Discussion between Emperor Eto and IInspectable

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16:23

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C++/WinRT is a language projection for Windows Runtime (WinRT) APIs. The Windows Runtime1 is the foundational infrastructure used by Windows to expose its APIs. It is intended to be the successor to the flat, C-based Win32 API (although you can use the Windows Runtime and the Windows API side by ...

IInspectable

I don't know how widely it is really used. I believe it's replaced everything that used to be WRL and C++/CX inside Microsoft. Outside Microsoft I have not ever seen a job offer that indicated use of C++/WinRT (or even just native Windows Runtime development). MS have done an entirely poor job of explaining, what the Windows Runtime is, how language projections fit into that picture, and how UWP is not the same as the Windows Runtime. It seems like everyone thinks that the Windows Runtime is managed code, best used with C#, and requires targeting the UWP (all 3 are wrong).

That really depends on what you need. For my personal tools I often just use a classic Desktop UI, a main dialog, scripted within an .rc file, plus a lot of C++/WinRT to interface with the Windows Runtime. And a fair amount of Win32 API calls, either because there's no equivalent in the Windows Runtime, or simply because it's less of a hassle to open a file in the Windows API. You can mix all of that inside a single application, even a command line application. Using XAML with C++/WinRT is still troublesome. It's fun, when it works, but it frequently doesn't.

Correct, just your average dialog-based Win32 application, with a single line of code inside wWinMain, that returns whatever DialogBoxParamW returns. To me that's still the fastest way to get a C++ application with a GUI up and running. And yes, as long as you are running on Windows 10, you get access to all functionality exposed through the Windows Runtime (with few exceptions, the require an app identity, and need to run in an app container).

@jul: COM supports only interface inheritance at the ABI level. That doesn't place restrictions on the implementation. A COM object implemented in C++ is free to derive from base classes (like the winrt::implements class template), so long as it maintains a COM-compatible v-table layout for the inherited interfaces. WinRT still uses the same COM invented in the mid-90's. C++/WinRT conveniently (to some) hides all of ABI-level mechanics, mapping the "classy" WinRT API to familiar C++ idioms.

That said, so far as I know, a hypothetical C/WinRT language projection would still be possible. I don't see much any merit in this, though: It would just mean programming against the ABI. Which is the cumbersome job that all the other language projections do for you.

@jul: The information is scattered around the MSDN. The most enlightening tidbit - to me - is from The Component Object Model: "COM [...] is not an object-oriented language but a standard. [...] The only language requirement for COM is that code is generated in a language that can create structures of pointers and, either explicitly or implicitly, call functions through pointers. Object-oriented languages [...] provide programming mechanisms that simplify the implementation of COM objects [...]."

Emperor Eto

A few points here I don't think are accurate. WPF and standard Win32 have nothing to do with "Windows Runtime". Windows Runtime (RT) was introduced with Windows 8 as a failed attempt to move Windows to a sandbox system like iOS. The Win32 APIs (both C-style and COM) that existed before that, and to my knowledge many added since, have nothing to do with RT. Any app that can run on Windows 7 (including WPF) has nothing to do with RT. Some of the Microsoft literature suggests that the RT APIs are meant to replace the Win32 APIs, but this is wishful thinking at best.

Additionally at the time this post was authored WinRT did have a standard name - Universal Windows Platform (UWP) - though it took many years to go from Metro to "Modern" to "UAP" and then finally UWP. Also I don't believe it uses Direct2D but rather the Composition API which is a retained mode rendering system that - I think (but MS hasn't confirmed AFAIK) - is just a wrapper for DirectComposition. Indeed a D2D or Skia based UI would have much better performance on lighter hardware, just look at Avalonia.

Anyway, at bottom Windows Runtime was an attempt to build into the OS what the .NET Runtime does at the application level. It manages the creation and lifecycle of objects and abstracts away most direct access to the OS - again in an attempt to create a sandbox style app system. The Win32 API lives below it. Thankfully the new WinUI 3 for dekstop apps, while it relies on some of the same APIs, lives at the application level and doesn't use the OS's sandbox system. So the "Windows Runtime", at least in the form we knew it from the Windows 8 and 8.1 days, is a dying tech.

IInspectable

@EmperorEto "WPF and standard Win32 have nothing to do with "Windows Runtime"" - This answer doesn't claim otherwise. It specifically says that Windows Runtime types can be used from WPF and classic Win32 applications. "Windows Runtime (RT) was introduced with Windows 8 as [an] attempt to move Windows to a sandbox system." - The Windows Runtime makes no attempt whatsoever to "sandbox" access to system resources. You must be confusing the technology ("Windows Runtime") with one of its most prominent clients ("Universal Windows Platform").

Emperor Eto

Oh my mistake, you wrote "Windows Presentation Platform" and I read "Windows Presentation Foundation." Sorry. But you're wrong, or we're talking past each other, about RT not attempting to sandbox resources. I used the original Windows 8 and 8.1 for "metro" apps. "The Runtime" was always the thing cited in the documentation as preventing you from, for example, accessing files outside the user area or using Win32 APIs you weren't supposed to.

IInspectable

@EmperorEto "Additionally at the time this post was authored WinRT did have a standard name - Universal Windows Platform (UWP) - though it took many years to go from Metro to "Modern" to "UAP" and then finally UWP" - Please be more careful when reading. This answer explicitly calls out the UI Framework as not having a name. To date, this statement holds true.

@EmperorEto ""The Runtime" was always the thing cited in the documentation as preventing you from, for example, accessing files outside the user area or using Win32 APIs you weren't supposed to." - Maybe that was in the documentation. But it was never the Windows Runtime that implemented any sandboxing. It had always been the platform (the UWP as introduced in Windows 10, and its predecessor that - color me surprised - never had an official name either).

Emperor Eto

16:23

As of 2020, "UWP" was the name for the application/UI framework that lived atop the WIndows Runtime. Many people including MS used these terms interchangeably. Btw there's nothing and never was anything ultimately released called Windows Presentation Platform so you'll forgive me for reading that one as WPF. Anyway the UI framework is now called WinUI. So the statement was wrong in 2020 and still is. I'll grant you that Microsoft has made this extraordinarily confusing but this post really doesn't help matters.

"But it was never the Windows Runtime that implemented any sandboxing" it's true that you don't HAVE to use sandboxing with Windows Runtime APIs, but Windows Runtime is what supports the sandboxing used in Metro and UWP. True sandboxing wasn't and isn't possible before Windows 8 and/or with classic Win32.

IInspectable

@EmperorEto ""UWP" was the name for the application/UI framework" - That's incorrect. The UWP describes a platform mandating a specific application model (that never received a name, either; it got approximated by "Windows Store App" or "Microsoft Store App"). The UI framework was equally left unnamed. "There's nothing and never was anything ultimately released called Windows Presentation Platform." - I know. I'd been repeating that it remains unnamed. The Tech Community Talk I linked to went missing.

@EmperorEto "The UI framework is now called WinUI" - No, that's wrong. WinUI is an external UI library that doesn't ship with the OS. WinUI 2 can be used when targeting the UWP but it is distinctly different from the system component implementing the UI used by the UWP (it's hard to phrase since that UI framework doesn't have a name, unlike, say, "Windows Forms" or "WPF").

@EmperorEto "Windows Runtime is what supports the sandboxing" - Wrong again. API sets (rolled out during the Windows 7 timeframe) are the foundational technology that supports "sandboxing". In theory, API sets can be used by any application model to restrict access. The UWP is but one platform implementation that does.

Emperor Eto

Ok well you're obviously not going to agree with me, but no I'm not wrong on either point. At best you are using terms not in the way they are commonly used. All I can do is vote. Cheers.

IInspectable

@EmperorEto "You're obviously not going to agree with me." - Correct. I won't agree with an opinion not backed by facts. "I'm not wrong on either point" - I literally just debunked every statement made. It's hard to conclude that those statements weren't wrong. "All I can do is vote." - Now that I wholeheartedly welcome! This place would be healthier if we didn't charge for down-votes on proposed answers.

Emperor Eto

I don't doubt your technical mastery of the underlying tech and architecture but the way you're choosing to define the layers and terms like "sandbox" is different from how Microsoft uses them and I think how they're commonly understood.

Re: UWP, I say that's the "application/UI framework." You say instead it's a "platform mandating a specific application model". I don't understand how/why you think those are different. Maybe you're right on some technical level that's not relevant to the average programmer but anytime UWP is used it's meant to refer to a XAML-based app running on atop the Windows Runtime in a sandbox. That's what everyone understands it to mean.

WinUI 3 is a XAML-based app running a top Win32 and some aspects of the Windows Runtime and not in a sandbox.

Things like CoreDispatcher and CoreWindow and IInspectable (your name!) come from Windows Runtime. They all have important roles in Metro/UWP sandboxing.

And of those 3 only IInspectable is used in WinUI3 desktop apps. CoreDispatcher and CoreWindow are out which is why we can finally do normal things again.

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Discussion between Emperor Eto and II…