This update introduces a key update to Find References and a new refactoring. We are also introducing a new way to experience Visual Assist—more on this below! And of course, thanks to your feedback, we also have bug fixes and general QoL improvements.

Visit our website page and download the release now.

Replace Find References Tree Control

Whenever you execute a Find References command, the results are shown in  a dialogue at the bottom of the windows. In 2024.9, a portion of the results dialog and the logic behind it was overhauled to (1) make the UI display results faster and (2) to add the ability to search and filter through those results.

Before this update, it may sometimes take a half second or so to display all the references and symbols as the UI tries to catch up with the greatly improved Find References speed.  Now, when you are working with large projects or code bases, there will be minimal lag even as the parser incrementally adds hits to the results dialog.

Additionally, as a result of the overhaul, there is a new feature that allows users to actively search through the found results, even as the primary search is still ongoing. You don’t have to wait for the complete search in order to interact with the results.

Move Method to Base Class (New refactoring)

A new refactoring has been added: the Move Method to Base Class is a powerful tool for improving the design and maintainability of your code. This feature allows you to take a method that was originally implemented in a child (or derived) class and move it to a base (or parent) class.

This essentially transfers the method implementation, for instance, to the base class, and updates the derived classes to remove the redundant implementation. This makes derived classes smaller and more manageable—and thus, more maintainable, more readable, and overall cleaner code.

New Visual Assist Integration Modes 

This release introduces two new available integration modes for the Visual Assist plugin. The available integration modes allow users to personalize their experience with Visual Assist. The two available modes are partial integration and full integration mode.

Partial integration sets fewer features on by default and will not change default key mappings—a more vanilla Visual Studio experience. This may be useful for those using Visual Assist for a few key features, or for those who are accustomed to the default VA experience.

Full integration is the recommended setting as it embodies the experience that VA was designed for. It exposes all code completion, code navigation, autosuggestion features, and the like. Furthermore, it also exposes some of our less apparent features more.

One of the main purposes of this mode is to make it easier to find and familiarize with the features inside Visual Assist. This applies even for beginners as they can see more and use more of the available features and functions.. 

Additionally, it’s the more flexible option as it can be easier to disable a few things manually but keep everything else.  As such, you can consider full integration as the setting that maximizes your experience of all the benefits Visual Assist has to offer. And on the other hand, consider partial integration as the classic version that keeps development a bit more zen with fewer buttons and shortcuts to learn.

New “Ray” style row indicator

Visual Assist’s way of highlighting the current selected line/row now has a new option. This makes the current line appear a bit more unique, and gives it a thinner edge appearance. To be more precise, we added a new style unique to the current iteration in Visual Studio. The new style utilizes a “ray” top and bottom line going across the editor. 

Unit Test Code Generation feature

For those following the Google Test framework, you can use this new feature to create boilerplates to skip the tedium of setting up the test framework and verifying your test’s structure. With just a few clicks, you can create a new test file, pre-filled with test structure and essential placeholders, saving you significant time and effort.

To use this feature, just activate the feature on a class, and VA will create a new file with the foundation you need to start writing tests.

Availability & Feedback

This release is available starting December 30 and can be downloaded via the Whole Tomato downloads page. As always, we encourage your feedback, especially on recently introduced features, to help us make a better experience for you.

Thank you for your continued support, happy holidays and happy coding! If you have any questions or encounter any issues, feel free to reach out to our support team.

Download the release now.

The post Visual Assist 2024.9 release post first appeared on Tomato Soup.

Based in Europe, the client is a global company specializing in the development and manufacturing of high-performance systems for vehicle technology. As a company that has been in the industry for over a century, their longstanding focus on innovation has positioned them as one of the top automotive manufacturers worldwide. As part of their commitment to quality, they have invested heavily in simulation tools for vehicle design, testing, and validation, ensuring efficiency and reliability for their partner manufacturers.

They engineer and produce various automotive technologies such as engine and electronics systems for passenger cars, commercial vehicles, and data measurement services.

Use case and challenges

We had the privilege of speaking with the lead developer and his team who create modeling and simulation software. We discussed their daily work and the challenges they face:

Use Cases:

• They develop C++ applications in Microsoft’s Visual Studio for internal use.
• They create bespoke programs for modeling components and simulating them in various scenarios.
• Their primary language is using C/C++ in Visual Studio because it can be interfaced easily.
  

Challenges:

• As an advanced tech provider, their workflow and output is highly specialized. Each project is tailor-made specifically for a certain client or customer.
• They have huge legacy code bases that they have to maintain and modernize. 
• Because of the precision involved in measurements, they handle large amounts of data from different sources of measurement.

Solution

Visual Assist was introduced to the team many years ago and it has since been a staple tool used daily by the developer team. They use Visual Assist for a variety of use cases including:

• Refactoring and modernizing code is exponentially faster.
  Because their toolchain was initially built sometime in the 60’s, they had a lot of code modernization and translation projects. Then they also had to integrate them with new tools and update them to the latest coding standards.
  
  Visual Assist’s refactoring feature has been an indispensable asset in updating the outdated code structures, making them more readable, memory-safe, and maintainable. It takes the pain out of manually bringing legacy or deprecated code up to standard by automatically renaming variables or extracting methods, reducing the risk of introducing errors during manual updates. This includes refactoring to use modern, secure and safe coding styles. Effectively Visual Assist simplifies their C++ code maintenance so that they can focus on manufacturing and designing parts, not code.
• Navigating old code and huge projects happens in a single click.
  Visual Assist greatly helps the team get around their huge legacy projects with smart navigation features. Finding and searching for certain sections of code is a cumbersome ordeal that VA just completely skips over with features like Find References, Find Symbols, the various Go To functions, and the like.
• Snappier performance on large projects and solutions.
  When it comes to handling large amounts of data, Visual Assist’s optimized startup speed and low memory footprint provides the team snappy and accurate code assistance. Due to the repetitive nature of their projects, the few seconds that Visual Assist saves compounds over time and can boost productivity by as much as 20%. 

This non-exhaustive list is a testament to how Visual Assist can save hundreds of hours of valuable productivity time by providing smart suggestions, speedy features, and a satisfying experience for the Visual Studio IDE.

Interested?

Interested in getting the same benefits you or your team? Visual Assist is free to try for thirty days. 

Whether you’re looking to boost your team’s productivity or optimizing your own development process, now’s the perfect time to upgrade your toolkit with one of the most trusted Visual Studio plugins. Click on the link below to learn more about Visual Assist.

The post Success Story: Visual Assist for modeling and simulation software for automotive C++ first appeared on Tomato Soup.

As a workaround for, what most Mac users have done (and is one of Microsoft’s recommendations) is to install a Virtual Machine on ARM Macs to emulate a Windows environment and use Visual Studio from there.

This guide will walk you through the entire process of installing and using Visual Studio on a Mac, with a special mention of a handy productivity plugin you can add to make its performance closer to a natively-installed app.

The Different Visual Studios on Mac

Before you dive right in, here’s something to consider before you install: there are similarly named versions of Visual Studio—and you need to know which one you are looking for.

The first one is the native app “Visual Studio 2022 for Mac” (VS 2022 Mac). The naming scheme is how Visual Studio Code is to Visual Studio—they’re two completely different products that confusingly share a similar name.

The native Visual Studio for Mac is largely based on Xamarin, another cross-platform framework for building native mobile apps on iOS, Android, and Windows. It is primarily used for C# or .NET development. Consequently, Visual Studio for Mac is also used primarily for C# development. 

VS 2022 Mac has been discontinued in favor of “Visual Studio Code” (VSC) for Mac. You can use Microsoft’s VSC with the new C# Dev Kit and related extensions in lieu of VS 2022 Mac. The caveat is that VSC may not be enough for C++ developers, or for C# developers who rely on VS’s frameworks and libraries for their app or program development needs.

Fortunately, if you’re opting for VSC on Mac, it may be good to know that there is less discrepancy between the Windows and Mac versions of VSC—just a few keystroke and shortcut differences. 

To summarize, here are the Visual Studios that you can use on Mac:

• Visual Studio 2022 for Mac — the Xamarin-like native app
• Visual Studio Code Mac — the VS text editor but on mac. Almost the same as Windows version
• Visual Studio Code Windows — the VS text editor
• Visual Studio Windows — the native Windows version (in our case, installed on a virtual machine)

Of course users can also opt to use alternative IDEs. In this blog, however, we will be teaching you how to install the second option—a virtual machine on your Apple-silicon Mac and installing Visual Studio, the complete Windows version, (VS for Windows on a VM) thereafter.

Why you may need Visual Studio for Windows on Mac

The primary reasons to use Visual Studio for Windows on a Mac are the following:

• Maintain compatibility with Windows-based projects
• Rely on certain features that are Windows version of Visual Studio-specific
• developing .NET applications
• working with Azure
• or integrating specific third-party tools that are Visual Studio-specific
• You use a Mac!

Other considerations may be based on developer preferences such as those who like Visual Studio for tasks like debugging complex applications, managing large solutions, or using specialized extensions that are only available on the Windows version.

For game developers using Unity, Xamarin developers building cross-platform mobile apps, or .NET developers focusing on backend and cloud development, using a VM allows you to retain access to the full suite of Visual Studio’s tools. This includes robust debugging features, integrated version control with Git, and comprehensive support for a variety of programming languages and frameworks.

Prerequisites for Installation

Visual Studio 2022 has official requirements which you can read here. However, we can summarize for some advice:

• It runs on both Intel and ARM computers
• You will need to install either the Intel or the ARM version of Windows. You can’t run the Intel version of Windows on an ARM Mac, not even in a VM. The ARM version of Windows runs Intel apps just fine, even including using a debugger, in our experience.
• Dedicate lots of RAM and multiple cores to your VM. We recommend a minimum of 4GB of your host Mac’s RAM goes to the virtual machine. In general, the beefier a machine is in terms of RAM and cores, the more VMs you can run at once.
• While you can use an old Intel Mac, the Apple Silicon ones are very performant and we strongly recommend using an M-series ARM Mac. Any of them. They’re all good.

If you’ve never used a virtual machine for development before, you might be worried about performance – after all, it’s not running directly on the hardware, right? In practice, this is not an issue. Modern CPUs have inbuilt support for running virtual machines and your VM is not emulated; it runs code directly on the CPU just like the host operating system does.

The biggest mistake people make is not giving a VM enough RAM or dedicated CPU cores. Run on a powerful machine and configure the VM to a couple of cores minimum, and at least 4GB of RAM minimum. If you do heavy computation on the VM (building large projects, etc) increase that. Make sure you have a host machine powerful enough that if you allocate, say, half its resources to the VM then both have enough resources to run. A Macbook Air has 8 cores, so you can allocate 2 to 4 to the VM; if you have 16GB of RAM, you can allocate 4GB to the VM and leave macOS 12GB. This kind of setup works well.

Before diving into the installation process, ensure your Mac meets the following requirements. To summarize, however, any recent computer will meet them in terms of performance—the more important components to consider are available RAM and disk space. 

Hardware Recommendations:

• Processor: Modern M-series (Apple Silicon) or Intel processors are more than capable of handling Visual Studio within a VM.
• RAM: Minimum of 4 GB (16 GB recommended for typical professional solutions).
• Hard Disk Space: Minimum of 850 MB up to 210 GB of available space, depending on the features installed (20-50 GB of free space is typical). Installing Windows and Visual Studio on a solid-state drive (SSD) is recommended for increased performance.

By following the recommended setup, you’ll meet or exceed the necessary hardware requirements, making your development experience seamless even within a virtualized environment.

Step-by-Step Installation Guide

In this guide, we’ll walk you through installing Visual Studio on your Mac using a virtual machine. Since Visual Studio is no longer natively supported on macOS, setting up a virtual machine (VM) is the best approach to ensure you have access to the full range of Visual Studio features. Below, we’ll outline the steps using Parallels Desktop, a popular VM software for Mac.

Step 1: Choosing Your Virtual Machine Software

Before installing Visual Studio, you need to set up a virtual machine that runs Windows on your Mac. Here are some of the top options currently available:

• Parallels Desktop: Known for its seamless integration with macOS, Parallels is user-friendly and optimized for running Windows on Apple Silicon (M1/M2) and Intel-based Macs.
• VMware Fusion: A robust alternative to Parallels, VMware Fusion offers advanced features and supports a wide range of operating systems.
• VirtualBox: An open-source option that is free to use, though it may require more manual configuration and might not offer the same level of performance as Parallels or VMware Fusion.

For this guide, we’ll focus on Parallels Desktop. This is the officially supported way Microsoft offers to run Windows on a modern ARM Mac.

Step 2: Installing Parallels Desktop

1. Download Parallels Desktop:
   • Visit the Parallels Desktop website.
   • Click on the “Try Now” or “Buy Now” button, depending on whether you want a trial or full version.
   • The installer file will start downloading.
2. Install Parallels Desktop:
   • Open the downloaded .dmg file.
   • Drag the Parallels Desktop icon to the Applications folder.
   • Open the Applications folder and double-click the Parallels Desktop icon to launch it.
   • Follow the on-screen instructions to complete the installation. You may need to grant permissions and sign in with a Parallels account.
     
3. Set Up a New Windows Virtual Machine.
   
   • When you first launch Parallels Desktop, it will prompt you to set up a new VM.
     
   • Choose to install Windows from an ISO image file or from an existing Windows installation disk
   • Parallels may also offer the option to download and install Windows directly, streamlining the process
     
     
   • Follow the prompts to complete the Windows installation. This process may take some time as Windows sets up.

If you’ve done everything correctly, you will get to this confirmation screen.

Step 3: Downloading Visual Studio for Windows

Now that you have Windows running on your Mac via Parallels, you can proceed with installing Visual Studio.

1. Download Visual Studio:
   • Within your Windows VM, open a web browser and visit the Visual Studio download page.
   • Choose the edition of Visual Studio you want to install (Community, Professional, or Enterprise).
   • Click the “Download” button to start downloading the installer.
     
     

     Note: This is open on a browser window inside the VM.

      

2. Install Visual Studio:
   • Once the download is complete, open the installer file.
   • Follow the on-screen instructions to select your workload preferences (e.g., C++ desktop development, .NET desktop development, ASP.NET and web development, game development with Unity).
   • Click “Install” to begin the installation. This process may take some time, depending on the selected workloads and your internet speed.
   • After installation, launch Visual Studio from the Start menu within your Windows VM.
     

     
     

Step 4: Setting Up Your First Project

1. Once Visual Studio is installed, open it and select “New Project.”
2. Choose the type of project you want to create (e.g., Console App, Web App, Mobile App).
3. Follow the prompts to configure your project, including setting the project name and location.
4. Click “Create” to generate your new project.
   

Using Visual Studio for Windows on Mac: Navigating the Interface and optimizing the Virtual Machine

When running Visual Studio on a virtual machine (VM) on your Mac, there are some key differences and considerations to keep in mind to ensure a smooth development experience:

Keyboard Shortcuts

Running Visual Studio in a VM can result in some keyboard shortcuts behaving differently than they would on a native Windows PC. This is due to differences in how macOS and Windows handle certain key combinations. Here are a few tips:

• Cmd vs. Ctrl Mapping: Parallels lets you map macOS shortcuts to their Windows equivalents, enabling the use of familiar macOS commands like Cmd+C for copy and Cmd+V for paste in your Windows VM. This can be configured under Devices & Sound > Keyboard by enabling the “Use macOS shortcuts” option.
• Function Keys in Parallels: Adjust the behavior of function keys (F1-F12) in Parallels to operate as standard function keys for Visual Studio commands. Access these settings via Parallels Desktop > Preferences > Shortcuts or under Devices & Sound > Keyboard for your VM.
• Customize Mac System Settings: Alternatively, modify your Mac’s System Preferences > Keyboard by checking “Use F1, F2, etc. keys as standard function keys.” This avoids needing to press the Fn key when using function keys in Visual Studio within a Parallels VM.
• Customizing Shortcuts in Visual Studio: If certain shortcuts aren’t functioning as expected within the VM, customize your keyboard shortcuts directly in Visual Studio under Tools > Options > Environment > Keyboard.
• Windows Apps on the Mac Taskbar: Parallels can display Windows apps on the Mac taskbar. If you prefer a cleaner interface, disable this feature in Parallels settings to avoid taskbar clutter.
• Folder Sharing in Parallels: Parallels shares many folders between your Mac and the VM by default. For increased privacy or security, customize sharing options to limit access to specific folders, such as only sharing your Downloads or a dedicated project folder.
• System Resource Allocation: Optimize CPU, RAM, and disk space allocation for your VM based on your workload. Proper allocation ensures both your Mac and the VM perform smoothly during demanding tasks like code compilation.

Display and Resolution

When running a VM, Parallels offers different display modes to suit your workflow:

• Fullscreen Mode: Parallels can run your VM in fullscreen, integrating it seamlessly into your Mac’s desktop environment. You can use macOS Spaces to switch between your VM and other macOS apps effortlessly.
• Windowed Mode: If you prefer to keep your VM contained, Windowed mode lets you run Windows inside a resizable window on your desktop. This can be useful for quickly accessing other macOS applications without losing sight of your VM.
• Coherence Mode: This mode allows Windows applications to appear alongside macOS apps on your desktop, blending the two environments. While it looks impressive, it can sometimes cause graphical glitches. In my experience, it’s a neat marketing feature, but not always practical for everyday use. However, some users find it very effective for their needs, so it’s worth experimenting with if you’re curious.

Parallels generally sets up Windows with the correct DPI settings automatically, so display resolution issues are rare. Adjusting these settings usually requires deliberate changes, making it easy to maintain a crisp and consistent interface across your VM and macOS.

Enhancing the Experience with Visual Assist

Developing on a VM can present unique challenges, but with the right setup and a few tweaks, you can create a development environment that’s nearly as effective as working on a native Windows machine. By paying attention to how keyboard shortcuts behave, optimizing performance settings, and ensuring good network connectivity, you can make the most out of Visual Studio in a virtualized environment on your Mac.

Visual Assist, renowned for its powerful productivity features, is now fully supported on ARM devices, including Macs with Apple Silicon (M1, M2, etc). Here’s how to install it:

1. Initiate the Virtual Machine environment. Launch whatever VM you installed.
2. Open Visual Studio on your Mac: Launch the Visual Studio application to begin the installation process.
3. Navigate to Extensions > Manage Extensions: In the top menu, click on “Extensions,” then select “Manage Extensions” from the dropdown. This will open the Extensions Manager window.
4. Search for “Visual Assist” and click “Install”: In the Extensions Manager, use the search bar to find “Visual Assist.” Once located, click the “Install” button next to the extension. You can also download it straight from the VS marketplace. The installation process will begin automatically.
   
   
5. Restart Visual Studio to enable the extension: After installation, restart Visual Studio to activate Visual Assist. Once restarted, you will have access to all the powerful features Visual Assist offers.

Benefits of Visual Assist on ARM Devices

With Visual Assist enabled on ARM devices, Mac users can experience a significant boost in productivity and code quality. Here are some of the key benefits:

• Full ARM support. Visual Assist added ARM support which includes Mac silicon-based devices. For those using VMs, this is one of the best workarounds to getting a better VS experience.
• Enhanced Code Navigation: Quickly jump to definitions, references, and symbols within your codebase. This feature allows you to navigate complex projects with ease, reducing the time spent searching for specific code elements and improving overall efficiency.
• Refactoring Tools: Easily refactor code with powerful tools like Rename, Encapsulate Field, and Extract Method. These tools help maintain clean and organized code by automating common refactoring tasks, making it easier to implement changes and ensure code consistency.
• Code Assistance: Improved IntelliSense with better suggestions and real-time error checking. Visual Assist enhances IntelliSense by providing more accurate and context-aware code completions, helping you write code faster and with fewer errors. Real-time error checking also helps you catch and fix issues as you code, reducing the likelihood of bugs in your final product.
• Performance Optimization: Visual Assist is optimized for ARM architecture, ensuring smooth and efficient performance on M1 and M2 Macs. This optimization takes full advantage of the advanced capabilities of Apple Silicon, providing a responsive and lag-free development experience even for large and complex projects.
• Advanced Code Analysis: Visual Assist includes advanced code analysis tools that help you understand and improve your codebase. These tools identify potential issues, suggest improvements, and provide insights into code complexity and maintainability, enabling you to write high-quality code.
• Customizable Shortcuts and Commands: Tailor your development environment to your workflow by customizing shortcuts and commands. Visual Assist allows you to configure key bindings and commands to suit your preferences, making it easier to access frequently used features and streamline your coding process.
• Seamless Integration with Visual Studio: Visual Assist integrates seamlessly with Visual Studio for Mac, providing a cohesive and unified development experience. The extension works alongside other Visual Studio tools and features, enhancing the overall functionality of the IDE without disrupting your workflow.

By leveraging the capabilities of Visual Assist on ARM devices, you can significantly enhance your coding experience on Mac. Whether you’re working on small projects or large-scale applications, Visual Assist provides the tools and features you need to be more productive and write better code.

Conclusion

Congratulations! You have successfully installed Visual Studio on a virtual machine. You should now be able to develop as you would normally on a native Windows device. Tech is always changing and we can assume that with advances in both hardware and software, we will be able to utilize more performance with less in the future—but for now, enjoy your new virtual machine, fit with a fresh install of Visual Studio! Happy coding.

The post Installing Virtual Machines to use Visual Studio on Mac first appeared on Tomato Soup.

IMPORTANT: Users of 2024.5 should upgrade as soon as possible, or install the previous version 2024.4.
To get the latest version, visit our website now and download the new update.

Visual Assist 2024.6 brings two critical fixes for Visual Assist’s interaction with Visual Studio.

• The first fix in this release addresses a critical issue that could sometimes cause Visual Studio to crash when saving files. This fix enhances the stability of the IDE, ensuring a smoother and more reliable experience while working on your projects.
• Secondly, we have resolved an issue where the Visual Studio installer would crash on versions of Windows older than Windows 10. This fix ensures that users running older operating systems can install and update Visual Studio without encountering disruptions. This should provide a seamless setup experience across all supported Visual Assist-supported versions of Visual Studio.

We appreciate your patience and feedback as we continue to improve Visual Assist for all our users. Please continue to report issues and we will do our best to get them sorted out quickly.

The post Visual Assist 2024.6 release post – Important fixes for Visual Studio first appeared on Tomato Soup.

Download the release now and get the benefits of VA 2024.1.

Significantly faster initial startup time

Initial parse time is defined by how long it takes Visual Assist and Visual Studio to become fully active, starting from the moment a new file is loaded up for the first until it fully completes its initial parse (i.e. all features loaded and functional.)

Startup times just got extremely buffed in the first release of Visual Assist this year. The initial project parsing that Visual Assist executes when opening projects for the first time has now been significantly reduced. An example Unreal Engine project, when opened for the first time, used to take 15 minutes; it now takes just under two minutes instead! This is a huge improvement, and you will see this reflected in all projects that are opened and parsed.

More testing is underway to provide a better and more accurate performance number, but the developer team has found excellent results in their tests so far. Reports show a trend of having significantly reduced parse time for a sizable Unreal Engine project—with results averaging up to fifteen times faster initialization.

Update on Initial Parsing Time: More Testing Results

More testing results for Visual Assist’s updated parser are in! Here are the results:

Initial parsing time is defined as the point where the Visual Assist starts parsing up to the end where it completes it. This project used the latest Visual Studio 2022 version as of Feb 10 (VS 2022 17.8.6) on the Lyra sample game project provided by Epic Games. Two performance benchmarks on two different devices were done using the same methodology. 

Device 1  (High-end Desktop PC)

Device 2 (Gaming-class laptop)

Both test runs show very exciting results for the overhauled VA 2024.1 parser over its immediate predecessor VA 2023.6.

The test showed an average 1075% faster parse time using a high-end desktop PC; and 1333.08% faster parse using a powerful albeit relatively less performant gaming laptop. That’s 11 and 13 times faster, respectively. 

There is variance in the advantages gained between the two devices, with a significant performance edge on the less powerful laptop. We suspect the gains could be much larger on low and mid-end computers or laptops.

Curious to see how VA 2024.1 performs on your platform? Download a free trial of Visual Assist and try it for yourself now.

Navigate directly to a class constructor definition from an explicit constructor call

This neat addition to VA’s find reference and go to reference features allows users to find and navigate to a class’s constructor definition from a call to that constructor. 

Highlight or click over a constructor and use the shortcut Alt + G to navigate instantly to the default constructor.

Improved and expanded header selection when using Add Include

This release greatly improves VA’s Add Include detection and expands the number of actual includes supported. 

If you have not used this feature extensively VA can automatically add includes directives for you if it detects you are using an undeclared feature or type from a known library such as STL or even your own code elsewhere. Specifically, this update adds many new types baked into C++ such as std::stringstream and std::once_flag.

In essence, using Add include should automatically insert the correct include under many more circumstances.

Code completion dropdown toolbar now displayed by default 

The coding completion toolbar will now be turned on by default and will be displayed more frequently. This new quality of life change brings a visual UI as you write code. VA tries to predict your intended actions so the options shown will always be contextual apart from being accurate.

Furthermore, when you type code, the code completion UI will be shown by default regardless if you are hovering your cursor over the current portion of the code.

The code completion toolbar is displayed as you type code.

For very large projects and long source code, you can use the filter options (highlighted in the screenshot above) to select which options are shown in the new toolbar.

Bug fixes and improvements

For this release, we have severak fixes—both from examining recent features and user reports. The most notable of these improvements include functional visual changes to a plethora of features and better parser recognition of Unreal code.

• Fixed visual issues with completion dropdown toolbar
• Fixed issue where trial activation dialog could display an error and prevent activation
• Fixed issue with new “Magic Numbers” detecting Code Inspection where it was highlighting only a portion of the constant
• Fixed issue where logging could overflow and cause a crash when enabled alongside very large solutions
• Fixed issue where preprocessor directives in shader files were sometimes colored as methods
• Fixed issue where Unreal Engine Create***Subobject symbols were not recognized by our parser
• Fixed issue where changing the signature of an Unreal Engine method which requires a *_Validate thunk would result in rewriting the return of the *_Validate thunk to void.
• Fixed issue where typing a dot the start of the word in a few of our dialogs would result in no hits being displayed

Many thank to those who submitted their suggestions and error reports. Please continue reporting problems you may find along the way. To report bugs, you can send us a message or start a thread on the user forum.
You can also check our download page to update to the latest release manually. Happy coding!

The post Visual Assist 2024.1 release post first appeared on Tomato Soup.