# Convert data types using casting and conversion techniques

Take control of the data in your applications, knowing when to apply the
correct technique to change data types as needed.

### Learning objectives

Use the casting operator to cast a value into a different data type.

Use conversion methods to convert a value into a different data type.

Guard against the loss of data when performing a cast or conversion operation.

Use the `TryParse()` method to safely convert a string into a numeric data type.

## Introduction

Suppose you're a software developer on a team working on medical intake form
automation. You're tasked with delivery of the application features for
collecting data entered by a medical technician before the doctor sees the
patient. The technician can use the application to record the date and time,
patient age, height, weight, pulse, and blood pressure. The application also
provides text fields for other information, such as the reason for the visit,
current prescriptions, and other items. You work with many data that is in a
mix of data types. For the prototype, you'll build a console application and
collect all of the input as `strings`.

Because the input is initially input as a string, you need to occasionally
change values from one data type into another in the code. A simple example is
any mathematical operation you want to perform with string data. You would
first need to change the value into a numeric data type, like `int`, and then you
could manipulate the operation. Alternatively, you may want to format and
output a numeric value for a summary report using string interpolation.

You use different techniques to change a data type when necessary. You learn
when to use one technique over another, and when a given technique might risk
the loss of data.

By the end of this module, you're able to take control of the data in your
applications, knowing when to apply the correct technique to change data types
as needed.

### Learning objectives

In this module, you'll:

- Use the casting operator to cast a value into a different data type.
- Use conversion methods to convert a value into a different data type.
- Guard against the loss of data when performing a cast or conversion operation.
- Use the `TryParse()` method to safely convert a string into a numeric data
type.

---

## Exercise

### Explore data type casting and conversion

There are multiple techniques to perform a data type conversion. The technique
you choose depends on your answer to two important questions:

- Is it possible, depending on the value, that attempting to change the value's data type would throw an exception at run time?
- Is it possible, depending on the value, that attempting to change the value's data type would result in a loss of information?
In this exercise, you work your way through these questions, the implications of their answers, and which technique you should use when you need to change the data type.

#### Prepare your coding environment

Create a new console application. At the Terminal command prompt type:
`dotnet new console -o ./path_to/Project` or `dotnet new console -n "Project"`
and then press Enter.

This .NET CLI command uses a .NET program template to create a new C# console
application project in the specified folder location.

You use this C# console project to create, build, and run code samples during
this module.

Close the Terminal panel.

### Question

**Is it possible that attempting to change the value's data type would throw an
exception at run time?**

The C# compiler attempts to accommodate your code, but doesn't compile
operations that could result in an exception. When you understand the C#
compiler's primary concern, understanding why it functions a certain way is
easier.

#### Write code that attempts to add an `int` and a `string` and save the result in an `int`

Type the following code into the Visual Studio Code Editor:

```cs
int first = 2;
string second = "4";
int result = first + second;
Console.WriteLine(result);
```

Here, you're attempting to add the values `2` and `4`. The value `4` is of type
`string`. Will this work?

At the Terminal command prompt, to run your code, type `dotnet run` and then
press Enter.

You should see the following approximate output

Windows:

```txt
C:\Users\someuser\Documents\csharpprojects\TestProject\Program.cs(3,14): error CS0029: Cannot implicitly convert type 'string' to 'int'
```

Linux:

```txt
/home/user/Projects/TestProject/Program.cs(3,14): error CS0029: Cannot implicitly convert type 'string' to 'int'
```

> Note  
> If you see a message saying "Couldn't find a project to run", ensure that the
Terminal command prompt displays the expected TestProject folder location. For
example: `C:\Users\someuser\Documents\csharpprojects\TestProject>`

Take a minute to consider why the compiler was unable to run the first code sample.

The important part of the error message,
`(3,14): error CS0029: Cannot implicitly convert type 'string' to 'int'`, tells
you the problem is with the use of the string data type.

But why can't the C# Compiler just handle the error? After all, you can do the
opposite to concatenate a number to a `string` and save it in a string variable.
Here, you change the data type of the `result` variable from `int` to string.

Update your code in the editor as follows:

```cs
int first = 2;
string second = "4";
string result = first + second;
Console.WriteLine(result);
```

Save your code file, and then run your code.

You should observe the following output:

```txt
24
```

The output is mathematically incorrect but completes by combining the values as
the characters "2" and "4".

Examine, once again, the first code example where the `result` variable is of
type `int`. The code with the error message.

```cs
int first = 2;
string second = "4";
int result = first + second;
Console.WriteLine(result);
```

Why can't the C# compiler figure out that you want to treat the variable `second`
containing `4` as a number, not a `string`?

### Compilers make safe conversions

The C# compiler sees a potential problem in the making. The variable `second` is
of type `string`, so it might be set to a different value like `"hello"`. If the
C# compiler attempted to convert "hello" to a number that would cause an
exception at runtime. To avoid this possibility, the C# compiler doesn't
implicitly perform the conversion from `string` to `int` for you.

From the C# compiler's perspective, the safer operation would be to convert
`int` into a `string` and perform concatenation instead.

If you intend to perform addition using a string, the C# compiler requires you
to take more explicit control of the process of data conversion. In other words,
it forces you to be more involved so that you can put the proper precautions in
place to handle the possibility that the conversion could throw an exception.

If you need to change a value from the original data type to a new data type
and the change could produce an exception at run time, you must perform a data
conversion.

To perform data conversion, you can use one of several techniques:

- Use a helper method on the data type
- Use a helper method on the variable
- Use the Convert class' methods

You look at a few examples of these techniques for data conversion later in
this unit.

### Question

**Is it possible that attempting to change the value's data type would result in
a loss of information?**

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
int myInt = 3;
Console.WriteLine($"int: {myInt}");

decimal myDecimal = myInt;
Console.WriteLine($"decimal: {myDecimal}");
```

Save your code file, and then run your code.

You should see the following output:

```txt
int: 3
decimal: 3
```

The key to this example is this line of code:

```cs
decimal myDecimal = myInt;
```

Since any `int` value can easily fit inside of a `decimal`, the compiler performs
the conversion.

The term *widening* conversion means that you're attempting to convert a value
**from** a data type that could hold less information **to** a data type that
can hold *more* information. In this case, a value stored in a variable of type
`int` converted to a variable of type `decimal`, doesn't lose information.

When you know you're performing a widening conversion, you can rely on implicit
conversion. The compiler handles implicit conversions.

### Perform a cast

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
decimal myDecimal = 3.14m;
Console.WriteLine($"decimal: {myDecimal}");

int myInt = (int)myDecimal;
Console.WriteLine($"int: {myInt}");
```

To perform a cast, you use the casting operator `()` to surround a data type,
then place it next to the variable you want to convert (example:
`(int)myDecimal`). You perform an explicit conversion to the defined cast data
type (`int`).

Save your file, and then run your code.

You should see the following output:

```txt
decimal: 3.14
int: 3
```

The key to this example is this line of code:

```cs
int myInt = (int)myDecimal;
```

The variable `myDecimal` holds a value that has precision after the decimal poin
t. By adding the casting instruction `(int)`, you're telling the C# compiler that
you understand it's possible you'll lose that precision, and in this situation,
it's fine. You're telling the compiler that you're performing an intentional
conversion, an explicit conversion.

### Determine if your conversion is a "widening conversion" or a "narrowing conversion"

The term narrowing conversion means that you're attempting to convert a value
from a data type that can hold more information to a data type that can hold
less information. In this case, you may lose information such as precision 
(that is, the number of values after the decimal point). An example is
converting value stored in a variable of type `decimal` into a variable of type
`int`. If you print the two values, you would possibly notice the loss of
information.

When you know you're performing a narrowing conversion, you need to perform a
cast. Casting is an instruction to the C# compiler that you know precision may
be lost, but you're willing to accept it.

If you're unsure whether you lose data in the conversion, write code to perform
a conversion in two different ways and observe the changes. Developers
frequently write small tests to better understand the behaviors, as illustrated
with the next sample.

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
decimal myDecimal = 1.23456789m;
float myFloat = (float)myDecimal;

Console.WriteLine($"Decimal: {myDecimal}");
Console.WriteLine($"Float  : {myFloat}");
```

Save your file, and then run your code.

You should see output similar to:

```txt
Decimal: 1.23456789
Float  : 1.2345679
```

You can observe from the output that casting a `decimal` into a `float` is a
narrowing conversion because you're losing precision.

### Performing Data Conversions

Earlier, it was stated that a value change from one data type into another
could cause a runtime exception, and you should perform data conversion. For
data conversions, there are three techniques you can use:

- Use a helper method on the variable
- Use a helper method on the data type
- Use the `Convert` class' methods

### Use `ToString()` to convert a number to a `string`

Every data type variable has a `ToString()` method. What the `ToString()` method
does depends on how it's implemented on a given type. However, on most
primitives, it performs a widening conversion. While this isn't strictly
necessary (since you can rely on implicit conversion in most cases) it can
communicate to other developers that you understand what you're doing and it's
intentional.

Here's a quick example of using the `ToString()` method to explicitly convert
`int` values into strings.

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
int first = 5;
int second = 7;
string message = first.ToString() + second.ToString();
Console.WriteLine(message);
```

Save your file, and then run the code, the output should display a
concatenation of the two values:

```txt
57
```

### Convert a `string` to an `int` using the `Parse()` helper method

Most of the numeric data types have a `Parse()` method, which converts a
`string` into the given data type. In this case, you use the `Parse()` method
to convert two strings into int values, then add them together.

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
string first = "5";
string second = "7";
int sum = int.Parse(first) + int.Parse(second);
Console.WriteLine(sum);
```

Save your file, and then run the code, the output should display a sum of the
two values:

```txt
12
```

Take a minute to try to spot the potential problem with the previous code
example. What if either of the variables `first` or `second` are set to values
that can't be converted to an `int`? An exception is thrown at runtime. The C#
compiler and runtime expects you to plan ahead and prevent "illegal"
conversions. You can mitigate the runtime exception in several ways.

The easiest way to mitigate this situation is by using `TryParse()`, which is a
better version of the `Parse()` method.

### Convert a `string` to a `int` using the `Convert` class

The `Convert` class has many helper methods to convert a value from one type
into another. In the following code example, you convert a couple of strings
into values of type `int`.

> Note  
> The code samples in this exercise are designed based on en-US culture setting
s, and use a period (`.`) as the decimal separator. Building and running the
code with a culture setting that uses a different decimal separators (such as a
comma `,`) may give unexpected results or errors. To fix this issue, replace
the period decimal separators in the code samples with your local decimal
separator (such as `,`). Alternatively, to run a program using the en-US
culture setting, add the following code to the top of your program:
`using System.Globalization;` and after any other `using` statements add
`CultureInfo.CurrentCulture = new CultureInfo("en-US");`.

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
string value1 = "5";
string value2 = "7";
int result = Convert.ToInt32(value1) * Convert.ToInt32(value2);
Console.WriteLine(result);
```

Save your file, and then run your code.

You should see the following output:

```txt
35
```

> Note  
> Why is the method name `ToInt32()`? Why not `ToInt()`?  
> `System.Int32` is the name of the underlying data type in the .NET Class
Library that the C# programming language maps to the keyword `int`. Because the
`Convert` class is also part of the .NET Class Library, it is called by its
full name, not its C# name. By defining data types as part of the .NET Class
Library, multiple .NET languages like Visual Basic, F#, IronPython, and others
can share the same data types and the same classes in the .NET Class Library.

The `ToInt32()` method has 19 overloaded versions allowing it to accept
virtually every data type.

you used the `Convert.ToInt32()` method with a string here, but you should
probably use `TryParse()` when possible.

So, when should you use the `Convert` class? The `Convert` class is best for
converting fractional numbers into whole numbers (`int`) because it rounds up
the way you would expect.

### Compare casting and converting a `decimal` into an `int`

The following example demonstrates what happens when you attempt to cast a
`decimal` into an `int` (a narrowing conversion) versus using the
`Convert.ToInt32()` method to convert the same `decimal` into an `int`.

Delete or use the line comment operator `//` to comment out the code from the
previous exercise step, and add the following code:

```cs
int value = (int)1.5m; // casting truncates
Console.WriteLine(value);

int value2 = Convert.ToInt32(1.5m); // converting rounds up
Console.WriteLine(value2);
```

Save your file, and then run your code.

You should see the following output:

```txt
1
2
```

#### Casting truncates and converting rounds

When you're casting `int value = (int)1.5m;`, the value of the float is truncated
so the result is `1`, meaning the value after the decimal is ignored completely.
You could change the literal float to `1.999m` and the result of casting would
be the same.

When you're converting using `Convert.ToInt32()`, the literal float value is
properly rounded up to `2`. If you changed the literal value to `1.499m`, it
would be rounded down to `1`.

### Recap

You covered several important concepts of data conversion and casting:

- Prevent a runtime error while performing a data conversion
- Perform an explicit cast to tell the compiler you understand the risk of
losing data
- Rely on the compiler to perform an implicit cast when performing an expanding
conversion
- Use the `()` cast operator and the data type to perform a cast (for example, 
`(int)myDecimal`)
- Use the `Convert` class when you want to perform a narrowing conversion, but
want to perform rounding, not a truncation of information