- Using Visual Studio For Power Shell
- Visual Studio Python Examples
- Using Visual Studio For Python Mac Download
- Using Visual Studio For Web Pages
- Using Visual Studio For C
As a .NET developer, I’ve spent most of my time coding on Windows machines. It’s only logical: Visual Studio is the richest development experience for building C# and VB.NET applications, and it only runs on Windows…right?
- Presently, Visual Studio for Mac offers no support for Python, and frankly, I wouldn’t bet on something like that happening any time soon. Anecdotal fact: One year ago, someone opened a feature request ticket on UserVoice.
- Visual Studio Code is a lightweight but powerful source code learning tool for Python and other languages and an editor which runs on your desktop and is available for Windows, Mac and Linux.
- Using Unity and Visual Studio for Mac, you can create awesome games that run on any platform. Use the powerful coding, refactoring, and debugging features in Visual Studio for Mac.
- Visual Studio for Mac wad Released, C# scripts are shared to some extent on Windows and Mac, We use WindowsForms GUI configuration on Windows and Cocoa on Mac. However, a problem occurred when running Terminal from System.Diagnostics.Process on Mac and running Python.
Choose the language packs you wish to install using the Visual Studio installer, and switch to your language of choice across the entire IDE, including the Python tools, by using Tools > Options > Environment > International Settings in Visual Studio. Learning to code is hugely popular at the moment, and Python is a great coding language to learn. Luckily for us, the Mac is a great coding platform, and Python makes it easy to learn how to code. Jun 14, 2018 Python is the fastest growing language in Visual Studio Code, and the Microsoft Python Extension for Visual Studio Code is one of the most popular extensions on the Visual Studio Code marketplace! To get started, first download Visual Studio Code and then from there you can follow our Getting Started with Python tutorial to install the.
When I joined Stormpath to work on our open-source .NET authentication library, I was handed a MacBook Pro and given an interesting challenge: can a Mac be an awesome .NET development platform?
To my surprise, the answer is yes! I’ll share how I turned a MacBook Pro into the ultimate Visual Studio development machine.
How to Run Visual Studio on a Mac
Visual Studio doesn’t run natively on OS X, so my first step was to get Windows running on my MacBook Pro. (If you want an editor that does run natively, Xamarin Studio or Visual Studio Code might fit the bill).
There are multiple options for running Windows on a Mac. Every Mac comes with Apple’s Boot Camp software, which helps you install Windows into a separate partition. To switch between OSes, you need to restart.
Parallels is a different animal: it runs Windows (or another guest OS) inside a virtual machine. This is convenient because you don’t have to restart your computer to switch over to Windows. Instead, Windows runs in an OS X application window.
I found that a combination of both worked best for me. I installed Windows into a Boot Camp partition first, and then turned that partition into an active Parallels virtual machine. This way, I have the option of using Windows in the virtual machine, or restarting to run Windows natively at full speed.
I was initially skeptical of the performance of a heavy application like Visual Studio running in a virtual machine. The option to restart to Windows via Boot Camp gave me a fallback in case Visual Studio was sluggish.
There are some minor disadvantages to this method: you can’t pause the virtual machine or save it to a snapshot. A non-Boot Camp virtual machine doesn’t have these limitations. This guide will work regardless of what type of virtual machine you create.
After three months of serious use, and some tweaks, I’ve been very impressed with Parallels’ performance. I haven’t needed to boot directly to Windows at all. (For comparison, my host machine is a 15” mid-2015 MacBook Pro with 16GB of RAM and a 1TB flash drive.)
In the remainder of this guide, I’ll detail the steps I took to optimize both Parallels and Visual Studio to run at peak performance.
Installing Windows With Boot Camp and Parallels
This part’s easy. I followed Apple’s Boot Camp guide to install Windows in a separate partition.
Then, I installed Parallels and followed the Parallels Boot Camp guide to create a new virtual machine from the existing Boot Camp partition.
Tweaking Parallels for Performance and Usability
The Parallels team publishes guidelines on how to maximize the performance of your virtual machine. Here’s what I adopted:
Virtual machine settings:
- 2 virtual CPUs
- 4096MB system memory
- 256MB graphics memory
Parallels options:
- Optimization: Faster virtual machine, Adaptive hypervisor, Tune Windows for speed all turned on.
- Sharing: Shared cloud, SmartMount, and Access Windows folders from Mac turned off, as I didn’t need these for my workflow.
I experimented with both of Parallels’ presentation modes, Coherence and Full Screen. While it was cool to see my Windows apps side-by-side with OS X in Coherence mode, I found that the UI responsiveness (especially opening and closing windows and dialogs) felt sluggish.
Because of this, I use Full Screen exclusively now. I have Windows full-screen on my external Thunderbolt display, and OS X on my laptop. If I need to use OS X on my large monitor, I can swipe the Magic Mouse to switch desktops.
Adjusting OS X and Windows Features
I fixed a few annoyances and performance drains right off the bat:
- Function keys. If you’re using the Mac keyboard, you’ll want to change the function key behavior so the F1-F12 keys work correctly in Visual Studio. From System Preferences – Keyboard, make sure Use all F1, F2, etc. keys as standard function keys is checked. With this turned on, hold Fn to use the Mac functions (brightness, volume, etc.) on F1-F12. With an external non-Mac keyboard, this isn’t an issue.
Start menu. I’m using Windows 8, and the removal of the Start menu annoyed me. I clung to my old ways and installed Start8 to restore it.
Disable Windows visual effects. I turned off most of the Windows desktop manager visual effects by going to Control Panel – System and Security – Advanced system settings – Advanced – Performance – Settings – Visual Effects and choosing Adjust for best performance. However, I left Smooth edges of screen fonts checked because it improves text rendering on my monitor.
Installing Visual Studio and Helpful Extensions
Installing Visual Studio is a piece of cake once the virtual machine is set up. I simply downloaded the latest release from MSDN and let the installer run.
If you use an Apple Magic Mouse (as I do), Visual Studio tends to be overly eager to zoom the text size in and out as you swipe your finger over the mouse. The Disable Mouse Wheel Zoom add-on fixes this annoyance.
Improving Visual Studio for Performance
I was impressed with how well Visual Studio performed under emulation. With a large multi-project solution open, though, I saw some slowdowns.
Through trial and error, I found a number of things that could be disabled to improve performance. You may not want to make all of the changes I did, so pick and choose your own list of tweaks:
- Disable hardware-accelerated rendering. Unchecking Automatically adjust visual experience based on client performance, Enable rich client visual experience, and Use hardware graphics acceleration if available via Options – Environment made the UI feel much more responsive on my machine.
Start up to an empty environment. Starting up Visual Studio for the first time feels a lot snappier if you skip the default news page on startup. Select Empty environment under Options – Environment – Startup – At startup.
Remove unused extensions. Visual Studio ships with a number of extensions that you may not need. From Tools – Extensions and Updates – Installed, remove any extensions you aren’t actively using (you can always reinstall them later). I got rid of six extensions I didn’t need.
Disable extra debugging features. I turned off both Enable Diagnostic Tools while debugging and Show elapsed time PerfTip while debugging in Options – Debugging – General. I wasn’t using these debugging features, and debugging felt snappier after I disabled them.
Turn off the Navigation Bar. I found the code editor Navigation Bar to be unnecessary if the Solution Explorer is open. I disabled it via Options – Text Editor – All Languages – Navigation Bar.
Disable CodeLens. CodeLens is a cool feature for collaboration, but it’s not part of my current workflow. I got rid of the CPU overhead by turning it off via Options – Text Editor – All
Languages – CodeLens – Enable CodeLens.Turn off Track Changes. When a file is open in the code editor, Visual Studio will represent recent changes by displaying small regions of green or yellow on the scroll bar. If you can live without this, turn off Track changes via Options – Text Editor – General for a small performance boost.
Turn off Track Active Item. Squeeze out a little bit more UI performance out by ensuring Track Active Item in Solution Explorer is unchecked under Options – Projects and Solutions – General.
Visual Studio on a Mac: The Best of Both Worlds
With these tweaks, I’ve come to love using Visual Studio on a Mac. The performance is good, and by running Windows in a virtual machine, I get the best of both OS worlds.
Want to see what I’m building with this setup? Check out our open-source .NET SDK on Github.
Do you have any other tricks you’ve used to improve Visual Studio performance? Any must-have add-ons that boost your productivity? Leave me a comment below!
Default Formatter
Code formatting is supported using either one of yapf or autopep8.
The default code format provider is autopep8.
Auto Formatting
Formatting the source code as and when you save the contents of the file is supported.
Enabling this requires configuring the setting 'editor.formatOnSave': true as identified here.
Paths
All samples provided here are for windows.
However Mac/Linux paths are also supported.
AutoPep8
You can configure the format provider by changing a setting in the User or Workspace settings file as follows:
Using Visual Studio For Power Shell
Installing autopep8
Custom Path
This is generally unnecessary. As the Extension will resolve the path to the formatter based on Python executable being used or configured in python.pythonPath of settings.json. If this cannot be found, then the formatter will be resolved based on the current environment Path settings.
Visual Studio Python Examples
If this is not the case or you wish to use another version of autopep8, all you need to do is configure the path as follows either in the User or Workspace settings file:
Using Visual Studio For Python Mac Download
Yapf
You can configure the format provider by changing a setting in the User or Workspace settings file as follows:
Using Visual Studio For Web Pages
Custom Path
This is generally unnecessary. As the Extension will resolve the path to the formatter based on Python executable being used or configured in python.pythonPath of settings.json. If this cannot be found, then the formatter will be resolved based on the current environment Path settings.
If this is not the case or you wish to use another version of yapf, all you need to do is configure the path as follows either in the User or Workspace settings file:
Custom arguments to Yapf
Custom arguments can be passed into yaps by configuring the settings in the User or Workspace settings as follows:
Installing Yapf
Using Visual Studio For C
pip install yapf