Visual Studio For Mac Create C App

• Create Mac Application Visual Studio
• Visual Studio Professional For Mac
• Microsoft Visual Studio For Mac
• Visual Studio On Macos

Aug 06, 2019  Visual Studio for Mac supports Git and Subversion built into the IDE, as well as TFS with a little more effort. I have used the Github Desktop app for source control of my folders without much issue. This is also my source control workflow for VS Code, and while it is not integrated into the IDE of VS for Mac, it's also not a bad option. It can be iOS, tvOS, Android, Mac,.NET Core, or even ASP.NET. As all the cool kids are now writing mobile apps, lets see what it takes in Visual Studio for Mac to create a C# application that will run on Android and iOS. The first thing you need to do is pick the application template. Let's start with a simple 'Single View App.'. Apr 21, 2020  Visual Studio allows you to easily create a Node.js project and experience IntelliSense and other built-in features that support Node.js. In this tutorial for Visual Studio, you create a Node.js web application project from a Visual Studio template. Then, you create a simple app using React. In this tutorial, you learn how to.

In this tutorial for C#, you'll use Visual Studio to create and run a console app and explore some features of the Visual Studio integrated development environment (IDE) while you do so.

If you haven't already installed Visual Studio, go to the Visual Studio downloads page to install it for free.

If you haven't already installed Visual Studio, go to the Visual Studio downloads page to install it for free.

Create a project

To start, we'll create a C# application project. The project type comes with all the template files you'll need, before you've even added anything!

Create Mac Application Visual Studio

1. Open Visual Studio 2017.

2. From the top menu bar, choose File > New > Project.(Alternatively, press Ctrl+Shift+N).

3. In the left pane of the New Project dialog box, expand C#, and then choose .NET Core. In the middle pane, choose Console App (.NET Core). Then name the file Calculator.

Add a workload (optional)

If you don't see the Console App (.NET Core) project template, you can get it by adding the .NET Core cross-platform development workload. Here's how.

Option 1: Use the New Project dialog box

1. Choose the Open Visual Studio Installer link in the left pane of the New Project dialog box.

2. The Visual Studio Installer launches. Choose the .NET Core cross-platform development workload, and then choose Modify.

Option 2: Use the Tools menu bar

1. Cancel out of the New Project dialog box and from the top menu bar, choose Tools > Get Tools and Features.

2. The Visual Studio Installer launches. Choose the .NET Core cross-platform development workload, and then choose Modify.

1. Open Visual Studio 2019.

2. On the start window, choose Create a new project.

3. On the Create a new project window, enter or type console in the search box. Next, choose C# from the Language list, and then choose Windows from the Platform list.

   After you apply the language and platform filters, choose the Console App (.NET Core) template, and then choose Next.

   Note

   If you do not see the Console App (.NET Core) template, you can install it from the Create a new project window. In the Not finding what you're looking for? message, choose the Install more tools and features link.

   Then, in the Visual Studio Installer, choose the .NET Core cross-platform development workload.

   After that, choose the Modify button in the Visual Studio Installer. You might be prompted to save your work; if so, do so. Next, choose Continue to install the workload. Then, return to step 2 in this 'Create a project' procedure.

4. In the Configure your new project window, type or enter Calculator in the Project name box. Then, choose Create.

   Visual Studio opens your new project, which includes default 'Hello World' code.

Create the app

First, we'll explore some basic integer math in C#. Then, we'll add code to create a basic calculator. After that, we'll debug the app to find and fix errors. And finally, we'll refine the code to make it more efficient.

Explore integer math

Let's start with some basic integer math in C#.

1. In the code editor, delete the default 'Hello World' code.

   Specifically, delete the line that says, Console.WriteLine('Hello World!');.

2. In its place, type the following code:

   Notice that when you do so, the IntelliSense feature in Visual Studio offers you the option to autocomplete the entry.

   Note

   The following animation isn't intended to duplicate the preceding code. It's intended only to show how the autocomplete feature works.

3. Choose the green Start button next to Calculator to build and run your program, or press F5.

   A console window opens that reveals the sum of 42 + 119, which is 161.

4. (Optional) You can change the operator to change the result. For example, you can change the + operator in the int c = a + b; line of code to - for subtraction, * for multiplication, or / for division. Then, when you run the program, the result changes, too.

5. Close the console window.

Add code to create a calculator

Let's continue by adding a more complex set of calculator code to your project.

1. Delete all the code you see in the code editor.

2. Enter or paste the following new code into the code editor:

3. Choose Calculator to run your program, or press F5.

   A console window opens.

4. View your app in the console window, and then follow the prompts to add the numbers 42 and 119.

   Your app should look similar to the following screenshot:

Add functionality to the calculator

Let's tweak the code to add further functionality.

Add decimals

The calculator app currently accepts and returns whole numbers. But, it will be more precise if we add code that allows for decimals.

As in the following screenshot, if you run the app and divide number 42 by the number 119, your result is 0 (zero), which isn't exact.

Let's fix the code so that it handles decimals.

1. Press Ctrl + H to open the Find and Replace control.

2. Change each instance of the int variable to float.

   Make sure that you toggle Match case (Alt+C) and Match whole word (Alt+W) in the Find and Replace control.

3. Run your calculator app again and divide the number 42 by the number 119.

   Notice that the app now returns a decimal numeral instead of zero.

However, the app produces only a decimal result. Let's make a few more tweaks to the code so that the app can calculate decimals too.

1. Use the Find and Replace control (Ctrl + H) to change each instance of the float variable to double, and to change each instance of the Convert.ToInt32 method to Convert.ToDouble.

2. Run your calculator app and divide the number 42.5 by the number 119.75.

   Notice that the app now accepts decimal values and returns a longer decimal numeral as its result.

   (We'll fix the number of decimal places in the Revise the code section.)

Debug the app

We've improved on our basic calculator app, but it doesn't yet have fail safes in place to handle exceptions, such as user input errors.

For example, if you try to divide a number by zero, or enter an alpha character when the app expects a numeric character (or vice versa), the app might stop working, return an error, or return an unexpected nonnumeric result.

Let's walk through a few common user input errors, locate them in the debugger if they appear there, and fix them in the code.

Tip

For more information about the debugger and how it works, see the First look at the Visual Studio debugger page.

Fix the 'divide by zero' error

When you try to divide a number by zero, the console app might freeze and then show you what's wrong in the code editor.

Note

Sometimes, the app doesn't freeze and the debugger won't show a divide-by-zero error. Instead, the app might return an unexpected nonnumeric result, such as an infinity symbol. The following code fix still applies.

Let's change the code to handle this error.

1. Delete the code that appears directly between case 'd': and the comment that says // Wait for the user to respond before closing.

2. Replace it with the following code:

   After you add the code, the section with the switch statement should look similar to the following screenshot:

Now, when you divide any number by zero, the app will ask for another number. Even better: It won't stop asking until you provide a number other than zero.

Fix the 'format' error

If you enter an alpha character when the app expects a numeric character (or vice versa), the console app freezes. Visual Studio then shows you what's wrong in the code editor.

To fix this error, we must refactor the code that we've previously entered.

Revise the code

Rather than rely on the program class to handle all the code, we'll divide our app into two classes: Calculator and Program.

The Calculator class will handle the bulk of the calculation work, and the Program class will handle the user interface and error-capturing work.

Let's get started.

1. Delete everything in the Calculator namespace between its opening and closing braces:

2. Next, add a new Calculator class, as follows:

3. Then, add a new Program class, as follows:

4. Choose Calculator to run your program, or press F5.

5. Follow the prompts and divide the number 42 by the number 119. Your app should look similar to the following screenshot:

   Notice that you have the option to enter more equations until you choose to close the console app. And, we've also reduced the number of decimal places in the result.

Close the app

1. If you haven't already done so, close the calculator app.

2. Close the Output pane in Visual Studio.

3. In Visual Studio, press Ctrl+S to save your app.

4. Close Visual Studio.

Code complete

Visual Studio Professional For Mac

During this tutorial, we've made a lot of changes to the calculator app. The app now handles computing resources more efficiently, and it handles most user input errors.

Here's the complete code, all in one place:

Next steps

Congratulations on completing this tutorial! To learn even more, continue with the following tutorials.

See also

First-class support for Xamarin allows you to develop rich native experiences for Android, macOS, iOS, tvOS, and watchOS. Xamarin.Forms cross-platform applications help you share XAML-based UI code between Android, iOS, and macOS without limiting access to native functionality.

Xamarin.Forms

XAML Hot Reload for Xamarin.Forms is built into Visual Studio for Mac in version 8.3 and later. With this feature enabled changes are instantly reflected in your running app every time you save the file.

XAML Hot Reload can be enabled by checking the Enable Xamarin Hot Reload checkbox at Visual Studio > Preferences > Projects > Xamarin Hot Reload.

For more information on Hot Reload, see the XAML Hot Reload for Xamarin.Forms guide within the documentation.

Android

Visual Studio for Mac has its own integrated Android SDK manager, allowing you access to the SDKs you want your app to target.

For Android applications, Visual Studio for Mac includes its own designer, which works with Android .axml files tovisually construct user interfaces. Visual Studio for Mac will open these files in its Android Designer, as illustrated in the following image:

For more information on the Android Designer, see the Xamarin.Android Designer Overview guide.

iOS

The iOS Designer is fully integrated with Visual Studio for Mac and enables visual editing of .xib and Storyboard files to create iOS, tvOS, and WatchOS UIs and transitions. The entire user interface can be built using drag-and-drop functionality between the Toolbox and Design Surface, while using an intuitive approach to handling events. The iOS Designer also supports custom controls with the added benefit of design-time rendering.

For more information on using the iOS Designer, see the Designer guides.

Mac

Xamarin provides native Mac API bindings that allow you to create beautiful Mac applications.

For more information on writing Mac applications with Visual Studio for Mac, refer to the Xamarin.Mac guides.

Xamarin Enterprise features

Note

These products can only be used with a Visual Studio Enterprise subscription.

Profiler

The Xamarin Profiler has three instruments available for profiling. The Introduction to the Xamarin Profiler guide explores what these instruments measure and how they analyze your application, and clarifies the meaning of the data presented on each screen.

Inspector

The Xamarin Inspector provides an interactive C# console with user tools. It can be used as a debugging or diagnostics aid when inspecting live applications, as a teaching tool, as a documentation tool, or an experimentation tool.

Microsoft Visual Studio For Mac

It consists of a standalone application that provides a rich C# console that can target various programming platforms (Android, iOS, Mac, and Windows) and integrate into your IDEs debugging workflow.

Visual Studio On Macos

For more information, see the Xamarin Inspector guide.