java.util.Scanner;
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```
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All you can do with `Scanner` is outlined in the Java API at this link https://docs.oracle.com/javase/8/docs/api/index.html?java/util/Scanner.html
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Create a Scanner object
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```java
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Scanner input = new Scanner(System.in);
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System.out.print("Please enter an integer: ");
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price = input.nextInt(); // The integer that the user inputs is now stored in price
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System.out.println("Your input: " + price);
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```
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